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chromium / chromium / src / 9ddd19577633e02c8c6f6ae83ee5efd9e2c4c567 / . / tools / clang / scripts / update.sh
blob: e1158d282a1bfd0f63118399b4fcec718451038f [file] [log] [blame]
#!/usr/bin/env bash
# Copyright (c) 2012 The Chromium Authors. All rights reserved.
# Use of this source code is governed by a BSD-style license that can be
# found in the LICENSE file.
# This script will check out llvm and clang into third_party/llvm and build it.
# Do NOT CHANGE this if you don't know what you're doing -- see
# https://code.google.com/p/chromium/wiki/UpdatingClang
# Reverting problematic clang rolls is safe, though.
CLANG_REVISION=254049
# This is incremented when pushing a new build of Clang at the same revision.
CLANG_SUB_REVISION=1
PACKAGE_VERSION="${CLANG_REVISION}-${CLANG_SUB_REVISION}"
THIS_DIR="$(dirname "${0}")"
LLVM_DIR="${THIS_DIR}/../../../third_party/llvm"
LLVM_BUILD_DIR="${LLVM_DIR}/../llvm-build/Release+Asserts"
COMPILER_RT_BUILD_DIR="${LLVM_DIR}/../llvm-build/compiler-rt"
LLVM_BOOTSTRAP_DIR="${LLVM_DIR}/../llvm-bootstrap"
LLVM_BOOTSTRAP_INSTALL_DIR="${LLVM_DIR}/../llvm-bootstrap-install"
CLANG_DIR="${LLVM_DIR}/tools/clang"
COMPILER_RT_DIR="${LLVM_DIR}/compiler-rt"
LIBCXX_DIR="${LLVM_DIR}/projects/libcxx"
LIBCXXABI_DIR="${LLVM_DIR}/projects/libcxxabi"
ANDROID_NDK_DIR="${THIS_DIR}/../../../third_party/android_tools/ndk"
STAMP_FILE="${LLVM_DIR}/../llvm-build/cr_build_revision"
CHROMIUM_TOOLS_DIR="${THIS_DIR}/.."
BINUTILS_DIR="${THIS_DIR}/../../../third_party/binutils"
ABS_CHROMIUM_TOOLS_DIR="${PWD}/${CHROMIUM_TOOLS_DIR}"
ABS_LIBCXX_DIR="${PWD}/${LIBCXX_DIR}"
ABS_LIBCXXABI_DIR="${PWD}/${LIBCXXABI_DIR}"
ABS_LLVM_DIR="${PWD}/${LLVM_DIR}"
ABS_LLVM_BUILD_DIR="${PWD}/${LLVM_BUILD_DIR}"
ABS_COMPILER_RT_DIR="${PWD}/${COMPILER_RT_DIR}"
ABS_BINUTILS_DIR="${PWD}/${BINUTILS_DIR}"
# ${A:-a} returns $A if it's set, a else.
LLVM_REPO_URL=${LLVM_URL:-https://llvm.org/svn/llvm-project}
CDS_URL=https://commondatastorage.googleapis.com/chromium-browser-clang
if [[ -z "$GYP_DEFINES" ]]; then
GYP_DEFINES=
fi
if [[ -z "$GYP_GENERATORS" ]]; then
GYP_GENERATORS=
fi
if [[ -z "$LLVM_DOWNLOAD_GOLD_PLUGIN" ]]; then
LLVM_DOWNLOAD_GOLD_PLUGIN=
fi
OS="$(uname -s)"
if [[ "${OS}" == "Linux" ]] && \
[[ "$GYP_DEFINES" =~ .*buildtype=Official.* ]] && \
[[ "$GYP_DEFINES" =~ .*branding=Chrome.* ]] ; then
# LLVM Gold plugin is required to build with this configuration.
LLVM_DOWNLOAD_GOLD_PLUGIN=1
fi
# Die if any command dies, error on undefined variable expansions.
set -eu
if [[ -n ${LLVM_FORCE_HEAD_REVISION:-''} ]]; then
# Use a real revision number rather than HEAD to make sure that the stamp file
# logic works.
CLANG_REVISION=$(svn info "$LLVM_REPO_URL" \
| grep 'Revision:' | awk '{ printf $2; }')
PACKAGE_VERSION="${CLANG_REVISION}-0"
fi
# Parse command line options.
if_needed=
force_local_build=
run_tests=
bootstrap=
with_android=yes
chrome_tools="plugins;blink_gc_plugin"
gcc_toolchain=
if [[ "${OS}" = "Darwin" ]]; then
with_android=
fi
while [[ $# > 0 ]]; do
case $1 in
--bootstrap)
bootstrap=yes
;;
--if-needed)
if_needed=yes
;;
--force-local-build)
force_local_build=yes
;;
--print-revision)
if [[ -n ${LLVM_FORCE_HEAD_REVISION:-''} ]]; then
svn info "$LLVM_DIR" | grep 'Revision:' | awk '{ printf $2; }'
else
echo $PACKAGE_VERSION
fi
exit 0
;;
--run-tests)
run_tests=yes
;;
--without-android)
with_android=
;;
--with-chrome-tools)
shift
if [[ $# == 0 ]]; then
echo "--with-chrome-tools requires an argument."
exit 1
fi
chrome_tools=$1
;;
--gcc-toolchain)
shift
if [[ $# == 0 ]]; then
echo "--gcc-toolchain requires an argument."
exit 1
fi
if [[ -x "$1/bin/gcc" ]]; then
gcc_toolchain=$1
else
echo "Invalid --gcc-toolchain: '$1'."
echo "'$1/bin/gcc' does not appear to be valid."
exit 1
fi
;;
--help)
echo "usage: $0 [--force-local-build] [--if-needed] [--run-tests] "
echo "--bootstrap: First build clang with CC, then with itself."
echo "--force-local-build: Don't try to download prebuilt binaries."
echo "--if-needed: Download clang only if the script thinks it is needed."
echo "--run-tests: Run tests after building. Only for local builds."
echo "--print-revision: Print current clang revision and exit."
echo "--without-android: Don't build ASan Android runtime library."
echo "--with-chrome-tools: Select which chrome tools to build." \
"Defaults to plugins;blink_gc_plugin."
echo " Example: --with-chrome-tools plugins;empty-string"
echo "--gcc-toolchain: Set the prefix for which GCC version should"
echo " be used for building. For example, to use gcc in"
echo " /opt/foo/bin/gcc, use '--gcc-toolchain '/opt/foo"
echo
exit 1
;;
*)
echo "Unknown argument: '$1'."
echo "Use --help for help."
exit 1
;;
esac
shift
done
if [[ -n ${LLVM_FORCE_HEAD_REVISION:-''} ]]; then
force_local_build=yes
if ! [[ "$GYP_DEFINES" =~ .*OS=android.* ]]; then
# Only build the Android ASan rt when targetting Android.
with_android=
fi
LLVM_BUILD_TOOLS_DIR="${ABS_LLVM_DIR}/../llvm-build-tools"
if [[ "${OS}" == "Linux" ]] && [[ -z "${gcc_toolchain}" ]]; then
if [[ $(gcc -dumpversion) < "4.7.0" ]]; then
# We need a newer GCC version.
if [[ ! -e "${LLVM_BUILD_TOOLS_DIR}/gcc482" ]]; then
echo "Downloading pre-built GCC 4.8.2..."
mkdir -p "${LLVM_BUILD_TOOLS_DIR}"
curl --fail -L "${CDS_URL}/tools/gcc482.tgz" | \
tar zxf - -C "${LLVM_BUILD_TOOLS_DIR}"
echo Done
fi
gcc_toolchain="${LLVM_BUILD_TOOLS_DIR}/gcc482"
else
# Always set gcc_toolchain; llvm-symbolizer needs the bundled libstdc++.
gcc_toolchain="$(dirname $(dirname $(which gcc)))"
fi
fi
if [[ "${OS}" == "Linux" || "${OS}" == "Darwin" ]]; then
if [[ $(cmake --version | grep -Eo '[0-9.]+') < "3.0" ]]; then
# We need a newer CMake version.
if [[ ! -e "${LLVM_BUILD_TOOLS_DIR}/cmake310" ]]; then
echo "Downloading pre-built CMake 3.10..."
mkdir -p "${LLVM_BUILD_TOOLS_DIR}"
curl --fail -L "${CDS_URL}/tools/cmake310_${OS}.tgz" | \
tar zxf - -C "${LLVM_BUILD_TOOLS_DIR}"
echo Done
fi
export PATH="${LLVM_BUILD_TOOLS_DIR}/cmake310/bin:${PATH}"
fi
fi
echo "LLVM_FORCE_HEAD_REVISION was set; using r${CLANG_REVISION}"
fi
if [[ -n "$if_needed" ]]; then
if [[ "${OS}" == "Darwin" ]]; then
# clang is always used on Mac.
true
elif [[ "${OS}" == "Linux" ]]; then
# clang is also aways used on Linux.
true
elif [[ "$GYP_DEFINES" =~ .*(clang|tsan|asan|lsan|msan)=1.* ]]; then
# clang requested via $GYP_DEFINES.
true
elif [[ -d "${LLVM_BUILD_DIR}" ]]; then
# clang previously downloaded, keep it up-to-date.
# If you don't want this, delete third_party/llvm-build on your machine.
true
else
# clang wasn't needed, not doing anything.
exit 0
fi
fi
# Check if there's anything to be done, exit early if not.
if [[ -f "${STAMP_FILE}" ]]; then
PREVIOUSLY_BUILT_REVISON=$(cat "${STAMP_FILE}")
if [[ -z "$force_local_build" ]] && \
[[ "${PREVIOUSLY_BUILT_REVISON}" = \
"${PACKAGE_VERSION}" ]]; then
echo "Clang already at ${PACKAGE_VERSION}"
if [[ -z "${LLVM_DOWNLOAD_GOLD_PLUGIN}" ]] || \
[[ -f "${LLVM_BUILD_DIR}/lib/LLVMgold.so" ]]; then
exit 0
fi
fi
fi
# To always force a new build if someone interrupts their build half way.
rm -f "${STAMP_FILE}"
if [[ -z "$force_local_build" ]]; then
# Check if there's a prebuilt binary and if so just fetch that. That's faster,
# and goma relies on having matching binary hashes on client and server too.
CDS_FILE="clang-${PACKAGE_VERSION}.tgz"
CDS_OUT_DIR=$(mktemp -d -t clang_download.XXXXXX)
CDS_OUTPUT="${CDS_OUT_DIR}/${CDS_FILE}"
if [ "${OS}" = "Linux" ]; then
CDS_FULL_URL="${CDS_URL}/Linux_x64/${CDS_FILE}"
elif [ "${OS}" = "Darwin" ]; then
CDS_FULL_URL="${CDS_URL}/Mac/${CDS_FILE}"
fi
echo Trying to download prebuilt clang
if which curl > /dev/null; then
curl -L --fail "${CDS_FULL_URL}" -o "${CDS_OUTPUT}" || \
rm -rf "${CDS_OUT_DIR}"
elif which wget > /dev/null; then
wget "${CDS_FULL_URL}" -O "${CDS_OUTPUT}" || rm -rf "${CDS_OUT_DIR}"
else
echo "Neither curl nor wget found. Please install one of these."
exit 1
fi
if [ -f "${CDS_OUTPUT}" ]; then
rm -rf "${LLVM_BUILD_DIR}"
mkdir -p "${LLVM_BUILD_DIR}"
tar -xzf "${CDS_OUTPUT}" -C "${LLVM_BUILD_DIR}"
echo clang "${PACKAGE_VERSION}" unpacked
echo "${PACKAGE_VERSION}" > "${STAMP_FILE}"
rm -rf "${CDS_OUT_DIR}"
# Download the gold plugin if requested to by an environment variable.
# This is used by the CFI ClusterFuzz bot.
if [[ -n "${LLVM_DOWNLOAD_GOLD_PLUGIN}" ]]; then
${THIS_DIR}/../../../build/download_gold_plugin.py
fi
exit 0
else
echo Did not find prebuilt clang "${PACKAGE_VERSION}", building
fi
fi
if [[ -n "${with_android}" ]] && ! [[ -d "${ANDROID_NDK_DIR}" ]]; then
echo "Android NDK not found at ${ANDROID_NDK_DIR}"
echo "The Android NDK is needed to build a Clang whose -fsanitize=address"
echo "works on Android. See "
echo "http://code.google.com/p/chromium/wiki/AndroidBuildInstructions for how"
echo "to install the NDK, or pass --without-android."
exit 1
fi
# Check that cmake and ninja are available.
if ! which cmake > /dev/null; then
echo "CMake needed to build clang; please install"
exit 1
fi
if ! which ninja > /dev/null; then
echo "ninja needed to build clang, please install"
exit 1
fi
echo Remove the Clang tools shim dir
CHROME_TOOLS_SHIM_DIR=${ABS_LLVM_DIR}/tools/chrometools
rm -rfv ${CHROME_TOOLS_SHIM_DIR}
echo Getting LLVM r"${CLANG_REVISION}" in "${LLVM_DIR}"
if ! svn co --force "${LLVM_REPO_URL}/llvm/trunk@${CLANG_REVISION}" \
"${LLVM_DIR}"; then
echo Checkout failed, retrying
rm -rf "${LLVM_DIR}"
svn co --force "${LLVM_REPO_URL}/llvm/trunk@${CLANG_REVISION}" "${LLVM_DIR}"
fi
echo Getting clang r"${CLANG_REVISION}" in "${CLANG_DIR}"
svn co --force "${LLVM_REPO_URL}/cfe/trunk@${CLANG_REVISION}" "${CLANG_DIR}"
# We have moved from building compiler-rt in the LLVM tree, to a separate
# directory. Nuke any previous checkout to avoid building it.
rm -rf "${LLVM_DIR}/projects/compiler-rt"
echo Getting compiler-rt r"${CLANG_REVISION}" in "${COMPILER_RT_DIR}"
svn co --force "${LLVM_REPO_URL}/compiler-rt/trunk@${CLANG_REVISION}" \
"${COMPILER_RT_DIR}"
# clang needs a libc++ checkout, else -stdlib=libc++ won't find includes
# (i.e. this is needed for bootstrap builds).
if [ "${OS}" = "Darwin" ]; then
echo Getting libc++ r"${CLANG_REVISION}" in "${LIBCXX_DIR}"
svn co --force "${LLVM_REPO_URL}/libcxx/trunk@${CLANG_REVISION}" \
"${LIBCXX_DIR}"
fi
# While we're bundling our own libc++ on OS X, we need to compile libc++abi
# into it too (since OS X 10.6 doesn't have libc++abi.dylib either).
if [ "${OS}" = "Darwin" ]; then
echo Getting libc++abi r"${CLANG_REVISION}" in "${LIBCXXABI_DIR}"
svn co --force "${LLVM_REPO_URL}/libcxxabi/trunk@${CLANG_REVISION}" \
"${LIBCXXABI_DIR}"
fi
# Echo all commands.
set -x
# Set default values for CC and CXX if they're not set in the environment.
CC=${CC:-cc}
CXX=${CXX:-c++}
if [[ -n "${gcc_toolchain}" ]]; then
# Use the specified gcc installation for building.
CC="$gcc_toolchain/bin/gcc"
CXX="$gcc_toolchain/bin/g++"
# Set LD_LIBRARY_PATH to make auxiliary targets (tablegen, bootstrap compiler,
# etc.) find the .so.
export LD_LIBRARY_PATH="$(dirname $(${CXX} -print-file-name=libstdc++.so.6))"
fi
CFLAGS=""
CXXFLAGS=""
LDFLAGS=""
# LLVM uses C++11 starting in llvm 3.5. On Linux, this means libstdc++4.7+ is
# needed, on OS X it requires libc++. clang only automatically links to libc++
# when targeting OS X 10.9+, so add stdlib=libc++ explicitly so clang can run on
# OS X versions as old as 10.7.
# TODO(thakis): Some bots are still on 10.6 (nacl...), so for now bundle
# libc++.dylib. Remove this once all bots are on 10.7+, then use
# -DLLVM_ENABLE_LIBCXX=ON and change deployment_target to 10.7.
deployment_target=""
if [ "${OS}" = "Darwin" ]; then
# When building on 10.9, /usr/include usually doesn't exist, and while
# Xcode's clang automatically sets a sysroot, self-built clangs don't.
CFLAGS="-isysroot $(xcrun --show-sdk-path)"
CXXFLAGS="-stdlib=libc++ -nostdinc++ -I${ABS_LIBCXX_DIR}/include ${CFLAGS}"
if [[ -n "${bootstrap}" ]]; then
deployment_target=10.6
fi
fi
# Build bootstrap clang if requested.
if [[ -n "${bootstrap}" ]]; then
ABS_INSTALL_DIR="${PWD}/${LLVM_BOOTSTRAP_INSTALL_DIR}"
echo "Building bootstrap compiler"
mkdir -p "${LLVM_BOOTSTRAP_DIR}"
pushd "${LLVM_BOOTSTRAP_DIR}"
cmake -GNinja \
-DCMAKE_BUILD_TYPE=Release \
-DLLVM_ENABLE_ASSERTIONS=ON \
-DLLVM_TARGETS_TO_BUILD=host \
-DLLVM_ENABLE_THREADS=OFF \
-DCMAKE_INSTALL_PREFIX="${ABS_INSTALL_DIR}" \
-DCMAKE_C_COMPILER="${CC}" \
-DCMAKE_CXX_COMPILER="${CXX}" \
-DCMAKE_C_FLAGS="${CFLAGS}" \
-DCMAKE_CXX_FLAGS="${CXXFLAGS}" \
../llvm
ninja
if [[ -n "${run_tests}" ]]; then
ninja check-all
fi
ninja install
if [[ -n "${gcc_toolchain}" ]]; then
# Copy that gcc's stdlibc++.so.6 to the build dir, so the bootstrap
# compiler can start.
cp -v "$(${CXX} -print-file-name=libstdc++.so.6)" \
"${ABS_INSTALL_DIR}/lib/"
fi
popd
CC="${ABS_INSTALL_DIR}/bin/clang"
CXX="${ABS_INSTALL_DIR}/bin/clang++"
if [[ -n "${gcc_toolchain}" ]]; then
# Tell the bootstrap compiler to use a specific gcc prefix to search
# for standard library headers and shared object files.
CFLAGS="--gcc-toolchain=${gcc_toolchain}"
CXXFLAGS="--gcc-toolchain=${gcc_toolchain}"
fi
echo "Building final compiler"
fi
# Build clang (in a separate directory).
# The clang bots have this path hardcoded in built/scripts/slave/compile.py,
# so if you change it you also need to change these links.
mkdir -p "${LLVM_BUILD_DIR}"
pushd "${LLVM_BUILD_DIR}"
# Build libc++.dylib while some bots are still on OS X 10.6.
if [ "${OS}" = "Darwin" ]; then
rm -rf libcxxbuild
LIBCXXFLAGS="-O3 -std=c++11 -fstrict-aliasing"
# libcxx and libcxxabi both have a file stdexcept.cpp, so put their .o files
# into different subdirectories.
mkdir -p libcxxbuild/libcxx
pushd libcxxbuild/libcxx
${CXX:-c++} -c ${CXXFLAGS} ${LIBCXXFLAGS} "${ABS_LIBCXX_DIR}"/src/*.cpp
popd
mkdir -p libcxxbuild/libcxxabi
pushd libcxxbuild/libcxxabi
${CXX:-c++} -c ${CXXFLAGS} ${LIBCXXFLAGS} "${ABS_LIBCXXABI_DIR}"/src/*.cpp -I"${ABS_LIBCXXABI_DIR}/include"
popd
pushd libcxxbuild
${CC:-cc} libcxx/*.o libcxxabi/*.o -o libc++.1.dylib -dynamiclib \
-nodefaultlibs -current_version 1 -compatibility_version 1 \
-lSystem -install_name @executable_path/libc++.dylib \
-Wl,-unexported_symbols_list,${ABS_LIBCXX_DIR}/lib/libc++unexp.exp \
-Wl,-force_symbols_not_weak_list,${ABS_LIBCXX_DIR}/lib/notweak.exp \
-Wl,-force_symbols_weak_list,${ABS_LIBCXX_DIR}/lib/weak.exp
ln -sf libc++.1.dylib libc++.dylib
popd
LDFLAGS+="-stdlib=libc++ -L${PWD}/libcxxbuild"
if [[ -n "${bootstrap}" ]]; then
# Now that the libc++ headers have been installed and libc++.dylib is built,
# delete the libc++ checkout again so that it's not part of the main
# build below -- the libc++(abi) tests don't pass on OS X in bootstrap
# builds (http://llvm.org/PR24068)
rm -rf "${ABS_LIBCXX_DIR}"
rm -rf "${ABS_LIBCXXABI_DIR}"
CXXFLAGS="-stdlib=libc++ -nostdinc++ -I${ABS_INSTALL_DIR}/include/c++/v1 ${CFLAGS}"
fi
fi
# Find the binutils include dir for the gold plugin.
BINUTILS_INCDIR=""
if [ "${OS}" = "Linux" ]; then
BINUTILS_INCDIR="${ABS_BINUTILS_DIR}/Linux_x64/Release/include"
fi
# If building at head, define a macro that plugins can use for #ifdefing
# out code that builds at head, but not at CLANG_REVISION or vice versa.
if [[ -n ${LLVM_FORCE_HEAD_REVISION:-''} ]]; then
CFLAGS="${CFLAGS} -DLLVM_FORCE_HEAD_REVISION"
CXXFLAGS="${CXXFLAGS} -DLLVM_FORCE_HEAD_REVISION"
fi
# Pin MSan to the old ABI.
# TODO(eugenis): Remove when MSan migrates to new ABI (crbug.com/560589).
CXXFLAGS="${CXXFLAGS} -DMSAN_LINUX_X86_64_OLD_MAPPING"
# Hook the Chromium tools into the LLVM build. Several Chromium tools have
# dependencies on LLVM/Clang libraries. The LLVM build detects implicit tools
# in the tools subdirectory, so install a shim CMakeLists.txt that forwards to
# the real directory for the Chromium tools.
# Note that the shim directory name intentionally has no _ or _. The implicit
# tool detection logic munges them in a weird way.
mkdir -v ${CHROME_TOOLS_SHIM_DIR}
cat > ${CHROME_TOOLS_SHIM_DIR}/CMakeLists.txt << EOF
# Since tools/clang isn't actually a subdirectory, use the two argument version
# to specify where build artifacts go. CMake doesn't allow reusing the same
# binary dir for multiple source dirs, so the build artifacts have to go into a
# subdirectory...
add_subdirectory(\${CHROMIUM_TOOLS_SRC} \${CMAKE_CURRENT_BINARY_DIR}/a)
EOF
rm -fv CMakeCache.txt
MACOSX_DEPLOYMENT_TARGET=${deployment_target} cmake -GNinja \
-DCMAKE_BUILD_TYPE=Release \
-DLLVM_ENABLE_ASSERTIONS=ON \
-DLLVM_ENABLE_THREADS=OFF \
-DLLVM_EXPERIMENTAL_TARGETS_TO_BUILD=WebAssembly \
-DLLVM_BINUTILS_INCDIR="${BINUTILS_INCDIR}" \
-DCMAKE_C_COMPILER="${CC}" \
-DCMAKE_CXX_COMPILER="${CXX}" \
-DCMAKE_C_FLAGS="${CFLAGS}" \
-DCMAKE_CXX_FLAGS="${CXXFLAGS}" \
-DCMAKE_EXE_LINKER_FLAGS="${LDFLAGS}" \
-DCMAKE_SHARED_LINKER_FLAGS="${LDFLAGS}" \
-DCMAKE_MODULE_LINKER_FLAGS="${LDFLAGS}" \
-DCMAKE_INSTALL_PREFIX="${ABS_LLVM_BUILD_DIR}" \
-DCHROMIUM_TOOLS_SRC="${ABS_CHROMIUM_TOOLS_DIR}" \
-DCHROMIUM_TOOLS="${chrome_tools}" \
"${ABS_LLVM_DIR}"
env
if [[ -n "${gcc_toolchain}" ]]; then
# Copy in the right stdlibc++.so.6 so clang can start.
mkdir -p lib
cp -v "$(${CXX} ${CXXFLAGS} -print-file-name=libstdc++.so.6)" lib/
fi
ninja
# If any Chromium tools were built, install those now.
if [[ -n "${chrome_tools}" ]]; then
ninja cr-install
fi
STRIP_FLAGS=
if [ "${OS}" = "Darwin" ]; then
# See http://crbug.com/256342
STRIP_FLAGS=-x
cp libcxxbuild/libc++.1.dylib bin/
fi
strip ${STRIP_FLAGS} bin/clang
popd
# Build compiler-rt out-of-tree.
# Do a clobbered build due to cmake changes.
rm -rf "${COMPILER_RT_BUILD_DIR}"
mkdir -p "${COMPILER_RT_BUILD_DIR}"
pushd "${COMPILER_RT_BUILD_DIR}"
rm -fv CMakeCache.txt
if [[ -z "${bootstrap}" ]]; then
# compiler_rt doesn't build with Xcode 6's clang, but not all bots have
# Xcode 7 yet. So use the just-built clang for building compiler-rt.
# However, in bootstrap builds, we delete libc++ to work around PR24068 -- so
# compiler_rt's CMake checks can't find <iostream> and decide that no arch
# is supported. So use the installed bootstrap compiler in bootstrap builds,
# it has the libc++ headers installed (CXX is already set to that in
# bootstrap builds).
CC="${ABS_LLVM_BUILD_DIR}/bin/clang"
CXX="${ABS_LLVM_BUILD_DIR}/bin/clang++"
elif [[ "${OS}" = "Darwin" ]]; then
# ...except that compiler-rt currently doesn't build with the bootstrap
# compiler on Darwin either! So use the system compiler there.
# TOOD(thakis): Remove this once http://llvm.org/PR25465 is fixed.
CC=cc
CXX=c++
fi
# Pin MSan to the old ABI.
COMPILER_RT_CXXFLAGS="-DMSAN_LINUX_X86_64_OLD_MAPPING"
MACOSX_DEPLOYMENT_TARGET=${deployment_target} cmake -GNinja \
-DCMAKE_BUILD_TYPE=Release \
-DLLVM_ENABLE_ASSERTIONS=ON \
-DLLVM_ENABLE_THREADS=OFF \
-DCMAKE_C_COMPILER="${CC}" \
-DCMAKE_CXX_COMPILER="${CXX}" \
-DCMAKE_CXX_FLAGS="${COMPILER_RT_CXXFLAGS}" \
-DSANITIZER_MIN_OSX_VERSION="10.7" \
-DLLVM_CONFIG_PATH="${ABS_LLVM_BUILD_DIR}/bin/llvm-config" \
"${ABS_COMPILER_RT_DIR}"
ninja
# Copy selected output to the main tree.
# Darwin doesn't support cp --parents, so pipe through tar instead.
CLANG_VERSION=$("${ABS_LLVM_BUILD_DIR}/bin/clang" --version | \
sed -ne 's/clang version \([0-9]\.[0-9]\.[0-9]\).*/\1/p')
ABS_LLVM_CLANG_LIB_DIR="${ABS_LLVM_BUILD_DIR}/lib/clang/${CLANG_VERSION}"
tar -c *blacklist.txt | tar -C ${ABS_LLVM_CLANG_LIB_DIR} -xv
tar -c include/sanitizer | tar -C ${ABS_LLVM_CLANG_LIB_DIR} -xv
if [[ "${OS}" = "Darwin" ]]; then
tar -c lib/darwin | tar -C ${ABS_LLVM_CLANG_LIB_DIR} -xv
else
tar -c lib/linux | tar -C ${ABS_LLVM_CLANG_LIB_DIR} -xv
fi
popd
if [[ -n "${with_android}" ]]; then
# Make a standalone Android toolchain.
${ANDROID_NDK_DIR}/build/tools/make-standalone-toolchain.sh \
--platform=android-19 \
--install-dir="${LLVM_BUILD_DIR}/android-toolchain-arm" \
--system=linux-x86_64 \
--stl=stlport \
--toolchain=arm-linux-androideabi-4.9
# Do the same for arm64.
${ANDROID_NDK_DIR}/build/tools/make-standalone-toolchain.sh \
--platform=android-21 \
--install-dir="${LLVM_BUILD_DIR}/android-toolchain-aarch64" \
--system=linux-x86_64 \
--stl=stlport \
--toolchain=aarch64-linux-android-4.9
# Do the same for x86.
${ANDROID_NDK_DIR}/build/tools/make-standalone-toolchain.sh \
--platform=android-19 \
--install-dir="${LLVM_BUILD_DIR}/android-toolchain-i686" \
--system=linux-x86_64 \
--stl=stlport \
--toolchain=x86-4.9
for target_arch in "aarch64" "arm" "i686"; do
# Android NDK r9d copies a broken unwind.h into the toolchain, see
# http://crbug.com/357890
rm -v "${LLVM_BUILD_DIR}"/android-toolchain-${target_arch}/include/c++/*/unwind.h
# Build ASan runtime for Android in a separate build tree.
mkdir -p ${LLVM_BUILD_DIR}/android-${target_arch}
pushd ${LLVM_BUILD_DIR}/android-${target_arch}
rm -fv CMakeCache.txt
MACOSX_DEPLOYMENT_TARGET=${deployment_target} cmake -GNinja \
-DCMAKE_BUILD_TYPE=Release \
-DLLVM_ENABLE_ASSERTIONS=ON \
-DLLVM_ENABLE_THREADS=OFF \
-DCMAKE_C_COMPILER=${PWD}/../bin/clang \
-DCMAKE_CXX_COMPILER=${PWD}/../bin/clang++ \
-DLLVM_CONFIG_PATH=${PWD}/../bin/llvm-config \
-DCMAKE_C_FLAGS="--target=${target_arch}-linux-androideabi --sysroot=${PWD}/../android-toolchain-${target_arch}/sysroot -B${PWD}/../android-toolchain-${target_arch}" \
-DCMAKE_CXX_FLAGS="--target=${target_arch}-linux-androideabi --sysroot=${PWD}/../android-toolchain-${target_arch}/sysroot -B${PWD}/../android-toolchain-${target_arch}" \
-DANDROID=1 \
"${ABS_COMPILER_RT_DIR}"
ninja libclang_rt.asan-${target_arch}-android.so
# And copy it into the main build tree.
cp "$(find -name libclang_rt.asan-${target_arch}-android.so)" "${ABS_LLVM_CLANG_LIB_DIR}/lib/linux/"
popd
done
fi
if [[ -n "$run_tests" || -n "${LLVM_FORCE_HEAD_REVISION:-''}" ]]; then
# Run Chrome tool tests.
ninja -C "${LLVM_BUILD_DIR}" cr-check-all
fi
if [[ -n "$run_tests" ]]; then
# Run the LLVM and Clang tests.
ninja -C "${LLVM_BUILD_DIR}" check-all
fi
# After everything is done, log success for this revision.
echo "${PACKAGE_VERSION}" > "${STAMP_FILE}"