shaka-packager/tools/clang/scripts/update.sh

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#!/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=186332
THIS_DIR="$(dirname "${0}")"
LLVM_DIR="${THIS_DIR}/../../../third_party/llvm"
LLVM_BUILD_DIR="${LLVM_DIR}/../llvm-build"
LLVM_BOOTSTRAP_DIR="${LLVM_DIR}/../llvm-bootstrap"
CLANG_DIR="${LLVM_DIR}/tools/clang"
CLANG_TOOLS_EXTRA_DIR="${CLANG_DIR}/tools/extra"
COMPILER_RT_DIR="${LLVM_DIR}/projects/compiler-rt"
ANDROID_NDK_DIR="${LLVM_DIR}/../android_tools/ndk"
STAMP_FILE="${LLVM_BUILD_DIR}/cr_build_revision"
# ${A:-a} returns $A if it's set, a else.
LLVM_REPO_URL=${LLVM_URL:-https://llvm.org/svn/llvm-project}
# Die if any command dies.
set -e
OS="$(uname -s)"
# Parse command line options.
force_local_build=
mac_only=
run_tests=
bootstrap=
with_android=yes
chrome_tools="plugins"
if [[ "${OS}" = "Darwin" ]]; then
with_android=
fi
while [[ $# > 0 ]]; do
case $1 in
--bootstrap)
bootstrap=yes
;;
--force-local-build)
force_local_build=yes
;;
--mac-only)
mac_only=yes
;;
--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
;;
--help)
echo "usage: $0 [--force-local-build] [--mac-only] [--run-tests] "
echo "--bootstrap: First build clang with CC, then with itself."
echo "--force-local-build: Don't try to download prebuilt binaries."
echo "--mac-only: Do initial download only on Mac systems."
echo "--run-tests: Run tests after building. Only for local builds."
echo "--without-android: Don't build ASan Android runtime library."
echo "--with-chrome-tools: Select which chrome tools to build." \
"Defaults to plugins."
echo " Example: --with-chrome-tools 'plugins empty-string'"
echo
exit 1
;;
esac
shift
done
# --mac-only prevents the initial download on non-mac systems, but if clang has
# already been downloaded in the past, this script keeps it up to date even if
# --mac-only is passed in and the system isn't a mac. People who don't like this
# can just delete their third_party/llvm-build directory.
if [[ -n "$mac_only" ]] && [[ "${OS}" != "Darwin" ]] &&
[[ ! ( "$GYP_DEFINES" =~ .*(clang|tsan|asan)=1.* ) ]] &&
! [[ -d "${LLVM_BUILD_DIR}" ]]; then
exit 0
fi
# Xcode and clang don't get along when predictive compilation is enabled.
# http://crbug.com/96315
if [[ "${OS}" = "Darwin" ]] && xcodebuild -version | grep -q 'Xcode 3.2' ; then
XCONF=com.apple.Xcode
if [[ "${GYP_GENERATORS}" != "make" ]] && \
[ "$(defaults read "${XCONF}" EnablePredictiveCompilation)" != "0" ]; then
echo
echo " HEARKEN!"
echo "You're using Xcode3 and you have 'Predictive Compilation' enabled."
echo "This does not work well with clang (http://crbug.com/96315)."
echo "Disable it in Preferences->Building (lower right), or run"
echo " defaults write ${XCONF} EnablePredictiveCompilation -boolean NO"
echo "while Xcode is not running."
echo
fi
SUB_VERSION=$(xcodebuild -version | sed -Ene 's/Xcode 3\.2\.([0-9]+)/\1/p')
if [[ "${SUB_VERSION}" < 6 ]]; then
echo
echo " YOUR LD IS BUGGY!"
echo "Please upgrade Xcode to at least 3.2.6."
echo
fi
fi
# Check if there's anything to be done, exit early if not.
if [[ -f "${STAMP_FILE}" ]]; then
PREVIOUSLY_BUILT_REVISON=$(cat "${STAMP_FILE}")
if [[ -z "$force_local_build" ]] && \
[[ "${PREVIOUSLY_BUILT_REVISON}" = "${CLANG_REVISION}" ]]; then
echo "Clang already at ${CLANG_REVISION}"
exit 0
fi
fi
# To always force a new build if someone interrupts their build half way.
rm -f "${STAMP_FILE}"
# Clobber pch files, since they only work with the compiler version that
# created them. Also clobber .o files, to make sure everything will be built
# with the new compiler.
if [[ "${OS}" = "Darwin" ]]; then
XCODEBUILD_DIR="${THIS_DIR}/../../../xcodebuild"
# Xcode groups .o files by project first, configuration second.
if [[ -d "${XCODEBUILD_DIR}" ]]; then
echo "Clobbering .o files for Xcode build"
find "${XCODEBUILD_DIR}" -name '*.o' -exec rm {} +
fi
fi
MAKE_DIR="${THIS_DIR}/../../../out"
for CONFIG in Debug Release; do
if [[ -d "${MAKE_DIR}/${CONFIG}/obj.target" ||
-d "${MAKE_DIR}/${CONFIG}/obj.host" ]]; then
echo "Clobbering ${CONFIG} PCH and .o files for make build"
if [[ -d "${MAKE_DIR}/${CONFIG}/obj.target" ]]; then
find "${MAKE_DIR}/${CONFIG}/obj.target" -name '*.gch' -exec rm {} +
find "${MAKE_DIR}/${CONFIG}/obj.target" -name '*.o' -exec rm {} +
fi
if [[ -d "${MAKE_DIR}/${CONFIG}/obj.host" ]]; then
find "${MAKE_DIR}/${CONFIG}/obj.host" -name '*.o' -exec rm {} +
fi
fi
# ninja puts its output below ${MAKE_DIR} as well.
if [[ -d "${MAKE_DIR}/${CONFIG}/obj" ]]; then
echo "Clobbering ${CONFIG} PCH and .o files for ninja build"
find "${MAKE_DIR}/${CONFIG}/obj" -name '*.gch' -exec rm {} +
find "${MAKE_DIR}/${CONFIG}/obj" -name '*.o' -exec rm {} +
find "${MAKE_DIR}/${CONFIG}/obj" -name '*.o.d' -exec rm {} +
fi
if [[ "${OS}" = "Darwin" ]]; then
if [[ -d "${XCODEBUILD_DIR}/${CONFIG}/SharedPrecompiledHeaders" ]]; then
echo "Clobbering ${CONFIG} PCH files for Xcode build"
rm -rf "${XCODEBUILD_DIR}/${CONFIG}/SharedPrecompiledHeaders"
fi
fi
done
# Clobber NaCl toolchain stamp files, see http://crbug.com/159793
if [[ -d "${MAKE_DIR}" ]]; then
find "${MAKE_DIR}" -name 'stamp.untar' -exec rm {} +
fi
if [[ "${OS}" = "Darwin" ]]; then
if [[ -d "${XCODEBUILD_DIR}" ]]; then
find "${XCODEBUILD_DIR}" -name 'stamp.untar' -exec rm {} +
fi
fi
if [[ -z "$force_local_build" ]]; then
# Check if there's a prebuilt binary and if so just fetch that. That's faster,
# and goma relies on having matching binary hashes on client and server too.
CDS_URL=https://commondatastorage.googleapis.com/chromium-browser-clang
CDS_FILE="clang-${CLANG_REVISION}.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 "${LLVM_BUILD_DIR}/Release+Asserts"
mkdir -p "${LLVM_BUILD_DIR}/Release+Asserts"
tar -xzf "${CDS_OUTPUT}" -C "${LLVM_BUILD_DIR}/Release+Asserts"
echo clang "${CLANG_REVISION}" unpacked
echo "${CLANG_REVISION}" > "${STAMP_FILE}"
rm -rf "${CDS_OUT_DIR}"
exit 0
else
echo Did not find prebuilt clang at r"${CLANG_REVISION}", building
fi
fi
if [[ -n "${with_android}" ]] && ! [[ -d "${ANDROID_NDK_DIR}" ]]; then
echo "Android NDK not found at ${ANDROID_NDK_DIR}"
echo "The Android NDK is needed to build a Clang whose -fsanitize=address"
echo "works on Android. See "
echo "http://code.google.com/p/chromium/wiki/AndroidBuildInstructions for how"
echo "to install the NDK, or pass --without-android."
exit 1
fi
echo Getting LLVM r"${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}" "${CLANG_DIR}"
echo Getting compiler-rt r"${CLANG_REVISION}" in "${COMPILER_RT_DIR}"
svn co --force "${LLVM_REPO_URL}/compiler-rt/trunk@${CLANG_REVISION}" \
"${COMPILER_RT_DIR}"
# Echo all commands.
set -x
NUM_JOBS=3
if [[ "${OS}" = "Linux" ]]; then
NUM_JOBS="$(grep -c "^processor" /proc/cpuinfo)"
elif [ "${OS}" = "Darwin" ]; then
NUM_JOBS="$(sysctl -n hw.ncpu)"
fi
# Build bootstrap clang if requested.
if [[ -n "${bootstrap}" ]]; then
echo "Building bootstrap compiler"
mkdir -p "${LLVM_BOOTSTRAP_DIR}"
cd "${LLVM_BOOTSTRAP_DIR}"
if [[ ! -f ./config.status ]]; then
# The bootstrap compiler only needs to be able to build the real compiler,
# so it needs no cross-compiler output support. In general, the host
# compiler should be as similar to the final compiler as possible, so do
# keep --disable-threads & co.
../llvm/configure \
--enable-optimized \
--enable-targets=host-only \
--disable-threads \
--disable-pthreads \
--without-llvmgcc \
--without-llvmgxx
fi
MACOSX_DEPLOYMENT_TARGET=10.5 make -j"${NUM_JOBS}"
if [[ -n "${run_tests}" ]]; then
make check-all
fi
cd -
export CC="${PWD}/${LLVM_BOOTSTRAP_DIR}/Release+Asserts/bin/clang"
export CXX="${PWD}/${LLVM_BOOTSTRAP_DIR}/Release+Asserts/bin/clang++"
echo "Building final compiler"
fi
# Build clang (in a separate directory).
# The clang bots have this path hardcoded in built/scripts/slave/compile.py,
# so if you change it you also need to change these links.
mkdir -p "${LLVM_BUILD_DIR}"
cd "${LLVM_BUILD_DIR}"
if [[ ! -f ./config.status ]]; then
../llvm/configure \
--enable-optimized \
--disable-threads \
--disable-pthreads \
--without-llvmgcc \
--without-llvmgxx
fi
MACOSX_DEPLOYMENT_TARGET=10.5 make -j"${NUM_JOBS}"
STRIP_FLAGS=
if [ "${OS}" = "Darwin" ]; then
# See http://crbug.com/256342
STRIP_FLAGS=-x
fi
strip ${STRIP_FLAGS} Release+Asserts/bin/clang
cd -
if [[ -n "${with_android}" ]]; then
# Make a standalone Android toolchain.
${ANDROID_NDK_DIR}/build/tools/make-standalone-toolchain.sh \
--platform=android-14 \
--install-dir="${LLVM_BUILD_DIR}/android-toolchain" \
--system=linux-x86_64 \
--stl=stlport
# Build ASan runtime for Android.
# Note: LLVM_ANDROID_TOOLCHAIN_DIR is not relative to PWD, but to where we
# build the runtime, i.e. third_party/llvm/projects/compiler-rt.
cd "${LLVM_BUILD_DIR}"
make -C tools/clang/runtime/ \
LLVM_ANDROID_TOOLCHAIN_DIR="../../../llvm-build/android-toolchain"
cd -
fi
# Build Chrome-specific clang tools. Paths in this list should be relative to
# tools/clang.
# For each tool directory, copy it into the clang tree and use clang's build
# system to compile it.
for CHROME_TOOL_DIR in ${chrome_tools}; do
TOOL_SRC_DIR="${THIS_DIR}/../${CHROME_TOOL_DIR}"
TOOL_DST_DIR="${LLVM_DIR}/tools/clang/tools/chrome-${CHROME_TOOL_DIR}"
TOOL_BUILD_DIR="${LLVM_BUILD_DIR}/tools/clang/tools/chrome-${CHROME_TOOL_DIR}"
rm -rf "${TOOL_DST_DIR}"
cp -R "${TOOL_SRC_DIR}" "${TOOL_DST_DIR}"
rm -rf "${TOOL_BUILD_DIR}"
mkdir -p "${TOOL_BUILD_DIR}"
cp "${TOOL_SRC_DIR}/Makefile" "${TOOL_BUILD_DIR}"
MACOSX_DEPLOYMENT_TARGET=10.5 make -j"${NUM_JOBS}" -C "${TOOL_BUILD_DIR}"
done
if [[ -n "$run_tests" ]]; then
# Run a few tests.
PLUGIN_SRC_DIR="${THIS_DIR}/../plugins"
"${PLUGIN_SRC_DIR}/tests/test.sh" "${LLVM_BUILD_DIR}/Release+Asserts"
cd "${LLVM_BUILD_DIR}"
make check-all
cd -
fi
# After everything is done, log success for this revision.
echo "${CLANG_REVISION}" > "${STAMP_FILE}"