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ci.sh
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ci.sh
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#!/usr/bin/env bash
# Copyright (c) the JPEG XL Project Authors. All rights reserved.
#
# Use of this source code is governed by a BSD-style
# license that can be found in the LICENSE file.
# Continuous integration helper module. This module is meant to be called from
# the .gitlab-ci.yml file during the continuous integration build, as well as
# from the command line for developers.
set -eu
OS=`uname -s`
MYDIR=$(dirname $(realpath "$0"))
### Environment parameters:
TEST_STACK_LIMIT="${TEST_STACK_LIMIT:-256}"
CMAKE_BUILD_TYPE=${CMAKE_BUILD_TYPE:-RelWithDebInfo}
CMAKE_PREFIX_PATH=${CMAKE_PREFIX_PATH:-}
CMAKE_C_COMPILER_LAUNCHER=${CMAKE_C_COMPILER_LAUNCHER:-}
CMAKE_CXX_COMPILER_LAUNCHER=${CMAKE_CXX_COMPILER_LAUNCHER:-}
CMAKE_MAKE_PROGRAM=${CMAKE_MAKE_PROGRAM:-}
SKIP_BUILD="${SKIP_BUILD:-0}"
SKIP_TEST="${SKIP_TEST:-0}"
TARGETS="${TARGETS:-all doc}"
TEST_SELECTOR="${TEST_SELECTOR:-}"
BUILD_TARGET="${BUILD_TARGET:-}"
ENABLE_WASM_SIMD="${ENABLE_WASM_SIMD:-0}"
if [[ -n "${BUILD_TARGET}" ]]; then
BUILD_DIR="${BUILD_DIR:-${MYDIR}/build-${BUILD_TARGET%%-*}}"
else
BUILD_DIR="${BUILD_DIR:-${MYDIR}/build}"
fi
# Whether we should post a message in the MR when the build fails.
POST_MESSAGE_ON_ERROR="${POST_MESSAGE_ON_ERROR:-1}"
# Set default compilers to clang if not already set
export CC=${CC:-clang}
export CXX=${CXX:-clang++}
# Time limit for the "fuzz" command in seconds (0 means no limit).
FUZZER_MAX_TIME="${FUZZER_MAX_TIME:-0}"
SANITIZER="none"
if [[ "${BUILD_TARGET%%-*}" == "x86_64" ||
"${BUILD_TARGET%%-*}" == "i686" ]]; then
# Default to building all targets, even if compiler baseline is SSE4
HWY_BASELINE_TARGETS=${HWY_BASELINE_TARGETS:-HWY_EMU128}
else
HWY_BASELINE_TARGETS=${HWY_BASELINE_TARGETS:-}
fi
# Convenience flag to pass both CMAKE_C_FLAGS and CMAKE_CXX_FLAGS
CMAKE_FLAGS=${CMAKE_FLAGS:-}
CMAKE_C_FLAGS="${CMAKE_C_FLAGS:-} ${CMAKE_FLAGS}"
CMAKE_CXX_FLAGS="${CMAKE_CXX_FLAGS:-} ${CMAKE_FLAGS}"
CMAKE_CROSSCOMPILING_EMULATOR=${CMAKE_CROSSCOMPILING_EMULATOR:-}
CMAKE_EXE_LINKER_FLAGS=${CMAKE_EXE_LINKER_FLAGS:-}
CMAKE_FIND_ROOT_PATH=${CMAKE_FIND_ROOT_PATH:-}
CMAKE_MODULE_LINKER_FLAGS=${CMAKE_MODULE_LINKER_FLAGS:-}
CMAKE_SHARED_LINKER_FLAGS=${CMAKE_SHARED_LINKER_FLAGS:-}
CMAKE_TOOLCHAIN_FILE=${CMAKE_TOOLCHAIN_FILE:-}
if [[ "${ENABLE_WASM_SIMD}" -ne "0" ]]; then
CMAKE_CXX_FLAGS="${CMAKE_CXX_FLAGS} -msimd128"
CMAKE_C_FLAGS="${CMAKE_C_FLAGS} -msimd128"
CMAKE_EXE_LINKER_FLAGS="${CMAKE_EXE_LINKER_FLAGS} -msimd128"
fi
if [[ "${ENABLE_WASM_SIMD}" -eq "2" ]]; then
CMAKE_CXX_FLAGS="${CMAKE_CXX_FLAGS} -DHWY_WANT_WASM2"
CMAKE_C_FLAGS="${CMAKE_C_FLAGS} -DHWY_WANT_WASM2"
fi
if [[ ! -z "${HWY_BASELINE_TARGETS}" ]]; then
CMAKE_CXX_FLAGS="${CMAKE_CXX_FLAGS} -DHWY_BASELINE_TARGETS=${HWY_BASELINE_TARGETS}"
fi
# Version inferred from the CI variables.
CI_COMMIT_SHA=${CI_COMMIT_SHA:-${GITHUB_SHA:-}}
JPEGXL_VERSION=${JPEGXL_VERSION:-${CI_COMMIT_SHA:0:8}}
# Benchmark parameters
STORE_IMAGES=${STORE_IMAGES:-1}
BENCHMARK_CORPORA="${MYDIR}/third_party/corpora"
# Local flags passed to sanitizers.
UBSAN_FLAGS=(
-fsanitize=alignment
-fsanitize=bool
-fsanitize=bounds
-fsanitize=builtin
-fsanitize=enum
-fsanitize=float-cast-overflow
-fsanitize=float-divide-by-zero
-fsanitize=integer-divide-by-zero
-fsanitize=null
-fsanitize=object-size
-fsanitize=pointer-overflow
-fsanitize=return
-fsanitize=returns-nonnull-attribute
-fsanitize=shift-base
-fsanitize=shift-exponent
-fsanitize=unreachable
-fsanitize=vla-bound
-fno-sanitize-recover=undefined
# Brunsli uses unaligned accesses to uint32_t, so alignment is just a warning.
-fsanitize-recover=alignment
)
# -fsanitize=function doesn't work on aarch64 and arm.
if [[ "${BUILD_TARGET%%-*}" != "aarch64" &&
"${BUILD_TARGET%%-*}" != "arm" ]]; then
UBSAN_FLAGS+=(
-fsanitize=function
)
fi
if [[ "${BUILD_TARGET%%-*}" != "arm" ]]; then
UBSAN_FLAGS+=(
-fsanitize=signed-integer-overflow
)
fi
CLANG_TIDY_BIN=$(which clang-tidy-6.0 clang-tidy-7 clang-tidy-8 clang-tidy | head -n 1)
# Default to "cat" if "colordiff" is not installed or if stdout is not a tty.
if [[ -t 1 ]]; then
COLORDIFF_BIN=$(which colordiff cat | head -n 1)
else
COLORDIFF_BIN="cat"
fi
FIND_BIN=$(which gfind find | head -n 1)
# "false" will disable wine64 when not installed. This won't allow
# cross-compiling.
WINE_BIN=$(which wine64 false | head -n 1)
CLANG_VERSION="${CLANG_VERSION:-}"
# Detect the clang version suffix and store it in CLANG_VERSION. For example,
# "6.0" for clang 6 or "7" for clang 7.
detect_clang_version() {
if [[ -n "${CLANG_VERSION}" ]]; then
return 0
fi
local clang_version=$("${CC:-clang}" --version | head -n1)
clang_version=${clang_version#"Debian "}
clang_version=${clang_version#"Ubuntu "}
local llvm_tag
case "${clang_version}" in
"clang version 6."*)
CLANG_VERSION="6.0"
;;
"clang version "*)
# Any other clang version uses just the major version number.
local suffix="${clang_version#clang version }"
CLANG_VERSION="${suffix%%.*}"
;;
"emcc"*)
# We can't use asan or msan in the emcc case.
;;
*)
echo "Unknown clang version: ${clang_version}" >&2
return 1
esac
}
# Temporary files cleanup hooks.
CLEANUP_FILES=()
cleanup() {
if [[ ${#CLEANUP_FILES[@]} -ne 0 ]]; then
rm -fr "${CLEANUP_FILES[@]}"
fi
}
# Executed on exit.
on_exit() {
local retcode="$1"
# Always cleanup the CLEANUP_FILES.
cleanup
# Post a message in the MR when requested with POST_MESSAGE_ON_ERROR but only
# if the run failed and we are not running from a MR pipeline.
if [[ ${retcode} -ne 0 && -n "${CI_BUILD_NAME:-}" &&
-n "${POST_MESSAGE_ON_ERROR}" && -z "${CI_MERGE_REQUEST_ID:-}" &&
"${CI_BUILD_REF_NAME}" = "master" ]]; then
load_mr_vars_from_commit
{ set +xeu; } 2>/dev/null
local message="**Run ${CI_BUILD_NAME} @ ${CI_COMMIT_SHORT_SHA} failed.**
Check the output of the job at ${CI_JOB_URL:-} to see if this was your problem.
If it was, please rollback this change or fix the problem ASAP, broken builds
slow down development. Check if the error already existed in the previous build
as well.
Pipeline: ${CI_PIPELINE_URL}
Previous build commit: ${CI_COMMIT_BEFORE_SHA}
"
cmd_post_mr_comment "${message}"
fi
}
trap 'retcode=$?; { set +x; } 2>/dev/null; on_exit ${retcode}' INT TERM EXIT
# These variables are populated when calling merge_request_commits().
# The current hash at the top of the current branch or merge request branch (if
# running from a merge request pipeline).
MR_HEAD_SHA=""
# The common ancestor between the current commit and the tracked branch, such
# as master. This includes a list
MR_ANCESTOR_SHA=""
# Populate MR_HEAD_SHA and MR_ANCESTOR_SHA.
merge_request_commits() {
{ set +x; } 2>/dev/null
# GITHUB_SHA is the current reference being build in GitHub Actions.
if [[ -n "${GITHUB_SHA:-}" ]]; then
# GitHub normally does a checkout of a merge commit on a shallow repository
# by default. We want to get a bit more of the history to be able to diff
# changes on the Pull Request if needed. This fetches 10 more commits which
# should be enough given that PR normally should have 1 commit.
git -C "${MYDIR}" fetch -q origin "${GITHUB_SHA}" --depth 10
MR_HEAD_SHA="$(git rev-parse "FETCH_HEAD^2" 2>/dev/null ||
echo "${GITHUB_SHA}")"
else
# CI_BUILD_REF is the reference currently being build in the CI workflow.
MR_HEAD_SHA=$(git -C "${MYDIR}" rev-parse -q "${CI_BUILD_REF:-HEAD}")
fi
if [[ -n "${CI_MERGE_REQUEST_IID:-}" ]]; then
# Merge request pipeline in CI. In this case the upstream is called "origin"
# but it refers to the forked project that's the source of the merge
# request. We need to get the target of the merge request, for which we need
# to query that repository using our CI_JOB_TOKEN.
echo "machine gitlab.com login gitlab-ci-token password ${CI_JOB_TOKEN}" \
>> "${HOME}/.netrc"
git -C "${MYDIR}" fetch "${CI_MERGE_REQUEST_PROJECT_URL}" \
"${CI_MERGE_REQUEST_TARGET_BRANCH_NAME}"
MR_ANCESTOR_SHA=$(git -C "${MYDIR}" rev-parse -q FETCH_HEAD)
elif [[ -n "${GITHUB_BASE_REF:-}" ]]; then
# Pull request workflow in GitHub Actions. GitHub checkout action uses
# "origin" as the remote for the git checkout.
git -C "${MYDIR}" fetch -q origin "${GITHUB_BASE_REF}"
MR_ANCESTOR_SHA=$(git -C "${MYDIR}" rev-parse -q FETCH_HEAD)
else
# We are in a local branch, not a merge request.
MR_ANCESTOR_SHA=$(git -C "${MYDIR}" rev-parse -q HEAD@{upstream} || true)
fi
if [[ -z "${MR_ANCESTOR_SHA}" ]]; then
echo "Warning, not tracking any branch, using the last commit in HEAD.">&2
# This prints the return value with just HEAD.
MR_ANCESTOR_SHA=$(git -C "${MYDIR}" rev-parse -q "${MR_HEAD_SHA}^")
else
# GitHub runs the pipeline on a merge commit, no need to look for the common
# ancestor in that case.
if [[ -z "${GITHUB_BASE_REF:-}" ]]; then
MR_ANCESTOR_SHA=$(git -C "${MYDIR}" merge-base \
"${MR_ANCESTOR_SHA}" "${MR_HEAD_SHA}")
fi
fi
set -x
}
# Load the MR iid from the landed commit message when running not from a
# merge request workflow. This is useful to post back results at the merge
# request when running pipelines from master.
load_mr_vars_from_commit() {
{ set +x; } 2>/dev/null
if [[ -z "${CI_MERGE_REQUEST_IID:-}" ]]; then
local mr_iid=$(git rev-list --format=%B --max-count=1 HEAD |
grep -F "${CI_PROJECT_URL}" | grep -F "/merge_requests" | head -n 1)
# mr_iid contains a string like this if it matched:
# Part-of: <https://gitlab.com/wg1/jpeg-xlm/merge_requests/123456>
if [[ -n "${mr_iid}" ]]; then
mr_iid=$(echo "${mr_iid}" |
sed -E 's,^.*merge_requests/([0-9]+)>.*$,\1,')
CI_MERGE_REQUEST_IID="${mr_iid}"
CI_MERGE_REQUEST_PROJECT_ID=${CI_PROJECT_ID}
fi
fi
set -x
}
# Posts a comment to the current merge request.
cmd_post_mr_comment() {
{ set +x; } 2>/dev/null
local comment="$1"
if [[ -n "${BOT_TOKEN:-}" && -n "${CI_MERGE_REQUEST_IID:-}" ]]; then
local url="${CI_API_V4_URL}/projects/${CI_MERGE_REQUEST_PROJECT_ID}/merge_requests/${CI_MERGE_REQUEST_IID}/notes"
curl -X POST -g \
-H "PRIVATE-TOKEN: ${BOT_TOKEN}" \
--data-urlencode "body=${comment}" \
--output /dev/null \
"${url}"
fi
set -x
}
# Set up and export the environment variables needed by the child processes.
export_env() {
if [[ "${BUILD_TARGET}" == *mingw32 ]]; then
# Wine needs to know the paths to the mingw dlls. These should be
# separated by ';'.
WINEPATH=$("${CC:-clang}" -print-search-dirs --target="${BUILD_TARGET}" \
| grep -F 'libraries: =' | cut -f 2- -d '=' | tr ':' ';')
# We also need our own libraries in the wine path.
local real_build_dir=$(realpath "${BUILD_DIR}")
# Some library .dll dependencies are installed in /bin:
export WINEPATH="${WINEPATH};${real_build_dir};${real_build_dir}/third_party/brotli;/usr/${BUILD_TARGET}/bin"
local prefix="${BUILD_DIR}/wineprefix"
mkdir -p "${prefix}"
export WINEPREFIX=$(realpath "${prefix}")
fi
# Sanitizers need these variables to print and properly format the stack
# traces:
LLVM_SYMBOLIZER=$("${CC:-clang}" -print-prog-name=llvm-symbolizer || true)
if [[ -n "${LLVM_SYMBOLIZER}" ]]; then
export ASAN_SYMBOLIZER_PATH="${LLVM_SYMBOLIZER}"
export MSAN_SYMBOLIZER_PATH="${LLVM_SYMBOLIZER}"
export UBSAN_SYMBOLIZER_PATH="${LLVM_SYMBOLIZER}"
fi
}
cmake_configure() {
export_env
if [[ "${STACK_SIZE:-0}" == 1 ]]; then
# Dump the stack size of each function in the .stack_sizes section for
# analysis.
CMAKE_C_FLAGS+=" -fstack-size-section"
CMAKE_CXX_FLAGS+=" -fstack-size-section"
fi
local args=(
-B"${BUILD_DIR}" -H"${MYDIR}"
-DCMAKE_BUILD_TYPE="${CMAKE_BUILD_TYPE}"
-G Ninja
-DCMAKE_CXX_FLAGS="${CMAKE_CXX_FLAGS}"
-DCMAKE_C_FLAGS="${CMAKE_C_FLAGS}"
-DCMAKE_EXE_LINKER_FLAGS="${CMAKE_EXE_LINKER_FLAGS}"
-DCMAKE_MODULE_LINKER_FLAGS="${CMAKE_MODULE_LINKER_FLAGS}"
-DCMAKE_SHARED_LINKER_FLAGS="${CMAKE_SHARED_LINKER_FLAGS}"
-DJPEGXL_VERSION="${JPEGXL_VERSION}"
-DSANITIZER="${SANITIZER}"
# These are not enabled by default in cmake.
-DJPEGXL_ENABLE_VIEWERS=ON
-DJPEGXL_ENABLE_PLUGINS=ON
-DJPEGXL_ENABLE_DEVTOOLS=ON
# We always use libfuzzer in the ci.sh wrapper.
-DJPEGXL_FUZZER_LINK_FLAGS="-fsanitize=fuzzer"
)
if [[ "${BUILD_TARGET}" != *mingw32 ]]; then
args+=(
-DJPEGXL_WARNINGS_AS_ERRORS=ON
)
fi
if [[ -n "${BUILD_TARGET}" ]]; then
local system_name="Linux"
if [[ "${BUILD_TARGET}" == *mingw32 ]]; then
# When cross-compiling with mingw the target must be set to Windows and
# run programs with wine.
system_name="Windows"
args+=(
-DCMAKE_CROSSCOMPILING_EMULATOR="${WINE_BIN}"
# Normally CMake automatically defines MINGW=1 when building with the
# mingw compiler (x86_64-w64-mingw32-gcc) but we are normally compiling
# with clang.
-DMINGW=1
)
fi
# EMSCRIPTEN toolchain sets the right values itself
if [[ "${BUILD_TARGET}" != wasm* ]]; then
# If set, BUILD_TARGET must be the target triplet such as
# x86_64-unknown-linux-gnu.
args+=(
-DCMAKE_C_COMPILER_TARGET="${BUILD_TARGET}"
-DCMAKE_CXX_COMPILER_TARGET="${BUILD_TARGET}"
# Only the first element of the target triplet.
-DCMAKE_SYSTEM_PROCESSOR="${BUILD_TARGET%%-*}"
-DCMAKE_SYSTEM_NAME="${system_name}"
-DCMAKE_TOOLCHAIN_FILE="${CMAKE_TOOLCHAIN_FILE}"
)
else
args+=(
# sjpeg confuses WASM SIMD with SSE.
-DSJPEG_ENABLE_SIMD=OFF
# Building shared libs is not very useful for WASM.
-DBUILD_SHARED_LIBS=OFF
)
fi
args+=(
# These are needed to make googletest work when cross-compiling.
-DCMAKE_CROSSCOMPILING=1
-DHAVE_STD_REGEX=0
-DHAVE_POSIX_REGEX=0
-DHAVE_GNU_POSIX_REGEX=0
-DHAVE_STEADY_CLOCK=0
-DHAVE_THREAD_SAFETY_ATTRIBUTES=0
)
if [[ -z "${CMAKE_FIND_ROOT_PATH}" ]]; then
# find_package() will look in this prefix for libraries.
CMAKE_FIND_ROOT_PATH="/usr/${BUILD_TARGET}"
fi
if [[ -z "${CMAKE_PREFIX_PATH}" ]]; then
CMAKE_PREFIX_PATH="/usr/${BUILD_TARGET}"
fi
# Use pkg-config for the target. If there's no pkg-config available for the
# target we can set the PKG_CONFIG_PATH to the appropriate path in most
# linux distributions.
local pkg_config=$(which "${BUILD_TARGET}-pkg-config" || true)
if [[ -z "${pkg_config}" ]]; then
pkg_config=$(which pkg-config)
export PKG_CONFIG_LIBDIR="/usr/${BUILD_TARGET}/lib/pkgconfig"
fi
if [[ -n "${pkg_config}" ]]; then
args+=(-DPKG_CONFIG_EXECUTABLE="${pkg_config}")
fi
fi
if [[ -n "${CMAKE_CROSSCOMPILING_EMULATOR}" ]]; then
args+=(
-DCMAKE_CROSSCOMPILING_EMULATOR="${CMAKE_CROSSCOMPILING_EMULATOR}"
)
fi
if [[ -n "${CMAKE_FIND_ROOT_PATH}" ]]; then
args+=(
-DCMAKE_FIND_ROOT_PATH="${CMAKE_FIND_ROOT_PATH}"
)
fi
if [[ -n "${CMAKE_PREFIX_PATH}" ]]; then
args+=(
-DCMAKE_PREFIX_PATH="${CMAKE_PREFIX_PATH}"
)
fi
if [[ -n "${CMAKE_C_COMPILER_LAUNCHER}" ]]; then
args+=(
-DCMAKE_C_COMPILER_LAUNCHER="${CMAKE_C_COMPILER_LAUNCHER}"
)
fi
if [[ -n "${CMAKE_CXX_COMPILER_LAUNCHER}" ]]; then
args+=(
-DCMAKE_CXX_COMPILER_LAUNCHER="${CMAKE_CXX_COMPILER_LAUNCHER}"
)
fi
if [[ -n "${CMAKE_MAKE_PROGRAM}" ]]; then
args+=(
-DCMAKE_MAKE_PROGRAM="${CMAKE_MAKE_PROGRAM}"
)
fi
if [[ "${BUILD_TARGET}" == wasm* ]]; then
emcmake cmake "${args[@]}" "$@"
else
cmake "${args[@]}" "$@"
fi
}
cmake_build_and_test() {
if [[ "${SKIP_BUILD}" -eq "1" ]]; then
return 0
fi
# gtest_discover_tests() runs the test binaries to discover the list of tests
# at build time, which fails under qemu.
ASAN_OPTIONS=detect_leaks=0 cmake --build "${BUILD_DIR}" -- $TARGETS
# Pack test binaries if requested.
if [[ "${PACK_TEST:-}" == "1" ]]; then
(cd "${BUILD_DIR}"
${FIND_BIN} -name '*.cmake' -a '!' -path '*CMakeFiles*'
# gtest / gmock / gtest_main shared libs
${FIND_BIN} lib/ -name 'libg*.so*'
${FIND_BIN} -type d -name tests -a '!' -path '*CMakeFiles*'
) | tar -C "${BUILD_DIR}" -cf "${BUILD_DIR}/tests.tar.xz" -T - \
--use-compress-program="xz --threads=$(nproc --all || echo 1) -6"
du -h "${BUILD_DIR}/tests.tar.xz"
# Pack coverage data if also available.
touch "${BUILD_DIR}/gcno.sentinel"
(cd "${BUILD_DIR}"; echo gcno.sentinel; ${FIND_BIN} -name '*gcno') | \
tar -C "${BUILD_DIR}" -cvf "${BUILD_DIR}/gcno.tar.xz" -T - \
--use-compress-program="xz --threads=$(nproc --all || echo 1) -6"
fi
if [[ "${SKIP_TEST}" -ne "1" ]]; then
(cd "${BUILD_DIR}"
export UBSAN_OPTIONS=print_stacktrace=1
[[ "${TEST_STACK_LIMIT}" == "none" ]] || ulimit -s "${TEST_STACK_LIMIT}"
ctest -j $(nproc --all || echo 1) ${TEST_SELECTOR} --output-on-failure)
fi
}
# Configure the build to strip unused functions. This considerably reduces the
# output size, specially for tests which only use a small part of the whole
# library.
strip_dead_code() {
# Emscripten does tree shaking without any extra flags.
if [[ "${BUILD_TARGET}" == wasm* ]]; then
return 0
fi
# -ffunction-sections, -fdata-sections and -Wl,--gc-sections effectively
# discard all unreachable code, reducing the code size. For this to work, we
# need to also pass --no-export-dynamic to prevent it from exporting all the
# internal symbols (like functions) making them all reachable and thus not a
# candidate for removal.
CMAKE_CXX_FLAGS+=" -ffunction-sections -fdata-sections"
CMAKE_C_FLAGS+=" -ffunction-sections -fdata-sections"
if [[ "${OS}" == "Darwin" ]]; then
CMAKE_EXE_LINKER_FLAGS+=" -dead_strip"
CMAKE_SHARED_LINKER_FLAGS+=" -dead_strip"
else
CMAKE_EXE_LINKER_FLAGS+=" -Wl,--gc-sections -Wl,--no-export-dynamic"
CMAKE_SHARED_LINKER_FLAGS+=" -Wl,--gc-sections -Wl,--no-export-dynamic"
fi
}
### Externally visible commands
cmd_debug() {
CMAKE_BUILD_TYPE="Debug"
cmake_configure "$@"
cmake_build_and_test
}
cmd_release() {
CMAKE_BUILD_TYPE="Release"
strip_dead_code
cmake_configure "$@"
cmake_build_and_test
}
cmd_opt() {
CMAKE_BUILD_TYPE="RelWithDebInfo"
CMAKE_CXX_FLAGS+=" -DJXL_DEBUG_WARNING -DJXL_DEBUG_ON_ERROR"
cmake_configure "$@"
cmake_build_and_test
}
cmd_coverage() {
# -O0 prohibits stack space reuse -> causes stack-overflow on dozens of tests.
TEST_STACK_LIMIT="none"
cmd_release -DJPEGXL_ENABLE_COVERAGE=ON "$@"
if [[ "${SKIP_TEST}" -ne "1" ]]; then
# If we didn't run the test we also don't print a coverage report.
cmd_coverage_report
fi
}
cmd_coverage_report() {
LLVM_COV=$("${CC:-clang}" -print-prog-name=llvm-cov)
local real_build_dir=$(realpath "${BUILD_DIR}")
local gcovr_args=(
-r "${real_build_dir}"
--gcov-executable "${LLVM_COV} gcov"
# Only print coverage information for the libjxl directories. The rest
# is not part of the code under test.
--filter '.*jxl/.*'
--exclude '.*_gbench.cc'
--exclude '.*_test.cc'
--exclude '.*_testonly..*'
--exclude '.*_debug.*'
--exclude '.*test_utils..*'
--object-directory "${real_build_dir}"
)
(
cd "${real_build_dir}"
gcovr "${gcovr_args[@]}" --html --html-details \
--output="${real_build_dir}/coverage.html"
gcovr "${gcovr_args[@]}" --print-summary |
tee "${real_build_dir}/coverage.txt"
gcovr "${gcovr_args[@]}" --xml --output="${real_build_dir}/coverage.xml"
)
}
cmd_test() {
export_env
# Unpack tests if needed.
if [[ -e "${BUILD_DIR}/tests.tar.xz" && ! -d "${BUILD_DIR}/tests" ]]; then
tar -C "${BUILD_DIR}" -Jxvf "${BUILD_DIR}/tests.tar.xz"
fi
if [[ -e "${BUILD_DIR}/gcno.tar.xz" && ! -d "${BUILD_DIR}/gcno.sentinel" ]]; then
tar -C "${BUILD_DIR}" -Jxvf "${BUILD_DIR}/gcno.tar.xz"
fi
(cd "${BUILD_DIR}"
export UBSAN_OPTIONS=print_stacktrace=1
[[ "${TEST_STACK_LIMIT}" == "none" ]] || ulimit -s "${TEST_STACK_LIMIT}"
ctest -j $(nproc --all || echo 1) ${TEST_SELECTOR} --output-on-failure "$@")
}
cmd_gbench() {
export_env
(cd "${BUILD_DIR}"
export UBSAN_OPTIONS=print_stacktrace=1
lib/jxl_gbench \
--benchmark_counters_tabular=true \
--benchmark_out_format=json \
--benchmark_out=gbench.json "$@"
)
}
cmd_asanfuzz() {
CMAKE_CXX_FLAGS+=" -fsanitize=fuzzer-no-link -DFUZZING_BUILD_MODE_UNSAFE_FOR_PRODUCTION=1"
CMAKE_C_FLAGS+=" -fsanitize=fuzzer-no-link -DFUZZING_BUILD_MODE_UNSAFE_FOR_PRODUCTION=1"
cmd_asan -DJPEGXL_ENABLE_FUZZERS=ON "$@"
}
cmd_msanfuzz() {
# Install msan if needed before changing the flags.
detect_clang_version
local msan_prefix="${HOME}/.msan/${CLANG_VERSION}"
if [[ ! -d "${msan_prefix}" || -e "${msan_prefix}/lib/libc++abi.a" ]]; then
# Install msan libraries for this version if needed or if an older version
# with libc++abi was installed.
cmd_msan_install
fi
CMAKE_CXX_FLAGS+=" -fsanitize=fuzzer-no-link -DFUZZING_BUILD_MODE_UNSAFE_FOR_PRODUCTION=1"
CMAKE_C_FLAGS+=" -fsanitize=fuzzer-no-link -DFUZZING_BUILD_MODE_UNSAFE_FOR_PRODUCTION=1"
cmd_msan -DJPEGXL_ENABLE_FUZZERS=ON "$@"
}
cmd_asan() {
SANITIZER="asan"
CMAKE_C_FLAGS+=" -DJXL_ENABLE_ASSERT=1 -g -DADDRESS_SANITIZER \
-fsanitize=address ${UBSAN_FLAGS[@]}"
CMAKE_CXX_FLAGS+=" -DJXL_ENABLE_ASSERT=1 -g -DADDRESS_SANITIZER \
-fsanitize=address ${UBSAN_FLAGS[@]}"
strip_dead_code
cmake_configure "$@" -DJPEGXL_ENABLE_TCMALLOC=OFF
cmake_build_and_test
}
cmd_tsan() {
SANITIZER="tsan"
local tsan_args=(
-DJXL_ENABLE_ASSERT=1
-g
-DTHREAD_SANITIZER
${UBSAN_FLAGS[@]}
-fsanitize=thread
)
CMAKE_C_FLAGS+=" ${tsan_args[@]}"
CMAKE_CXX_FLAGS+=" ${tsan_args[@]}"
CMAKE_BUILD_TYPE="RelWithDebInfo"
cmake_configure "$@" -DJPEGXL_ENABLE_TCMALLOC=OFF
cmake_build_and_test
}
cmd_msan() {
SANITIZER="msan"
detect_clang_version
local msan_prefix="${HOME}/.msan/${CLANG_VERSION}"
if [[ ! -d "${msan_prefix}" || -e "${msan_prefix}/lib/libc++abi.a" ]]; then
# Install msan libraries for this version if needed or if an older version
# with libc++abi was installed.
cmd_msan_install
fi
local msan_c_flags=(
-fsanitize=memory
-fno-omit-frame-pointer
-fsanitize-memory-track-origins
-DJXL_ENABLE_ASSERT=1
-g
-DMEMORY_SANITIZER
# Force gtest to not use the cxxbai.
-DGTEST_HAS_CXXABI_H_=0
)
local msan_cxx_flags=(
"${msan_c_flags[@]}"
# Some C++ sources don't use the std at all, so the -stdlib=libc++ is unused
# in those cases. Ignore the warning.
-Wno-unused-command-line-argument
-stdlib=libc++
# We include the libc++ from the msan directory instead, so we don't want
# the std includes.
-nostdinc++
-cxx-isystem"${msan_prefix}/include/c++/v1"
)
local msan_linker_flags=(
-L"${msan_prefix}"/lib
-Wl,-rpath -Wl,"${msan_prefix}"/lib/
)
CMAKE_C_FLAGS+=" ${msan_c_flags[@]} ${UBSAN_FLAGS[@]}"
CMAKE_CXX_FLAGS+=" ${msan_cxx_flags[@]} ${UBSAN_FLAGS[@]}"
CMAKE_EXE_LINKER_FLAGS+=" ${msan_linker_flags[@]}"
CMAKE_MODULE_LINKER_FLAGS+=" ${msan_linker_flags[@]}"
CMAKE_SHARED_LINKER_FLAGS+=" ${msan_linker_flags[@]}"
strip_dead_code
cmake_configure "$@" \
-DCMAKE_CROSSCOMPILING=1 -DRUN_HAVE_STD_REGEX=0 -DRUN_HAVE_POSIX_REGEX=0 \
-DJPEGXL_ENABLE_TCMALLOC=OFF -DJPEGXL_WARNINGS_AS_ERRORS=OFF \
-DCMAKE_REQUIRED_LINK_OPTIONS="${msan_linker_flags[@]}"
cmake_build_and_test
}
# Install libc++ libraries compiled with msan in the msan_prefix for the current
# compiler version.
cmd_msan_install() {
local tmpdir=$(mktemp -d)
CLEANUP_FILES+=("${tmpdir}")
# Detect the llvm to install:
export CC="${CC:-clang}"
export CXX="${CXX:-clang++}"
detect_clang_version
# Allow overriding the LLVM checkout.
local llvm_root="${LLVM_ROOT:-}"
if [ -z "${llvm_root}" ]; then
local llvm_tag="llvmorg-${CLANG_VERSION}.0.0"
case "${CLANG_VERSION}" in
"6.0")
llvm_tag="llvmorg-6.0.1"
;;
"7")
llvm_tag="llvmorg-7.0.1"
;;
esac
local llvm_targz="${tmpdir}/${llvm_tag}.tar.gz"
curl -L --show-error -o "${llvm_targz}" \
"https://github.com/llvm/llvm-project/archive/${llvm_tag}.tar.gz"
tar -C "${tmpdir}" -zxf "${llvm_targz}"
llvm_root="${tmpdir}/llvm-project-${llvm_tag}"
fi
local msan_prefix="${HOME}/.msan/${CLANG_VERSION}"
rm -rf "${msan_prefix}"
declare -A CMAKE_EXTRAS
CMAKE_EXTRAS[libcxx]="\
-DLIBCXX_CXX_ABI=libstdc++ \
-DLIBCXX_INSTALL_EXPERIMENTAL_LIBRARY=ON"
for project in libcxx; do
local proj_build="${tmpdir}/build-${project}"
local proj_dir="${llvm_root}/${project}"
mkdir -p "${proj_build}"
cmake -B"${proj_build}" -H"${proj_dir}" \
-G Ninja \
-DCMAKE_BUILD_TYPE=Release \
-DLLVM_USE_SANITIZER=Memory \
-DLLVM_PATH="${llvm_root}/llvm" \
-DLLVM_CONFIG_PATH="$(which llvm-config llvm-config-7 llvm-config-6.0 | \
head -n1)" \
-DCMAKE_CXX_FLAGS="${CMAKE_CXX_FLAGS}" \
-DCMAKE_C_FLAGS="${CMAKE_C_FLAGS}" \
-DCMAKE_EXE_LINKER_FLAGS="${CMAKE_EXE_LINKER_FLAGS}" \
-DCMAKE_SHARED_LINKER_FLAGS="${CMAKE_SHARED_LINKER_FLAGS}" \
-DCMAKE_INSTALL_PREFIX="${msan_prefix}" \
${CMAKE_EXTRAS[${project}]}
cmake --build "${proj_build}"
ninja -C "${proj_build}" install
done
}
# Internal build step shared between all cmd_ossfuzz_* commands.
_cmd_ossfuzz() {
local sanitizer="$1"
shift
mkdir -p "${BUILD_DIR}"
local real_build_dir=$(realpath "${BUILD_DIR}")
# oss-fuzz defines three directories:
# * /work, with the working directory to do re-builds
# * /src, with the source code to build
# * /out, with the output directory where to copy over the built files.
# We use $BUILD_DIR as the /work and the script directory as the /src. The
# /out directory is ignored as developers are used to look for the fuzzers in
# $BUILD_DIR/tools/ directly.
if [[ "${sanitizer}" = "memory" && ! -d "${BUILD_DIR}/msan" ]]; then
sudo docker run --rm -i \
--user $(id -u):$(id -g) \
-v "${real_build_dir}":/work \
gcr.io/oss-fuzz-base/msan-libs-builder \
bash -c "cp -r /msan /work"
fi
# Args passed to ninja. These will be evaluated as a string separated by
# spaces.
local jpegxl_extra_args="$@"
sudo docker run --rm -i \
-e JPEGXL_UID=$(id -u) \
-e JPEGXL_GID=$(id -g) \
-e FUZZING_ENGINE="${FUZZING_ENGINE:-libfuzzer}" \
-e SANITIZER="${sanitizer}" \
-e ARCHITECTURE=x86_64 \
-e FUZZING_LANGUAGE=c++ \
-e MSAN_LIBS_PATH="/work/msan" \
-e JPEGXL_EXTRA_ARGS="${jpegxl_extra_args}" \
-v "${MYDIR}":/src/libjxl \
-v "${MYDIR}/tools/scripts/ossfuzz-build.sh":/src/build.sh \
-v "${real_build_dir}":/work \
gcr.io/oss-fuzz/libjxl
}
cmd_ossfuzz_asan() {
_cmd_ossfuzz address "$@"
}
cmd_ossfuzz_msan() {
_cmd_ossfuzz memory "$@"
}
cmd_ossfuzz_ubsan() {
_cmd_ossfuzz undefined "$@"
}
cmd_ossfuzz_ninja() {
[[ -e "${BUILD_DIR}/build.ninja" ]]
local real_build_dir=$(realpath "${BUILD_DIR}")
if [[ -e "${BUILD_DIR}/msan" ]]; then
echo "ossfuzz_ninja doesn't work with msan builds. Use ossfuzz_msan." >&2
exit 1
fi
sudo docker run --rm -i \
--user $(id -u):$(id -g) \
-v "${MYDIR}":/src/libjxl \
-v "${real_build_dir}":/work \
gcr.io/oss-fuzz/libjxl \
ninja -C /work "$@"
}
cmd_fast_benchmark() {
local small_corpus_tar="${BENCHMARK_CORPORA}/jyrki-full.tar"
mkdir -p "${BENCHMARK_CORPORA}"
curl --show-error -o "${small_corpus_tar}" -z "${small_corpus_tar}" \
"https://storage.googleapis.com/artifacts.jpegxl.appspot.com/corpora/jyrki-full.tar"
local tmpdir=$(mktemp -d)
CLEANUP_FILES+=("${tmpdir}")
tar -xf "${small_corpus_tar}" -C "${tmpdir}"
run_benchmark "${tmpdir}" 1048576
}
cmd_benchmark() {
local nikon_corpus_tar="${BENCHMARK_CORPORA}/nikon-subset.tar"
mkdir -p "${BENCHMARK_CORPORA}"
curl --show-error -o "${nikon_corpus_tar}" -z "${nikon_corpus_tar}" \
"https://storage.googleapis.com/artifacts.jpegxl.appspot.com/corpora/nikon-subset.tar"
local tmpdir=$(mktemp -d)
CLEANUP_FILES+=("${tmpdir}")
tar -xvf "${nikon_corpus_tar}" -C "${tmpdir}"
local sem_id="jpegxl_benchmark-$$"
local nprocs=$(nproc --all || echo 1)
images=()
local filename
while IFS= read -r filename; do
# This removes the './'
filename="${filename:2}"
local mode
if [[ "${filename:0:4}" == "srgb" ]]; then
mode="RGB_D65_SRG_Rel_SRG"
elif [[ "${filename:0:5}" == "adobe" ]]; then
mode="RGB_D65_Ado_Rel_Ado"
else
echo "Unknown image colorspace: ${filename}" >&2
exit 1
fi
png_filename="${filename%.ppm}.png"
png_filename=$(echo "${png_filename}" | tr '/' '_')
sem --bg --id "${sem_id}" -j"${nprocs}" -- \
"${BUILD_DIR}/tools/decode_and_encode" \
"${tmpdir}/${filename}" "${mode}" "${tmpdir}/${png_filename}"
images+=( "${png_filename}" )
done < <(cd "${tmpdir}"; ${FIND_BIN} . -name '*.ppm' -type f)
sem --id "${sem_id}" --wait
# We need about 10 GiB per thread on these images.
run_benchmark "${tmpdir}" 10485760
}
get_mem_available() {
if [[ "${OS}" == "Darwin" ]]; then
echo $(vm_stat | grep -F 'Pages free:' | awk '{print $3 * 4}')
else
echo $(grep -F MemAvailable: /proc/meminfo | awk '{print $2}')
fi
}
run_benchmark() {
local src_img_dir="$1"
local mem_per_thread="${2:-10485760}"
local output_dir="${BUILD_DIR}/benchmark_results"
mkdir -p "${output_dir}"
# The memory available at the beginning of the benchmark run in kB. The number
# of threads depends on the available memory, and the passed memory per
# thread. We also add a 2 GiB of constant memory.
local mem_available="$(get_mem_available)"
# Check that we actually have a MemAvailable value.
[[ -n "${mem_available}" ]]
local num_threads=$(( (${mem_available} - 1048576) / ${mem_per_thread} ))
if [[ ${num_threads} -le 0 ]]; then
num_threads=1
fi
local benchmark_args=(
--input "${src_img_dir}/*.png"
--codec=jpeg:yuv420:q85,webp:q80,jxl:d1:6,jxl:d1:6:downsampling=8,jxl:d5:6,jxl:d5:6:downsampling=8,jxl:m:d0:2,jxl:m:d0:3,jxl:m:d2:2
--output_dir "${output_dir}"
--show_progress
--num_threads="${num_threads}"
)
if [[ "${STORE_IMAGES}" == "1" ]]; then
benchmark_args+=(--save_decompressed --save_compressed)
fi
(
[[ "${TEST_STACK_LIMIT}" == "none" ]] || ulimit -s "${TEST_STACK_LIMIT}"
"${BUILD_DIR}/tools/benchmark_xl" "${benchmark_args[@]}" | \
tee "${output_dir}/results.txt"
# Check error code for benckmark_xl command. This will exit if not.
return ${PIPESTATUS[0]}
)
if [[ -n "${CI_BUILD_NAME:-}" ]]; then
{ set +x; } 2>/dev/null
local message="Results for ${CI_BUILD_NAME} @ ${CI_COMMIT_SHORT_SHA} (job ${CI_JOB_URL:-}):
$(cat "${output_dir}/results.txt")
"
cmd_post_mr_comment "${message}"
set -x
fi
}
# Helper function to wait for the CPU temperature to cool down on ARM.
wait_for_temp() {
{ set +x; } 2>/dev/null
local temp_limit=${1:-38000}
if [[ -z "${THERMAL_FILE:-}" ]]; then
echo "Must define the THERMAL_FILE with the thermal_zoneX/temp file" \
"to read the temperature from. This is normally set in the runner." >&2
exit 1
fi
local org_temp=$(cat "${THERMAL_FILE}")
if [[ "${org_temp}" -ge "${temp_limit}" ]]; then
echo -n "Waiting for temp to get down from ${org_temp}... "
fi
local temp="${org_temp}"
local secs=0
while [[ "${temp}" -ge "${temp_limit}" ]]; do
sleep 1
temp=$(cat "${THERMAL_FILE}")
echo -n "${temp} "
secs=$((secs + 1))
if [[ ${secs} -ge 5 ]]; then
break
fi
done
if [[ "${org_temp}" -ge "${temp_limit}" ]]; then
echo "Done, temp=${temp}"
fi
set -x
}
# Helper function to set the cpuset restriction of the current process.
cmd_cpuset() {
[[ "${SKIP_CPUSET:-}" != "1" ]] || return 0
local newset="$1"
local mycpuset=$(cat /proc/self/cpuset)
mycpuset="/dev/cpuset${mycpuset}"
# Check that the directory exists:
[[ -d "${mycpuset}" ]]
if [[ -e "${mycpuset}/cpuset.cpus" ]]; then
echo "${newset}" >"${mycpuset}/cpuset.cpus"
else
echo "${newset}" >"${mycpuset}/cpus"
fi
}
# Return the encoding/decoding speed from the Stats output.
_speed_from_output() {
local speed="$1"
local unit="${2:-MP/s}"
if [[ "${speed}" == *"${unit}"* ]]; then
speed="${speed%% ${unit}*}"
speed="${speed##* }"
echo "${speed}"
fi
}
# Run benchmarks on ARM for the big and little CPUs.