#!/bin/bash # Copyright 2016 gRPC authors. # # 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. set -ex cd "$(dirname "$0")/../../.." export GRPC_PYTHON_BUILD_WITH_CYTHON=1 export PYTHON=${PYTHON:-python} export PIP=${PIP:-pip} export AUDITWHEEL=${AUDITWHEEL:-auditwheel} if [ "$GRPC_SKIP_PIP_CYTHON_UPGRADE" == "" ] then # Install Cython to avoid source wheel build failure. # This only needs to be done when not running under docker (=on MacOS) # since the docker images used for building python wheels # already have a new-enough version of cython pre-installed. # Any installation step is a potential source of breakages, # so we are trying to perform as few download-and-install operations # as possible. "${PIP}" install --upgrade cython fi # Allow build_ext to build C/C++ files in parallel # by enabling a monkeypatch. It speeds up the build a lot. # Use externally provided GRPC_PYTHON_BUILD_EXT_COMPILER_JOBS value if set. export GRPC_PYTHON_BUILD_EXT_COMPILER_JOBS=${GRPC_PYTHON_BUILD_EXT_COMPILER_JOBS:-2} mkdir -p "${ARTIFACTS_OUT}" ARTIFACT_DIR="$PWD/${ARTIFACTS_OUT}" # check whether we are crosscompiling. AUDITWHEEL_ARCH is set by the dockcross docker image. if [ "$AUDITWHEEL_ARCH" == "aarch64" ] then # when crosscompiling for aarch64, --plat-name needs to be set explicitly # to end up with correctly named wheel file # the value should be manylinuxABC_ARCH and dockcross docker image # conveniently provides the value in the AUDITWHEEL_PLAT env WHEEL_PLAT_NAME_FLAG="--plat-name=$AUDITWHEEL_PLAT" # override the value of EXT_SUFFIX to make sure the crosscompiled .so files in the wheel have the correct filename suffix GRPC_PYTHON_OVERRIDE_EXT_SUFFIX="$(${PYTHON} -c 'import sysconfig; print(sysconfig.get_config_var("EXT_SUFFIX").replace("-x86_64-linux-gnu.so", "-aarch64-linux-gnu.so"))')" export GRPC_PYTHON_OVERRIDE_EXT_SUFFIX # since we're crosscompiling, we need to explicitly choose the right platform for boringssl assembly optimizations export GRPC_BUILD_OVERRIDE_BORING_SSL_ASM_PLATFORM="linux-aarch64" fi # check whether we are crosscompiling. AUDITWHEEL_ARCH is set by the dockcross docker image. if [ "$AUDITWHEEL_ARCH" == "armv7l" ] then # when crosscompiling for arm, --plat-name needs to be set explicitly # to end up with correctly named wheel file # our dockcross-based docker image onveniently provides the value in the AUDITWHEEL_PLAT env WHEEL_PLAT_NAME_FLAG="--plat-name=$AUDITWHEEL_PLAT" # override the value of EXT_SUFFIX to make sure the crosscompiled .so files in the wheel have the correct filename suffix GRPC_PYTHON_OVERRIDE_EXT_SUFFIX="$(${PYTHON} -c 'import sysconfig; print(sysconfig.get_config_var("EXT_SUFFIX").replace("-x86_64-linux-gnu.so", "-arm-linux-gnueabihf.so"))')" export GRPC_PYTHON_OVERRIDE_EXT_SUFFIX # since we're crosscompiling, we need to explicitly choose the right platform for boringssl assembly optimizations export GRPC_BUILD_OVERRIDE_BORING_SSL_ASM_PLATFORM="linux-arm" fi # Build the source distribution first because MANIFEST.in cannot override # exclusion of built shared objects among package resources (for some # inexplicable reason). ${SETARCH_CMD} "${PYTHON}" setup.py sdist # Wheel has a bug where directories don't get excluded. # https://bitbucket.org/pypa/wheel/issues/99/cannot-exclude-directory # shellcheck disable=SC2086 ${SETARCH_CMD} "${PYTHON}" setup.py bdist_wheel $WHEEL_PLAT_NAME_FLAG GRPCIO_STRIP_TEMPDIR=$(mktemp -d) GRPCIO_TAR_GZ_LIST=( dist/grpcio-*.tar.gz ) GRPCIO_TAR_GZ=${GRPCIO_TAR_GZ_LIST[0]} GRPCIO_STRIPPED_TAR_GZ=$(mktemp -t "XXXXXXXXXX.tar.gz") clean_non_source_files() { ( cd "$1" find . -type f \ | grep -v '\.c$' | grep -v '\.cc$' | grep -v '\.cpp$' \ | grep -v '\.h$' | grep -v '\.hh$' | grep -v '\.inc$' \ | grep -v '\.s$' | grep -v '\.py$' | grep -v '\.hpp$' \ | grep -v '\.S$' | grep -v '\.asm$' \ | while read -r file; do rm -f "$file" || true done find . -type d -empty -delete ) } tar xzf "${GRPCIO_TAR_GZ}" -C "${GRPCIO_STRIP_TEMPDIR}" ( cd "${GRPCIO_STRIP_TEMPDIR}" find . -type d -name .git -exec rm -fr {} \; || true for dir in */third_party/*; do clean_non_source_files "${dir}" || true done tar czf "${GRPCIO_STRIPPED_TAR_GZ}" -- * ) mv "${GRPCIO_STRIPPED_TAR_GZ}" "${GRPCIO_TAR_GZ}" # Build gRPC tools package distribution "${PYTHON}" tools/distrib/python/make_grpcio_tools.py # Build gRPC tools package source distribution ${SETARCH_CMD} "${PYTHON}" tools/distrib/python/grpcio_tools/setup.py sdist # Build gRPC tools package binary distribution # shellcheck disable=SC2086 ${SETARCH_CMD} "${PYTHON}" tools/distrib/python/grpcio_tools/setup.py bdist_wheel $WHEEL_PLAT_NAME_FLAG if [ "$GRPC_RUN_AUDITWHEEL_REPAIR" != "" ] then for wheel in dist/*.whl; do "${AUDITWHEEL}" show "$wheel" | tee /dev/stderr | grep -E -w "$AUDITWHEEL_PLAT" "${AUDITWHEEL}" repair "$wheel" -w "$ARTIFACT_DIR" rm "$wheel" done for wheel in tools/distrib/python/grpcio_tools/dist/*.whl; do "${AUDITWHEEL}" show "$wheel" | tee /dev/stderr | grep -E -w "$AUDITWHEEL_PLAT" "${AUDITWHEEL}" repair "$wheel" -w "$ARTIFACT_DIR" rm "$wheel" done fi # We need to use the built grpcio-tools/grpcio to compile the health proto # Wheels are not supported by setup_requires/dependency_links, so we # manually install the dependency. Note we should only do this if we # are in a docker image or in a virtualenv. if [ "$GRPC_BUILD_GRPCIO_TOOLS_DEPENDENTS" != "" ] then "${PIP}" install -rrequirements.txt if [ "$("$PYTHON" -c "import sys; print(sys.version_info[0])")" == "2" ] then "${PIP}" install futures>=2.2.0 enum34>=1.0.4 fi "${PIP}" install grpcio --no-index --find-links "file://$ARTIFACT_DIR/" "${PIP}" install grpcio-tools --no-index --find-links "file://$ARTIFACT_DIR/" # Note(lidiz) setuptools's "sdist" command creates a source tarball, which # demands an extra step of building the wheel. The building step is merely ran # through setup.py, but we can optimize it with "bdist_wheel" command, which # skips the wheel building step. # Build grpcio_testing source distribution ${SETARCH_CMD} "${PYTHON}" src/python/grpcio_testing/setup.py preprocess \ sdist bdist_wheel cp -r src/python/grpcio_testing/dist/* "$ARTIFACT_DIR" # Build grpcio_channelz source distribution ${SETARCH_CMD} "${PYTHON}" src/python/grpcio_channelz/setup.py \ preprocess build_package_protos sdist bdist_wheel cp -r src/python/grpcio_channelz/dist/* "$ARTIFACT_DIR" # Build grpcio_health_checking source distribution ${SETARCH_CMD} "${PYTHON}" src/python/grpcio_health_checking/setup.py \ preprocess build_package_protos sdist bdist_wheel cp -r src/python/grpcio_health_checking/dist/* "$ARTIFACT_DIR" # Build grpcio_reflection source distribution ${SETARCH_CMD} "${PYTHON}" src/python/grpcio_reflection/setup.py \ preprocess build_package_protos sdist bdist_wheel cp -r src/python/grpcio_reflection/dist/* "$ARTIFACT_DIR" # Build grpcio_status source distribution ${SETARCH_CMD} "${PYTHON}" src/python/grpcio_status/setup.py \ preprocess sdist bdist_wheel cp -r src/python/grpcio_status/dist/* "$ARTIFACT_DIR" # Build grpcio_csds source distribution ${SETARCH_CMD} "${PYTHON}" src/python/grpcio_csds/setup.py \ sdist bdist_wheel cp -r src/python/grpcio_csds/dist/* "$ARTIFACT_DIR" # Build grpcio_admin source distribution and it needs the cutting-edge version # of Channelz and CSDS to be installed. "${PIP}" install --upgrade xds-protos==0.0.8 "${PIP}" install grpcio-channelz --no-index --find-links "file://$ARTIFACT_DIR/" "${PIP}" install grpcio-csds --no-index --find-links "file://$ARTIFACT_DIR/" ${SETARCH_CMD} "${PYTHON}" src/python/grpcio_admin/setup.py \ sdist bdist_wheel cp -r src/python/grpcio_admin/dist/* "$ARTIFACT_DIR" fi if [ "$GRPC_SKIP_TWINE_CHECK" == "" ] then # Ensure the generated artifacts are valid. "${PYTHON}" -m pip install virtualenv "${PYTHON}" -m virtualenv venv || { "${PYTHON}" -m pip install virtualenv==16.7.9 && "${PYTHON}" -m virtualenv venv; } venv/bin/python -m pip install "twine<=2.0" venv/bin/python -m twine check dist/* tools/distrib/python/grpcio_tools/dist/* rm -rf venv/ fi cp -r dist/* "$ARTIFACT_DIR" cp -r tools/distrib/python/grpcio_tools/dist/* "$ARTIFACT_DIR"