The C based gRPC (C++, Python, Ruby, Objective-C, PHP, C#) https://grpc.io/
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# 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.
from distutils import cygwinccompiler
from distutils import extension
from distutils import util
import errno
import os
import os.path
import pkg_resources
import platform
import re
import shlex
import shutil
import sys
import sysconfig
import setuptools
from setuptools.command import build_ext
import subprocess
from subprocess import PIPE
# TODO(atash) add flag to disable Cython use
_PACKAGE_PATH = os.path.realpath(os.path.dirname(__file__))
_README_PATH = os.path.join(_PACKAGE_PATH, 'README.rst')
os.chdir(os.path.dirname(os.path.abspath(__file__)))
sys.path.insert(0, os.path.abspath('.'))
import _parallel_compile_patch
import protoc_lib_deps
import grpc_version
_EXT_INIT_SYMBOL = None
if sys.version_info[0] == 2:
_EXT_INIT_SYMBOL = "init_protoc_compiler"
else:
_EXT_INIT_SYMBOL = "PyInit__protoc_compiler"
_parallel_compile_patch.monkeypatch_compile_maybe()
CLASSIFIERS = [
'Development Status :: 5 - Production/Stable',
'Programming Language :: Python',
'Programming Language :: Python :: 2',
'Programming Language :: Python :: 2.7',
'Programming Language :: Python :: 3',
'Programming Language :: Python :: 3.4',
'Programming Language :: Python :: 3.5',
'Programming Language :: Python :: 3.6',
'License :: OSI Approved :: Apache Software License',
]
PY3 = sys.version_info.major == 3
def _env_bool_value(env_name, default):
"""Parses a bool option from an environment variable"""
return os.environ.get(env_name, default).upper() not in ['FALSE', '0', '']
# Environment variable to determine whether or not the Cython extension should
# *use* Cython or use the generated C files. Note that this requires the C files
# to have been generated by building first *with* Cython support.
BUILD_WITH_CYTHON = _env_bool_value('GRPC_PYTHON_BUILD_WITH_CYTHON', 'False')
# Export this variable to force building the python extension with a statically linked libstdc++.
# At least on linux, this is normally not needed as we can build manylinux-compatible wheels on linux just fine
# without statically linking libstdc++ (which leads to a slight increase in the wheel size).
# This option is useful when crosscompiling wheels for aarch64 where
# it's difficult to ensure that the crosscompilation toolchain has a high-enough version
# of GCC (we require >4.9) but still uses old-enough libstdc++ symbols.
# TODO(jtattermusch): remove this workaround once issues with crosscompiler version are resolved.
BUILD_WITH_STATIC_LIBSTDCXX = _env_bool_value(
'GRPC_PYTHON_BUILD_WITH_STATIC_LIBSTDCXX', 'False')
def check_linker_need_libatomic():
"""Test if linker on system needs libatomic."""
code_test = (b'#include <atomic>\n' +
b'int main() { return std::atomic<int64_t>{}; }')
cxx = os.environ.get('CXX', 'c++')
cpp_test = subprocess.Popen([cxx, '-x', 'c++', '-std=c++11', '-'],
stdin=PIPE,
stdout=PIPE,
stderr=PIPE)
cpp_test.communicate(input=code_test)
if cpp_test.returncode == 0:
return False
# Double-check to see if -latomic actually can solve the problem.
# https://github.com/grpc/grpc/issues/22491
cpp_test = subprocess.Popen(
[cxx, '-x', 'c++', '-std=c++11', '-latomic', '-'],
stdin=PIPE,
stdout=PIPE,
stderr=PIPE)
cpp_test.communicate(input=code_test)
return cpp_test.returncode == 0
class BuildExt(build_ext.build_ext):
"""Custom build_ext command."""
def get_ext_filename(self, ext_name):
# since python3.5, python extensions' shared libraries use a suffix that corresponds to the value
# of sysconfig.get_config_var('EXT_SUFFIX') and contains info about the architecture the library targets.
# E.g. on x64 linux the suffix is ".cpython-XYZ-x86_64-linux-gnu.so"
# When crosscompiling python wheels, we need to be able to override this suffix
# so that the resulting file name matches the target architecture and we end up with a well-formed
# wheel.
filename = build_ext.build_ext.get_ext_filename(self, ext_name)
orig_ext_suffix = sysconfig.get_config_var('EXT_SUFFIX')
new_ext_suffix = os.getenv('GRPC_PYTHON_OVERRIDE_EXT_SUFFIX')
if new_ext_suffix and filename.endswith(orig_ext_suffix):
filename = filename[:-len(orig_ext_suffix)] + new_ext_suffix
return filename
# There are some situations (like on Windows) where CC, CFLAGS, and LDFLAGS are
# entirely ignored/dropped/forgotten by distutils and its Cygwin/MinGW support.
# We use these environment variables to thus get around that without locking
# ourselves in w.r.t. the multitude of operating systems this ought to build on.
# We can also use these variables as a way to inject environment-specific
# compiler/linker flags. We assume GCC-like compilers and/or MinGW as a
# reasonable default.
EXTRA_ENV_COMPILE_ARGS = os.environ.get('GRPC_PYTHON_CFLAGS', None)
EXTRA_ENV_LINK_ARGS = os.environ.get('GRPC_PYTHON_LDFLAGS', None)
if EXTRA_ENV_COMPILE_ARGS is None:
EXTRA_ENV_COMPILE_ARGS = '-std=c++11'
if 'win32' in sys.platform:
if sys.version_info < (3, 5):
# We use define flags here and don't directly add to DEFINE_MACROS below to
# ensure that the expert user/builder has a way of turning it off (via the
# envvars) without adding yet more GRPC-specific envvars.
# See https://sourceforge.net/p/mingw-w64/bugs/363/
if '32' in platform.architecture()[0]:
EXTRA_ENV_COMPILE_ARGS += ' -D_ftime=_ftime32 -D_timeb=__timeb32 -D_ftime_s=_ftime32_s -D_hypot=hypot'
else:
EXTRA_ENV_COMPILE_ARGS += ' -D_ftime=_ftime64 -D_timeb=__timeb64 -D_hypot=hypot'
else:
# We need to statically link the C++ Runtime, only the C runtime is
# available dynamically
EXTRA_ENV_COMPILE_ARGS += ' /MT'
elif "linux" in sys.platform or "darwin" in sys.platform:
EXTRA_ENV_COMPILE_ARGS += ' -fno-wrapv -frtti'
if EXTRA_ENV_LINK_ARGS is None:
EXTRA_ENV_LINK_ARGS = ''
# NOTE(rbellevi): Clang on Mac OS will make all static symbols (both
# variables and objects) global weak symbols. When a process loads the
# protobuf wheel's shared object library before loading *this* C extension,
# the runtime linker will prefer the protobuf module's version of symbols.
# This results in the process using a mixture of symbols from the protobuf
# wheel and this wheel, which may be using different versions of
# libprotobuf. In the case that they *are* using different versions of
# libprotobuf *and* there has been a change in data layout (or in other
# invariants) segfaults, data corruption, or "bad things" may happen.
#
# This flag ensures that on Mac, the only global symbol is the one loaded by
# the Python interpreter. The problematic global weak symbols become local
# weak symbols. This is not required on Linux since the compiler does not
# produce global weak symbols. This is not required on Windows as our ".pyd"
# file does not contain any symbols.
#
# Finally, the leading underscore here is part of the Mach-O ABI. Unlike
# more modern ABIs (ELF et al.), Mach-O prepends an underscore to the names
# of C functions.
if "darwin" in sys.platform:
EXTRA_ENV_LINK_ARGS += ' -Wl,-exported_symbol,_{}'.format(
_EXT_INIT_SYMBOL)
if "linux" in sys.platform or "darwin" in sys.platform:
EXTRA_ENV_LINK_ARGS += ' -lpthread'
if check_linker_need_libatomic():
EXTRA_ENV_LINK_ARGS += ' -latomic'
elif "win32" in sys.platform and sys.version_info < (3, 5):
msvcr = cygwinccompiler.get_msvcr()[0]
EXTRA_ENV_LINK_ARGS += (
' -static-libgcc -static-libstdc++ -mcrtdll={msvcr}'
' -static -lshlwapi'.format(msvcr=msvcr))
EXTRA_COMPILE_ARGS = shlex.split(EXTRA_ENV_COMPILE_ARGS)
EXTRA_LINK_ARGS = shlex.split(EXTRA_ENV_LINK_ARGS)
if BUILD_WITH_STATIC_LIBSTDCXX:
EXTRA_LINK_ARGS.append('-static-libstdc++')
CC_FILES = [os.path.normpath(cc_file) for cc_file in protoc_lib_deps.CC_FILES]
PROTO_FILES = [
os.path.normpath(proto_file) for proto_file in protoc_lib_deps.PROTO_FILES
]
CC_INCLUDE = os.path.normpath(protoc_lib_deps.CC_INCLUDE)
PROTO_INCLUDE = os.path.normpath(protoc_lib_deps.PROTO_INCLUDE)
GRPC_PYTHON_TOOLS_PACKAGE = 'grpc_tools'
GRPC_PYTHON_PROTO_RESOURCES_NAME = '_proto'
DEFINE_MACROS = ()
if "win32" in sys.platform:
DEFINE_MACROS += (('WIN32_LEAN_AND_MEAN', 1),)
if '64bit' in platform.architecture()[0]:
DEFINE_MACROS += (('MS_WIN64', 1),)
elif "linux" in sys.platform or "darwin" in sys.platform:
DEFINE_MACROS += (('HAVE_PTHREAD', 1),)
# By default, Python3 distutils enforces compatibility of
# c plugins (.so files) with the OSX version Python was built with.
# We need OSX 10.10, the oldest which supports C++ thread_local.
if 'darwin' in sys.platform:
mac_target = sysconfig.get_config_var('MACOSX_DEPLOYMENT_TARGET')
if mac_target and (pkg_resources.parse_version(mac_target) <
pkg_resources.parse_version('10.10.0')):
os.environ['MACOSX_DEPLOYMENT_TARGET'] = '10.10'
os.environ['_PYTHON_HOST_PLATFORM'] = re.sub(
r'macosx-[0-9]+\.[0-9]+-(.+)', r'macosx-10.10-\1',
util.get_platform())
def package_data():
tools_path = GRPC_PYTHON_TOOLS_PACKAGE.replace('.', os.path.sep)
proto_resources_path = os.path.join(tools_path,
GRPC_PYTHON_PROTO_RESOURCES_NAME)
proto_files = []
for proto_file in PROTO_FILES:
source = os.path.join(PROTO_INCLUDE, proto_file)
target = os.path.join(proto_resources_path, proto_file)
relative_target = os.path.join(GRPC_PYTHON_PROTO_RESOURCES_NAME,
proto_file)
try:
os.makedirs(os.path.dirname(target))
except OSError as error:
if error.errno == errno.EEXIST:
pass
else:
raise
shutil.copy(source, target)
proto_files.append(relative_target)
return {GRPC_PYTHON_TOOLS_PACKAGE: proto_files}
def extension_modules():
if BUILD_WITH_CYTHON:
plugin_sources = [os.path.join('grpc_tools', '_protoc_compiler.pyx')]
else:
plugin_sources = [os.path.join('grpc_tools', '_protoc_compiler.cpp')]
plugin_sources += [
os.path.join('grpc_tools', 'main.cc'),
os.path.join('grpc_root', 'src', 'compiler', 'python_generator.cc')
] + [os.path.join(CC_INCLUDE, cc_file) for cc_file in CC_FILES]
plugin_ext = extension.Extension(
name='grpc_tools._protoc_compiler',
sources=plugin_sources,
include_dirs=[
'.',
'grpc_root',
os.path.join('grpc_root', 'include'),
CC_INCLUDE,
],
language='c++',
define_macros=list(DEFINE_MACROS),
extra_compile_args=list(EXTRA_COMPILE_ARGS),
extra_link_args=list(EXTRA_LINK_ARGS),
)
extensions = [plugin_ext]
if BUILD_WITH_CYTHON:
from Cython import Build
return Build.cythonize(extensions)
else:
return extensions
setuptools.setup(name='grpcio-tools',
version=grpc_version.VERSION,
description='Protobuf code generator for gRPC',
long_description=open(_README_PATH, 'r').read(),
author='The gRPC Authors',
author_email='grpc-io@googlegroups.com',
url='https://grpc.io',
license='Apache License 2.0',
classifiers=CLASSIFIERS,
ext_modules=extension_modules(),
packages=setuptools.find_packages('.'),
install_requires=[
'protobuf>=3.5.0.post1, < 4.0dev',
'grpcio>={version}'.format(version=grpc_version.VERSION),
'setuptools',
],
package_data=package_data(),
cmdclass={
'build_ext': BuildExt,
})