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setup.py
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setup.py
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# ------------------------------------------------------------------------
# Copyright (c) Microsoft Corporation. All rights reserved.
# Licensed under the MIT License.
# ------------------------------------------------------------------------
from setuptools import setup, Extension
from distutils import log as logger
from distutils.command.build_ext import build_ext as _build_ext
from glob import glob, iglob
from os import path, getcwd, environ, remove
from shutil import copyfile
import platform
import subprocess
import sys
import datetime
from pathlib import Path
nightly_build = False
package_name = 'onnxruntime'
wheel_name_suffix = None
def parse_arg_remove_boolean(argv, arg_name):
arg_value = False
if arg_name in sys.argv:
arg_value = True
argv.remove(arg_name)
return arg_value
def parse_arg_remove_string(argv, arg_name_equal):
arg_value = None
for arg in sys.argv[1:]:
if arg.startswith(arg_name_equal):
arg_value = arg[len(arg_name_equal):]
sys.argv.remove(arg)
break
return arg_value
# Any combination of the following arguments can be applied
if parse_arg_remove_boolean(sys.argv, '--nightly_build'):
package_name = 'ort-nightly'
nightly_build = True
wheel_name_suffix = parse_arg_remove_string(sys.argv, '--wheel_name_suffix=')
cuda_version = None
rocm_version = None
is_rocm = False
# The following arguments are mutually exclusive
if wheel_name_suffix == 'gpu':
# TODO: how to support multiple CUDA versions?
cuda_version = parse_arg_remove_string(sys.argv, '--cuda_version=')
elif parse_arg_remove_boolean(sys.argv, '--use_rocm'):
is_rocm = True
package_name = 'onnxruntime-rocm' if not nightly_build else 'ort-rocm-nightly'
rocm_version = parse_arg_remove_string(sys.argv, '--rocm_version=')
elif parse_arg_remove_boolean(sys.argv, '--use_openvino'):
package_name = 'onnxruntime-openvino'
elif parse_arg_remove_boolean(sys.argv, '--use_dnnl'):
package_name = 'onnxruntime-dnnl'
elif parse_arg_remove_boolean(sys.argv, '--use_nuphar'):
package_name = 'onnxruntime-nuphar'
elif parse_arg_remove_boolean(sys.argv, '--use_tvm'):
package_name = 'onnxruntime-tvm'
elif parse_arg_remove_boolean(sys.argv, '--use_vitisai'):
package_name = 'onnxruntime-vitisai'
elif parse_arg_remove_boolean(sys.argv, '--use_acl'):
package_name = 'onnxruntime-acl'
elif parse_arg_remove_boolean(sys.argv, '--use_armnn'):
package_name = 'onnxruntime-armnn'
# PEP 513 defined manylinux1_x86_64 and manylinux1_i686
# PEP 571 defined manylinux2010_x86_64 and manylinux2010_i686
# PEP 599 defines the following platform tags:
# manylinux2014_x86_64
# manylinux2014_i686
# manylinux2014_aarch64
# manylinux2014_armv7l
# manylinux2014_ppc64
# manylinux2014_ppc64le
# manylinux2014_s390x
manylinux_tags = [
'manylinux1_x86_64',
'manylinux1_i686',
'manylinux2010_x86_64',
'manylinux2010_i686',
'manylinux2014_x86_64',
'manylinux2014_i686',
'manylinux2014_aarch64',
'manylinux2014_armv7l',
'manylinux2014_ppc64',
'manylinux2014_ppc64le',
'manylinux2014_s390x',
]
is_manylinux = environ.get('AUDITWHEEL_PLAT', None) in manylinux_tags
class build_ext(_build_ext):
def build_extension(self, ext):
dest_file = self.get_ext_fullpath(ext.name)
logger.info('copying %s -> %s', ext.sources[0], dest_file)
copyfile(ext.sources[0], dest_file)
try:
from wheel.bdist_wheel import bdist_wheel as _bdist_wheel
class bdist_wheel(_bdist_wheel):
def finalize_options(self):
_bdist_wheel.finalize_options(self)
if not is_manylinux:
self.root_is_pure = False
def _rewrite_ld_preload(self, to_preload):
with open('onnxruntime/capi/_ld_preload.py', 'a') as f:
if len(to_preload) > 0:
f.write('from ctypes import CDLL, RTLD_GLOBAL\n')
for library in to_preload:
f.write('_{} = CDLL("{}", mode=RTLD_GLOBAL)\n'.format(library.split('.')[0], library))
def _rewrite_ld_preload_cuda(self, to_preload):
with open('onnxruntime/capi/_ld_preload.py', 'a') as f:
if len(to_preload) > 0:
f.write('from ctypes import CDLL, RTLD_GLOBAL\n')
f.write('try:\n')
for library in to_preload:
f.write(' _{} = CDLL("{}", mode=RTLD_GLOBAL)\n'.format(library.split('.')[0], library))
f.write('except OSError:\n')
f.write(' import os\n')
f.write(' os.environ["ORT_CUDA_UNAVAILABLE"] = "1"\n')
def _rewrite_ld_preload_tensorrt(self, to_preload):
with open('onnxruntime/capi/_ld_preload.py', 'a') as f:
if len(to_preload) > 0:
f.write('from ctypes import CDLL, RTLD_GLOBAL\n')
f.write('try:\n')
for library in to_preload:
f.write(' _{} = CDLL("{}", mode=RTLD_GLOBAL)\n'.format(library.split('.')[0], library))
f.write('except OSError:\n')
f.write(' import os\n')
f.write(' os.environ["ORT_TENSORRT_UNAVAILABLE"] = "1"\n')
def run(self):
if is_manylinux:
source = 'onnxruntime/capi/onnxruntime_pybind11_state.so'
dest = 'onnxruntime/capi/onnxruntime_pybind11_state_manylinux1.so'
logger.info('copying %s -> %s', source, dest)
copyfile(source, dest)
result = subprocess.run(['patchelf', '--print-needed', dest],
check=True, stdout=subprocess.PIPE, universal_newlines=True)
dependencies = ['librccl.so', 'libamdhip64.so', 'librocblas.so', 'libMIOpen.so',
'libhsa-runtime64.so', 'libhsakmt.so']
to_preload = []
to_preload_cuda = []
to_preload_tensorrt = []
cuda_dependencies = []
args = ['patchelf', '--debug']
for line in result.stdout.split('\n'):
for dependency in dependencies:
if dependency in line:
to_preload.append(line)
args.extend(['--remove-needed', line])
args.append(dest)
if len(args) > 3:
subprocess.run(args, check=True, stdout=subprocess.PIPE)
dest = 'onnxruntime/capi/libonnxruntime_providers_' + ('rocm.so' if is_rocm else 'cuda.so')
if path.isfile(dest):
result = subprocess.run(['patchelf', '--print-needed', dest],
check=True, stdout=subprocess.PIPE, universal_newlines=True)
cuda_dependencies = ['libcublas.so', 'libcublasLt.so', 'libcudnn.so', 'libcudart.so',
'libcurand.so', 'libcufft.so', 'libnvToolsExt.so', 'libcupti.so']
rocm_dependencies = ['librccl.so', 'libamdhip64.so', 'librocblas.so', 'libMIOpen.so',
'libhsa-runtime64.so', 'libhsakmt.so']
args = ['patchelf', '--debug']
for line in result.stdout.split('\n'):
for dependency in (cuda_dependencies + rocm_dependencies):
if dependency in line:
if dependency not in to_preload:
to_preload_cuda.append(line)
args.extend(['--remove-needed', line])
args.append(dest)
if len(args) > 3:
subprocess.run(args, check=True, stdout=subprocess.PIPE)
dest = 'onnxruntime/capi/libonnxruntime_providers_' + ('migraphx.so' if is_rocm else 'tensorrt.so')
if path.isfile(dest):
result = subprocess.run(['patchelf', '--print-needed', dest],
check=True, stdout=subprocess.PIPE, universal_newlines=True)
tensorrt_dependencies = ['libnvinfer.so', 'libnvinfer_plugin.so', 'libnvonnxparser.so']
args = ['patchelf', '--debug']
for line in result.stdout.split('\n'):
for dependency in (cuda_dependencies + tensorrt_dependencies):
if dependency in line:
if dependency not in (to_preload + to_preload_cuda):
to_preload_tensorrt.append(line)
args.extend(['--remove-needed', line])
args.append(dest)
if len(args) > 3:
subprocess.run(args, check=True, stdout=subprocess.PIPE)
self._rewrite_ld_preload(to_preload)
self._rewrite_ld_preload_cuda(to_preload_cuda)
self._rewrite_ld_preload_tensorrt(to_preload_tensorrt)
_bdist_wheel.run(self)
if is_manylinux and not disable_auditwheel_repair:
file = glob(path.join(self.dist_dir, '*linux*.whl'))[0]
logger.info('repairing %s for manylinux1', file)
try:
subprocess.run(['auditwheel', 'repair', '-w', self.dist_dir, file],
check=True, stdout=subprocess.PIPE)
finally:
logger.info('removing %s', file)
remove(file)
except ImportError as error:
print("Error importing dependencies:")
print(error)
bdist_wheel = None
providers_cuda_or_rocm = 'libonnxruntime_providers_' + ('rocm.so' if is_rocm else 'cuda.so')
providers_tensorrt_or_migraphx = 'libonnxruntime_providers_' + ('migraphx.so' if is_rocm else 'tensorrt.so')
# Additional binaries
if platform.system() == 'Linux':
libs = ['onnxruntime_pybind11_state.so', 'libdnnl.so.2', 'libmklml_intel.so', 'libmklml_gnu.so', 'libiomp5.so',
'mimalloc.so']
dl_libs = ['libonnxruntime_providers_shared.so']
dl_libs.append(providers_cuda_or_rocm)
dl_libs.append(providers_tensorrt_or_migraphx)
# DNNL, TensorRT & OpenVINO EPs are built as shared libs
libs.extend(['libonnxruntime_providers_shared.so'])
libs.extend(['libonnxruntime_providers_dnnl.so'])
libs.extend(['libonnxruntime_providers_openvino.so'])
libs.append(providers_cuda_or_rocm)
libs.append(providers_tensorrt_or_migraphx)
# Nuphar Libs
libs.extend(['libtvm.so.0.5.1'])
if nightly_build:
libs.extend(['libonnxruntime_pywrapper.so'])
elif platform.system() == "Darwin":
libs = ['onnxruntime_pybind11_state.so', 'libdnnl.2.dylib', 'mimalloc.so'] # TODO add libmklml and libiomp5 later.
# DNNL & TensorRT EPs are built as shared libs
libs.extend(['libonnxruntime_providers_shared.dylib'])
libs.extend(['libonnxruntime_providers_dnnl.dylib'])
libs.extend(['libonnxruntime_providers_tensorrt.dylib'])
libs.extend(['libonnxruntime_providers_cuda.dylib'])
if nightly_build:
libs.extend(['libonnxruntime_pywrapper.dylib'])
else:
libs = ['onnxruntime_pybind11_state.pyd', 'dnnl.dll', 'mklml.dll', 'libiomp5md.dll']
# DNNL, TensorRT & OpenVINO EPs are built as shared libs
libs.extend(['onnxruntime_providers_shared.dll'])
libs.extend(['onnxruntime_providers_dnnl.dll'])
libs.extend(['onnxruntime_providers_tensorrt.dll'])
libs.extend(['onnxruntime_providers_openvino.dll'])
libs.extend(['onnxruntime_providers_cuda.dll'])
# DirectML Libs
libs.extend(['DirectML.dll'])
# Nuphar Libs
libs.extend(['tvm.dll'])
if nightly_build:
libs.extend(['onnxruntime_pywrapper.dll'])
if is_manylinux:
data = ['capi/libonnxruntime_pywrapper.so'] if nightly_build else []
data += [path.join('capi', x) for x in dl_libs if path.isfile(path.join('onnxruntime', 'capi', x))]
ext_modules = [
Extension(
'onnxruntime.capi.onnxruntime_pybind11_state',
['onnxruntime/capi/onnxruntime_pybind11_state_manylinux1.so'],
),
]
else:
data = [path.join('capi', x) for x in libs if path.isfile(path.join('onnxruntime', 'capi', x))]
ext_modules = []
# Additional examples
examples_names = ["mul_1.onnx", "logreg_iris.onnx", "sigmoid.onnx"]
examples = [path.join('datasets', x) for x in examples_names]
# Extra files such as EULA and ThirdPartyNotices
extra = ["LICENSE", "ThirdPartyNotices.txt", "Privacy.md"]
# Description
README = path.join(getcwd(), "docs/python/README.rst")
if not path.exists(README):
this = path.dirname(__file__)
README = path.join(this, "docs/python/README.rst")
if not path.exists(README):
raise FileNotFoundError("Unable to find 'README.rst'")
with open(README) as f:
long_description = f.read()
# Include files in onnxruntime/external if --enable_external_custom_op_schemas build.sh command
# line option is specified.
# If the options is not specified this following condition fails as onnxruntime/external folder is not created in the
# build flow under the build binary directory.
if (path.isdir(path.join("onnxruntime", "external"))):
# Gather all files under onnxruntime/external directory.
extra.extend(list(str(Path(*Path(x).parts[1:])) for x in list(iglob(
path.join(path.join("onnxruntime", "external"), '**/*.*'), recursive=True))))
packages = [
'onnxruntime',
'onnxruntime.backend',
'onnxruntime.capi',
'onnxruntime.capi.training',
'onnxruntime.datasets',
'onnxruntime.tools',
'onnxruntime.tools.mobile_helpers',
'onnxruntime.tools.ort_format_model',
'onnxruntime.tools.ort_format_model.ort_flatbuffers_py',
'onnxruntime.tools.ort_format_model.ort_flatbuffers_py.fbs',
'onnxruntime.tools.qdq_helpers',
'onnxruntime.quantization',
'onnxruntime.quantization.operators',
'onnxruntime.quantization.CalTableFlatBuffers',
'onnxruntime.transformers',
'onnxruntime.transformers.models.gpt2',
'onnxruntime.transformers.models.longformer',
'onnxruntime.transformers.models.t5',
]
requirements_file = "requirements.txt"
local_version = None
enable_training = parse_arg_remove_boolean(sys.argv, '--enable_training')
disable_auditwheel_repair = parse_arg_remove_boolean(sys.argv, '--disable_auditwheel_repair')
default_training_package_device = parse_arg_remove_boolean(sys.argv, '--default_training_package_device')
package_data = {}
data_files = []
classifiers = [
'Development Status :: 5 - Production/Stable',
'Intended Audience :: Developers',
'License :: OSI Approved :: MIT License',
'Operating System :: POSIX :: Linux',
'Topic :: Scientific/Engineering',
'Topic :: Scientific/Engineering :: Mathematics',
'Topic :: Scientific/Engineering :: Artificial Intelligence',
'Topic :: Software Development',
'Topic :: Software Development :: Libraries',
'Topic :: Software Development :: Libraries :: Python Modules',
'Programming Language :: Python',
'Programming Language :: Python :: 3 :: Only',
'Programming Language :: Python :: 3.6',
'Programming Language :: Python :: 3.7',
'Programming Language :: Python :: 3.8',
'Programming Language :: Python :: 3.9']
if not enable_training:
classifiers.extend([
'Operating System :: Microsoft :: Windows',
'Operating System :: MacOS'])
if enable_training:
packages.extend(['onnxruntime.training',
'onnxruntime.training.amp',
'onnxruntime.training.experimental',
'onnxruntime.training.experimental.gradient_graph',
'onnxruntime.training.optim',
'onnxruntime.training.ortmodule',
'onnxruntime.training.ortmodule.experimental',
'onnxruntime.training.ortmodule.experimental.json_config',
'onnxruntime.training.ortmodule.experimental.hierarchical_ortmodule',
'onnxruntime.training.ortmodule.torch_cpp_extensions',
'onnxruntime.training.ortmodule.torch_cpp_extensions.cpu.aten_op_executor',
'onnxruntime.training.ortmodule.torch_cpp_extensions.cpu.torch_interop_utils',
'onnxruntime.training.ortmodule.torch_cpp_extensions.cuda.torch_gpu_allocator',
'onnxruntime.training.ortmodule.torch_cpp_extensions.cuda.fused_ops',
'onnxruntime.training.utils.data'])
package_data['onnxruntime.training.ortmodule.torch_cpp_extensions.cpu.aten_op_executor'] = ['*.cc']
package_data['onnxruntime.training.ortmodule.torch_cpp_extensions.cpu.torch_interop_utils'] = ['*.cc']
package_data['onnxruntime.training.ortmodule.torch_cpp_extensions.cuda.torch_gpu_allocator'] = ['*.cc']
package_data['onnxruntime.training.ortmodule.torch_cpp_extensions.cuda.fused_ops'] = \
['*.cpp', '*.cu', '*.cuh', '*.h']
requirements_file = "requirements-training.txt"
# with training, we want to follow this naming convention:
# stable:
# onnxruntime-training-1.7.0+cu111-cp36-cp36m-linux_x86_64.whl
# nightly:
# onnxruntime-training-1.7.0.dev20210408+cu111-cp36-cp36m-linux_x86_64.whl
# this is needed immediately by pytorch/ort so that the user is able to
# install an onnxruntime training package with matching torch cuda version.
package_name = 'onnxruntime-training'
# we want put default training packages to pypi. pypi does not accept package with a local version.
if not default_training_package_device or nightly_build:
if cuda_version:
# removing '.' to make Cuda version number in the same form as Pytorch.
local_version = '+cu' + cuda_version.replace('.', '')
elif rocm_version:
# removing '.' to make Rocm version number in the same form as Pytorch.
local_version = '+rocm' + rocm_version.replace('.', '')
else:
# cpu version for documentation
local_version = '+cpu'
if package_name == 'onnxruntime-nuphar':
packages += ["onnxruntime.nuphar"]
extra += [path.join('nuphar', 'NUPHAR_CACHE_VERSION')]
if package_name == 'onnxruntime-tvm':
packages += ['onnxruntime.providers.tvm']
package_data["onnxruntime"] = data + examples + extra
version_number = ''
with open('VERSION_NUMBER') as f:
version_number = f.readline().strip()
if nightly_build:
# https://docs.microsoft.com/en-us/azure/devops/pipelines/build/variables
build_suffix = environ.get('BUILD_BUILDNUMBER')
if build_suffix is None:
# The following line is only for local testing
build_suffix = str(datetime.datetime.now().date().strftime("%Y%m%d"))
else:
build_suffix = build_suffix.replace('.', '')
if len(build_suffix) > 8 and len(build_suffix) < 12:
# we want to format the build_suffix to avoid (the 12th run on 20210630 vs the first run on 20210701):
# 2021063012 > 202107011
# in above 2021063012 is treated as the latest which is incorrect.
# we want to convert the format to:
# 20210630012 < 20210701001
# where the first 8 digits are date. the last 3 digits are run count.
# as long as there are less than 1000 runs per day, we will not have the problem.
# to test this code locally, run:
# NIGHTLY_BUILD=1 BUILD_BUILDNUMBER=202107011 python tools/ci_build/build.py --config RelWithDebInfo \
# --enable_training --use_cuda --cuda_home /usr/local/cuda --cudnn_home /usr/lib/x86_64-linux-gnu/ \
# --nccl_home /usr/lib/x86_64-linux-gnu/ --build_dir build/Linux --build --build_wheel --skip_tests \
# --cuda_version 11.1
def check_date_format(date_str):
try:
datetime.datetime.strptime(date_str, '%Y%m%d')
return True
except: # noqa
return False
def reformat_run_count(count_str):
try:
count = int(count_str)
if count >= 0 and count < 1000:
return "{:03}".format(count)
elif count >= 1000:
raise RuntimeError(f'Too many builds for the same day: {count}')
return ""
except: # noqa
return ""
build_suffix_is_date_format = check_date_format(build_suffix[:8])
build_suffix_run_count = reformat_run_count(build_suffix[8:])
if build_suffix_is_date_format and build_suffix_run_count:
build_suffix = build_suffix[:8] + build_suffix_run_count
elif len(build_suffix) >= 12:
raise RuntimeError(f'Incorrect build suffix: "{build_suffix}"')
if enable_training:
from packaging import version
from packaging.version import Version
# with training package, we need to bump up version minor number so that
# nightly releases take precedence over the latest release when --pre is used during pip install.
# eventually this shall be the behavior of all onnxruntime releases.
# alternatively we may bump up version number right after every release.
ort_version = version.parse(version_number)
if isinstance(ort_version, Version):
# TODO: this is the last time we have to do this!!!
# We shall bump up release number right after release cut.
if ort_version.major == 1 and ort_version.minor == 8 and ort_version.micro == 0:
version_number = '{major}.{minor}.{macro}'.format(
major=ort_version.major,
minor=ort_version.minor + 1,
macro=ort_version.micro)
version_number = version_number + ".dev" + build_suffix
if local_version:
version_number = version_number + local_version
if wheel_name_suffix:
if not (enable_training and wheel_name_suffix == 'gpu'):
# for training packages, local version is used to indicate device types
package_name = "{}-{}".format(package_name, wheel_name_suffix)
cmd_classes = {}
if bdist_wheel is not None:
cmd_classes['bdist_wheel'] = bdist_wheel
cmd_classes['build_ext'] = build_ext
requirements_path = path.join(getcwd(), requirements_file)
if not path.exists(requirements_path):
this = path.dirname(__file__)
requirements_path = path.join(this, requirements_file)
if not path.exists(requirements_path):
raise FileNotFoundError("Unable to find " + requirements_file)
with open(requirements_path) as f:
install_requires = f.read().splitlines()
if enable_training:
def save_build_and_package_info(package_name, version_number, cuda_version, rocm_version):
sys.path.append(path.join(path.dirname(__file__), 'onnxruntime', 'python'))
from onnxruntime_collect_build_info import find_cudart_versions
version_path = path.join('onnxruntime', 'capi', 'build_and_package_info.py')
with open(version_path, 'w') as f:
f.write("package_name = '{}'\n".format(package_name))
f.write("__version__ = '{}'\n".format(version_number))
if cuda_version:
f.write("cuda_version = '{}'\n".format(cuda_version))
# cudart_versions are integers
cudart_versions = find_cudart_versions(build_env=True)
if cudart_versions and len(cudart_versions) == 1:
f.write("cudart_version = {}\n".format(cudart_versions[0]))
else:
print(
"Error getting cudart version. ",
"did not find any cudart library"
if not cudart_versions or len(cudart_versions) == 0
else "found multiple cudart libraries")
elif rocm_version:
f.write("rocm_version = '{}'\n".format(rocm_version))
save_build_and_package_info(package_name, version_number, cuda_version, rocm_version)
# Setup
setup(
name=package_name,
version=version_number,
description='ONNX Runtime is a runtime accelerator for Machine Learning models',
long_description=long_description,
author='Microsoft Corporation',
author_email='onnxruntime@microsoft.com',
cmdclass=cmd_classes,
license="MIT License",
packages=packages,
ext_modules=ext_modules,
package_data=package_data,
url="https://onnxruntime.ai",
download_url='https://github.com/microsoft/onnxruntime/tags',
data_files=data_files,
install_requires=install_requires,
keywords='onnx machine learning',
entry_points={
'console_scripts': [
'onnxruntime_test = onnxruntime.tools.onnxruntime_test:main',
]
},
classifiers=classifiers,
)