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|
# Copyright 2017 The TensorFlow Authors. All Rights Reserved.
#
# 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.
# ==============================================================================
"""configure script to get build parameters from user."""
from __future__ import absolute_import
from __future__ import division
from __future__ import print_function
import argparse
import errno
import os
import platform
import re
import subprocess
import sys
# pylint: disable=g-import-not-at-top
try:
from shutil import which
except ImportError:
from distutils.spawn import find_executable as which
# pylint: enable=g-import-not-at-top
_DEFAULT_CUDA_VERSION = '9.0'
_DEFAULT_CUDNN_VERSION = '7'
_DEFAULT_NCCL_VERSION = '1.3'
_DEFAULT_CUDA_COMPUTE_CAPABILITIES = '3.5,5.2'
_DEFAULT_CUDA_PATH = '/usr/local/cuda'
_DEFAULT_CUDA_PATH_LINUX = '/opt/cuda'
_DEFAULT_CUDA_PATH_WIN = ('C:/Program Files/NVIDIA GPU Computing '
'Toolkit/CUDA/v%s' % _DEFAULT_CUDA_VERSION)
_DEFAULT_TENSORRT_PATH_LINUX = '/usr/lib/%s-linux-gnu' % platform.machine()
_TF_OPENCL_VERSION = '1.2'
_DEFAULT_COMPUTECPP_TOOLKIT_PATH = '/usr/local/computecpp'
_DEFAULT_TRISYCL_INCLUDE_DIR = '/usr/local/triSYCL/include'
_SUPPORTED_ANDROID_NDK_VERSIONS = [10, 11, 12, 13, 14, 15]
_DEFAULT_PROMPT_ASK_ATTEMPTS = 10
_TF_WORKSPACE_ROOT = os.path.abspath(os.path.dirname(__file__))
_TF_BAZELRC_FILENAME = '.tf_configure.bazelrc'
_TF_BAZELRC = os.path.join(_TF_WORKSPACE_ROOT, _TF_BAZELRC_FILENAME)
_TF_WORKSPACE = os.path.join(_TF_WORKSPACE_ROOT, 'WORKSPACE')
class UserInputError(Exception):
pass
def is_windows():
return platform.system() == 'Windows'
def is_linux():
return platform.system() == 'Linux'
def is_macos():
return platform.system() == 'Darwin'
def is_ppc64le():
return platform.machine() == 'ppc64le'
def is_cygwin():
return platform.system().startswith('CYGWIN_NT')
def get_input(question):
try:
try:
answer = raw_input(question)
except NameError:
answer = input(question) # pylint: disable=bad-builtin
except EOFError:
answer = ''
return answer
def symlink_force(target, link_name):
"""Force symlink, equivalent of 'ln -sf'.
Args:
target: items to link to.
link_name: name of the link.
"""
try:
os.symlink(target, link_name)
except OSError as e:
if e.errno == errno.EEXIST:
os.remove(link_name)
os.symlink(target, link_name)
else:
raise e
def sed_in_place(filename, old, new):
"""Replace old string with new string in file.
Args:
filename: string for filename.
old: string to replace.
new: new string to replace to.
"""
with open(filename, 'r') as f:
filedata = f.read()
newdata = filedata.replace(old, new)
with open(filename, 'w') as f:
f.write(newdata)
def write_to_bazelrc(line):
with open(_TF_BAZELRC, 'a') as f:
f.write(line + '\n')
def write_action_env_to_bazelrc(var_name, var):
write_to_bazelrc('build --action_env %s="%s"' % (var_name, str(var)))
def run_shell(cmd, allow_non_zero=False):
if allow_non_zero:
try:
output = subprocess.check_output(cmd)
except subprocess.CalledProcessError as e:
output = e.output
else:
output = subprocess.check_output(cmd)
return output.decode('UTF-8').strip()
def cygpath(path):
"""Convert path from posix to windows."""
return os.path.abspath(path).replace('\\', '/')
def get_python_path(environ_cp, python_bin_path):
"""Get the python site package paths."""
python_paths = []
if environ_cp.get('PYTHONPATH'):
python_paths = environ_cp.get('PYTHONPATH').split(':')
try:
library_paths = run_shell(
[python_bin_path, '-c',
'import site; print("\\n".join(site.getsitepackages()))']).split('\n')
except subprocess.CalledProcessError:
library_paths = [run_shell(
[python_bin_path, '-c',
'from distutils.sysconfig import get_python_lib;'
'print(get_python_lib())'])]
all_paths = set(python_paths + library_paths)
paths = []
for path in all_paths:
if os.path.isdir(path):
paths.append(path)
return paths
def get_python_major_version(python_bin_path):
"""Get the python major version."""
return run_shell([python_bin_path, '-c', 'import sys; print(sys.version[0])'])
def setup_python(environ_cp):
"""Setup python related env variables."""
# Get PYTHON_BIN_PATH, default is the current running python.
default_python_bin_path = sys.executable
ask_python_bin_path = ('Please specify the location of python. [Default is '
'%s]: ') % default_python_bin_path
while True:
python_bin_path = get_from_env_or_user_or_default(
environ_cp, 'PYTHON_BIN_PATH', ask_python_bin_path,
default_python_bin_path)
# Check if the path is valid
if os.path.isfile(python_bin_path) and os.access(
python_bin_path, os.X_OK):
break
elif not os.path.exists(python_bin_path):
print('Invalid python path: %s cannot be found.' % python_bin_path)
else:
print('%s is not executable. Is it the python binary?' % python_bin_path)
environ_cp['PYTHON_BIN_PATH'] = ''
# Convert python path to Windows style before checking lib and version
if is_windows() or is_cygwin():
python_bin_path = cygpath(python_bin_path)
# Get PYTHON_LIB_PATH
python_lib_path = environ_cp.get('PYTHON_LIB_PATH')
if not python_lib_path:
python_lib_paths = get_python_path(environ_cp, python_bin_path)
if environ_cp.get('USE_DEFAULT_PYTHON_LIB_PATH') == '1':
python_lib_path = python_lib_paths[0]
else:
print('Found possible Python library paths:\n %s' %
'\n '.join(python_lib_paths))
default_python_lib_path = python_lib_paths[0]
python_lib_path = get_input(
'Please input the desired Python library path to use. '
'Default is [%s]\n' % python_lib_paths[0])
if not python_lib_path:
python_lib_path = default_python_lib_path
environ_cp['PYTHON_LIB_PATH'] = python_lib_path
python_major_version = get_python_major_version(python_bin_path)
# Convert python path to Windows style before writing into bazel.rc
if is_windows() or is_cygwin():
python_lib_path = cygpath(python_lib_path)
# Set-up env variables used by python_configure.bzl
write_action_env_to_bazelrc('PYTHON_BIN_PATH', python_bin_path)
write_action_env_to_bazelrc('PYTHON_LIB_PATH', python_lib_path)
write_to_bazelrc('build --python_path=\"%s"' % python_bin_path)
environ_cp['PYTHON_BIN_PATH'] = python_bin_path
# Write tools/python_bin_path.sh
with open(os.path.join(
_TF_WORKSPACE_ROOT, 'tools', 'python_bin_path.sh'), 'w') as f:
f.write('export PYTHON_BIN_PATH="%s"' % python_bin_path)
def reset_tf_configure_bazelrc(workspace_path):
"""Reset file that contains customized config settings."""
open(_TF_BAZELRC, 'w').close()
bazelrc_path = os.path.join(workspace_path, '.bazelrc')
data = []
if os.path.exists(bazelrc_path):
with open(bazelrc_path, 'r') as f:
data = f.read().splitlines()
with open(bazelrc_path, 'w') as f:
for l in data:
if _TF_BAZELRC_FILENAME in l:
continue
f.write('%s\n' % l)
if is_windows():
tf_bazelrc_path = _TF_BAZELRC.replace("\\", "/")
else:
tf_bazelrc_path = _TF_BAZELRC
f.write('import %s\n' % tf_bazelrc_path)
def cleanup_makefile():
"""Delete any leftover BUILD files from the Makefile build.
These files could interfere with Bazel parsing.
"""
makefile_download_dir = os.path.join(
_TF_WORKSPACE_ROOT, 'tensorflow', 'contrib', 'makefile', 'downloads')
if os.path.isdir(makefile_download_dir):
for root, _, filenames in os.walk(makefile_download_dir):
for f in filenames:
if f.endswith('BUILD'):
os.remove(os.path.join(root, f))
def get_var(environ_cp,
var_name,
query_item,
enabled_by_default,
question=None,
yes_reply=None,
no_reply=None):
"""Get boolean input from user.
If var_name is not set in env, ask user to enable query_item or not. If the
response is empty, use the default.
Args:
environ_cp: copy of the os.environ.
var_name: string for name of environment variable, e.g. "TF_NEED_HDFS".
query_item: string for feature related to the variable, e.g. "Hadoop File
System".
enabled_by_default: boolean for default behavior.
question: optional string for how to ask for user input.
yes_reply: optional string for reply when feature is enabled.
no_reply: optional string for reply when feature is disabled.
Returns:
boolean value of the variable.
Raises:
UserInputError: if an environment variable is set, but it cannot be
interpreted as a boolean indicator, assume that the user has made a
scripting error, and will continue to provide invalid input.
Raise the error to avoid infinitely looping.
"""
if not question:
question = 'Do you wish to build TensorFlow with %s support?' % query_item
if not yes_reply:
yes_reply = '%s support will be enabled for TensorFlow.' % query_item
if not no_reply:
no_reply = 'No %s' % yes_reply
yes_reply += '\n'
no_reply += '\n'
if enabled_by_default:
question += ' [Y/n]: '
else:
question += ' [y/N]: '
var = environ_cp.get(var_name)
if var is not None:
var_content = var.strip().lower()
true_strings = ('1', 't', 'true', 'y', 'yes')
false_strings = ('0', 'f', 'false', 'n', 'no')
if var_content in true_strings:
var = True
elif var_content in false_strings:
var = False
else:
raise UserInputError(
'Environment variable %s must be set as a boolean indicator.\n'
'The following are accepted as TRUE : %s.\n'
'The following are accepted as FALSE: %s.\n'
'Current value is %s.' % (
var_name, ', '.join(true_strings), ', '.join(false_strings),
var))
while var is None:
user_input_origin = get_input(question)
user_input = user_input_origin.strip().lower()
if user_input == 'y':
print(yes_reply)
var = True
elif user_input == 'n':
print(no_reply)
var = False
elif not user_input:
if enabled_by_default:
print(yes_reply)
var = True
else:
print(no_reply)
var = False
else:
print('Invalid selection: %s' % user_input_origin)
return var
def set_build_var(environ_cp, var_name, query_item, option_name,
enabled_by_default, bazel_config_name=None):
"""Set if query_item will be enabled for the build.
Ask user if query_item will be enabled. Default is used if no input is given.
Set subprocess environment variable and write to .bazelrc if enabled.
Args:
environ_cp: copy of the os.environ.
var_name: string for name of environment variable, e.g. "TF_NEED_HDFS".
query_item: string for feature related to the variable, e.g. "Hadoop File
System".
option_name: string for option to define in .bazelrc.
enabled_by_default: boolean for default behavior.
bazel_config_name: Name for Bazel --config argument to enable build feature.
"""
var = str(int(get_var(environ_cp, var_name, query_item, enabled_by_default)))
environ_cp[var_name] = var
if var == '1':
write_to_bazelrc('build --define %s=true' % option_name)
elif bazel_config_name is not None:
# TODO(mikecase): Migrate all users of configure.py to use --config Bazel
# options and not to set build configs through environment variables.
write_to_bazelrc('build:%s --define %s=true'
% (bazel_config_name, option_name))
def set_action_env_var(environ_cp,
var_name,
query_item,
enabled_by_default,
question=None,
yes_reply=None,
no_reply=None):
"""Set boolean action_env variable.
Ask user if query_item will be enabled. Default is used if no input is given.
Set environment variable and write to .bazelrc.
Args:
environ_cp: copy of the os.environ.
var_name: string for name of environment variable, e.g. "TF_NEED_HDFS".
query_item: string for feature related to the variable, e.g. "Hadoop File
System".
enabled_by_default: boolean for default behavior.
question: optional string for how to ask for user input.
yes_reply: optional string for reply when feature is enabled.
no_reply: optional string for reply when feature is disabled.
"""
var = int(
get_var(environ_cp, var_name, query_item, enabled_by_default, question,
yes_reply, no_reply))
write_action_env_to_bazelrc(var_name, var)
environ_cp[var_name] = str(var)
def convert_version_to_int(version):
"""Convert a version number to a integer that can be used to compare.
Version strings of the form X.YZ and X.Y.Z-xxxxx are supported. The
'xxxxx' part, for instance 'homebrew' on OS/X, is ignored.
Args:
version: a version to be converted
Returns:
An integer if converted successfully, otherwise return None.
"""
version = version.split('-')[0]
version_segments = version.split('.')
for seg in version_segments:
if not seg.isdigit():
return None
version_str = ''.join(['%03d' % int(seg) for seg in version_segments])
return int(version_str)
def check_bazel_version(min_version):
"""Check installed bazel version is at least min_version.
Args:
min_version: string for minimum bazel version.
Returns:
The bazel version detected.
"""
if which('bazel') is None:
print('Cannot find bazel. Please install bazel.')
sys.exit(0)
curr_version = run_shell(['bazel', '--batch', '--bazelrc=/dev/null', 'version'])
for line in curr_version.split('\n'):
if 'Build label: ' in line:
curr_version = line.split('Build label: ')[1]
break
min_version_int = convert_version_to_int(min_version)
curr_version_int = convert_version_to_int(curr_version)
# Check if current bazel version can be detected properly.
if not curr_version_int:
print('WARNING: current bazel installation is not a release version.')
print('Make sure you are running at least bazel %s' % min_version)
return curr_version
print('You have bazel %s installed.' % curr_version)
if curr_version_int < min_version_int:
print('Please upgrade your bazel installation to version %s or higher to '
'build TensorFlow!' % min_version)
sys.exit(0)
return curr_version
def set_cc_opt_flags(environ_cp):
"""Set up architecture-dependent optimization flags.
Also append CC optimization flags to bazel.rc..
Args:
environ_cp: copy of the os.environ.
"""
if is_ppc64le():
# gcc on ppc64le does not support -march, use mcpu instead
default_cc_opt_flags = '-mcpu=native'
elif is_windows():
default_cc_opt_flags = '/arch:AVX'
else:
default_cc_opt_flags = '-march=native'
question = ('Please specify optimization flags to use during compilation when'
' bazel option "--config=opt" is specified [Default is %s]: '
) % default_cc_opt_flags
cc_opt_flags = get_from_env_or_user_or_default(environ_cp, 'CC_OPT_FLAGS',
question, default_cc_opt_flags)
for opt in cc_opt_flags.split():
write_to_bazelrc('build:opt --copt=%s' % opt)
# It should be safe on the same build host.
if not is_ppc64le() and not is_windows():
write_to_bazelrc('build:opt --host_copt=-march=native')
write_to_bazelrc('build:opt --define with_default_optimizations=true')
def set_tf_cuda_clang(environ_cp):
"""set TF_CUDA_CLANG action_env.
Args:
environ_cp: copy of the os.environ.
"""
question = 'Do you want to use clang as CUDA compiler?'
yes_reply = 'Clang will be used as CUDA compiler.'
no_reply = 'nvcc will be used as CUDA compiler.'
set_action_env_var(
environ_cp,
'TF_CUDA_CLANG',
None,
False,
question=question,
yes_reply=yes_reply,
no_reply=no_reply)
def set_tf_download_clang(environ_cp):
"""Set TF_DOWNLOAD_CLANG action_env."""
question = 'Do you wish to download a fresh release of clang? (Experimental)'
yes_reply = 'Clang will be downloaded and used to compile tensorflow.'
no_reply = 'Clang will not be downloaded.'
set_action_env_var(
environ_cp,
'TF_DOWNLOAD_CLANG',
None,
False,
question=question,
yes_reply=yes_reply,
no_reply=no_reply)
def get_from_env_or_user_or_default(environ_cp, var_name, ask_for_var,
var_default):
"""Get var_name either from env, or user or default.
If var_name has been set as environment variable, use the preset value, else
ask for user input. If no input is provided, the default is used.
Args:
environ_cp: copy of the os.environ.
var_name: string for name of environment variable, e.g. "TF_NEED_HDFS".
ask_for_var: string for how to ask for user input.
var_default: default value string.
Returns:
string value for var_name
"""
var = environ_cp.get(var_name)
if not var:
var = get_input(ask_for_var)
print('\n')
if not var:
var = var_default
return var
def set_clang_cuda_compiler_path(environ_cp):
"""Set CLANG_CUDA_COMPILER_PATH."""
default_clang_path = which('clang') or ''
ask_clang_path = ('Please specify which clang should be used as device and '
'host compiler. [Default is %s]: ') % default_clang_path
while True:
clang_cuda_compiler_path = get_from_env_or_user_or_default(
environ_cp, 'CLANG_CUDA_COMPILER_PATH', ask_clang_path,
default_clang_path)
if os.path.exists(clang_cuda_compiler_path):
break
# Reset and retry
print('Invalid clang path: %s cannot be found.' % clang_cuda_compiler_path)
environ_cp['CLANG_CUDA_COMPILER_PATH'] = ''
# Set CLANG_CUDA_COMPILER_PATH
environ_cp['CLANG_CUDA_COMPILER_PATH'] = clang_cuda_compiler_path
write_action_env_to_bazelrc('CLANG_CUDA_COMPILER_PATH',
clang_cuda_compiler_path)
def prompt_loop_or_load_from_env(
environ_cp,
var_name,
var_default,
ask_for_var,
check_success,
error_msg,
suppress_default_error=False,
n_ask_attempts=_DEFAULT_PROMPT_ASK_ATTEMPTS
):
"""Loop over user prompts for an ENV param until receiving a valid response.
For the env param var_name, read from the environment or verify user input
until receiving valid input. When done, set var_name in the environ_cp to its
new value.
Args:
environ_cp: (Dict) copy of the os.environ.
var_name: (String) string for name of environment variable, e.g. "TF_MYVAR".
var_default: (String) default value string.
ask_for_var: (String) string for how to ask for user input.
check_success: (Function) function that takes one argument and returns a
boolean. Should return True if the value provided is considered valid. May
contain a complex error message if error_msg does not provide enough
information. In that case, set suppress_default_error to True.
error_msg: (String) String with one and only one '%s'. Formatted with each
invalid response upon check_success(input) failure.
suppress_default_error: (Bool) Suppress the above error message in favor of
one from the check_success function.
n_ask_attempts: (Integer) Number of times to query for valid input before
raising an error and quitting.
Returns:
[String] The value of var_name after querying for input.
Raises:
UserInputError: if a query has been attempted n_ask_attempts times without
success, assume that the user has made a scripting error, and will
continue to provide invalid input. Raise the error to avoid infinitely
looping.
"""
default = environ_cp.get(var_name) or var_default
full_query = '%s [Default is %s]: ' % (
ask_for_var,
default,
)
for _ in range(n_ask_attempts):
val = get_from_env_or_user_or_default(environ_cp,
var_name,
full_query,
default)
if check_success(val):
break
if not suppress_default_error:
print(error_msg % val)
environ_cp[var_name] = ''
else:
raise UserInputError('Invalid %s setting was provided %d times in a row. '
'Assuming to be a scripting mistake.' %
(var_name, n_ask_attempts))
environ_cp[var_name] = val
return val
def create_android_ndk_rule(environ_cp):
"""Set ANDROID_NDK_HOME and write Android NDK WORKSPACE rule."""
if is_windows() or is_cygwin():
default_ndk_path = cygpath('%s/Android/Sdk/ndk-bundle' %
environ_cp['APPDATA'])
elif is_macos():
default_ndk_path = '%s/library/Android/Sdk/ndk-bundle' % environ_cp['HOME']
else:
default_ndk_path = '%s/Android/Sdk/ndk-bundle' % environ_cp['HOME']
def valid_ndk_path(path):
return (os.path.exists(path) and
os.path.exists(os.path.join(path, 'source.properties')))
android_ndk_home_path = prompt_loop_or_load_from_env(
environ_cp,
var_name='ANDROID_NDK_HOME',
var_default=default_ndk_path,
ask_for_var='Please specify the home path of the Android NDK to use.',
check_success=valid_ndk_path,
error_msg=('The path %s or its child file "source.properties" '
'does not exist.')
)
write_action_env_to_bazelrc('ANDROID_NDK_HOME', android_ndk_home_path)
write_action_env_to_bazelrc('ANDROID_NDK_API_LEVEL',
check_ndk_level(android_ndk_home_path))
def create_android_sdk_rule(environ_cp):
"""Set Android variables and write Android SDK WORKSPACE rule."""
if is_windows() or is_cygwin():
default_sdk_path = cygpath('%s/Android/Sdk' % environ_cp['APPDATA'])
elif is_macos():
default_sdk_path = '%s/library/Android/Sdk/ndk-bundle' % environ_cp['HOME']
else:
default_sdk_path = '%s/Android/Sdk' % environ_cp['HOME']
def valid_sdk_path(path):
return (os.path.exists(path) and
os.path.exists(os.path.join(path, 'platforms')) and
os.path.exists(os.path.join(path, 'build-tools')))
android_sdk_home_path = prompt_loop_or_load_from_env(
environ_cp,
var_name='ANDROID_SDK_HOME',
var_default=default_sdk_path,
ask_for_var='Please specify the home path of the Android SDK to use.',
check_success=valid_sdk_path,
error_msg=('Either %s does not exist, or it does not contain the '
'subdirectories "platforms" and "build-tools".'))
platforms = os.path.join(android_sdk_home_path, 'platforms')
api_levels = sorted(os.listdir(platforms))
api_levels = [x.replace('android-', '') for x in api_levels]
def valid_api_level(api_level):
return os.path.exists(os.path.join(android_sdk_home_path,
'platforms',
'android-' + api_level))
android_api_level = prompt_loop_or_load_from_env(
environ_cp,
var_name='ANDROID_API_LEVEL',
var_default=api_levels[-1],
ask_for_var=('Please specify the Android SDK API level to use. '
'[Available levels: %s]') % api_levels,
check_success=valid_api_level,
error_msg='Android-%s is not present in the SDK path.')
build_tools = os.path.join(android_sdk_home_path, 'build-tools')
versions = sorted(os.listdir(build_tools))
def valid_build_tools(version):
return os.path.exists(os.path.join(android_sdk_home_path,
'build-tools',
version))
android_build_tools_version = prompt_loop_or_load_from_env(
environ_cp,
var_name='ANDROID_BUILD_TOOLS_VERSION',
var_default=versions[-1],
ask_for_var=('Please specify an Android build tools version to use. '
'[Available versions: %s]') % versions,
check_success=valid_build_tools,
error_msg=('The selected SDK does not have build-tools version %s '
'available.'))
write_action_env_to_bazelrc('ANDROID_BUILD_TOOLS_VERSION',
android_build_tools_version)
write_action_env_to_bazelrc('ANDROID_SDK_API_LEVEL',
android_api_level)
write_action_env_to_bazelrc('ANDROID_SDK_HOME',
android_sdk_home_path)
def check_ndk_level(android_ndk_home_path):
"""Check the revision number of an Android NDK path."""
properties_path = '%s/source.properties' % android_ndk_home_path
if is_windows() or is_cygwin():
properties_path = cygpath(properties_path)
with open(properties_path, 'r') as f:
filedata = f.read()
revision = re.search(r'Pkg.Revision = (\d+)', filedata)
if revision:
ndk_api_level = revision.group(1)
else:
raise Exception('Unable to parse NDK revision.')
if int(ndk_api_level) not in _SUPPORTED_ANDROID_NDK_VERSIONS:
print('WARNING: The API level of the NDK in %s is %s, which is not '
'supported by Bazel (officially supported versions: %s). Please use '
'another version. Compiling Android targets may result in confusing '
'errors.\n' % (android_ndk_home_path, ndk_api_level,
_SUPPORTED_ANDROID_NDK_VERSIONS))
return ndk_api_level
def set_gcc_host_compiler_path(environ_cp):
"""Set GCC_HOST_COMPILER_PATH."""
default_gcc_host_compiler_path = which('gcc') or ''
cuda_bin_symlink = '%s/bin/gcc' % environ_cp.get('CUDA_TOOLKIT_PATH')
if os.path.islink(cuda_bin_symlink):
# os.readlink is only available in linux
default_gcc_host_compiler_path = os.path.realpath(cuda_bin_symlink)
gcc_host_compiler_path = prompt_loop_or_load_from_env(
environ_cp,
var_name='GCC_HOST_COMPILER_PATH',
var_default=default_gcc_host_compiler_path,
ask_for_var=
'Please specify which gcc should be used by nvcc as the host compiler.',
check_success=os.path.exists,
error_msg='Invalid gcc path. %s cannot be found.',
)
write_action_env_to_bazelrc('GCC_HOST_COMPILER_PATH', gcc_host_compiler_path)
def reformat_version_sequence(version_str, sequence_count):
"""Reformat the version string to have the given number of sequences.
For example:
Given (7, 2) -> 7.0
(7.0.1, 2) -> 7.0
(5, 1) -> 5
(5.0.3.2, 1) -> 5
Args:
version_str: String, the version string.
sequence_count: int, an integer.
Returns:
string, reformatted version string.
"""
v = version_str.split('.')
if len(v) < sequence_count:
v = v + (['0'] * (sequence_count - len(v)))
return '.'.join(v[:sequence_count])
def set_tf_cuda_version(environ_cp):
"""Set CUDA_TOOLKIT_PATH and TF_CUDA_VERSION."""
ask_cuda_version = (
'Please specify the CUDA SDK version you want to use. '
'[Leave empty to default to CUDA %s]: ') % _DEFAULT_CUDA_VERSION
for _ in range(_DEFAULT_PROMPT_ASK_ATTEMPTS):
# Configure the Cuda SDK version to use.
tf_cuda_version = get_from_env_or_user_or_default(
environ_cp, 'TF_CUDA_VERSION', ask_cuda_version, _DEFAULT_CUDA_VERSION)
tf_cuda_version = reformat_version_sequence(str(tf_cuda_version), 2)
# Find out where the CUDA toolkit is installed
default_cuda_path = _DEFAULT_CUDA_PATH
if is_windows() or is_cygwin():
default_cuda_path = cygpath(
environ_cp.get('CUDA_PATH', _DEFAULT_CUDA_PATH_WIN))
elif is_linux():
# If the default doesn't exist, try an alternative default.
if (not os.path.exists(default_cuda_path)
) and os.path.exists(_DEFAULT_CUDA_PATH_LINUX):
default_cuda_path = _DEFAULT_CUDA_PATH_LINUX
ask_cuda_path = ('Please specify the location where CUDA %s toolkit is'
' installed. Refer to README.md for more details. '
'[Default is %s]: ') % (tf_cuda_version, default_cuda_path)
cuda_toolkit_path = get_from_env_or_user_or_default(
environ_cp, 'CUDA_TOOLKIT_PATH', ask_cuda_path, default_cuda_path)
if is_windows():
cuda_rt_lib_path = 'lib/x64/cudart.lib'
elif is_linux():
cuda_rt_lib_path = 'lib64/libcudart.so.%s' % tf_cuda_version
elif is_macos():
cuda_rt_lib_path = 'lib/libcudart.%s.dylib' % tf_cuda_version
cuda_toolkit_path_full = os.path.join(cuda_toolkit_path, cuda_rt_lib_path)
if os.path.exists(cuda_toolkit_path_full):
break
# Reset and retry
print('Invalid path to CUDA %s toolkit. %s cannot be found' %
(tf_cuda_version, cuda_toolkit_path_full))
environ_cp['TF_CUDA_VERSION'] = ''
environ_cp['CUDA_TOOLKIT_PATH'] = ''
else:
raise UserInputError('Invalid TF_CUDA_SETTING setting was provided %d '
'times in a row. Assuming to be a scripting mistake.' %
_DEFAULT_PROMPT_ASK_ATTEMPTS)
# Set CUDA_TOOLKIT_PATH and TF_CUDA_VERSION
environ_cp['CUDA_TOOLKIT_PATH'] = cuda_toolkit_path
write_action_env_to_bazelrc('CUDA_TOOLKIT_PATH', cuda_toolkit_path)
environ_cp['TF_CUDA_VERSION'] = tf_cuda_version
write_action_env_to_bazelrc('TF_CUDA_VERSION', tf_cuda_version)
def set_tf_cudnn_version(environ_cp):
"""Set CUDNN_INSTALL_PATH and TF_CUDNN_VERSION."""
ask_cudnn_version = (
'Please specify the cuDNN version you want to use. '
'[Leave empty to default to cuDNN %s.0]: ') % _DEFAULT_CUDNN_VERSION
for _ in range(_DEFAULT_PROMPT_ASK_ATTEMPTS):
tf_cudnn_version = get_from_env_or_user_or_default(
environ_cp, 'TF_CUDNN_VERSION', ask_cudnn_version,
_DEFAULT_CUDNN_VERSION)
tf_cudnn_version = reformat_version_sequence(str(tf_cudnn_version), 1)
default_cudnn_path = environ_cp.get('CUDA_TOOLKIT_PATH')
ask_cudnn_path = (r'Please specify the location where cuDNN %s library is '
'installed. Refer to README.md for more details. [Default'
' is %s]:') % (tf_cudnn_version, default_cudnn_path)
cudnn_install_path = get_from_env_or_user_or_default(
environ_cp, 'CUDNN_INSTALL_PATH', ask_cudnn_path, default_cudnn_path)
# Result returned from "read" will be used unexpanded. That make "~"
# unusable. Going through one more level of expansion to handle that.
cudnn_install_path = os.path.realpath(
os.path.expanduser(cudnn_install_path))
if is_windows() or is_cygwin():
cudnn_install_path = cygpath(cudnn_install_path)
if is_windows():
cuda_dnn_lib_path = 'lib/x64/cudnn.lib'
cuda_dnn_lib_alt_path = 'lib/x64/cudnn.lib'
elif is_linux():
cuda_dnn_lib_path = 'lib64/libcudnn.so.%s' % tf_cudnn_version
cuda_dnn_lib_alt_path = 'libcudnn.so.%s' % tf_cudnn_version
elif is_macos():
cuda_dnn_lib_path = 'lib/libcudnn.%s.dylib' % tf_cudnn_version
cuda_dnn_lib_alt_path = 'libcudnn.%s.dylib' % tf_cudnn_version
cuda_dnn_lib_path_full = os.path.join(cudnn_install_path, cuda_dnn_lib_path)
cuda_dnn_lib_alt_path_full = os.path.join(cudnn_install_path,
cuda_dnn_lib_alt_path)
if os.path.exists(cuda_dnn_lib_path_full) or os.path.exists(
cuda_dnn_lib_alt_path_full):
break
# Try another alternative for Linux
if is_linux():
ldconfig_bin = which('ldconfig') or '/sbin/ldconfig'
cudnn_path_from_ldconfig = run_shell([ldconfig_bin, '-p'])
cudnn_path_from_ldconfig = re.search('.*libcudnn.so .* => (.*)',
cudnn_path_from_ldconfig)
if cudnn_path_from_ldconfig:
cudnn_path_from_ldconfig = cudnn_path_from_ldconfig.group(1)
if os.path.exists('%s.%s' % (cudnn_path_from_ldconfig,
tf_cudnn_version)):
cudnn_install_path = os.path.dirname(cudnn_path_from_ldconfig)
break
# Reset and Retry
print(
'Invalid path to cuDNN %s toolkit. None of the following files can be '
'found:' % tf_cudnn_version)
print(cuda_dnn_lib_path_full)
print(cuda_dnn_lib_alt_path_full)
if is_linux():
print('%s.%s' % (cudnn_path_from_ldconfig, tf_cudnn_version))
environ_cp['TF_CUDNN_VERSION'] = ''
else:
raise UserInputError('Invalid TF_CUDNN setting was provided %d '
'times in a row. Assuming to be a scripting mistake.' %
_DEFAULT_PROMPT_ASK_ATTEMPTS)
# Set CUDNN_INSTALL_PATH and TF_CUDNN_VERSION
environ_cp['CUDNN_INSTALL_PATH'] = cudnn_install_path
write_action_env_to_bazelrc('CUDNN_INSTALL_PATH', cudnn_install_path)
environ_cp['TF_CUDNN_VERSION'] = tf_cudnn_version
write_action_env_to_bazelrc('TF_CUDNN_VERSION', tf_cudnn_version)
def is_cuda_compatible(lib, cuda_ver, cudnn_ver):
"""Check compatibility between given library and cudnn/cudart libraries."""
ldd_bin = which('ldd') or '/usr/bin/ldd'
ldd_out = run_shell([ldd_bin, lib], True)
ldd_out = ldd_out.split(os.linesep)
cudnn_pattern = re.compile('.*libcudnn.so\\.?(.*) =>.*$')
cuda_pattern = re.compile('.*libcudart.so\\.?(.*) =>.*$')
cudnn = None
cudart = None
cudnn_ok = True # assume no cudnn dependency by default
cuda_ok = True # assume no cuda dependency by default
for line in ldd_out:
if 'libcudnn.so' in line:
cudnn = cudnn_pattern.search(line)
cudnn_ok = False
elif 'libcudart.so' in line:
cudart = cuda_pattern.search(line)
cuda_ok = False
if cudnn and len(cudnn.group(1)):
cudnn = convert_version_to_int(cudnn.group(1))
if cudart and len(cudart.group(1)):
cudart = convert_version_to_int(cudart.group(1))
if cudnn is not None:
cudnn_ok = (cudnn == cudnn_ver)
if cudart is not None:
cuda_ok = (cudart == cuda_ver)
return cudnn_ok and cuda_ok
def set_tf_tensorrt_install_path(environ_cp):
"""Set TENSORRT_INSTALL_PATH and TF_TENSORRT_VERSION.
Adapted from code contributed by Sami Kama (https://github.com/samikama).
Args:
environ_cp: copy of the os.environ.
Raises:
ValueError: if this method was called under non-Linux platform.
UserInputError: if user has provided invalid input multiple times.
"""
if not is_linux():
raise ValueError('Currently TensorRT is only supported on Linux platform.')
# Ask user whether to add TensorRT support.
if str(int(get_var(environ_cp, 'TF_NEED_TENSORRT', 'TensorRT',
False))) != '1':
return
for _ in range(_DEFAULT_PROMPT_ASK_ATTEMPTS):
ask_tensorrt_path = (r'Please specify the location where TensorRT is '
'installed. [Default is %s]:') % (
_DEFAULT_TENSORRT_PATH_LINUX)
trt_install_path = get_from_env_or_user_or_default(
environ_cp, 'TENSORRT_INSTALL_PATH', ask_tensorrt_path,
_DEFAULT_TENSORRT_PATH_LINUX)
# Result returned from "read" will be used unexpanded. That make "~"
# unusable. Going through one more level of expansion to handle that.
trt_install_path = os.path.realpath(os.path.expanduser(trt_install_path))
def find_libs(search_path):
"""Search for libnvinfer.so in "search_path"."""
fl = set()
if os.path.exists(search_path) and os.path.isdir(search_path):
fl.update([
os.path.realpath(os.path.join(search_path, x))
for x in os.listdir(search_path)
if 'libnvinfer.so' in x
])
return fl
possible_files = find_libs(trt_install_path)
possible_files.update(find_libs(os.path.join(trt_install_path, 'lib')))
possible_files.update(find_libs(os.path.join(trt_install_path, 'lib64')))
cuda_ver = convert_version_to_int(environ_cp['TF_CUDA_VERSION'])
cudnn_ver = convert_version_to_int(environ_cp['TF_CUDNN_VERSION'])
nvinfer_pattern = re.compile('.*libnvinfer.so.?(.*)$')
highest_ver = [0, None, None]
for lib_file in possible_files:
if is_cuda_compatible(lib_file, cuda_ver, cudnn_ver):
matches = nvinfer_pattern.search(lib_file)
if len(matches.groups()) == 0:
continue
ver_str = matches.group(1)
ver = convert_version_to_int(ver_str) if len(ver_str) else 0
if ver > highest_ver[0]:
highest_ver = [ver, ver_str, lib_file]
if highest_ver[1] is not None:
trt_install_path = os.path.dirname(highest_ver[2])
tf_tensorrt_version = highest_ver[1]
break
# Try another alternative from ldconfig.
ldconfig_bin = which('ldconfig') or '/sbin/ldconfig'
ldconfig_output = run_shell([ldconfig_bin, '-p'])
search_result = re.search('.*libnvinfer.so\\.?([0-9.]*).* => (.*)',
ldconfig_output)
if search_result:
libnvinfer_path_from_ldconfig = search_result.group(2)
if os.path.exists(libnvinfer_path_from_ldconfig):
if is_cuda_compatible(libnvinfer_path_from_ldconfig, cuda_ver,
cudnn_ver):
trt_install_path = os.path.dirname(libnvinfer_path_from_ldconfig)
tf_tensorrt_version = search_result.group(1)
break
# Reset and Retry
if possible_files:
print('TensorRT libraries found in one the following directories',
'are not compatible with selected cuda and cudnn installations')
print(trt_install_path)
print(os.path.join(trt_install_path, 'lib'))
print(os.path.join(trt_install_path, 'lib64'))
if search_result:
print(libnvinfer_path_from_ldconfig)
else:
print(
'Invalid path to TensorRT. None of the following files can be found:')
print(trt_install_path)
print(os.path.join(trt_install_path, 'lib'))
print(os.path.join(trt_install_path, 'lib64'))
if search_result:
print(libnvinfer_path_from_ldconfig)
else:
raise UserInputError('Invalid TF_TENSORRT setting was provided %d '
'times in a row. Assuming to be a scripting mistake.' %
_DEFAULT_PROMPT_ASK_ATTEMPTS)
# Set TENSORRT_INSTALL_PATH and TF_TENSORRT_VERSION
environ_cp['TENSORRT_INSTALL_PATH'] = trt_install_path
write_action_env_to_bazelrc('TENSORRT_INSTALL_PATH', trt_install_path)
environ_cp['TF_TENSORRT_VERSION'] = tf_tensorrt_version
write_action_env_to_bazelrc('TF_TENSORRT_VERSION', tf_tensorrt_version)
def set_tf_nccl_install_path(environ_cp):
"""Set NCCL_INSTALL_PATH and TF_NCCL_VERSION.
Args:
environ_cp: copy of the os.environ.
Raises:
ValueError: if this method was called under non-Linux platform.
UserInputError: if user has provided invalid input multiple times.
"""
if not is_linux():
raise ValueError('Currently NCCL is only supported on Linux platforms.')
ask_nccl_version = (
'Please specify the NCCL version you want to use. '
'[Leave empty to default to NCCL %s]: ') % _DEFAULT_NCCL_VERSION
for _ in range(_DEFAULT_PROMPT_ASK_ATTEMPTS):
tf_nccl_version = get_from_env_or_user_or_default(
environ_cp, 'TF_NCCL_VERSION', ask_nccl_version, _DEFAULT_NCCL_VERSION)
tf_nccl_version = reformat_version_sequence(str(tf_nccl_version), 1)
if tf_nccl_version == '1':
break # No need to get install path, NCCL 1 is a GitHub repo.
# TODO(csigg): Look with ldconfig first if we can find the library in paths
# like /usr/lib/x86_64-linux-gnu and the header file in the corresponding
# include directory. This is where the NCCL .deb packages install them.
# Then ask the user if we should use that. Instead of a single
# NCCL_INSTALL_PATH, pass separate NCCL_LIB_PATH and NCCL_HDR_PATH to
# nccl_configure.bzl
default_nccl_path = environ_cp.get('CUDA_TOOLKIT_PATH')
ask_nccl_path = (r'Please specify the location where NCCL %s library is '
'installed. Refer to README.md for more details. [Default '
'is %s]:') % (tf_nccl_version, default_nccl_path)
nccl_install_path = get_from_env_or_user_or_default(
environ_cp, 'NCCL_INSTALL_PATH', ask_nccl_path, default_nccl_path)
# Result returned from "read" will be used unexpanded. That make "~"
# unusable. Going through one more level of expansion to handle that.
nccl_install_path = os.path.realpath(os.path.expanduser(nccl_install_path))
if is_windows() or is_cygwin():
nccl_install_path = cygpath(nccl_install_path)
if is_windows():
nccl_lib_path = 'lib/x64/nccl.lib'
elif is_linux():
nccl_lib_path = 'lib/libnccl.so.%s' % tf_nccl_version
elif is_macos():
nccl_lib_path = 'lib/libnccl.%s.dylib' % tf_nccl_version
nccl_lib_path = os.path.join(nccl_install_path, nccl_lib_path)
nccl_hdr_path = os.path.join(nccl_install_path, 'include/nccl.h')
if os.path.exists(nccl_lib_path) and os.path.exists(nccl_hdr_path):
# Set NCCL_INSTALL_PATH
environ_cp['NCCL_INSTALL_PATH'] = nccl_install_path
write_action_env_to_bazelrc('NCCL_INSTALL_PATH', nccl_install_path)
break
# Reset and Retry
print('Invalid path to NCCL %s toolkit, %s or %s not found. Please use the '
'O/S agnostic package of NCCL 2' % (tf_nccl_version, nccl_lib_path,
nccl_hdr_path))
environ_cp['TF_NCCL_VERSION'] = ''
else:
raise UserInputError('Invalid TF_NCCL setting was provided %d '
'times in a row. Assuming to be a scripting mistake.' %
_DEFAULT_PROMPT_ASK_ATTEMPTS)
# Set TF_NCCL_VERSION
environ_cp['TF_NCCL_VERSION'] = tf_nccl_version
write_action_env_to_bazelrc('TF_NCCL_VERSION', tf_nccl_version)
def get_native_cuda_compute_capabilities(environ_cp):
"""Get native cuda compute capabilities.
Args:
environ_cp: copy of the os.environ.
Returns:
string of native cuda compute capabilities, separated by comma.
"""
device_query_bin = os.path.join(
environ_cp.get('CUDA_TOOLKIT_PATH'), 'extras/demo_suite/deviceQuery')
if os.path.isfile(device_query_bin) and os.access(device_query_bin, os.X_OK):
try:
output = run_shell(device_query_bin).split('\n')
pattern = re.compile('[0-9]*\\.[0-9]*')
output = [pattern.search(x) for x in output if 'Capability' in x]
output = ','.join(x.group() for x in output if x is not None)
except subprocess.CalledProcessError:
output = ''
else:
output = ''
return output
def set_tf_cuda_compute_capabilities(environ_cp):
"""Set TF_CUDA_COMPUTE_CAPABILITIES."""
while True:
native_cuda_compute_capabilities = get_native_cuda_compute_capabilities(
environ_cp)
if not native_cuda_compute_capabilities:
default_cuda_compute_capabilities = _DEFAULT_CUDA_COMPUTE_CAPABILITIES
else:
default_cuda_compute_capabilities = native_cuda_compute_capabilities
ask_cuda_compute_capabilities = (
'Please specify a list of comma-separated '
'Cuda compute capabilities you want to '
'build with.\nYou can find the compute '
'capability of your device at: '
'https://developer.nvidia.com/cuda-gpus.\nPlease'
' note that each additional compute '
'capability significantly increases your '
'build time and binary size. [Default is: %s]' %
default_cuda_compute_capabilities)
tf_cuda_compute_capabilities = get_from_env_or_user_or_default(
environ_cp, 'TF_CUDA_COMPUTE_CAPABILITIES',
ask_cuda_compute_capabilities, default_cuda_compute_capabilities)
# Check whether all capabilities from the input is valid
all_valid = True
# Remove all whitespace characters before splitting the string
# that users may insert by accident, as this will result in error
tf_cuda_compute_capabilities = ''.join(tf_cuda_compute_capabilities.split())
for compute_capability in tf_cuda_compute_capabilities.split(','):
m = re.match('[0-9]+.[0-9]+', compute_capability)
if not m:
print('Invalid compute capability: ' % compute_capability)
all_valid = False
else:
ver = int(m.group(0).split('.')[0])
if ver < 3:
print('Only compute capabilities 3.0 or higher are supported.')
all_valid = False
if all_valid:
break
# Reset and Retry
environ_cp['TF_CUDA_COMPUTE_CAPABILITIES'] = ''
# Set TF_CUDA_COMPUTE_CAPABILITIES
environ_cp['TF_CUDA_COMPUTE_CAPABILITIES'] = tf_cuda_compute_capabilities
write_action_env_to_bazelrc('TF_CUDA_COMPUTE_CAPABILITIES',
tf_cuda_compute_capabilities)
def set_other_cuda_vars(environ_cp):
"""Set other CUDA related variables."""
if is_windows():
# The following three variables are needed for MSVC toolchain configuration
# in Bazel
environ_cp['CUDA_PATH'] = environ_cp.get('CUDA_TOOLKIT_PATH')
environ_cp['CUDA_COMPUTE_CAPABILITIES'] = environ_cp.get(
'TF_CUDA_COMPUTE_CAPABILITIES')
environ_cp['NO_WHOLE_ARCHIVE_OPTION'] = 1
write_action_env_to_bazelrc('CUDA_PATH', environ_cp.get('CUDA_PATH'))
write_action_env_to_bazelrc('CUDA_COMPUTE_CAPABILITIE',
environ_cp.get('CUDA_COMPUTE_CAPABILITIE'))
write_action_env_to_bazelrc('NO_WHOLE_ARCHIVE_OPTION',
environ_cp.get('NO_WHOLE_ARCHIVE_OPTION'))
write_to_bazelrc('build --config=win-cuda')
write_to_bazelrc('test --config=win-cuda')
else:
# If CUDA is enabled, always use GPU during build and test.
if environ_cp.get('TF_CUDA_CLANG') == '1':
write_to_bazelrc('build --config=cuda_clang')
write_to_bazelrc('test --config=cuda_clang')
else:
write_to_bazelrc('build --config=cuda')
write_to_bazelrc('test --config=cuda')
def set_host_cxx_compiler(environ_cp):
"""Set HOST_CXX_COMPILER."""
default_cxx_host_compiler = which('g++') or ''
host_cxx_compiler = prompt_loop_or_load_from_env(
environ_cp,
var_name='HOST_CXX_COMPILER',
var_default=default_cxx_host_compiler,
ask_for_var=('Please specify which C++ compiler should be used as the '
'host C++ compiler.'),
check_success=os.path.exists,
error_msg='Invalid C++ compiler path. %s cannot be found.',
)
write_action_env_to_bazelrc('HOST_CXX_COMPILER', host_cxx_compiler)
def set_host_c_compiler(environ_cp):
"""Set HOST_C_COMPILER."""
default_c_host_compiler = which('gcc') or ''
host_c_compiler = prompt_loop_or_load_from_env(
environ_cp,
var_name='HOST_C_COMPILER',
var_default=default_c_host_compiler,
ask_for_var=('Please specify which C compiler should be used as the host '
'C compiler.'),
check_success=os.path.exists,
error_msg='Invalid C compiler path. %s cannot be found.',
)
write_action_env_to_bazelrc('HOST_C_COMPILER', host_c_compiler)
def set_computecpp_toolkit_path(environ_cp):
"""Set COMPUTECPP_TOOLKIT_PATH."""
def toolkit_exists(toolkit_path):
"""Check if a computecpp toolkit path is valid."""
if is_linux():
sycl_rt_lib_path = 'lib/libComputeCpp.so'
else:
sycl_rt_lib_path = ''
sycl_rt_lib_path_full = os.path.join(toolkit_path,
sycl_rt_lib_path)
exists = os.path.exists(sycl_rt_lib_path_full)
if not exists:
print('Invalid SYCL %s library path. %s cannot be found' %
(_TF_OPENCL_VERSION, sycl_rt_lib_path_full))
return exists
computecpp_toolkit_path = prompt_loop_or_load_from_env(
environ_cp,
var_name='COMPUTECPP_TOOLKIT_PATH',
var_default=_DEFAULT_COMPUTECPP_TOOLKIT_PATH,
ask_for_var=(
'Please specify the location where ComputeCpp for SYCL %s is '
'installed.' % _TF_OPENCL_VERSION),
check_success=toolkit_exists,
error_msg='Invalid SYCL compiler path. %s cannot be found.',
suppress_default_error=True)
write_action_env_to_bazelrc('COMPUTECPP_TOOLKIT_PATH',
computecpp_toolkit_path)
def set_trisycl_include_dir(environ_cp):
"""Set TRISYCL_INCLUDE_DIR."""
ask_trisycl_include_dir = ('Please specify the location of the triSYCL '
'include directory. (Use --config=sycl_trisycl '
'when building with Bazel) '
'[Default is %s]: '
) % (_DEFAULT_TRISYCL_INCLUDE_DIR)
while True:
trisycl_include_dir = get_from_env_or_user_or_default(
environ_cp, 'TRISYCL_INCLUDE_DIR', ask_trisycl_include_dir,
_DEFAULT_TRISYCL_INCLUDE_DIR)
if os.path.exists(trisycl_include_dir):
break
print('Invalid triSYCL include directory, %s cannot be found'
% (trisycl_include_dir))
# Set TRISYCL_INCLUDE_DIR
environ_cp['TRISYCL_INCLUDE_DIR'] = trisycl_include_dir
write_action_env_to_bazelrc('TRISYCL_INCLUDE_DIR',
trisycl_include_dir)
def set_mpi_home(environ_cp):
"""Set MPI_HOME."""
default_mpi_home = which('mpirun') or which('mpiexec') or ''
default_mpi_home = os.path.dirname(os.path.dirname(default_mpi_home))
def valid_mpi_path(mpi_home):
exists = (os.path.exists(os.path.join(mpi_home, 'include')) and
os.path.exists(os.path.join(mpi_home, 'lib')))
if not exists:
print('Invalid path to the MPI Toolkit. %s or %s cannot be found' %
(os.path.join(mpi_home, 'include'),
os.path.exists(os.path.join(mpi_home, 'lib'))))
return exists
_ = prompt_loop_or_load_from_env(
environ_cp,
var_name='MPI_HOME',
var_default=default_mpi_home,
ask_for_var='Please specify the MPI toolkit folder.',
check_success=valid_mpi_path,
error_msg='',
suppress_default_error=True)
def set_other_mpi_vars(environ_cp):
"""Set other MPI related variables."""
# Link the MPI header files
mpi_home = environ_cp.get('MPI_HOME')
symlink_force('%s/include/mpi.h' % mpi_home, 'third_party/mpi/mpi.h')
# Determine if we use OpenMPI or MVAPICH, these require different header files
# to be included here to make bazel dependency checker happy
if os.path.exists(os.path.join(mpi_home, 'include/mpi_portable_platform.h')):
symlink_force(
os.path.join(mpi_home, 'include/mpi_portable_platform.h'),
'third_party/mpi/mpi_portable_platform.h')
# TODO(gunan): avoid editing files in configure
sed_in_place('third_party/mpi/mpi.bzl', 'MPI_LIB_IS_OPENMPI=False',
'MPI_LIB_IS_OPENMPI=True')
else:
# MVAPICH / MPICH
symlink_force(
os.path.join(mpi_home, 'include/mpio.h'), 'third_party/mpi/mpio.h')
symlink_force(
os.path.join(mpi_home, 'include/mpicxx.h'), 'third_party/mpi/mpicxx.h')
# TODO(gunan): avoid editing files in configure
sed_in_place('third_party/mpi/mpi.bzl', 'MPI_LIB_IS_OPENMPI=True',
'MPI_LIB_IS_OPENMPI=False')
if os.path.exists(os.path.join(mpi_home, 'lib/libmpi.so')):
symlink_force(
os.path.join(mpi_home, 'lib/libmpi.so'), 'third_party/mpi/libmpi.so')
else:
raise ValueError('Cannot find the MPI library file in %s/lib' % mpi_home)
def set_grpc_build_flags():
write_to_bazelrc('build --define grpc_no_ares=true')
def set_build_strip_flag():
write_to_bazelrc('build --strip=always')
def set_windows_build_flags():
if is_windows():
# The non-monolithic build is not supported yet
write_to_bazelrc('build --config monolithic')
# Suppress warning messages
write_to_bazelrc('build --copt=-w --host_copt=-w')
# Output more verbose information when something goes wrong
write_to_bazelrc('build --verbose_failures')
def config_info_line(name, help_text):
"""Helper function to print formatted help text for Bazel config options."""
print('\t--config=%-12s\t# %s' % (name, help_text))
def main():
parser = argparse.ArgumentParser()
parser.add_argument("--workspace",
type=str,
default=_TF_WORKSPACE_ROOT,
help="The absolute path to your active Bazel workspace.")
args = parser.parse_args()
# Make a copy of os.environ to be clear when functions and getting and setting
# environment variables.
environ_cp = dict(os.environ)
check_bazel_version('0.10.0')
reset_tf_configure_bazelrc(args.workspace)
cleanup_makefile()
setup_python(environ_cp)
if is_windows():
environ_cp['TF_NEED_S3'] = '0'
environ_cp['TF_NEED_GCP'] = '0'
environ_cp['TF_NEED_HDFS'] = '0'
environ_cp['TF_NEED_JEMALLOC'] = '0'
environ_cp['TF_NEED_KAFKA'] = '0'
environ_cp['TF_NEED_OPENCL_SYCL'] = '0'
environ_cp['TF_NEED_COMPUTECPP'] = '0'
environ_cp['TF_NEED_OPENCL'] = '0'
environ_cp['TF_CUDA_CLANG'] = '0'
environ_cp['TF_NEED_TENSORRT'] = '0'
# TODO(ibiryukov): Investigate using clang as a cpu or cuda compiler on
# Windows.
environ_cp['TF_DOWNLOAD_CLANG'] = '0'
if is_macos():
environ_cp['TF_NEED_JEMALLOC'] = '0'
environ_cp['TF_NEED_TENSORRT'] = '0'
set_build_var(environ_cp, 'TF_NEED_JEMALLOC', 'jemalloc as malloc',
'with_jemalloc', True)
set_build_var(environ_cp, 'TF_NEED_GCP', 'Google Cloud Platform',
'with_gcp_support', True, 'gcp')
set_build_var(environ_cp, 'TF_NEED_HDFS', 'Hadoop File System',
'with_hdfs_support', True, 'hdfs')
set_build_var(environ_cp, 'TF_NEED_S3', 'Amazon S3 File System',
'with_s3_support', True, 's3')
set_build_var(environ_cp, 'TF_NEED_KAFKA', 'Apache Kafka Platform',
'with_kafka_support', True, 'kafka')
set_build_var(environ_cp, 'TF_ENABLE_XLA', 'XLA JIT', 'with_xla_support',
False, 'xla')
set_build_var(environ_cp, 'TF_NEED_GDR', 'GDR', 'with_gdr_support',
False, 'gdr')
set_build_var(environ_cp, 'TF_NEED_VERBS', 'VERBS', 'with_verbs_support',
False, 'verbs')
set_action_env_var(environ_cp, 'TF_NEED_OPENCL_SYCL', 'OpenCL SYCL', False)
if environ_cp.get('TF_NEED_OPENCL_SYCL') == '1':
set_host_cxx_compiler(environ_cp)
set_host_c_compiler(environ_cp)
set_action_env_var(environ_cp, 'TF_NEED_COMPUTECPP', 'ComputeCPP', True)
if environ_cp.get('TF_NEED_COMPUTECPP') == '1':
set_computecpp_toolkit_path(environ_cp)
else:
set_trisycl_include_dir(environ_cp)
set_action_env_var(environ_cp, 'TF_NEED_CUDA', 'CUDA', False)
if (environ_cp.get('TF_NEED_CUDA') == '1' and
'TF_CUDA_CONFIG_REPO' not in environ_cp):
set_tf_cuda_version(environ_cp)
set_tf_cudnn_version(environ_cp)
if is_linux():
set_tf_tensorrt_install_path(environ_cp)
set_tf_nccl_install_path(environ_cp)
set_tf_cuda_compute_capabilities(environ_cp)
if 'LD_LIBRARY_PATH' in environ_cp and environ_cp.get(
'LD_LIBRARY_PATH') != '1':
write_action_env_to_bazelrc('LD_LIBRARY_PATH',
environ_cp.get('LD_LIBRARY_PATH'))
set_tf_cuda_clang(environ_cp)
if environ_cp.get('TF_CUDA_CLANG') == '1':
# Ask whether we should download the clang toolchain.
set_tf_download_clang(environ_cp)
if environ_cp.get('TF_DOWNLOAD_CLANG') != '1':
# Set up which clang we should use as the cuda / host compiler.
set_clang_cuda_compiler_path(environ_cp)
else:
# Set up which gcc nvcc should use as the host compiler
# No need to set this on Windows
if not is_windows():
set_gcc_host_compiler_path(environ_cp)
set_other_cuda_vars(environ_cp)
else:
# CUDA not required. Ask whether we should download the clang toolchain and
# use it for the CPU build.
set_tf_download_clang(environ_cp)
if environ_cp.get('TF_DOWNLOAD_CLANG') == '1':
write_to_bazelrc('build --config=download_clang')
write_to_bazelrc('test --config=download_clang')
set_build_var(environ_cp, 'TF_NEED_MPI', 'MPI', 'with_mpi_support', False)
if environ_cp.get('TF_NEED_MPI') == '1':
set_mpi_home(environ_cp)
set_other_mpi_vars(environ_cp)
set_grpc_build_flags()
set_cc_opt_flags(environ_cp)
set_build_strip_flag()
set_windows_build_flags()
if get_var(
environ_cp, 'TF_SET_ANDROID_WORKSPACE', 'android workspace',
False,
('Would you like to interactively configure ./WORKSPACE for '
'Android builds?'),
'Searching for NDK and SDK installations.',
'Not configuring the WORKSPACE for Android builds.'):
create_android_ndk_rule(environ_cp)
create_android_sdk_rule(environ_cp)
print('Preconfigured Bazel build configs. You can use any of the below by '
'adding "--config=<>" to your build command. See tools/bazel.rc for '
'more details.')
config_info_line('mkl', 'Build with MKL support.')
config_info_line('monolithic', 'Config for mostly static monolithic build.')
if __name__ == '__main__':
main()
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