#!/usr/bin/env python3
# Copyright (c) 2019 Egor Tensin <Egor.Tensin@gmail.com>
# This file is part of the "cmake-common" project.
# For details, see https://github.com/egor-tensin/cmake-common.
# Distributed under the MIT License.
'''Download & build Boost.
This script downloads and builds the Boost libraries. It's main purpose is to:
1) provide a cross-platform way to download & unpack the Boost distribution
archive,
2) set the correct --stagedir parameter value to avoid name clashes.
Please pick a command below. You can execute `%(prog)s COMMAND --help` to view
its usage message.
A simple usage example:
$ %(prog)s download 1.71.0
...
$ %(prog)s build -- boost_1_71_0/ --with-filesystem --with-program_options
...
'''
import abc
import argparse
from collections import namedtuple
from contextlib import contextmanager
from enum import Enum
from functools import total_ordering
import logging
import os.path
import platform
import re
import shutil
import subprocess
import sys
import tempfile
import urllib.request
@contextmanager
def _chdir(path):
cwd = os.getcwd()
os.chdir(path)
try:
yield
finally:
os.chdir(cwd)
def _setup_logging():
logging.basicConfig(
format='%(asctime)s | %(levelname)s | %(message)s',
level=logging.INFO)
def _on_windows():
return platform.system() == 'Windows'
def _on_linux():
return not _on_windows()
def _run_executable(cmd_line):
logging.info('Running executable: %s', cmd_line)
return subprocess.run(cmd_line, check=True)
class Platform(Enum):
X86 = 'x86'
X64 = 'x64'
WIN32 = 'Win32'
def __str__(self):
return self.value
@staticmethod
def all():
return (Platform.X86, Platform.X64)
def get_address_model(self):
if self is Platform.X86:
return 32
if self is Platform.X64:
return 64
if self is Platform.WIN32:
return 32
raise NotImplementedError(f'unsupported platform: {self}')
def _parse_platform(s):
try:
return Platform(s)
except ValueError:
raise argparse.ArgumentTypeError(f'invalid platform: {s}')
class Configuration(Enum):
# AFAIK, Boost only supports debug/release, MinSizeRel and RelWithDebInfo
# are for compatibility with CMake, they map to "release".
# The libraries will still reside in stage/PLATFORM/CONFIGURATION/lib, even
# if CONFIGURATION is MinSizeRel/RelWithDebInfo.
DEBUG = 'Debug'
MINSIZEREL = 'MinSizeRel'
RELWITHDEBINFO = 'RelWithDebInfo'
RELEASE = 'Release'
def normalize(self):
'''Roughly maps CMake's CMAKE_BUILD_TYPE to Boost's variant.'''
if self is Configuration.MINSIZEREL:
return Configuration.RELEASE
if self is Configuration.RELWITHDEBINFO:
return Configuration.RELEASE
return self
@staticmethod
def all():
return (Configuration.DEBUG, Configuration.RELEASE)
def __str__(self):
return self.value
def _parse_configuration(s):
try:
return Configuration(s)
except ValueError:
raise argparse.ArgumentTypeError(f'invalid configuration: {s}')
class Linkage(Enum):
STATIC = 'static'
SHARED = 'shared'
@staticmethod
def all():
return tuple(Linkage)
def __str__(self):
return self.value
def _parse_linkage(s):
try:
return Linkage(s)
except ValueError:
raise argparse.ArgumentTypeError(f'invalid linkage: {s}')
_Version = namedtuple('_Version', ['major', 'minor', 'patch'])
@total_ordering
class BoostVersion:
def __init__(self, major, minor, patch):
self._impl = _Version(major, minor, patch)
@property
def major(self):
return self._impl.major
@property
def minor(self):
return self._impl.minor
@property
def patch(self):
return self._impl.patch
def __lt__(self, other):
return self._impl < other._impl
def __eq__(self, other):
return self._impl == other._impl
@staticmethod
def from_string(s):
result = re.match(r'^(\d+)\.(\d+)\.(\d+)$', s)
if result is None:
raise ValueError(f'invalid Boost version: {s}')
major = int(result.group(1))
minor = int(result.group(2))
patch = int(result.group(3))
return BoostVersion(major, minor, patch)
def __str__(self):
return f'{self.major}.{self.minor}.{self.patch}'
@property
def archive_ext(self):
return '.tar.gz'
def dir_path(self, parent_dir):
return os.path.join(parent_dir, self.dir_name)
@property
def dir_name(self):
return f'boost_{self.major}_{self.minor}_{self.patch}'
@property
def archive_name(self):
return f'{self.dir_name}{self.archive_ext}'
def _get_bintray_url(self):
return f'https://dl.bintray.com/boostorg/release/{self}/source/{self.archive_name}'
def _get_sourceforge_url(self):
return f'https://sourceforge.net/projects/boost/files/boost/{self}/{self.archive_name}/download'
def get_download_urls(self):
if self._impl < _Version(1, 63, 0):
# For versions older than 1.63.0, SourceForge is the only option:
return [self._get_sourceforge_url()]
# Otherwise, Bintray is preferred (the official website links to it).
return [self._get_bintray_url(), self._get_sourceforge_url()]
class BoostArchive:
def __init__(self, version, path):
self.version = version
self.path = path
@property
def dir_name(self):
return self.version.dir_name
def unpack(self, dest_dir):
path = os.path.join(dest_dir, self.dir_name)
if os.path.exists(path):
raise RuntimeError(f'Boost directory already exists: {path}')
logging.info('Unpacking Boost to: %s', path)
shutil.unpack_archive(self.path, dest_dir)
return BoostDir(path)
class ArchiveStorage(abc.ABC):
@contextmanager
def download(self, version):
path = self.get_archive(version)
if path is not None:
logging.info('Using existing Boost archive: %s', path)
yield BoostArchive(version, path)
return
urls = version.get_download_urls()
for url in urls:
logging.info('Trying URL: %s', url)
try:
with urllib.request.urlopen(url) as request:
with self.write_archive(version, request.read()) as path:
yield BoostArchive(version, path)
return
except urllib.request.URLError as e:
logging.error("Couldn't download from this mirror, an error occured:")
logging.exception(e)
raise RuntimeError("Couldn't download Boost from any of the mirrors")
@abc.abstractmethod
def get_archive(self, version):
pass
@contextmanager
@abc.abstractmethod
def write_archive(self, version, contents):
pass
class CacheStorage(ArchiveStorage):
def __init__(self, cache_dir):
self._dir = cache_dir
def _archive_path(self, version):
return os.path.join(self._dir, version.archive_name)
def get_archive(self, version):
path = self._archive_path(version)
if os.path.exists(path):
return path
return None
@contextmanager
def write_archive(self, version, contents):
path = self._archive_path(version)
logging.info('Writing Boost archive: %s', path)
if os.path.exists(path):
raise RuntimeError(f'cannot download Boost, file already exists: {path}')
with open(path, mode='w+b') as dest:
dest.write(contents)
yield path
class TempStorage(ArchiveStorage):
def __init__(self, temp_dir):
self._dir = temp_dir
def get_archive(self, version):
return None
@contextmanager
def write_archive(self, version, contents):
with tempfile.NamedTemporaryFile(prefix=f'boost_{version}_', suffix=version.archive_ext, dir=self._dir, delete=False) as dest:
path = dest.name
logging.info('Writing Boost archive: %s', path)
dest.write(contents)
try:
yield path
finally:
logging.info('Removing temporary Boost archive: %s', path)
os.remove(path)
class BoostDir:
def __init__(self, path):
if not os.path.isdir(path):
raise RuntimeError(f"Boost directory doesn't exist: {path}")
self.path = path
def _go(self):
return _chdir(self.path)
def build(self, params):
with self._go():
self._bootstrap_if_required()
self._b2(params)
def _bootstrap_if_required(self):
if os.path.isfile(self._b2_path()):
logging.info('Not going to bootstrap, b2 is already there')
return
self.bootstrap()
def bootstrap(self):
with self._go():
_run_executable(self._bootstrap_path())
def _b2(self, params):
for b2_params in params.enum_b2_args():
_run_executable([self._b2_path()] + b2_params)
@staticmethod
def _bootstrap_path():
return os.path.join('.', BoostDir._bootstrap_name())
@staticmethod
def _bootstrap_name():
ext = '.sh'
if _on_windows():
ext = '.bat'
return f'bootstrap{ext}'
@staticmethod
def _b2_path():
return os.path.join('.', BoostDir._b2_name())
@staticmethod
def _b2_name():
ext = ''
if _on_windows():
ext = '.exe'
return f'b2{ext}'
class BuildParameters:
def __init__(self, args):
self.platforms = args.platforms or Platform.all()
self.configurations = args.configurations or Configuration.all()
self.link = args.link or Linkage.all()
self.runtime_link = args.runtime_link
self.stage_dir = 'stage'
self.build_dir = args.build_dir
self.boost_dir = args.boost_dir
self.b2_args = args.b2_args
def enum_b2_args(self):
with self._create_build_dir() as build_dir:
for platform in self.platforms:
for configuration in self.configurations:
for link, runtime_link in self._linkage_options():
yield self._build_params(build_dir, platform, configuration, link, runtime_link)
def _linkage_options(self):
for link in self.link:
runtime_link = self.runtime_link
if runtime_link is Linkage.STATIC:
if link is Linkage.SHARED:
logging.warning("Cannot link the runtime statically to a dynamic library, going to link dynamically")
runtime_link = Linkage.SHARED
elif _on_linux():
logging.warning("Cannot link to the GNU C Library (which is assumed) statically, going to link dynamically")
runtime_link = Linkage.SHARED
yield link, runtime_link
@contextmanager
def _create_build_dir(self):
if self.build_dir is not None:
logging.info('Build directory: %s', self.build_dir)
yield self.build_dir
return
with tempfile.TemporaryDirectory(dir=os.path.dirname(self.boost_dir)) as build_dir:
logging.info('Build directory: %s', build_dir)
try:
yield build_dir
finally:
logging.info('Removing build directory: %s', build_dir)
return
def _build_params(self, build_dir, platform, configuration, link, runtime_link):
params = []
params.append(self._build_dir(build_dir))
params.append(self._stagedir(platform, configuration))
params.append(self._link(link))
params.append(self._runtime_link(runtime_link))
params.append(self._address_model(platform))
params.append(self._variant(configuration))
params += self.b2_args
return params
@staticmethod
def _build_dir(build_dir):
return f'--build-dir={build_dir}'
def _stagedir(self, platform, configuration):
# Having different --stagedir values for every configuration/platform
# combination is unnecessary on Windows.
# Even for older Boost versions (when the binaries weren't tagged with
# their target platform) only a single --stagedir for every platform
# would suffice.
# For newer versions, just a single --stagedir would do, as the
# binaries are tagged with the target platform, as well as their
# configuration (a.k.a. "variant" in Boost's terminology).
# Still, uniformity helps.
platform = str(platform)
configuration = str(configuration)
return f'--stagedir={os.path.join(self.stage_dir, platform, configuration)}'
@staticmethod
def _link(link):
return f'link={link}'
@staticmethod
def _runtime_link(runtime_link):
return f'runtime-link={runtime_link}'
@staticmethod
def _address_model(platform):
return f'address-model={platform.get_address_model()}'
@staticmethod
def _variant(configuration):
return f'variant={str(configuration.normalize()).lower()}'
def _parse_dir(s):
return os.path.abspath(os.path.normpath(s))
def _parse_args(argv=None):
if argv is None:
argv = sys.argv[1:]
logging.info('Command line arguments: %s', argv)
parser = argparse.ArgumentParser(
description=__doc__,
formatter_class=argparse.RawDescriptionHelpFormatter)
subparsers = parser.add_subparsers(dest='command')
download = subparsers.add_parser('download', help='download & bootstrap Boost')
download.add_argument('--cache', metavar='DIR', dest='cache_dir',
type=_parse_dir,
help='download directory (temporary file unless specified)')
download.add_argument('--unpack', metavar='DIR', dest='unpack_dir',
type=_parse_dir, default='.',
help='directory to unpack the archive to')
download.add_argument('boost_version', metavar='VERSION',
type=BoostVersion.from_string,
help='Boost version (in the MAJOR.MINOR.PATCH format)')
build = subparsers.add_parser('build', help='build the libraries')
# These are used to put the built libraries into proper stage/
# subdirectories (to avoid name clashes).
build.add_argument('--platform', metavar='PLATFORM',
nargs='*', dest='platforms', default=[],
type=_parse_platform,
help=f'target platform ({"/".join(map(str, Platform))})')
build.add_argument('--configuration', metavar='CONFIGURATION',
nargs='*', dest='configurations', default=[],
type=_parse_configuration,
help=f'target configuration ({"/".join(map(str, Configuration))})')
# This is needed because the default behaviour on Linux and Windows is
# different: static & dynamic libs are built on Linux, but only static libs
# are built on Windows by default.
build.add_argument('--link', metavar='LINKAGE',
nargs='*', default=[],
type=_parse_linkage,
help=f'how the libraries are linked ({"/".join(map(str, Linkage))})')
# This is used to omit runtime-link=static I'd have to otherwise use a lot,
# plus the script validates the link= and runtime-link= combinations.
build.add_argument('--runtime-link', metavar='LINKAGE',
type=_parse_linkage, default=Linkage.STATIC,
help=f'how the libraries link to the runtime ({"/".join(map(str, Linkage))})')
build.add_argument('--build', metavar='DIR', dest='build_dir',
type=_parse_dir,
help='Boost build directory (temporary directory unless specified)')
build.add_argument('boost_dir', metavar='DIR',
type=_parse_dir,
help='root Boost directory')
build.add_argument('b2_args', nargs='*', metavar='B2_ARG', default=[],
help='additional b2 arguments, to be passed verbatim')
args = parser.parse_args(argv)
if args.command is None:
parser.error("please specify a command")
return args
def build(args):
build_params = BuildParameters(args)
boost_dir = BoostDir(args.boost_dir)
boost_dir.build(build_params)
def download(args):
storage = TempStorage(args.unpack_dir)
if args.cache_dir is not None:
storage = CacheStorage(args.cache_dir)
with storage.download(args.boost_version) as archive:
boost_dir = archive.unpack(args.unpack_dir)
boost_dir.bootstrap()
def main(argv=None):
args = _parse_args(argv)
if args.command == 'download':
download(args)
elif args.command == 'build':
build(args)
else:
raise NotImplementedError(f'unsupported command: {args.command}')
def _main(argv=None):
_setup_logging()
try:
main(argv)
except Exception as e:
logging.exception(e)
raise
if __name__ == '__main__':
_main()