#!/usr/bin/env python3 import os, sys, stat import argparse import ssl import urllib.request import subprocess import platform from collections import OrderedDict from dependencies import Dependency from dependency_utils import ReleaseDownload, Builder from utils import ( pj, remove_duplicates, get_sha256, StopBuild, SkipCommand, Defaultdict, Remotefile, Context) REMOTE_PREFIX = 'http://download.kiwix.org/dev/' SCRIPT_DIR = os.path.dirname(os.path.realpath(__file__)) CROSS_ENV = { 'fedora_win32': { 'toolchain_names': ['mingw32_toolchain'], 'root_path': '/usr/i686-w64-mingw32/sys-root/mingw', 'extra_libs': ['-lwinmm', '-lws2_32', '-lshlwapi', '-lrpcrt4', '-lmsvcr90'], 'extra_cflags': ['-DWIN32'], 'host_machine': { 'system': 'windows', 'cpu_family': 'x86', 'cpu': 'i686', 'endian': 'little' } }, 'fedora_android': { 'toolchain_names': ['android_ndk'], 'extra_libs': [], 'extra_cflags': [], 'host_machine': { 'system': 'Android', 'cpu_family': 'x86', 'cpu': 'i686', 'endian': 'little' } }, 'debian_win32': { 'toolchain_names': ['mingw32_toolchain'], 'root_path': '/usr/i686-w64-mingw32/', 'extra_libs': ['-lwinmm', '-lws2_32', '-lshlwapi', '-lrpcrt4', '-lmsvcr90'], 'extra_cflags': ['-DWIN32'], 'host_machine': { 'system': 'windows', 'cpu_family': 'x86', 'cpu': 'i686', 'endian': 'little' } }, 'debian_android': { 'toolchain_names': ['android_ndk'], 'extra_libs': [], 'extra_cflags': [], 'host_machine': { 'system': 'Android', 'cpu_family': 'x86', 'cpu': 'i686', 'endian': 'little' } } } PACKAGE_NAME_MAPPERS = { 'fedora_native_dyn': { 'COMMON': ['gcc-c++', 'cmake', 'automake', 'ccache'], 'uuid': ['libuuid-devel'], 'xapian-core': None, # Not the right version on fedora 25 'ctpp2': None, 'pugixml': None, # ['pugixml-devel'] but package doesn't provide pkg-config file 'libmicrohttpd': ['libmicrohttpd-devel'], 'zlib': ['zlib-devel'], 'lzma': ['xz-devel'], 'icu4c': None, 'zimlib': None, 'file' : ['file-devel'], 'gumbo' : ['gumbo-parser-devel'], }, 'fedora_native_static': { 'COMMON': ['gcc-c++', 'cmake', 'automake', 'glibc-static', 'libstdc++-static', 'ccache'], 'zlib': ['zlib-devel', 'zlib-static'], 'lzma': ['xz-devel', 'xz-static'] # Either there is no packages, or no static or too old }, 'fedora_win32_dyn': { 'COMMON': ['mingw32-gcc-c++', 'mingw32-bzip2', 'mingw32-win-iconv', 'mingw32-winpthreads', 'wine', 'ccache'], 'zlib': ['mingw32-zlib'], 'lzma': ['mingw32-xz-libs'], 'libmicrohttpd': ['mingw32-libmicrohttpd'], }, 'fedora_win32_static': { 'COMMON': ['mingw32-gcc-c++', 'mingw32-bzip2-static', 'mingw32-win-iconv-static', 'mingw32-winpthreads-static', 'wine', 'ccache'], 'zlib': ['mingw32-zlib-static'], 'lzma': ['mingw32-xz-libs-static'], 'libmicrohttpd': None, # ['mingw32-libmicrohttpd-static'] packaging dependecy seems buggy, and some static lib are name libfoo.dll.a and # gcc cannot found them. }, 'fedora_android': { 'COMMON': ['gcc-c++', 'cmake', 'automake', 'ccache', 'java-1.8.0-openjdk-devel'] }, 'debian_native_dyn': { 'COMMON': ['automake', 'gcc', 'cmake', 'libbz2-dev', 'ccache'], 'zlib': ['zlib1g-dev'], 'uuid': ['uuid-dev'], 'ctpp2': ['libctpp2-dev'], 'libmicrohttpd': ['libmicrohttpd-dev', 'ccache'] }, 'debian_native_static': { 'COMMON': ['automake', 'gcc', 'cmake', 'libbz2-dev', 'ccache'], 'zlib': ['zlib1g-dev'], 'uuid': ['uuid-dev'], 'ctpp2': ['libctpp2-dev'], }, 'debian_win32_dyn': { 'COMMON': ['g++-mingw-w64-i686', 'gcc-mingw-w64-i686', 'gcc-mingw-w64-base', 'mingw-w64-tools', 'cmake', 'ccache'] }, 'debian_win32_static': { 'COMMON': ['g++-mingw-w64-i686', 'gcc-mingw-w64-i686', 'gcc-mingw-w64-base', 'mingw-w64-tools', 'cmake', 'ccache'] }, 'debian_android': { 'COMMON': ['automake', 'gcc', 'cmake', 'ccache', 'default-jdk'] }, } def which(name): command = "which {}".format(name) output = subprocess.check_output(command, shell=True) return output[:-1].decode() class TargetInfo: def __init__(self, build, static): self.build = build self.static = static def __str__(self): return "{}_{}".format(self.build, 'static' if self.static else 'dyn') class AndroidTargetInfo(TargetInfo): __arch_infos = { 'arm' : ('arm-linux-androideabi'), 'arm64': ('aarch64-linux-android'), 'mips': ('mipsel-linux-android'), 'mips64': ('mips64el-linux-android'), 'x86': ('i686-linux-android'), 'x86_64': ('x86_64-linux-android'), } def __init__(self, arch): super().__init__('android', True) self.arch = arch self.arch_full = self.__arch_infos[arch] def __str__(self): return "android" class BuildEnv: target_platforms = { 'native_dyn': TargetInfo('native', False), 'native_static': TargetInfo('native', True), 'win32_dyn': TargetInfo('win32', False), 'win32_static': TargetInfo('win32', True), 'android_arm': AndroidTargetInfo('arm'), 'android_arm64': AndroidTargetInfo('arm64'), 'android_mips': AndroidTargetInfo('mips'), 'android_mips64': AndroidTargetInfo('mips64'), 'android_x86': AndroidTargetInfo('x86'), 'android_x86_64': AndroidTargetInfo('x86_64'), } def __init__(self, options, targetsDict): self.source_dir = pj(options.working_dir, "SOURCE") build_dir = "BUILD_{}".format(options.target_platform) self.build_dir = pj(options.working_dir, build_dir) self.archive_dir = pj(options.working_dir, "ARCHIVE") self.log_dir = pj(self.build_dir, 'LOGS') self.install_dir = pj(self.build_dir, "INSTALL") for d in (self.source_dir, self.build_dir, self.archive_dir, self.log_dir, self.install_dir): os.makedirs(d, exist_ok=True) self.detect_platform() self.ninja_command = self._detect_ninja() if not self.ninja_command: sys.exit("ERROR: ninja command not found") self.meson_command = self._detect_meson() if not self.meson_command: sys.exit("ERROR: meson command not fount") self.setup_build(options.target_platform) self.setup_toolchains() self.options = options self.libprefix = options.libprefix or self._detect_libdir() self.targetsDict = targetsDict def detect_platform(self): _platform = platform.system() self.distname = _platform if _platform == 'Windows': print('ERROR: kiwix-build is not intented to run on Windows platform.\n' 'It should probably not work, but well, you still can have a try.') cont = input('Do you want to continue ? [y/N]') if cont.lower() != 'y': sys.exit(0) if _platform == 'Darwin': print('WARNING: kiwix-build has not been tested on MacOS platfrom.\n' 'Tests, bug reports and patches are welcomed.') if _platform == 'Linux': self.distname, _, _ = platform.linux_distribution() self.distname = self.distname.lower() if self.distname == 'ubuntu': self.distname = 'debian' def setup_build(self, target_platform): self.platform_info = platform_info = self.target_platforms[target_platform] if platform_info.build == 'native': self.cross_env = {} else: cross_name = "{host}_{target}".format( host = self.distname, target = platform_info.build) try: self.cross_env = CROSS_ENV[cross_name] except KeyError: sys.exit("ERROR : We don't know how to set env to compile" " a {target} version on a {host} host.".format( target = platform_info.build, host = self.distname )) def setup_toolchains(self): toolchain_names = self.cross_env.get('toolchain_names', []) self.toolchains =[Toolchain.all_toolchains[toolchain_name](self) for toolchain_name in toolchain_names] def finalize_setup(self): getattr(self, 'setup_{}'.format(self.platform_info.build))() def setup_native(self): self.cmake_crossfile = None self.meson_crossfile = None def _gen_crossfile(self, name): crossfile = pj(self.build_dir, name) template_file = pj(SCRIPT_DIR, 'templates', name) with open(template_file, 'r') as f: template = f.read() content = template.format( toolchain=self.toolchains[0], **self.cross_env ) with open(crossfile, 'w') as outfile: outfile.write(content) return crossfile def setup_win32(self): self.cmake_crossfile = self._gen_crossfile('cmake_cross_file.txt') self.meson_crossfile = self._gen_crossfile('meson_cross_file.txt') def setup_android(self): self.cmake_crossfile = self._gen_crossfile('cmake_android_cross_file.txt') self.meson_crossfile = self._gen_crossfile('meson_cross_file.txt') def __getattr__(self, name): return getattr(self.options, name) def _is_debianlike(self): return os.path.isfile('/etc/debian_version') def _detect_libdir(self): if self._is_debianlike(): try: pc = subprocess.Popen(['dpkg-architecture', '-qDEB_HOST_MULTIARCH'], stdout=subprocess.PIPE, stderr=subprocess.DEVNULL) (stdo, _) = pc.communicate() if pc.returncode == 0: archpath = stdo.decode().strip() return 'lib/' + archpath except Exception: pass if os.path.isdir('/usr/lib64') and not os.path.islink('/usr/lib64'): return 'lib64' return 'lib' def _detect_ninja(self): for n in ['ninja', 'ninja-build']: try: retcode = subprocess.check_call([n, '--version'], stdout=subprocess.DEVNULL) except (FileNotFoundError, PermissionError): # Doesn't exist in PATH or isn't executable continue if retcode == 0: return n def _detect_meson(self): for n in ['meson.py', 'meson']: try: retcode = subprocess.check_call([n, '--version'], stdout=subprocess.DEVNULL) except (FileNotFoundError, PermissionError): # Doesn't exist in PATH or isn't executable continue if retcode == 0: return n @property def configure_option(self): configure_options = [tlc.configure_option for tlc in self.toolchains] return " ".join(configure_options) @property def cmake_option(self): cmake_options = [tlc.cmake_option for tlc in self.toolchains] return " ".join(cmake_options) def _set_env(self, env, cross_compile_env, cross_compile_path): if env is None: env = Defaultdict(str, os.environ) bin_dirs = [] if cross_compile_env: for k, v in self.cross_env.get('env', {}).items(): if k.startswith('_format_'): v = v.format(**self.cross_env) k = k[8:] env[k] = v for toolchain in self.toolchains: toolchain.set_env(env) if cross_compile_path: for tlc in self.toolchains: bin_dirs += tlc.get_bin_dir() pkgconfig_path = pj(self.install_dir, self.libprefix, 'pkgconfig') env['PKG_CONFIG_PATH'] = ':'.join([env['PKG_CONFIG_PATH'], pkgconfig_path]) # Add ccache path for p in ('/usr/lib/ccache', '/usr/lib64/ccache'): if os.path.isdir(p): ccache_path = [p] break else: ccache_path = [] env['PATH'] = ':'.join(bin_dirs + [pj(self.install_dir, 'bin')] + ccache_path + [env['PATH']]) env['LD_LIBRARY_PATH'] = ':'.join([env['LD_LIBRARY_PATH'], pj(self.install_dir, 'lib'), pj(self.install_dir, 'lib64') ]) env['CPPFLAGS'] = " ".join(['-I'+pj(self.install_dir, 'include'), env['CPPFLAGS']]) env['LDFLAGS'] = " ".join(['-L'+pj(self.install_dir, 'lib'), '-L'+pj(self.install_dir, 'lib64'), env['LDFLAGS']]) return env def run_command(self, command, cwd, context, env=None, input=None, cross_path_only=False): os.makedirs(cwd, exist_ok=True) cross_compile_env = True cross_compile_path = True if context.force_native_build: cross_compile_env = False cross_compile_path = False if cross_path_only: cross_compile_env = False env = self._set_env(env, cross_compile_env, cross_compile_path) log = None try: if not self.options.verbose: log = open(context.log_file, 'w') print("run command '{}'".format(command), file=log) print("current directory is '{}'".format(cwd), file=log) print("env is :", file=log) for k, v in env.items(): print(" {} : {!r}".format(k, v), file=log) kwargs = dict() if input: kwargs['stdin'] = input return subprocess.check_call(command, shell=True, cwd=cwd, env=env, stdout=log or sys.stdout, stderr=subprocess.STDOUT, **kwargs) finally: if log: log.close() def download(self, what, where=None): where = where or self.archive_dir file_path = pj(where, what.name) file_url = what.url or (REMOTE_PREFIX + what.name) if os.path.exists(file_path): if what.sha256 == get_sha256(file_path): raise SkipCommand() os.remove(file_path) if options.no_cert_check == True: context = ssl.create_default_context() context.check_hostname = False context.verify_mode = ssl.CERT_NONE else: context = None batch_size = 1024 * 8 extra_args = {'context':context} if sys.version_info >= (3, 4, 3) else {} with urllib.request.urlopen(file_url, **extra_args) as resource, open(file_path, 'wb') as file: while True: batch = resource.read(batch_size) if not batch: break file.write(batch) if not what.sha256: print('Sha256 for {} not set, do no verify download'.format(what.name)) elif what.sha256 != get_sha256(file_path): os.remove(file_path) raise StopBuild() def install_packages(self): autoskip_file = pj(self.build_dir, ".install_packages_ok") if self.distname in ('fedora', 'redhat', 'centos'): package_installer = 'sudo dnf install {}' package_checker = 'rpm -q --quiet {}' elif self.distname in ('debian', 'Ubuntu'): package_installer = 'sudo apt-get install {}' package_checker = 'LANG=C dpkg -s {} 2>&1 | grep Status | grep "ok installed" 1>/dev/null 2>&1' mapper_name = "{host}_{target}".format( host=self.distname, target=self.platform_info) try: package_name_mapper = PACKAGE_NAME_MAPPERS[mapper_name] except KeyError: print("SKIP : We don't know which packages we must install to compile" " a {target} {build_type} version on a {host} host.".format( target=self.platform_info, host=self.distname)) return packages_list = package_name_mapper.get('COMMON', []) for dep in self.targetsDict.values(): packages = package_name_mapper.get(dep.name) if packages: packages_list += packages dep.skip = True for dep in self.targetsDict.values(): packages = getattr(dep, 'extra_packages', []) for package in packages: packages_list += package_name_mapper.get(package, []) if os.path.exists(autoskip_file): print("SKIP") return packages_to_install = [] for package in packages_list: print(" - {} : ".format(package), end="") command = package_checker.format(package) try: subprocess.check_call(command, shell=True) except subprocess.CalledProcessError: print("NEEDED") packages_to_install.append(package) else: print("SKIP") if packages_to_install: command = package_installer.format(" ".join(packages_to_install)) print(command) subprocess.check_call(command, shell=True) else: print("SKIP, No package to install.") with open(autoskip_file, 'w'): pass class _MetaToolchain(type): def __new__(cls, name, bases, dct): _class = type.__new__(cls, name, bases, dct) if name != 'Toolchain': Toolchain.all_toolchains[name] = _class return _class class Toolchain(metaclass=_MetaToolchain): all_toolchains = {} configure_option = "" cmake_option = "" Builder = None Source = None def __init__(self, buildEnv): self.buildEnv = buildEnv self.source = self.Source(self) if self.Source else None self.builder = self.Builder(self) if self.Builder else None @property def full_name(self): return "{name}-{version}".format( name = self.name, version = self.version) @property def source_path(self): return pj(self.buildEnv.source_dir, self.source.source_dir) @property def _log_dir(self): return self.buildEnv.log_dir def set_env(self, env): pass def command(self, name, function, *args): print(" {} {} : ".format(name, self.name), end="", flush=True) log = pj(self._log_dir, 'cmd_{}_{}.log'.format(name, self.name)) context = Context(name, log, True) try: ret = function(*args, context=context) context._finalise() print("OK") return ret except SkipCommand: print("SKIP") except subprocess.CalledProcessError: print("ERROR") try: with open(log, 'r') as f: print(f.read()) except: pass raise StopBuild() except: print("ERROR") raise class mingw32_toolchain(Toolchain): name = 'mingw32' arch_full = 'i686-w64-mingw32' @property def root_path(self): return self.buildEnv.cross_env['root_path'] @property def binaries(self): return {k:which('{}-{}'.format(self.arch_full, v)) for k, v in (('CC', 'gcc'), ('CXX', 'g++'), ('AR', 'ar'), ('STRIP', 'strip'), ('WINDRES', 'windres'), ('RANLIB', 'ranlib')) } @property def configure_option(self): return '--host={}'.format(self.arch_full) def get_bin_dir(self): return [pj(self.root_path, 'bin')] def set_env(self, env): for k, v in self.binaries.items(): env[k] = v env['PKG_CONFIG_LIBDIR'] = pj(self.root_path, 'lib', 'pkgconfig') env['CFLAGS'] = " -O2 -g -pipe -Wall -Wp,-D_FORTIFY_SOURCE=2 -fexceptions --param=ssp-buffer-size=4 "+env['CFLAGS'] env['CXXFLAGS'] = " -O2 -g -pipe -Wall -Wp,-D_FORTIFY_SOURCE=2 -fexceptions --param=ssp-buffer-size=4 "+env['CXXFLAGS'] env['LIBS'] = " ".join(self.buildEnv.cross_env['extra_libs']) + " " +env['LIBS'] class android_ndk(Toolchain): name = 'android-ndk' version = 'r13b' gccver = '4.9.x' @property def api(self): return '21' if self.arch in ('arm64', 'mips64', 'x86_64') else '14' @property def platform(self): return 'android-'+self.api @property def arch(self): return self.buildEnv.platform_info.arch @property def arch_full(self): return self.buildEnv.platform_info.arch_full @property def toolchain(self): return self.arch_full+"-4.9" @property def root_path(self): return pj(self.builder.install_path, 'sysroot') @property def binaries(self): binaries = ((k,'{}-{}'.format(self.arch_full, v)) for k, v in (('CC', 'gcc'), ('CXX', 'g++'), ('AR', 'ar'), ('STRIP', 'strip'), ('WINDRES', 'windres'), ('RANLIB', 'ranlib'), ('LD', 'ld')) ) return {k:pj(self.builder.install_path, 'bin', v) for k,v in binaries} @property def configure_option(self): return '--host={}'.format(self.arch_full) @property def full_name(self): return "{name}-{version}-{arch}-{api}".format( name = self.name, version = self.version, arch = self.arch, api = self.api) class Source(ReleaseDownload): archive = Remotefile('android-ndk-r13b-linux-x86_64.zip', '3524d7f8fca6dc0d8e7073a7ab7f76888780a22841a6641927123146c3ffd29c', 'https://dl.google.com/android/repository/android-ndk-r13b-linux-x86_64.zip') @property def source_dir(self): return "{}-{}".format( self.target.name, self.target.version) class Builder(Builder): @property def install_path(self): return self.build_path def _build_platform(self, context): context.try_skip(self.build_path) script = pj(self.source_path, 'build/tools/make_standalone_toolchain.py') current_permissions = stat.S_IMODE(os.lstat(script).st_mode) os.chmod(script, current_permissions | stat.S_IXUSR) command = '{script} --arch={arch} --api={api} --install-dir={install_dir} --force' command = command.format( script=script, arch=self.target.arch, api=self.target.api, install_dir=self.install_path ) self.buildEnv.run_command(command, self.build_path, context) def _fix_permission_right(self, context): context.try_skip(self.build_path) bin_dirs = [pj(self.install_path, 'bin'), pj(self.install_path, self.target.arch_full, 'bin'), pj(self.install_path, 'libexec', 'gcc', self.target.arch_full, self.target.gccver) ] for root, dirs, files in os.walk(self.install_path): if not root in bin_dirs: continue for file_ in files: file_path = pj(root, file_) if os.path.islink(file_path): continue current_permissions = stat.S_IMODE(os.lstat(file_path).st_mode) os.chmod(file_path, current_permissions | stat.S_IXUSR) def build(self): self.command('build_platform', self._build_platform) self.command('fix_permission_right', self._fix_permission_right) def get_bin_dir(self): return [pj(self.builder.install_path, 'bin')] def set_env(self, env): env['CC'] = self.binaries['CC'] env['CXX'] = self.binaries['CXX'] env['PKG_CONFIG_LIBDIR'] = pj(self.root_path, 'lib', 'pkgconfig') env['CFLAGS'] = '-fPIC -D_LARGEFILE64_SOURCE=1 -D_FILE_OFFSET_BITS=64 --sysroot={} '.format(self.root_path) + env['CFLAGS'] env['CXXFLAGS'] = '-fPIC -D_LARGEFILE64_SOURCE=1 -D_FILE_OFFSET_BITS=64 --sysroot={} '.format(self.root_path) + env['CXXFLAGS'] env['LDFLAGS'] = ' -fPIE -pie --sysroot={} '.format(self.root_path) + env['LDFLAGS'] #env['CFLAGS'] = ' -fPIC -D_FILE_OFFSET_BITS=64 -O3 '+env['CFLAGS'] #env['CXXFLAGS'] = (' -D__OPTIMIZE__ -fno-strict-aliasing ' # ' -DU_HAVE_NL_LANGINFO_CODESET=0 ' # '-DU_STATIC_IMPLEMENTATION -O3 ' # '-DU_HAVE_STD_STRING -DU_TIMEZONE=0 ')+env['CXXFLAGS'] env['NDK_DEBUG'] = '0' class Builder: def __init__(self, options): self.options = options self.targets = OrderedDict() self.buildEnv = buildEnv = BuildEnv(options, self.targets) _targets = {} targetDef = options.targets self.add_targets(targetDef, _targets) dependencies = self.order_dependencies(_targets, targetDef) dependencies = list(remove_duplicates(dependencies)) for dep in dependencies: if self.options.build_deps_only and dep == targetDef: continue self.targets[dep] = _targets[dep] def add_targets(self, targetName, targets): if targetName in targets: return targetClass = Dependency.all_deps[targetName] target = targetClass(self.buildEnv) targets[targetName] = target for dep in target.dependencies: self.add_targets(dep, targets) def order_dependencies(self, _targets, targetName): target = _targets[targetName] for depName in target.dependencies: yield from self.order_dependencies(_targets, depName) yield targetName def prepare_sources(self): if self.options.skip_source_prepare: print("SKIP") return toolchain_sources = (tlc.source for tlc in self.buildEnv.toolchains if tlc.source) for toolchain_source in toolchain_sources: print("prepare sources for toolchain {} :".format(toolchain_source.name)) toolchain_source.prepare() sources = (dep.source for dep in self.targets.values() if not dep.skip) sources = remove_duplicates(sources, lambda s: s.__class__) for source in sources: print("prepare sources {} :".format(source.name)) source.prepare() def build(self): toolchain_builders = (tlc.builder for tlc in self.buildEnv.toolchains if tlc.builder) for toolchain_builder in toolchain_builders: print("build toolchain {} :".format(toolchain_builder.name)) toolchain_builder.build() builders = (dep.builder for dep in self.targets.values() if (dep.builder and not dep.skip)) for builder in builders: print("build {} :".format(builder.name)) builder.build() def run(self): try: print("[INSTALL PACKAGES]") self.buildEnv.install_packages() self.buildEnv.finalize_setup() print("[PREPARE]") self.prepare_sources() print("[BUILD]") self.build() except StopBuild: sys.exit("Stopping build due to errors") def parse_args(): parser = argparse.ArgumentParser() parser.add_argument('targets', default='kiwix-tools', nargs='?', choices=Dependency.all_deps.keys()) parser.add_argument('--working-dir', default=".") parser.add_argument('--libprefix', default=None) parser.add_argument('--target-platform', default="native_dyn", choices=BuildEnv.target_platforms) parser.add_argument('--verbose', '-v', action="store_true", help=("Print all logs on stdout instead of in specific" " log files per commands")) parser.add_argument('--no-cert-check', action='store_true', help="Skip SSL certificate verification during download") parser.add_argument('--skip-source-prepare', action='store_true', help="Skip the source download part") parser.add_argument('--build-deps-only', action='store_true', help=("Build only the dependencies of the specified targets.")) return parser.parse_args() if __name__ == "__main__": options = parse_args() options.working_dir = os.path.abspath(options.working_dir) builder = Builder(options) builder.run()