# # Helper module to build macOS version of various source ports # Copyright (C) 2020-2023 Alexey Lysiuk # # This program is free software: you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation, either version 3 of the License, or # (at your option) any later version. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program. If not, see . # import argparse import os import shutil import subprocess import typing from pathlib import Path from platform import machine from .state import BuildState from .target import targets from .target.base import Target from .utility import ( OS_VERSION_ARM64, OS_VERSION_X86_64, CaseInsensitiveDict, CommandLineOptions, TargetPlatform, symlink_directory, ) class Builder(object): def __init__(self, args: list): self._targets = CaseInsensitiveDict({target.name: target for target in targets()}) arguments = self._parse_arguments(args) state = self._state = BuildState() state.xcode = arguments.xcode state.verbose = arguments.verbose self._platforms: typing.List[TargetPlatform] = [] self._populate_platforms(arguments) state.platform = self._platforms[0] if arguments.temp_path: state.temp_path = Path(arguments.temp_path).absolute() state.environment['TMPDIR'] = str(state.temp_path) + os.sep os.makedirs(state.temp_path, exist_ok=True) if arguments.source_path: state.source_path = Path(arguments.source_path).absolute() if arguments.target: self._target = self._targets[arguments.target] state.source = state.source_path / self._target.name state.external_source = False os.makedirs(state.source_path, exist_ok=True) else: assert arguments.source state.source = Path(arguments.source).absolute() state.external_source = True self._detect_target() for target in self._targets.values(): if target != self._target: target.initialize(state) del self._targets if arguments.build_path: state.build_path = Path(arguments.build_path).absolute() else: state.build_path = state.root_path / 'build' / self._target.name / ('xcode' if state.xcode else 'make') if arguments.output_path: state.output_path = Path(arguments.output_path).absolute() else: state.output_path = state.root_path / 'output' self._environment = state.environment state.static_moltenvk = arguments.static_moltenvk state.quasi_glib = arguments.quasi_glib state.jobs = arguments.jobs and arguments.jobs or self._get_default_job_count() def _get_default_job_count(self): args = ('sysctl', '-n', 'hw.ncpu') result = subprocess.run(args, check=True, env=self._environment, stdout=subprocess.PIPE) return result.stdout.decode('ascii').strip() def _populate_platforms(self, arguments): state = self._state def adjust_sdk_path(path: str) -> Path: if path: return Path(path).absolute() sdk_probe_path = state.root_path / 'sdk' / f'MacOSX{os_version}.sdk' return sdk_probe_path if sdk_probe_path.exists() else None if not arguments.disable_x64: os_version = arguments.os_version_x64 if arguments.os_version_x64 else OS_VERSION_X86_64 assert os_version >= OS_VERSION_X86_64, f'macOS {os_version} is not supported' sdk_path = adjust_sdk_path(arguments.sdk_path_x64) platform = TargetPlatform('x86_64', 'x86_64-apple-darwin', os_version, sdk_path, state.prefix_path) self._platforms.append(platform) if not arguments.disable_arm: os_version = arguments.os_version_arm if arguments.os_version_arm else OS_VERSION_ARM64 assert os_version >= OS_VERSION_ARM64, f'macOS {os_version} is not supported' sdk_path = adjust_sdk_path(arguments.sdk_path_arm) platform = TargetPlatform('arm64', 'aarch64-apple-darwin', os_version, sdk_path, state.prefix_path) self._platforms.append(platform) assert len(self._platforms) > 0 # Put native platform first in the list of platforms if self._platforms[0].architecture == machine(): return for platform in self._platforms: if platform.architecture == machine(): native_platform = platform self._platforms.remove(platform) self._platforms.insert(0, native_platform) break def run(self): state = self._state target = self._target target.prepare_source(state) if target.destination == Target.DESTINATION_DEPS: state.install_path = state.deps_path / target.name elif target.destination == Target.DESTINATION_OUTPUT: state.install_path = state.output_path / target.name assert state.install_path if not state.xcode and state.install_path.exists(): shutil.rmtree(state.install_path) self._create_prefix_directory() if version := state.source_version(): print(f'Building {version}') if target.multi_platform and not state.xcode: self._build_multiple_platforms(target) else: self._build(target) def _build(self, target: Target): state = self._state state.environment = self._environment.copy() state.options = CommandLineOptions() target.configure(state) target.build(state) target.post_build(state) def _build_multiple_platforms(self, target: Target): assert target.multi_platform state = self._state base_build_path = state.build_path base_install_path = state.install_path install_paths = [] for platform in self._platforms: if platform.architecture in target.unsupported_architectures: continue state.platform = platform state.build_path = base_build_path / ('build_' + platform.architecture) if platform.architecture == machine(): state.native_build_path = state.build_path state.install_path = base_build_path / ('install_' + platform.architecture) self._build(target) install_paths.append(state.install_path) self._merge_install_paths(install_paths, base_install_path) @staticmethod def _compare_files(paths: typing.Sequence[Path]) -> bool: content = None for path in paths: if not path.exists(): return False with path.open('rb') as f: if content: if content != f.read(): return False else: content = f.read() return True def _merge_file(self, src: Path, src_sub_paths: typing.Sequence[Path], dst_path: Path): if src.is_symlink(): shutil.copy(src_sub_paths[0], dst_path, follow_symlinks=False) return with open(src, 'rb') as f: header = f.read(8) is_executable = header[:4] == b'\xcf\xfa\xed\xfe' is_library = header == b'!\n' if is_executable or is_library: # Merge executable and library files dst_file = dst_path / src.name args: typing.List[typing.Union[str, Path]] = ['lipo'] args += src_sub_paths args += ['-create', '-output', dst_file] subprocess.run(args, check=True, env=self._environment) # Apply ad-hoc code signing on executable files outside of application bundles if is_executable and '.app/Contents/' not in str(src): args = ['codesign', '--sign', '-', dst_file] subprocess.run(args, check=True, env=self._environment) else: if not Builder._compare_files(src_sub_paths): print(f'WARNING: Source files for {dst_path / src.name} don\'t match') shutil.copy(src_sub_paths[0], dst_path) def _merge_missing_files(self, src_paths: typing.Sequence[Path], dst_path: Path): shifted_src_paths = [path for path in src_paths] last_path_index = len(src_paths) - 1 for _ in range(last_path_index): shifted_src_paths.append(shifted_src_paths[0]) del shifted_src_paths[0] if not shifted_src_paths[0].exists(): continue self._merge_install_paths(shifted_src_paths, dst_path, missing_files_only=True) def _merge_install_paths(self, src_paths: typing.Sequence[Path], dst_path: Path, missing_files_only=False): if len(src_paths) == 0: return if not missing_files_only: if dst_path.exists(): shutil.rmtree(dst_path) os.makedirs(dst_path, exist_ok=True) for src in src_paths[0].iterdir(): src_sub_paths = [path / src.name for path in src_paths] if src.is_dir(): self._merge_install_paths(src_sub_paths, dst_path / src.name, missing_files_only) elif src.name.endswith('.la'): # Skip libtool files continue elif missing_files_only: for src_sub_path in src_sub_paths[1:]: if not src_sub_path.exists(): shutil.copy(src_sub_paths[0], dst_path) else: self._merge_file(src, src_sub_paths, dst_path) if not missing_files_only: self._merge_missing_files(src_paths, dst_path) def _create_prefix_directory(self): state = self._state os.makedirs(state.prefix_path, exist_ok=True) cleanup = True for dep in state.deps_path.iterdir(): if dep.is_dir(): symlink_directory(dep, state.prefix_path, cleanup) # Do symlink cleanup only once cleanup = False Builder._remove_empty_directories(state.prefix_path) @staticmethod def _remove_empty_directories(path: Path) -> int: content: typing.List[str] = os.listdir(path) count = len(content) removed = 0 for entry in content: abspath = path / entry if os.path.isdir(abspath): removed += Builder._remove_empty_directories(abspath) if count == removed: os.rmdir(path) removed = 1 return removed def _detect_target(self): for name, target in self._targets.items(): if target.detect(self._state): self._target = self._targets[name] break assert self._target def _parse_arguments(self, args: list): assert self._targets parser = argparse.ArgumentParser(description='*ZDoom binary dependencies for macOS') excl_group = parser.add_mutually_exclusive_group(required=True) excl_group.add_argument('--target', choices=self._targets.keys(), help='target to build') excl_group.add_argument('--source', metavar='path', help='path to target\'s source code') group = parser.add_argument_group('Configuration options') group.add_argument('--xcode', action='store_true', help='generate Xcode project instead of build') group.add_argument('--os-version-x64', metavar='version', help='macOS deployment version for x86_64') group.add_argument('--os-version-arm', metavar='version', help='macOS deployment version for ARM64') group.add_argument('--verbose', action='store_true', help='enable verbose build output') group.add_argument('--jobs', help='number of parallel compilation jobs') excl_group = parser.add_mutually_exclusive_group() excl_group.add_argument('--disable-x64', action='store_true', help='disable x86_64 support') excl_group.add_argument('--disable-arm', action='store_true', help='disable ARM64 support') group = parser.add_argument_group('Paths') group.add_argument('--source-path', metavar='path', help='path to store downloaded and checked out source code') group.add_argument('--build-path', metavar='path', help='target build path') group.add_argument('--output-path', metavar='path', help='output path for main targets') group.add_argument('--temp-path', metavar='path', help='path to temporary files directory') group.add_argument('--sdk-path-x64', metavar='path', help='path to macOS SDK for x86_64') group.add_argument('--sdk-path-arm', metavar='path', help='path to macOS SDK for ARM64') group = parser.add_argument_group('Hacks') group.add_argument('--static-moltenvk', action='store_true', help='link with static MoltenVK library') group.add_argument('--quasi-glib', action='store_true', help='link with QuasiGlib library') return parser.parse_args(args)