#
# Helper module to build macOS version of various source ports
# Copyright (C) 2020-2022 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 copy
import os
import re
import shutil
import subprocess
import typing
from pathlib import Path
from platform import machine
from ..state import BuildState
from ..utility import (
OS_VERSION_ARM64,
OS_VERSION_X86_64,
CommandLineOptions,
symlink_directory,
)
class Target:
DESTINATION_DEPS = 0
DESTINATION_OUTPUT = 1
def __init__(self, name=None):
self.name = name
self.destination = self.DESTINATION_DEPS
self.multi_platform = False
self.unsupported_architectures = ()
def prepare_source(self, state: BuildState):
pass
def detect(self, state: BuildState) -> bool:
return False
def configure(self, state: BuildState):
pass
def build(self, state: BuildState):
pass
def post_build(self, state: BuildState):
pass
class BuildTarget(Target):
def __init__(self, name=None):
super().__init__(name)
self.src_root = ''
self.multi_platform = True
self.os_version = dict()
self.os_version['x86_64'] = OS_VERSION_X86_64
self.os_version['arm64'] = OS_VERSION_ARM64
self.sdk_version = dict()
self.sdk_version['x86_64'] = OS_VERSION_X86_64
self.sdk_version['arm64'] = OS_VERSION_ARM64
def configure(self, state: BuildState):
os_version = state.os_version()
if os_version and os_version < self.os_version[state.architecture()]:
raise RuntimeError('Minimum OS version requirement is not met')
if sdk_version := state.sdk_version():
if sdk_version < self.sdk_version[state.architecture()]:
raise RuntimeError('Minimum SDK version requirement is not met')
os.makedirs(state.build_path, exist_ok=True)
env = state.environment
env['PATH'] = os.pathsep.join([
str(state.bin_path),
env['PATH'],
])
if state.xcode:
return
if c_compiler := state.c_compiler():
env['CC'] = str(c_compiler)
if cxx_compiler := state.cxx_compiler():
env['CXX'] = str(cxx_compiler)
for prefix in ('CPP', 'C', 'CXX', 'OBJC', 'OBJCXX'):
var_name = f'{prefix}FLAGS'
state.update_environment(var_name, f'-I{state.include_path}')
state.set_sdk(var_name)
state.set_os_version(var_name)
ldflags = 'LDFLAGS'
state.update_environment(ldflags, f'-L{state.lib_path}')
state.set_sdk(ldflags)
state.set_os_version(ldflags)
def install(self, state: BuildState, options: CommandLineOptions = None, tool: str = 'gmake'):
if state.xcode:
return
if state.install_path.exists():
shutil.rmtree(state.install_path)
args = [tool, 'install']
args += options and options.to_list() or []
subprocess.check_call(args, cwd=state.build_path, env=state.environment)
self.update_pc_files(state)
@staticmethod
def update_text_file(path: Path, processor: typing.Callable = None):
with open(path, 'r') as f:
content = f.readlines()
patched_content = []
for line in content:
patched_line = processor(line) if processor else line
if patched_line:
patched_content.append(patched_line)
with open(path, 'w') as f:
f.writelines(patched_content)
@staticmethod
def _update_variables_file(path: Path, prefix_value: str, processor: typing.Callable = None, quotes: bool = True):
prefix = 'prefix='
exec_prefix = 'exec_prefix='
includedir = 'includedir='
libdir = 'libdir='
def quote(value: str) -> str:
return f'"{value}"' if quotes else value
def patch_proc(line: str) -> str:
patched_line = line
if line.startswith(prefix):
patched_line = prefix + quote(prefix_value) + os.linesep
elif line.startswith(exec_prefix):
patched_line = exec_prefix + quote('${prefix}') + os.linesep
elif line.startswith(includedir):
patched_line = includedir + quote('${prefix}/include') + os.linesep
elif line.startswith(libdir):
patched_line = libdir + quote('${exec_prefix}/lib') + os.linesep
if processor:
patched_line = processor(path, patched_line)
return patched_line
BuildTarget.update_text_file(path, patch_proc)
@staticmethod
def update_config_script(path: Path, processor: typing.Callable = None):
BuildTarget._update_variables_file(path, r'$(cd "${0%/*}/.."; pwd)', processor)
@staticmethod
def update_pc_file(path: Path, processor: typing.Callable = None):
BuildTarget._update_variables_file(path, '', processor, quotes=False)
def update_pc_files(self, state: BuildState):
for root, _, files in os.walk(state.install_path, followlinks=True):
for filename in files:
if filename.endswith('.pc'):
file_path = Path(root) / filename
BuildTarget.update_pc_file(file_path, self._process_pkg_config)
@staticmethod
def _process_pkg_config(pcfile: Path, line: str) -> str:
assert pcfile
return line
def write_pc_file(self, state: BuildState,
filename=None, name=None, description=None, version='',
requires='', requires_private='', libs='', libs_private='', cflags=''):
pkgconfig_path = state.install_path / 'lib/pkgconfig'
os.makedirs(pkgconfig_path, exist_ok=True)
if not filename:
filename = self.name + '.pc'
if not name:
name = self.name
if not description:
description = self.name
if not libs:
libs = '-l' + self.name
pc_content = f'''prefix=
exec_prefix=${{prefix}}
libdir=${{exec_prefix}}/lib
includedir=${{prefix}}/include
Name: {name}
Description: {description}
Version: {version}
Requires: {requires}
Requires.private: {requires_private}
Libs: -L${{libdir}} {libs}
Libs.private: {libs_private}
Cflags: -I${{includedir}} {cflags}
'''
with open(pkgconfig_path / filename, 'w') as f:
f.write(pc_content)
@staticmethod
def make_platform_header(state: BuildState, header: str):
include_path = state.install_path / 'include'
header_parts = header.rsplit(os.sep, 1)
if len(header_parts) == 1:
header_parts.insert(0, '')
common_header = include_path / header
platform_header = include_path / header_parts[0] / f'_aedi_{state.architecture()}_{header_parts[1]}'
shutil.move(common_header, platform_header)
with open(common_header, 'w') as f:
f.write(f'''
#pragma once
#if defined(__x86_64__)
# include "_aedi_x86_64_{header_parts[1]}"
#elif defined(__aarch64__)
# include "_aedi_arm64_{header_parts[1]}"
#else
# error Unknown architecture
#endif
''')
def copy_to_bin(self, state: BuildState, filename: str = None, new_filename: str = None):
bin_path = state.install_path / 'bin'
os.makedirs(bin_path, exist_ok=True)
if not filename:
filename = self.name
if not new_filename:
new_filename = filename
src_path = state.build_path / filename
dst_path = bin_path / new_filename
shutil.copy(src_path, dst_path)
class MakeTarget(BuildTarget):
def __init__(self, name=None):
super().__init__(name)
self.tool = 'gmake'
def configure(self, state: BuildState):
super().configure(state)
symlink_directory(state.source, state.build_path)
def build(self, state: BuildState):
assert not state.xcode
args = [
self.tool,
'-j', state.jobs,
]
if c_compiler := state.c_compiler():
args.append(f'CC={c_compiler}')
if cxx_compiler := state.cxx_compiler():
args.append(f'CXX={cxx_compiler}')
args += state.options.to_list()
work_path = state.build_path / self.src_root
subprocess.check_call(args, cwd=work_path, env=state.environment)
class ConfigureMakeTarget(MakeTarget):
def __init__(self, name=None):
super().__init__(name)
def configure(self, state: BuildState):
super().configure(state)
work_path = state.build_path / self.src_root
configure_path = work_path / 'configure'
common_args = [
configure_path,
f'--prefix={state.install_path}',
]
common_args += state.options.to_list()
disable_dependency_tracking = '--disable-dependency-tracking'
host = '--host=' + state.host()
args = copy.copy(common_args)
args.append(host)
args.append(disable_dependency_tracking)
try:
# Try with host and disabled dependency tracking first
subprocess.check_call(args, cwd=work_path, env=state.environment)
except subprocess.CalledProcessError:
# If it fails, try with disabled dependency tracking only
args = copy.copy(common_args)
args.append(disable_dependency_tracking)
try:
subprocess.check_call(args, cwd=work_path, env=state.environment)
except subprocess.CalledProcessError:
# Use only common command line arguments
subprocess.check_call(common_args, cwd=work_path, env=state.environment)
def build(self, state: BuildState):
# Clear configure script options
state.options = CommandLineOptions()
super().build(state)
class CMakeTarget(BuildTarget):
cached_project_name = None
def __init__(self, name=None):
super().__init__(name)
def detect(self, state: BuildState) -> bool:
if CMakeTarget.cached_project_name:
project_name = CMakeTarget.cached_project_name
else:
cmakelists_path = state.source / self.src_root / 'CMakeLists.txt'
if not cmakelists_path.exists():
return False
for line in open(cmakelists_path).readlines():
project_name = CMakeTarget._extract_project_name(line)
if project_name:
project_name = project_name.lower()
project_name = project_name.replace(' ', '-')
break
else:
return False
if project_name.startswith('lib'):
project_name = project_name[3:]
CMakeTarget.cached_project_name = project_name
return project_name == self.name
@staticmethod
def _extract_project_name(line: str):
project_name = None
# Try to get project name without whitespaces in it
match = re.search(r'^\s*project\s*\(\s*(\w[\w-]+)', line, re.IGNORECASE)
if not match:
# Try to get project name that contains whitespaces
match = re.search(r'^\s*project\s*\(\s*"?(\w[\s\w-]+)"?', line, re.IGNORECASE)
if match:
project_name = match.group(1)
return project_name
def configure(self, state: BuildState):
super().configure(state)
args = [
'cmake',
'-DCMAKE_BUILD_TYPE=Release',
f'-DCMAKE_C_FLAGS="-ffile-prefix-map={state.source}/="',
f'-DCMAKE_CXX_FLAGS="-ffile-prefix-map={state.source}/="',
f'-DCMAKE_INSTALL_PREFIX={state.install_path}',
f'-DCMAKE_PREFIX_PATH={state.prefix_path}',
]
if state.xcode:
args.append('-GXcode')
else:
args.append('-GUnix Makefiles')
if c_compiler := state.c_compiler():
args.append(f'-DCMAKE_C_COMPILER={c_compiler}')
if cxx_compiler := state.cxx_compiler():
args.append(f'-DCMAKE_CXX_COMPILER={cxx_compiler}')
architecture = state.architecture()
if architecture != machine():
args.append('-DCMAKE_SYSTEM_NAME=Darwin')
args.append('-DCMAKE_SYSTEM_PROCESSOR=' + 'aarch64' if architecture == 'arm64' else architecture)
os_version = state.os_version()
if os_version:
args.append('-DCMAKE_OSX_DEPLOYMENT_TARGET=' + str(os_version))
sdk_path = state.sdk_path()
if sdk_path:
args.append(f'-DCMAKE_OSX_SYSROOT={sdk_path}')
args += state.options.to_list(CommandLineOptions.CMAKE_RULES)
args.append(state.source / self.src_root)
subprocess.check_call(args, cwd=state.build_path, env=state.environment)
def build(self, state: BuildState):
if state.xcode:
args = ['cmake', '--open', '.']
else:
args = ['gmake', '-j', state.jobs]
if state.verbose:
args.append('VERBOSE=1')
subprocess.check_call(args, cwd=state.build_path, env=state.environment)
class ConfigureMakeDependencyTarget(ConfigureMakeTarget):
def __init__(self, name=None):
super().__init__(name)
def post_build(self, state: BuildState):
self.install(state)
class ConfigureMakeStaticDependencyTarget(ConfigureMakeDependencyTarget):
def __init__(self, name=None):
super().__init__(name)
def configure(self, state: BuildState):
state.options['--enable-shared'] = 'no'
super().configure(state)
class CMakeStaticDependencyTarget(CMakeTarget):
def __init__(self, name=None):
super().__init__(name)
def configure(self, state: BuildState):
state.options['BUILD_SHARED_LIBS'] = 'NO'
super().configure(state)
def post_build(self, state: BuildState):
self.install(state)
def keep_module_target(self, state: BuildState, target: str):
import_patterns = (
r'list\s*\(APPEND\s+_IMPORT_CHECK_TARGETS\s+(?P\w+::[\w-]+)[\s)]',
r'list\s*\(APPEND\s+_IMPORT_CHECK_FILES_FOR_(?P\w+::[\w-]+)\s',
)
import_regexes = [re.compile(regex, re.IGNORECASE) for regex in import_patterns]
def _keep_target(line: str):
for regex in import_regexes:
match = regex.match(line)
if match and match.group('target') != target:
return None
return line
module = 'targets-release.cmake'
for probe_module in (module, self.name + module):
module_path = state.install_path / 'lib' / 'cmake' / self.name / probe_module
if module_path.exists():
self.update_text_file(module_path, _keep_target)