# SPDX-License-Identifier: Apache-2.0 # Copyright 2018 The Meson development team from __future__ import annotations import copy, json, os, shutil, re import typing as T from . import ExtensionModule, ModuleInfo from .. import mesonlib from .. import mlog from ..options import UserFeatureOption from ..build import known_shmod_kwargs, CustomTarget, CustomTargetIndex, BuildTarget, GeneratedList, StructuredSources, ExtractedObjects, SharedModule from ..dependencies import NotFoundDependency from ..dependencies.detect import get_dep_identifier, find_external_dependency from ..dependencies.python import BasicPythonExternalProgram, python_factory, _PythonDependencyBase from ..interpreter import extract_required_kwarg, permitted_dependency_kwargs, primitives as P_OBJ from ..interpreter.interpreterobjects import _ExternalProgramHolder from ..interpreter.type_checking import NoneType, PRESERVE_PATH_KW, SHARED_MOD_KWS from ..interpreterbase import ( noPosargs, noKwargs, permittedKwargs, ContainerTypeInfo, InvalidArguments, typed_pos_args, typed_kwargs, KwargInfo, FeatureNew, FeatureNewKwargs, disablerIfNotFound ) from ..mesonlib import MachineChoice, OptionKey from ..programs import ExternalProgram, NonExistingExternalProgram if T.TYPE_CHECKING: from typing_extensions import TypedDict, NotRequired from . import ModuleState from ..build import Build, Data from ..dependencies import Dependency from ..interpreter import Interpreter from ..interpreter.interpreter import BuildTargetSource from ..interpreter.kwargs import ExtractRequired, SharedModule as SharedModuleKw from ..interpreterbase.baseobjects import TYPE_var, TYPE_kwargs class PyInstallKw(TypedDict): pure: T.Optional[bool] subdir: str install_tag: T.Optional[str] class FindInstallationKw(ExtractRequired): disabler: bool modules: T.List[str] pure: T.Optional[bool] class ExtensionModuleKw(SharedModuleKw): subdir: NotRequired[T.Optional[str]] MaybePythonProg = T.Union[NonExistingExternalProgram, 'PythonExternalProgram'] mod_kwargs = {'subdir', 'limited_api'} mod_kwargs.update(known_shmod_kwargs) mod_kwargs -= {'name_prefix', 'name_suffix'} _MOD_KWARGS = [k for k in SHARED_MOD_KWS if k.name not in {'name_prefix', 'name_suffix'}] class PythonExternalProgram(BasicPythonExternalProgram): # This is a ClassVar instead of an instance bool, because although an # installation is cached, we actually copy it, modify attributes such as pure, # and return a temporary one rather than the cached object. run_bytecompile: T.ClassVar[T.Dict[str, bool]] = {} def sanity(self, state: T.Optional['ModuleState'] = None) -> bool: ret = super().sanity() if ret: self.platlib = self._get_path(state, 'platlib') self.purelib = self._get_path(state, 'purelib') self.run_bytecompile.setdefault(self.info['version'], False) return ret def _get_path(self, state: T.Optional['ModuleState'], key: str) -> str: rel_path = self.info['install_paths'][key][1:] if not state: # This happens only from run_project_tests.py return rel_path value = T.cast('str', state.get_option(f'{key}dir', module='python')) if value: if state.is_user_defined_option('install_env', module='python'): raise mesonlib.MesonException(f'python.{key}dir and python.install_env are mutually exclusive') return value install_env = state.get_option('install_env', module='python') if install_env == 'auto': install_env = 'venv' if self.info['is_venv'] else 'system' if install_env == 'system': rel_path = os.path.join(self.info['variables']['prefix'], rel_path) elif install_env == 'venv': if not self.info['is_venv']: raise mesonlib.MesonException('python.install_env cannot be set to "venv" unless you are in a venv!') # inside a venv, deb_system is *never* active hence info['paths'] may be wrong rel_path = self.info['sysconfig_paths'][key] return rel_path _PURE_KW = KwargInfo('pure', (bool, NoneType)) _SUBDIR_KW = KwargInfo('subdir', str, default='') _LIMITED_API_KW = KwargInfo('limited_api', str, default='', since='1.3.0') _DEFAULTABLE_SUBDIR_KW = KwargInfo('subdir', (str, NoneType)) class PythonInstallation(_ExternalProgramHolder['PythonExternalProgram']): def __init__(self, python: 'PythonExternalProgram', interpreter: 'Interpreter'): _ExternalProgramHolder.__init__(self, python, interpreter) info = python.info prefix = self.interpreter.environment.coredata.get_option(mesonlib.OptionKey('prefix')) assert isinstance(prefix, str), 'for mypy' self.variables = info['variables'] self.suffix = info['suffix'] self.limited_api_suffix = info['limited_api_suffix'] self.paths = info['paths'] self.pure = python.pure self.platlib_install_path = os.path.join(prefix, python.platlib) self.purelib_install_path = os.path.join(prefix, python.purelib) self.version = info['version'] self.platform = info['platform'] self.is_pypy = info['is_pypy'] self.link_libpython = info['link_libpython'] self.methods.update({ 'extension_module': self.extension_module_method, 'dependency': self.dependency_method, 'install_sources': self.install_sources_method, 'get_install_dir': self.get_install_dir_method, 'language_version': self.language_version_method, 'found': self.found_method, 'has_path': self.has_path_method, 'get_path': self.get_path_method, 'has_variable': self.has_variable_method, 'get_variable': self.get_variable_method, 'path': self.path_method, }) @permittedKwargs(mod_kwargs) @typed_pos_args('python.extension_module', str, varargs=(str, mesonlib.File, CustomTarget, CustomTargetIndex, GeneratedList, StructuredSources, ExtractedObjects, BuildTarget)) @typed_kwargs('python.extension_module', *_MOD_KWARGS, _DEFAULTABLE_SUBDIR_KW, _LIMITED_API_KW, allow_unknown=True) def extension_module_method(self, args: T.Tuple[str, T.List[BuildTargetSource]], kwargs: ExtensionModuleKw) -> 'SharedModule': if 'install_dir' in kwargs: if kwargs['subdir'] is not None: raise InvalidArguments('"subdir" and "install_dir" are mutually exclusive') else: # We want to remove 'subdir', but it may be None and we want to replace it with '' # It must be done this way since we don't allow both `install_dir` # and `subdir` to be set at the same time subdir = kwargs.pop('subdir') or '' kwargs['install_dir'] = self._get_install_dir_impl(False, subdir) target_suffix = self.suffix new_deps = mesonlib.extract_as_list(kwargs, 'dependencies') pydep = next((dep for dep in new_deps if isinstance(dep, _PythonDependencyBase)), None) if pydep is None: pydep = self._dependency_method_impl({}) if not pydep.found(): raise mesonlib.MesonException('Python dependency not found') new_deps.append(pydep) FeatureNew.single_use('python_installation.extension_module with implicit dependency on python', '0.63.0', self.subproject, 'use python_installation.dependency()', self.current_node) limited_api_version = kwargs.pop('limited_api') allow_limited_api = self.interpreter.environment.coredata.get_option(OptionKey('allow_limited_api', module='python')) if limited_api_version != '' and allow_limited_api: target_suffix = self.limited_api_suffix limited_api_version_hex = self._convert_api_version_to_py_version_hex(limited_api_version, pydep.version) limited_api_definition = f'-DPy_LIMITED_API={limited_api_version_hex}' new_c_args = mesonlib.extract_as_list(kwargs, 'c_args') new_c_args.append(limited_api_definition) kwargs['c_args'] = new_c_args new_cpp_args = mesonlib.extract_as_list(kwargs, 'cpp_args') new_cpp_args.append(limited_api_definition) kwargs['cpp_args'] = new_cpp_args # When compiled under MSVC, Python's PC/pyconfig.h forcibly inserts pythonMAJOR.MINOR.lib # into the linker path when not running in debug mode via a series #pragma comment(lib, "") # directives. We manually override these here as this interferes with the intended # use of the 'limited_api' kwarg for_machine = kwargs['native'] compilers = self.interpreter.environment.coredata.compilers[for_machine] if any(compiler.get_id() == 'msvc' for compiler in compilers.values()): pydep_copy = copy.copy(pydep) pydep_copy.find_libpy_windows(self.env, limited_api=True) if not pydep_copy.found(): raise mesonlib.MesonException('Python dependency supporting limited API not found') new_deps.remove(pydep) new_deps.append(pydep_copy) pyver = pydep.version.replace('.', '') python_windows_debug_link_exception = f'/NODEFAULTLIB:python{pyver}_d.lib' python_windows_release_link_exception = f'/NODEFAULTLIB:python{pyver}.lib' new_link_args = mesonlib.extract_as_list(kwargs, 'link_args') is_debug = self.interpreter.environment.coredata.options[OptionKey('debug')].value if is_debug: new_link_args.append(python_windows_debug_link_exception) else: new_link_args.append(python_windows_release_link_exception) kwargs['link_args'] = new_link_args kwargs['dependencies'] = new_deps # msys2's python3 has "-cpython-36m.dll", we have to be clever # FIXME: explain what the specific cleverness is here split, target_suffix = target_suffix.rsplit('.', 1) args = (args[0] + split, args[1]) kwargs['name_prefix'] = '' kwargs['name_suffix'] = target_suffix if kwargs['gnu_symbol_visibility'] == '' and \ (self.is_pypy or mesonlib.version_compare(self.version, '>=3.9')): kwargs['gnu_symbol_visibility'] = 'inlineshidden' return self.interpreter.build_target(self.current_node, args, kwargs, SharedModule) def _convert_api_version_to_py_version_hex(self, api_version: str, detected_version: str) -> str: python_api_version_format = re.compile(r'[0-9]\.[0-9]{1,2}') decimal_match = python_api_version_format.fullmatch(api_version) if not decimal_match: raise InvalidArguments(f'Python API version invalid: "{api_version}".') if mesonlib.version_compare(api_version, '<3.2'): raise InvalidArguments(f'Python Limited API version invalid: {api_version} (must be greater than 3.2)') if mesonlib.version_compare(api_version, '>' + detected_version): raise InvalidArguments(f'Python Limited API version too high: {api_version} (detected {detected_version})') version_components = api_version.split('.') major = int(version_components[0]) minor = int(version_components[1]) return '0x{:02x}{:02x}0000'.format(major, minor) def _dependency_method_impl(self, kwargs: TYPE_kwargs) -> Dependency: for_machine = self.interpreter.machine_from_native_kwarg(kwargs) identifier = get_dep_identifier(self._full_path(), kwargs) dep = self.interpreter.coredata.deps[for_machine].get(identifier) if dep is not None: return dep new_kwargs = kwargs.copy() new_kwargs['required'] = False candidates = python_factory(self.interpreter.environment, for_machine, new_kwargs, self.held_object) dep = find_external_dependency('python', self.interpreter.environment, new_kwargs, candidates) self.interpreter.coredata.deps[for_machine].put(identifier, dep) return dep @disablerIfNotFound @permittedKwargs(permitted_dependency_kwargs | {'embed'}) @FeatureNewKwargs('python_installation.dependency', '0.53.0', ['embed']) @noPosargs def dependency_method(self, args: T.List['TYPE_var'], kwargs: 'TYPE_kwargs') -> 'Dependency': disabled, required, feature = extract_required_kwarg(kwargs, self.subproject) if disabled: mlog.log('Dependency', mlog.bold('python'), 'skipped: feature', mlog.bold(feature), 'disabled') return NotFoundDependency('python', self.interpreter.environment) else: dep = self._dependency_method_impl(kwargs) if required and not dep.found(): raise mesonlib.MesonException('Python dependency not found') return dep @typed_pos_args('install_data', varargs=(str, mesonlib.File)) @typed_kwargs( 'python_installation.install_sources', _PURE_KW, _SUBDIR_KW, PRESERVE_PATH_KW, KwargInfo('install_tag', (str, NoneType), since='0.60.0') ) def install_sources_method(self, args: T.Tuple[T.List[T.Union[str, mesonlib.File]]], kwargs: 'PyInstallKw') -> 'Data': self.held_object.run_bytecompile[self.version] = True tag = kwargs['install_tag'] or 'python-runtime' pure = kwargs['pure'] if kwargs['pure'] is not None else self.pure install_dir = self._get_install_dir_impl(pure, kwargs['subdir']) return self.interpreter.install_data_impl( self.interpreter.source_strings_to_files(args[0]), install_dir, mesonlib.FileMode(), rename=None, tag=tag, install_data_type='python', preserve_path=kwargs['preserve_path']) @noPosargs @typed_kwargs('python_installation.install_dir', _PURE_KW, _SUBDIR_KW) def get_install_dir_method(self, args: T.List['TYPE_var'], kwargs: 'PyInstallKw') -> str: self.held_object.run_bytecompile[self.version] = True pure = kwargs['pure'] if kwargs['pure'] is not None else self.pure return self._get_install_dir_impl(pure, kwargs['subdir']) def _get_install_dir_impl(self, pure: bool, subdir: str) -> P_OBJ.OptionString: if pure: base = self.purelib_install_path name = '{py_purelib}' else: base = self.platlib_install_path name = '{py_platlib}' return P_OBJ.OptionString(os.path.join(base, subdir), os.path.join(name, subdir)) @noPosargs @noKwargs def language_version_method(self, args: T.List['TYPE_var'], kwargs: 'TYPE_kwargs') -> str: return self.version @typed_pos_args('python_installation.has_path', str) @noKwargs def has_path_method(self, args: T.Tuple[str], kwargs: 'TYPE_kwargs') -> bool: return args[0] in self.paths @typed_pos_args('python_installation.get_path', str, optargs=[object]) @noKwargs def get_path_method(self, args: T.Tuple[str, T.Optional['TYPE_var']], kwargs: 'TYPE_kwargs') -> 'TYPE_var': path_name, fallback = args try: return self.paths[path_name] except KeyError: if fallback is not None: return fallback raise InvalidArguments(f'{path_name} is not a valid path name') @typed_pos_args('python_installation.has_variable', str) @noKwargs def has_variable_method(self, args: T.Tuple[str], kwargs: 'TYPE_kwargs') -> bool: return args[0] in self.variables @typed_pos_args('python_installation.get_variable', str, optargs=[object]) @noKwargs def get_variable_method(self, args: T.Tuple[str, T.Optional['TYPE_var']], kwargs: 'TYPE_kwargs') -> 'TYPE_var': var_name, fallback = args try: return self.variables[var_name] except KeyError: if fallback is not None: return fallback raise InvalidArguments(f'{var_name} is not a valid variable name') @noPosargs @noKwargs @FeatureNew('Python module path method', '0.50.0') def path_method(self, args: T.List['TYPE_var'], kwargs: 'TYPE_kwargs') -> str: return super().path_method(args, kwargs) class PythonModule(ExtensionModule): INFO = ModuleInfo('python', '0.46.0') def __init__(self, interpreter: 'Interpreter') -> None: super().__init__(interpreter) self.installations: T.Dict[str, MaybePythonProg] = {} self.methods.update({ 'find_installation': self.find_installation, }) def _get_install_scripts(self) -> T.List[mesonlib.ExecutableSerialisation]: backend = self.interpreter.backend ret = [] optlevel = self.interpreter.environment.coredata.get_option(mesonlib.OptionKey('bytecompile', module='python')) if optlevel == -1: return ret if not any(PythonExternalProgram.run_bytecompile.values()): return ret installdata = backend.create_install_data() py_files = [] def should_append(f, isdir: bool = False): # This uses the install_plan decorated names to see if the original source was propagated via # install_sources() or get_install_dir(). return f.startswith(('{py_platlib}', '{py_purelib}')) and (f.endswith('.py') or isdir) for t in installdata.targets: if should_append(t.out_name): py_files.append((t.out_name, os.path.join(installdata.prefix, t.outdir, os.path.basename(t.fname)))) for d in installdata.data: if should_append(d.install_path_name): py_files.append((d.install_path_name, os.path.join(installdata.prefix, d.install_path))) for d in installdata.install_subdirs: if should_append(d.install_path_name, True): py_files.append((d.install_path_name, os.path.join(installdata.prefix, d.install_path))) import importlib.resources pycompile = os.path.join(self.interpreter.environment.get_scratch_dir(), 'pycompile.py') with open(pycompile, 'wb') as f: f.write(importlib.resources.read_binary('mesonbuild.scripts', 'pycompile.py')) for i in self.installations.values(): if isinstance(i, PythonExternalProgram) and i.run_bytecompile[i.info['version']]: i = T.cast('PythonExternalProgram', i) manifest = f'python-{i.info["version"]}-installed.json' manifest_json = [] for name, f in py_files: if f.startswith((os.path.join(installdata.prefix, i.platlib), os.path.join(installdata.prefix, i.purelib))): manifest_json.append(name) with open(os.path.join(self.interpreter.environment.get_scratch_dir(), manifest), 'w', encoding='utf-8') as f: json.dump(manifest_json, f) cmd = i.command + [pycompile, manifest, str(optlevel)] script = backend.get_executable_serialisation(cmd, verbose=True, tag='python-runtime', installdir_map={'py_purelib': i.purelib, 'py_platlib': i.platlib}) ret.append(script) return ret def postconf_hook(self, b: Build) -> None: b.install_scripts.extend(self._get_install_scripts()) # https://www.python.org/dev/peps/pep-0397/ @staticmethod def _get_win_pythonpath(name_or_path: str) -> T.Optional[str]: if not name_or_path.startswith(('python2', 'python3')): return None if not shutil.which('py'): # program not installed, return without an exception return None ver = f'-{name_or_path[6:]}' cmd = ['py', ver, '-c', "import sysconfig; print(sysconfig.get_config_var('BINDIR'))"] _, stdout, _ = mesonlib.Popen_safe(cmd) directory = stdout.strip() if os.path.exists(directory): return os.path.join(directory, 'python') else: return None def _find_installation_impl(self, state: 'ModuleState', display_name: str, name_or_path: str, required: bool) -> MaybePythonProg: if not name_or_path: python = PythonExternalProgram('python3', mesonlib.python_command) else: tmp_python = ExternalProgram.from_entry(display_name, name_or_path) python = PythonExternalProgram(display_name, ext_prog=tmp_python) if not python.found() and mesonlib.is_windows(): pythonpath = self._get_win_pythonpath(name_or_path) if pythonpath is not None: name_or_path = pythonpath python = PythonExternalProgram(name_or_path) # Last ditch effort, python2 or python3 can be named python # on various platforms, let's not give up just yet, if an executable # named python is available and has a compatible version, let's use # it if not python.found() and name_or_path in {'python2', 'python3'}: tmp_python = ExternalProgram.from_entry(display_name, 'python') python = PythonExternalProgram(name_or_path, ext_prog=tmp_python) if python.found(): if python.sanity(state): return python else: sanitymsg = f'{python} is not a valid python or it is missing distutils' if required: raise mesonlib.MesonException(sanitymsg) else: mlog.warning(sanitymsg, location=state.current_node) return NonExistingExternalProgram(python.name) @disablerIfNotFound @typed_pos_args('python.find_installation', optargs=[str]) @typed_kwargs( 'python.find_installation', KwargInfo('required', (bool, UserFeatureOption), default=True), KwargInfo('disabler', bool, default=False, since='0.49.0'), KwargInfo('modules', ContainerTypeInfo(list, str), listify=True, default=[], since='0.51.0'), _PURE_KW.evolve(default=True, since='0.64.0'), ) def find_installation(self, state: 'ModuleState', args: T.Tuple[T.Optional[str]], kwargs: 'FindInstallationKw') -> MaybePythonProg: feature_check = FeatureNew('Passing "feature" option to find_installation', '0.48.0') disabled, required, feature = extract_required_kwarg(kwargs, state.subproject, feature_check) # FIXME: this code is *full* of sharp corners. It assumes that it's # going to get a string value (or now a list of length 1), of `python2` # or `python3` which is completely nonsense. On windows the value could # easily be `['py', '-3']`, or `['py', '-3.7']` to get a very specific # version of python. On Linux we might want a python that's not in # $PATH, or that uses a wrapper of some kind. np: T.List[str] = state.environment.lookup_binary_entry(MachineChoice.HOST, 'python') or [] fallback = args[0] display_name = fallback or 'python' if not np and fallback is not None: np = [fallback] name_or_path = np[0] if np else None if disabled: mlog.log('Program', name_or_path or 'python', 'found:', mlog.red('NO'), '(disabled by:', mlog.bold(feature), ')') return NonExistingExternalProgram() python = self.installations.get(name_or_path) if not python: python = self._find_installation_impl(state, display_name, name_or_path, required) self.installations[name_or_path] = python want_modules = kwargs['modules'] found_modules: T.List[str] = [] missing_modules: T.List[str] = [] if python.found() and want_modules: for mod in want_modules: p, *_ = mesonlib.Popen_safe( python.command + ['-c', f'import {mod}']) if p.returncode != 0: missing_modules.append(mod) else: found_modules.append(mod) msg: T.List['mlog.TV_Loggable'] = ['Program', python.name] if want_modules: msg.append('({})'.format(', '.join(want_modules))) msg.append('found:') if python.found() and not missing_modules: msg.extend([mlog.green('YES'), '({})'.format(' '.join(python.command))]) else: msg.append(mlog.red('NO')) if found_modules: msg.append('modules:') msg.append(', '.join(found_modules)) mlog.log(*msg) if not python.found(): if required: raise mesonlib.MesonException('{} not found'.format(name_or_path or 'python')) return NonExistingExternalProgram(python.name) elif missing_modules: if required: raise mesonlib.MesonException('{} is missing modules: {}'.format(name_or_path or 'python', ', '.join(missing_modules))) return NonExistingExternalProgram(python.name) else: assert isinstance(python, PythonExternalProgram), 'for mypy' python = copy.copy(python) python.pure = kwargs['pure'] return python raise mesonlib.MesonBugException('Unreachable code was reached (PythonModule.find_installation).') def initialize(interpreter: 'Interpreter') -> PythonModule: mod = PythonModule(interpreter) mod.interpreter.append_holder_map(PythonExternalProgram, PythonInstallation) return mod