# SPDX-License-Identifier: Apache-2.0 # Copyright 2016-2018 The Meson development team from __future__ import annotations import argparse, datetime, glob, json, os, platform, shutil, sys, tempfile, time import cProfile as profile from pathlib import Path import typing as T from . import build, coredata, environment, interpreter, mesonlib, mintro, mlog from .mesonlib import MesonException git_ignore_file = '''# This file is autogenerated by Meson. If you change or delete it, it won't be recreated. * ''' hg_ignore_file = '''# This file is autogenerated by Meson. If you change or delete it, it won't be recreated. syntax: glob **/* ''' # Note: when adding arguments, please also add them to the completion # scripts in $MESONSRC/data/shell-completions/ def add_arguments(parser: argparse.ArgumentParser) -> None: coredata.register_builtin_arguments(parser) parser.add_argument('--native-file', default=[], action='append', help='File containing overrides for native compilation environment.') parser.add_argument('--cross-file', default=[], action='append', help='File describing cross compilation environment.') parser.add_argument('-v', '--version', action='version', version=coredata.version) parser.add_argument('--profile-self', action='store_true', dest='profile', help=argparse.SUPPRESS) parser.add_argument('--fatal-meson-warnings', action='store_true', dest='fatal_warnings', help='Make all Meson warnings fatal') parser.add_argument('--reconfigure', action='store_true', help='Set options and reconfigure the project. Useful when new ' + 'options have been added to the project and the default value ' + 'is not working.') parser.add_argument('--wipe', action='store_true', help='Wipe build directory and reconfigure using previous command line options. ' + 'Useful when build directory got corrupted, or when rebuilding with a ' + 'newer version of meson.') parser.add_argument('--clearcache', action='store_true', default=False, help='Clear cached state (e.g. found dependencies). Since 1.3.0.') parser.add_argument('builddir', nargs='?', default=None) parser.add_argument('sourcedir', nargs='?', default=None) class MesonApp: def __init__(self, options: argparse.Namespace) -> None: self.options = options (self.source_dir, self.build_dir) = self.validate_dirs() if options.wipe: # Make a copy of the cmd line file to make sure we can always # restore that file if anything bad happens. For example if # configuration fails we need to be able to wipe again. restore = [] with tempfile.TemporaryDirectory() as d: for filename in [coredata.get_cmd_line_file(self.build_dir)] + glob.glob(os.path.join(self.build_dir, environment.Environment.private_dir, '*.ini')): try: restore.append((shutil.copy(filename, d), filename)) except FileNotFoundError: # validate_dirs() already verified that build_dir has # a partial build or is empty. pass coredata.read_cmd_line_file(self.build_dir, options) try: # Don't delete the whole tree, just all of the files and # folders in the tree. Otherwise calling wipe form the builddir # will cause a crash for l in os.listdir(self.build_dir): l = os.path.join(self.build_dir, l) if os.path.isdir(l) and not os.path.islink(l): mesonlib.windows_proof_rmtree(l) else: mesonlib.windows_proof_rm(l) finally: self.add_vcs_ignore_files(self.build_dir) for b, f in restore: os.makedirs(os.path.dirname(f), exist_ok=True) shutil.move(b, f) def has_build_file(self, dirname: str) -> bool: fname = os.path.join(dirname, environment.build_filename) return os.path.exists(fname) def validate_core_dirs(self, dir1: T.Optional[str], dir2: T.Optional[str]) -> T.Tuple[str, str]: invalid_msg_prefix = f'Neither source directory {dir1!r} nor build directory {dir2!r}' if dir1 is None: if dir2 is None: if not self.has_build_file('.') and self.has_build_file('..'): dir2 = '..' else: raise MesonException('Must specify at least one directory name.') dir1 = os.getcwd() if dir2 is None: dir2 = os.getcwd() ndir1 = os.path.abspath(os.path.realpath(dir1)) ndir2 = os.path.abspath(os.path.realpath(dir2)) if not os.path.exists(ndir1) and not os.path.exists(ndir2): raise MesonException(f'{invalid_msg_prefix} exist.') try: os.makedirs(ndir1, exist_ok=True) except FileExistsError as e: raise MesonException(f'{dir1} is not a directory') from e try: os.makedirs(ndir2, exist_ok=True) except FileExistsError as e: raise MesonException(f'{dir2} is not a directory') from e if os.path.samefile(ndir1, ndir2): # Fallback to textual compare if undefined entries found has_undefined = any((s.st_ino == 0 and s.st_dev == 0) for s in (os.stat(ndir1), os.stat(ndir2))) if not has_undefined or ndir1 == ndir2: raise MesonException('Source and build directories must not be the same. Create a pristine build directory.') if self.has_build_file(ndir1): if self.has_build_file(ndir2): raise MesonException(f'Both directories contain a build file {environment.build_filename}.') return ndir1, ndir2 if self.has_build_file(ndir2): return ndir2, ndir1 raise MesonException(f'{invalid_msg_prefix} contain a build file {environment.build_filename}.') def add_vcs_ignore_files(self, build_dir: str) -> None: with open(os.path.join(build_dir, '.gitignore'), 'w', encoding='utf-8') as ofile: ofile.write(git_ignore_file) with open(os.path.join(build_dir, '.hgignore'), 'w', encoding='utf-8') as ofile: ofile.write(hg_ignore_file) def validate_dirs(self) -> T.Tuple[str, str]: (src_dir, build_dir) = self.validate_core_dirs(self.options.builddir, self.options.sourcedir) if Path(build_dir) in Path(src_dir).parents: raise MesonException(f'Build directory {build_dir} cannot be a parent of source directory {src_dir}') if not os.listdir(build_dir): self.add_vcs_ignore_files(build_dir) return src_dir, build_dir priv_dir = os.path.join(build_dir, 'meson-private') has_valid_build = os.path.exists(os.path.join(priv_dir, 'coredata.dat')) has_partial_build = os.path.isdir(priv_dir) if has_valid_build: if not self.options.reconfigure and not self.options.wipe: print('Directory already configured.\n\n' 'Just run your build command (e.g. ninja) and Meson will regenerate as necessary.\n' 'Run "meson setup --reconfigure to force Meson to regenerate.\n\n' 'If build failures persist, run "meson setup --wipe" to rebuild from scratch\n' 'using the same options as passed when configuring the build.') if self.options.cmd_line_options: from . import mconf raise SystemExit(mconf.run_impl(self.options, build_dir)) raise SystemExit(0) elif not has_partial_build and self.options.wipe: raise MesonException(f'Directory is not empty and does not contain a previous build:\n{build_dir}') return src_dir, build_dir # See class Backend's 'generate' for comments on capture args and returned dictionary. def generate(self, capture: bool = False, vslite_ctx: T.Optional[dict] = None) -> T.Optional[dict]: env = environment.Environment(self.source_dir, self.build_dir, self.options) mlog.initialize(env.get_log_dir(), self.options.fatal_warnings) if self.options.profile: mlog.set_timestamp_start(time.monotonic()) if self.options.clearcache: env.coredata.clear_cache() with mesonlib.BuildDirLock(self.build_dir): return self._generate(env, capture, vslite_ctx) def _generate(self, env: environment.Environment, capture: bool, vslite_ctx: T.Optional[dict]) -> T.Optional[dict]: # Get all user defined options, including options that have been defined # during a previous invocation or using meson configure. user_defined_options = argparse.Namespace(**vars(self.options)) coredata.read_cmd_line_file(self.build_dir, user_defined_options) mlog.debug('Build started at', datetime.datetime.now().isoformat()) mlog.debug('Main binary:', sys.executable) mlog.debug('Build Options:', coredata.format_cmd_line_options(user_defined_options)) mlog.debug('Python system:', platform.system()) mlog.log(mlog.bold('The Meson build system')) mlog.log('Version:', coredata.version) mlog.log('Source dir:', mlog.bold(self.source_dir)) mlog.log('Build dir:', mlog.bold(self.build_dir)) if env.is_cross_build(): mlog.log('Build type:', mlog.bold('cross build')) else: mlog.log('Build type:', mlog.bold('native build')) b = build.Build(env) intr = interpreter.Interpreter(b, user_defined_options=user_defined_options) # Super hack because mlog.log and mlog.debug have different signatures, # and there is currently no way to annotate them correctly, unionize them, or # even to write `T.Callable[[*mlog.TV_Loggable], None]` logger_fun = T.cast('T.Callable[[mlog.TV_Loggable, mlog.TV_Loggable], None]', (mlog.log if env.is_cross_build() else mlog.debug)) logger_fun('Build machine cpu family:', mlog.bold(env.machines.build.cpu_family)) logger_fun('Build machine cpu:', mlog.bold(env.machines.build.cpu)) mlog.log('Host machine cpu family:', mlog.bold(env.machines.host.cpu_family)) mlog.log('Host machine cpu:', mlog.bold(env.machines.host.cpu)) logger_fun('Target machine cpu family:', mlog.bold(env.machines.target.cpu_family)) logger_fun('Target machine cpu:', mlog.bold(env.machines.target.cpu)) try: if self.options.profile: fname = os.path.join(self.build_dir, 'meson-logs', 'profile-interpreter.log') profile.runctx('intr.run()', globals(), locals(), filename=fname) else: intr.run() except Exception as e: mintro.write_meson_info_file(b, [e]) raise cdf: T.Optional[str] = None captured_compile_args: T.Optional[dict] = None try: dumpfile = os.path.join(env.get_scratch_dir(), 'build.dat') # We would like to write coredata as late as possible since we use the existence of # this file to check if we generated the build file successfully. Since coredata # includes settings, the build files must depend on it and appear newer. However, due # to various kernel caches, we cannot guarantee that any time in Python is exactly in # sync with the time that gets applied to any files. Thus, we dump this file as late as # possible, but before build files, and if any error occurs, delete it. cdf = env.dump_coredata() self.finalize_postconf_hooks(b, intr) if self.options.profile: fname = f'profile-{intr.backend.name}-backend.log' fname = os.path.join(self.build_dir, 'meson-logs', fname) profile.runctx('gen_result = intr.backend.generate(capture, vslite_ctx)', globals(), locals(), filename=fname) captured_compile_args = locals()['gen_result'] assert captured_compile_args is None or isinstance(captured_compile_args, dict) else: captured_compile_args = intr.backend.generate(capture, vslite_ctx) build.save(b, dumpfile) if env.first_invocation: # Use path resolved by coredata because they could have been # read from a pipe and wrote into a private file. self.options.cross_file = env.coredata.cross_files self.options.native_file = env.coredata.config_files coredata.write_cmd_line_file(self.build_dir, self.options) else: coredata.update_cmd_line_file(self.build_dir, self.options) # Generate an IDE introspection file with the same syntax as the already existing API if self.options.profile: fname = os.path.join(self.build_dir, 'meson-logs', 'profile-introspector.log') profile.runctx('mintro.generate_introspection_file(b, intr.backend)', globals(), locals(), filename=fname) else: mintro.generate_introspection_file(b, intr.backend) mintro.write_meson_info_file(b, [], True) # Post-conf scripts must be run after writing coredata or else introspection fails. intr.backend.run_postconf_scripts() # collect warnings about unsupported build configurations; must be done after full arg processing # by Interpreter() init, but this is most visible at the end if env.coredata.options[mesonlib.OptionKey('backend')].value == 'xcode': mlog.warning('xcode backend is currently unmaintained, patches welcome') if env.coredata.options[mesonlib.OptionKey('layout')].value == 'flat': mlog.warning('-Dlayout=flat is unsupported and probably broken. It was a failed experiment at ' 'making Windows build artifacts runnable while uninstalled, due to PATH considerations, ' 'but was untested by CI and anyways breaks reasonable use of conflicting targets in different subdirs. ' 'Please consider using `meson devenv` instead. See https://github.com/mesonbuild/meson/pull/9243 ' 'for details.') if self.options.profile: fname = os.path.join(self.build_dir, 'meson-logs', 'profile-startup-modules.json') mods = set(sys.modules.keys()) mesonmods = {mod for mod in mods if (mod+'.').startswith('mesonbuild.')} stdmods = sorted(mods - mesonmods) data = {'stdlib': {'modules': stdmods, 'count': len(stdmods)}, 'meson': {'modules': sorted(mesonmods), 'count': len(mesonmods)}} with open(fname, 'w', encoding='utf-8') as f: json.dump(data, f) mlog.log("meson setup completed") # Display timestamp except Exception as e: mintro.write_meson_info_file(b, [e]) if cdf is not None: old_cdf = cdf + '.prev' if os.path.exists(old_cdf): os.replace(old_cdf, cdf) else: os.unlink(cdf) raise return captured_compile_args def finalize_postconf_hooks(self, b: build.Build, intr: interpreter.Interpreter) -> None: b.devenv.append(intr.backend.get_devenv()) for mod in intr.modules.values(): mod.postconf_hook(b) def run_genvslite_setup(options: argparse.Namespace) -> None: # With --genvslite, we essentially want to invoke multiple 'setup' iterations. I.e. - # meson setup ... builddirprefix_debug # meson setup ... builddirprefix_debugoptimized # meson setup ... builddirprefix_release # along with also setting up a new, thin/lite visual studio solution and projects with the multiple debug/opt/release configurations that # invoke the appropriate 'meson compile ...' build commands upon the normal visual studio build/rebuild/clean actions, instead of using # the native VS/msbuild system. builddir_prefix = options.builddir genvsliteval = options.cmd_line_options.pop(mesonlib.OptionKey('genvslite')) # The command line may specify a '--backend' option, which doesn't make sense in conjunction with # '--genvslite', where we always want to use a ninja back end - k_backend = mesonlib.OptionKey('backend') if k_backend in options.cmd_line_options.keys(): if options.cmd_line_options[k_backend] != 'ninja': raise MesonException('Explicitly specifying a backend option with \'genvslite\' is not necessary ' '(the ninja backend is always used) but specifying a non-ninja backend ' 'conflicts with a \'genvslite\' setup') else: options.cmd_line_options[k_backend] = 'ninja' buildtypes_list = coredata.get_genvs_default_buildtype_list() vslite_ctx = {} for buildtypestr in buildtypes_list: options.builddir = f'{builddir_prefix}_{buildtypestr}' # E.g. builddir_release options.cmd_line_options[mesonlib.OptionKey('buildtype')] = buildtypestr app = MesonApp(options) vslite_ctx[buildtypestr] = app.generate(capture=True) #Now for generating the 'lite' solution and project files, which will use these builds we've just set up, above. options.builddir = f'{builddir_prefix}_vs' options.cmd_line_options[mesonlib.OptionKey('genvslite')] = genvsliteval app = MesonApp(options) app.generate(capture=False, vslite_ctx=vslite_ctx) def run(options: T.Union[argparse.Namespace, T.List[str]]) -> int: if not isinstance(options, argparse.Namespace): parser = argparse.ArgumentParser() add_arguments(parser) options = parser.parse_args(options) coredata.parse_cmd_line_options(options) if mesonlib.OptionKey('genvslite') in options.cmd_line_options.keys(): run_genvslite_setup(options) else: app = MesonApp(options) app.generate() return 0