# Copyright 2012-2017 The Meson development team # Licensed under the Apache License, Version 2.0 (the "License"); # you may not use this file except in compliance with the License. # You may obtain a copy of the License at # http://www.apache.org/licenses/LICENSE-2.0 # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. import pickle, os, uuid import sys from pathlib import PurePath from collections import OrderedDict from .mesonlib import MesonException, commonpath from .mesonlib import default_libdir, default_libexecdir, default_prefix import ast version = '0.44.0' backendlist = ['ninja', 'vs', 'vs2010', 'vs2015', 'vs2017', 'xcode'] class UserOption: def __init__(self, name, description, choices): super().__init__() self.name = name self.choices = choices self.description = description # Check that the input is a valid value and return the # "cleaned" or "native" version. For example the Boolean # option could take the string "true" and return True. def validate_value(self, value): raise RuntimeError('Derived option class did not override validate_value.') class UserStringOption(UserOption): def __init__(self, name, description, value, choices=None): super().__init__(name, description, choices) self.set_value(value) def validate(self, value): if not isinstance(value, str): raise MesonException('Value "%s" for string option "%s" is not a string.' % (str(value), self.name)) def set_value(self, newvalue): self.validate(newvalue) self.value = newvalue def validate_value(self, value): self.validate(value) return value class UserBooleanOption(UserOption): def __init__(self, name, description, value): super().__init__(name, description, [True, False]) self.set_value(value) def tobool(self, thing): if isinstance(thing, bool): return thing if thing.lower() == 'true': return True if thing.lower() == 'false': return False raise MesonException('Value %s is not boolean (true or false).' % thing) def set_value(self, newvalue): self.value = self.tobool(newvalue) def __bool__(self): return self.value def validate_value(self, value): return self.tobool(value) class UserIntegerOption(UserOption): def __init__(self, name, description, min_value, max_value, value): super().__init__(name, description, [True, False]) self.min_value = min_value self.max_value = max_value self.set_value(value) def set_value(self, newvalue): if isinstance(newvalue, str): newvalue = self.toint(newvalue) if not isinstance(newvalue, int): raise MesonException('New value for integer option is not an integer.') if self.min_value is not None and newvalue < self.min_value: raise MesonException('New value %d is less than minimum value %d.' % (newvalue, self.min_value)) if self.max_value is not None and newvalue > self.max_value: raise MesonException('New value %d is more than maximum value %d.' % (newvalue, self.max_value)) self.value = newvalue def toint(self, valuestring): try: return int(valuestring) except: raise MesonException('Value string "%s" is not convertable to an integer.' % valuestring) def validate_value(self, value): return self.toint(value) class UserComboOption(UserOption): def __init__(self, name, description, choices, value): super().__init__(name, description, choices) if not isinstance(self.choices, list): raise MesonException('Combo choices must be an array.') for i in self.choices: if not isinstance(i, str): raise MesonException('Combo choice elements must be strings.') self.set_value(value) def set_value(self, newvalue): if newvalue not in self.choices: optionsstring = ', '.join(['"%s"' % (item,) for item in self.choices]) raise MesonException('Value "%s" for combo option "%s" is not one of the choices. Possible choices are: %s.' % (newvalue, self.name, optionsstring)) self.value = newvalue def validate_value(self, value): if value not in self.choices: raise MesonException('Value %s not one of accepted values.' % value) return value class UserArrayOption(UserOption): def __init__(self, name, description, value, **kwargs): super().__init__(name, description, kwargs.get('choices', [])) self.set_value(value, user_input=False) def validate(self, value, user_input): # User input is for options defined on the command line (via -D # options). Users can put their input in as a comma separated # string, but for defining options in meson_options.txt the format # should match that of a combo if not user_input: if isinstance(value, str): if not value.startswith('['): raise MesonException('Valuestring does not define an array: ' + value) newvalue = ast.literal_eval(value) else: newvalue = value else: assert isinstance(value, str) if value.startswith('['): newvalue = ast.literal_eval(value) else: newvalue = [v.strip() for v in value.split(',')] if not isinstance(newvalue, list): raise MesonException('"{0}" should be a string array, but it is not'.format(str(newvalue))) for i in newvalue: if not isinstance(i, str): raise MesonException('String array element "{0}" is not a string.'.format(str(newvalue))) if self.choices: bad = [x for x in newvalue if x not in self.choices] if bad: raise MesonException('Options "{}" are not in allowed choices: "{}"'.format( ', '.join(bad), ', '.join(self.choices))) return newvalue def set_value(self, newvalue, user_input=True): self.value = self.validate(newvalue, user_input) def validate_value(self, value): self.validate(value) return value # This class contains all data that must persist over multiple # invocations of Meson. It is roughly the same thing as # cmakecache. class CoreData: def __init__(self, options): self.guid = str(uuid.uuid4()).upper() self.test_guid = str(uuid.uuid4()).upper() self.regen_guid = str(uuid.uuid4()).upper() self.target_guids = {} self.version = version self.init_builtins(options) self.init_backend_options(self.builtins['backend'].value) self.user_options = {} self.compiler_options = {} self.base_options = {} # These external_*args, are set via env vars CFLAGS, LDFLAGS, etc # but only when not cross-compiling. self.external_preprocess_args = {} # CPPFLAGS only self.external_args = {} # CPPFLAGS + CFLAGS self.external_link_args = {} # CFLAGS + LDFLAGS (with MSVC: only LDFLAGS) self.cross_file = self.__load_cross_file(options.cross_file) self.wrap_mode = options.wrap_mode self.compilers = OrderedDict() self.cross_compilers = OrderedDict() self.deps = OrderedDict() self.modules = {} # Only to print a warning if it changes between Meson invocations. self.pkgconf_envvar = os.environ.get('PKG_CONFIG_PATH', '') @staticmethod def __load_cross_file(filename): """Try to load the cross file. If the filename is None return None. If the filename is an absolute (after resolving variables and ~), return that absolute path. Next, check if the file is relative to the current source dir. If the path still isn't resolved do the following: Linux + BSD: - $XDG_DATA_HOME/meson/cross (or ~/.local/share/meson/cross if undefined) - $XDG_DATA_DIRS/meson/cross (or /usr/local/share/meson/cross:/usr/share/meson/cross if undefined) - Error *: - Error BSD follows the Linux path and will honor XDG_* if set. This simplifies the implementation somewhat, especially since most BSD users wont set those environment variables. """ if filename is None: return None filename = os.path.expanduser(os.path.expandvars(filename)) if os.path.isabs(filename): return filename path_to_try = os.path.abspath(filename) if os.path.exists(path_to_try): return path_to_try if sys.platform == 'linux' or 'bsd' in sys.platform.lower(): paths = [ os.environ.get('XDG_DATA_HOME', os.path.expanduser('~/.local/share')), ] + os.environ.get('XDG_DATA_DIRS', '/usr/local/share:/usr/share').split(':') for path in paths: path_to_try = os.path.join(path, 'meson', 'cross', filename) if os.path.exists(path_to_try): return path_to_try raise MesonException('Cannot find specified cross file: ' + filename) raise MesonException('Cannot find specified cross file: ' + filename) def sanitize_prefix(self, prefix): if not os.path.isabs(prefix): raise MesonException('prefix value {!r} must be an absolute path' ''.format(prefix)) if prefix.endswith('/') or prefix.endswith('\\'): # On Windows we need to preserve the trailing slash if the # string is of type 'C:\' because 'C:' is not an absolute path. if len(prefix) == 3 and prefix[1] == ':': pass # If prefix is a single character, preserve it since it is # the root directory. elif len(prefix) == 1: pass else: prefix = prefix[:-1] return prefix def sanitize_dir_option_value(self, prefix, option, value): ''' If the option is an installation directory option and the value is an absolute path, check that it resides within prefix and return the value as a path relative to the prefix. This way everyone can do f.ex, get_option('libdir') and be sure to get the library directory relative to prefix. ''' if option.endswith('dir') and os.path.isabs(value) and \ option not in builtin_dir_noprefix_options: # Value must be a subdir of the prefix # commonpath will always return a path in the native format, so we # must use pathlib.PurePath to do the same conversion before # comparing. if commonpath([value, prefix]) != str(PurePath(prefix)): m = 'The value of the {!r} option is {!r} which must be a ' \ 'subdir of the prefix {!r}.\nNote that if you pass a ' \ 'relative path, it is assumed to be a subdir of prefix.' raise MesonException(m.format(option, value, prefix)) # Convert path to be relative to prefix skip = len(prefix) + 1 value = value[skip:] return value def init_builtins(self, options): self.builtins = {} # Sanitize prefix options.prefix = self.sanitize_prefix(options.prefix) # Initialize other builtin options for key in get_builtin_options(): if hasattr(options, key): value = getattr(options, key) value = self.sanitize_dir_option_value(options.prefix, key, value) setattr(options, key, value) else: value = get_builtin_option_default(key, prefix=options.prefix) args = [key] + builtin_options[key][1:-1] + [value] self.builtins[key] = builtin_options[key][0](*args) def init_backend_options(self, backend_name): self.backend_options = {} if backend_name == 'ninja': self.backend_options['backend_max_links'] = UserIntegerOption('backend_max_links', 'Maximum number of linker processes to run or 0 for no limit', 0, None, 0) def get_builtin_option(self, optname): if optname in self.builtins: return self.builtins[optname].value raise RuntimeError('Tried to get unknown builtin option %s.' % optname) def set_builtin_option(self, optname, value): if optname == 'prefix': value = self.sanitize_prefix(value) elif optname in self.builtins: prefix = self.builtins['prefix'].value value = self.sanitize_dir_option_value(prefix, optname, value) else: raise RuntimeError('Tried to set unknown builtin option %s.' % optname) self.builtins[optname].set_value(value) def validate_option_value(self, option_name, override_value): for opts in (self.builtins, self.base_options, self.compiler_options, self.user_options): if option_name in opts: opt = opts[option_name] return opt.validate_value(override_value) raise MesonException('Tried to validate unknown option %s.' % option_name) def load(filename): load_fail_msg = 'Coredata file {!r} is corrupted. Try with a fresh build tree.'.format(filename) try: with open(filename, 'rb') as f: obj = pickle.load(f) except pickle.UnpicklingError: raise MesonException(load_fail_msg) if not isinstance(obj, CoreData): raise MesonException(load_fail_msg) if obj.version != version: raise MesonException('Build directory has been generated with Meson version %s, which is incompatible with current version %s.\nPlease delete this build directory AND create a new one.' % (obj.version, version)) return obj def save(obj, filename): if obj.version != version: raise MesonException('Fatal version mismatch corruption.') with open(filename, 'wb') as f: pickle.dump(obj, f) def get_builtin_options(): return list(builtin_options.keys()) def is_builtin_option(optname): return optname in get_builtin_options() def get_builtin_option_choices(optname): if is_builtin_option(optname): if builtin_options[optname][0] == UserStringOption: return None elif builtin_options[optname][0] == UserBooleanOption: return [True, False] else: return builtin_options[optname][2] else: raise RuntimeError('Tried to get the supported values for an unknown builtin option \'%s\'.' % optname) def get_builtin_option_description(optname): if is_builtin_option(optname): return builtin_options[optname][1] else: raise RuntimeError('Tried to get the description for an unknown builtin option \'%s\'.' % optname) def get_builtin_option_default(optname, prefix='', noneIfSuppress=False): if is_builtin_option(optname): o = builtin_options[optname] if o[0] == UserComboOption: return o[3] if optname in builtin_dir_noprefix_options: if noneIfSuppress: # Return None if argparse defaulting should be suppressed for # this option (so we can determine the default later based on # prefix) return None elif prefix in builtin_dir_noprefix_options[optname]: return builtin_dir_noprefix_options[optname][prefix] return o[2] else: raise RuntimeError('Tried to get the default value for an unknown builtin option \'%s\'.' % optname) builtin_options = { 'buildtype': [UserComboOption, 'Build type to use.', ['plain', 'debug', 'debugoptimized', 'release', 'minsize'], 'debug'], 'strip': [UserBooleanOption, 'Strip targets on install.', False], 'unity': [UserComboOption, 'Unity build.', ['on', 'off', 'subprojects'], 'off'], 'prefix': [UserStringOption, 'Installation prefix.', default_prefix()], 'libdir': [UserStringOption, 'Library directory.', default_libdir()], 'libexecdir': [UserStringOption, 'Library executable directory.', default_libexecdir()], 'bindir': [UserStringOption, 'Executable directory.', 'bin'], 'sbindir': [UserStringOption, 'System executable directory.', 'sbin'], 'includedir': [UserStringOption, 'Header file directory.', 'include'], 'datadir': [UserStringOption, 'Data file directory.', 'share'], 'mandir': [UserStringOption, 'Manual page directory.', 'share/man'], 'infodir': [UserStringOption, 'Info page directory.', 'share/info'], 'localedir': [UserStringOption, 'Locale data directory.', 'share/locale'], 'sysconfdir': [UserStringOption, 'Sysconf data directory.', 'etc'], 'localstatedir': [UserStringOption, 'Localstate data directory.', 'var'], 'sharedstatedir': [UserStringOption, 'Architecture-independent data directory.', 'com'], 'werror': [UserBooleanOption, 'Treat warnings as errors.', False], 'warning_level': [UserComboOption, 'Compiler warning level to use.', ['1', '2', '3'], '1'], 'layout': [UserComboOption, 'Build directory layout.', ['mirror', 'flat'], 'mirror'], 'default_library': [UserComboOption, 'Default library type.', ['shared', 'static'], 'shared'], 'backend': [UserComboOption, 'Backend to use.', backendlist, 'ninja'], 'stdsplit': [UserBooleanOption, 'Split stdout and stderr in test logs.', True], 'errorlogs': [UserBooleanOption, "Whether to print the logs from failing tests.", True], } # Special prefix-dependent defaults for installation directories that reside in # a path outside of the prefix in FHS and common usage. builtin_dir_noprefix_options = { 'sysconfdir': {'/usr': '/etc'}, 'localstatedir': {'/usr': '/var', '/usr/local': '/var/local'}, 'sharedstatedir': {'/usr': '/var/lib', '/usr/local': '/var/local/lib'}, } forbidden_target_names = {'clean': None, 'clean-ctlist': None, 'clean-gcno': None, 'clean-gcda': None, 'coverage': None, 'coverage-text': None, 'coverage-xml': None, 'coverage-html': None, 'phony': None, 'PHONY': None, 'all': None, 'test': None, 'benchmark': None, 'install': None, 'uninstall': None, 'build.ninja': None, 'scan-build': None, 'reconfigure': None, 'dist': None, 'distcheck': None, }