def __init__(self, topsrcdir='/path/to/topsrcdir', extra_substs={}, error_is_fatal=True, ): self.topsrcdir = mozpath.abspath(topsrcdir) self.topobjdir = mozpath.abspath('/path/to/topobjdir') self.substs = ReadOnlyDict({ 'MOZ_FOO': 'foo', 'MOZ_BAR': 'bar', 'MOZ_TRUE': '1', 'MOZ_FALSE': '', }, **extra_substs) self.substs_unicode = ReadOnlyDict({k.decode('utf-8'): v.decode('utf-8', 'replace') for k, v in self.substs.items()}) self.defines = self.substs self.external_source_dir = None self.lib_prefix = 'lib' self.lib_suffix = '.a' self.import_prefix = 'lib' self.import_suffix = '.so' self.dll_prefix = 'lib' self.dll_suffix = '.so' self.error_is_fatal = error_is_fatal
def __init__(self, topsrcdir, topobjdir, defines=None, substs=None, source=None, mozconfig=None): if not source: source = mozpath.join(topobjdir, 'config.status') self.source = source self.defines = ReadOnlyDict(defines or {}) self.substs = dict(substs or {}) self.topsrcdir = mozpath.abspath(topsrcdir) self.topobjdir = mozpath.abspath(topobjdir) self.mozconfig = mozpath.abspath(mozconfig) if mozconfig else None self.lib_prefix = self.substs.get('LIB_PREFIX', '') self.rust_lib_prefix = self.substs.get('RUST_LIB_PREFIX', '') if 'LIB_SUFFIX' in self.substs: self.lib_suffix = '.%s' % self.substs['LIB_SUFFIX'] if 'RUST_LIB_SUFFIX' in self.substs: self.rust_lib_suffix = '.%s' % self.substs['RUST_LIB_SUFFIX'] self.dll_prefix = self.substs.get('DLL_PREFIX', '') self.dll_suffix = self.substs.get('DLL_SUFFIX', '') self.host_dll_prefix = self.substs.get('HOST_DLL_PREFIX', '') self.host_dll_suffix = self.substs.get('HOST_DLL_SUFFIX', '') if self.substs.get('IMPORT_LIB_SUFFIX'): self.import_prefix = self.lib_prefix self.import_suffix = '.%s' % self.substs['IMPORT_LIB_SUFFIX'] else: self.import_prefix = self.dll_prefix self.import_suffix = self.dll_suffix self.bin_suffix = self.substs.get('BIN_SUFFIX', '') global_defines = [name for name in self.defines] self.substs["ACDEFINES"] = ' '.join([ '-D%s=%s' % (name, shell_quote(self.defines[name]).replace('$', '$$')) for name in sorted(global_defines) ]) def serialize(name, obj): if isinstance(obj, six.string_types): return obj if isinstance(obj, Iterable): return ' '.join(obj) raise Exception('Unhandled type %s for %s', type(obj), str(name)) self.substs['ALLSUBSTS'] = '\n'.join( sorted([ '%s = %s' % (name, serialize(name, self.substs[name])) for name in self.substs if self.substs[name] ])) self.substs['ALLEMPTYSUBSTS'] = '\n'.join( sorted([ '%s =' % name for name in self.substs if not self.substs[name] ])) self.substs = ReadOnlyDict(self.substs)
def __init__(self, strict=True, **kwargs): self.strict = strict if not self.strict: # apply defaults to missing parameters kwargs = Parameters._fill_defaults(**kwargs) ReadOnlyDict.__init__(self, **kwargs)
def test_update(self): original = {'foo': 1, 'bar': 2} test = ReadOnlyDict(original) with self.assertRaises(Exception): test.update(foo=2) self.assertEqual(original, test)
def __init__(self, strict=True, **kwargs): self.strict = strict self.spec = kwargs.pop("spec", "defaults") self._id = None if not self.strict: # apply defaults to missing parameters kwargs = Parameters._fill_defaults(**kwargs) ReadOnlyDict.__init__(self, **kwargs)
def __init__( self, topsrcdir='/path/to/topsrcdir', extra_substs={}, error_is_fatal=True, ): self.topsrcdir = mozpath.abspath(topsrcdir) self.topobjdir = mozpath.abspath('/path/to/topobjdir') self.substs = ReadOnlyDict( { 'MOZ_FOO': 'foo', 'MOZ_BAR': 'bar', 'MOZ_TRUE': '1', 'MOZ_FALSE': '', 'DLL_PREFIX': 'lib', 'DLL_SUFFIX': '.so' }, **extra_substs) self.defines = self.substs self.external_source_dir = None self.lib_prefix = 'lib' self.rust_lib_prefix = 'lib' self.lib_suffix = '.a' self.rust_lib_suffix = '.a' self.import_prefix = 'lib' self.import_suffix = '.so' self.dll_prefix = 'lib' self.dll_suffix = '.so' self.error_is_fatal = error_is_fatal
def __init__(self, *args, **kwargs): ConfigStatus.ConfigEnvironment.__init__(self, *args, **kwargs) # Be helpful to unit tests if not 'top_srcdir' in self.substs: if os.path.isabs(self.topsrcdir): top_srcdir = self.topsrcdir.replace(os.sep, '/') else: top_srcdir = mozpath.relpath(self.topsrcdir, self.topobjdir).replace(os.sep, '/') d = dict(self.substs) d['top_srcdir'] = top_srcdir self.substs = ReadOnlyDict(d) d = dict(self.substs_unicode) d[u'top_srcdir'] = top_srcdir.decode('utf-8') self.substs_unicode = ReadOnlyDict(d)
def __init__( self, topsrcdir="/path/to/topsrcdir", extra_substs={}, error_is_fatal=True, ): self.topsrcdir = mozpath.abspath(topsrcdir) self.topobjdir = mozpath.abspath("/path/to/topobjdir") self.substs = ReadOnlyDict( { "MOZ_FOO": "foo", "MOZ_BAR": "bar", "MOZ_TRUE": "1", "MOZ_FALSE": "", "DLL_PREFIX": "lib", "DLL_SUFFIX": ".so", }, **extra_substs) self.defines = self.substs self.lib_prefix = "lib" self.lib_suffix = ".a" self.import_prefix = "lib" self.import_suffix = ".so" self.dll_prefix = "lib" self.dll_suffix = ".so" self.error_is_fatal = error_is_fatal
def __init__(self, topsrcdir='/path/to/topsrcdir', extra_substs={}, error_is_fatal=True, ): self.topsrcdir = mozpath.abspath(topsrcdir) self.topobjdir = mozpath.abspath('/path/to/topobjdir') self.substs = ReadOnlyDict({ 'MOZ_FOO': 'foo', 'MOZ_BAR': 'bar', 'MOZ_TRUE': '1', 'MOZ_FALSE': '', 'DLL_PREFIX': 'lib', 'DLL_SUFFIX': '.so' }, **extra_substs) self.substs_unicode = ReadOnlyDict({k.decode('utf-8'): v.decode('utf-8', 'replace') for k, v in self.substs.items()}) self.defines = self.substs self.external_source_dir = None self.lib_prefix = 'lib' self.lib_suffix = '.a' self.import_prefix = 'lib' self.import_suffix = '.so' self.dll_prefix = 'lib' self.dll_suffix = '.so' self.error_is_fatal = error_is_fatal
def __init__(self, topsrcdir='/path/to/topsrcdir', extra_substs={}): self.topsrcdir = topsrcdir self.topobjdir = '/path/to/topobjdir' self.substs = ReadOnlyDict({ 'MOZ_FOO': 'foo', 'MOZ_BAR': 'bar', 'MOZ_TRUE': '1', 'MOZ_FALSE': '', }) self.substs.update(extra_substs) self.substs_unicode = ReadOnlyDict({ k.decode('utf-8'): v.decode('utf-8', 'replace') for k, v in self.substs.items() })
def test_del(self): original = {"foo": 1, "bar": 2} test = ReadOnlyDict(original) with self.assertRaises(Exception): del test["foo"] self.assertEqual(original, test)
def test_del(self): original = {'foo': 1, 'bar': 2} test = ReadOnlyDict(original) with self.assertRaises(Exception): del test['foo'] self.assertEqual(original, test)
def __init__(self, strict=True, **kwargs): self.strict = strict if not self.strict: # apply defaults to missing parameters for name, default in PARAMETERS.items(): if name not in kwargs: if callable(default): default = default() kwargs[name] = default if set(kwargs) & set(COMM_PARAMETERS.keys()): for name, default in COMM_PARAMETERS.items(): if name not in kwargs: if callable(default): default = default() kwargs[name] = default ReadOnlyDict.__init__(self, **kwargs)
class MockConfig(object): def __init__(self, topsrcdir='/path/to/topsrcdir', extra_substs={}): self.topsrcdir = topsrcdir self.topobjdir = '/path/to/topobjdir' self.substs = ReadOnlyDict({ 'MOZ_FOO': 'foo', 'MOZ_BAR': 'bar', 'MOZ_TRUE': '1', 'MOZ_FALSE': '', }) self.substs.update(extra_substs) self.substs_unicode = ReadOnlyDict({k.decode('utf-8'): v.decode('utf-8', 'replace') for k, v in self.substs.items()}) def child_path(self, p): return os.path.join(self.topsrcdir, p)
def __init__(self, topsrcdir='/path/to/topsrcdir', extra_substs={}): self.topsrcdir = mozpath.abspath(topsrcdir) self.topobjdir = mozpath.abspath('/path/to/topobjdir') self.substs = ReadOnlyDict( { 'MOZ_FOO': 'foo', 'MOZ_BAR': 'bar', 'MOZ_TRUE': '1', 'MOZ_FALSE': '', }, **extra_substs) self.substs_unicode = ReadOnlyDict({ k.decode('utf-8'): v.decode('utf-8', 'replace') for k, v in self.substs.items() }) self.defines = self.substs self.external_source_dir = None
def __init__( self, topsrcdir='/path/to/topsrcdir', extra_substs={}, error_is_fatal=True, ): self.topsrcdir = mozpath.abspath(topsrcdir) self.topobjdir = mozpath.abspath('/path/to/topobjdir') self.substs = ReadOnlyDict( { 'MOZ_FOO': 'foo', 'MOZ_BAR': 'bar', 'MOZ_TRUE': '1', 'MOZ_FALSE': '', 'DLL_PREFIX': 'lib', 'DLL_SUFFIX': '.so' }, **extra_substs) def decode_value(value): if isinstance(value, list): return [v.decode('utf-8', 'replace') for v in value] return value.decode('utf-8', 'replace') self.substs_unicode = ReadOnlyDict({ k.decode('utf-8'): decode_value(v) for k, v in self.substs.items() }) self.defines = self.substs self.external_source_dir = None self.lib_prefix = 'lib' self.rust_lib_prefix = 'lib' self.lib_suffix = '.a' self.rust_lib_suffix = '.a' self.import_prefix = 'lib' self.import_suffix = '.so' self.dll_prefix = 'lib' self.dll_suffix = '.so' self.error_is_fatal = error_is_fatal
class MockConfig(object): def __init__(self, topsrcdir='/path/to/topsrcdir', extra_substs={}): self.topsrcdir = topsrcdir self.topobjdir = '/path/to/topobjdir' self.substs = ReadOnlyDict({ 'MOZ_FOO': 'foo', 'MOZ_BAR': 'bar', 'MOZ_TRUE': '1', 'MOZ_FALSE': '', }) self.substs.update(extra_substs) self.substs_unicode = ReadOnlyDict({ k.decode('utf-8'): v.decode('utf-8', 'replace') for k, v in self.substs.items() }) def child_path(self, p): return os.path.join(self.topsrcdir, p)
def test_basic(self): original = {"foo": 1, "bar": 2} test = ReadOnlyDict(original) self.assertEqual(original, test) self.assertEqual(test["foo"], 1) with self.assertRaises(KeyError): test["missing"] with self.assertRaises(Exception): test["baz"] = True
def test_basic(self): original = {'foo': 1, 'bar': 2} test = ReadOnlyDict(original) self.assertEqual(original, test) self.assertEqual(test['foo'], 1) with self.assertRaises(KeyError): test['missing'] with self.assertRaises(Exception): test['baz'] = True
def __init__(self, *args, **kwargs): ConfigStatus.ConfigEnvironment.__init__(self, *args, **kwargs) # Be helpful to unit tests if "top_srcdir" not in self.substs: if os.path.isabs(self.topsrcdir): top_srcdir = self.topsrcdir.replace(os.sep, "/") else: top_srcdir = mozpath.relpath(self.topsrcdir, self.topobjdir).replace( os.sep, "/") d = dict(self.substs) d["top_srcdir"] = top_srcdir self.substs = ReadOnlyDict(d)
def __init__(self, topsrcdir='/path/to/topsrcdir', extra_substs={}): self.topsrcdir = topsrcdir self.topobjdir = '/path/to/topobjdir' self.substs = ReadOnlyDict({ 'MOZ_FOO': 'foo', 'MOZ_BAR': 'bar', 'MOZ_TRUE': '1', 'MOZ_FALSE': '', }) self.substs.update(extra_substs) self.substs_unicode = ReadOnlyDict({k.decode('utf-8'): v.decode('utf-8', 'replace') for k, v in self.substs.items()})
def __init__(self, topsrcdir='/path/to/topsrcdir', extra_substs={}): self.topsrcdir = mozpath.abspath(topsrcdir) self.topobjdir = mozpath.abspath('/path/to/topobjdir') self.substs = ReadOnlyDict({ 'MOZ_FOO': 'foo', 'MOZ_BAR': 'bar', 'MOZ_TRUE': '1', 'MOZ_FALSE': '', }, **extra_substs) self.substs_unicode = ReadOnlyDict({k.decode('utf-8'): v.decode('utf-8', 'replace') for k, v in self.substs.items()}) self.defines = self.substs self.external_source_dir = None
def __init__(self, topsrcdir="/path/to/topsrcdir", extra_substs={}): self.topsrcdir = mozpath.abspath(topsrcdir) self.topobjdir = mozpath.abspath("/path/to/topobjdir") self.substs = ReadOnlyDict( {"MOZ_FOO": "foo", "MOZ_BAR": "bar", "MOZ_TRUE": "1", "MOZ_FALSE": ""}, **extra_substs ) self.substs_unicode = ReadOnlyDict( {k.decode("utf-8"): v.decode("utf-8", "replace") for k, v in self.substs.items()} ) self.defines = self.substs self.external_source_dir = None self.lib_prefix = "lib" self.lib_suffix = ".a" self.import_prefix = "lib" self.import_suffix = ".so" self.dll_prefix = "lib" self.dll_suffix = ".so"
class MockConfig(object): def __init__(self, topsrcdir='/path/to/topsrcdir', extra_substs={}, error_is_fatal=True, ): self.topsrcdir = mozpath.abspath(topsrcdir) self.topobjdir = mozpath.abspath('/path/to/topobjdir') self.substs = ReadOnlyDict({ 'MOZ_FOO': 'foo', 'MOZ_BAR': 'bar', 'MOZ_TRUE': '1', 'MOZ_FALSE': '', 'DLL_PREFIX': 'lib', 'DLL_SUFFIX': '.so' }, **extra_substs) def decode_value(value): if isinstance(value, list): return [v.decode('utf-8', 'replace') for v in value] return value.decode('utf-8', 'replace') self.substs_unicode = ReadOnlyDict({k.decode('utf-8'): decode_value(v) for k, v in self.substs.items()}) self.defines = self.substs self.external_source_dir = None self.lib_prefix = 'lib' self.rust_lib_prefix = 'lib' self.lib_suffix = '.a' self.rust_lib_suffix = '.a' self.import_prefix = 'lib' self.import_suffix = '.so' self.dll_prefix = 'lib' self.dll_suffix = '.so' self.error_is_fatal = error_is_fatal
class ConfigEnvironment(object): """Perform actions associated with a configured but bare objdir. The purpose of this class is to preprocess files from the source directory and output results in the object directory. There are two types of files: config files and config headers, each treated through a different member function. Creating a ConfigEnvironment requires a few arguments: - topsrcdir and topobjdir are, respectively, the top source and the top object directory. - defines is a dict filled from AC_DEFINE and AC_DEFINE_UNQUOTED in autoconf. - substs is a dict filled from AC_SUBST in autoconf. ConfigEnvironment automatically defines one additional substs variable from all the defines: - ACDEFINES contains the defines in the form -DNAME=VALUE, for use on preprocessor command lines. The order in which defines were given when creating the ConfigEnvironment is preserved. and two other additional subst variables from all the other substs: - ALLSUBSTS contains the substs in the form NAME = VALUE, in sorted order, for use in autoconf.mk. It includes ACDEFINES Only substs with a VALUE are included, such that the resulting file doesn't change when new empty substs are added. This results in less invalidation of build dependencies in the case of autoconf.mk.. - ALLEMPTYSUBSTS contains the substs with an empty value, in the form NAME =. ConfigEnvironment expects a "top_srcdir" subst to be set with the top source directory, in msys format on windows. It is used to derive a "srcdir" subst when treating config files. It can either be an absolute path or a path relative to the topobjdir. """ def __init__( self, topsrcdir, topobjdir, defines=None, substs=None, source=None, mozconfig=None, ): if not source: source = mozpath.join(topobjdir, "config.status") self.source = source self.defines = ReadOnlyDict(defines or {}) self.substs = dict(substs or {}) self.topsrcdir = mozpath.abspath(topsrcdir) self.topobjdir = mozpath.abspath(topobjdir) self.mozconfig = mozpath.abspath(mozconfig) if mozconfig else None self.lib_prefix = self.substs.get("LIB_PREFIX", "") if "LIB_SUFFIX" in self.substs: self.lib_suffix = ".%s" % self.substs["LIB_SUFFIX"] self.dll_prefix = self.substs.get("DLL_PREFIX", "") self.dll_suffix = self.substs.get("DLL_SUFFIX", "") self.host_dll_prefix = self.substs.get("HOST_DLL_PREFIX", "") self.host_dll_suffix = self.substs.get("HOST_DLL_SUFFIX", "") if self.substs.get("IMPORT_LIB_SUFFIX"): self.import_prefix = self.lib_prefix self.import_suffix = ".%s" % self.substs["IMPORT_LIB_SUFFIX"] else: self.import_prefix = self.dll_prefix self.import_suffix = self.dll_suffix self.bin_suffix = self.substs.get("BIN_SUFFIX", "") global_defines = [name for name in self.defines] self.substs["ACDEFINES"] = " ".join( [ "-D%s=%s" % (name, shell_quote(self.defines[name]).replace("$", "$$")) for name in sorted(global_defines) ] ) def serialize(name, obj): if isinstance(obj, six.string_types): return obj if isinstance(obj, Iterable): return " ".join(obj) raise Exception("Unhandled type %s for %s", type(obj), str(name)) self.substs["ALLSUBSTS"] = "\n".join( sorted( [ "%s = %s" % (name, serialize(name, self.substs[name])) for name in self.substs if self.substs[name] ] ) ) self.substs["ALLEMPTYSUBSTS"] = "\n".join( sorted(["%s =" % name for name in self.substs if not self.substs[name]]) ) self.substs = ReadOnlyDict(self.substs) @property def is_artifact_build(self): return self.substs.get("MOZ_ARTIFACT_BUILDS", False) @memoized_property def acdefines(self): acdefines = dict((name, self.defines[name]) for name in self.defines) return ReadOnlyDict(acdefines) @staticmethod def from_config_status(path): config = BuildConfig.from_config_status(path) return ConfigEnvironment( config.topsrcdir, config.topobjdir, config.defines, config.substs, path )
def acdefines(self): acdefines = dict((name, self.defines[name]) for name in self.defines) return ReadOnlyDict(acdefines)
def __init__( self, topsrcdir, topobjdir, defines=None, substs=None, source=None, mozconfig=None, ): if not source: source = mozpath.join(topobjdir, "config.status") self.source = source self.defines = ReadOnlyDict(defines or {}) self.substs = dict(substs or {}) self.topsrcdir = mozpath.abspath(topsrcdir) self.topobjdir = mozpath.abspath(topobjdir) self.mozconfig = mozpath.abspath(mozconfig) if mozconfig else None self.lib_prefix = self.substs.get("LIB_PREFIX", "") if "LIB_SUFFIX" in self.substs: self.lib_suffix = ".%s" % self.substs["LIB_SUFFIX"] self.dll_prefix = self.substs.get("DLL_PREFIX", "") self.dll_suffix = self.substs.get("DLL_SUFFIX", "") self.host_dll_prefix = self.substs.get("HOST_DLL_PREFIX", "") self.host_dll_suffix = self.substs.get("HOST_DLL_SUFFIX", "") if self.substs.get("IMPORT_LIB_SUFFIX"): self.import_prefix = self.lib_prefix self.import_suffix = ".%s" % self.substs["IMPORT_LIB_SUFFIX"] else: self.import_prefix = self.dll_prefix self.import_suffix = self.dll_suffix self.bin_suffix = self.substs.get("BIN_SUFFIX", "") global_defines = [name for name in self.defines] self.substs["ACDEFINES"] = " ".join( [ "-D%s=%s" % (name, shell_quote(self.defines[name]).replace("$", "$$")) for name in sorted(global_defines) ] ) def serialize(name, obj): if isinstance(obj, six.string_types): return obj if isinstance(obj, Iterable): return " ".join(obj) raise Exception("Unhandled type %s for %s", type(obj), str(name)) self.substs["ALLSUBSTS"] = "\n".join( sorted( [ "%s = %s" % (name, serialize(name, self.substs[name])) for name in self.substs if self.substs[name] ] ) ) self.substs["ALLEMPTYSUBSTS"] = "\n".join( sorted(["%s =" % name for name in self.substs if not self.substs[name]]) ) self.substs = ReadOnlyDict(self.substs)
def __init__(self, topsrcdir, topobjdir, defines=None, non_global_defines=None, substs=None, source=None, mozconfig=None): if not source: source = mozpath.join(topobjdir, 'config.status') self.source = source self.defines = ReadOnlyDict(defines or {}) self.non_global_defines = non_global_defines or [] self.substs = dict(substs or {}) self.topsrcdir = mozpath.abspath(topsrcdir) self.topobjdir = mozpath.abspath(topobjdir) self.mozconfig = mozpath.abspath(mozconfig) if mozconfig else None self.lib_prefix = self.substs.get('LIB_PREFIX', '') if 'LIB_SUFFIX' in self.substs: self.lib_suffix = '.%s' % self.substs['LIB_SUFFIX'] self.dll_prefix = self.substs.get('DLL_PREFIX', '') self.dll_suffix = self.substs.get('DLL_SUFFIX', '') if self.substs.get('IMPORT_LIB_SUFFIX'): self.import_prefix = self.lib_prefix self.import_suffix = '.%s' % self.substs['IMPORT_LIB_SUFFIX'] else: self.import_prefix = self.dll_prefix self.import_suffix = self.dll_suffix global_defines = [name for name in self.defines if not name in self.non_global_defines] self.substs['ACDEFINES'] = ' '.join(['-D%s=%s' % (name, shell_quote(self.defines[name]).replace('$', '$$')) for name in sorted(global_defines)]) def serialize(obj): if isinstance(obj, StringTypes): return obj if isinstance(obj, Iterable): return ' '.join(obj) raise Exception('Unhandled type %s', type(obj)) self.substs['ALLSUBSTS'] = '\n'.join(sorted(['%s = %s' % (name, serialize(self.substs[name])) for name in self.substs if self.substs[name]])) self.substs['ALLEMPTYSUBSTS'] = '\n'.join(sorted(['%s =' % name for name in self.substs if not self.substs[name]])) self.substs = ReadOnlyDict(self.substs) self.external_source_dir = None external = self.substs.get('EXTERNAL_SOURCE_DIR', '') if external: external = mozpath.normpath(external) if not os.path.isabs(external): external = mozpath.join(self.topsrcdir, external) self.external_source_dir = mozpath.normpath(external) # Populate a Unicode version of substs. This is an optimization to make # moz.build reading faster, since each sandbox needs a Unicode version # of these variables and doing it over a thousand times is a hotspot # during sandbox execution! # Bug 844509 tracks moving everything to Unicode. self.substs_unicode = {} def decode(v): if not isinstance(v, text_type): try: return v.decode('utf-8') except UnicodeDecodeError: return v.decode('utf-8', 'replace') for k, v in self.substs.items(): if not isinstance(v, StringTypes): if isinstance(v, Iterable): type(v)(decode(i) for i in v) elif not isinstance(v, text_type): v = decode(v) self.substs_unicode[k] = v self.substs_unicode = ReadOnlyDict(self.substs_unicode)
class Sandbox(dict): """Represents a sandbox for executing Python code. This class provides a sandbox for execution of a single mozbuild frontend file. The results of that execution is stored in the Context instance given as the ``context`` argument. Sandbox is effectively a glorified wrapper around compile() + exec(). You point it at some Python code and it executes it. The main difference from executing Python code like normal is that the executed code is very limited in what it can do: the sandbox only exposes a very limited set of Python functionality. Only specific types and functions are available. This prevents executed code from doing things like import modules, open files, etc. Sandbox instances act as global namespace for the sandboxed execution itself. They shall not be used to access the results of the execution. Those results are available in the given Context instance after execution. The Sandbox itself is responsible for enforcing rules such as forbidding reassignment of variables. Implementation note: Sandbox derives from dict because exec() insists that what it is given for namespaces is a dict. """ # The default set of builtins. BUILTINS = ReadOnlyDict({ # Only real Python built-ins should go here. 'None': None, 'False': False, 'True': True, 'sorted': alphabetical_sorted, 'int': int, }) def __init__(self, context, builtins=None): """Initialize a Sandbox ready for execution. """ self._builtins = builtins or self.BUILTINS dict.__setitem__(self, '__builtins__', self._builtins) assert isinstance(self._builtins, ReadOnlyDict) assert isinstance(context, Context) self._context = context # We need to record this because it gets swallowed as part of # evaluation. self._last_name_error = None def exec_file(self, path): """Execute code at a path in the sandbox. The path must be absolute. """ assert os.path.isabs(path) source = None try: with open(path, 'rt') as fd: source = fd.read() except Exception as e: raise SandboxLoadError(self._context.source_stack, sys.exc_info()[2], read_error=path) self.exec_source(source, path) def exec_source(self, source, path=''): """Execute Python code within a string. The passed string should contain Python code to be executed. The string will be compiled and executed. You should almost always go through exec_file() because exec_source() does not perform extra path normalization. This can cause relative paths to behave weirdly. """ if path: self._context.push_source(path) # We don't have to worry about bytecode generation here because we are # too low-level for that. However, we could add bytecode generation via # the marshall module if parsing performance were ever an issue. try: # compile() inherits the __future__ from the module by default. We # do want Unicode literals. code = compile(source, path, 'exec') # We use ourself as the global namespace for the execution. There # is no need for a separate local namespace as moz.build execution # is flat, namespace-wise. exec(code, self) except SandboxError as e: raise e except NameError as e: # A NameError is raised when a variable could not be found. # The original KeyError has been dropped by the interpreter. # However, we should have it cached in our instance! # Unless a script is doing something wonky like catching NameError # itself (that would be silly), if there is an exception on the # global namespace, that's our error. actual = e if self._last_name_error is not None: actual = self._last_name_error raise SandboxExecutionError(self._context.source_stack, type(actual), actual, sys.exc_info()[2]) except Exception as e: # Need to copy the stack otherwise we get a reference and that is # mutated during the finally. exc = sys.exc_info() raise SandboxExecutionError(self._context.source_stack, exc[0], exc[1], exc[2]) finally: if path: self._context.pop_source() def __getitem__(self, key): if key.isupper(): try: return self._context[key] except Exception as e: self._last_name_error = e raise return dict.__getitem__(self, key) def __setitem__(self, key, value): if key in self._builtins or key == '__builtins__': raise KeyError('Cannot reassign builtins') if key.isupper(): # Forbid assigning over a previously set value. Interestingly, when # doing FOO += ['bar'], python actually does something like: # foo = namespace.__getitem__('FOO') # foo.__iadd__(['bar']) # namespace.__setitem__('FOO', foo) # This means __setitem__ is called with the value that is already # in the dict, when doing +=, which is permitted. if key in self._context and self._context[key] is not value: raise KeyError('global_ns', 'reassign', key) self._context[key] = value else: dict.__setitem__(self, key, value) def get(self, key, default=None): raise NotImplementedError('Not supported') def __len__(self): raise NotImplementedError('Not supported') def __iter__(self): raise NotImplementedError('Not supported') def __contains__(self, key): raise NotImplementedError('Not supported')
class Sandbox(dict): """Represents a sandbox for executing Python code. This class provides a sandbox for execution of a single mozbuild frontend file. The results of that execution is stored in the Context instance given as the ``context`` argument. Sandbox is effectively a glorified wrapper around compile() + exec(). You point it at some Python code and it executes it. The main difference from executing Python code like normal is that the executed code is very limited in what it can do: the sandbox only exposes a very limited set of Python functionality. Only specific types and functions are available. This prevents executed code from doing things like import modules, open files, etc. Sandbox instances act as global namespace for the sandboxed execution itself. They shall not be used to access the results of the execution. Those results are available in the given Context instance after execution. The Sandbox itself is responsible for enforcing rules such as forbidding reassignment of variables. Implementation note: Sandbox derives from dict because exec() insists that what it is given for namespaces is a dict. """ # The default set of builtins. BUILTINS = ReadOnlyDict({ # Only real Python built-ins should go here. 'None': None, 'False': False, 'True': True, 'sorted': alphabetical_sorted, 'int': int, 'set': set, 'tuple': tuple, }) def __init__(self, context, finder=default_finder): """Initialize a Sandbox ready for execution. """ self._builtins = self.BUILTINS dict.__setitem__(self, '__builtins__', self._builtins) assert isinstance(self._builtins, ReadOnlyDict) assert isinstance(context, Context) # Contexts are modeled as a stack because multiple context managers # may be active. self._active_contexts = [context] # Seen sub-contexts. Will be populated with other Context instances # that were related to execution of this instance. self.subcontexts = [] # We need to record this because it gets swallowed as part of # evaluation. self._last_name_error = None # Current literal source being executed. self._current_source = None self._finder = finder @property def _context(self): return self._active_contexts[-1] def exec_file(self, path): """Execute code at a path in the sandbox. The path must be absolute. """ assert os.path.isabs(path) try: source = self._finder.get(path).read() except Exception: raise SandboxLoadError(self._context.source_stack, sys.exc_info()[2], read_error=path) self.exec_source(source, path) def exec_source(self, source, path=''): """Execute Python code within a string. The passed string should contain Python code to be executed. The string will be compiled and executed. You should almost always go through exec_file() because exec_source() does not perform extra path normalization. This can cause relative paths to behave weirdly. """ def execute(): # compile() inherits the __future__ from the module by default. We # do want Unicode literals. code = compile(source, path, 'exec') # We use ourself as the global namespace for the execution. There # is no need for a separate local namespace as moz.build execution # is flat, namespace-wise. old_source = self._current_source self._current_source = source try: exec_(code, self) finally: self._current_source = old_source self.exec_function(execute, path=path) def exec_function(self, func, args=(), kwargs={}, path='', becomes_current_path=True): """Execute function with the given arguments in the sandbox. """ if path and becomes_current_path: self._context.push_source(path) old_sandbox = self._context._sandbox self._context._sandbox = weakref.ref(self) # We don't have to worry about bytecode generation here because we are # too low-level for that. However, we could add bytecode generation via # the marshall module if parsing performance were ever an issue. old_source = self._current_source self._current_source = None try: func(*args, **kwargs) except SandboxError as e: raise e except NameError as e: # A NameError is raised when a variable could not be found. # The original KeyError has been dropped by the interpreter. # However, we should have it cached in our instance! # Unless a script is doing something wonky like catching NameError # itself (that would be silly), if there is an exception on the # global namespace, that's our error. actual = e if self._last_name_error is not None: actual = self._last_name_error source_stack = self._context.source_stack if not becomes_current_path: # Add current file to the stack because it wasn't added before # sandbox execution. source_stack.append(path) raise SandboxExecutionError(source_stack, type(actual), actual, sys.exc_info()[2]) except Exception: # Need to copy the stack otherwise we get a reference and that is # mutated during the finally. exc = sys.exc_info() source_stack = self._context.source_stack if not becomes_current_path: # Add current file to the stack because it wasn't added before # sandbox execution. source_stack.append(path) raise SandboxExecutionError(source_stack, exc[0], exc[1], exc[2]) finally: self._current_source = old_source self._context._sandbox = old_sandbox if path and becomes_current_path: self._context.pop_source() def push_subcontext(self, context): """Push a SubContext onto the execution stack. When called, the active context will be set to the specified context, meaning all variable accesses will go through it. We also record this SubContext as having been executed as part of this sandbox. """ self._active_contexts.append(context) if context not in self.subcontexts: self.subcontexts.append(context) def pop_subcontext(self, context): """Pop a SubContext off the execution stack. SubContexts must be pushed and popped in opposite order. This is validated as part of the function call to ensure proper consumer API use. """ popped = self._active_contexts.pop() assert popped == context def __getitem__(self, key): if key.isupper(): try: return self._context[key] except Exception as e: self._last_name_error = e raise return dict.__getitem__(self, key) def __setitem__(self, key, value): if key in self._builtins or key == '__builtins__': raise KeyError('Cannot reassign builtins') if key.isupper(): # Forbid assigning over a previously set value. Interestingly, when # doing FOO += ['bar'], python actually does something like: # foo = namespace.__getitem__('FOO') # foo.__iadd__(['bar']) # namespace.__setitem__('FOO', foo) # This means __setitem__ is called with the value that is already # in the dict, when doing +=, which is permitted. if key in self._context and self._context[key] is not value: raise KeyError('global_ns', 'reassign', key) if (key not in self._context and isinstance(value, (list, dict)) and not value): raise KeyError('Variable %s assigned an empty value.' % key) self._context[key] = value else: dict.__setitem__(self, key, value) def get(self, key, default=None): raise NotImplementedError('Not supported') def __len__(self): raise NotImplementedError('Not supported') def __iter__(self): raise NotImplementedError('Not supported') def __contains__(self, key): if key.isupper(): return key in self._context return dict.__contains__(self, key)
class ConfigEnvironment(object): """Perform actions associated with a configured but bare objdir. The purpose of this class is to preprocess files from the source directory and output results in the object directory. There are two types of files: config files and config headers, each treated through a different member function. Creating a ConfigEnvironment requires a few arguments: - topsrcdir and topobjdir are, respectively, the top source and the top object directory. - defines is a dict filled from AC_DEFINE and AC_DEFINE_UNQUOTED in autoconf. - non_global_defines are a list of names appearing in defines above that are not meant to be exported in ACDEFINES (see below) - substs is a dict filled from AC_SUBST in autoconf. ConfigEnvironment automatically defines one additional substs variable from all the defines not appearing in non_global_defines: - ACDEFINES contains the defines in the form -DNAME=VALUE, for use on preprocessor command lines. The order in which defines were given when creating the ConfigEnvironment is preserved. and two other additional subst variables from all the other substs: - ALLSUBSTS contains the substs in the form NAME = VALUE, in sorted order, for use in autoconf.mk. It includes ACDEFINES Only substs with a VALUE are included, such that the resulting file doesn't change when new empty substs are added. This results in less invalidation of build dependencies in the case of autoconf.mk.. - ALLEMPTYSUBSTS contains the substs with an empty value, in the form NAME =. ConfigEnvironment expects a "top_srcdir" subst to be set with the top source directory, in msys format on windows. It is used to derive a "srcdir" subst when treating config files. It can either be an absolute path or a path relative to the topobjdir. """ def __init__(self, topsrcdir, topobjdir, defines=None, non_global_defines=None, substs=None, source=None, mozconfig=None): if not source: source = mozpath.join(topobjdir, 'config.status') self.source = source self.defines = ReadOnlyDict(defines or {}) self.non_global_defines = non_global_defines or [] self.substs = dict(substs or {}) self.topsrcdir = mozpath.abspath(topsrcdir) self.topobjdir = mozpath.abspath(topobjdir) self.mozconfig = mozpath.abspath(mozconfig) if mozconfig else None self.lib_prefix = self.substs.get('LIB_PREFIX', '') self.rust_lib_prefix = self.substs.get('RUST_LIB_PREFIX', '') if 'LIB_SUFFIX' in self.substs: self.lib_suffix = '.%s' % self.substs['LIB_SUFFIX'] if 'RUST_LIB_SUFFIX' in self.substs: self.rust_lib_suffix = '.%s' % self.substs['RUST_LIB_SUFFIX'] self.dll_prefix = self.substs.get('DLL_PREFIX', '') self.dll_suffix = self.substs.get('DLL_SUFFIX', '') self.host_dll_prefix = self.substs.get('HOST_DLL_PREFIX', '') self.host_dll_suffix = self.substs.get('HOST_DLL_SUFFIX', '') if self.substs.get('IMPORT_LIB_SUFFIX'): self.import_prefix = self.lib_prefix self.import_suffix = '.%s' % self.substs['IMPORT_LIB_SUFFIX'] else: self.import_prefix = self.dll_prefix self.import_suffix = self.dll_suffix self.bin_suffix = self.substs.get('BIN_SUFFIX', '') global_defines = [ name for name in self.defines if name not in self.non_global_defines ] self.substs["ACDEFINES"] = ' '.join([ '-D%s=%s' % (name, shell_quote(self.defines[name]).replace('$', '$$')) for name in sorted(global_defines) ]) def serialize(name, obj): if isinstance(obj, six.string_types): return obj if isinstance(obj, Iterable): return ' '.join(obj) raise Exception('Unhandled type %s for %s', type(obj), str(name)) self.substs['ALLSUBSTS'] = '\n'.join( sorted([ '%s = %s' % (name, serialize(name, self.substs[name])) for name in self.substs if self.substs[name] ])) self.substs['ALLEMPTYSUBSTS'] = '\n'.join( sorted([ '%s =' % name for name in self.substs if not self.substs[name] ])) self.substs = ReadOnlyDict(self.substs) self.external_source_dir = None external = self.substs.get('EXTERNAL_SOURCE_DIR', '') if external: external = mozpath.normpath(external) if not os.path.isabs(external): external = mozpath.join(self.topsrcdir, external) self.external_source_dir = mozpath.normpath(external) @property def is_artifact_build(self): return self.substs.get('MOZ_ARTIFACT_BUILDS', False) @memoized_property def acdefines(self): acdefines = dict((name, self.defines[name]) for name in self.defines if name not in self.non_global_defines) return ReadOnlyDict(acdefines) @staticmethod def from_config_status(path): config = BuildConfig.from_config_status(path) return ConfigEnvironment(config.topsrcdir, config.topobjdir, config.defines, config.non_global_defines, config.substs, path)
class ConfigEnvironment(object): """Perform actions associated with a configured but bare objdir. The purpose of this class is to preprocess files from the source directory and output results in the object directory. There are two types of files: config files and config headers, each treated through a different member function. Creating a ConfigEnvironment requires a few arguments: - topsrcdir and topobjdir are, respectively, the top source and the top object directory. - defines is a dict filled from AC_DEFINE and AC_DEFINE_UNQUOTED in autoconf. - non_global_defines are a list of names appearing in defines above that are not meant to be exported in ACDEFINES (see below) - substs is a dict filled from AC_SUBST in autoconf. ConfigEnvironment automatically defines one additional substs variable from all the defines not appearing in non_global_defines: - ACDEFINES contains the defines in the form -DNAME=VALUE, for use on preprocessor command lines. The order in which defines were given when creating the ConfigEnvironment is preserved. and two other additional subst variables from all the other substs: - ALLSUBSTS contains the substs in the form NAME = VALUE, in sorted order, for use in autoconf.mk. It includes ACDEFINES Only substs with a VALUE are included, such that the resulting file doesn't change when new empty substs are added. This results in less invalidation of build dependencies in the case of autoconf.mk.. - ALLEMPTYSUBSTS contains the substs with an empty value, in the form NAME =. ConfigEnvironment expects a "top_srcdir" subst to be set with the top source directory, in msys format on windows. It is used to derive a "srcdir" subst when treating config files. It can either be an absolute path or a path relative to the topobjdir. """ def __init__(self, topsrcdir, topobjdir, defines=None, non_global_defines=None, substs=None, source=None, mozconfig=None): if not source: source = mozpath.join(topobjdir, 'config.status') self.source = source self.defines = ReadOnlyDict(defines or {}) self.non_global_defines = non_global_defines or [] self.substs = dict(substs or {}) self.topsrcdir = mozpath.abspath(topsrcdir) self.topobjdir = mozpath.abspath(topobjdir) self.mozconfig = mozpath.abspath(mozconfig) if mozconfig else None self.lib_prefix = self.substs.get('LIB_PREFIX', '') if 'LIB_SUFFIX' in self.substs: self.lib_suffix = '.%s' % self.substs['LIB_SUFFIX'] self.dll_prefix = self.substs.get('DLL_PREFIX', '') self.dll_suffix = self.substs.get('DLL_SUFFIX', '') if self.substs.get('IMPORT_LIB_SUFFIX'): self.import_prefix = self.lib_prefix self.import_suffix = '.%s' % self.substs['IMPORT_LIB_SUFFIX'] else: self.import_prefix = self.dll_prefix self.import_suffix = self.dll_suffix global_defines = [name for name in self.defines if not name in self.non_global_defines] self.substs['ACDEFINES'] = ' '.join(['-D%s=%s' % (name, shell_quote(self.defines[name]).replace('$', '$$')) for name in sorted(global_defines)]) def serialize(obj): if isinstance(obj, StringTypes): return obj if isinstance(obj, Iterable): return ' '.join(obj) raise Exception('Unhandled type %s', type(obj)) self.substs['ALLSUBSTS'] = '\n'.join(sorted(['%s = %s' % (name, serialize(self.substs[name])) for name in self.substs if self.substs[name]])) self.substs['ALLEMPTYSUBSTS'] = '\n'.join(sorted(['%s =' % name for name in self.substs if not self.substs[name]])) self.substs = ReadOnlyDict(self.substs) self.external_source_dir = None external = self.substs.get('EXTERNAL_SOURCE_DIR', '') if external: external = mozpath.normpath(external) if not os.path.isabs(external): external = mozpath.join(self.topsrcdir, external) self.external_source_dir = mozpath.normpath(external) # Populate a Unicode version of substs. This is an optimization to make # moz.build reading faster, since each sandbox needs a Unicode version # of these variables and doing it over a thousand times is a hotspot # during sandbox execution! # Bug 844509 tracks moving everything to Unicode. self.substs_unicode = {} def decode(v): if not isinstance(v, text_type): try: return v.decode('utf-8') except UnicodeDecodeError: return v.decode('utf-8', 'replace') for k, v in self.substs.items(): if not isinstance(v, StringTypes): if isinstance(v, Iterable): type(v)(decode(i) for i in v) elif not isinstance(v, text_type): v = decode(v) self.substs_unicode[k] = v self.substs_unicode = ReadOnlyDict(self.substs_unicode) @property def is_artifact_build(self): return self.substs.get('MOZ_ARTIFACT_BUILDS', False) @staticmethod def from_config_status(path): config = BuildConfig.from_config_status(path) return ConfigEnvironment(config.topsrcdir, config.topobjdir, config.defines, config.non_global_defines, config.substs, path)
def __init__(self, topsrcdir, topobjdir, defines=None, non_global_defines=None, substs=None, source=None, mozconfig=None): if not source: source = mozpath.join(topobjdir, 'config.status') self.source = source self.defines = ReadOnlyDict(defines or {}) self.non_global_defines = non_global_defines or [] self.substs = dict(substs or {}) self.topsrcdir = mozpath.abspath(topsrcdir) self.topobjdir = mozpath.abspath(topobjdir) self.mozconfig = mozpath.abspath(mozconfig) if mozconfig else None self.lib_prefix = self.substs.get('LIB_PREFIX', '') self.rust_lib_prefix = self.substs.get('RUST_LIB_PREFIX', '') if 'LIB_SUFFIX' in self.substs: self.lib_suffix = '.%s' % self.substs['LIB_SUFFIX'] if 'RUST_LIB_SUFFIX' in self.substs: self.rust_lib_suffix = '.%s' % self.substs['RUST_LIB_SUFFIX'] self.dll_prefix = self.substs.get('DLL_PREFIX', '') self.dll_suffix = self.substs.get('DLL_SUFFIX', '') self.host_dll_prefix = self.substs.get('HOST_DLL_PREFIX', '') self.host_dll_suffix = self.substs.get('HOST_DLL_SUFFIX', '') if self.substs.get('IMPORT_LIB_SUFFIX'): self.import_prefix = self.lib_prefix self.import_suffix = '.%s' % self.substs['IMPORT_LIB_SUFFIX'] else: self.import_prefix = self.dll_prefix self.import_suffix = self.dll_suffix self.bin_suffix = self.substs.get('BIN_SUFFIX', '') global_defines = [ name for name in self.defines if name not in self.non_global_defines ] self.substs["ACDEFINES"] = ' '.join([ '-D%s=%s' % (name, shell_quote(self.defines[name]).replace('$', '$$')) for name in sorted(global_defines) ]) def serialize(name, obj): if isinstance(obj, six.string_types): return obj if isinstance(obj, Iterable): return ' '.join(obj) raise Exception('Unhandled type %s for %s', type(obj), str(name)) self.substs['ALLSUBSTS'] = '\n'.join( sorted([ '%s = %s' % (name, serialize(name, self.substs[name])) for name in self.substs if self.substs[name] ])) self.substs['ALLEMPTYSUBSTS'] = '\n'.join( sorted([ '%s =' % name for name in self.substs if not self.substs[name] ])) self.substs = ReadOnlyDict(self.substs) self.external_source_dir = None external = self.substs.get('EXTERNAL_SOURCE_DIR', '') if external: external = mozpath.normpath(external) if not os.path.isabs(external): external = mozpath.join(self.topsrcdir, external) self.external_source_dir = mozpath.normpath(external) # Populate a Unicode version of substs. This is an optimization to make # moz.build reading faster, since each sandbox needs a Unicode version # of these variables and doing it over a thousand times is a hotspot # during sandbox execution! # Bug 844509 tracks moving everything to Unicode. self.substs_unicode = {} def decode(v): if not isinstance(v, six.text_type): try: return v.decode('utf-8') except UnicodeDecodeError: return v.decode('utf-8', 'replace') for k, v in self.substs.items(): if not isinstance(v, six.string_types): if isinstance(v, Iterable): type(v)(decode(i) for i in v) elif not isinstance(v, six.text_type): v = decode(v) self.substs_unicode[k] = v self.substs_unicode = ReadOnlyDict(self.substs_unicode)
class ConfigureSandbox(dict): """Represents a sandbox for executing Python code for build configuration. This is a different kind of sandboxing than the one used for moz.build processing. The sandbox has 5 primitives: - option - depends - template - advanced - include `option` and `include` are functions. `depends`, `template` and `advanced` are decorators. These primitives are declared as name_impl methods to this class and the mapping name -> name_impl is done automatically in __getitem__. Additional primitives should be frowned upon to keep the sandbox itself as simple as possible. Instead, helpers should be created within the sandbox with the existing primitives. The sandbox is given, at creation, a dict where the yielded configuration will be stored. config = {} sandbox = ConfigureSandbox(config) sandbox.run(path) do_stuff(config) """ # The default set of builtins. BUILTINS = ReadOnlyDict( { b: __builtins__[b] for b in ('None', 'False', 'True', 'int', 'bool', 'any', 'all', 'len', 'list', 'tuple', 'set', 'dict', 'isinstance') }, __import__=forbidden_import) # Expose a limited set of functions from os.path OS = ReadOnlyNamespace(path=ReadOnlyNamespace( **{ k: getattr(mozpath, k, getattr(os.path, k)) for k in ('abspath', 'basename', 'dirname', 'exists', 'isabs', 'isdir', 'isfile', 'join', 'normpath', 'realpath', 'relpath') })) def __init__(self, config, environ=os.environ, argv=sys.argv, stdout=sys.stdout, stderr=sys.stderr): dict.__setitem__(self, '__builtins__', self.BUILTINS) self._paths = [] self._templates = set() # Store the real function and its dependencies, behind each # DummyFunction generated from @depends. self._depends = {} self._seen = set() self._options = OrderedDict() # Store the raw values returned by @depends functions self._results = {} # Store values for each Option, as per returned by Option.get_value self._option_values = {} # Store raw option (as per command line or environment) for each Option self._raw_options = {} # Store options added with `imply_option`, and the reason they were # added (which can either have been given to `imply_option`, or # inferred. self._implied_options = {} # Store all results from _prepare_function self._prepared_functions = set() self._helper = CommandLineHelper(environ, argv) assert isinstance(config, dict) self._config, self._stdout, self._stderr = config, stdout, stderr self._help = None self._help_option = self.option_impl('--help', help='print this message') self._seen.add(self._help_option) # self._option_impl('--help') will have set this if --help was on the # command line. if self._option_values[self._help_option]: self._help = HelpFormatter(argv[0]) self._help.add(self._help_option) def exec_file(self, path): '''Execute one file within the sandbox. Users of this class probably want to use `run` instead.''' if self._paths: path = mozpath.join(mozpath.dirname(self._paths[-1]), path) if not mozpath.basedir(path, (mozpath.dirname(self._paths[0]), )): raise ConfigureError( 'Cannot include `%s` because it is not in a subdirectory ' 'of `%s`' % (path, mozpath.dirname(self._paths[0]))) else: path = mozpath.realpath(mozpath.abspath(path)) if path in self._paths: raise ConfigureError( 'Cannot include `%s` because it was included already.' % path) self._paths.append(path) source = open(path, 'rb').read() code = compile(source, path, 'exec') exec(code, self) self._paths.pop(-1) def run(self, path): '''Executes the given file within the sandbox, and ensure the overall consistency of the executed script.''' self.exec_file(path) # All command line arguments should have been removed (handled) by now. for arg in self._helper: without_value = arg.split('=', 1)[0] if arg in self._implied_options: frameinfo, reason = self._implied_options[arg] raise ConfigureError( '`%s`, emitted from `%s` line `%d`, was not handled.' % (without_value, frameinfo[1], frameinfo[2])) raise InvalidOptionError('Unknown option: %s' % without_value) # All options must be referenced by some @depends function for option in self._options.itervalues(): if option not in self._seen: raise ConfigureError( 'Option `%s` is not handled ; reference it with a @depends' % option.option) if self._help: self._help.usage(self._stdout) def __getitem__(self, key): impl = '%s_impl' % key func = getattr(self, impl, None) if func: return func return super(ConfigureSandbox, self).__getitem__(key) def __setitem__(self, key, value): if (key in self.BUILTINS or key == '__builtins__' or hasattr(self, '%s_impl' % key)): raise KeyError('Cannot reassign builtins') if (not isinstance(value, DummyFunction) and value not in self._templates): raise KeyError('Cannot assign `%s` because it is neither a ' '@depends nor a @template' % key) return super(ConfigureSandbox, self).__setitem__(key, value) def _resolve(self, arg, need_help_dependency=True): if isinstance(arg, DummyFunction): assert arg in self._depends func, deps = self._depends[arg] assert not inspect.isgeneratorfunction(func) assert func in self._results if need_help_dependency and self._help_option not in deps: raise ConfigureError("Missing @depends for `%s`: '--help'" % func.__name__) result = self._results[func] return result return arg def option_impl(self, *args, **kwargs): '''Implementation of option() This function creates and returns an Option() object, passing it the resolved arguments (uses the result of functions when functions are passed). In most cases, the result of this function is not expected to be used. Command line argument/environment variable parsing for this Option is handled here. ''' args = [self._resolve(arg) for arg in args] kwargs = {k: self._resolve(v) for k, v in kwargs.iteritems()} option = Option(*args, **kwargs) if option.name in self._options: raise ConfigureError('Option `%s` already defined' % self._options[option.name].option) if option.env in self._options: raise ConfigureError('Option `%s` already defined' % self._options[option.env].option) if option.name: self._options[option.name] = option if option.env: self._options[option.env] = option try: value, option_string = self._helper.handle(option) except ConflictingOptionError as e: frameinfo, reason = self._implied_options[e.arg] raise InvalidOptionError( "'%s' implied by '%s' conflicts with '%s' from the %s" % (e.arg, reason, e.old_arg, e.old_origin)) if self._help: self._help.add(option) self._option_values[option] = value self._raw_options[option] = (option_string.split('=', 1)[0] if option_string else option_string) return option def depends_impl(self, *args): '''Implementation of @depends() This function is a decorator. It returns a function that subsequently takes a function and returns a dummy function. The dummy function identifies the actual function for the sandbox, while preventing further function calls from within the sandbox. @depends() takes a variable number of option strings or dummy function references. The decorated function is called as soon as the decorator is called, and the arguments it receives are the OptionValue or function results corresponding to each of the arguments to @depends. As an exception, when a HelpFormatter is attached, only functions that have '--help' in their @depends argument list are called. The decorated function is altered to use a different global namespace for its execution. This different global namespace exposes a limited set of functions from os.path. ''' if not args: raise ConfigureError('@depends needs at least one argument') resolved_args = [] dependencies = [] for arg in args: if isinstance(arg, types.StringTypes): prefix, name, values = Option.split_option(arg) if values != (): raise ConfigureError("Option must not contain an '='") if name not in self._options: raise ConfigureError("'%s' is not a known option. " "Maybe it's declared too late?" % arg) arg = self._options[name] self._seen.add(arg) dependencies.append(arg) assert arg in self._option_values or self._help resolved_arg = self._option_values.get(arg) elif isinstance(arg, DummyFunction): assert arg in self._depends dependencies.append(arg) arg, _ = self._depends[arg] resolved_arg = self._results.get(arg) else: raise TypeError( "Cannot use object of type '%s' as argument to @depends" % type(arg)) resolved_args.append(resolved_arg) dependencies = tuple(dependencies) def decorator(func): if inspect.isgeneratorfunction(func): raise ConfigureError( 'Cannot decorate generator functions with @depends') func, glob = self._prepare_function(func) dummy = wraps(func)(DummyFunction()) self._depends[dummy] = func, dependencies with_help = self._help_option in dependencies if with_help: for arg in args: if isinstance(arg, DummyFunction): _, deps = self._depends[arg] if self._help_option not in deps: raise ConfigureError( "`%s` depends on '--help' and `%s`. " "`%s` must depend on '--help'" % (func.__name__, arg.__name__, arg.__name__)) if not self._help or with_help: self._results[func] = func(*resolved_args) return dummy return decorator def include_impl(self, what): '''Implementation of include(). Allows to include external files for execution in the sandbox. It is possible to use a @depends function as argument, in which case the result of the function is the file name to include. This latter feature is only really meant for --enable-application/--enable-project. ''' what = self._resolve(what) if what: if not isinstance(what, types.StringTypes): raise TypeError("Unexpected type: '%s'" % type(what)) self.exec_file(what) def template_impl(self, func): '''Implementation of @template. This function is a decorator. Template functions are called immediately. They are altered so that their global namespace exposes a limited set of functions from os.path, as well as `advanced`, `depends` and `option`. Templates allow to simplify repetitive constructs, or to implement helper decorators and somesuch. ''' template, glob = self._prepare_function(func) glob.update((k[:-len('_impl')], getattr(self, k)) for k in dir(self) if k.endswith('_impl') and k != 'template_impl') self._templates.add(template) return template def advanced_impl(self, func): '''Implementation of @advanced. This function gives the decorated function access to the complete set of builtins, allowing the import keyword as an expected side effect. ''' func, glob = self._prepare_function(func) glob.update(__builtins__=__builtins__) return func def _resolve_and_set(self, data, name, value): # Don't set anything when --help was on the command line if self._help: return name = self._resolve(name, need_help_dependency=False) if name is None: return if not isinstance(name, types.StringTypes): raise TypeError("Unexpected type: '%s'" % type(name)) if name in data: raise ConfigureError( "Cannot add '%s' to configuration: Key already " "exists" % name) value = self._resolve(value, need_help_dependency=False) if value is not None: data[name] = value def set_config_impl(self, name, value): '''Implementation of set_config(). Set the configuration items with the given name to the given value. Both `name` and `value` can be references to @depends functions, in which case the result from these functions is used. If the result of either function is None, the configuration item is not set. ''' self._resolve_and_set(self._config, name, value) def set_define_impl(self, name, value): '''Implementation of set_define(). Set the define with the given name to the given value. Both `name` and `value` can be references to @depends functions, in which case the result from these functions is used. If the result of either function is None, the define is not set. If the result is False, the define is explicitly undefined (-U). ''' defines = self._config.setdefault('DEFINES', {}) self._resolve_and_set(defines, name, value) def imply_option_impl(self, option, value, reason=None): '''Implementation of imply_option(). Injects additional options as if they had been passed on the command line. The `option` argument is a string as in option()'s `name` or `env`. The option must be declared after `imply_option` references it. The `value` argument indicates the value to pass to the option. It can be: - True. In this case `imply_option` injects the positive option (--enable-foo/--with-foo). imply_option('--enable-foo', True) imply_option('--disable-foo', True) are both equivalent to `--enable-foo` on the command line. - False. In this case `imply_option` injects the negative option (--disable-foo/--without-foo). imply_option('--enable-foo', False) imply_option('--disable-foo', False) are both equivalent to `--disable-foo` on the command line. - None. In this case `imply_option` does nothing. imply_option('--enable-foo', None) imply_option('--disable-foo', None) are both equivalent to not passing any flag on the command line. - a string or a tuple. In this case `imply_option` injects the positive option with the given value(s). imply_option('--enable-foo', 'a') imply_option('--disable-foo', 'a') are both equivalent to `--enable-foo=a` on the command line. imply_option('--enable-foo', ('a', 'b')) imply_option('--disable-foo', ('a', 'b')) are both equivalent to `--enable-foo=a,b` on the command line. Because imply_option('--disable-foo', ...) can be misleading, it is recommended to use the positive form ('--enable' or '--with') for `option`. The `value` argument can also be (and usually is) a reference to a @depends function, in which case the result of that function will be used as per the descripted mapping above. The `reason` argument indicates what caused the option to be implied. It is necessary when it cannot be inferred from the `value`. ''' # Don't do anything when --help was on the command line if self._help: return if not reason and isinstance(value, DummyFunction): deps = self._depends[value][1] possible_reasons = [d for d in deps if d != self._help_option] if len(possible_reasons) == 1: if isinstance(possible_reasons[0], Option): reason = (self._raw_options.get(possible_reasons[0]) or possible_reasons[0].option) if not reason or not isinstance(value, DummyFunction): raise ConfigureError( "Cannot infer what implies '%s'. Please add a `reason` to " "the `imply_option` call." % option) value = self._resolve(value, need_help_dependency=False) if value is not None: if isinstance(value, OptionValue): pass elif value is True: value = PositiveOptionValue() elif value is False or value == (): value = NegativeOptionValue() elif isinstance(value, types.StringTypes): value = PositiveOptionValue((value, )) elif isinstance(value, tuple): value = PositiveOptionValue(value) else: raise TypeError("Unexpected type: '%s'" % type(value)) option = value.format(option) self._helper.add(option, 'implied') self._implied_options[option] = inspect.stack()[1], reason def _prepare_function(self, func): '''Alter the given function global namespace with the common ground for @depends, @template and @advanced. ''' if not inspect.isfunction(func): raise TypeError("Unexpected type: '%s'" % type(func)) if func in self._prepared_functions: return func, func.func_globals glob = SandboxedGlobal(func.func_globals) glob.update( __builtins__=self.BUILTINS, __file__=self._paths[-1], os=self.OS, ) func = wraps(func)(types.FunctionType(func.func_code, glob, func.__name__, func.func_defaults, func.func_closure)) self._prepared_functions.add(func) return func, glob
class ConfigureSandbox(dict): """Represents a sandbox for executing Python code for build configuration. This is a different kind of sandboxing than the one used for moz.build processing. The sandbox has 8 primitives: - option - depends - template - imports - include - set_config - set_define - imply_option `option`, `include`, `set_config`, `set_define` and `imply_option` are functions. `depends`, `template`, and `imports` are decorators. These primitives are declared as name_impl methods to this class and the mapping name -> name_impl is done automatically in __getitem__. Additional primitives should be frowned upon to keep the sandbox itself as simple as possible. Instead, helpers should be created within the sandbox with the existing primitives. The sandbox is given, at creation, a dict where the yielded configuration will be stored. config = {} sandbox = ConfigureSandbox(config) sandbox.run(path) do_stuff(config) """ # The default set of builtins. We expose unicode as str to make sandboxed # files more python3-ready. BUILTINS = ReadOnlyDict( { b: __builtins__[b] for b in ('None', 'False', 'True', 'int', 'bool', 'any', 'all', 'len', 'list', 'tuple', 'set', 'dict', 'isinstance') }, __import__=forbidden_import, str=unicode) # Expose a limited set of functions from os.path OS = ReadOnlyNamespace(path=ReadOnlyNamespace( **{ k: getattr(mozpath, k, getattr(os.path, k)) for k in ('abspath', 'basename', 'dirname', 'exists', 'isabs', 'isdir', 'isfile', 'join', 'normpath', 'realpath', 'relpath') })) def __init__(self, config, environ=os.environ, argv=sys.argv, stdout=sys.stdout, stderr=sys.stderr, logger=None): dict.__setitem__(self, '__builtins__', self.BUILTINS) self._paths = [] self._templates = set() # Store the real function and its dependencies, behind each # DependsFunction generated from @depends. self._depends = {} self._seen = set() # Store the @imports added to a given function. self._imports = {} self._options = OrderedDict() # Store the raw values returned by @depends functions self._results = {} # Store values for each Option, as per returned by Option.get_value self._option_values = {} # Store raw option (as per command line or environment) for each Option self._raw_options = {} # Store options added with `imply_option`, and the reason they were # added (which can either have been given to `imply_option`, or # inferred. self._implied_options = {} # Store all results from _prepare_function self._prepared_functions = set() self._helper = CommandLineHelper(environ, argv) assert isinstance(config, dict) self._config = config if logger is None: logger = moz_logger = logging.getLogger('moz.configure') logger.setLevel(logging.DEBUG) formatter = logging.Formatter('%(levelname)s: %(message)s') handler = ConfigureOutputHandler(stdout, stderr) handler.setFormatter(formatter) queue_debug = handler.queue_debug logger.addHandler(handler) else: assert isinstance(logger, logging.Logger) moz_logger = None @contextmanager def queue_debug(): yield log_namespace = { k: getattr(logger, k) for k in ('debug', 'info', 'warning', 'error') } log_namespace['queue_debug'] = queue_debug self.log_impl = ReadOnlyNamespace(**log_namespace) self._help = None self._help_option = self.option_impl('--help', help='print this message') self._seen.add(self._help_option) # self._option_impl('--help') will have set this if --help was on the # command line. if self._option_values[self._help_option]: self._help = HelpFormatter(argv[0]) self._help.add(self._help_option) elif moz_logger: handler = logging.FileHandler('config.log', mode='w', delay=True) handler.setFormatter(formatter) logger.addHandler(handler) def exec_file(self, path): '''Execute one file within the sandbox. Users of this class probably want to use `run` instead.''' if self._paths: path = mozpath.join(mozpath.dirname(self._paths[-1]), path) if not mozpath.basedir(path, (mozpath.dirname(self._paths[0]), )): raise ConfigureError( 'Cannot include `%s` because it is not in a subdirectory ' 'of `%s`' % (path, mozpath.dirname(self._paths[0]))) else: path = mozpath.realpath(mozpath.abspath(path)) if path in self._paths: raise ConfigureError( 'Cannot include `%s` because it was included already.' % path) self._paths.append(path) source = open(path, 'rb').read() code = compile(source, path, 'exec') exec(code, self) self._paths.pop(-1) def run(self, path): '''Executes the given file within the sandbox, and ensure the overall consistency of the executed script.''' self.exec_file(path) # All command line arguments should have been removed (handled) by now. for arg in self._helper: without_value = arg.split('=', 1)[0] if arg in self._implied_options: frameinfo, reason = self._implied_options[arg] raise ConfigureError( '`%s`, emitted from `%s` line `%d`, was not handled.' % (without_value, frameinfo[1], frameinfo[2])) raise InvalidOptionError('Unknown option: %s' % without_value) # All options must be referenced by some @depends function for option in self._options.itervalues(): if option not in self._seen: raise ConfigureError( 'Option `%s` is not handled ; reference it with a @depends' % option.option) if self._help: with LineIO(self.log_impl.info) as out: self._help.usage(out) def __getitem__(self, key): impl = '%s_impl' % key func = getattr(self, impl, None) if func: return func return super(ConfigureSandbox, self).__getitem__(key) def __setitem__(self, key, value): if (key in self.BUILTINS or key == '__builtins__' or hasattr(self, '%s_impl' % key)): raise KeyError('Cannot reassign builtins') if inspect.isfunction(value) and value not in self._templates: value, _ = self._prepare_function(value) elif (not isinstance(value, DependsFunction) and value not in self._templates and not (inspect.isclass(value) and issubclass(value, Exception))): raise KeyError('Cannot assign `%s` because it is neither a ' '@depends nor a @template' % key) return super(ConfigureSandbox, self).__setitem__(key, value) def _resolve(self, arg, need_help_dependency=True): if isinstance(arg, DependsFunction): assert arg in self._depends func, deps = self._depends[arg] assert not inspect.isgeneratorfunction(func) assert func in self._results if need_help_dependency and self._help_option not in deps: raise ConfigureError("Missing @depends for `%s`: '--help'" % func.__name__) result = self._results[func] return result return arg def option_impl(self, *args, **kwargs): '''Implementation of option() This function creates and returns an Option() object, passing it the resolved arguments (uses the result of functions when functions are passed). In most cases, the result of this function is not expected to be used. Command line argument/environment variable parsing for this Option is handled here. ''' args = [self._resolve(arg) for arg in args] kwargs = {k: self._resolve(v) for k, v in kwargs.iteritems()} option = Option(*args, **kwargs) if option.name in self._options: raise ConfigureError('Option `%s` already defined' % self._options[option.name].option) if option.env in self._options: raise ConfigureError('Option `%s` already defined' % self._options[option.env].option) if option.name: self._options[option.name] = option if option.env: self._options[option.env] = option try: value, option_string = self._helper.handle(option) except ConflictingOptionError as e: frameinfo, reason = self._implied_options[e.arg] raise InvalidOptionError( "'%s' implied by '%s' conflicts with '%s' from the %s" % (e.arg, reason, e.old_arg, e.old_origin)) if self._help: self._help.add(option) self._option_values[option] = value self._raw_options[option] = (option_string.split('=', 1)[0] if option_string else option_string) return option def depends_impl(self, *args): '''Implementation of @depends() This function is a decorator. It returns a function that subsequently takes a function and returns a dummy function. The dummy function identifies the actual function for the sandbox, while preventing further function calls from within the sandbox. @depends() takes a variable number of option strings or dummy function references. The decorated function is called as soon as the decorator is called, and the arguments it receives are the OptionValue or function results corresponding to each of the arguments to @depends. As an exception, when a HelpFormatter is attached, only functions that have '--help' in their @depends argument list are called. The decorated function is altered to use a different global namespace for its execution. This different global namespace exposes a limited set of functions from os.path. ''' if not args: raise ConfigureError('@depends needs at least one argument') resolved_args = [] dependencies = [] for arg in args: if isinstance(arg, types.StringTypes): prefix, name, values = Option.split_option(arg) if values != (): raise ConfigureError("Option must not contain an '='") if name not in self._options: raise ConfigureError("'%s' is not a known option. " "Maybe it's declared too late?" % arg) arg = self._options[name] self._seen.add(arg) dependencies.append(arg) assert arg in self._option_values or self._help resolved_arg = self._option_values.get(arg) elif isinstance(arg, DependsFunction): assert arg in self._depends dependencies.append(arg) arg, _ = self._depends[arg] resolved_arg = self._results.get(arg) else: raise TypeError( "Cannot use object of type '%s' as argument to @depends" % type(arg)) resolved_args.append(resolved_arg) dependencies = tuple(dependencies) def decorator(func): if inspect.isgeneratorfunction(func): raise ConfigureError( 'Cannot decorate generator functions with @depends') func, glob = self._prepare_function(func) dummy = wraps(func)(DependsFunction()) self._depends[dummy] = func, dependencies with_help = self._help_option in dependencies if with_help: for arg in args: if isinstance(arg, DependsFunction): _, deps = self._depends[arg] if self._help_option not in deps: raise ConfigureError( "`%s` depends on '--help' and `%s`. " "`%s` must depend on '--help'" % (func.__name__, arg.__name__, arg.__name__)) if not self._help or with_help: self._results[func] = func(*resolved_args) return dummy return decorator def include_impl(self, what): '''Implementation of include(). Allows to include external files for execution in the sandbox. It is possible to use a @depends function as argument, in which case the result of the function is the file name to include. This latter feature is only really meant for --enable-application/--enable-project. ''' what = self._resolve(what) if what: if not isinstance(what, types.StringTypes): raise TypeError("Unexpected type: '%s'" % type(what)) self.exec_file(what) def template_impl(self, func): '''Implementation of @template. This function is a decorator. Template functions are called immediately. They are altered so that their global namespace exposes a limited set of functions from os.path, as well as `depends` and `option`. Templates allow to simplify repetitive constructs, or to implement helper decorators and somesuch. ''' template, glob = self._prepare_function(func) glob.update((k[:-len('_impl')], getattr(self, k)) for k in dir(self) if k.endswith('_impl') and k != 'template_impl') glob.update((k, v) for k, v in self.iteritems() if k not in glob) # Any function argument to the template must be prepared to be sandboxed. # If the template itself returns a function (in which case, it's very # likely a decorator), that function must be prepared to be sandboxed as # well. def wrap_template(template): isfunction = inspect.isfunction def maybe_prepare_function(obj): if isfunction(obj): func, _ = self._prepare_function(obj) return func return obj # The following function may end up being prepared to be sandboxed, # so it mustn't depend on anything from the global scope in this # file. It can however depend on variables from the closure, thus # maybe_prepare_function and isfunction are declared above to be # available there. @wraps(template) def wrapper(*args, **kwargs): args = [maybe_prepare_function(arg) for arg in args] kwargs = { k: maybe_prepare_function(v) for k, v in kwargs.iteritems() } ret = template(*args, **kwargs) if isfunction(ret): return wrap_template(ret) return ret return wrapper wrapper = wrap_template(template) self._templates.add(wrapper) return wrapper RE_MODULE = re.compile('^[a-zA-Z0-9_\.]+$') def imports_impl(self, _import, _from=None, _as=None): '''Implementation of @imports. This decorator imports the given _import from the given _from module optionally under a different _as name. The options correspond to the various forms for the import builtin. @imports('sys') @imports(_from='mozpack', _import='path', _as='mozpath') ''' for value, required in ((_import, True), (_from, False), (_as, False)): if not isinstance(value, types.StringTypes) and not ( required or value is None): raise TypeError("Unexpected type: '%s'" % type(value)) if value is not None and not self.RE_MODULE.match(value): raise ValueError("Invalid argument to @imports: '%s'" % value) def decorator(func): if func in self._prepared_functions: raise ConfigureError( '@imports must appear after other decorators') # For the imports to apply in the order they appear in the # .configure file, we accumulate them in reverse order and apply # them later. imports = self._imports.setdefault(func, []) imports.insert(0, (_from, _import, _as)) return func return decorator def _apply_imports(self, func, glob): for _from, _import, _as in self._imports.get(func, ()): # The special `__sandbox__` module gives access to the sandbox # instance. if _from is None and _import == '__sandbox__': glob[_as or _import] = self continue # Special case for the open() builtin, because otherwise, using it # fails with "IOError: file() constructor not accessible in # restricted mode" if _from == '__builtin__' and _import == 'open': glob[_as or _import] = \ lambda *args, **kwargs: open(*args, **kwargs) continue # Until this proves to be a performance problem, just construct an # import statement and execute it. import_line = '' if _from: import_line += 'from %s ' % _from import_line += 'import %s' % _import if _as: import_line += ' as %s' % _as # Some versions of python fail with "SyntaxError: unqualified exec # is not allowed in function '_apply_imports' it contains a nested # function with free variable" when using the exec function. exec import_line in {}, glob def _resolve_and_set(self, data, name, value): # Don't set anything when --help was on the command line if self._help: return name = self._resolve(name, need_help_dependency=False) if name is None: return if not isinstance(name, types.StringTypes): raise TypeError("Unexpected type: '%s'" % type(name)) if name in data: raise ConfigureError( "Cannot add '%s' to configuration: Key already " "exists" % name) value = self._resolve(value, need_help_dependency=False) if value is not None: data[name] = value def set_config_impl(self, name, value): '''Implementation of set_config(). Set the configuration items with the given name to the given value. Both `name` and `value` can be references to @depends functions, in which case the result from these functions is used. If the result of either function is None, the configuration item is not set. ''' self._resolve_and_set(self._config, name, value) def set_define_impl(self, name, value): '''Implementation of set_define(). Set the define with the given name to the given value. Both `name` and `value` can be references to @depends functions, in which case the result from these functions is used. If the result of either function is None, the define is not set. If the result is False, the define is explicitly undefined (-U). ''' defines = self._config.setdefault('DEFINES', {}) self._resolve_and_set(defines, name, value) def imply_option_impl(self, option, value, reason=None): '''Implementation of imply_option(). Injects additional options as if they had been passed on the command line. The `option` argument is a string as in option()'s `name` or `env`. The option must be declared after `imply_option` references it. The `value` argument indicates the value to pass to the option. It can be: - True. In this case `imply_option` injects the positive option (--enable-foo/--with-foo). imply_option('--enable-foo', True) imply_option('--disable-foo', True) are both equivalent to `--enable-foo` on the command line. - False. In this case `imply_option` injects the negative option (--disable-foo/--without-foo). imply_option('--enable-foo', False) imply_option('--disable-foo', False) are both equivalent to `--disable-foo` on the command line. - None. In this case `imply_option` does nothing. imply_option('--enable-foo', None) imply_option('--disable-foo', None) are both equivalent to not passing any flag on the command line. - a string or a tuple. In this case `imply_option` injects the positive option with the given value(s). imply_option('--enable-foo', 'a') imply_option('--disable-foo', 'a') are both equivalent to `--enable-foo=a` on the command line. imply_option('--enable-foo', ('a', 'b')) imply_option('--disable-foo', ('a', 'b')) are both equivalent to `--enable-foo=a,b` on the command line. Because imply_option('--disable-foo', ...) can be misleading, it is recommended to use the positive form ('--enable' or '--with') for `option`. The `value` argument can also be (and usually is) a reference to a @depends function, in which case the result of that function will be used as per the descripted mapping above. The `reason` argument indicates what caused the option to be implied. It is necessary when it cannot be inferred from the `value`. ''' # Don't do anything when --help was on the command line if self._help: return if not reason and isinstance(value, DependsFunction): deps = self._depends[value][1] possible_reasons = [d for d in deps if d != self._help_option] if len(possible_reasons) == 1: if isinstance(possible_reasons[0], Option): reason = (self._raw_options.get(possible_reasons[0]) or possible_reasons[0].option) if not reason or not isinstance(value, DependsFunction): raise ConfigureError( "Cannot infer what implies '%s'. Please add a `reason` to " "the `imply_option` call." % option) value = self._resolve(value, need_help_dependency=False) if value is not None: if isinstance(value, OptionValue): pass elif value is True: value = PositiveOptionValue() elif value is False or value == (): value = NegativeOptionValue() elif isinstance(value, types.StringTypes): value = PositiveOptionValue((value, )) elif isinstance(value, tuple): value = PositiveOptionValue(value) else: raise TypeError("Unexpected type: '%s'" % type(value)) option = value.format(option) self._helper.add(option, 'implied') self._implied_options[option] = inspect.stack()[1], reason def _prepare_function(self, func): '''Alter the given function global namespace with the common ground for @depends, and @template. ''' if not inspect.isfunction(func): raise TypeError("Unexpected type: '%s'" % type(func)) if func in self._prepared_functions: return func, func.func_globals glob = SandboxedGlobal( (k, v) for k, v in func.func_globals.iteritems() if (inspect.isfunction(v) and v not in self._templates) or ( inspect.isclass(v) and issubclass(v, Exception))) glob.update( __builtins__=self.BUILTINS, __file__=self._paths[-1] if self._paths else '', os=self.OS, log=self.log_impl, ) self._apply_imports(func, glob) func = wraps(func)(types.FunctionType(func.func_code, glob, func.__name__, func.func_defaults, func.func_closure)) self._prepared_functions.add(func) return func, glob
class ConfigEnvironment(object): """Perform actions associated with a configured but bare objdir. The purpose of this class is to preprocess files from the source directory and output results in the object directory. There are two types of files: config files and config headers, each treated through a different member function. Creating a ConfigEnvironment requires a few arguments: - topsrcdir and topobjdir are, respectively, the top source and the top object directory. - defines is a list of (name, value) tuples. In autoconf, these are set with AC_DEFINE and AC_DEFINE_UNQUOTED - non_global_defines are a list of names appearing in defines above that are not meant to be exported in ACDEFINES (see below) - substs is a list of (name, value) tuples. In autoconf, these are set with AC_SUBST. ConfigEnvironment automatically defines one additional substs variable from all the defines not appearing in non_global_defines: - ACDEFINES contains the defines in the form -DNAME=VALUE, for use on preprocessor command lines. The order in which defines were given when creating the ConfigEnvironment is preserved. and two other additional subst variables from all the other substs: - ALLSUBSTS contains the substs in the form NAME = VALUE, in sorted order, for use in autoconf.mk. It includes ACDEFINES Only substs with a VALUE are included, such that the resulting file doesn't change when new empty substs are added. This results in less invalidation of build dependencies in the case of autoconf.mk.. - ALLEMPTYSUBSTS contains the substs with an empty value, in the form NAME =. ConfigEnvironment expects a "top_srcdir" subst to be set with the top source directory, in msys format on windows. It is used to derive a "srcdir" subst when treating config files. It can either be an absolute path or a path relative to the topobjdir. """ def __init__(self, topsrcdir, topobjdir, defines=[], non_global_defines=[], substs=[], source=None): if not source: source = mozpath.join(topobjdir, 'config.status') self.source = source self.defines = ReadOnlyDict(defines) self.non_global_defines = non_global_defines self.substs = dict(substs) self.topsrcdir = mozpath.abspath(topsrcdir) self.topobjdir = mozpath.abspath(topobjdir) self.lib_prefix = self.substs.get('LIB_PREFIX', '') if 'LIB_SUFFIX' in self.substs: self.lib_suffix = '.%s' % self.substs['LIB_SUFFIX'] self.dll_prefix = self.substs.get('DLL_PREFIX', '') self.dll_suffix = self.substs.get('DLL_SUFFIX', '') if self.substs.get('IMPORT_LIB_SUFFIX'): self.import_prefix = self.lib_prefix self.import_suffix = '.%s' % self.substs['IMPORT_LIB_SUFFIX'] else: self.import_prefix = self.dll_prefix self.import_suffix = self.dll_suffix global_defines = [ name for name, value in defines if not name in non_global_defines ] self.substs['ACDEFINES'] = ' '.join([ '-D%s=%s' % (name, shell_quote(self.defines[name]).replace('$', '$$')) for name in global_defines ]) def serialize(obj): if isinstance(obj, StringTypes): return obj if isinstance(obj, Iterable): return ' '.join(obj) raise Exception('Unhandled type %s', type(obj)) self.substs['ALLSUBSTS'] = '\n'.join( sorted([ '%s = %s' % (name, serialize(self.substs[name])) for name in self.substs if self.substs[name] ])) self.substs['ALLEMPTYSUBSTS'] = '\n'.join( sorted([ '%s =' % name for name in self.substs if not self.substs[name] ])) self.substs = ReadOnlyDict(self.substs) self.external_source_dir = None external = self.substs.get('EXTERNAL_SOURCE_DIR', '') if external: external = mozpath.normpath(external) if not os.path.isabs(external): external = mozpath.join(self.topsrcdir, external) self.external_source_dir = mozpath.normpath(external) # Populate a Unicode version of substs. This is an optimization to make # moz.build reading faster, since each sandbox needs a Unicode version # of these variables and doing it over a thousand times is a hotspot # during sandbox execution! # Bug 844509 tracks moving everything to Unicode. self.substs_unicode = {} def decode(v): if not isinstance(v, text_type): try: return v.decode('utf-8') except UnicodeDecodeError: return v.decode('utf-8', 'replace') for k, v in self.substs.items(): if not isinstance(v, StringTypes): if isinstance(v, Iterable): type(v)(decode(i) for i in v) elif not isinstance(v, text_type): v = decode(v) self.substs_unicode[k] = v self.substs_unicode = ReadOnlyDict(self.substs_unicode) @staticmethod def from_config_status(path): config = BuildConfig.from_config_status(path) return ConfigEnvironment(config.topsrcdir, config.topobjdir, config.defines, config.non_global_defines, config.substs, path)
class ConfigureSandbox(dict): """Represents a sandbox for executing Python code for build configuration. This is a different kind of sandboxing than the one used for moz.build processing. The sandbox has 9 primitives: - option - depends - template - imports - include - set_config - set_define - imply_option - only_when `option`, `include`, `set_config`, `set_define` and `imply_option` are functions. `depends`, `template`, and `imports` are decorators. `only_when` is a context_manager. These primitives are declared as name_impl methods to this class and the mapping name -> name_impl is done automatically in __getitem__. Additional primitives should be frowned upon to keep the sandbox itself as simple as possible. Instead, helpers should be created within the sandbox with the existing primitives. The sandbox is given, at creation, a dict where the yielded configuration will be stored. config = {} sandbox = ConfigureSandbox(config) sandbox.run(path) do_stuff(config) """ # The default set of builtins. We expose unicode as str to make sandboxed # files more python3-ready. BUILTINS = ReadOnlyDict({ b: getattr(__builtin__, b, None) for b in ('None', 'False', 'True', 'int', 'bool', 'any', 'all', 'len', 'list', 'tuple', 'set', 'dict', 'isinstance', 'getattr', 'hasattr', 'enumerate', 'range', 'zip', 'AssertionError', '__build_class__', # will be None on py2 ) }, __import__=forbidden_import, str=six.text_type) # Expose a limited set of functions from os.path OS = ReadOnlyNamespace(path=ReadOnlyNamespace(**{ k: getattr(mozpath, k, getattr(os.path, k)) for k in ('abspath', 'basename', 'dirname', 'isabs', 'join', 'normcase', 'normpath', 'realpath', 'relpath') })) def __init__(self, config, environ=os.environ, argv=sys.argv, stdout=sys.stdout, stderr=sys.stderr, logger=None): dict.__setitem__(self, '__builtins__', self.BUILTINS) self._environ = dict(environ) self._paths = [] self._all_paths = set() self._templates = set() # Associate SandboxDependsFunctions to DependsFunctions. self._depends = OrderedDict() self._seen = set() # Store the @imports added to a given function. self._imports = {} self._options = OrderedDict() # Store raw option (as per command line or environment) for each Option self._raw_options = OrderedDict() # Store options added with `imply_option`, and the reason they were # added (which can either have been given to `imply_option`, or # inferred. Their order matters, so use a list. self._implied_options = [] # Store all results from _prepare_function self._prepared_functions = set() # Queue of functions to execute, with their arguments self._execution_queue = [] # Store the `when`s associated to some options. self._conditions = {} # A list of conditions to apply as a default `when` for every *_impl() self._default_conditions = [] self._helper = CommandLineHelper(environ, argv) assert isinstance(config, dict) self._config = config # Tracks how many templates "deep" we are in the stack. self._template_depth = 0 logging.addLevelName(TRACE, 'TRACE') if logger is None: logger = moz_logger = logging.getLogger('moz.configure') logger.setLevel(logging.DEBUG) formatter = logging.Formatter('%(levelname)s: %(message)s') handler = ConfigureOutputHandler(stdout, stderr) handler.setFormatter(formatter) queue_debug = handler.queue_debug logger.addHandler(handler) else: assert isinstance(logger, logging.Logger) moz_logger = None @contextmanager def queue_debug(): yield self._logger = logger # Some callers will manage to log a bytestring with characters in it # that can't be converted to ascii. Make our log methods robust to this # by detecting the encoding that a producer is likely to have used. encoding = getpreferredencoding() def wrapped_log_method(logger, key): method = getattr(logger, key) def wrapped(*args, **kwargs): out_args = [ six.ensure_text(arg, encoding=encoding or 'utf-8') if isinstance(arg, six.binary_type) else arg for arg in args ] return method(*out_args, **kwargs) return wrapped log_namespace = { k: wrapped_log_method(logger, k) for k in ('debug', 'info', 'warning', 'error') } log_namespace['queue_debug'] = queue_debug self.log_impl = ReadOnlyNamespace(**log_namespace) self._help = None self._help_option = self.option_impl( '--help', help='print this message', category=HELP_OPTIONS_CATEGORY) self._seen.add(self._help_option) self._always = DependsFunction(self, lambda: True, []) self._never = DependsFunction(self, lambda: False, []) if self._value_for(self._help_option): self._help = HelpFormatter(argv[0]) self._help.add(self._help_option) elif moz_logger: handler = logging.FileHandler('config.log', mode='w', delay=True, encoding='utf-8') handler.setFormatter(formatter) logger.addHandler(handler) def include_file(self, path): '''Include one file in the sandbox. Users of this class probably want to use `run` instead. Note: this will execute all template invocations, as well as @depends functions that depend on '--help', but nothing else. ''' if self._paths: path = mozpath.join(mozpath.dirname(self._paths[-1]), path) path = mozpath.normpath(path) if not mozpath.basedir(path, (mozpath.dirname(self._paths[0]),)): raise ConfigureError( 'Cannot include `%s` because it is not in a subdirectory ' 'of `%s`' % (path, mozpath.dirname(self._paths[0]))) else: path = mozpath.realpath(mozpath.abspath(path)) if path in self._all_paths: raise ConfigureError( 'Cannot include `%s` because it was included already.' % path) self._paths.append(path) self._all_paths.add(path) source = open(path, 'rb').read() code = compile(source, path, 'exec') exec_(code, self) self._paths.pop(-1) def run(self, path=None): '''Executes the given file within the sandbox, as well as everything pending from any other included file, and ensure the overall consistency of the executed script(s).''' if path: self.include_file(path) for option in six.itervalues(self._options): # All options must be referenced by some @depends function if option not in self._seen: raise ConfigureError( 'Option `%s` is not handled ; reference it with a @depends' % option.option ) self._value_for(option) # All implied options should exist. for implied_option in self._implied_options: value = self._resolve(implied_option.value) if value is not None: # There are two ways to end up here: either the implied option # is unknown, or it's known but there was a dependency loop # that prevented the implication from being applied. option = self._options.get(implied_option.name) if not option: raise ConfigureError( '`%s`, emitted from `%s` line %d, is unknown.' % (implied_option.option, implied_option.caller[1], implied_option.caller[2])) # If the option is known, check that the implied value doesn't # conflict with what value was attributed to the option. if (implied_option.when and not self._value_for(implied_option.when)): continue option_value = self._value_for_option(option) if value != option_value: reason = implied_option.reason if isinstance(reason, Option): reason = self._raw_options.get(reason) or reason.option reason = reason.split('=', 1)[0] value = OptionValue.from_(value) raise InvalidOptionError( "'%s' implied by '%s' conflicts with '%s' from the %s" % (value.format(option.option), reason, option_value.format(option.option), option_value.origin)) # All options should have been removed (handled) by now. for arg in self._helper: without_value = arg.split('=', 1)[0] msg = 'Unknown option: %s' % without_value if self._help: self._logger.warning(msg) else: raise InvalidOptionError(msg) # Run the execution queue for func, args in self._execution_queue: func(*args) if self._help: with LineIO(self.log_impl.info) as out: self._help.usage(out) def __getitem__(self, key): impl = '%s_impl' % key func = getattr(self, impl, None) if func: return func return super(ConfigureSandbox, self).__getitem__(key) def __setitem__(self, key, value): if (key in self.BUILTINS or key == '__builtins__' or hasattr(self, '%s_impl' % key)): raise KeyError('Cannot reassign builtins') if inspect.isfunction(value) and value not in self._templates: value = self._prepare_function(value) elif (not isinstance(value, SandboxDependsFunction) and value not in self._templates and not (inspect.isclass(value) and issubclass(value, Exception))): raise KeyError('Cannot assign `%s` because it is neither a ' '@depends nor a @template' % key) if isinstance(value, SandboxDependsFunction): self._depends[value].name = key return super(ConfigureSandbox, self).__setitem__(key, value) def _resolve(self, arg): if isinstance(arg, SandboxDependsFunction): return self._value_for_depends(self._depends[arg]) return arg def _value_for(self, obj): if isinstance(obj, SandboxDependsFunction): assert obj in self._depends return self._value_for_depends(self._depends[obj]) elif isinstance(obj, DependsFunction): return self._value_for_depends(obj) elif isinstance(obj, Option): return self._value_for_option(obj) assert False @memoize def _value_for_depends(self, obj): value = obj.result() self._logger.log(TRACE, '%r = %r', obj, value) return value @memoize def _value_for_option(self, option): implied = {} matching_implied_options = [ o for o in self._implied_options if o.name in (option.name, option.env) ] # Update self._implied_options before going into the loop with the non-matching # options. self._implied_options = [ o for o in self._implied_options if o.name not in (option.name, option.env) ] for implied_option in matching_implied_options: if (implied_option.when and not self._value_for(implied_option.when)): continue value = self._resolve(implied_option.value) if value is not None: value = OptionValue.from_(value) opt = value.format(implied_option.option) self._helper.add(opt, 'implied') implied[opt] = implied_option try: value, option_string = self._helper.handle(option) except ConflictingOptionError as e: reason = implied[e.arg].reason if isinstance(reason, Option): reason = self._raw_options.get(reason) or reason.option reason = reason.split('=', 1)[0] raise InvalidOptionError( "'%s' implied by '%s' conflicts with '%s' from the %s" % (e.arg, reason, e.old_arg, e.old_origin)) if value.origin == 'implied': recursed_value = getattr(self, '__value_for_option').get((option,)) if recursed_value is not None: _, filename, line, _, _, _ = implied[value.format(option.option)].caller raise ConfigureError( "'%s' appears somewhere in the direct or indirect dependencies when " "resolving imply_option at %s:%d" % (option.option, filename, line)) if option_string: self._raw_options[option] = option_string when = self._conditions.get(option) # If `when` resolves to a false-ish value, we always return None. # This makes option(..., when='--foo') equivalent to # option(..., when=depends('--foo')(lambda x: x)). if when and not self._value_for(when) and value is not None: # If the option was passed explicitly, we throw an error that # the option is not available. Except when the option was passed # from the environment, because that would be too cumbersome. if value.origin not in ('default', 'environment'): raise InvalidOptionError( '%s is not available in this configuration' % option_string.split('=', 1)[0]) self._logger.log(TRACE, '%r = None', option) return None self._logger.log(TRACE, '%r = %r', option, value) return value def _dependency(self, arg, callee_name, arg_name=None): if isinstance(arg, six.string_types): prefix, name, values = Option.split_option(arg) if values != (): raise ConfigureError("Option must not contain an '='") if name not in self._options: raise ConfigureError("'%s' is not a known option. " "Maybe it's declared too late?" % arg) arg = self._options[name] self._seen.add(arg) elif isinstance(arg, SandboxDependsFunction): assert arg in self._depends arg = self._depends[arg] else: raise TypeError( "Cannot use object of type '%s' as %sargument to %s" % (type(arg).__name__, '`%s` ' % arg_name if arg_name else '', callee_name)) return arg def _normalize_when(self, when, callee_name): if when is True: when = self._always elif when is False: when = self._never elif when is not None: when = self._dependency(when, callee_name, 'when') if self._default_conditions: # Create a pseudo @depends function for the combination of all # default conditions and `when`. dependencies = [when] if when else [] dependencies.extend(self._default_conditions) if len(dependencies) == 1: return dependencies[0] return CombinedDependsFunction(self, all, dependencies) return when @contextmanager def only_when_impl(self, when): '''Implementation of only_when() `only_when` is a context manager that essentially makes calls to other sandbox functions within the context block ignored. ''' when = self._normalize_when(when, 'only_when') if when and self._default_conditions[-1:] != [when]: self._default_conditions.append(when) yield self._default_conditions.pop() else: yield def option_impl(self, *args, **kwargs): '''Implementation of option() This function creates and returns an Option() object, passing it the resolved arguments (uses the result of functions when functions are passed). In most cases, the result of this function is not expected to be used. Command line argument/environment variable parsing for this Option is handled here. ''' when = self._normalize_when(kwargs.get('when'), 'option') args = [self._resolve(arg) for arg in args] kwargs = {k: self._resolve(v) for k, v in six.iteritems(kwargs) if k != 'when'} # The Option constructor needs to look up the stack to infer a category # for the Option, since the category is based on the filename where the # Option is defined. However, if the Option is defined in a template, we # want the category to reference the caller of the template rather than # the caller of the option() function. kwargs['define_depth'] = self._template_depth * 3 option = Option(*args, **kwargs) if when: self._conditions[option] = when if option.name in self._options: raise ConfigureError('Option `%s` already defined' % option.option) if option.env in self._options: raise ConfigureError('Option `%s` already defined' % option.env) if option.name: self._options[option.name] = option if option.env: self._options[option.env] = option if self._help and (when is None or self._value_for(when)): self._help.add(option) return option def depends_impl(self, *args, **kwargs): '''Implementation of @depends() This function is a decorator. It returns a function that subsequently takes a function and returns a dummy function. The dummy function identifies the actual function for the sandbox, while preventing further function calls from within the sandbox. @depends() takes a variable number of option strings or dummy function references. The decorated function is called as soon as the decorator is called, and the arguments it receives are the OptionValue or function results corresponding to each of the arguments to @depends. As an exception, when a HelpFormatter is attached, only functions that have '--help' in their @depends argument list are called. The decorated function is altered to use a different global namespace for its execution. This different global namespace exposes a limited set of functions from os.path. ''' for k in kwargs: if k != 'when': raise TypeError( "depends_impl() got an unexpected keyword argument '%s'" % k) when = self._normalize_when(kwargs.get('when'), '@depends') if not when and not args: raise ConfigureError('@depends needs at least one argument') dependencies = tuple(self._dependency(arg, '@depends') for arg in args) conditions = [ self._conditions[d] for d in dependencies if d in self._conditions and isinstance(d, Option) ] for c in conditions: if c != when: raise ConfigureError('@depends function needs the same `when` ' 'as options it depends on') def decorator(func): if inspect.isgeneratorfunction(func): raise ConfigureError( 'Cannot decorate generator functions with @depends') func = self._prepare_function(func) depends = DependsFunction(self, func, dependencies, when=when) return depends.sandboxed return decorator def include_impl(self, what, when=None): '''Implementation of include(). Allows to include external files for execution in the sandbox. It is possible to use a @depends function as argument, in which case the result of the function is the file name to include. This latter feature is only really meant for --enable-application/--enable-project. ''' with self.only_when_impl(when): what = self._resolve(what) if what: if not isinstance(what, six.string_types): raise TypeError("Unexpected type: '%s'" % type(what).__name__) self.include_file(what) def template_impl(self, func): '''Implementation of @template. This function is a decorator. Template functions are called immediately. They are altered so that their global namespace exposes a limited set of functions from os.path, as well as `depends` and `option`. Templates allow to simplify repetitive constructs, or to implement helper decorators and somesuch. ''' def update_globals(glob): glob.update( (k[:-len('_impl')], getattr(self, k)) for k in dir(self) if k.endswith('_impl') and k != 'template_impl' ) glob.update((k, v) for k, v in six.iteritems(self) if k not in glob) template = self._prepare_function(func, update_globals) # Any function argument to the template must be prepared to be sandboxed. # If the template itself returns a function (in which case, it's very # likely a decorator), that function must be prepared to be sandboxed as # well. def wrap_template(template): isfunction = inspect.isfunction def maybe_prepare_function(obj): if isfunction(obj): return self._prepare_function(obj) return obj # The following function may end up being prepared to be sandboxed, # so it mustn't depend on anything from the global scope in this # file. It can however depend on variables from the closure, thus # maybe_prepare_function and isfunction are declared above to be # available there. @self.wraps(template) def wrapper(*args, **kwargs): args = [maybe_prepare_function(arg) for arg in args] kwargs = {k: maybe_prepare_function(v) for k, v in kwargs.items()} self._template_depth += 1 ret = template(*args, **kwargs) self._template_depth -= 1 if isfunction(ret): # We can't expect the sandboxed code to think about all the # details of implementing decorators, so do some of the # work for them. If the function takes exactly one function # as argument and returns a function, it must be a # decorator, so mark the returned function as wrapping the # function passed in. if len(args) == 1 and not kwargs and isfunction(args[0]): ret = self.wraps(args[0])(ret) return wrap_template(ret) return ret return wrapper wrapper = wrap_template(template) self._templates.add(wrapper) return wrapper def wraps(self, func): return wraps(func) RE_MODULE = re.compile('^[a-zA-Z0-9_\.]+$') def imports_impl(self, _import, _from=None, _as=None): '''Implementation of @imports. This decorator imports the given _import from the given _from module optionally under a different _as name. The options correspond to the various forms for the import builtin. @imports('sys') @imports(_from='mozpack', _import='path', _as='mozpath') ''' for value, required in ( (_import, True), (_from, False), (_as, False)): if not isinstance(value, six.string_types) and ( required or value is not None): raise TypeError("Unexpected type: '%s'" % type(value).__name__) if value is not None and not self.RE_MODULE.match(value): raise ValueError("Invalid argument to @imports: '%s'" % value) if _as and '.' in _as: raise ValueError("Invalid argument to @imports: '%s'" % _as) def decorator(func): if func in self._templates: raise ConfigureError( '@imports must appear after @template') if func in self._depends: raise ConfigureError( '@imports must appear after @depends') # For the imports to apply in the order they appear in the # .configure file, we accumulate them in reverse order and apply # them later. imports = self._imports.setdefault(func, []) imports.insert(0, (_from, _import, _as)) return func return decorator def _apply_imports(self, func, glob): for _from, _import, _as in self._imports.pop(func, ()): _from = '%s.' % _from if _from else '' if _as: glob[_as] = self._get_one_import('%s%s' % (_from, _import)) else: what = _import.split('.')[0] glob[what] = self._get_one_import('%s%s' % (_from, what)) @memoized_property def _wrapped_os(self): wrapped_os = {} exec_('from os import *', {}, wrapped_os) wrapped_os['environ'] = self._environ return ReadOnlyNamespace(**wrapped_os) @memoized_property def _wrapped_subprocess(self): wrapped_subprocess = {} exec_('from subprocess import *', {}, wrapped_subprocess) def wrap(function): def wrapper(*args, **kwargs): if 'env' not in kwargs: kwargs['env'] = dict(self._environ) # Subprocess on older Pythons can't handle unicode keys or # values in environment dicts while subprocess on newer Pythons # needs text in the env. Normalize automagically so callers # don't have to deal with this. kwargs['env'] = ensure_subprocess_env(kwargs['env'], encoding=system_encoding) return function(*args, **kwargs) return wrapper for f in ('call', 'check_call', 'check_output', 'Popen'): wrapped_subprocess[f] = wrap(wrapped_subprocess[f]) return ReadOnlyNamespace(**wrapped_subprocess) def _get_one_import(self, what): # The special `__sandbox__` module gives access to the sandbox # instance. if what == '__sandbox__': return self # Special case for the open() builtin, because otherwise, using it # fails with "IOError: file() constructor not accessible in # restricted mode". We also make open() look more like python 3's, # decoding to unicode strings unless the mode says otherwise. if what == '__builtin__.open' or what == 'builtins.open': if six.PY3: return open def wrapped_open(name, mode=None, buffering=None): args = (name,) kwargs = {} if buffering is not None: kwargs['buffering'] = buffering if mode is not None: args += (mode,) if 'b' in mode: return open(*args, **kwargs) kwargs['encoding'] = system_encoding return codecs.open(*args, **kwargs) return wrapped_open # Special case os and os.environ so that os.environ is our copy of # the environment. if what == 'os.environ': return self._environ if what == 'os': return self._wrapped_os # And subprocess, so that its functions use our os.environ if what == 'subprocess': return self._wrapped_subprocess if what in ('subprocess.call', 'subprocess.check_call', 'subprocess.check_output', 'subprocess.Popen'): return getattr(self._wrapped_subprocess, what[len('subprocess.'):]) # Until this proves to be a performance problem, just construct an # import statement and execute it. import_line = '' if '.' in what: _from, what = what.rsplit('.', 1) if _from == '__builtin__' or _from.startswith('__builtin__.'): _from = _from.replace('__builtin__', 'six.moves.builtins') import_line += 'from %s ' % _from if what == '__builtin__': what = 'six.moves.builtins' import_line += 'import %s as imported' % what glob = {} exec_(import_line, {}, glob) return glob['imported'] def _resolve_and_set(self, data, name, value, when=None): # Don't set anything when --help was on the command line if self._help: return if when and not self._value_for(when): return name = self._resolve(name) if name is None: return if not isinstance(name, six.string_types): raise TypeError("Unexpected type: '%s'" % type(name).__name__) if name in data: raise ConfigureError( "Cannot add '%s' to configuration: Key already " "exists" % name) value = self._resolve(value) if value is not None: if self._logger.isEnabledFor(TRACE): if data is self._config: self._logger.log(TRACE, 'set_config(%s, %r)', name, value) elif data is self._config.get('DEFINES'): self._logger.log(TRACE, 'set_define(%s, %r)', name, value) data[name] = value def set_config_impl(self, name, value, when=None): '''Implementation of set_config(). Set the configuration items with the given name to the given value. Both `name` and `value` can be references to @depends functions, in which case the result from these functions is used. If the result of either function is None, the configuration item is not set. ''' when = self._normalize_when(when, 'set_config') self._execution_queue.append(( self._resolve_and_set, (self._config, name, value, when))) def set_define_impl(self, name, value, when=None): '''Implementation of set_define(). Set the define with the given name to the given value. Both `name` and `value` can be references to @depends functions, in which case the result from these functions is used. If the result of either function is None, the define is not set. If the result is False, the define is explicitly undefined (-U). ''' when = self._normalize_when(when, 'set_define') defines = self._config.setdefault('DEFINES', {}) self._execution_queue.append(( self._resolve_and_set, (defines, name, value, when))) def imply_option_impl(self, option, value, reason=None, when=None): '''Implementation of imply_option(). Injects additional options as if they had been passed on the command line. The `option` argument is a string as in option()'s `name` or `env`. The option must be declared after `imply_option` references it. The `value` argument indicates the value to pass to the option. It can be: - True. In this case `imply_option` injects the positive option (--enable-foo/--with-foo). imply_option('--enable-foo', True) imply_option('--disable-foo', True) are both equivalent to `--enable-foo` on the command line. - False. In this case `imply_option` injects the negative option (--disable-foo/--without-foo). imply_option('--enable-foo', False) imply_option('--disable-foo', False) are both equivalent to `--disable-foo` on the command line. - None. In this case `imply_option` does nothing. imply_option('--enable-foo', None) imply_option('--disable-foo', None) are both equivalent to not passing any flag on the command line. - a string or a tuple. In this case `imply_option` injects the positive option with the given value(s). imply_option('--enable-foo', 'a') imply_option('--disable-foo', 'a') are both equivalent to `--enable-foo=a` on the command line. imply_option('--enable-foo', ('a', 'b')) imply_option('--disable-foo', ('a', 'b')) are both equivalent to `--enable-foo=a,b` on the command line. Because imply_option('--disable-foo', ...) can be misleading, it is recommended to use the positive form ('--enable' or '--with') for `option`. The `value` argument can also be (and usually is) a reference to a @depends function, in which case the result of that function will be used as per the descripted mapping above. The `reason` argument indicates what caused the option to be implied. It is necessary when it cannot be inferred from the `value`. ''' when = self._normalize_when(when, 'imply_option') # Don't do anything when --help was on the command line if self._help: return if not reason and isinstance(value, SandboxDependsFunction): deps = self._depends[value].dependencies possible_reasons = [d for d in deps if d != self._help_option] if len(possible_reasons) == 1: if isinstance(possible_reasons[0], Option): reason = possible_reasons[0] if not reason and (isinstance(value, (bool, tuple)) or isinstance(value, six.string_types)): # A reason can be provided automatically when imply_option # is called with an immediate value. _, filename, line, _, _, _ = inspect.stack()[1] reason = "imply_option at %s:%s" % (filename, line) if not reason: raise ConfigureError( "Cannot infer what implies '%s'. Please add a `reason` to " "the `imply_option` call." % option) prefix, name, values = Option.split_option(option) if values != (): raise ConfigureError("Implied option must not contain an '='") self._implied_options.append(ReadOnlyNamespace( option=option, prefix=prefix, name=name, value=value, caller=inspect.stack()[1], reason=reason, when=when, )) def _prepare_function(self, func, update_globals=None): '''Alter the given function global namespace with the common ground for @depends, and @template. ''' if not inspect.isfunction(func): raise TypeError("Unexpected type: '%s'" % type(func).__name__) if func in self._prepared_functions: return func glob = SandboxedGlobal( (k, v) for k, v in six.iteritems(func.__globals__) if (inspect.isfunction(v) and v not in self._templates) or ( inspect.isclass(v) and issubclass(v, Exception)) ) glob.update( __builtins__=self.BUILTINS, __file__=self._paths[-1] if self._paths else '', __name__=self._paths[-1] if self._paths else '', os=self.OS, log=self.log_impl, ) if update_globals: update_globals(glob) # The execution model in the sandbox doesn't guarantee the execution # order will always be the same for a given function, and if it uses # variables from a closure that are changed after the function is # declared, depending when the function is executed, the value of the # variable can differ. For consistency, we force the function to use # the value from the earliest it can be run, which is at declaration. # Note this is not entirely bullet proof (if the value is e.g. a list, # the list contents could have changed), but covers the bases. closure = None if func.__closure__: def makecell(content): def f(): content return f.__closure__[0] closure = tuple(makecell(cell.cell_contents) for cell in func.__closure__) new_func = self.wraps(func)(types.FunctionType( func.__code__, glob, func.__name__, func.__defaults__, closure )) @self.wraps(new_func) def wrapped(*args, **kwargs): if func in self._imports: self._apply_imports(func, glob) return new_func(*args, **kwargs) self._prepared_functions.add(wrapped) return wrapped
def acdefines(self): acdefines = dict((name, self.defines[name]) for name in self.defines if name not in self.non_global_defines) return ReadOnlyDict(acdefines)