diff --git a/Lib/test/pickletester.py b/Lib/test/pickletester.py index 2c5f0da0c7413e..308fee4f8c9784 100644 --- a/Lib/test/pickletester.py +++ b/Lib/test/pickletester.py @@ -144,6 +144,14 @@ class E(C): def __getinitargs__(self): return () +import __main__ +__main__.C = C +C.__module__ = "__main__" +__main__.D = D +D.__module__ = "__main__" +__main__.E = E +E.__module__ = "__main__" + # Simple mutable object. class Object: pass @@ -157,14 +165,6 @@ def __reduce__(self): # Shouldn't support the recursion itself return K, (self.value,) -import __main__ -__main__.C = C -C.__module__ = "__main__" -__main__.D = D -D.__module__ = "__main__" -__main__.E = E -E.__module__ = "__main__" - class myint(int): def __init__(self, x): self.str = str(x) @@ -1179,6 +1179,124 @@ def test_compat_unpickle(self): self.assertIs(type(unpickled), collections.UserDict) self.assertEqual(unpickled, collections.UserDict({1: 2})) + def test_load_global(self): + self.assertIs(self.loads(b'cbuiltins\nstr\n.'), str) + self.assertIs(self.loads(b'cmath\nlog\n.'), math.log) + self.assertIs(self.loads(b'cos.path\njoin\n.'), os.path.join) + self.assertIs(self.loads(b'\x80\x04cbuiltins\nstr.upper\n.'), str.upper) + with support.swap_item(sys.modules, 'mödule', types.SimpleNamespace(glöbal=42)): + self.assertEqual(self.loads(b'\x80\x04cm\xc3\xb6dule\ngl\xc3\xb6bal\n.'), 42) + + self.assertRaises(UnicodeDecodeError, self.loads, b'c\xff\nlog\n.') + self.assertRaises(UnicodeDecodeError, self.loads, b'cmath\n\xff\n.') + self.assertRaises(self.truncated_errors, self.loads, b'c\nlog\n.') + self.assertRaises(self.truncated_errors, self.loads, b'cmath\n\n.') + self.assertRaises(self.truncated_errors, self.loads, b'\x80\x04cmath\n\n.') + + def test_load_stack_global(self): + self.assertIs(self.loads(b'\x8c\x08builtins\x8c\x03str\x93.'), str) + self.assertIs(self.loads(b'\x8c\x04math\x8c\x03log\x93.'), math.log) + self.assertIs(self.loads(b'\x8c\x07os.path\x8c\x04join\x93.'), + os.path.join) + self.assertIs(self.loads(b'\x80\x04\x8c\x08builtins\x8c\x09str.upper\x93.'), + str.upper) + with support.swap_item(sys.modules, 'mödule', types.SimpleNamespace(glöbal=42)): + self.assertEqual(self.loads(b'\x80\x04\x8c\x07m\xc3\xb6dule\x8c\x07gl\xc3\xb6bal\x93.'), 42) + + self.assertRaises(UnicodeDecodeError, self.loads, b'\x8c\x01\xff\x8c\x03log\x93.') + self.assertRaises(UnicodeDecodeError, self.loads, b'\x8c\x04math\x8c\x01\xff\x93.') + self.assertRaises(ValueError, self.loads, b'\x8c\x00\x8c\x03log\x93.') + self.assertRaises(AttributeError, self.loads, b'\x8c\x04math\x8c\x00\x93.') + self.assertRaises(AttributeError, self.loads, b'\x80\x04\x8c\x04math\x8c\x00\x93.') + + self.assertRaises(pickle.UnpicklingError, self.loads, b'N\x8c\x03log\x93.') + self.assertRaises(pickle.UnpicklingError, self.loads, b'\x8c\x04mathN\x93.') + self.assertRaises(pickle.UnpicklingError, self.loads, b'\x80\x04\x8c\x04mathN\x93.') + + def test_find_class(self): + unpickler = self.unpickler(io.BytesIO()) + unpickler_nofix = self.unpickler(io.BytesIO(), fix_imports=False) + unpickler4 = self.unpickler(io.BytesIO(b'\x80\x04N.')) + unpickler4.load() + + self.assertIs(unpickler.find_class('__builtin__', 'str'), str) + self.assertRaises(ModuleNotFoundError, + unpickler_nofix.find_class, '__builtin__', 'str') + self.assertIs(unpickler.find_class('builtins', 'str'), str) + self.assertIs(unpickler_nofix.find_class('builtins', 'str'), str) + self.assertIs(unpickler.find_class('math', 'log'), math.log) + self.assertIs(unpickler.find_class('os.path', 'join'), os.path.join) + self.assertIs(unpickler.find_class('os.path', 'join'), os.path.join) + + self.assertIs(unpickler4.find_class('builtins', 'str.upper'), str.upper) + with self.assertRaises(AttributeError): + unpickler.find_class('builtins', 'str.upper') + + with self.assertRaises(AttributeError): + unpickler.find_class('math', 'spam') + with self.assertRaises(AttributeError): + unpickler4.find_class('math', 'spam') + with self.assertRaises(AttributeError): + unpickler.find_class('math', 'log.spam') + with self.assertRaises(AttributeError): + unpickler4.find_class('math', 'log.spam') + with self.assertRaises(AttributeError): + unpickler.find_class('math', 'log..spam') + with self.assertRaises(AttributeError): + unpickler4.find_class('math', 'log..spam') + with self.assertRaises(AttributeError): + unpickler.find_class('math', '') + with self.assertRaises(AttributeError): + unpickler4.find_class('math', '') + self.assertRaises(ModuleNotFoundError, unpickler.find_class, 'spam', 'log') + self.assertRaises(ValueError, unpickler.find_class, '', 'log') + + self.assertRaises(TypeError, unpickler.find_class, None, 'log') + self.assertRaises(TypeError, unpickler.find_class, 'math', None) + self.assertRaises((TypeError, AttributeError), unpickler4.find_class, 'math', None) + + def test_custom_find_class(self): + def loads(data): + class Unpickler(self.unpickler): + def find_class(self, module_name, global_name): + return (module_name, global_name) + return Unpickler(io.BytesIO(data)).load() + + self.assertEqual(loads(b'cmath\nlog\n.'), ('math', 'log')) + self.assertEqual(loads(b'\x8c\x04math\x8c\x03log\x93.'), ('math', 'log')) + + def loads(data): + class Unpickler(self.unpickler): + @staticmethod + def find_class(module_name, global_name): + return (module_name, global_name) + return Unpickler(io.BytesIO(data)).load() + + self.assertEqual(loads(b'cmath\nlog\n.'), ('math', 'log')) + self.assertEqual(loads(b'\x8c\x04math\x8c\x03log\x93.'), ('math', 'log')) + + def loads(data): + class Unpickler(self.unpickler): + @classmethod + def find_class(cls, module_name, global_name): + return (module_name, global_name) + return Unpickler(io.BytesIO(data)).load() + + self.assertEqual(loads(b'cmath\nlog\n.'), ('math', 'log')) + self.assertEqual(loads(b'\x8c\x04math\x8c\x03log\x93.'), ('math', 'log')) + + def loads(data): + class Unpickler(self.unpickler): + pass + def find_class(module_name, global_name): + return (module_name, global_name) + unpickler = Unpickler(io.BytesIO(data)) + unpickler.find_class = find_class + return unpickler.load() + + self.assertEqual(loads(b'cmath\nlog\n.'), ('math', 'log')) + self.assertEqual(loads(b'\x8c\x04math\x8c\x03log\x93.'), ('math', 'log')) + def test_bad_reduce(self): self.assertEqual(self.loads(b'cbuiltins\nint\n)R.'), 0) self.check_unpickling_error(TypeError, b'N)R.') @@ -1443,6 +1561,476 @@ def t(): [ToBeUnpickled] * 2) +class AbstractPicklingErrorTests: + # Subclass must define self.dumps, self.pickler. + + def test_bad_reduce_result(self): + obj = REX([print, ()]) + for proto in protocols: + with self.subTest(proto=proto): + with self.assertRaises(pickle.PicklingError): + self.dumps(obj, proto) + + obj = REX((print,)) + for proto in protocols: + with self.subTest(proto=proto): + with self.assertRaises(pickle.PicklingError): + self.dumps(obj, proto) + + obj = REX((print, (), None, None, None, None, None)) + for proto in protocols: + with self.subTest(proto=proto): + with self.assertRaises(pickle.PicklingError): + self.dumps(obj, proto) + + def test_bad_reconstructor(self): + obj = REX((42, ())) + for proto in protocols: + with self.subTest(proto=proto): + with self.assertRaises(pickle.PicklingError): + self.dumps(obj, proto) + + def test_unpickleable_reconstructor(self): + obj = REX((UnpickleableCallable(), ())) + for proto in protocols: + with self.subTest(proto=proto): + with self.assertRaises(CustomError): + self.dumps(obj, proto) + + def test_bad_reconstructor_args(self): + obj = REX((print, [])) + for proto in protocols: + with self.subTest(proto=proto): + with self.assertRaises(pickle.PicklingError): + self.dumps(obj, proto) + + def test_unpickleable_reconstructor_args(self): + obj = REX((print, (1, 2, UNPICKLEABLE))) + for proto in protocols: + with self.subTest(proto=proto): + with self.assertRaises(CustomError): + self.dumps(obj, proto) + + def test_bad_newobj_args(self): + obj = REX((copyreg.__newobj__, ())) + for proto in protocols[2:]: + with self.subTest(proto=proto): + with self.assertRaises((IndexError, pickle.PicklingError)) as cm: + self.dumps(obj, proto) + + obj = REX((copyreg.__newobj__, [REX])) + for proto in protocols[2:]: + with self.subTest(proto=proto): + with self.assertRaises((IndexError, pickle.PicklingError)): + self.dumps(obj, proto) + + def test_bad_newobj_class(self): + obj = REX((copyreg.__newobj__, (NoNew(),))) + for proto in protocols[2:]: + with self.subTest(proto=proto): + with self.assertRaises(pickle.PicklingError): + self.dumps(obj, proto) + + def test_wrong_newobj_class(self): + obj = REX((copyreg.__newobj__, (str,))) + for proto in protocols[2:]: + with self.subTest(proto=proto): + with self.assertRaises(pickle.PicklingError): + self.dumps(obj, proto) + + def test_unpickleable_newobj_class(self): + class LocalREX(REX): pass + obj = LocalREX((copyreg.__newobj__, (LocalREX,))) + for proto in protocols: + with self.subTest(proto=proto): + with self.assertRaises((pickle.PicklingError, AttributeError)): + self.dumps(obj, proto) + + def test_unpickleable_newobj_args(self): + obj = REX((copyreg.__newobj__, (REX, 1, 2, UNPICKLEABLE))) + for proto in protocols: + with self.subTest(proto=proto): + with self.assertRaises(CustomError): + self.dumps(obj, proto) + + def test_bad_newobj_ex_args(self): + obj = REX((copyreg.__newobj_ex__, ())) + for proto in protocols[2:]: + with self.subTest(proto=proto): + with self.assertRaises((ValueError, pickle.PicklingError)): + self.dumps(obj, proto) + + obj = REX((copyreg.__newobj_ex__, 42)) + for proto in protocols[2:]: + with self.subTest(proto=proto): + with self.assertRaises(pickle.PicklingError): + self.dumps(obj, proto) + + obj = REX((copyreg.__newobj_ex__, (REX, 42, {}))) + is_py = self.pickler is pickle._Pickler + for proto in protocols[2:4] if is_py else protocols[2:]: + with self.subTest(proto=proto): + with self.assertRaises((TypeError, pickle.PicklingError)): + self.dumps(obj, proto) + + obj = REX((copyreg.__newobj_ex__, (REX, (), []))) + for proto in protocols[2:4] if is_py else protocols[2:]: + with self.subTest(proto=proto): + with self.assertRaises((TypeError, pickle.PicklingError)): + self.dumps(obj, proto) + + def test_bad_newobj_ex__class(self): + obj = REX((copyreg.__newobj_ex__, (NoNew(), (), {}))) + for proto in protocols[2:]: + with self.subTest(proto=proto): + with self.assertRaises(pickle.PicklingError): + self.dumps(obj, proto) + + def test_wrong_newobj_ex_class(self): + if self.pickler is not pickle._Pickler: + self.skipTest('only verified in the Python implementation') + obj = REX((copyreg.__newobj_ex__, (str, (), {}))) + for proto in protocols[2:]: + with self.subTest(proto=proto): + with self.assertRaises(pickle.PicklingError): + self.dumps(obj, proto) + + def test_unpickleable_newobj_ex_class(self): + class LocalREX(REX): pass + obj = LocalREX((copyreg.__newobj_ex__, (LocalREX, (), {}))) + for proto in protocols: + with self.subTest(proto=proto): + with self.assertRaises((pickle.PicklingError, AttributeError)): + self.dumps(obj, proto) + + def test_unpickleable_newobj_ex_args(self): + obj = REX((copyreg.__newobj_ex__, (REX, (1, 2, UNPICKLEABLE), {}))) + for proto in protocols: + with self.subTest(proto=proto): + with self.assertRaises(CustomError): + self.dumps(obj, proto) + + def test_unpickleable_newobj_ex_kwargs(self): + obj = REX((copyreg.__newobj_ex__, (REX, (), {'a': UNPICKLEABLE}))) + for proto in protocols: + with self.subTest(proto=proto): + with self.assertRaises(CustomError): + self.dumps(obj, proto) + + def test_unpickleable_state(self): + obj = REX_state(UNPICKLEABLE) + for proto in protocols: + with self.subTest(proto=proto): + with self.assertRaises(CustomError): + self.dumps(obj, proto) + + def test_bad_state_setter(self): + if self.pickler is pickle._Pickler: + self.skipTest('only verified in the C implementation') + obj = REX((print, (), 'state', None, None, 42)) + for proto in protocols: + with self.subTest(proto=proto): + with self.assertRaises(pickle.PicklingError): + self.dumps(obj, proto) + + def test_unpickleable_state_setter(self): + obj = REX((print, (), 'state', None, None, UnpickleableCallable())) + for proto in protocols: + with self.subTest(proto=proto): + with self.assertRaises(CustomError): + self.dumps(obj, proto) + + def test_unpickleable_state_with_state_setter(self): + obj = REX((print, (), UNPICKLEABLE, None, None, print)) + for proto in protocols: + with self.subTest(proto=proto): + with self.assertRaises(CustomError): + self.dumps(obj, proto) + + def test_bad_object_list_items(self): + # Issue4176: crash when 4th and 5th items of __reduce__() + # are not iterators + obj = REX((list, (), None, 42)) + for proto in protocols: + with self.subTest(proto=proto): + with self.assertRaises((TypeError, pickle.PicklingError)): + self.dumps(obj, proto) + + if self.pickler is not pickle._Pickler: + # Python implementation is less strict and also accepts iterables. + obj = REX((list, (), None, [])) + for proto in protocols: + with self.subTest(proto=proto): + with self.assertRaises((TypeError, pickle.PicklingError)): + self.dumps(obj, proto) + + def test_unpickleable_object_list_items(self): + obj = REX_six([1, 2, UNPICKLEABLE]) + for proto in protocols: + with self.subTest(proto=proto): + with self.assertRaises(CustomError): + self.dumps(obj, proto) + + def test_bad_object_dict_items(self): + # Issue4176: crash when 4th and 5th items of __reduce__() + # are not iterators + obj = REX((dict, (), None, None, 42)) + for proto in protocols: + with self.subTest(proto=proto): + with self.assertRaises((TypeError, pickle.PicklingError)): + self.dumps(obj, proto) + + for proto in protocols: + obj = REX((dict, (), None, None, iter([('a',)]))) + with self.subTest(proto=proto): + with self.assertRaises((ValueError, TypeError)): + self.dumps(obj, proto) + + if self.pickler is not pickle._Pickler: + # Python implementation is less strict and also accepts iterables. + obj = REX((dict, (), None, None, [])) + for proto in protocols: + with self.subTest(proto=proto): + with self.assertRaises((TypeError, pickle.PicklingError)): + self.dumps(obj, proto) + + def test_unpickleable_object_dict_items(self): + obj = REX_seven({'a': UNPICKLEABLE}) + for proto in protocols: + with self.subTest(proto=proto): + with self.assertRaises(CustomError): + self.dumps(obj, proto) + + def test_unpickleable_list_items(self): + obj = [1, [2, 3, UNPICKLEABLE]] + for proto in protocols: + with self.subTest(proto=proto): + with self.assertRaises(CustomError): + self.dumps(obj, proto) + for n in [0, 1, 1000, 1005]: + obj = [*range(n), UNPICKLEABLE] + for proto in protocols: + with self.subTest(proto=proto): + with self.assertRaises(CustomError): + self.dumps(obj, proto) + + def test_unpickleable_tuple_items(self): + obj = (1, (2, 3, UNPICKLEABLE)) + for proto in protocols: + with self.subTest(proto=proto): + with self.assertRaises(CustomError): + self.dumps(obj, proto) + obj = (*range(10), UNPICKLEABLE) + for proto in protocols: + with self.subTest(proto=proto): + with self.assertRaises(CustomError): + self.dumps(obj, proto) + + def test_unpickleable_dict_items(self): + obj = {'a': {'b': UNPICKLEABLE}} + for proto in protocols: + with self.subTest(proto=proto): + with self.assertRaises(CustomError): + self.dumps(obj, proto) + for n in [0, 1, 1000, 1005]: + obj = dict.fromkeys(range(n)) + obj['a'] = UNPICKLEABLE + for proto in protocols: + with self.subTest(proto=proto, n=n): + with self.assertRaises(CustomError): + self.dumps(obj, proto) + + def test_unpickleable_set_items(self): + obj = {UNPICKLEABLE} + for proto in protocols: + with self.subTest(proto=proto): + with self.assertRaises(CustomError): + self.dumps(obj, proto) + + def test_unpickleable_frozenset_items(self): + obj = frozenset({frozenset({UNPICKLEABLE})}) + for proto in protocols: + with self.subTest(proto=proto): + with self.assertRaises(CustomError): + self.dumps(obj, proto) + + def test_global_lookup_error(self): + # Global name does not exist + obj = REX('spam') + obj.__module__ = __name__ + for proto in protocols: + with self.subTest(proto=proto): + with self.assertRaises(pickle.PicklingError): + self.dumps(obj, proto) + + obj.__module__ = 'nonexisting' + for proto in protocols: + with self.subTest(proto=proto): + with self.assertRaises(pickle.PicklingError): + self.dumps(obj, proto) + + obj.__module__ = '' + for proto in protocols: + with self.subTest(proto=proto): + with self.assertRaises((ValueError, pickle.PicklingError)): + self.dumps(obj, proto) + + obj.__module__ = None + for proto in protocols: + with self.subTest(proto=proto): + with self.assertRaises(pickle.PicklingError): + self.dumps(obj, proto) + + def test_nonencodable_global_name_error(self): + for proto in protocols[:4]: + with self.subTest(proto=proto): + name = 'nonascii\xff' if proto < 3 else 'nonencodable\udbff' + obj = REX(name) + obj.__module__ = __name__ + with support.swap_item(globals(), name, obj): + with self.assertRaises((UnicodeEncodeError, pickle.PicklingError)): + self.dumps(obj, proto) + + def test_nonencodable_module_name_error(self): + for proto in protocols[:4]: + with self.subTest(proto=proto): + name = 'nonascii\xff' if proto < 3 else 'nonencodable\udbff' + obj = REX('test') + obj.__module__ = name + mod = types.SimpleNamespace(test=obj) + with support.swap_item(sys.modules, name, mod): + with self.assertRaises((UnicodeEncodeError, pickle.PicklingError)): + self.dumps(obj, proto) + + def test_nested_lookup_error(self): + # Nested name does not exist + obj = REX('AbstractPickleTests.spam') + obj.__module__ = __name__ + for proto in protocols: + with self.subTest(proto=proto): + with self.assertRaises(pickle.PicklingError): + self.dumps(obj, proto) + + obj.__module__ = None + for proto in protocols: + with self.subTest(proto=proto): + with self.assertRaises(pickle.PicklingError): + self.dumps(obj, proto) + + def test_wrong_object_lookup_error(self): + # Name is bound to different object + obj = REX('AbstractPickleTests') + obj.__module__ = __name__ + AbstractPickleTests.ham = [] + for proto in protocols: + with self.subTest(proto=proto): + with self.assertRaises(pickle.PicklingError): + self.dumps(obj, proto) + + obj.__module__ = None + for proto in protocols: + with self.subTest(proto=proto): + with self.assertRaises(pickle.PicklingError): + self.dumps(obj, proto) + + def test_local_lookup_error(self): + # Test that whichmodule() errors out cleanly when looking up + # an assumed globally-reachable object fails. + def f(): + pass + # Since the function is local, lookup will fail + for proto in protocols: + with self.subTest(proto=proto): + with self.assertRaises((AttributeError, pickle.PicklingError)): + self.dumps(f, proto) + # Same without a __module__ attribute (exercises a different path + # in _pickle.c). + del f.__module__ + for proto in protocols: + with self.subTest(proto=proto): + with self.assertRaises((AttributeError, pickle.PicklingError)): + self.dumps(f, proto) + # Yet a different path. + f.__name__ = f.__qualname__ + for proto in protocols: + with self.subTest(proto=proto): + with self.assertRaises((AttributeError, pickle.PicklingError)): + self.dumps(f, proto) + + def test_reduce_ex_None(self): + if self.pickler is pickle._Pickler: + self.skipTest('only verified in the C implementation') + c = REX_None() + with self.assertRaises(TypeError): + self.dumps(c) + + def test_reduce_None(self): + c = R_None() + with self.assertRaises(TypeError): + self.dumps(c) + + @no_tracing + def test_bad_getattr(self): + # Issue #3514: crash when there is an infinite loop in __getattr__ + x = BadGetattr() + for proto in range(2): + with support.infinite_recursion(25): + self.assertRaises(RuntimeError, self.dumps, x, proto) + for proto in range(2, pickle.HIGHEST_PROTOCOL + 1): + s = self.dumps(x, proto) + + def test_picklebuffer_error(self): + # PickleBuffer forbidden with protocol < 5 + pb = pickle.PickleBuffer(b"foobar") + for proto in range(0, 5): + with self.subTest(proto=proto): + with self.assertRaises(pickle.PickleError): + self.dumps(pb, proto) + + def test_non_continuous_buffer(self): + if self.pickler is pickle._Pickler: + self.skipTest('CRASHES (see gh-122306)') + for proto in protocols[5:]: + with self.subTest(proto=proto): + pb = pickle.PickleBuffer(memoryview(b"foobar")[::2]) + with self.assertRaises(pickle.PicklingError): + self.dumps(pb, proto) + + def test_buffer_callback_error(self): + def buffer_callback(buffers): + raise CustomError + pb = pickle.PickleBuffer(b"foobar") + with self.assertRaises(CustomError): + self.dumps(pb, 5, buffer_callback=buffer_callback) + + def test_evil_pickler_mutating_collection(self): + # https://github.com/python/cpython/issues/92930 + global Clearer + class Clearer: + pass + + def check(collection): + class EvilPickler(self.pickler): + def persistent_id(self, obj): + if isinstance(obj, Clearer): + collection.clear() + return None + pickler = EvilPickler(io.BytesIO(), proto) + try: + pickler.dump(collection) + except RuntimeError as e: + expected = "changed size during iteration" + self.assertIn(expected, str(e)) + + for proto in protocols: + check([Clearer()]) + check([Clearer(), Clearer()]) + check({Clearer()}) + check({Clearer(), Clearer()}) + check({Clearer(): 1}) + check({Clearer(): 1, Clearer(): 2}) + check({1: Clearer(), 2: Clearer()}) + class AbstractPickleTests: # Subclass must define self.dumps, self.loads. @@ -2453,38 +3041,11 @@ def test_reduce_calls_base(self): y = self.loads(s) self.assertEqual(y._reduce_called, 1) - @no_tracing - def test_bad_getattr(self): - # Issue #3514: crash when there is an infinite loop in __getattr__ - x = BadGetattr() - for proto in range(2): - with support.infinite_recursion(): - self.assertRaises(RuntimeError, self.dumps, x, proto) - for proto in range(2, pickle.HIGHEST_PROTOCOL + 1): - s = self.dumps(x, proto) - - def test_reduce_bad_iterator(self): - # Issue4176: crash when 4th and 5th items of __reduce__() - # are not iterators - class C(object): - def __reduce__(self): - # 4th item is not an iterator - return list, (), None, [], None - class D(object): - def __reduce__(self): - # 5th item is not an iterator - return dict, (), None, None, [] - - # Python implementation is less strict and also accepts iterables. - for proto in protocols: - try: - self.dumps(C(), proto) - except pickle.PicklingError: - pass - try: - self.dumps(D(), proto) - except pickle.PicklingError: - pass + def test_pickle_setstate_None(self): + c = C_None_setstate() + p = self.dumps(c) + with self.assertRaises((AttributeError, TypeError)): + self.loads(p) def test_many_puts_and_gets(self): # Test that internal data structures correctly deal with lots of @@ -2934,27 +3495,6 @@ def test_compat_pickle(self): self.assertIn(('c%s\n%s' % (mod, name)).encode(), pickled) self.assertIs(type(self.loads(pickled)), type(val)) - def test_local_lookup_error(self): - # Test that whichmodule() errors out cleanly when looking up - # an assumed globally-reachable object fails. - def f(): - pass - # Since the function is local, lookup will fail - for proto in range(0, pickle.HIGHEST_PROTOCOL + 1): - with self.assertRaises((AttributeError, pickle.PicklingError)): - pickletools.dis(self.dumps(f, proto)) - # Same without a __module__ attribute (exercises a different path - # in _pickle.c). - del f.__module__ - for proto in range(0, pickle.HIGHEST_PROTOCOL + 1): - with self.assertRaises((AttributeError, pickle.PicklingError)): - pickletools.dis(self.dumps(f, proto)) - # Yet a different path. - f.__name__ = f.__qualname__ - for proto in range(0, pickle.HIGHEST_PROTOCOL + 1): - with self.assertRaises((AttributeError, pickle.PicklingError)): - pickletools.dis(self.dumps(f, proto)) - # # PEP 574 tests below # @@ -3065,20 +3605,6 @@ def test_oob_buffers_writable_to_readonly(self): self.assertIs(type(new), type(obj)) self.assertEqual(new, obj) - def test_picklebuffer_error(self): - # PickleBuffer forbidden with protocol < 5 - pb = pickle.PickleBuffer(b"foobar") - for proto in range(0, 5): - with self.assertRaises(pickle.PickleError): - self.dumps(pb, proto) - - def test_buffer_callback_error(self): - def buffer_callback(buffers): - 1/0 - pb = pickle.PickleBuffer(b"foobar") - with self.assertRaises(ZeroDivisionError): - self.dumps(pb, 5, buffer_callback=buffer_callback) - def test_buffers_error(self): pb = pickle.PickleBuffer(b"foobar") for proto in range(5, pickle.HIGHEST_PROTOCOL + 1): @@ -3170,37 +3696,6 @@ def __reduce__(self): expected = "changed size during iteration" self.assertIn(expected, str(e)) - def test_evil_pickler_mutating_collection(self): - # https://github.com/python/cpython/issues/92930 - if not hasattr(self, "pickler"): - raise self.skipTest(f"{type(self)} has no associated pickler type") - - global Clearer - class Clearer: - pass - - def check(collection): - class EvilPickler(self.pickler): - def persistent_id(self, obj): - if isinstance(obj, Clearer): - collection.clear() - return None - pickler = EvilPickler(io.BytesIO(), proto) - try: - pickler.dump(collection) - except RuntimeError as e: - expected = "changed size during iteration" - self.assertIn(expected, str(e)) - - for proto in protocols: - check([Clearer()]) - check([Clearer(), Clearer()]) - check({Clearer()}) - check({Clearer(), Clearer()}) - check({Clearer(): 1}) - check({Clearer(): 1, Clearer(): 2}) - check({1: Clearer(), 2: Clearer()}) - class BigmemPickleTests: @@ -3331,6 +3826,18 @@ def test_huge_str_64b(self, size): # Test classes for reduce_ex +class R: + def __init__(self, reduce=None): + self.reduce = reduce + def __reduce__(self, proto): + return self.reduce + +class REX: + def __init__(self, reduce_ex=None): + self.reduce_ex = reduce_ex + def __reduce_ex__(self, proto): + return self.reduce_ex + class REX_one(object): """No __reduce_ex__ here, but inheriting it from object""" _reduce_called = 0 @@ -3406,6 +3913,34 @@ def __setstate__(self, state): def __reduce__(self): return type(self), (), self.state +class REX_None: + """ Setting __reduce_ex__ to None should fail """ + __reduce_ex__ = None + +class R_None: + """ Setting __reduce__ to None should fail """ + __reduce__ = None + +class C_None_setstate: + """ Setting __setstate__ to None should fail """ + def __getstate__(self): + return 1 + + __setstate__ = None + +class CustomError(Exception): + pass + +class Unpickleable: + def __reduce__(self): + raise CustomError + +UNPICKLEABLE = Unpickleable() + +class UnpickleableCallable(Unpickleable): + def __call__(self, *args, **kwargs): + pass + # Test classes for newobj @@ -3474,6 +4009,12 @@ class BadGetattr: def __getattr__(self, key): self.foo +class NoNew: + def __getattribute__(self, name): + if name == '__new__': + raise AttributeError + return super().__getattribute__(name) + class AbstractPickleModuleTests: @@ -3546,7 +4087,7 @@ def raises_oserror(self, *args, **kwargs): raise OSError @property def bad_property(self): - 1/0 + raise CustomError # File without read and readline class F: @@ -3567,23 +4108,23 @@ class F: class F: read = bad_property readline = raises_oserror - self.assertRaises(ZeroDivisionError, self.Unpickler, F()) + self.assertRaises(CustomError, self.Unpickler, F()) # File with bad readline class F: readline = bad_property read = raises_oserror - self.assertRaises(ZeroDivisionError, self.Unpickler, F()) + self.assertRaises(CustomError, self.Unpickler, F()) # File with bad readline, no read class F: readline = bad_property - self.assertRaises(ZeroDivisionError, self.Unpickler, F()) + self.assertRaises(CustomError, self.Unpickler, F()) # File with bad read, no readline class F: read = bad_property - self.assertRaises((AttributeError, ZeroDivisionError), self.Unpickler, F()) + self.assertRaises((AttributeError, CustomError), self.Unpickler, F()) # File with bad peek class F: @@ -3592,7 +4133,7 @@ class F: readline = raises_oserror try: self.Unpickler(F()) - except ZeroDivisionError: + except CustomError: pass # File with bad readinto @@ -3602,7 +4143,7 @@ class F: readline = raises_oserror try: self.Unpickler(F()) - except ZeroDivisionError: + except CustomError: pass def test_pickler_bad_file(self): @@ -3615,8 +4156,8 @@ class F: class F: @property def write(self): - 1/0 - self.assertRaises(ZeroDivisionError, self.Pickler, F()) + raise CustomError + self.assertRaises(CustomError, self.Pickler, F()) def check_dumps_loads_oob_buffers(self, dumps, loads): # No need to do the full gamut of tests here, just enough to @@ -3724,9 +4265,15 @@ def test_return_correct_type(self): def test_protocol0_is_ascii_only(self): non_ascii_str = "\N{EMPTY SET}" - self.assertRaises(pickle.PicklingError, self.dumps, non_ascii_str, 0) + with self.assertRaises(pickle.PicklingError) as cm: + self.dumps(non_ascii_str, 0) + self.assertEqual(str(cm.exception), + 'persistent IDs in protocol 0 must be ASCII strings') pickled = pickle.PERSID + non_ascii_str.encode('utf-8') + b'\n.' - self.assertRaises(pickle.UnpicklingError, self.loads, pickled) + with self.assertRaises(pickle.UnpicklingError) as cm: + self.loads(pickled) + self.assertEqual(str(cm.exception), + 'persistent IDs in protocol 0 must be ASCII strings') class AbstractPicklerUnpicklerObjectTests: diff --git a/Lib/test/test_pickle.py b/Lib/test/test_pickle.py index 1a55da39bdc58d..32fb3590ec6afe 100644 --- a/Lib/test/test_pickle.py +++ b/Lib/test/test_pickle.py @@ -16,6 +16,7 @@ from test.pickletester import AbstractHookTests from test.pickletester import AbstractUnpickleTests +from test.pickletester import AbstractPicklingErrorTests from test.pickletester import AbstractPickleTests from test.pickletester import AbstractPickleModuleTests from test.pickletester import AbstractPersistentPicklerTests @@ -55,6 +56,18 @@ def loads(self, buf, **kwds): return u.load() +class PyPicklingErrorTests(AbstractPicklingErrorTests, unittest.TestCase): + + pickler = pickle._Pickler + + def dumps(self, arg, proto=None, **kwargs): + f = io.BytesIO() + p = self.pickler(f, proto, **kwargs) + p.dump(arg) + f.seek(0) + return bytes(f.read()) + + class PyPicklerTests(AbstractPickleTests, unittest.TestCase): pickler = pickle._Pickler @@ -88,6 +101,8 @@ def loads(self, buf, **kwds): return pickle.loads(buf, **kwds) test_framed_write_sizes_with_delayed_writer = None + test_find_class = None + test_custom_find_class = None class PersistentPicklerUnpicklerMixin(object): @@ -245,6 +260,9 @@ class CUnpicklerTests(PyUnpicklerTests): bad_stack_errors = (pickle.UnpicklingError,) truncated_errors = (pickle.UnpicklingError,) + class CPicklingErrorTests(PyPicklingErrorTests): + pickler = _pickle.Pickler + class CPicklerTests(PyPicklerTests): pickler = _pickle.Pickler unpickler = _pickle.Unpickler