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Edit File: test_persisted.py
# Copyright (c) Twisted Matrix Laboratories. # See LICENSE for details. # System Imports import copyreg import io import pickle import sys # Twisted Imports from twisted.persisted import aot, crefutil, styles from twisted.trial import unittest from twisted.trial.unittest import TestCase class VersionTests(TestCase): def test_nullVersionUpgrade(self): global NullVersioned class NullVersioned: def __init__(self): self.ok = 0 pkcl = pickle.dumps(NullVersioned()) class NullVersioned(styles.Versioned): persistenceVersion = 1 def upgradeToVersion1(self): self.ok = 1 mnv = pickle.loads(pkcl) styles.doUpgrade() assert mnv.ok, "initial upgrade not run!" def test_versionUpgrade(self): global MyVersioned class MyVersioned(styles.Versioned): persistenceVersion = 2 persistenceForgets = ["garbagedata"] v3 = 0 v4 = 0 def __init__(self): self.somedata = "xxx" self.garbagedata = lambda q: "cant persist" def upgradeToVersion3(self): self.v3 += 1 def upgradeToVersion4(self): self.v4 += 1 mv = MyVersioned() assert not (mv.v3 or mv.v4), "hasn't been upgraded yet" pickl = pickle.dumps(mv) MyVersioned.persistenceVersion = 4 obj = pickle.loads(pickl) styles.doUpgrade() assert obj.v3, "didn't do version 3 upgrade" assert obj.v4, "didn't do version 4 upgrade" pickl = pickle.dumps(obj) obj = pickle.loads(pickl) styles.doUpgrade() assert obj.v3 == 1, "upgraded unnecessarily" assert obj.v4 == 1, "upgraded unnecessarily" def test_nonIdentityHash(self): global ClassWithCustomHash class ClassWithCustomHash(styles.Versioned): def __init__(self, unique, hash): self.unique = unique self.hash = hash def __hash__(self): return self.hash v1 = ClassWithCustomHash("v1", 0) v2 = ClassWithCustomHash("v2", 0) pkl = pickle.dumps((v1, v2)) del v1, v2 ClassWithCustomHash.persistenceVersion = 1 ClassWithCustomHash.upgradeToVersion1 = lambda self: setattr( self, "upgraded", True ) v1, v2 = pickle.loads(pkl) styles.doUpgrade() self.assertEqual(v1.unique, "v1") self.assertEqual(v2.unique, "v2") self.assertTrue(v1.upgraded) self.assertTrue(v2.upgraded) def test_upgradeDeserializesObjectsRequiringUpgrade(self): global ToyClassA, ToyClassB class ToyClassA(styles.Versioned): pass class ToyClassB(styles.Versioned): pass x = ToyClassA() y = ToyClassB() pklA, pklB = pickle.dumps(x), pickle.dumps(y) del x, y ToyClassA.persistenceVersion = 1 def upgradeToVersion1(self): self.y = pickle.loads(pklB) styles.doUpgrade() ToyClassA.upgradeToVersion1 = upgradeToVersion1 ToyClassB.persistenceVersion = 1 def setUpgraded(self): setattr(self, "upgraded", True) ToyClassB.upgradeToVersion1 = setUpgraded x = pickle.loads(pklA) styles.doUpgrade() self.assertTrue(x.y.upgraded) class VersionedSubClass(styles.Versioned): pass class SecondVersionedSubClass(styles.Versioned): pass class VersionedSubSubClass(VersionedSubClass): pass class VersionedDiamondSubClass(VersionedSubSubClass, SecondVersionedSubClass): pass class AybabtuTests(TestCase): """ L{styles._aybabtu} gets all of classes in the inheritance hierarchy of its argument that are strictly between L{Versioned} and the class itself. """ def test_aybabtuStrictEmpty(self): """ L{styles._aybabtu} of L{Versioned} itself is an empty list. """ self.assertEqual(styles._aybabtu(styles.Versioned), []) def test_aybabtuStrictSubclass(self): """ There are no classes I{between} L{VersionedSubClass} and L{Versioned}, so L{styles._aybabtu} returns an empty list. """ self.assertEqual(styles._aybabtu(VersionedSubClass), []) def test_aybabtuSubsubclass(self): """ With a sub-sub-class of L{Versioned}, L{styles._aybabtu} returns a list containing the intervening subclass. """ self.assertEqual(styles._aybabtu(VersionedSubSubClass), [VersionedSubClass]) def test_aybabtuStrict(self): """ For a diamond-shaped inheritance graph, L{styles._aybabtu} returns a list containing I{both} intermediate subclasses. """ self.assertEqual( styles._aybabtu(VersionedDiamondSubClass), [VersionedSubSubClass, VersionedSubClass, SecondVersionedSubClass], ) class MyEphemeral(styles.Ephemeral): def __init__(self, x): self.x = x class EphemeralTests(TestCase): def test_ephemeral(self): o = MyEphemeral(3) self.assertEqual(o.__class__, MyEphemeral) self.assertEqual(o.x, 3) pickl = pickle.dumps(o) o = pickle.loads(pickl) self.assertEqual(o.__class__, styles.Ephemeral) self.assertFalse(hasattr(o, "x")) class Pickleable: def __init__(self, x): self.x = x def getX(self): return self.x class NotPickleable: """ A class that is not pickleable. """ def __reduce__(self): """ Raise an exception instead of pickling. """ raise TypeError("Not serializable.") class CopyRegistered: """ A class that is pickleable only because it is registered with the C{copyreg} module. """ def __init__(self): """ Ensure that this object is normally not pickleable. """ self.notPickleable = NotPickleable() class CopyRegisteredLoaded: """ L{CopyRegistered} after unserialization. """ def reduceCopyRegistered(cr): """ Externally implement C{__reduce__} for L{CopyRegistered}. @param cr: The L{CopyRegistered} instance. @return: a 2-tuple of callable and argument list, in this case L{CopyRegisteredLoaded} and no arguments. """ return CopyRegisteredLoaded, () copyreg.pickle(CopyRegistered, reduceCopyRegistered) class A: """ dummy class """ def amethod(self): pass class B: """ dummy class """ def bmethod(self): pass def funktion(): pass class PicklingTests(TestCase): """Test pickling of extra object types.""" def test_module(self): pickl = pickle.dumps(styles) o = pickle.loads(pickl) self.assertEqual(o, styles) def test_instanceMethod(self): obj = Pickleable(4) pickl = pickle.dumps(obj.getX) o = pickle.loads(pickl) self.assertEqual(o(), 4) self.assertEqual(type(o), type(obj.getX)) class StringIOTransitionTests(TestCase): """ When pickling a cStringIO in Python 2, it should unpickle as a BytesIO or a StringIO in Python 3, depending on the type of its contents. """ def test_unpickleBytesIO(self): """ A cStringIO pickled with bytes in it will yield an L{io.BytesIO} on python 3. """ pickledStringIWithText = ( b"ctwisted.persisted.styles\nunpickleStringI\np0\n" b"(S'test'\np1\nI0\ntp2\nRp3\n." ) loaded = pickle.loads(pickledStringIWithText) self.assertIsInstance(loaded, io.StringIO) self.assertEqual(loaded.getvalue(), "test") class EvilSourceror: def __init__(self, x): self.a = self self.a.b = self self.a.b.c = x class NonDictState: def __getstate__(self): return self.state def __setstate__(self, state): self.state = state class AOTTests(TestCase): def test_simpleTypes(self): obj = ( 1, 2.0, 3j, True, slice(1, 2, 3), "hello", "world", sys.maxsize + 1, None, Ellipsis, ) rtObj = aot.unjellyFromSource(aot.jellyToSource(obj)) self.assertEqual(obj, rtObj) def test_methodSelfIdentity(self): a = A() b = B() a.bmethod = b.bmethod b.a = a im_ = aot.unjellyFromSource(aot.jellyToSource(b)).a.bmethod self.assertEqual(aot._selfOfMethod(im_).__class__, aot._classOfMethod(im_)) def test_methodNotSelfIdentity(self): """ If a class change after an instance has been created, L{aot.unjellyFromSource} shoud raise a C{TypeError} when trying to unjelly the instance. """ a = A() b = B() a.bmethod = b.bmethod b.a = a savedbmethod = B.bmethod del B.bmethod try: self.assertRaises(TypeError, aot.unjellyFromSource, aot.jellyToSource(b)) finally: B.bmethod = savedbmethod def test_unsupportedType(self): """ L{aot.jellyToSource} should raise a C{TypeError} when trying to jelly an unknown type without a C{__dict__} property or C{__getstate__} method. """ class UnknownType: @property def __dict__(self): raise AttributeError() self.assertRaises(TypeError, aot.jellyToSource, UnknownType()) def test_basicIdentity(self): # Anyone wanting to make this datastructure more complex, and thus this # test more comprehensive, is welcome to do so. aj = aot.AOTJellier().jellyToAO d = {"hello": "world", "method": aj} l = [ 1, 2, 3, 'he\tllo\n\n"x world!', "goodbye \n\t\u1010 world!", 1, 1.0, 100 ** 100, unittest, aot.AOTJellier, d, funktion, ] t = tuple(l) l.append(l) l.append(t) l.append(t) uj = aot.unjellyFromSource(aot.jellyToSource([l, l])) assert uj[0] is uj[1] assert uj[1][0:5] == l[0:5] def test_nonDictState(self): a = NonDictState() a.state = "meringue!" assert aot.unjellyFromSource(aot.jellyToSource(a)).state == a.state def test_copyReg(self): """ L{aot.jellyToSource} and L{aot.unjellyFromSource} honor functions registered in the pickle copy registry. """ uj = aot.unjellyFromSource(aot.jellyToSource(CopyRegistered())) self.assertIsInstance(uj, CopyRegisteredLoaded) def test_funkyReferences(self): o = EvilSourceror(EvilSourceror([])) j1 = aot.jellyToAOT(o) oj = aot.unjellyFromAOT(j1) assert oj.a is oj assert oj.a.b is oj.b assert oj.c is not oj.c.c def test_circularTuple(self): """ L{aot.jellyToAOT} can persist circular references through tuples. """ l = [] t = (l, 4321) l.append(t) j1 = aot.jellyToAOT(l) oj = aot.unjellyFromAOT(j1) self.assertIsInstance(oj[0], tuple) self.assertIs(oj[0][0], oj) self.assertEqual(oj[0][1], 4321) class CrefUtilTests(TestCase): """ Tests for L{crefutil}. """ def test_dictUnknownKey(self): """ L{crefutil._DictKeyAndValue} only support keys C{0} and C{1}. """ d = crefutil._DictKeyAndValue({}) self.assertRaises(RuntimeError, d.__setitem__, 2, 3) def test_deferSetMultipleTimes(self): """ L{crefutil._Defer} can be assigned a key only one time. """ d = crefutil._Defer() d[0] = 1 self.assertRaises(RuntimeError, d.__setitem__, 0, 1) def test_containerWhereAllElementsAreKnown(self): """ A L{crefutil._Container} where all of its elements are known at construction time is nonsensical and will result in errors in any call to addDependant. """ container = crefutil._Container([1, 2, 3], list) self.assertRaises(AssertionError, container.addDependant, {}, "ignore-me") def test_dontPutCircularReferencesInDictionaryKeys(self): """ If a dictionary key contains a circular reference (which is probably a bad practice anyway) it will be resolved by a L{crefutil._DictKeyAndValue}, not by placing a L{crefutil.NotKnown} into a dictionary key. """ self.assertRaises( AssertionError, dict().__setitem__, crefutil.NotKnown(), "value" ) def test_dontCallInstanceMethodsThatArentReady(self): """ L{crefutil._InstanceMethod} raises L{AssertionError} to indicate it should not be called. This should not be possible with any of its API clients, but is provided for helping to debug. """ self.assertRaises( AssertionError, crefutil._InstanceMethod("no_name", crefutil.NotKnown(), type), ) testCases = [VersionTests, EphemeralTests, PicklingTests]