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# Copyright (c) Twisted Matrix Laboratories.
# See LICENSE for details.
"""
Test cases for L{jelly} object serialization.
"""
import datetime
import decimal
from twisted.spread import banana, jelly, pb
from twisted.test.proto_helpers import StringTransport
from twisted.trial import unittest
from twisted.trial.unittest import TestCase
class TestNode(jelly.Jellyable):
"""
An object to test jellyfying of new style class instances.
"""
classAttr = 4
def __init__(self, parent=None):
if parent:
self.id = parent.id + 1
parent.children.append(self)
else:
self.id = 1
self.parent = parent
self.children = []
class A:
"""
Dummy class.
"""
def amethod(self):
"""
Method to be used in serialization tests.
"""
def afunc(self):
"""
A dummy function to test function serialization.
"""
class B:
"""
Dummy class.
"""
def bmethod(self):
"""
Method to be used in serialization tests.
"""
class C:
"""
Dummy class.
"""
def cmethod(self):
"""
Method to be used in serialization tests.
"""
class D:
"""
Dummy new-style class.
"""
class E:
"""
Dummy new-style class with slots.
"""
__slots__ = ("x", "y")
def __init__(self, x=None, y=None):
self.x = x
self.y = y
def __getstate__(self):
return {"x": self.x, "y": self.y}
def __setstate__(self, state):
self.x = state["x"]
self.y = state["y"]
class SimpleJellyTest:
def __init__(self, x, y):
self.x = x
self.y = y
def isTheSameAs(self, other):
return self.__dict__ == other.__dict__
def jellyRoundTrip(testCase, toSerialize):
"""
Verify that the given object round-trips through jelly & banana and comes
out equivalent to the input.
"""
jellied = jelly.jelly(toSerialize)
encoded = banana.encode(jellied)
decoded = banana.decode(encoded)
unjellied = jelly.unjelly(decoded)
testCase.assertEqual(toSerialize, unjellied)
class JellyTests(TestCase):
"""
Testcases for L{jelly} module serialization.
@cvar decimalData: serialized version of decimal data, to be used in tests.
@type decimalData: L{list}
"""
decimalData = [
b"list",
[b"decimal", 995, -2],
[b"decimal", 0, 0],
[b"decimal", 123456, 0],
[b"decimal", -78901, -3],
]
def _testSecurity(self, inputList, atom):
"""
Helper test method to test security options for a type.
@param inputList: a sample input for the type.
@type inputList: L{list}
@param atom: atom identifier for the type.
@type atom: L{str}
"""
c = jelly.jelly(inputList)
taster = jelly.SecurityOptions()
taster.allowBasicTypes()
# By default, it should succeed
jelly.unjelly(c, taster)
taster.allowedTypes.pop(atom)
# But it should raise an exception when disallowed
self.assertRaises(jelly.InsecureJelly, jelly.unjelly, c, taster)
def test_methodsNotSelfIdentity(self):
"""
If a class change after an instance has been created, L{jelly.unjelly}
shoud raise a C{TypeError} when trying to unjelly the instance.
"""
a = A()
b = B()
c = C()
a.bmethod = c.cmethod
b.a = a
savecmethod = C.cmethod
del C.cmethod
try:
self.assertRaises(TypeError, jelly.unjelly, jelly.jelly(b))
finally:
C.cmethod = savecmethod
def test_newStyle(self):
"""
Test that a new style class can be jellied and unjellied with its
objects and attribute values preserved.
"""
n = D()
n.x = 1
n2 = D()
n.n2 = n2
n.n3 = n2
c = jelly.jelly(n)
m = jelly.unjelly(c)
self.assertIsInstance(m, D)
self.assertIs(m.n2, m.n3)
self.assertEqual(m.x, 1)
def test_newStyleWithSlots(self):
"""
A class defined with I{slots} can be jellied and unjellied with the
values for its attributes preserved.
"""
n = E()
n.x = 1
c = jelly.jelly(n)
m = jelly.unjelly(c)
self.assertIsInstance(m, E)
self.assertEqual(n.x, 1)
def test_typeNewStyle(self):
"""
Test that a new style class type can be jellied and unjellied
to the original type.
"""
t = [D]
r = jelly.unjelly(jelly.jelly(t))
self.assertEqual(t, r)
def test_typeBuiltin(self):
"""
Test that a builtin type can be jellied and unjellied to the original
type.
"""
t = [str]
r = jelly.unjelly(jelly.jelly(t))
self.assertEqual(t, r)
def test_dateTime(self):
"""
Jellying L{datetime.timedelta} instances and then unjellying the result
should produce objects which represent the values of the original
inputs.
"""
dtn = datetime.datetime.now()
dtd = datetime.datetime.now() - dtn
inputList = [dtn, dtd]
c = jelly.jelly(inputList)
output = jelly.unjelly(c)
self.assertEqual(inputList, output)
self.assertIsNot(inputList, output)
def test_bananaTimeTypes(self):
"""
Jellying L{datetime.time}, L{datetime.timedelta}, L{datetime.datetime},
and L{datetime.date} objects should result in jellied objects which can
be serialized and unserialized with banana.
"""
sampleDate = datetime.date(2020, 7, 11)
sampleTime = datetime.time(1, 16, 5, 344)
sampleDateTime = datetime.datetime.combine(sampleDate, sampleTime)
sampleTimeDelta = sampleDateTime - datetime.datetime(2020, 7, 3)
jellyRoundTrip(self, sampleDate)
jellyRoundTrip(self, sampleTime)
jellyRoundTrip(self, sampleDateTime)
jellyRoundTrip(self, sampleTimeDelta)
def test_decimal(self):
"""
Jellying L{decimal.Decimal} instances and then unjellying the result
should produce objects which represent the values of the original
inputs.
"""
inputList = [
decimal.Decimal("9.95"),
decimal.Decimal(0),
decimal.Decimal(123456),
decimal.Decimal("-78.901"),
]
c = jelly.jelly(inputList)
output = jelly.unjelly(c)
self.assertEqual(inputList, output)
self.assertIsNot(inputList, output)
def test_decimalUnjelly(self):
"""
Unjellying the s-expressions produced by jelly for L{decimal.Decimal}
instances should result in L{decimal.Decimal} instances with the values
represented by the s-expressions.
This test also verifies that L{decimalData} contains valid jellied
data. This is important since L{test_decimalMissing} re-uses
L{decimalData} and is expected to be unable to produce
L{decimal.Decimal} instances even though the s-expression correctly
represents a list of them.
"""
expected = [
decimal.Decimal("9.95"),
decimal.Decimal(0),
decimal.Decimal(123456),
decimal.Decimal("-78.901"),
]
output = jelly.unjelly(self.decimalData)
self.assertEqual(output, expected)
def test_decimalSecurity(self):
"""
By default, C{decimal} objects should be allowed by
L{jelly.SecurityOptions}. If not allowed, L{jelly.unjelly} should raise
L{jelly.InsecureJelly} when trying to unjelly it.
"""
inputList = [decimal.Decimal("9.95")]
self._testSecurity(inputList, b"decimal")
def test_set(self):
"""
Jellying C{set} instances and then unjellying the result
should produce objects which represent the values of the original
inputs.
"""
inputList = [{1, 2, 3}]
output = jelly.unjelly(jelly.jelly(inputList))
self.assertEqual(inputList, output)
self.assertIsNot(inputList, output)
def test_frozenset(self):
"""
Jellying L{frozenset} instances and then unjellying the result
should produce objects which represent the values of the original
inputs.
"""
inputList = [frozenset([1, 2, 3])]
output = jelly.unjelly(jelly.jelly(inputList))
self.assertEqual(inputList, output)
self.assertIsNot(inputList, output)
def test_setSecurity(self):
"""
By default, C{set} objects should be allowed by
L{jelly.SecurityOptions}. If not allowed, L{jelly.unjelly} should raise
L{jelly.InsecureJelly} when trying to unjelly it.
"""
inputList = [{1, 2, 3}]
self._testSecurity(inputList, b"set")
def test_frozensetSecurity(self):
"""
By default, L{frozenset} objects should be allowed by
L{jelly.SecurityOptions}. If not allowed, L{jelly.unjelly} should raise
L{jelly.InsecureJelly} when trying to unjelly it.
"""
inputList = [frozenset([1, 2, 3])]
self._testSecurity(inputList, b"frozenset")
def test_simple(self):
"""
Simplest test case.
"""
self.assertTrue(
SimpleJellyTest("a", "b").isTheSameAs(SimpleJellyTest("a", "b"))
)
a = SimpleJellyTest(1, 2)
cereal = jelly.jelly(a)
b = jelly.unjelly(cereal)
self.assertTrue(a.isTheSameAs(b))
def test_identity(self):
"""
Test to make sure that objects retain identity properly.
"""
x = []
y = x
x.append(y)
x.append(y)
self.assertIs(x[0], x[1])
self.assertIs(x[0][0], x)
s = jelly.jelly(x)
z = jelly.unjelly(s)
self.assertIs(z[0], z[1])
self.assertIs(z[0][0], z)
def test_str(self):
x = "blah"
y = jelly.unjelly(jelly.jelly(x))
self.assertEqual(x, y)
self.assertEqual(type(x), type(y))
def test_stressReferences(self):
reref = []
toplevelTuple = ({"list": reref}, reref)
reref.append(toplevelTuple)
s = jelly.jelly(toplevelTuple)
z = jelly.unjelly(s)
self.assertIs(z[0]["list"], z[1])
self.assertIs(z[0]["list"][0], z)
def test_moreReferences(self):
a = []
t = (a,)
a.append((t,))
s = jelly.jelly(t)
z = jelly.unjelly(s)
self.assertIs(z[0][0][0], z)
def test_typeSecurity(self):
"""
Test for type-level security of serialization.
"""
taster = jelly.SecurityOptions()
dct = jelly.jelly({})
self.assertRaises(jelly.InsecureJelly, jelly.unjelly, dct, taster)
def test_newStyleClasses(self):
uj = jelly.unjelly(D)
self.assertIs(D, uj)
def test_lotsaTypes(self):
"""
Test for all types currently supported in jelly
"""
a = A()
jelly.unjelly(jelly.jelly(a))
jelly.unjelly(jelly.jelly(a.amethod))
items = [
afunc,
[1, 2, 3],
not bool(1),
bool(1),
"test",
20.3,
(1, 2, 3),
None,
A,
unittest,
{"a": 1},
A.amethod,
]
for i in items:
self.assertEqual(i, jelly.unjelly(jelly.jelly(i)))
def test_setState(self):
global TupleState
class TupleState:
def __init__(self, other):
self.other = other
def __getstate__(self):
return (self.other,)
def __setstate__(self, state):
self.other = state[0]
def __hash__(self):
return hash(self.other)
a = A()
t1 = TupleState(a)
t2 = TupleState(a)
t3 = TupleState((t1, t2))
d = {t1: t1, t2: t2, t3: t3, "t3": t3}
t3prime = jelly.unjelly(jelly.jelly(d))["t3"]
self.assertIs(t3prime.other[0].other, t3prime.other[1].other)
def test_classSecurity(self):
"""
Test for class-level security of serialization.
"""
taster = jelly.SecurityOptions()
taster.allowInstancesOf(A, B)
a = A()
b = B()
c = C()
# add a little complexity to the data
a.b = b
a.c = c
# and a backreference
a.x = b
b.c = c
# first, a friendly insecure serialization
friendly = jelly.jelly(a, taster)
x = jelly.unjelly(friendly, taster)
self.assertIsInstance(x.c, jelly.Unpersistable)
# now, a malicious one
mean = jelly.jelly(a)
self.assertRaises(jelly.InsecureJelly, jelly.unjelly, mean, taster)
self.assertIs(x.x, x.b, "Identity mismatch")
# test class serialization
friendly = jelly.jelly(A, taster)
x = jelly.unjelly(friendly, taster)
self.assertIs(x, A, "A came back: %s" % x)
def test_unjellyable(self):
"""
Test that if Unjellyable is used to deserialize a jellied object,
state comes out right.
"""
class JellyableTestClass(jelly.Jellyable):
pass
jelly.setUnjellyableForClass(JellyableTestClass, jelly.Unjellyable)
input = JellyableTestClass()
input.attribute = "value"
output = jelly.unjelly(jelly.jelly(input))
self.assertEqual(output.attribute, "value")
self.assertIsInstance(output, jelly.Unjellyable)
def test_persistentStorage(self):
perst = [{}, 1]
def persistentStore(obj, jel, perst=perst):
perst[1] = perst[1] + 1
perst[0][perst[1]] = obj
return str(perst[1])
def persistentLoad(pidstr, unj, perst=perst):
pid = int(pidstr)
return perst[0][pid]
a = SimpleJellyTest(1, 2)
b = SimpleJellyTest(3, 4)
c = SimpleJellyTest(5, 6)
a.b = b
a.c = c
c.b = b
jel = jelly.jelly(a, persistentStore=persistentStore)
x = jelly.unjelly(jel, persistentLoad=persistentLoad)
self.assertIs(x.b, x.c.b)
self.assertTrue(perst[0], "persistentStore was not called.")
self.assertIs(x.b, a.b, "Persistent storage identity failure.")
def test_newStyleClassesAttributes(self):
n = TestNode()
n1 = TestNode(n)
TestNode(n1)
TestNode(n)
# Jelly it
jel = jelly.jelly(n)
m = jelly.unjelly(jel)
# Check that it has been restored ok
self._check_newstyle(n, m)
def _check_newstyle(self, a, b):
self.assertEqual(a.id, b.id)
self.assertEqual(a.classAttr, 4)
self.assertEqual(b.classAttr, 4)
self.assertEqual(len(a.children), len(b.children))
for x, y in zip(a.children, b.children):
self._check_newstyle(x, y)
def test_referenceable(self):
"""
A L{pb.Referenceable} instance jellies to a structure which unjellies to
a L{pb.RemoteReference}. The C{RemoteReference} has a I{luid} that
matches up with the local object key in the L{pb.Broker} which sent the
L{Referenceable}.
"""
ref = pb.Referenceable()
jellyBroker = pb.Broker()
jellyBroker.makeConnection(StringTransport())
j = jelly.jelly(ref, invoker=jellyBroker)
unjellyBroker = pb.Broker()
unjellyBroker.makeConnection(StringTransport())
uj = jelly.unjelly(j, invoker=unjellyBroker)
self.assertIn(uj.luid, jellyBroker.localObjects)
class JellyDeprecationTests(TestCase):
"""
Tests for deprecated Jelly things
"""
def test_deprecatedInstanceAtom(self):
"""
L{jelly.instance_atom} is deprecated since 15.0.0.
"""
jelly.instance_atom
warnings = self.flushWarnings([self.test_deprecatedInstanceAtom])
self.assertEqual(len(warnings), 1)
self.assertEqual(
warnings[0]["message"],
"twisted.spread.jelly.instance_atom was deprecated in Twisted "
"15.0.0: instance_atom is unused within Twisted.",
)
self.assertEqual(warnings[0]["category"], DeprecationWarning)
def test_deprecatedUnjellyingInstanceAtom(self):
"""
Unjellying the instance atom is deprecated with 15.0.0.
"""
jelly.unjelly(
["instance", ["class", "twisted.spread.test.test_jelly.A"], ["dictionary"]]
)
warnings = self.flushWarnings()
self.assertEqual(len(warnings), 1)
self.assertEqual(
warnings[0]["message"],
"Unjelly support for the instance atom is deprecated since "
"Twisted 15.0.0. Upgrade peer for modern instance support.",
)
self.assertEqual(warnings[0]["category"], DeprecationWarning)
class ClassA(pb.Copyable, pb.RemoteCopy):
def __init__(self):
self.ref = ClassB(self)
class ClassB(pb.Copyable, pb.RemoteCopy):
def __init__(self, ref):
self.ref = ref
class CircularReferenceTests(TestCase):
"""
Tests for circular references handling in the jelly/unjelly process.
"""
def test_simpleCircle(self):
jelly.setUnjellyableForClass(ClassA, ClassA)
jelly.setUnjellyableForClass(ClassB, ClassB)
a = jelly.unjelly(jelly.jelly(ClassA()))
self.assertIs(a.ref.ref, a, "Identity not preserved in circular reference")
def test_circleWithInvoker(self):
class DummyInvokerClass:
pass
dummyInvoker = DummyInvokerClass()
dummyInvoker.serializingPerspective = None
a0 = ClassA()
jelly.setUnjellyableForClass(ClassA, ClassA)
jelly.setUnjellyableForClass(ClassB, ClassB)
j = jelly.jelly(a0, invoker=dummyInvoker)
a1 = jelly.unjelly(j)
self.failUnlessIdentical(
a1.ref.ref, a1, "Identity not preserved in circular reference"
)
def test_set(self):
"""
Check that a C{set} can contain a circular reference and be serialized
and unserialized without losing the reference.
"""
s = set()
a = SimpleJellyTest(s, None)
s.add(a)
res = jelly.unjelly(jelly.jelly(a))
self.assertIsInstance(res.x, set)
self.assertEqual(list(res.x), [res])
def test_frozenset(self):
"""
Check that a L{frozenset} can contain a circular reference and be
serialized and unserialized without losing the reference.
"""
a = SimpleJellyTest(None, None)
s = frozenset([a])
a.x = s
res = jelly.unjelly(jelly.jelly(a))
self.assertIsInstance(res.x, frozenset)
self.assertEqual(list(res.x), [res])
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