""" A test spanning all the capabilities of all the serializers. This class defines sample data and a dynamically generated test case that is capable of testing the capabilities of the serializers. This includes all valid data values, plus forward, backwards and self references. """ from __future__ import unicode_literals import datetime import decimal import uuid from unittest import skipUnless from django.core import serializers from django.core.serializers import SerializerDoesNotExist from django.core.serializers.base import DeserializationError from django.core.serializers.xml_serializer import DTDForbidden from django.db import connection, models from django.http import HttpResponse from django.test import SimpleTestCase, TestCase, skipUnlessDBFeature from django.utils import six from django.utils.functional import curry from .models import ( Anchor, AutoNowDateTimeData, BaseModel, BigIntegerData, BinaryData, BooleanData, BooleanPKData, CharData, CharPKData, ComplexModel, DateData, DateTimeData, DecimalData, DecimalPKData, EmailData, EmailPKData, ExplicitInheritBaseModel, FileData, FilePathData, FilePathPKData, FKData, FKDataNaturalKey, FKDataToField, FKDataToO2O, FKSelfData, FKToUUID, FloatData, FloatPKData, GenericData, GenericIPAddressData, GenericIPAddressPKData, InheritAbstractModel, InheritBaseModel, IntegerData, IntegerPKData, Intermediate, LengthModel, M2MData, M2MIntermediateData, M2MSelfData, ModifyingSaveData, NaturalKeyAnchor, NullBooleanData, O2OData, PositiveIntegerData, PositiveIntegerPKData, PositiveSmallIntegerData, PositiveSmallIntegerPKData, ProxyBaseModel, ProxyProxyBaseModel, SlugData, SlugPKData, SmallData, SmallPKData, Tag, TextData, TimeData, UniqueAnchor, UUIDData, ) try: import yaml except ImportError: yaml = None # A set of functions that can be used to recreate # test data objects of various kinds. # The save method is a raw base model save, to make # sure that the data in the database matches the # exact test case. def data_create(pk, klass, data): instance = klass(id=pk) instance.data = data models.Model.save_base(instance, raw=True) return [instance] def generic_create(pk, klass, data): instance = klass(id=pk) instance.data = data[0] models.Model.save_base(instance, raw=True) for tag in data[1:]: instance.tags.create(data=tag) return [instance] def fk_create(pk, klass, data): instance = klass(id=pk) setattr(instance, 'data_id', data) models.Model.save_base(instance, raw=True) return [instance] def m2m_create(pk, klass, data): instance = klass(id=pk) models.Model.save_base(instance, raw=True) instance.data = data return [instance] def im2m_create(pk, klass, data): instance = klass(id=pk) models.Model.save_base(instance, raw=True) return [instance] def im_create(pk, klass, data): instance = klass(id=pk) instance.right_id = data['right'] instance.left_id = data['left'] if 'extra' in data: instance.extra = data['extra'] models.Model.save_base(instance, raw=True) return [instance] def o2o_create(pk, klass, data): instance = klass() instance.data_id = data models.Model.save_base(instance, raw=True) return [instance] def pk_create(pk, klass, data): instance = klass() instance.data = data models.Model.save_base(instance, raw=True) return [instance] def inherited_create(pk, klass, data): instance = klass(id=pk, **data) # This isn't a raw save because: # 1) we're testing inheritance, not field behavior, so none # of the field values need to be protected. # 2) saving the child class and having the parent created # automatically is easier than manually creating both. models.Model.save(instance) created = [instance] for klass, field in instance._meta.parents.items(): created.append(klass.objects.get(id=pk)) return created # A set of functions that can be used to compare # test data objects of various kinds def data_compare(testcase, pk, klass, data): instance = klass.objects.get(id=pk) if klass == BinaryData and data is not None: testcase.assertEqual(bytes(data), bytes(instance.data), "Objects with PK=%d not equal; expected '%s' (%s), got '%s' (%s)" % ( pk, repr(bytes(data)), type(data), repr(bytes(instance.data)), type(instance.data)) ) else: testcase.assertEqual(data, instance.data, "Objects with PK=%d not equal; expected '%s' (%s), got '%s' (%s)" % ( pk, data, type(data), instance, type(instance.data)) ) def generic_compare(testcase, pk, klass, data): instance = klass.objects.get(id=pk) testcase.assertEqual(data[0], instance.data) testcase.assertEqual(data[1:], [t.data for t in instance.tags.order_by('id')]) def fk_compare(testcase, pk, klass, data): instance = klass.objects.get(id=pk) testcase.assertEqual(data, instance.data_id) def m2m_compare(testcase, pk, klass, data): instance = klass.objects.get(id=pk) testcase.assertEqual(data, [obj.id for obj in instance.data.order_by('id')]) def im2m_compare(testcase, pk, klass, data): klass.objects.get(id=pk) # actually nothing else to check, the instance just should exist def im_compare(testcase, pk, klass, data): instance = klass.objects.get(id=pk) testcase.assertEqual(data['left'], instance.left_id) testcase.assertEqual(data['right'], instance.right_id) if 'extra' in data: testcase.assertEqual(data['extra'], instance.extra) else: testcase.assertEqual("doesn't matter", instance.extra) def o2o_compare(testcase, pk, klass, data): instance = klass.objects.get(data=data) testcase.assertEqual(data, instance.data_id) def pk_compare(testcase, pk, klass, data): instance = klass.objects.get(data=data) testcase.assertEqual(data, instance.data) def inherited_compare(testcase, pk, klass, data): instance = klass.objects.get(id=pk) for key, value in data.items(): testcase.assertEqual(value, getattr(instance, key)) # Define some data types. Each data type is # actually a pair of functions; one to create # and one to compare objects of that type data_obj = (data_create, data_compare) generic_obj = (generic_create, generic_compare) fk_obj = (fk_create, fk_compare) m2m_obj = (m2m_create, m2m_compare) im2m_obj = (im2m_create, im2m_compare) im_obj = (im_create, im_compare) o2o_obj = (o2o_create, o2o_compare) pk_obj = (pk_create, pk_compare) inherited_obj = (inherited_create, inherited_compare) uuid_obj = uuid.uuid4() test_data = [ # Format: (data type, PK value, Model Class, data) (data_obj, 1, BinaryData, six.memoryview(b"\x05\xFD\x00")), (data_obj, 2, BinaryData, None), (data_obj, 5, BooleanData, True), (data_obj, 6, BooleanData, False), (data_obj, 10, CharData, "Test Char Data"), (data_obj, 11, CharData, ""), (data_obj, 12, CharData, "None"), (data_obj, 13, CharData, "null"), (data_obj, 14, CharData, "NULL"), (data_obj, 15, CharData, None), # (We use something that will fit into a latin1 database encoding here, # because that is still the default used on many system setups.) (data_obj, 16, CharData, '\xa5'), (data_obj, 20, DateData, datetime.date(2006, 6, 16)), (data_obj, 21, DateData, None), (data_obj, 30, DateTimeData, datetime.datetime(2006, 6, 16, 10, 42, 37)), (data_obj, 31, DateTimeData, None), (data_obj, 40, EmailData, "hovercraft@example.com"), (data_obj, 41, EmailData, None), (data_obj, 42, EmailData, ""), (data_obj, 50, FileData, 'file:///foo/bar/whiz.txt'), # (data_obj, 51, FileData, None), (data_obj, 52, FileData, ""), (data_obj, 60, FilePathData, "/foo/bar/whiz.txt"), (data_obj, 61, FilePathData, None), (data_obj, 62, FilePathData, ""), (data_obj, 70, DecimalData, decimal.Decimal('12.345')), (data_obj, 71, DecimalData, decimal.Decimal('-12.345')), (data_obj, 72, DecimalData, decimal.Decimal('0.0')), (data_obj, 73, DecimalData, None), (data_obj, 74, FloatData, 12.345), (data_obj, 75, FloatData, -12.345), (data_obj, 76, FloatData, 0.0), (data_obj, 77, FloatData, None), (data_obj, 80, IntegerData, 123456789), (data_obj, 81, IntegerData, -123456789), (data_obj, 82, IntegerData, 0), (data_obj, 83, IntegerData, None), # (XX, ImageData (data_obj, 95, GenericIPAddressData, "fe80:1424:2223:6cff:fe8a:2e8a:2151:abcd"), (data_obj, 96, GenericIPAddressData, None), (data_obj, 100, NullBooleanData, True), (data_obj, 101, NullBooleanData, False), (data_obj, 102, NullBooleanData, None), (data_obj, 120, PositiveIntegerData, 123456789), (data_obj, 121, PositiveIntegerData, None), (data_obj, 130, PositiveSmallIntegerData, 12), (data_obj, 131, PositiveSmallIntegerData, None), (data_obj, 140, SlugData, "this-is-a-slug"), (data_obj, 141, SlugData, None), (data_obj, 142, SlugData, ""), (data_obj, 150, SmallData, 12), (data_obj, 151, SmallData, -12), (data_obj, 152, SmallData, 0), (data_obj, 153, SmallData, None), (data_obj, 160, TextData, """This is a long piece of text. It contains line breaks. Several of them. The end."""), (data_obj, 161, TextData, ""), (data_obj, 162, TextData, None), (data_obj, 170, TimeData, datetime.time(10, 42, 37)), (data_obj, 171, TimeData, None), (generic_obj, 200, GenericData, ['Generic Object 1', 'tag1', 'tag2']), (generic_obj, 201, GenericData, ['Generic Object 2', 'tag2', 'tag3']), (data_obj, 300, Anchor, "Anchor 1"), (data_obj, 301, Anchor, "Anchor 2"), (data_obj, 302, UniqueAnchor, "UAnchor 1"), (fk_obj, 400, FKData, 300), # Post reference (fk_obj, 401, FKData, 500), # Pre reference (fk_obj, 402, FKData, None), # Empty reference (m2m_obj, 410, M2MData, []), # Empty set (m2m_obj, 411, M2MData, [300, 301]), # Post reference (m2m_obj, 412, M2MData, [500, 501]), # Pre reference (m2m_obj, 413, M2MData, [300, 301, 500, 501]), # Pre and Post reference (o2o_obj, None, O2OData, 300), # Post reference (o2o_obj, None, O2OData, 500), # Pre reference (fk_obj, 430, FKSelfData, 431), # Pre reference (fk_obj, 431, FKSelfData, 430), # Post reference (fk_obj, 432, FKSelfData, None), # Empty reference (m2m_obj, 440, M2MSelfData, []), (m2m_obj, 441, M2MSelfData, []), (m2m_obj, 442, M2MSelfData, [440, 441]), (m2m_obj, 443, M2MSelfData, [445, 446]), (m2m_obj, 444, M2MSelfData, [440, 441, 445, 446]), (m2m_obj, 445, M2MSelfData, []), (m2m_obj, 446, M2MSelfData, []), (fk_obj, 450, FKDataToField, "UAnchor 1"), (fk_obj, 451, FKDataToField, "UAnchor 2"), (fk_obj, 452, FKDataToField, None), (fk_obj, 460, FKDataToO2O, 300), (im2m_obj, 470, M2MIntermediateData, None), # testing post- and prereferences and extra fields (im_obj, 480, Intermediate, {'right': 300, 'left': 470}), (im_obj, 481, Intermediate, {'right': 300, 'left': 490}), (im_obj, 482, Intermediate, {'right': 500, 'left': 470}), (im_obj, 483, Intermediate, {'right': 500, 'left': 490}), (im_obj, 484, Intermediate, {'right': 300, 'left': 470, 'extra': "extra"}), (im_obj, 485, Intermediate, {'right': 300, 'left': 490, 'extra': "extra"}), (im_obj, 486, Intermediate, {'right': 500, 'left': 470, 'extra': "extra"}), (im_obj, 487, Intermediate, {'right': 500, 'left': 490, 'extra': "extra"}), (im2m_obj, 490, M2MIntermediateData, []), (data_obj, 500, Anchor, "Anchor 3"), (data_obj, 501, Anchor, "Anchor 4"), (data_obj, 502, UniqueAnchor, "UAnchor 2"), (pk_obj, 601, BooleanPKData, True), (pk_obj, 602, BooleanPKData, False), (pk_obj, 610, CharPKData, "Test Char PKData"), # (pk_obj, 620, DatePKData, datetime.date(2006, 6, 16)), # (pk_obj, 630, DateTimePKData, datetime.datetime(2006, 6, 16, 10, 42, 37)), (pk_obj, 640, EmailPKData, "hovercraft@example.com"), # (pk_obj, 650, FilePKData, 'file:///foo/bar/whiz.txt'), (pk_obj, 660, FilePathPKData, "/foo/bar/whiz.txt"), (pk_obj, 670, DecimalPKData, decimal.Decimal('12.345')), (pk_obj, 671, DecimalPKData, decimal.Decimal('-12.345')), (pk_obj, 672, DecimalPKData, decimal.Decimal('0.0')), (pk_obj, 673, FloatPKData, 12.345), (pk_obj, 674, FloatPKData, -12.345), (pk_obj, 675, FloatPKData, 0.0), (pk_obj, 680, IntegerPKData, 123456789), (pk_obj, 681, IntegerPKData, -123456789), (pk_obj, 682, IntegerPKData, 0), # (XX, ImagePKData (pk_obj, 695, GenericIPAddressPKData, "fe80:1424:2223:6cff:fe8a:2e8a:2151:abcd"), # (pk_obj, 700, NullBooleanPKData, True), # (pk_obj, 701, NullBooleanPKData, False), (pk_obj, 720, PositiveIntegerPKData, 123456789), (pk_obj, 730, PositiveSmallIntegerPKData, 12), (pk_obj, 740, SlugPKData, "this-is-a-slug"), (pk_obj, 750, SmallPKData, 12), (pk_obj, 751, SmallPKData, -12), (pk_obj, 752, SmallPKData, 0), # (pk_obj, 760, TextPKData, """This is a long piece of text. # It contains line breaks. # Several of them. # The end."""), # (pk_obj, 770, TimePKData, datetime.time(10, 42, 37)), # (pk_obj, 790, XMLPKData, ""), (pk_obj, 791, UUIDData, uuid_obj), (fk_obj, 792, FKToUUID, uuid_obj), (data_obj, 800, AutoNowDateTimeData, datetime.datetime(2006, 6, 16, 10, 42, 37)), (data_obj, 810, ModifyingSaveData, 42), (inherited_obj, 900, InheritAbstractModel, {'child_data': 37, 'parent_data': 42}), (inherited_obj, 910, ExplicitInheritBaseModel, {'child_data': 37, 'parent_data': 42}), (inherited_obj, 920, InheritBaseModel, {'child_data': 37, 'parent_data': 42}), (data_obj, 1000, BigIntegerData, 9223372036854775807), (data_obj, 1001, BigIntegerData, -9223372036854775808), (data_obj, 1002, BigIntegerData, 0), (data_obj, 1003, BigIntegerData, None), (data_obj, 1004, LengthModel, 0), (data_obj, 1005, LengthModel, 1), ] natural_key_test_data = [ (data_obj, 1100, NaturalKeyAnchor, "Natural Key Anghor"), (fk_obj, 1101, FKDataNaturalKey, 1100), (fk_obj, 1102, FKDataNaturalKey, None), ] # Because Oracle treats the empty string as NULL, Oracle is expected to fail # when field.empty_strings_allowed is True and the value is None; skip these # tests. if connection.features.interprets_empty_strings_as_nulls: test_data = [data for data in test_data if not (data[0] == data_obj and data[2]._meta.get_field('data').empty_strings_allowed and data[3] is None)] # Regression test for #8651 -- a FK to an object with PK of 0 # This won't work on MySQL since it won't let you create an object # with an autoincrement primary key of 0, if connection.features.allows_auto_pk_0: test_data.extend([ (data_obj, 0, Anchor, "Anchor 0"), (fk_obj, 465, FKData, 0), ]) # Dynamically create serializer tests to ensure that all # registered serializers are automatically tested. @skipUnlessDBFeature('can_defer_constraint_checks') class SerializerTests(TestCase): def test_get_unknown_serializer(self): """ #15889: get_serializer('nonsense') raises a SerializerDoesNotExist """ with self.assertRaises(SerializerDoesNotExist): serializers.get_serializer("nonsense") with self.assertRaises(KeyError): serializers.get_serializer("nonsense") # SerializerDoesNotExist is instantiated with the nonexistent format with self.assertRaises(SerializerDoesNotExist) as cm: serializers.get_serializer("nonsense") self.assertEqual(cm.exception.args, ("nonsense",)) def test_unregister_unknown_serializer(self): with self.assertRaises(SerializerDoesNotExist): serializers.unregister_serializer("nonsense") def test_get_unknown_deserializer(self): with self.assertRaises(SerializerDoesNotExist): serializers.get_deserializer("nonsense") def test_json_deserializer_exception(self): with self.assertRaises(DeserializationError): for obj in serializers.deserialize("json", """[{"pk":1}"""): pass @skipUnless(yaml, "PyYAML not installed") def test_yaml_deserializer_exception(self): with self.assertRaises(DeserializationError): for obj in serializers.deserialize("yaml", "{"): pass def test_serialize_proxy_model(self): BaseModel.objects.create(parent_data=1) base_objects = BaseModel.objects.all() proxy_objects = ProxyBaseModel.objects.all() proxy_proxy_objects = ProxyProxyBaseModel.objects.all() base_data = serializers.serialize("json", base_objects) proxy_data = serializers.serialize("json", proxy_objects) proxy_proxy_data = serializers.serialize("json", proxy_proxy_objects) self.assertEqual(base_data, proxy_data.replace('proxy', '')) self.assertEqual(base_data, proxy_proxy_data.replace('proxy', '')) def serializerTest(format, self): # Create all the objects defined in the test data objects = [] instance_count = {} for (func, pk, klass, datum) in test_data: with connection.constraint_checks_disabled(): objects.extend(func[0](pk, klass, datum)) # Get a count of the number of objects created for each class for klass in instance_count: instance_count[klass] = klass.objects.count() # Add the generic tagged objects to the object list objects.extend(Tag.objects.all()) # Serialize the test database serialized_data = serializers.serialize(format, objects, indent=2) for obj in serializers.deserialize(format, serialized_data): obj.save() # Assert that the deserialized data is the same # as the original source for (func, pk, klass, datum) in test_data: func[1](self, pk, klass, datum) # Assert that the number of objects deserialized is the # same as the number that was serialized. for klass, count in instance_count.items(): self.assertEqual(count, klass.objects.count()) def naturalKeySerializerTest(format, self): # Create all the objects defined in the test data objects = [] instance_count = {} for (func, pk, klass, datum) in natural_key_test_data: with connection.constraint_checks_disabled(): objects.extend(func[0](pk, klass, datum)) # Get a count of the number of objects created for each class for klass in instance_count: instance_count[klass] = klass.objects.count() # Serialize the test database serialized_data = serializers.serialize(format, objects, indent=2, use_natural_foreign_keys=True) for obj in serializers.deserialize(format, serialized_data): obj.save() # Assert that the deserialized data is the same # as the original source for (func, pk, klass, datum) in natural_key_test_data: func[1](self, pk, klass, datum) # Assert that the number of objects deserialized is the # same as the number that was serialized. for klass, count in instance_count.items(): self.assertEqual(count, klass.objects.count()) def fieldsTest(format, self): obj = ComplexModel(field1='first', field2='second', field3='third') obj.save_base(raw=True) # Serialize then deserialize the test database serialized_data = serializers.serialize(format, [obj], indent=2, fields=('field1', 'field3')) result = next(serializers.deserialize(format, serialized_data)) # Check that the deserialized object contains data in only the serialized fields. self.assertEqual(result.object.field1, 'first') self.assertEqual(result.object.field2, '') self.assertEqual(result.object.field3, 'third') def streamTest(format, self): obj = ComplexModel(field1='first', field2='second', field3='third') obj.save_base(raw=True) # Serialize the test database to a stream for stream in (six.StringIO(), HttpResponse()): serializers.serialize(format, [obj], indent=2, stream=stream) # Serialize normally for a comparison string_data = serializers.serialize(format, [obj], indent=2) # Check that the two are the same if isinstance(stream, six.StringIO): self.assertEqual(string_data, stream.getvalue()) else: self.assertEqual(string_data, stream.content.decode('utf-8')) def naturalKeyTest(format, self): book1 = {'data': '978-1590597255', 'title': 'The Definitive Guide to ' 'Django: Web Development Done Right'} book2 = {'data': '978-1590599969', 'title': 'Practical Django Projects'} # Create the books. adrian = NaturalKeyAnchor.objects.create(**book1) james = NaturalKeyAnchor.objects.create(**book2) # Serialize the books. string_data = serializers.serialize(format, NaturalKeyAnchor.objects.all(), indent=2, use_natural_foreign_keys=True, use_natural_primary_keys=True) # Delete one book (to prove that the natural key generation will only # restore the primary keys of books found in the database via the # get_natural_key manager method). james.delete() # Deserialize and test. books = list(serializers.deserialize(format, string_data)) self.assertEqual(len(books), 2) self.assertEqual(books[0].object.title, book1['title']) self.assertEqual(books[0].object.pk, adrian.pk) self.assertEqual(books[1].object.title, book2['title']) self.assertEqual(books[1].object.pk, None) for format in [f for f in serializers.get_serializer_formats() if not isinstance(serializers.get_serializer(f), serializers.BadSerializer) and not f == 'geojson']: setattr(SerializerTests, 'test_' + format + '_serializer', curry(serializerTest, format)) setattr(SerializerTests, 'test_' + format + '_natural_key_serializer', curry(naturalKeySerializerTest, format)) setattr(SerializerTests, 'test_' + format + '_serializer_fields', curry(fieldsTest, format)) setattr(SerializerTests, 'test_' + format + '_serializer_natural_keys', curry(naturalKeyTest, format)) if format != 'python': setattr(SerializerTests, 'test_' + format + '_serializer_stream', curry(streamTest, format)) class XmlDeserializerSecurityTests(SimpleTestCase): def test_no_dtd(self): """ The XML deserializer shouldn't allow a DTD. This is the most straightforward way to prevent all entity definitions and avoid both external entities and entity-expansion attacks. """ xml = '' with self.assertRaises(DTDForbidden): next(serializers.deserialize('xml', xml))