import datetime from unittest.mock import MagicMock, patch import pytest from django.db import DataError, models from django.test import TestCase from rest_framework import serializers from rest_framework.exceptions import ValidationError from rest_framework.validators import ( BaseUniqueForValidator, UniqueTogetherValidator, UniqueValidator, qs_exists ) def dedent(blocktext): return '\n'.join([line[12:] for line in blocktext.splitlines()[1:-1]]) # Tests for `UniqueValidator` # --------------------------- class UniquenessModel(models.Model): username = models.CharField(unique=True, max_length=100) class UniquenessSerializer(serializers.ModelSerializer): class Meta: model = UniquenessModel fields = '__all__' class RelatedModel(models.Model): user = models.OneToOneField(UniquenessModel, on_delete=models.CASCADE) email = models.CharField(unique=True, max_length=80) class RelatedModelSerializer(serializers.ModelSerializer): username = serializers.CharField(source='user.username', validators=[UniqueValidator(queryset=UniquenessModel.objects.all(), lookup='iexact')]) # NOQA class Meta: model = RelatedModel fields = ('username', 'email') class RelatedModelUserSerializer(serializers.ModelSerializer): class Meta: model = RelatedModel fields = ('user',) class AnotherUniquenessModel(models.Model): code = models.IntegerField(unique=True) class AnotherUniquenessSerializer(serializers.ModelSerializer): class Meta: model = AnotherUniquenessModel fields = '__all__' class IntegerFieldModel(models.Model): integer = models.IntegerField() class UniquenessIntegerSerializer(serializers.Serializer): # Note that this field *deliberately* does not correspond with the model field. # This allows us to ensure that `ValueError`, `TypeError` or `DataError` etc # raised by a uniqueness check does not trigger a deceptive "this field is not unique" # validation failure. integer = serializers.CharField(validators=[UniqueValidator(queryset=IntegerFieldModel.objects.all())]) class TestUniquenessValidation(TestCase): def setUp(self): self.instance = UniquenessModel.objects.create(username='existing') def test_repr(self): serializer = UniquenessSerializer() expected = dedent(""" UniquenessSerializer(): id = IntegerField(label='ID', read_only=True) username = CharField(max_length=100, validators=[]) """) assert repr(serializer) == expected def test_is_not_unique(self): data = {'username': 'existing'} serializer = UniquenessSerializer(data=data) assert not serializer.is_valid() assert serializer.errors == {'username': ['uniqueness model with this username already exists.']} def test_relation_is_not_unique(self): RelatedModel.objects.create(user=self.instance) data = {'user': self.instance.pk} serializer = RelatedModelUserSerializer(data=data) assert not serializer.is_valid() assert serializer.errors == {'user': ['related model with this user already exists.']} def test_is_unique(self): data = {'username': 'other'} serializer = UniquenessSerializer(data=data) assert serializer.is_valid() assert serializer.validated_data == {'username': 'other'} def test_updated_instance_excluded(self): data = {'username': 'existing'} serializer = UniquenessSerializer(self.instance, data=data) assert serializer.is_valid() assert serializer.validated_data == {'username': 'existing'} def test_doesnt_pollute_model(self): instance = AnotherUniquenessModel.objects.create(code='100') serializer = AnotherUniquenessSerializer(instance) assert AnotherUniquenessModel._meta.get_field('code').validators == [] # Accessing data shouldn't effect validators on the model serializer.data assert AnotherUniquenessModel._meta.get_field('code').validators == [] def test_related_model_is_unique(self): data = {'username': 'Existing', 'email': 'new-email@example.com'} rs = RelatedModelSerializer(data=data) assert not rs.is_valid() assert rs.errors == {'username': ['This field must be unique.']} data = {'username': 'new-username', 'email': 'new-email@example.com'} rs = RelatedModelSerializer(data=data) assert rs.is_valid() def test_value_error_treated_as_not_unique(self): serializer = UniquenessIntegerSerializer(data={'integer': 'abc'}) assert serializer.is_valid() # Tests for `UniqueTogetherValidator` # ----------------------------------- class UniquenessTogetherModel(models.Model): race_name = models.CharField(max_length=100) position = models.IntegerField() class Meta: unique_together = ('race_name', 'position') class NullUniquenessTogetherModel(models.Model): """ Used to ensure that null values are not included when checking unique_together constraints. Ignoring items which have a null in any of the validated fields is the same behavior that database backends will use when they have the unique_together constraint added. Example case: a null position could indicate a non-finisher in the race, there could be many non-finishers in a race, but all non-NULL values *should* be unique against the given `race_name`. """ date_of_birth = models.DateField(null=True) # Not part of the uniqueness constraint race_name = models.CharField(max_length=100) position = models.IntegerField(null=True) class Meta: unique_together = ('race_name', 'position') class UniquenessTogetherSerializer(serializers.ModelSerializer): class Meta: model = UniquenessTogetherModel fields = '__all__' class NullUniquenessTogetherSerializer(serializers.ModelSerializer): class Meta: model = NullUniquenessTogetherModel fields = '__all__' class TestUniquenessTogetherValidation(TestCase): def setUp(self): self.instance = UniquenessTogetherModel.objects.create( race_name='example', position=1 ) UniquenessTogetherModel.objects.create( race_name='example', position=2 ) UniquenessTogetherModel.objects.create( race_name='other', position=1 ) def test_repr(self): serializer = UniquenessTogetherSerializer() expected = dedent(""" UniquenessTogetherSerializer(): id = IntegerField(label='ID', read_only=True) race_name = CharField(max_length=100, required=True) position = IntegerField(required=True) class Meta: validators = [] """) assert repr(serializer) == expected def test_is_not_unique_together(self): """ Failing unique together validation should result in non field errors. """ data = {'race_name': 'example', 'position': 2} serializer = UniquenessTogetherSerializer(data=data) assert not serializer.is_valid() assert serializer.errors == { 'non_field_errors': [ 'The fields race_name, position must make a unique set.' ] } def test_is_unique_together(self): """ In a unique together validation, one field may be non-unique so long as the set as a whole is unique. """ data = {'race_name': 'other', 'position': 2} serializer = UniquenessTogetherSerializer(data=data) assert serializer.is_valid() assert serializer.validated_data == { 'race_name': 'other', 'position': 2 } def test_updated_instance_excluded_from_unique_together(self): """ When performing an update, the existing instance does not count as a match against uniqueness. """ data = {'race_name': 'example', 'position': 1} serializer = UniquenessTogetherSerializer(self.instance, data=data) assert serializer.is_valid() assert serializer.validated_data == { 'race_name': 'example', 'position': 1 } def test_unique_together_is_required(self): """ In a unique together validation, all fields are required. """ data = {'position': 2} serializer = UniquenessTogetherSerializer(data=data, partial=True) assert not serializer.is_valid() assert serializer.errors == { 'race_name': ['This field is required.'] } def test_ignore_excluded_fields(self): """ When model fields are not included in a serializer, then uniqueness validators should not be added for that field. """ class ExcludedFieldSerializer(serializers.ModelSerializer): class Meta: model = UniquenessTogetherModel fields = ('id', 'race_name',) serializer = ExcludedFieldSerializer() expected = dedent(""" ExcludedFieldSerializer(): id = IntegerField(label='ID', read_only=True) race_name = CharField(max_length=100) """) assert repr(serializer) == expected def test_ignore_read_only_fields(self): """ When serializer fields are read only, then uniqueness validators should not be added for that field. """ class ReadOnlyFieldSerializer(serializers.ModelSerializer): class Meta: model = UniquenessTogetherModel fields = ('id', 'race_name', 'position') read_only_fields = ('race_name',) serializer = ReadOnlyFieldSerializer() expected = dedent(""" ReadOnlyFieldSerializer(): id = IntegerField(label='ID', read_only=True) race_name = CharField(read_only=True) position = IntegerField(required=True) """) assert repr(serializer) == expected def test_read_only_fields_with_default(self): """ Special case of read_only + default DOES validate unique_together. """ class ReadOnlyFieldWithDefaultSerializer(serializers.ModelSerializer): race_name = serializers.CharField(max_length=100, read_only=True, default='example') class Meta: model = UniquenessTogetherModel fields = ('id', 'race_name', 'position') data = {'position': 2} serializer = ReadOnlyFieldWithDefaultSerializer(data=data) assert len(serializer.validators) == 1 assert isinstance(serializer.validators[0], UniqueTogetherValidator) assert serializer.validators[0].fields == ('race_name', 'position') assert not serializer.is_valid() assert serializer.errors == { 'non_field_errors': [ 'The fields race_name, position must make a unique set.' ] } def test_read_only_fields_with_default_and_source(self): class ReadOnlySerializer(serializers.ModelSerializer): name = serializers.CharField(source='race_name', default='test', read_only=True) class Meta: model = UniquenessTogetherModel fields = ['name', 'position'] validators = [ UniqueTogetherValidator( queryset=UniquenessTogetherModel.objects.all(), fields=['name', 'position'] ) ] serializer = ReadOnlySerializer(data={'position': 1}) assert serializer.is_valid(raise_exception=True) def test_writeable_fields_with_source(self): class WriteableSerializer(serializers.ModelSerializer): name = serializers.CharField(source='race_name') class Meta: model = UniquenessTogetherModel fields = ['name', 'position'] validators = [ UniqueTogetherValidator( queryset=UniquenessTogetherModel.objects.all(), fields=['name', 'position'] ) ] serializer = WriteableSerializer(data={'name': 'test', 'position': 1}) assert serializer.is_valid(raise_exception=True) # Validation error should use seriazlier field name, not source serializer = WriteableSerializer(data={'position': 1}) assert not serializer.is_valid() assert serializer.errors == { 'name': [ 'This field is required.' ] } def test_default_validator_with_fields_with_source(self): class TestSerializer(serializers.ModelSerializer): name = serializers.CharField(source='race_name') class Meta: model = UniquenessTogetherModel fields = ['name', 'position'] serializer = TestSerializer() expected = dedent(""" TestSerializer(): name = CharField(source='race_name') position = IntegerField() class Meta: validators = [] """) assert repr(serializer) == expected def test_default_validator_with_multiple_fields_with_same_source(self): class TestSerializer(serializers.ModelSerializer): name = serializers.CharField(source='race_name') other_name = serializers.CharField(source='race_name') class Meta: model = UniquenessTogetherModel fields = ['name', 'other_name', 'position'] serializer = TestSerializer(data={ 'name': 'foo', 'other_name': 'foo', 'position': 1, }) with pytest.raises(AssertionError) as excinfo: serializer.is_valid() expected = ( "Unable to create `UniqueTogetherValidator` for " "`UniquenessTogetherModel.race_name` as `TestSerializer` has " "multiple fields (name, other_name) that map to this model field. " "Either remove the extra fields, or override `Meta.validators` " "with a `UniqueTogetherValidator` using the desired field names.") assert str(excinfo.value) == expected def test_allow_explict_override(self): """ Ensure validators can be explicitly removed.. """ class NoValidatorsSerializer(serializers.ModelSerializer): class Meta: model = UniquenessTogetherModel fields = ('id', 'race_name', 'position') validators = [] serializer = NoValidatorsSerializer() expected = dedent(""" NoValidatorsSerializer(): id = IntegerField(label='ID', read_only=True) race_name = CharField(max_length=100) position = IntegerField() """) assert repr(serializer) == expected def test_ignore_validation_for_null_fields(self): # None values that are on fields which are part of the uniqueness # constraint cause the instance to ignore uniqueness validation. NullUniquenessTogetherModel.objects.create( date_of_birth=datetime.date(2000, 1, 1), race_name='Paris Marathon', position=None ) data = { 'date': datetime.date(2000, 1, 1), 'race_name': 'Paris Marathon', 'position': None } serializer = NullUniquenessTogetherSerializer(data=data) assert serializer.is_valid() def test_do_not_ignore_validation_for_null_fields(self): # None values that are not on fields part of the uniqueness constraint # do not cause the instance to skip validation. NullUniquenessTogetherModel.objects.create( date_of_birth=datetime.date(2000, 1, 1), race_name='Paris Marathon', position=1 ) data = {'date': None, 'race_name': 'Paris Marathon', 'position': 1} serializer = NullUniquenessTogetherSerializer(data=data) assert not serializer.is_valid() def test_ignore_validation_for_unchanged_fields(self): """ If all fields in the unique together constraint are unchanged, then the instance should skip uniqueness validation. """ instance = UniquenessTogetherModel.objects.create( race_name="Paris Marathon", position=1 ) data = {"race_name": "Paris Marathon", "position": 1} serializer = UniquenessTogetherSerializer(data=data, instance=instance) with patch( "rest_framework.validators.qs_exists" ) as mock: assert serializer.is_valid() assert not mock.called def test_filter_queryset_do_not_skip_existing_attribute(self): """ filter_queryset should add value from existing instance attribute if it is not provided in attributes dict """ class MockQueryset: def filter(self, **kwargs): self.called_with = kwargs data = {'race_name': 'bar'} queryset = MockQueryset() serializer = UniquenessTogetherSerializer(instance=self.instance) validator = UniqueTogetherValidator(queryset, fields=('race_name', 'position')) validator.filter_queryset(attrs=data, queryset=queryset, serializer=serializer) assert queryset.called_with == {'race_name': 'bar', 'position': 1} class UniqueConstraintModel(models.Model): race_name = models.CharField(max_length=100) position = models.IntegerField() global_id = models.IntegerField() fancy_conditions = models.IntegerField(null=True) class Meta: constraints = [ models.UniqueConstraint( name="unique_constraint_model_global_id_uniq", fields=('global_id',), ), models.UniqueConstraint( name="unique_constraint_model_fancy_1_uniq", fields=('fancy_conditions',), condition=models.Q(global_id__lte=1) ), models.UniqueConstraint( name="unique_constraint_model_fancy_3_uniq", fields=('fancy_conditions',), condition=models.Q(global_id__gte=3) ), models.UniqueConstraint( name="unique_constraint_model_together_uniq", fields=('race_name', 'position'), condition=models.Q(race_name='example'), ) ] class UniqueConstraintSerializer(serializers.ModelSerializer): class Meta: model = UniqueConstraintModel fields = '__all__' class TestUniqueConstraintValidation(TestCase): def setUp(self): self.instance = UniqueConstraintModel.objects.create( race_name='example', position=1, global_id=1 ) UniqueConstraintModel.objects.create( race_name='example', position=2, global_id=2 ) UniqueConstraintModel.objects.create( race_name='other', position=1, global_id=3 ) def test_repr(self): serializer = UniqueConstraintSerializer() # the order of validators isn't deterministic so delete # fancy_conditions field that has two of them del serializer.fields['fancy_conditions'] expected = dedent(""" UniqueConstraintSerializer(): id = IntegerField(label='ID', read_only=True) race_name = CharField(max_length=100, required=True) position = IntegerField(required=True) global_id = IntegerField(validators=[]) class Meta: validators = [, ]>, fields=('race_name', 'position'))>] """) assert repr(serializer) == expected def test_unique_together_field(self): """ UniqueConstraint fields and condition attributes must be passed to UniqueTogetherValidator as fields and queryset """ serializer = UniqueConstraintSerializer() assert len(serializer.validators) == 1 validator = serializer.validators[0] assert validator.fields == ('race_name', 'position') assert set(validator.queryset.values_list(flat=True)) == set( UniqueConstraintModel.objects.filter(race_name='example').values_list(flat=True) ) def test_single_field_uniq_validators(self): """ UniqueConstraint with single field must be transformed into field's UniqueValidator """ serializer = UniqueConstraintSerializer() assert len(serializer.validators) == 1 validators = serializer.fields['global_id'].validators assert len(validators) == 1 assert validators[0].queryset == UniqueConstraintModel.objects validators = serializer.fields['fancy_conditions'].validators assert len(validators) == 2 ids_in_qs = {frozenset(v.queryset.values_list(flat=True)) for v in validators} assert ids_in_qs == {frozenset([1]), frozenset([3])} # Tests for `UniqueForDateValidator` # ---------------------------------- class UniqueForDateModel(models.Model): slug = models.CharField(max_length=100, unique_for_date='published') published = models.DateField() class UniqueForDateSerializer(serializers.ModelSerializer): class Meta: model = UniqueForDateModel fields = '__all__' class TestUniquenessForDateValidation(TestCase): def setUp(self): self.instance = UniqueForDateModel.objects.create( slug='existing', published='2000-01-01' ) def test_repr(self): serializer = UniqueForDateSerializer() expected = dedent(""" UniqueForDateSerializer(): id = IntegerField(label='ID', read_only=True) slug = CharField(max_length=100) published = DateField(required=True) class Meta: validators = [] """) assert repr(serializer) == expected def test_is_not_unique_for_date(self): """ Failing unique for date validation should result in field error. """ data = {'slug': 'existing', 'published': '2000-01-01'} serializer = UniqueForDateSerializer(data=data) assert not serializer.is_valid() assert serializer.errors == { 'slug': ['This field must be unique for the "published" date.'] } def test_is_unique_for_date(self): """ Passing unique for date validation. """ data = {'slug': 'existing', 'published': '2000-01-02'} serializer = UniqueForDateSerializer(data=data) assert serializer.is_valid() assert serializer.validated_data == { 'slug': 'existing', 'published': datetime.date(2000, 1, 2) } def test_updated_instance_excluded_from_unique_for_date(self): """ When performing an update, the existing instance does not count as a match against unique_for_date. """ data = {'slug': 'existing', 'published': '2000-01-01'} serializer = UniqueForDateSerializer(instance=self.instance, data=data) assert serializer.is_valid() assert serializer.validated_data == { 'slug': 'existing', 'published': datetime.date(2000, 1, 1) } # Tests for `UniqueForMonthValidator` # ---------------------------------- class UniqueForMonthModel(models.Model): slug = models.CharField(max_length=100, unique_for_month='published') published = models.DateField() class UniqueForMonthSerializer(serializers.ModelSerializer): class Meta: model = UniqueForMonthModel fields = '__all__' class UniqueForMonthTests(TestCase): def setUp(self): self.instance = UniqueForMonthModel.objects.create( slug='existing', published='2017-01-01' ) def test_not_unique_for_month(self): data = {'slug': 'existing', 'published': '2017-01-01'} serializer = UniqueForMonthSerializer(data=data) assert not serializer.is_valid() assert serializer.errors == { 'slug': ['This field must be unique for the "published" month.'] } def test_unique_for_month(self): data = {'slug': 'existing', 'published': '2017-02-01'} serializer = UniqueForMonthSerializer(data=data) assert serializer.is_valid() assert serializer.validated_data == { 'slug': 'existing', 'published': datetime.date(2017, 2, 1) } # Tests for `UniqueForYearValidator` # ---------------------------------- class UniqueForYearModel(models.Model): slug = models.CharField(max_length=100, unique_for_year='published') published = models.DateField() class UniqueForYearSerializer(serializers.ModelSerializer): class Meta: model = UniqueForYearModel fields = '__all__' class UniqueForYearTests(TestCase): def setUp(self): self.instance = UniqueForYearModel.objects.create( slug='existing', published='2017-01-01' ) def test_not_unique_for_year(self): data = {'slug': 'existing', 'published': '2017-01-01'} serializer = UniqueForYearSerializer(data=data) assert not serializer.is_valid() assert serializer.errors == { 'slug': ['This field must be unique for the "published" year.'] } def test_unique_for_year(self): data = {'slug': 'existing', 'published': '2018-01-01'} serializer = UniqueForYearSerializer(data=data) assert serializer.is_valid() assert serializer.validated_data == { 'slug': 'existing', 'published': datetime.date(2018, 1, 1) } class HiddenFieldUniqueForDateModel(models.Model): slug = models.CharField(max_length=100, unique_for_date='published') published = models.DateTimeField(auto_now_add=True) class TestHiddenFieldUniquenessForDateValidation(TestCase): def test_repr_date_field_not_included(self): class TestSerializer(serializers.ModelSerializer): class Meta: model = HiddenFieldUniqueForDateModel fields = ('id', 'slug') serializer = TestSerializer() expected = dedent(""" TestSerializer(): id = IntegerField(label='ID', read_only=True) slug = CharField(max_length=100) published = HiddenField(default=CreateOnlyDefault()) class Meta: validators = [] """) assert repr(serializer) == expected def test_repr_date_field_included(self): class TestSerializer(serializers.ModelSerializer): class Meta: model = HiddenFieldUniqueForDateModel fields = ('id', 'slug', 'published') serializer = TestSerializer() expected = dedent(""" TestSerializer(): id = IntegerField(label='ID', read_only=True) slug = CharField(max_length=100) published = DateTimeField(default=CreateOnlyDefault(), read_only=True) class Meta: validators = [] """) assert repr(serializer) == expected class ValidatorsTests(TestCase): def test_qs_exists_handles_type_error(self): class TypeErrorQueryset: def exists(self): raise TypeError assert qs_exists(TypeErrorQueryset()) is False def test_qs_exists_handles_value_error(self): class ValueErrorQueryset: def exists(self): raise ValueError assert qs_exists(ValueErrorQueryset()) is False def test_qs_exists_handles_data_error(self): class DataErrorQueryset: def exists(self): raise DataError assert qs_exists(DataErrorQueryset()) is False def test_validator_raises_error_if_not_all_fields_are_provided(self): validator = BaseUniqueForValidator(queryset=object(), field='foo', date_field='bar') attrs = {'foo': 'baz'} with pytest.raises(ValidationError): validator.enforce_required_fields(attrs) def test_validator_raises_error_when_abstract_method_called(self): validator = BaseUniqueForValidator(queryset=object(), field='foo', date_field='bar') with pytest.raises(NotImplementedError): validator.filter_queryset( attrs=None, queryset=None, field_name='', date_field_name='' ) def test_equality_operator(self): mock_queryset = MagicMock() validator = BaseUniqueForValidator(queryset=mock_queryset, field='foo', date_field='bar') validator2 = BaseUniqueForValidator(queryset=mock_queryset, field='foo', date_field='bar') assert validator == validator2 validator2.date_field = "bar2" assert validator != validator2