from __future__ import unicode_literals import re from django.core.validators import MaxValueValidator, RegexValidator from django.db import models from django.test import TestCase from rest_framework import generics, serializers, status from rest_framework.test import APIRequestFactory factory = APIRequestFactory() # Regression for #666 class ValidationModel(models.Model): blank_validated_field = models.CharField(max_length=255) class ValidationModelSerializer(serializers.ModelSerializer): class Meta: model = ValidationModel fields = ('blank_validated_field',) read_only_fields = ('blank_validated_field',) class UpdateValidationModel(generics.RetrieveUpdateDestroyAPIView): queryset = ValidationModel.objects.all() serializer_class = ValidationModelSerializer # Regression for #653 class ShouldValidateModel(models.Model): should_validate_field = models.CharField(max_length=255) class ShouldValidateModelSerializer(serializers.ModelSerializer): renamed = serializers.CharField(source='should_validate_field', required=False) def validate_renamed(self, value): if len(value) < 3: raise serializers.ValidationError('Minimum 3 characters.') return value class Meta: model = ShouldValidateModel fields = ('renamed',) class TestNestedValidationError(TestCase): def test_nested_validation_error_detail(self): """ Ensure nested validation error detail is rendered correctly. """ e = serializers.ValidationError({ 'nested': { 'field': ['error'], } }) self.assertEqual(serializers.as_serializer_error(e), { 'nested': { 'field': ['error'], } }) class TestPreSaveValidationExclusionsSerializer(TestCase): def test_renamed_fields_are_model_validated(self): """ Ensure fields with 'source' applied do get still get model validation. """ # We've set `required=False` on the serializer, but the model # does not have `blank=True`, so this serializer should not validate. serializer = ShouldValidateModelSerializer(data={'renamed': ''}) self.assertEqual(serializer.is_valid(), False) self.assertIn('renamed', serializer.errors) self.assertNotIn('should_validate_field', serializer.errors) class TestCustomValidationMethods(TestCase): def test_custom_validation_method_is_executed(self): serializer = ShouldValidateModelSerializer(data={'renamed': 'fo'}) self.assertFalse(serializer.is_valid()) self.assertIn('renamed', serializer.errors) def test_custom_validation_method_passing(self): serializer = ShouldValidateModelSerializer(data={'renamed': 'foo'}) self.assertTrue(serializer.is_valid()) class ValidationSerializer(serializers.Serializer): foo = serializers.CharField() def validate_foo(self, attrs, source): raise serializers.ValidationError("foo invalid") def validate(self, attrs): raise serializers.ValidationError("serializer invalid") class TestAvoidValidation(TestCase): """ If serializer was initialized with invalid data (None or non dict-like), it should avoid validation layer (validate_ and validate methods) """ def test_serializer_errors_has_only_invalid_data_error(self): serializer = ValidationSerializer(data='invalid data') self.assertFalse(serializer.is_valid()) self.assertDictEqual(serializer.errors, { 'non_field_errors': [ 'Invalid data. Expected a dictionary, but got %s.' % type('').__name__ ] }) # regression tests for issue: 1493 class ValidationMaxValueValidatorModel(models.Model): number_value = models.PositiveIntegerField(validators=[MaxValueValidator(100)]) class ValidationMaxValueValidatorModelSerializer(serializers.ModelSerializer): class Meta: model = ValidationMaxValueValidatorModel fields = '__all__' class UpdateMaxValueValidationModel(generics.RetrieveUpdateDestroyAPIView): queryset = ValidationMaxValueValidatorModel.objects.all() serializer_class = ValidationMaxValueValidatorModelSerializer class TestMaxValueValidatorValidation(TestCase): def test_max_value_validation_serializer_success(self): serializer = ValidationMaxValueValidatorModelSerializer(data={'number_value': 99}) self.assertTrue(serializer.is_valid()) def test_max_value_validation_serializer_fails(self): serializer = ValidationMaxValueValidatorModelSerializer(data={'number_value': 101}) self.assertFalse(serializer.is_valid()) self.assertDictEqual({'number_value': ['Ensure this value is less than or equal to 100.']}, serializer.errors) def test_max_value_validation_success(self): obj = ValidationMaxValueValidatorModel.objects.create(number_value=100) request = factory.patch('/{0}'.format(obj.pk), {'number_value': 98}, format='json') view = UpdateMaxValueValidationModel().as_view() response = view(request, pk=obj.pk).render() self.assertEqual(response.status_code, status.HTTP_200_OK) def test_max_value_validation_fail(self): obj = ValidationMaxValueValidatorModel.objects.create(number_value=100) request = factory.patch('/{0}'.format(obj.pk), {'number_value': 101}, format='json') view = UpdateMaxValueValidationModel().as_view() response = view(request, pk=obj.pk).render() self.assertEqual(response.content, b'{"number_value":["Ensure this value is less than or equal to 100."]}') self.assertEqual(response.status_code, status.HTTP_400_BAD_REQUEST) # regression tests for issue: 1533 class TestChoiceFieldChoicesValidate(TestCase): CHOICES = [ (0, 'Small'), (1, 'Medium'), (2, 'Large'), ] SINGLE_CHOICES = [0, 1, 2] CHOICES_NESTED = [ ('Category', ( (1, 'First'), (2, 'Second'), (3, 'Third'), )), (4, 'Fourth'), ] MIXED_CHOICES = [ ('Category', ( (1, 'First'), (2, 'Second'), )), 3, (4, 'Fourth'), ] def test_choices(self): """ Make sure a value for choices works as expected. """ f = serializers.ChoiceField(choices=self.CHOICES) value = self.CHOICES[0][0] try: f.to_internal_value(value) except serializers.ValidationError: self.fail("Value %s does not validate" % str(value)) def test_single_choices(self): """ Make sure a single value for choices works as expected. """ f = serializers.ChoiceField(choices=self.SINGLE_CHOICES) value = self.SINGLE_CHOICES[0] try: f.to_internal_value(value) except serializers.ValidationError: self.fail("Value %s does not validate" % str(value)) def test_nested_choices(self): """ Make sure a nested value for choices works as expected. """ f = serializers.ChoiceField(choices=self.CHOICES_NESTED) value = self.CHOICES_NESTED[0][1][0][0] try: f.to_internal_value(value) except serializers.ValidationError: self.fail("Value %s does not validate" % str(value)) def test_mixed_choices(self): """ Make sure mixed values for choices works as expected. """ f = serializers.ChoiceField(choices=self.MIXED_CHOICES) value = self.MIXED_CHOICES[1] try: f.to_internal_value(value) except serializers.ValidationError: self.fail("Value %s does not validate" % str(value)) class RegexSerializer(serializers.Serializer): pin = serializers.CharField( validators=[RegexValidator(regex=re.compile('^[0-9]{4,6}$'), message='A PIN is 4-6 digits')]) expected_repr = """ RegexSerializer(): pin = CharField(validators=[]) """.strip() class TestRegexSerializer(TestCase): def test_regex_repr(self): serializer_repr = repr(RegexSerializer()) assert serializer_repr == expected_repr