Order of Serializer Validation in Django REST Framework

Since most likely your username field has unique=True set, Django REST Framework automatically adds a validator that checks to make sure the new username is unique. You can actually confirm this by doing repr(serializer()), which will show you all of the automatically generated fields, which includes the validators.

Validation is run in a specific, undocumented order

1. Field deserialization called (serializer.to_internal_value and field.run_validators)
2. serializer.validate_[field] is called for each field
3. Serializer-level validators are called (serializer.run_validation followed by serializer.run_validators)
4. serializer.validate is called

So the problem that you are seeing is that the field-level validation is called before your serializer-level validation. While I wouldn't recommend it, you can remove the field-level validator by setting extra_kwargs in your serilalizer's meta.

class Meta:    extra_kwargs = {        "username": {            "validators": [],        },    }

You will need to re-implement the unique check in your own validation though, along with any additional validators that have been automatically generated.

I was also trying to understand how the control flows during serializer validation and after carefully going through the source code of djangorestframework-3.10.3 I came up with below request flow diagram. I have described the flow and what happens in the flow to the best of my understanding without going into too much detail as it can be looked up from source.

Ignore the incomplete method signatures. Only focusing on what methods are called on what classes.

Assuming you have an overridden is_valid method on your serializer class (MySerializer(serializers.Serializer)) when you call my_serializer.is_valid() the following takes place.

1. MySerializer.is_valid() is executed.
2. Assuming you are calling the super class (BaseSerializer) is_valid method (like: super(MySerializer, self).is_valid(raise_exception) in your MySerializer.is_valid() method, that will be called.
3. Now since MySerializer is extending serializers.Serializer, the run_validation() method from serializer.Serializers is called. This is validating only the data dict the first. So we haven't yet started field level validations.
4. Then the validate_empty_values from fields.Field gets called. This again happens on the entire data and not a single field.
5. Then the Serializer.to_internal_method is called.
6. Now we loop over each fields defined on the serializer. And for each field, first we call the field.run_validation() method. If the field has overridden the Field.run_validation() method then that will be called first. In case of a CharField it is overridden and calls the run_validation method of Field base class. Step 6-2 in the figure.
7. On that field we again call the Field.validate_empty_values()
8. The to_internal_value of the type of field is called next.
9. Now there is a call to the Field.run_validators() method. I presume this is where the additional validators that we add on the field by specifying the validators = [] field option get executed one by one
10. Once all this is done, we are back to the Serializer.to_internal_value() method. Now remember that we are doing the above for each field within that for loop. Now the custom field validators you wrote in your serializer (methods like validate_field_name) are run. If an exception occurred in any of the previous steps, your custom validators wont run.
11. read_only_defaults()
12. update validate data with defaults I think
13. run object level validators. I think the validate() method on your object is run here.

I don't believe the above solutions work any more. In my case, my model has fields 'first_name' and 'last_name', but the API will only receive 'name'.

Setting 'extra_kwargs' and 'validators' in the Meta class seems to have no effect, first_name and last_name are allways deemed required, and validators are always called. I can't overload the first_name/last_name character fields with

anotherrepfor_first_name = serializers.CharField(source=first_name, required=False)

as the names make sense. After many hours of frustration, I found the only way I could override the validators with a ModelSerializer instance was to override the class initializer as follows (forgive the incorrect indentation):

class ContactSerializer(serializers.ModelSerializer):name = serializers.CharField(required=True)class Meta:    model = Contact    fields = [ 'name', 'first_name', 'last_name', 'email', 'phone', 'question' ]def __init__(self, *args, **kwargs):    self.fields['first_name'] = serializers.CharField(required=False, allow_null=True, allow_blank=True)    self.fields['last_name'] = serializers.CharField(required=False, allow_null=True, allow_blank=True)    return super(ContactSerializer, self).__init__(*args, **kwargs)def create(self, validated_data):    return Contact.objects.create()def validate(self, data):    """    Remove name after getting first_name, last_name    """    missing = []    for k in ['name', 'email', 'question']:        if k not in self.fields:            missing.append(k)    if len(missing):        raise serializers.ValidationError("Ooops! The following fields are required: %s" % ','.join(missing))    from nameparser import HumanName    names = HumanName(data['name'])    names.capitalize()    data['last_name'] = names.last    if re.search(r'\w+', names.middle):        data['first_name'] = ' '.join([names.first, names.middle])     else:        data['first_name'] = names.first    del(data['name'])    return data

Now the doc says that allowing blank and null with character fields is a no no, but this is a serializer, not a model, and as the API gets called by all kinds of cowboys, I need to cover my bases.