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Situation

While working with validation in the Django REST Framework's ModelSerializer, I have noticed that the Meta.model fields are always validated, even when it does not necessarily make sense to do so. Take the following example for a User model's serialization:

  1. I have an endpoint that creates a user. As such, there is a password field and a confirm_password field. If the two fields do not match, the user cannot be created. Likewise, if the requested username already exists, the user cannot be created.
  2. The user POSTs improper values for each of the fields mentioned above
  3. An implementation of validate has been made in the serializer (see below), catching the non-matching password and confirm_password fields

Implementation of validate:

def validate(self, data):
    if data['password'] != data.pop('confirm_password'):
        raise serializers.ValidationError("Passwords do not match")
    return data

Problem

Even when the ValidationError is raised by validate, the ModelSerializer still queries the database to check to see if the username is already in use. This is evident in the error-list that gets returned from the endpoint; both the model and non-field errors are present.

Consequently, I would like to know how to prevent model validation until after non-field validation has finished, saving me a call to my database.

Attempt at solution

I have been trying to go through the DRF's source to figure out where this is happening, but I have been unsuccessful in locating what I need to override in order to get this to work.

64

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.

  • Darn, that's what I thought was happening. Do you think it'd be appropriate to just let the validation hit the database, or should I re-implement the unique validator? – nmagerko Dec 21 '14 at 17:26
  • "just let the validation hit the database" will trigger integrity errors, so definitely no. I recommend re-implementing the unique validator if you have to have it run last. – Kevin Brown Dec 21 '14 at 17:29
  • Actually, I think I can try to override to_internal_value and get this to stop there. Regardless, you've answered the question – nmagerko Dec 21 '14 at 17:33
  • 8
    This doesn't work anymore. I ended up subclassing the field type, and putting my custom validation in to_internal_value. That's the only way. Someone needs to implement custom validation in ModelSerializers... – Nostalg.io Dec 16 '15 at 6:42
2

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.

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