Using inspectdb

The inspectdb utility introspects the database pointed to by your settings file, determines a Django model representation for each of your tables, and prints the Python model code to standard output.

Heres a walk-through of a typical legacy database integration process from scratch. The only assumptions are that Django is installed and that you have a legacy database.

Create a Django project by running django-admin.py startproject mysite (where mysite is your projects name). Well use mysite as the project name in this example.

Edit the settings file in that project, mysite/settings.py , to tell Django what your database connection parameters are and what the name of the database is. Specifically, provide the DATABASE_NAME , DATABASE_ENGINE , DATABASE_USER , DATABASE_PASSWORD , DATABASE_HOST , and DATABASE_PORT settings. (Note that some of these settings are optional. Refer to Chapter 5 for more information.)

Create a Django application within your project by running python mysite/manage.py startapp myapp (where myapp is your applications name). Well use myapp as the application name here.

Run the command python mysite/manage.py inspectdb . This will examine the tables in the DATABASE_NAME database and print the generated model class for each table. Take a look at the output to get an idea of what inspectdb can do.

Save the output to the models.py file within your application by using standard shell output redirection:

python mysite/manage.py inspectdb > mysite/myapp/models.py

Edit the mysite/myapp/models.py file to clean up the generated models and make any necessary customizations. Well give some hints for this in the next section.

Cleaning Up Generated Models

As you might expect, the database introspection isnt perfect, and youll need to do some light cleanup of the resulting model code. Here are a few pointers for dealing with the generated models:

Each database table is converted to a model class (i.e., there is a one-to-one mapping between database tables and model classes). This means that youll need to refactor the models for any many-to-many join tables into ManyToManyField objects.

Each generated model has an attribute for every field, including id primary key fields. However, recall that Django automatically adds an id primary key field if a model doesnt have a primary key. Thus, youll want to remove any lines that look like this:

id = models.IntegerField(primary_key=True)

Not only are these lines redundant, but also they can cause problems if your application will be adding new records to these tables. The inspectdb command cannot detect whether a field is autoincremented, so its up to you to change this to AutoField , if necessary.

Each fields type (e.g., CharField , DateField ) is determined by looking at the database column type (e.g., VARCHAR , DATE ). If inspectdb cannot map a columns type to a model field type, it will use TextField and will insert the Python comment 'This field type is a guess.' next to the field in the generated model. Keep an eye out for that, and change the field type accordingly if needed.

If a field in your database has no good Django equivalent, you can safely leave it off. The Django model layer is not required to include every field in your table(s).

If a database column name is a Python reserved word (such as pass , class , or for ), inspectdb will append '_field' to the attribute name and set the db_column attribute to the real field name (e.g., pass , class , or for ).

For example, if a table has an INT column called for , the generated model will have a field like this:

for_field = models.IntegerField(db_column='for')

inspectdb will insert the Python comment 'Field renamed because it was a Python reserved word.' next to the field.

If your database contains tables that refer to other tables (as most databases do), you might need to rearrange the order of the generated models so that models that refer to other models are ordered properly. For example, if model Book has a ForeignKey to model Author , model Author should be defined before model Book . If you need to create a relationship on a model that has not yet been defined, you can use the name of the model, rather than the model object itself.

inspectdb detects primary keys for PostgreSQL, MySQL, and SQLite. That is, it inserts primary_key=True where appropriate. For other databases, youll need to insert primary_key=True for at least one field in each model, because Django models are required to have a primary_key=True field.

Foreign-key detection only works with PostgreSQL and with certain types of MySQL tables. In other cases, foreign-key fields will be generated as IntegerField``s, assuming the foreign-key column was an ``INT column.

Specifying Authentication Back-ends

Behind the scenes, Django maintains a list of authentication back-ends that it checks for authentication. When somebody calls django.contrib.auth.authenticate() (as described in Chapter 12), Django tries authenticating across all of its authentication back-ends. If the first authentication method fails, Django tries the second one, and so on, until all back-ends have been attempted.

The list of authentication back-ends to use is specified in the AUTHENTICATION_BACKENDS setting. This should be a tuple of Python path names that point to Python classes that know how to authenticate. These classes can be anywhere on your Python path.

By default, AUTHENTICATION_BACKENDS is set to the following:

('django.contrib.auth.backends.ModelBackend',)

Thats the basic authentication scheme that checks the Django users database.

The order of AUTHENTICATION_BACKENDS matters, so if the same username and password are valid in multiple back-ends, Django will stop processing at the first positive match.

Writing an Authentication Back-end

An authentication back-end is a class that implements two methods: get_user(id) and authenticate(**credentials) .

The get_user method takes an id which could be a username, database ID, or whatever and returns a User object.

The authenticate method takes credentials as keyword arguments. Most of the time it looks like this:

class MyBackend(object):
    def authenticate(self, username=None, password=None):
        # Check the username/password and return a User.

But it could also authenticate a token, like so:

class MyBackend(object):
    def authenticate(self, token=None):
        # Check the token and return a User.

Either way, authenticate should check the credentials it gets, and it should return a User object that matches those credentials, if the credentials are valid. If theyre not valid, it should return None .

The Django admin system is tightly coupled to Djangos own database-backed User object described in Chapter 12. The best way to deal with this is to create a Django User object for each user that exists for your back-end (e.g., in your LDAP directory, your external SQL database, etc.). Either you can write a script to do this in advance or your authenticate method can do it the first time a user logs in.

Heres an example back-end that authenticates against a username and password variable defined in your settings.py file and creates a Django User object the first time a user authenticates:

from django.conf import settings
from django.contrib.auth.models import User, check_password

class SettingsBackend(object):
    """
    Authenticate against the settings ADMIN_LOGIN and ADMIN_PASSWORD.

    Use the login name, and a hash of the password. For example:

    ADMIN_LOGIN = 'admin'
    ADMIN_PASSWORD = 'sha1$4e987$afbcf42e21bd417fb71db8c66b321e9fc33051de'
    """
    def authenticate(self, username=None, password=None):
        login_valid = (settings.ADMIN_LOGIN == username)
        pwd_valid = check_password(password, settings.ADMIN_PASSWORD)
        if login_valid and pwd_valid:
            try:
                user = User.objects.get(username=username)
            except User.DoesNotExist:
                # Create a new user. Note that we can set password
                # to anything, because it won't be checked; the password
                # from settings.py will.
                user = User(username=username, password='get from settings.py')
                user.is_staff = True
                user.is_superuser = True
                user.save()
            return user
        return None

    def get_user(self, user_id):
        try:
            return User.objects.get(pk=user_id)
        except User.DoesNotExist:
            return None