Customizing
===========

Flask-Security bootstraps your application with various views for handling its
configured features to get you up and running as quickly as possible. However,
you'll probably want to change the way these views look to be more in line with
your application's visual design.


Views
-----

Flask-Security is packaged with a default template for each view it presents to
a user. Templates are located within a subfolder named ``security``. The
following is a list of view templates:

* `security/forgot_password.html`
* `security/login_user.html`
* `security/mf_recovery.html`
* `security/mf_recovery_codes.html`
* `security/recover_username.html`
* `security/register_user.html`
* `security/reset_password.html`
* `security/change_password.html`
* `security/change_email.html`
* `security/change_username.html`
* `security/send_confirmation.html`
* `security/send_login.html`
* `security/verify.html`
* `security/two_factor_select.html`
* `security/two_factor_setup.html`
* `security/two_factor_verify_code.html`
* `security/us_signin.html`
* `security/us_setup.html`
* `security/us_verify.html`
* `security/wan_register.html`
* `security/wan_signin.html`
* `security/wan_verify.html`

Overriding these templates is simple:

1. Create a folder named ``security`` within your application's templates folder
2. Create a template with the same name for the template you wish to override

You can also specify custom template file paths in the :doc:`configuration <configuration>`.

Each template is passed a template context object that includes the following,
including the objects/values that are passed to the template by the main
Flask application context processor:

* ``<template_name>_form``: A form object for the view.
* ``security``: The Flask-Security extension object.
* ``config``: Injected by Flask - this holds all extensions' configuration.
* ``url_for_security``: A function that returns the configured URL for the passed Security endpoint.
* ``_fsdomain``: A function used to `tag` strings for extraction and localization.
* ``_fs_is_user_authenticated``: Returns True if argument (user) is authenticated.
  Usually the `current_user` proxy is the appropriate argument.

To add more values to the template context, you can specify a context processor
for all views or a specific view. For example::

    security = Security(app, user_datastore)

    # This processor is added to all templates
    @security.context_processor
    def security_context_processor():
        return dict(hello="world")

    # This processor is added to only the register view
    @security.register_context_processor
    def security_register_processor():
        return dict(something="else")

The following is a list of all the available context processor decorators:

* ``context_processor``: All views
* ``forgot_password_context_processor``: Forgot password view
* ``login_context_processor``: Login view
* ``mf_recovery_codes_context_processor``: Setup recovery codes view
* ``mf_recovery_context_processor``: Use recovery code view
* ``register_context_processor``: Register view
* ``reset_password_context_processor``: Reset password view
* ``change_password_context_processor``: Change password view
* ``change_email_context_processor``: Change email view
* ``change_username_context_processor``: Change username view
* ``send_confirmation_context_processor``: Send confirmation view
* ``send_login_context_processor``: Send login view
* ``mail_context_processor``: Whenever an email will be sent
* ``tf_select_context_processor``: Two factor select view
* ``tf_setup_context_processor``: Two factor setup view
* ``tf_token_validation_context_processor``: Two factor token validation view
* ``us_signin_context_processor``: Unified sign in view
* ``us_setup_context_processor``: Unified sign in setup view
* ``wan_register_context_processor``: WebAuthn registration view
* ``wan_signin_context_processor``: WebAuthn sign in view
* ``wan_verify_context_processor``: WebAuthn verify view


Forms
-----

All forms can be overridden. For each form used, you can specify a
replacement class. This allows you to add extra fields to any
form or override validators. For example it is often desired to add additional
personal information fields to the registration form::

    from flask_security import RegisterFormV2
    from wtforms import StringField
    from wtforms.validators import DataRequired

    class ExtendedRegisterForm(RegisterFormV2):
        first_name = StringField('First Name', [DataRequired()])
        last_name = StringField('Last Name', [DataRequired()])

    security = Security(app, user_datastore,
             register_form=ExtendedRegisterForm)

For the ``register_form`` and ``confirm_register_form``, only fields that
exist in the user model are passed (as kwargs) to :meth:`.UserDatastore.create_user`.
Thus, in the above case, the ``first_name`` and ``last_name`` fields will only
be passed if the model looks like::

    class User(db.Model, UserMixin):
        id = db.Column(db.Integer, primary_key=True)
        email = db.Column(db.String(255), unique=True)
        password = db.Column(db.String(255))
        first_name = db.Column(db.String(255))
        last_name = db.Column(db.String(255))

.. warning::
    Adding fields is fine - however re-defining existing fields could cause
    various views to no longer function. Many fields have complex (and not
    publicly exposed) validators that have side effects.

.. warning::
    It is important to ALWAYS subclass the base Flask-Security form and not
    attempt to just redefine the class. This is due to the validation method
    of many of the forms performs critical additional validation AND will change
    or add values to the form as a side-effect. See below for how to do this.

If you need to override an existing field in a form (to override/add validators),
and you want to define a re-usable validator - use multiple inheritance - be extremely
careful about the order of the inherited classes::

    from wtforms import PasswordField, ValidationError
    from wtforms.validators import DataRequired
    from flask_security import RegisterFormV2

    def password_validator(form, field):
        if field.data.startswith("PASS"):
            raise ValidationError("Really - don't start a password with PASS")

    class NewPasswordFormMixinEx:
        password = PasswordField("password",
                                 validators=[DataRequired(message="PASSWORD_NOT_PROVIDED"),
                                             password_validator])

    class MyRegisterForm(NewPasswordFormMixinEx, RegisterFormV2):
        pass

    app.config["SECURITY_REGISTER_FORM"] = MyRegisterForm

The following is a list of all the available form overrides:

* ``login_form``: Login form (:py:class:`flask_security.LoginForm`)
* ``verify_form``: Verify form
* ``confirm_register_form``: Confirmable register form (:py:class:`flask_security.ConfirmRegisterForm`) (deprecated)
* ``register_form``: Register form (:py:class:`flask_security.RegisterForm` (deprecated) OR (:py:class:`flask_security.RegisterFormV2`)
* ``forgot_password_form``: Forgot password form
* ``reset_password_form``: Reset password form
* ``change_password_form``: Change password form
* ``change_email_form``: Change email form
* ``change_username_form``: Change username form (:py:class:`flask_security.ChangeUsernameForm`)
* ``send_confirmation_form``: Send confirmation form
* ``mf_recovery_codes_form``: Setup recovery codes form
* ``mf_recovery_form``: Use recovery code form
* ``passwordless_login_form``: Passwordless login form
* ``two_factor_verify_code_form``: Two-factor verify code form
* ``two_factor_select_form``: Two-factor select form
* ``two_factor_setup_form``: Two-factor setup form
* ``two_factor_rescue_form``: Two-factor help user form
* ``us_signin_form``: Unified sign in form
* ``us_setup_form``: Unified sign in setup form
* ``us_setup_validate_form``: Unified sign in setup validation form
* ``us_verify_form``: Unified sign in verify form
* ``username_recovery_form``: Username recovery form
* ``wan_delete_form``: WebAuthn delete a registered key form
* ``wan_register_form``: WebAuthn initiate registration ceremony form
* ``wan_register_response_form``: WebAuthn registration ceremony form
* ``wan_signin_form``: WebAuthn initiate sign in ceremony form
* ``wan_signin_response_form``: WebAuthn sign in ceremony form
* ``wan_verify_form``: WebAuthn verify form

.. tip::
    Changing/extending the form class won't directly change how it is displayed.
    You need to ALSO provide your own template and explicitly add the new fields you want displayed.

.. _register_form_migration:

Register Form Migration
++++++++++++++++++++++++
Since early in Flask Security releases, there have been 2 different forms used for
registration: RegisterForm and ConfirmRegisterForm. The only difference between them is
that the ConfirmRegisterForm doesn't require password confirmation (i.e. asking the user to
re-type their password). This wasn't a config option but rather based on whether :py:data:`SECURITY_CONFIRMABLE` was
set or whether the request was form-based or JSON. This has always been a huge source of
confusion. A new :py:class:`flask_security.RegisterFormV2` has been introduced that replaces both
of the older forms. Since this is a breaking change, it is being implemented in phases.

In release 5.6 the new form: RegisterFormV2 is available for use. By default the existing
forms are used - so there are no backwards compatibility issues. However, subclassing RegisterForm or
ConfirmRegisterForm will raise a deprecation warning. The new RegisterFormV2 can be used in one of 2 ways:

    - set :py:data:`SECURITY_USE_REGISTER_V2` to ``True``
    - subclass RegisterFormV2 and use that as the 'register_form` argument to the
      Flask Security constructor.

The new RegisterFormV2 will add a ``password_confirm`` field if :py:data:`SECURITY_PASSWORD_CONFIRM_REQUIRED`
is set to ``True`` (the default). Additionally, JSON requests will need to provide a value for ``password_confirm``
if configured.

In release 5.7 the default is flipped - :py:data:`SECURITY_USE_REGISTER_V2` is ``True`` and RegisterFormV2 is the default form.

.. _form_instantiation:

Controlling Form Instantiation
++++++++++++++++++++++++++++++
This is an advanced concept! Please see :meth:`.Security.set_form_info` and
:class:`.FormInfo`.

This is an example of providing your own form instantiator using the 'form clone' pattern.
In this example we are injecting an external `service` into the form for use in validation::

    from flask_security import FormInfo

    class MyLoginForm(LoginForm):
        def __init__(self, *args, service=None, **kwargs):
            super().__init__(*args, **kwargs)
            self.myservice = service

        def instantiator(self, form_name, form_cls, *args, **kwargs):
            return MyLoginForm(*args, service=self.myservice, **kwargs)

        def validate(self, **kwargs: t.Any) -> bool:
            if not super().validate(**kwargs):  # pragma: no cover
                return False
            if not self.myservice(self.email.data):
                self.email.errors.append("Not happening")
                return False
            return True

    # A silly service that only allows 'matt'' log in!
    def login_checker(email):
        return True if email == "matt@lp.com" else False

    with app.test_request_context():
        # Flask-WTForms require a request context.
        fi = MyLoginForm(formdata=None, service=login_checker)
    app.security.set_form_info("login_form", FormInfo(fi.instantiator))

.. _custom_login_form:

Customizing the Login Form
++++++++++++++++++++++++++
This is an example of how to modify the registration and login form to add support for
a single input field to accept both email and username (mimicking legacy Flask-Security behavior).
Flask-Security supports username as a configuration option so this is not strictly needed
any more, however, Flask-Security's LoginForm uses 2 different input fields (so that
appropriate input attributes can be set)::

    from flask_security import (
        RegisterForm,
        LoginForm,
        Security,
        lookup_identity,
        uia_username_mapper,
        unique_identity_attribute,
    )
    from werkzeug.local import LocalProxy
    from wtforms import StringField, ValidationError, validators

    def username_validator(form, field):
        # Side-effect - field.data is updated to normalized value.
        # Use proxy to we can declare this prior to initializing Security.
        _security = LocalProxy(lambda: app.extensions["security"])
        msg, field.data = _security.username_util.validate(field.data)
        if msg:
            raise ValidationError(msg)

    class MyRegisterForm(RegisterForm):
        # Note that unique_identity_attribute uses the defined field 'mapper' to
        # normalize. We validate before that to give better error messages and
        # to set the normalized value into the form for saving.
        username = StringField(
            "Username",
            validators=[
                validators.data_required(),
                username_validator,
                unique_identity_attribute,
            ],
        )

    class MyLoginForm(LoginForm):
        email = StringField("email", [validators.data_required()])

        def validate(self, **kwargs):
            self.user = lookup_identity(self.email.data)
            # Setting 'ifield' informs the default login form validation
            # handler that the identity has already been confirmed.
            self.ifield = self.email
            if not super().validate(**kwargs):
                return False
            return True

    # Allow registration with email, but login only with username
    app.config["SECURITY_USER_IDENTITY_ATTRIBUTES"] = [
        {"username": {"mapper": uia_username_mapper}}
    ]
    security = Security(
        datastore=sqlalchemy_datastore,
        register_form=MyRegisterForm,
        login_form=MyLoginForm,
    )
    security.init_app(app)

Localization
------------
All messages, form labels, and form strings are localizable. Flask-Security uses
`Flask-Babel <https://pypi.org/project/Flask-Babel/>`_ to manage its messages.

.. tip::
    Be sure to explicitly initialize your babel extension::

        import flask_babel

        flask_babel.Babel(app)

All translations are tagged with a domain, as specified by the configuration variable
``SECURITY_I18N_DOMAIN`` (default: "flask_security"). For messages and labels all this
works seamlessly.  For strings inside templates it is necessary to explicitly ask for
the "flask_security" domain, since your application itself might have its own domain.
Flask-Security places the method ``_fsdomain`` in jinja2's global environment and
uses that in all templates.
In order to reference a Flask-Security translation from ANY template (such as if you copied and
modified an existing security template) just use that method::

    {{ _fsdomain("Login") }}

Be aware that Flask-Security will validate and normalize email input using the
`email_validator <https://pypi.org/project/email-validator/>`_ package.
The normalized form is stored in the DB.

Overriding Messages
++++++++++++++++++++

It is possible to change one or more messages (either the original default english
and/or a specific translation). Adding the following to your app::

    app.config["SECURITY_MSG_INVALID_PASSWORD"] = ("Password no-worky", "error")

will change the default message in english.

.. tip::
    The string messages themselves are a 'key' into the translation .po/.mo files.
    Do not pass in gettext('string') or lazy_gettext('string).

If you need translations then you
need to create your own ``translations`` directory and add the appropriate .po files
and compile them. Finally, add your translations directory path to the configuration.
In this example, create a file ``flask_security.po`` under a directory:
``translations/fr_FR/LC_MESSAGES`` (for french) with the following contents::

    msgid ""
    msgstr ""

    msgid "Password no-worky"
    msgstr "Passe - no-worky"


Then compile it with::

    pybabel compile -d translations/ -i translations/fr_FR/LC_MESSAGES/flask_security.po -l fr_FR -D flask_security

Finally add your translations directory to your configuration::

    app.config["SECURITY_I18N_DIRNAME"] = ["builtin", "translations"]

.. _emails_topic:

Emails
------

Flask-Security is also packaged with a default template for each email that it
may send. Templates are located within the subfolder named ``security/email``.
The following is a list of email templates:

* `security/email/confirmation_instructions.html`
* `security/email/confirmation_instructions.txt`
* `security/email/login_instructions.html`
* `security/email/login_instructions.txt`
* `security/email/username_recovery.html`
* `security/email/username_recovery.txt`
* `security/email/reset_instructions.html`
* `security/email/reset_instructions.txt`
* `security/email/reset_notice.html`
* `security/email/reset_notice.txt`
* `security/email/change_notice.txt`
* `security/email/change_notice.html`
* `security/email/change_email_instructions.txt`
* `security/email/change_email_instructions.html`
* `security/email/change_username_notice.txt`
* `security/email/change_username_notice.html`
* `security/email/welcome.html`
* `security/email/welcome.txt`
* `security/email/welcome_existing.html`
* `security/email/welcome_existing.txt`
* `security/email/welcome_existing_username.html`
* `security/email/welcome_existing_username.txt`
* `security/email/two_factor_instructions.html`
* `security/email/two_factor_instructions.txt`
* `security/email/two_factor_rescue.html`
* `security/email/two_factor_rescue.txt`
* `security/email/us_instructions.html`
* `security/email/us_instructions.txt`

Overriding these templates is simple:

1. Create a folder named ``security`` within your application's templates folder
2. Create a folder named ``email`` within the ``security`` folder
3. Create a template with the same name for the template you wish to override

Each template is passed a template context object that includes values as described in the table below.
In addition, all templates receive:

* ``security``: The Flask-Security extension object.
* ``config``: Injected by Flask - this holds all extensions' configuration.
  The template can retrieve any configuration variable using e.g.  ``{{ config["SECURITY_XXX"] }}``

If you require more values in the
templates, you can specify an email context processor with the
``mail_context_processor`` decorator. For example::

    security = Security(app, user_datastore)

    # This processor is added to all emails
    @security.mail_context_processor
    def security_mail_processor():
        return dict(hello="world")


There are many configuration variables associated with emails, and each template
will receive a slightly different context. The ``Gate Config`` column are configuration variables that if set
to ``False`` will bypass sending of the email (they all default to ``True``).
In most cases, in addition to an email being sent, a :ref:`Signal <signals_topic>` is sent.
The table below summarizes all this:

=============================   ===================================  =============================================     ====================== ===============================
**Template Name**               **Gate Config**                      **Subject Config**                                **Context Vars**       **Signal Sent**
-----------------------------   -----------------------------------  ---------------------------------------------     ---------------------- -------------------------------
welcome                         SECURITY_SEND_REGISTER_EMAIL         SECURITY_EMAIL_SUBJECT_REGISTER                   - user                 user_registered
                                                                                                                       - confirmation_link
                                                                                                                       - confirmation_token
confirmation_instructions       N/A                                  SECURITY_EMAIL_SUBJECT_CONFIRM                    - user                 confirm_instructions_sent
                                                                                                                       - confirmation_link
                                                                                                                       - confirmation_token
change_email_instructions       N/A                                  SECURITY_CHANGE_EMAIL_SUBJECT                     - user                 change_email_instructions_sent
                                                                                                                       - link
                                                                                                                       - token
login_instructions              N/A                                  SECURITY_EMAIL_SUBJECT_PASSWORDLESS               - user                 login_instructions_sent
                                                                                                                       - login_link
                                                                                                                       - login_token
reset_instructions              SEND_PASSWORD_RESET_EMAIL            SECURITY_EMAIL_SUBJECT_PASSWORD_RESET             - user                 reset_password_instructions_sent
                                                                                                                       - reset_link
                                                                                                                       - reset_token
reset_notice                    SEND_PASSWORD_RESET_NOTICE_EMAIL     SECURITY_EMAIL_SUBJECT_PASSWORD_NOTICE            - user                 password_reset

change_notice                   SEND_PASSWORD_CHANGE_EMAIL           SECURITY_EMAIL_SUBJECT_PASSWORD_CHANGE_NOTICE     - user                 password_changed
change_username_notice          SEND_USERNAME_PASSWORD_CHANGE_EMAIL  SECURITY_EMAIL_SUBJECT_USERNAME_CHANGE_NOTICE     - user                 username_changed
                                                                                                                       - old_username
two_factor_instructions         N/A                                  SECURITY_EMAIL_SUBJECT_TWO_FACTOR                 - user                 tf_security_token_sent
                                                                                                                       - token
                                                                                                                       - username
two_factor_rescue               N/A                                  SECURITY_EMAIL_SUBJECT_TWO_FACTOR_RESCUE          - user                 N/A
us_instructions                 N/A                                  SECURITY_US_EMAIL_SUBJECT                         - user                 us_security_token_sent
                                                                                                                       - login_token
                                                                                                                       - login_link
                                                                                                                       - username
welcome_existing                SECURITY_SEND_REGISTER_EMAIL         SECURITY_EMAIL_SUBJECT_REGISTER                   - user                 user_not_registered
                                SECURITY_RETURN_GENERIC_RESPONSES                                                      - recovery_link
                                                                                                                       - confirmation_link
                                                                                                                       - confirmation_token
                                                                                                                       - reset_link
                                                                                                                       - reset_token
welcome_existing_username       SECURITY_SEND_REGISTER_EMAIL         SECURITY_EMAIL_SUBJECT_REGISTER                   - email                user_not_registered
                                SECURITY_RETURN_GENERIC_RESPONSES                                                      - username
username_recovery               SECURITY_USERNAME_RECOVERY           SECURITY_EMAIL_SUBJECT_USERNAME_RECOVERY          - user                 username_recovery_email_sent
                                                                                                                       - username
=============================   ===================================  =============================================     ====================== ===============================

When sending an email, Flask-Security goes through the following steps:

  #. Calls the email context processor as described above

  #. Calls ``render_template`` (as configured at Flask-Security initialization time) with the
     context and template to produce a text and/or html version of the message

  #. Calls :meth:`.MailUtil.send_mail` with all the required parameters.

The default implementation of ``MailUtil.send_mail`` uses flask-mailman to create and send the message.
By providing your own implementation, you can use any available python email handling package.

Email subjects are by default localized - see above section on Localization to learn how
to customize them.

Emails with Celery
++++++++++++++++++

Sometimes it makes sense to send emails via a task queue, such as `Celery`_.
This is supported by providing your own implementation of the :class:`.MailUtil` class::

    from flask_security import MailUtil
    class MyMailUtil(MailUtil):

        def send_mail(self, template, subject, recipient, sender, body, html, **kwargs):
            send_flask_mail.delay(
                subject=subject,
                from_email=sender,
                to=[recipient],
                body=body,
                html=html,
            )

Then register your class as part of Flask-Security initialization::

    from flask import Flask
    from flask_mailman import EmailMultiAlternatives, Mail
    from flask_security import Security, SQLAlchemyUserDatastore
    from celery import Celery

    mail = Mail()
    security = Security()
    celery = Celery()


    @celery.task
    def send_flask_mail(**kwargs):
        with app.app_context():
            with mail.get_connection() as connection:
                html = kwargs.pop("html", None)
                msg = EmailMultiAlternatives(**kwargs, connection=connection)
                if html:
                    msg.attach_alternative(html, "text/html")
                msg.send()

    def create_app(config):
        """Initialize Flask instance."""

        app = Flask(__name__)
        app.config.from_object(config)

        mail.init_app(app)
        datastore = SQLAlchemyUserDatastore(db, User, Role)
        security.init_app(app, datastore, mail_util_cls=MyMailUtil)

        return app

.. _Celery: http://www.celeryproject.org/


.. _responsetopic:

Responses
---------
Flask-Security will likely be a very small piece of your application,
so Flask-Security makes it easy to override all aspects of API responses.

JSON Response
+++++++++++++
Applications that support a JSON based API need to be able to have a uniform
API response. Flask-Security has a default way to render its API responses - which can
be easily overridden by providing a callback function via :meth:`.Security.render_json`.
Be aware that Flask-Security subclasses Flask's JSONProvider interface and sets
it on `app.json_provider_cls`.

401, 403, Oh My
+++++++++++++++
For a very long read and discussion; look at `this`_. Out of the box, Flask-Security in
tandem with Flask-Login, behaves as follows:

    * If authentication fails as the result of a `@login_required`, `@auth_required("session", "token")`,
      or `@token_auth_required` then if the request 'wants' a JSON
      response, :meth:`.Security.render_json` is called with a 401 status code.
      If not then the `SECURITY_MSG_UNAUTHENTICATED` message is flashed and the request is
      redirected to the `login` view.

    * If authentication fails as the result of a `@http_auth_required` or `@auth_required("basic")`
      then a 401 is returned along with the http header ``WWW-Authenticate`` set to
      ``Basic realm="xxxx"``. The realm name is defined by :py:data:`SECURITY_DEFAULT_HTTP_AUTH_REALM`.

    * If authorization fails as the result of `@roles_required`, `@roles_accepted`,
      `@permissions_required`, or `@permissions_accepted`, then :meth:`.Security.unauthz_handler` is called.
      The default implementation flow is: if the request 'wants' a JSON
      response, :meth:`.Security.render_json` is called with a 403 status code. If not,
      then if :py:data:`SECURITY_UNAUTHORIZED_VIEW` is defined, the response will redirected.
      If :py:data:`SECURITY_UNAUTHORIZED_VIEW` is not defined, then ``abort(403)`` is called.

All this can be easily changed by registering any or all of :meth:`.Security.render_json`,
:meth:`.Security.unauthn_handler` and :meth:`.Security.unauthz_handler`.

The decision on whether to return JSON is based on:

    * Was the request content-type "application/json" (e.g. request.is_json()) OR

    * Is the 'best' value of the ``Accept`` HTTP header "application/json"


.. _`this`: https://stackoverflow.com/questions/3297048/403-forbidden-vs-401-unauthorized-http-responses


Redirects
---------
Flask-Security uses redirects frequently (when using forms), and most of the redirect
destinations are configurable. When Flask-Security initiates a redirect it (almost) always flashes a message
that provides some context for the user.
In addition, Flask-Security - both in its views and default templates, attempts to propagate
any `next` query param and in fact, an existing `?next=/xx` will override most of the configuration redirect URLs.

As a complex example consider an unauthenticated user accessing a `@auth_required` endpoint, and the user has
two-factor authentication set up.:

    * GET("/protected") - The `default_unauthn_handler` will redirect to ``/login?next=/protected``
    * The login form/template will pick any `?next=/xx` argument off the request URL and append it to form action.
    * When the form is submitted if will do a POST("/login?next=/protected")
    * Assuming correct authentication, the system will send out a 2-factor code and redirect to ``/tf-verify?next=/protected``
    * The two_factor_validation_form/template also pulls any `?next=/xx` and appends to the form action.
    * When the `tf-validate` form is submitted it will do a POST("/tf-validate?next=/protected").
    * Assuming a correct code, the user is authenticated and is redirected. That redirection first
      looks for a 'next' in the request.args then in request.form and finally will use the value of :py:data:`SECURITY_POST_LOGIN_VIEW`.
      In this example it will find the ``next=/protected`` in the request.args and redirect to ``/protected``.
