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Sessions

A session is a namespace which is valid for some period of continual activity that can be used to represent a user's interaction with a web application.

This chapter describes how to configure sessions, what session implementations Pyramid provides out of the box, how to store and retrieve data from sessions, and two session-specific features: flash messages, and cross-site request forgery attack prevention.

Using The Default Session Factory

In order to use sessions, you must set up a session factory during your Pyramid configuration.

A very basic, insecure sample session factory implementation is provided in the Pyramid core. It uses a cookie to store session information. This implementation has the following limitations:

  • The session information in the cookies used by this implementation is not encrypted, so it can be viewed by anyone with access to the cookie storage of the user's browser or anyone with access to the network along which the cookie travels.
  • The maximum number of bytes that are storable in a serialized representation of the session is fewer than 4000. This is suitable only for very small data sets.

It is digitally signed, however, and thus its data cannot easily be tampered with.

You can configure this session factory in your Pyramid application by using the pyramid.config.Configurator.set_session_factory`() method.

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from pyramid.session import SignedCookieSessionFactory
my_session_factory = SignedCookieSessionFactory('itsaseekreet')

from pyramid.config import Configurator
config = Configurator()
config.set_session_factory(my_session_factory)

Warning

By default the SignedCookieSessionFactory() implementation is unencrypted. You should not use it when you keep sensitive information in the session object, as the information can be easily read by both users of your application and third parties who have access to your users' network traffic. And if you use this sessioning implementation, and you inadvertently create a cross-site scripting vulnerability in your application, because the session data is stored unencrypted in a cookie, it will also be easier for evildoers to obtain the current user's cross-site scripting token. In short, use a different session factory implementation (preferably one which keeps session data on the server) for anything but the most basic of applications where "session security doesn't matter", and you are sure your application has no cross-site scripting vulnerabilities.

Using a Session Object

Once a session factory has been configured for your application, you can access session objects provided by the session factory via the session attribute of any request object. For example:

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from pyramid.response import Response

def myview(request):
    session = request.session
    if 'abc' in session:
        session['fred'] = 'yes'
    session['abc'] = '123'
    if 'fred' in session:
        return Response('Fred was in the session')
    else:
        return Response('Fred was not in the session')

The first time this view is invoked produces Fred was not in the session. Subsequent invocations produce Fred was in the session, assuming of course that the client side maintains the session's identity across multiple requests.

You can use a session much like a Python dictionary. It supports all dictionary methods, along with some extra attributes, and methods.

Extra attributes:

created
An integer timestamp indicating the time that this session was created.
new
A boolean. If new is True, this session is new. Otherwise, it has been constituted from data that was already serialized.

Extra methods:

changed()
Call this when you mutate a mutable value in the session namespace. See the gotchas below for details on when, and why you should call this.
invalidate()
Call this when you want to invalidate the session (dump all data, and -- perhaps -- set a clearing cookie).

The formal definition of the methods and attributes supported by the session object are in the pyramid.interfaces.ISession documentation.

Some gotchas:

  • Keys and values of session data must be pickleable. This means, typically, that they are instances of basic types of objects, such as strings, lists, dictionaries, tuples, integers, etc. If you place an object in a session data key or value that is not pickleable, an error will be raised when the session is serialized.
  • If you place a mutable value (for example, a list or a dictionary) in a session object, and you subsequently mutate that value, you must call the changed() method of the session object. In this case, the session has no way to know that is was modified. However, when you modify a session object directly, such as setting a value (i.e., __setitem__), or removing a key (e.g., del or pop), the session will automatically know that it needs to re-serialize its data, thus calling changed() is unnecessary. There is no harm in calling changed() in either case, so when in doubt, call it after you've changed sessioning data.

Using Alternate Session Factories

The following session factories exist at the time of this writing.

Session Factory Backend Description
pyramid_redis_sessions Redis Server-side session library for Pyramid, using Redis for storage.
pyramid_beaker Beaker Session factory for Pyramid backed by the Beaker sessioning system.

Creating Your Own Session Factory

If none of the default or otherwise available sessioning implementations for Pyramid suit you, you may create your own session object by implementing a session factory. Your session factory should return a session. The interfaces for both types are available in pyramid.interfaces.ISessionFactory and pyramid.interfaces.ISession. You might use the cookie implementation in the pyramid.session module as inspiration.

Flash Messages

"Flash messages" are simply a queue of message strings stored in the session. To use flash messaging, you must enable a session factory as described in Using The Default Session Factory or Using Alternate Session Factories.

Flash messaging has two main uses: to display a status message only once to the user after performing an internal redirect, and to allow generic code to log messages for single-time display without having direct access to an HTML template. The user interface consists of a number of methods of the session object.

Using the session.flash Method

To add a message to a flash message queue, use a session object's flash() method:

request.session.flash('mymessage')

The flash() method appends a message to a flash queue, creating the queue if necessary.

flash() accepts three arguments:

flash(message, queue='', allow_duplicate=True)

The message argument is required. It represents a message you wish to later display to a user. It is usually a string but the message you provide is not modified in any way.

The queue argument allows you to choose a queue to which to append the message you provide. This can be used to push different kinds of messages into flash storage for later display in different places on a page. You can pass any name for your queue, but it must be a string. Each queue is independent, and can be popped by pop_flash() or examined via peek_flash() separately. queue defaults to the empty string. The empty string represents the default flash message queue.

request.session.flash(msg, 'myappsqueue')

The allow_duplicate argument defaults to True. If this is False, and you attempt to add a message value which is already present in the queue, it will not be added.

Using the session.pop_flash Method

Once one or more messages have been added to a flash queue by the session.flash() API, the session.pop_flash() API can be used to pop an entire queue and return it for use.

To pop a particular queue of messages from the flash object, use the session object's pop_flash() method. This returns a list of the messages that were added to the flash queue, and empties the queue.

pop_flash(queue='')
>>> request.session.flash('info message')
>>> request.session.pop_flash()
['info message']

Calling session.pop_flash() again like above without a corresponding call to session.flash() will return an empty list, because the queue has already been popped.

>>> request.session.flash('info message')
>>> request.session.pop_flash()
['info message']
>>> request.session.pop_flash()
[]

Using the session.peek_flash Method

Once one or more messages has been added to a flash queue by the session.flash() API, the session.peek_flash() API can be used to "peek" at that queue. Unlike session.pop_flash(), the queue is not popped from flash storage.

peek_flash(queue='')
>>> request.session.flash('info message')
>>> request.session.peek_flash()
['info message']
>>> request.session.peek_flash()
['info message']
>>> request.session.pop_flash()
['info message']
>>> request.session.peek_flash()
[]

Preventing Cross-Site Request Forgery Attacks

Cross-site request forgery attacks are a phenomenon whereby a user who is logged in to your website might inadvertantly load a URL because it is linked from, or embedded in, an attacker's website. If the URL is one that may modify or delete data, the consequences can be dire.

You can avoid most of these attacks by issuing a unique token to the browser and then requiring that it be present in all potentially unsafe requests. Pyramid sessions provide facilities to create and check CSRF tokens.

To use CSRF tokens, you must first enable a session factory as described in Using The Default Session Factory or Using Alternate Session Factories.

Using the session.get_csrf_token Method

To get the current CSRF token from the session, use the session.get_csrf_token() method.

token = request.session.get_csrf_token()

The session.get_csrf_token() method accepts no arguments. It returns a CSRF token string. If session.get_csrf_token() or session.new_csrf_token() was invoked previously for this session, then the existing token will be returned. If no CSRF token previously existed for this session, then a new token will be will be set into the session and returned. The newly created token will be opaque and randomized.

You can use the returned token as the value of a hidden field in a form that posts to a method that requires elevated privileges, or supply it as a request header in AJAX requests.

For example, include the CSRF token as a hidden field:

<form method="post" action="/myview">
  <input type="hidden" name="csrf_token" value="${request.session.get_csrf_token()}">
  <input type="submit" value="Delete Everything">
</form>

Or, include it as a header in a jQuery AJAX request:

var csrfToken = ${request.session.get_csrf_token()};
$.ajax({
  type: "POST",
  url: "/myview",
  headers: { 'X-CSRF-Token': csrfToken }
}).done(function() {
  alert("Deleted");
});

The handler for the URL that receives the request should then require that the correct CSRF token is supplied.

Checking CSRF Tokens Manually

In request handling code, you can check the presence and validity of a CSRF token with pyramid.session.check_csrf_token(request)`(). If the token is valid, it will return True, otherwise it will raise HTTPBadRequest. Optionally, you can specify raises=False to have the check return False instead of raising an exception.

By default, it checks for a GET or POST parameter named csrf_token or a header named X-CSRF-Token.

from pyramid.session import check_csrf_token

def myview(request):
    # Require CSRF Token
    check_csrf_token(request)

    # ...

Checking CSRF Tokens With A View Predicate

A convenient way to require a valid CSRF Token for a particular view is to include check_csrf=True as a view predicate. See pyramid.config.Configurator.add_route().

@view_config(request_method='POST', check_csrf=True, ...)
def myview(request):
    ...

Using the session.new_csrf_token Method

To explicitly create a new CSRF token, use the session.new_csrf_token() method. This differs only from session.get_csrf_token() inasmuch as it clears any existing CSRF token, creates a new CSRF token, sets the token into the session, and returns the token.

token = request.session.new_csrf_token()