- How to use sessions
- Enabling sessions
- Configuring the session engine
- Using sessions in views
- Setting test cookies
- Using sessions out of views
- When sessions are saved
- Browser-length sessions vs. persistent sessions
- Clearing the session store
- Settings
- Session security
- Technical details
- Extending database-backed session engines
- Session IDs in URLs
How to use sessions
Django provides full support for anonymous sessions. The session framework lets you store and retrieve arbitrary data on a per-site-visitor basis. It stores data on the server side and abstracts the sending and receiving of cookies. Cookies contain a session ID – not the data itself (unless you’re using the cookie based backend).
Enabling sessions
Sessions are implemented via a piece of middleware.
To enable session functionality, do the following:
- Edit the MIDDLEWARE setting and make sure it contains
'django.contrib.sessions.middleware.SessionMiddleware'
. The defaultsettings.py
created bydjango-admin startproject
hasSessionMiddleware
activated.
If you don’t want to use sessions, you might as well remove the SessionMiddleware
line from MIDDLEWARE and 'django.contrib.sessions'
from your INSTALLED_APPS. It’ll save you a small bit of overhead.
Configuring the session engine
By default, Django stores sessions in your database (using the model django.contrib.sessions.models.Session
). Though this is convenient, in some setups it’s faster to store session data elsewhere, so Django can be configured to store session data on your filesystem or in your cache.
Using database-backed sessions
If you want to use a database-backed session, you need to add 'django.contrib.sessions'
to your INSTALLED_APPS setting.
Once you have configured your installation, run manage.py migrate
to install the single database table that stores session data.
Using cached sessions
For better performance, you may want to use a cache-based session backend.
To store session data using Django’s cache system, you’ll first need to make sure you’ve configured your cache; see the cache documentation for details.
Warning
You should only use cache-based sessions if you’re using the Memcached or Redis cache backend. The local-memory cache backend doesn’t retain data long enough to be a good choice, and it’ll be faster to use file or database sessions directly instead of sending everything through the file or database cache backends. Additionally, the local-memory cache backend is NOT multi-process safe, therefore probably not a good choice for production environments.
If you have multiple caches defined in CACHES, Django will use the default cache. To use another cache, set SESSION_CACHE_ALIAS to the name of that cache.
Once your cache is configured, you have to choose between a database-backed cache or a non-persistent cache.
The cached database backend (cached_db
) uses a write-through cache – session writes are applied to both the database and cache, in that order. If writing to the cache fails, the exception is handled and logged via the sessions logger, to avoid failing an otherwise successful write operation.
Changed in Django 5.1:
Handling and logging of exceptions when writing to the cache was added.
Session reads use the cache, or the database if the data has been evicted from the cache. To use this backend, set SESSION_ENGINE to "django.contrib.sessions.backends.cached_db"
, and follow the configuration instructions for the using database-backed sessions.
The cache backend (cache
) stores session data only in your cache. This is faster because it avoids database persistence, but you will have to consider what happens when cache data is evicted. Eviction can occur if the cache fills up or the cache server is restarted, and it will mean session data is lost, including logging out users. To use this backend, set SESSION_ENGINE to "django.contrib.sessions.backends.cache"
.
The cache backend can be made persistent by using a persistent cache, such as Redis with appropriate configuration. But unless your cache is definitely configured for sufficient persistence, opt for the cached database backend. This avoids edge cases caused by unreliable data storage in production.
Using file-based sessions
To use file-based sessions, set the SESSION_ENGINE setting to "django.contrib.sessions.backends.file"
.
You might also want to set the SESSION_FILE_PATH setting (which defaults to output from tempfile.gettempdir()
, most likely /tmp
) to control where Django stores session files. Be sure to check that your web server has permissions to read and write to this location.
Using cookie-based sessions
To use cookies-based sessions, set the SESSION_ENGINE setting to "django.contrib.sessions.backends.signed_cookies"
. The session data will be stored using Django’s tools for cryptographic signing and the SECRET_KEY setting.
Note
It’s recommended to leave the SESSION_COOKIE_HTTPONLY setting on True
to prevent access to the stored data from JavaScript.
Warning
The session data is signed but not encrypted
When using the cookies backend the session data can be read by the client.
A MAC (Message Authentication Code) is used to protect the data against changes by the client, so that the session data will be invalidated when being tampered with. The same invalidation happens if the client storing the cookie (e.g. your user’s browser) can’t store all of the session cookie and drops data. Even though Django compresses the data, it’s still entirely possible to exceed the common limit of 4096 bytes per cookie.
No freshness guarantee
Note also that while the MAC can guarantee the authenticity of the data (that it was generated by your site, and not someone else), and the integrity of the data (that it is all there and correct), it cannot guarantee freshness i.e. that you are being sent back the last thing you sent to the client. This means that for some uses of session data, the cookie backend might open you up to replay attacks. Unlike other session backends which keep a server-side record of each session and invalidate it when a user logs out, cookie-based sessions are not invalidated when a user logs out. Thus if an attacker steals a user’s cookie, they can use that cookie to login as that user even if the user logs out. Cookies will only be detected as ‘stale’ if they are older than your SESSION_COOKIE_AGE.
Performance
Finally, the size of a cookie can have an impact on the speed of your site.
Using sessions in views
When SessionMiddleware
is activated, each HttpRequest object – the first argument to any Django view function – will have a session
attribute, which is a dictionary-like object.
You can read it and write to request.session
at any point in your view. You can edit it multiple times.
class backends.base.SessionBase
This is the base class for all session objects. It has the following standard dictionary methods:
__getitem__
(key)Example:
fav_color = request.session['fav_color']
__setitem__
(key, value)Example:
request.session['fav_color'] = 'blue'
__delitem__
(key)Example:
del request.session['fav_color']
. This raisesKeyError
if the givenkey
isn’t already in the session.__contains__
(key)Example:
'fav_color' in request.session
get
(key, default=None)aget
(key, default=None)Asynchronous version:
aget()
Example:
fav_color = request.session.get('fav_color', 'red')
Changed in Django 5.1:
aget()
function was added.aset
(key, value)New in Django 5.1.
Example:
await request.session.aset('fav_color', 'red')
update
(dict)aupdate
(dict)Asynchronous version:
aupdate()
Example:
request.session.update({'fav_color': 'red'})
Changed in Django 5.1:
aupdate()
function was added.pop
(key, default=\_not_given_)apop
(key, default=\_not_given_)Asynchronous version:
apop()
Example:
fav_color = request.session.pop('fav_color', 'blue')
Changed in Django 5.1:
apop()
function was added.keys
()akeys
()Asynchronous version:
akeys()
Changed in Django 5.1:
akeys()
function was added.values
()avalues
()Asynchronous version:
avalues()
Changed in Django 5.1:
avalues()
function was added.has_key
(key)ahas_key
(key)Asynchronous version:
ahas_key()
Changed in Django 5.1:
ahas_key()
function was added.items
()aitems
()Asynchronous version:
aitems()
Changed in Django 5.1:
aitems()
function was added.setdefault
()asetdefault
()Asynchronous version:
asetdefault()
Changed in Django 5.1:
asetdefault()
function was added.clear
()
It also has these methods:
flush
()aflush
()Asynchronous version:
aflush()
Deletes the current session data from the session and deletes the session cookie. This is used if you want to ensure that the previous session data can’t be accessed again from the user’s browser (for example, the django.contrib.auth.logout() function calls it).
Changed in Django 5.1:
aflush()
function was added.set_test_cookie
()aset_test_cookie
()Asynchronous version:
aset_test_cookie()
Sets a test cookie to determine whether the user’s browser supports cookies. Due to the way cookies work, you won’t be able to test this until the user’s next page request. See Setting test cookies below for more information.
Changed in Django 5.1:
aset_test_cookie()
function was added.test_cookie_worked
()atest_cookie_worked
()Asynchronous version:
atest_cookie_worked()
Returns either
True
orFalse
, depending on whether the user’s browser accepted the test cookie. Due to the way cookies work, you’ll have to callset_test_cookie()
oraset_test_cookie()
on a previous, separate page request. See Setting test cookies below for more information.Changed in Django 5.1:
atest_cookie_worked()
function was added.delete_test_cookie
()adelete_test_cookie
()Asynchronous version:
adelete_test_cookie()
Deletes the test cookie. Use this to clean up after yourself.
Changed in Django 5.1:
adelete_test_cookie()
function was added.get_session_cookie_age
()Returns the value of the setting SESSION_COOKIE_AGE. This can be overridden in a custom session backend.
set_expiry
(value)aset_expiry
(value)Asynchronous version:
aset_expiry()
Sets the expiration time for the session. You can pass a number of different values:
- If
value
is an integer, the session will expire after that many seconds of inactivity. For example, callingrequest.session.set_expiry(300)
would make the session expire in 5 minutes. - If
value
is adatetime
ortimedelta
object, the session will expire at that specific date/time. - If
value
is0
, the user’s session cookie will expire when the user’s web browser is closed. - If
value
isNone
, the session reverts to using the global session expiry policy.
Reading a session is not considered activity for expiration purposes. Session expiration is computed from the last time the session was modified.
Changed in Django 5.1:
aset_expiry()
function was added.- If
get_expiry_age
()aget_expiry_age
()Asynchronous version:
aget_expiry_age()
Returns the number of seconds until this session expires. For sessions with no custom expiration (or those set to expire at browser close), this will equal SESSION_COOKIE_AGE.
This function accepts two optional keyword arguments:
modification
: last modification of the session, as a datetime object. Defaults to the current time.expiry
: expiry information for the session, as a datetime object, an int (in seconds), orNone
. Defaults to the value stored in the session by set_expiry()/aset_expiry(), if there is one, orNone
.
Note
This method is used by session backends to determine the session expiry age in seconds when saving the session. It is not really intended for usage outside of that context.
In particular, while it is possible to determine the remaining lifetime of a session just when you have the correct
modification
value and theexpiry
is set as adatetime
object, where you do have themodification
value, it is more straight-forward to calculate the expiry by-hand:expires_at = modification + timedelta(seconds=settings.SESSION_COOKIE_AGE)
Changed in Django 5.1:
aget_expiry_age()
function was added.get_expiry_date
()aget_expiry_date
()Asynchronous version:
aget_expiry_date()
Returns the date this session will expire. For sessions with no custom expiration (or those set to expire at browser close), this will equal the date SESSION_COOKIE_AGE seconds from now.
This function accepts the same keyword arguments as get_expiry_age(), and similar notes on usage apply.
Changed in Django 5.1:
aget_expiry_date()
function was added.get_expire_at_browser_close
()aget_expire_at_browser_close
()Asynchronous version:
aget_expire_at_browser_close()
Returns either
True
orFalse
, depending on whether the user’s session cookie will expire when the user’s web browser is closed.Changed in Django 5.1:
aget_expire_at_browser_close()
function was added.clear_expired
()aclear_expired
()Asynchronous version:
aclear_expired()
Removes expired sessions from the session store. This class method is called by clearsessions.
Changed in Django 5.1:
aclear_expired()
function was added.cycle_key
()acycle_key
()Asynchronous version:
acycle_key()
Creates a new session key while retaining the current session data. django.contrib.auth.login() calls this method to mitigate against session fixation.
Changed in Django 5.1:
acycle_key()
function was added.
Session serialization
By default, Django serializes session data using JSON. You can use the SESSION_SERIALIZER setting to customize the session serialization format. Even with the caveats described in Write your own serializer, we highly recommend sticking with JSON serialization especially if you are using the cookie backend.
For example, here’s an attack scenario if you use pickle to serialize session data. If you’re using the signed cookie session backend and SECRET_KEY (or any key of SECRET_KEY_FALLBACKS) is known by an attacker (there isn’t an inherent vulnerability in Django that would cause it to leak), the attacker could insert a string into their session which, when unpickled, executes arbitrary code on the server. The technique for doing so is simple and easily available on the internet. Although the cookie session storage signs the cookie-stored data to prevent tampering, a SECRET_KEY leak immediately escalates to a remote code execution vulnerability.
Bundled serializers
class serializers.JSONSerializer
A wrapper around the JSON serializer from django.core.signing. Can only serialize basic data types.
In addition, as JSON supports only string keys, note that using non-string keys in request.session
won’t work as expected:
>>> # initial assignment
>>> request.session[0] = "bar"
>>> # subsequent requests following serialization & deserialization
>>> # of session data
>>> request.session[0] # KeyError
>>> request.session["0"]
'bar'
Similarly, data that can’t be encoded in JSON, such as non-UTF8 bytes like '\xd9'
(which raises UnicodeDecodeError), can’t be stored.
See the Write your own serializer section for more details on limitations of JSON serialization.
Write your own serializer
Note that the JSONSerializer cannot handle arbitrary Python data types. As is often the case, there is a trade-off between convenience and security. If you wish to store more advanced data types including datetime
and Decimal
in JSON backed sessions, you will need to write a custom serializer (or convert such values to a JSON serializable object before storing them in request.session
). While serializing these values is often straightforward (DjangoJSONEncoder may be helpful), writing a decoder that can reliably get back the same thing that you put in is more fragile. For example, you run the risk of returning a datetime
that was actually a string that just happened to be in the same format chosen for datetime
s).
Your serializer class must implement two methods, dumps(self, obj)
and loads(self, data)
, to serialize and deserialize the dictionary of session data, respectively.
Session object guidelines
- Use normal Python strings as dictionary keys on
request.session
. This is more of a convention than a hard-and-fast rule. - Session dictionary keys that begin with an underscore are reserved for internal use by Django.
- Don’t override
request.session
with a new object, and don’t access or set its attributes. Use it like a Python dictionary.
Examples
This simplistic view sets a has_commented
variable to True
after a user posts a comment. It doesn’t let a user post a comment more than once:
def post_comment(request, new_comment):
if request.session.get("has_commented", False):
return HttpResponse("You've already commented.")
c = comments.Comment(comment=new_comment)
c.save()
request.session["has_commented"] = True
return HttpResponse("Thanks for your comment!")
This simplistic view logs in a “member” of the site:
def login(request):
m = Member.objects.get(username=request.POST["username"])
if m.check_password(request.POST["password"]):
request.session["member_id"] = m.id
return HttpResponse("You're logged in.")
else:
return HttpResponse("Your username and password didn't match.")
…And this one logs a member out, according to login()
above:
def logout(request):
try:
del request.session["member_id"]
except KeyError:
pass
return HttpResponse("You're logged out.")
The standard django.contrib.auth.logout() function actually does a bit more than this to prevent inadvertent data leakage. It calls the flush() method of request.session
. We are using this example as a demonstration of how to work with session objects, not as a full logout()
implementation.
Setting test cookies
As a convenience, Django provides a way to test whether the user’s browser accepts cookies. Call the set_test_cookie() method of request.session
in a view, and call test_cookie_worked() in a subsequent view – not in the same view call.
This awkward split between set_test_cookie()
and test_cookie_worked()
is necessary due to the way cookies work. When you set a cookie, you can’t actually tell whether a browser accepted it until the browser’s next request.
It’s good practice to use delete_test_cookie() to clean up after yourself. Do this after you’ve verified that the test cookie worked.
Here’s a typical usage example:
from django.http import HttpResponse
from django.shortcuts import render
def login(request):
if request.method == "POST":
if request.session.test_cookie_worked():
request.session.delete_test_cookie()
return HttpResponse("You're logged in.")
else:
return HttpResponse("Please enable cookies and try again.")
request.session.set_test_cookie()
return render(request, "foo/login_form.html")
Changed in Django 5.1:
Support for setting test cookies in asynchronous view functions was added.
Using sessions out of views
Note
The examples in this section import the SessionStore
object directly from the django.contrib.sessions.backends.db
backend. In your own code, you should consider importing SessionStore
from the session engine designated by SESSION_ENGINE, as below:
>>> from importlib import import_module
>>> from django.conf import settings
>>> SessionStore = import_module(settings.SESSION_ENGINE).SessionStore
An API is available to manipulate session data outside of a view:
>>> from django.contrib.sessions.backends.db import SessionStore
>>> s = SessionStore()
>>> # stored as seconds since epoch since datetimes are not serializable in JSON.
>>> s["last_login"] = 1376587691
>>> s.create()
>>> s.session_key
'2b1189a188b44ad18c35e113ac6ceead'
>>> s = SessionStore(session_key="2b1189a188b44ad18c35e113ac6ceead")
>>> s["last_login"]
1376587691
SessionStore.create()
is designed to create a new session (i.e. one not loaded from the session store and with session_key=None
). save()
is designed to save an existing session (i.e. one loaded from the session store). Calling save()
on a new session may also work but has a small chance of generating a session_key
that collides with an existing one. create()
calls save()
and loops until an unused session_key
is generated.
If you’re using the django.contrib.sessions.backends.db
backend, each session is a normal Django model. The Session
model is defined in django/contrib/sessions/models.py. Because it’s a normal model, you can access sessions using the normal Django database API:
>>> from django.contrib.sessions.models import Session
>>> s = Session.objects.get(pk="2b1189a188b44ad18c35e113ac6ceead")
>>> s.expire_date
datetime.datetime(2005, 8, 20, 13, 35, 12)
Note that you’ll need to call get_decoded() to get the session dictionary. This is necessary because the dictionary is stored in an encoded format:
>>> s.session_data
'KGRwMQpTJ19hdXRoX3VzZXJfaWQnCnAyCkkxCnMuMTExY2ZjODI2Yj...'
>>> s.get_decoded()
{'user_id': 42}
When sessions are saved
By default, Django only saves to the session database when the session has been modified – that is if any of its dictionary values have been assigned or deleted:
# Session is modified.
request.session["foo"] = "bar"
# Session is modified.
del request.session["foo"]
# Session is modified.
request.session["foo"] = {}
# Gotcha: Session is NOT modified, because this alters
# request.session['foo'] instead of request.session.
request.session["foo"]["bar"] = "baz"
In the last case of the above example, we can tell the session object explicitly that it has been modified by setting the modified
attribute on the session object:
request.session.modified = True
To change this default behavior, set the SESSION_SAVE_EVERY_REQUEST setting to True
. When set to True
, Django will save the session to the database on every single request.
Note that the session cookie is only sent when a session has been created or modified. If SESSION_SAVE_EVERY_REQUEST is True
, the session cookie will be sent on every request.
Similarly, the expires
part of a session cookie is updated each time the session cookie is sent.
The session is not saved if the response’s status code is 500.
Browser-length sessions vs. persistent sessions
You can control whether the session framework uses browser-length sessions vs. persistent sessions with the SESSION_EXPIRE_AT_BROWSER_CLOSE setting.
By default, SESSION_EXPIRE_AT_BROWSER_CLOSE is set to False
, which means session cookies will be stored in users’ browsers for as long as SESSION_COOKIE_AGE. Use this if you don’t want people to have to log in every time they open a browser.
If SESSION_EXPIRE_AT_BROWSER_CLOSE is set to True
, Django will use browser-length cookies – cookies that expire as soon as the user closes their browser. Use this if you want people to have to log in every time they open a browser.
This setting is a global default and can be overwritten at a per-session level by explicitly calling the set_expiry() method of request.session
as described above in using sessions in views.
Note
Some browsers (Chrome, for example) provide settings that allow users to continue browsing sessions after closing and reopening the browser. In some cases, this can interfere with the SESSION_EXPIRE_AT_BROWSER_CLOSE setting and prevent sessions from expiring on browser close. Please be aware of this while testing Django applications which have the SESSION_EXPIRE_AT_BROWSER_CLOSE setting enabled.
Clearing the session store
As users create new sessions on your website, session data can accumulate in your session store. If you’re using the database backend, the django_session
database table will grow. If you’re using the file backend, your temporary directory will contain an increasing number of files.
To understand this problem, consider what happens with the database backend. When a user logs in, Django adds a row to the django_session
database table. Django updates this row each time the session data changes. If the user logs out manually, Django deletes the row. But if the user does not log out, the row never gets deleted. A similar process happens with the file backend.
Django does not provide automatic purging of expired sessions. Therefore, it’s your job to purge expired sessions on a regular basis. Django provides a clean-up management command for this purpose: clearsessions. It’s recommended to call this command on a regular basis, for example as a daily cron job.
Note that the cache backend isn’t vulnerable to this problem, because caches automatically delete stale data. Neither is the cookie backend, because the session data is stored by the users’ browsers.
Settings
A few Django settings give you control over session behavior:
- SESSION_CACHE_ALIAS
- SESSION_COOKIE_AGE
- SESSION_COOKIE_DOMAIN
- SESSION_COOKIE_HTTPONLY
- SESSION_COOKIE_NAME
- SESSION_COOKIE_PATH
- SESSION_COOKIE_SAMESITE
- SESSION_COOKIE_SECURE
- SESSION_ENGINE
- SESSION_EXPIRE_AT_BROWSER_CLOSE
- SESSION_FILE_PATH
- SESSION_SAVE_EVERY_REQUEST
- SESSION_SERIALIZER
Session security
Subdomains within a site are able to set cookies on the client for the whole domain. This makes session fixation possible if cookies are permitted from subdomains not controlled by trusted users.
For example, an attacker could log into good.example.com
and get a valid session for their account. If the attacker has control over bad.example.com
, they can use it to send their session key to you since a subdomain is permitted to set cookies on *.example.com
. When you visit good.example.com
, you’ll be logged in as the attacker and might inadvertently enter your sensitive personal data (e.g. credit card info) into the attacker’s account.
Another possible attack would be if good.example.com
sets its SESSION_COOKIE_DOMAIN to "example.com"
which would cause session cookies from that site to be sent to bad.example.com
.
Technical details
- The session dictionary accepts any json serializable value when using JSONSerializer.
- Session data is stored in a database table named
django_session
. - Django only sends a cookie if it needs to. If you don’t set any session data, it won’t send a session cookie.
The SessionStore
object
When working with sessions internally, Django uses a session store object from the corresponding session engine. By convention, the session store object class is named SessionStore
and is located in the module designated by SESSION_ENGINE.
All SessionStore
subclasses available in Django implement the following data manipulation methods:
exists()
create()
save()
delete()
load()
- clear_expired()
An asynchronous interface for these methods is provided by wrapping them with sync_to_async()
. They can be implemented directly if an async-native implementation is available:
aexists()
acreate()
asave()
adelete()
aload()
- aclear_expired()
In order to build a custom session engine or to customize an existing one, you may create a new class inheriting from SessionBase or any other existing SessionStore
class.
You can extend the session engines, but doing so with database-backed session engines generally requires some extra effort (see the next section for details).
Changed in Django 5.1:
aexists()
, acreate()
, asave()
, adelete()
, aload()
, and aclear_expired()
methods were added.
Extending database-backed session engines
Creating a custom database-backed session engine built upon those included in Django (namely db
and cached_db
) may be done by inheriting AbstractBaseSession and either SessionStore
class.
AbstractBaseSession
and BaseSessionManager
are importable from django.contrib.sessions.base_session
so that they can be imported without including django.contrib.sessions
in INSTALLED_APPS.
class base_session.AbstractBaseSession
The abstract base session model.
session_key
Primary key. The field itself may contain up to 40 characters. The current implementation generates a 32-character string (a random sequence of digits and lowercase ASCII letters).
session_data
A string containing an encoded and serialized session dictionary.
expire_date
A datetime designating when the session expires.
Expired sessions are not available to a user, however, they may still be stored in the database until the clearsessions management command is run.
classmethod
get_session_store_class
()Returns a session store class to be used with this session model.
get_decoded
()Returns decoded session data.
Decoding is performed by the session store class.
You can also customize the model manager by subclassing BaseSessionManager:
class base_session.BaseSessionManager
encode
(session_dict)Returns the given session dictionary serialized and encoded as a string.
Encoding is performed by the session store class tied to a model class.
save
(session_key, session_dict, expire_date)Saves session data for a provided session key, or deletes the session in case the data is empty.
Customization of SessionStore
classes is achieved by overriding methods and properties described below:
class backends.db.SessionStore
Implements database-backed session store.
classmethod
get_model_class
()Override this method to return a custom session model if you need one.
create_model_instance
(data)Returns a new instance of the session model object, which represents the current session state.
Overriding this method provides the ability to modify session model data before it’s saved to database.
class backends.cached_db.SessionStore
Implements cached database-backed session store.
cache_key_prefix
A prefix added to a session key to build a cache key string.
Example
The example below shows a custom database-backed session engine that includes an additional database column to store an account ID (thus providing an option to query the database for all active sessions for an account):
from django.contrib.sessions.backends.db import SessionStore as DBStore
from django.contrib.sessions.base_session import AbstractBaseSession
from django.db import models
class CustomSession(AbstractBaseSession):
account_id = models.IntegerField(null=True, db_index=True)
@classmethod
def get_session_store_class(cls):
return SessionStore
class SessionStore(DBStore):
@classmethod
def get_model_class(cls):
return CustomSession
def create_model_instance(self, data):
obj = super().create_model_instance(data)
try:
account_id = int(data.get("_auth_user_id"))
except (ValueError, TypeError):
account_id = None
obj.account_id = account_id
return obj
If you are migrating from the Django’s built-in cached_db
session store to a custom one based on cached_db
, you should override the cache key prefix in order to prevent a namespace clash:
class SessionStore(CachedDBStore):
cache_key_prefix = "mysessions.custom_cached_db_backend"
# ...
Session IDs in URLs
The Django sessions framework is entirely, and solely, cookie-based. It does not fall back to putting session IDs in URLs as a last resort, as PHP does. This is an intentional design decision. Not only does that behavior make URLs ugly, it makes your site vulnerable to session-ID theft via the “Referer” header.