I did a few google searches and checked out the docs ( https://docs.djangoproject.com/en/dev/ref/settings/#secret-key ), but I was looking for a more in-depth explanation of this, and why it is required.

For example, what could happen if the key was compromised / others knew what it was?

  • 8
    If you have a secret key, and it's compromised and released to others, you have a problem. It doesn't matter if you're using Django or not. Sep 12, 2011 at 0:01
  • 75
    But what problem, exactly?
    – tobych
    Nov 15, 2011 at 22:27
  • 13
    I did a thorough answer here (shameless plug)
    – sberder
    Mar 14, 2013 at 3:18
  • 5
    @sberder Maybe you should write an answer to this question as well. I imagine you could do it much better than the accepted non-answer.
    – kasperd
    Jul 4, 2015 at 15:14

3 Answers 3


It is used for making hashes. Look:

>grep -Inr SECRET_KEY *
conf/global_settings.py:255:SECRET_KEY = ''
conf/project_template/settings.py:61:SECRET_KEY = ''
contrib/auth/tokens.py:54:        hash = sha_constructor(settings.SECRET_KEY + unicode(user.id) +
contrib/comments/forms.py:86:        info = (content_type, object_pk, timestamp, settings.SECRET_KEY)
contrib/formtools/utils.py:15:    order, pickles the result with the SECRET_KEY setting, then takes an md5
contrib/formtools/utils.py:32:    data.append(settings.SECRET_KEY)
contrib/messages/storage/cookie.py:112:        SECRET_KEY, modified to make it unique for the present purpose.
contrib/messages/storage/cookie.py:114:        key = 'django.contrib.messages' + settings.SECRET_KEY
contrib/sessions/backends/base.py:89:        pickled_md5 = md5_constructor(pickled + settings.SECRET_KEY).hexdigest()
contrib/sessions/backends/base.py:95:        if md5_constructor(pickled + settings.SECRET_KEY).hexdigest() != tamper_check:
contrib/sessions/backends/base.py:134:        # Use settings.SECRET_KEY as added salt.
contrib/sessions/backends/base.py:143:                       settings.SECRET_KEY)).hexdigest()
contrib/sessions/models.py:16:        pickled_md5 = md5_constructor(pickled + settings.SECRET_KEY).hexdigest()
contrib/sessions/models.py:59:        if md5_constructor(pickled + settings.SECRET_KEY).hexdigest() != tamper_check:
core/management/commands/startproject.py:32:        # Create a random SECRET_KEY hash, and put it in the main settings.
core/management/commands/startproject.py:37:        settings_contents = re.sub(r"(?<=SECRET_KEY = ')'", secret_key + "'", settings_contents)
middleware/csrf.py:38:                % (randrange(0, _MAX_CSRF_KEY), settings.SECRET_KEY)).hexdigest()
middleware/csrf.py:41:    return md5_constructor(settings.SECRET_KEY + session_id).hexdigest()
  • 30
    Why didn't they call it a salt then? ;)
    – datenwolf
    Jun 15, 2013 at 18:00
  • 51
    This is a guess, but I suppose it is easier to tell people "don't share your SECRET_KEY", as opposed to "your SALT is a secret key that you should keep to yourself." Jun 25, 2013 at 5:47
  • 21
    That distinction is very important. In cryptography, salts are not secret, but SECRET_KEY must be kept secure. The use of the SECRET_KEY is much more akin to the use of a key in a signed hash such as HMAC (which, if performance wasn't a consideration, would probably be used instead). Jun 19, 2014 at 18:58
  • 65
    This does not look like an answer to me. All you did was a single grep command without explaining what any of it does. Where is the answer to "what could happen if the key was compromised?"?
    – kasperd
    Jul 4, 2015 at 15:12
  • 1
    @JamieMarshall for a brute force attack yes, but that is not the reason why hashes are salted. Their purpose is to combat the use of rainbow tables, instead of having to brute force a hash. In that case, it doesn't matter that the salt is public, since you'd still need to fully brute-force the hash using that salt. And if you are using a hashing algorithm that is brute forcible like md5 for security, then you have other issues that have nothing to do with the salt being public.
    – Rik Schaaf
    Jan 7, 2021 at 21:28

The Django documentation for cryptographic signing covers the uses of the ‘SECRET_KEY’ setting:

This value [the SECRET_KEY setting] is the key to securing signed data – it is vital you keep this secure, or attackers could use it to generate their own signed values.

(This section is also referenced from the Django documentation for the ‘SECRET_KEY’ setting.)

The cryptographic signing API in Django is available to any app for cryptographically-secure signatures on values. Django itself makes use of this in various higher-level features:

  • Signing serialised data (e.g. JSON documents).

  • Unique tokens for a user session, password reset request, messages, etc.

  • Prevention of cross-site or replay attacks by adding (and then expecting) unique values for the request.

  • Generating a unique salt for hash functions.

So, the general answer is: There are many things in a Django app which require a cryptographic signature, and the ‘SECRET_KEY’ setting is the key used for those. It needs to have a cryptographically strong amount of entropy (hard for computers to guess) and unique between all Django instances.

  • 3
    "and unique between all Django instances." -- does this imply if say I have 3 webservers running the same Django app behind a load balancer I should have 3 distinct SECRET_KEY settings? Jul 27, 2018 at 19:01
  • 3
    @AdamParkin, that sounds like a good start for a new question, to get its own answer.
    – bignose
    Aug 2, 2018 at 9:54
  • 2
    Great suggestion, done: stackoverflow.com/questions/51657422/… Aug 2, 2018 at 15:34
  • 2
    This should be the accepted answer. The first answer is ambiguous. Nov 25, 2023 at 19:02

According to the Django Documentation on SECRET_KEY:

The secret key is used for:

  • All sessions if you are using any other session backend than django.contrib.sessions.backends.cache, or are using the default get_session_auth_hash().
  • All messages if you are using CookieStorage or FallbackStorage.
  • All PasswordResetView tokens.
  • Any usage of cryptographic signing, unless a different key is provided.

If you rotate your secret key, all of the above will be invalidated. Secret keys are not used for passwords of users and key rotation will not affect them.

  • 16
    Useful info regarding what happens if the SECRET_KEY is rotated. +1 Feb 1, 2019 at 14:01

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service and acknowledge you have read our privacy policy.

Not the answer you're looking for? Browse other questions tagged or ask your own question.