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This patch does not remove all occurrences of the words in question. Rather, I went through all of the occurrences of the words listed below, and judged if they a) suggested the reader had some kind of knowledge/experience, and b) if they added anything of value (including tone of voice, etc). I left most of the words alone. I looked at the following words: - simply/simple - easy/easier/easiest - obvious - just - merely - straightforward - ridiculous Thanks to Carlton Gibson for guidance on how to approach this issue, and to Tim Bell for providing the idea. But the enormous lion's share of thanks go to Adam Johnson for his patient and helpful review.
646 lines
26 KiB
Plaintext
646 lines
26 KiB
Plaintext
=============================
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Password management in Django
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=============================
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Password management is something that should generally not be reinvented
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unnecessarily, and Django endeavors to provide a secure and flexible set of
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tools for managing user passwords. This document describes how Django stores
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passwords, how the storage hashing can be configured, and some utilities to
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work with hashed passwords.
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.. seealso::
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Even though users may use strong passwords, attackers might be able to
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eavesdrop on their connections. Use :ref:`HTTPS
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<security-recommendation-ssl>` to avoid sending passwords (or any other
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sensitive data) over plain HTTP connections because they will be vulnerable
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to password sniffing.
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.. _auth_password_storage:
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How Django stores passwords
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===========================
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Django provides a flexible password storage system and uses PBKDF2 by default.
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The :attr:`~django.contrib.auth.models.User.password` attribute of a
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:class:`~django.contrib.auth.models.User` object is a string in this format::
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<algorithm>$<iterations>$<salt>$<hash>
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Those are the components used for storing a User's password, separated by the
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dollar-sign character and consist of: the hashing algorithm, the number of
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algorithm iterations (work factor), the random salt, and the resulting password
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hash. The algorithm is one of a number of one-way hashing or password storage
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algorithms Django can use; see below. Iterations describe the number of times
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the algorithm is run over the hash. Salt is the random seed used and the hash
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is the result of the one-way function.
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By default, Django uses the PBKDF2_ algorithm with a SHA256 hash, a
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password stretching mechanism recommended by NIST_. This should be
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sufficient for most users: it's quite secure, requiring massive
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amounts of computing time to break.
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However, depending on your requirements, you may choose a different
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algorithm, or even use a custom algorithm to match your specific
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security situation. Again, most users shouldn't need to do this -- if
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you're not sure, you probably don't. If you do, please read on:
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Django chooses the algorithm to use by consulting the
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:setting:`PASSWORD_HASHERS` setting. This is a list of hashing algorithm
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classes that this Django installation supports. The first entry in this list
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(that is, ``settings.PASSWORD_HASHERS[0]``) will be used to store passwords,
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and all the other entries are valid hashers that can be used to check existing
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passwords. This means that if you want to use a different algorithm, you'll
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need to modify :setting:`PASSWORD_HASHERS` to list your preferred algorithm
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first in the list.
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The default for :setting:`PASSWORD_HASHERS` is::
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PASSWORD_HASHERS = [
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'django.contrib.auth.hashers.PBKDF2PasswordHasher',
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'django.contrib.auth.hashers.PBKDF2SHA1PasswordHasher',
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'django.contrib.auth.hashers.Argon2PasswordHasher',
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'django.contrib.auth.hashers.BCryptSHA256PasswordHasher',
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]
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This means that Django will use PBKDF2_ to store all passwords but will support
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checking passwords stored with PBKDF2SHA1, argon2_, and bcrypt_.
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The next few sections describe a couple of common ways advanced users may want
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to modify this setting.
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.. _argon2_usage:
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Using Argon2 with Django
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------------------------
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Argon2_ is the winner of the 2015 `Password Hashing Competition`_, a community
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organized open competition to select a next generation hashing algorithm. It's
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designed not to be easier to compute on custom hardware than it is to compute
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on an ordinary CPU.
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Argon2_ is not the default for Django because it requires a third-party
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library. The Password Hashing Competition panel, however, recommends immediate
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use of Argon2 rather than the other algorithms supported by Django.
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To use Argon2 as your default storage algorithm, do the following:
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#. Install the `argon2-cffi library`_. This can be done by running
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``python -m pip install django[argon2]``, which is equivalent to
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``python -m pip install argon2-cffi`` (along with any version requirement
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from Django's ``setup.py``).
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#. Modify :setting:`PASSWORD_HASHERS` to list ``Argon2PasswordHasher`` first.
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That is, in your settings file, you'd put::
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PASSWORD_HASHERS = [
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'django.contrib.auth.hashers.Argon2PasswordHasher',
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'django.contrib.auth.hashers.PBKDF2PasswordHasher',
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'django.contrib.auth.hashers.PBKDF2SHA1PasswordHasher',
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'django.contrib.auth.hashers.BCryptSHA256PasswordHasher',
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]
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Keep and/or add any entries in this list if you need Django to :ref:`upgrade
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passwords <password-upgrades>`.
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.. _bcrypt_usage:
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Using ``bcrypt`` with Django
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----------------------------
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Bcrypt_ is a popular password storage algorithm that's specifically designed
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for long-term password storage. It's not the default used by Django since it
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requires the use of third-party libraries, but since many people may want to
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use it Django supports bcrypt with minimal effort.
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To use Bcrypt as your default storage algorithm, do the following:
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#. Install the `bcrypt library`_. This can be done by running
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``python -m pip install django[bcrypt]``, which is equivalent to
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``python -m pip install bcrypt`` (along with any version requirement from
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Django's ``setup.py``).
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#. Modify :setting:`PASSWORD_HASHERS` to list ``BCryptSHA256PasswordHasher``
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first. That is, in your settings file, you'd put::
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PASSWORD_HASHERS = [
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'django.contrib.auth.hashers.BCryptSHA256PasswordHasher',
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'django.contrib.auth.hashers.PBKDF2PasswordHasher',
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'django.contrib.auth.hashers.PBKDF2SHA1PasswordHasher',
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'django.contrib.auth.hashers.Argon2PasswordHasher',
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]
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Keep and/or add any entries in this list if you need Django to :ref:`upgrade
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passwords <password-upgrades>`.
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That's it -- now your Django install will use Bcrypt as the default storage
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algorithm.
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.. _increasing-password-algorithm-work-factor:
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Increasing the work factor
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--------------------------
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PBKDF2 and bcrypt
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~~~~~~~~~~~~~~~~~
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The PBKDF2 and bcrypt algorithms use a number of iterations or rounds of
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hashing. This deliberately slows down attackers, making attacks against hashed
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passwords harder. However, as computing power increases, the number of
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iterations needs to be increased. We've chosen a reasonable default (and will
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increase it with each release of Django), but you may wish to tune it up or
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down, depending on your security needs and available processing power. To do so,
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you'll subclass the appropriate algorithm and override the ``iterations``
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parameters. For example, to increase the number of iterations used by the
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default PBKDF2 algorithm:
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#. Create a subclass of ``django.contrib.auth.hashers.PBKDF2PasswordHasher``::
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from django.contrib.auth.hashers import PBKDF2PasswordHasher
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class MyPBKDF2PasswordHasher(PBKDF2PasswordHasher):
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"""
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A subclass of PBKDF2PasswordHasher that uses 100 times more iterations.
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"""
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iterations = PBKDF2PasswordHasher.iterations * 100
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Save this somewhere in your project. For example, you might put this in
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a file like ``myproject/hashers.py``.
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#. Add your new hasher as the first entry in :setting:`PASSWORD_HASHERS`::
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PASSWORD_HASHERS = [
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'myproject.hashers.MyPBKDF2PasswordHasher',
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'django.contrib.auth.hashers.PBKDF2PasswordHasher',
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'django.contrib.auth.hashers.PBKDF2SHA1PasswordHasher',
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'django.contrib.auth.hashers.Argon2PasswordHasher',
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'django.contrib.auth.hashers.BCryptSHA256PasswordHasher',
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]
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That's it -- now your Django install will use more iterations when it
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stores passwords using PBKDF2.
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Argon2
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~~~~~~
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Argon2 has three attributes that can be customized:
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#. ``time_cost`` controls the number of iterations within the hash.
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#. ``memory_cost`` controls the size of memory that must be used during the
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computation of the hash.
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#. ``parallelism`` controls how many CPUs the computation of the hash can be
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parallelized on.
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The default values of these attributes are probably fine for you. If you
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determine that the password hash is too fast or too slow, you can tweak it as
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follows:
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#. Choose ``parallelism`` to be the number of threads you can
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spare computing the hash.
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#. Choose ``memory_cost`` to be the KiB of memory you can spare.
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#. Adjust ``time_cost`` and measure the time hashing a password takes.
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Pick a ``time_cost`` that takes an acceptable time for you.
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If ``time_cost`` set to 1 is unacceptably slow, lower ``memory_cost``.
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.. admonition:: ``memory_cost`` interpretation
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The argon2 command-line utility and some other libraries interpret the
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``memory_cost`` parameter differently from the value that Django uses. The
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conversion is given by ``memory_cost == 2 ** memory_cost_commandline``.
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.. _password-upgrades:
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Password upgrading
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------------------
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When users log in, if their passwords are stored with anything other than
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the preferred algorithm, Django will automatically upgrade the algorithm
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to the preferred one. This means that old installs of Django will get
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automatically more secure as users log in, and it also means that you
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can switch to new (and better) storage algorithms as they get invented.
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However, Django can only upgrade passwords that use algorithms mentioned in
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:setting:`PASSWORD_HASHERS`, so as you upgrade to new systems you should make
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sure never to *remove* entries from this list. If you do, users using
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unmentioned algorithms won't be able to upgrade. Hashed passwords will be
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updated when increasing (or decreasing) the number of PBKDF2 iterations or
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bcrypt rounds.
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Be aware that if all the passwords in your database aren't encoded in the
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default hasher's algorithm, you may be vulnerable to a user enumeration timing
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attack due to a difference between the duration of a login request for a user
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with a password encoded in a non-default algorithm and the duration of a login
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request for a nonexistent user (which runs the default hasher). You may be able
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to mitigate this by :ref:`upgrading older password hashes
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<wrapping-password-hashers>`.
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.. _wrapping-password-hashers:
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Password upgrading without requiring a login
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--------------------------------------------
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If you have an existing database with an older, weak hash such as MD5 or SHA1,
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you might want to upgrade those hashes yourself instead of waiting for the
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upgrade to happen when a user logs in (which may never happen if a user doesn't
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return to your site). In this case, you can use a "wrapped" password hasher.
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For this example, we'll migrate a collection of SHA1 hashes to use
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PBKDF2(SHA1(password)) and add the corresponding password hasher for checking
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if a user entered the correct password on login. We assume we're using the
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built-in ``User`` model and that our project has an ``accounts`` app. You can
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modify the pattern to work with any algorithm or with a custom user model.
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First, we'll add the custom hasher:
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.. code-block:: python
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:caption: accounts/hashers.py
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from django.contrib.auth.hashers import (
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PBKDF2PasswordHasher, SHA1PasswordHasher,
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)
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class PBKDF2WrappedSHA1PasswordHasher(PBKDF2PasswordHasher):
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algorithm = 'pbkdf2_wrapped_sha1'
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def encode_sha1_hash(self, sha1_hash, salt, iterations=None):
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return super().encode(sha1_hash, salt, iterations)
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def encode(self, password, salt, iterations=None):
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_, _, sha1_hash = SHA1PasswordHasher().encode(password, salt).split('$', 2)
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return self.encode_sha1_hash(sha1_hash, salt, iterations)
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The data migration might look something like:
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.. code-block:: python
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:caption: accounts/migrations/0002_migrate_sha1_passwords.py
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from django.db import migrations
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from ..hashers import PBKDF2WrappedSHA1PasswordHasher
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def forwards_func(apps, schema_editor):
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User = apps.get_model('auth', 'User')
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users = User.objects.filter(password__startswith='sha1$')
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hasher = PBKDF2WrappedSHA1PasswordHasher()
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for user in users:
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algorithm, salt, sha1_hash = user.password.split('$', 2)
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user.password = hasher.encode_sha1_hash(sha1_hash, salt)
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user.save(update_fields=['password'])
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class Migration(migrations.Migration):
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dependencies = [
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('accounts', '0001_initial'),
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# replace this with the latest migration in contrib.auth
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('auth', '####_migration_name'),
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]
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operations = [
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migrations.RunPython(forwards_func),
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]
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Be aware that this migration will take on the order of several minutes for
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several thousand users, depending on the speed of your hardware.
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Finally, we'll add a :setting:`PASSWORD_HASHERS` setting:
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.. code-block:: python
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:caption: mysite/settings.py
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PASSWORD_HASHERS = [
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'django.contrib.auth.hashers.PBKDF2PasswordHasher',
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'accounts.hashers.PBKDF2WrappedSHA1PasswordHasher',
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]
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Include any other hashers that your site uses in this list.
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.. _sha1: https://en.wikipedia.org/wiki/SHA1
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.. _pbkdf2: https://en.wikipedia.org/wiki/PBKDF2
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.. _nist: https://dx.doi.org/10.6028/NIST.SP.800-132
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.. _bcrypt: https://en.wikipedia.org/wiki/Bcrypt
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.. _`bcrypt library`: https://pypi.org/project/bcrypt/
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.. _`argon2-cffi library`: https://pypi.org/project/argon2_cffi/
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.. _argon2: https://en.wikipedia.org/wiki/Argon2
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.. _`Password Hashing Competition`: https://password-hashing.net
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.. _auth-included-hashers:
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Included hashers
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----------------
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The full list of hashers included in Django is::
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[
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'django.contrib.auth.hashers.PBKDF2PasswordHasher',
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'django.contrib.auth.hashers.PBKDF2SHA1PasswordHasher',
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'django.contrib.auth.hashers.Argon2PasswordHasher',
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'django.contrib.auth.hashers.BCryptSHA256PasswordHasher',
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'django.contrib.auth.hashers.BCryptPasswordHasher',
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'django.contrib.auth.hashers.SHA1PasswordHasher',
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'django.contrib.auth.hashers.MD5PasswordHasher',
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'django.contrib.auth.hashers.UnsaltedSHA1PasswordHasher',
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'django.contrib.auth.hashers.UnsaltedMD5PasswordHasher',
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'django.contrib.auth.hashers.CryptPasswordHasher',
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]
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The corresponding algorithm names are:
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* ``pbkdf2_sha256``
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* ``pbkdf2_sha1``
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* ``argon2``
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* ``bcrypt_sha256``
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* ``bcrypt``
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* ``sha1``
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* ``md5``
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* ``unsalted_sha1``
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* ``unsalted_md5``
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* ``crypt``
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.. _write-your-own-password-hasher:
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Writing your own hasher
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-----------------------
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If you write your own password hasher that contains a work factor such as a
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number of iterations, you should implement a
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``harden_runtime(self, password, encoded)`` method to bridge the runtime gap
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between the work factor supplied in the ``encoded`` password and the default
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work factor of the hasher. This prevents a user enumeration timing attack due
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to difference between a login request for a user with a password encoded in an
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older number of iterations and a nonexistent user (which runs the default
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hasher's default number of iterations).
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Taking PBKDF2 as example, if ``encoded`` contains 20,000 iterations and the
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hasher's default ``iterations`` is 30,000, the method should run ``password``
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through another 10,000 iterations of PBKDF2.
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If your hasher doesn't have a work factor, implement the method as a no-op
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(``pass``).
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Manually managing a user's password
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===================================
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.. module:: django.contrib.auth.hashers
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The :mod:`django.contrib.auth.hashers` module provides a set of functions
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to create and validate hashed passwords. You can use them independently
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from the ``User`` model.
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.. function:: check_password(password, encoded)
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If you'd like to manually authenticate a user by comparing a plain-text
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password to the hashed password in the database, use the convenience
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function :func:`check_password`. It takes two arguments: the plain-text
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password to check, and the full value of a user's ``password`` field in the
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database to check against, and returns ``True`` if they match, ``False``
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otherwise.
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.. function:: make_password(password, salt=None, hasher='default')
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Creates a hashed password in the format used by this application. It takes
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one mandatory argument: the password in plain-text. Optionally, you can
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provide a salt and a hashing algorithm to use, if you don't want to use the
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defaults (first entry of ``PASSWORD_HASHERS`` setting). See
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:ref:`auth-included-hashers` for the algorithm name of each hasher. If the
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password argument is ``None``, an unusable password is returned (one that
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will never be accepted by :func:`check_password`).
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.. function:: is_password_usable(encoded_password)
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Returns ``False`` if the password is a result of
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:meth:`.User.set_unusable_password`.
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.. _password-validation:
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Password validation
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===================
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.. module:: django.contrib.auth.password_validation
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Users often choose poor passwords. To help mitigate this problem, Django
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offers pluggable password validation. You can configure multiple password
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validators at the same time. A few validators are included in Django, but you
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can write your own as well.
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Each password validator must provide a help text to explain the requirements to
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the user, validate a given password and return an error message if it does not
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meet the requirements, and optionally receive passwords that have been set.
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Validators can also have optional settings to fine tune their behavior.
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Validation is controlled by the :setting:`AUTH_PASSWORD_VALIDATORS` setting.
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The default for the setting is an empty list, which means no validators are
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applied. In new projects created with the default :djadmin:`startproject`
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template, a set of validators is enabled by default.
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By default, validators are used in the forms to reset or change passwords and
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in the :djadmin:`createsuperuser` and :djadmin:`changepassword` management
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commands. Validators aren't applied at the model level, for example in
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``User.objects.create_user()`` and ``create_superuser()``, because we assume
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that developers, not users, interact with Django at that level and also because
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model validation doesn't automatically run as part of creating models.
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.. note::
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Password validation can prevent the use of many types of weak passwords.
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However, the fact that a password passes all the validators doesn't
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guarantee that it is a strong password. There are many factors that can
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weaken a password that are not detectable by even the most advanced
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password validators.
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Enabling password validation
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----------------------------
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Password validation is configured in the
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:setting:`AUTH_PASSWORD_VALIDATORS` setting::
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AUTH_PASSWORD_VALIDATORS = [
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{
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'NAME': 'django.contrib.auth.password_validation.UserAttributeSimilarityValidator',
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},
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{
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'NAME': 'django.contrib.auth.password_validation.MinimumLengthValidator',
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'OPTIONS': {
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'min_length': 9,
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}
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},
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{
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'NAME': 'django.contrib.auth.password_validation.CommonPasswordValidator',
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},
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{
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'NAME': 'django.contrib.auth.password_validation.NumericPasswordValidator',
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},
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]
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This example enables all four included validators:
|
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* ``UserAttributeSimilarityValidator``, which checks the similarity between
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the password and a set of attributes of the user.
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* ``MinimumLengthValidator``, which checks whether the password meets a minimum
|
|
length. This validator is configured with a custom option: it now requires
|
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the minimum length to be nine characters, instead of the default eight.
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* ``CommonPasswordValidator``, which checks whether the password occurs in a
|
|
list of common passwords. By default, it compares to an included list of
|
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20,000 common passwords.
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* ``NumericPasswordValidator``, which checks whether the password isn't
|
|
entirely numeric.
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|
|
|
For ``UserAttributeSimilarityValidator`` and ``CommonPasswordValidator``,
|
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we're using the default settings in this example. ``NumericPasswordValidator``
|
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has no settings.
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|
|
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The help texts and any errors from password validators are always returned in
|
|
the order they are listed in :setting:`AUTH_PASSWORD_VALIDATORS`.
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|
|
|
Included validators
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|
-------------------
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|
|
|
Django includes four validators:
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|
|
|
.. class:: MinimumLengthValidator(min_length=8)
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|
|
|
Validates whether the password meets a minimum length.
|
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The minimum length can be customized with the ``min_length`` parameter.
|
|
|
|
.. class:: UserAttributeSimilarityValidator(user_attributes=DEFAULT_USER_ATTRIBUTES, max_similarity=0.7)
|
|
|
|
Validates whether the password is sufficiently different from certain
|
|
attributes of the user.
|
|
|
|
The ``user_attributes`` parameter should be an iterable of names of user
|
|
attributes to compare to. If this argument is not provided, the default
|
|
is used: ``'username', 'first_name', 'last_name', 'email'``.
|
|
Attributes that don't exist are ignored.
|
|
|
|
The minimum similarity of a rejected password can be set on a scale of 0 to
|
|
1 with the ``max_similarity`` parameter. A setting of 0 rejects all
|
|
passwords, whereas a setting of 1 rejects only passwords that are identical
|
|
to an attribute's value.
|
|
|
|
.. class:: CommonPasswordValidator(password_list_path=DEFAULT_PASSWORD_LIST_PATH)
|
|
|
|
Validates whether the password is not a common password. This converts the
|
|
password to lowercase (to do a case-insensitive comparison) and checks it
|
|
against a list of 20,000 common password created by `Royce Williams
|
|
<https://gist.github.com/roycewilliams/281ce539915a947a23db17137d91aeb7>`_.
|
|
|
|
The ``password_list_path`` can be set to the path of a custom file of
|
|
common passwords. This file should contain one lowercase password per line
|
|
and may be plain text or gzipped.
|
|
|
|
.. class:: NumericPasswordValidator()
|
|
|
|
Validates whether the password is not entirely numeric.
|
|
|
|
Integrating validation
|
|
----------------------
|
|
|
|
There are a few functions in ``django.contrib.auth.password_validation`` that
|
|
you can call from your own forms or other code to integrate password
|
|
validation. This can be useful if you use custom forms for password setting,
|
|
or if you have API calls that allow passwords to be set, for example.
|
|
|
|
.. function:: validate_password(password, user=None, password_validators=None)
|
|
|
|
Validates a password. If all validators find the password valid, returns
|
|
``None``. If one or more validators reject the password, raises a
|
|
:exc:`~django.core.exceptions.ValidationError` with all the error messages
|
|
from the validators.
|
|
|
|
The ``user`` object is optional: if it's not provided, some validators may
|
|
not be able to perform any validation and will accept any password.
|
|
|
|
.. function:: password_changed(password, user=None, password_validators=None)
|
|
|
|
Informs all validators that the password has been changed. This can be used
|
|
by validators such as one that prevents password reuse. This should be
|
|
called once the password has been successfully changed.
|
|
|
|
For subclasses of :class:`~django.contrib.auth.models.AbstractBaseUser`,
|
|
the password field will be marked as "dirty" when calling
|
|
:meth:`~django.contrib.auth.models.AbstractBaseUser.set_password` which
|
|
triggers a call to ``password_changed()`` after the user is saved.
|
|
|
|
.. function:: password_validators_help_texts(password_validators=None)
|
|
|
|
Returns a list of the help texts of all validators. These explain the
|
|
password requirements to the user.
|
|
|
|
.. function:: password_validators_help_text_html(password_validators=None)
|
|
|
|
Returns an HTML string with all help texts in an ``<ul>``. This is
|
|
helpful when adding password validation to forms, as you can pass the
|
|
output directly to the ``help_text`` parameter of a form field.
|
|
|
|
.. function:: get_password_validators(validator_config)
|
|
|
|
Returns a set of validator objects based on the ``validator_config``
|
|
parameter. By default, all functions use the validators defined in
|
|
:setting:`AUTH_PASSWORD_VALIDATORS`, but by calling this function with an
|
|
alternate set of validators and then passing the result into the
|
|
``password_validators`` parameter of the other functions, your custom set
|
|
of validators will be used instead. This is useful when you have a typical
|
|
set of validators to use for most scenarios, but also have a special
|
|
situation that requires a custom set. If you always use the same set
|
|
of validators, there is no need to use this function, as the configuration
|
|
from :setting:`AUTH_PASSWORD_VALIDATORS` is used by default.
|
|
|
|
The structure of ``validator_config`` is identical to the
|
|
structure of :setting:`AUTH_PASSWORD_VALIDATORS`. The return value of
|
|
this function can be passed into the ``password_validators`` parameter
|
|
of the functions listed above.
|
|
|
|
Note that where the password is passed to one of these functions, this should
|
|
always be the clear text password - not a hashed password.
|
|
|
|
Writing your own validator
|
|
--------------------------
|
|
|
|
If Django's built-in validators are not sufficient, you can write your own
|
|
password validators. Validators have a fairly small interface. They must
|
|
implement two methods:
|
|
|
|
* ``validate(self, password, user=None)``: validate a password. Return
|
|
``None`` if the password is valid, or raise a
|
|
:exc:`~django.core.exceptions.ValidationError` with an error message if the
|
|
password is not valid. You must be able to deal with ``user`` being
|
|
``None`` - if that means your validator can't run, return ``None`` for no
|
|
error.
|
|
* ``get_help_text()``: provide a help text to explain the requirements to
|
|
the user.
|
|
|
|
Any items in the ``OPTIONS`` in :setting:`AUTH_PASSWORD_VALIDATORS` for your
|
|
validator will be passed to the constructor. All constructor arguments should
|
|
have a default value.
|
|
|
|
Here's a basic example of a validator, with one optional setting::
|
|
|
|
from django.core.exceptions import ValidationError
|
|
from django.utils.translation import gettext as _
|
|
|
|
class MinimumLengthValidator:
|
|
def __init__(self, min_length=8):
|
|
self.min_length = min_length
|
|
|
|
def validate(self, password, user=None):
|
|
if len(password) < self.min_length:
|
|
raise ValidationError(
|
|
_("This password must contain at least %(min_length)d characters."),
|
|
code='password_too_short',
|
|
params={'min_length': self.min_length},
|
|
)
|
|
|
|
def get_help_text(self):
|
|
return _(
|
|
"Your password must contain at least %(min_length)d characters."
|
|
% {'min_length': self.min_length}
|
|
)
|
|
|
|
You can also implement ``password_changed(password, user=None``), which will
|
|
be called after a successful password change. That can be used to prevent
|
|
password reuse, for example. However, if you decide to store a user's previous
|
|
passwords, you should never do so in clear text.
|