175 lines
6.2 KiB
Plaintext
175 lines
6.2 KiB
Plaintext
=====================
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Cryptographic signing
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=====================
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.. module:: django.core.signing
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:synopsis: Django's signing framework.
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The golden rule of Web application security is to never trust data from
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untrusted sources. Sometimes it can be useful to pass data through an
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untrusted medium. Cryptographically signed values can be passed through an
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untrusted channel safe in the knowledge that any tampering will be detected.
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Django provides both a low-level API for signing values and a high-level API
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for setting and reading signed cookies, one of the most common uses of
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signing in Web applications.
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You may also find signing useful for the following:
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* Generating "recover my account" URLs for sending to users who have
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lost their password.
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* Ensuring data stored in hidden form fields has not been tampered with.
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* Generating one-time secret URLs for allowing temporary access to a
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protected resource, for example a downloadable file that a user has
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paid for.
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Protecting the SECRET_KEY
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=========================
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When you create a new Django project using :djadmin:`startproject`, the
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``settings.py`` file is generated automatically and gets a random
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:setting:`SECRET_KEY` value. This value is the key to securing signed
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data -- it is vital you keep this secure, or attackers could use it to
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generate their own signed values.
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Using the low-level API
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=======================
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Django's signing methods live in the ``django.core.signing`` module.
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To sign a value, first instantiate a ``Signer`` instance::
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>>> from django.core.signing import Signer
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>>> signer = Signer()
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>>> value = signer.sign('My string')
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>>> value
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'My string:GdMGD6HNQ_qdgxYP8yBZAdAIV1w'
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The signature is appended to the end of the string, following the colon.
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You can retrieve the original value using the ``unsign`` method::
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>>> original = signer.unsign(value)
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>>> original
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u'My string'
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If the signature or value have been altered in any way, a
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``django.core.signing.BadSignature`` exception will be raised::
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>>> from django.core import signing
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>>> value += 'm'
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>>> try:
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... original = signer.unsign(value)
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... except signing.BadSignature:
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... print("Tampering detected!")
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By default, the ``Signer`` class uses the :setting:`SECRET_KEY` setting to
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generate signatures. You can use a different secret by passing it to the
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``Signer`` constructor::
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>>> signer = Signer('my-other-secret')
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>>> value = signer.sign('My string')
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>>> value
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'My string:EkfQJafvGyiofrdGnuthdxImIJw'
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.. class:: Signer(key=None, sep=':', salt=None)
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Returns a signer which uses ``key`` to generate signatures and ``sep`` to
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separate values. ``sep`` cannot be in the `URL safe base64 alphabet
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<http://tools.ietf.org/html/rfc4648#section-5>`_. This alphabet contains
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alphanumeric characters, hyphens, and underscores.
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Using the salt argument
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-----------------------
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If you do not wish for every occurrence of a particular string to have the same
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signature hash, you can use the optional ``salt`` argument to the ``Signer``
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class. Using a salt will seed the signing hash function with both the salt and
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your :setting:`SECRET_KEY`::
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>>> signer = Signer()
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>>> signer.sign('My string')
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'My string:GdMGD6HNQ_qdgxYP8yBZAdAIV1w'
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>>> signer = Signer(salt='extra')
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>>> signer.sign('My string')
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'My string:Ee7vGi-ING6n02gkcJ-QLHg6vFw'
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>>> signer.unsign('My string:Ee7vGi-ING6n02gkcJ-QLHg6vFw')
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u'My string'
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Using salt in this way puts the different signatures into different
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namespaces. A signature that comes from one namespace (a particular salt
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value) cannot be used to validate the same plaintext string in a different
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namespace that is using a different salt setting. The result is to prevent an
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attacker from using a signed string generated in one place in the code as input
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to another piece of code that is generating (and verifying) signatures using a
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different salt.
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Unlike your :setting:`SECRET_KEY`, your salt argument does not need to stay
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secret.
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Verifying timestamped values
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----------------------------
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``TimestampSigner`` is a subclass of :class:`~Signer` that appends a signed
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timestamp to the value. This allows you to confirm that a signed value was
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created within a specified period of time::
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>>> from django.core.signing import TimestampSigner
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>>> signer = TimestampSigner()
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>>> value = signer.sign('hello')
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>>> value
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'hello:1NMg5H:oPVuCqlJWmChm1rA2lyTUtelC-c'
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>>> signer.unsign(value)
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u'hello'
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>>> signer.unsign(value, max_age=10)
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...
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SignatureExpired: Signature age 15.5289158821 > 10 seconds
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>>> signer.unsign(value, max_age=20)
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u'hello'
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.. class:: TimestampSigner(key=None, sep=':', salt=None)
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.. method:: sign(value)
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Sign ``value`` and append current timestamp to it.
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.. method:: unsign(value, max_age=None)
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Checks if ``value`` was signed less than ``max_age`` seconds ago,
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otherwise raises ``SignatureExpired``.
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Protecting complex data structures
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----------------------------------
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If you wish to protect a list, tuple or dictionary you can do so using the
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signing module's ``dumps`` and ``loads`` functions. These imitate Python's
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pickle module, but use JSON serialization under the hood. JSON ensures that
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even if your :setting:`SECRET_KEY` is stolen an attacker will not be able
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to execute arbitrary commands by exploiting the pickle format::
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>>> from django.core import signing
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>>> value = signing.dumps({"foo": "bar"})
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>>> value
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'eyJmb28iOiJiYXIifQ:1NMg1b:zGcDE4-TCkaeGzLeW9UQwZesciI'
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>>> signing.loads(value)
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{'foo': 'bar'}
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Because of the nature of JSON (there is no native distinction between lists
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and tuples) if you pass in a tuple, you will get a list from
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``signing.loads(object)``::
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>>> from django.core import signing
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>>> value = signing.dumps(('a','b','c'))
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>>> signing.loads(value)
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['a', 'b', 'c']
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.. function:: dumps(obj, key=None, salt='django.core.signing', compress=False)
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Returns URL-safe, sha1 signed base64 compressed JSON string. Serialized
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object is signed using :class:`~TimestampSigner`.
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.. function:: loads(string, key=None, salt='django.core.signing', max_age=None)
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Reverse of ``dumps()``, raises ``BadSignature`` if signature fails.
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Checks ``max_age`` (in seconds) if given.
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