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A Python implementation of the SCRAM authentication protocol <https://en.wikipedia.org/wiki/Salted_Challenge_Response_Authentication_Mechanism>
_.
Scramp supports the following mechanisms:
.. contents:: Table of Contents :depth: 2 :local:
python3 -m venv venv
source venv/bin/activate
pip install scramp
Client and Server
Here's an example using both the client and the server. It's a bit contrived as normally
you'd be using either the client or server on its own.
>>> from scramp import ScramClient, ScramMechanism
>>>
>>> USERNAME = 'user'
>>> PASSWORD = 'pencil'
>>> MECHANISMS = ['SCRAM-SHA-256']
>>>
>>>
>>> # Choose a mechanism for our server
>>> m = ScramMechanism() # Default is SCRAM-SHA-256
>>>
>>> # On the server side we create the authentication information for each user
>>> # and store it in an authentication database. We'll use a dict:
>>> db = {}
>>>
>>> salt, stored_key, server_key, iteration_count = m.make_auth_info(PASSWORD)
>>>
>>> db[USERNAME] = salt, stored_key, server_key, iteration_count
>>>
>>> # Define your own function for retrieving the authentication information
>>> # from the database given a username
>>>
>>> def auth_fn(username):
... return db[username]
>>>
>>> # Make the SCRAM server
>>> s = m.make_server(auth_fn)
>>>
>>> # Now set up the client and carry out authentication with the server
>>> c = ScramClient(MECHANISMS, USERNAME, PASSWORD)
>>> cfirst = c.get_client_first()
>>>
>>> s.set_client_first(cfirst)
>>> sfirst = s.get_server_first()
>>>
>>> c.set_server_first(sfirst)
>>> cfinal = c.get_client_final()
>>>
>>> s.set_client_final(cfinal)
>>> sfinal = s.get_server_final()
>>>
>>> c.set_server_final(sfinal)
>>>
>>> # If it all runs through without raising an exception, the authentication
>>> # has succeeded
Client only
```````````
Here's an example using just the client. The client nonce is specified in order to give
a reproducible example, but in production you'd omit the ``c_nonce`` parameter and let
``ScramClient`` generate a client nonce:
>>> from scramp import ScramClient
>>>
>>> USERNAME = 'user'
>>> PASSWORD = 'pencil'
>>> C_NONCE = 'rOprNGfwEbeRWgbNEkqO'
>>> MECHANISMS = ['SCRAM-SHA-256']
>>>
>>> # Normally the c_nonce would be omitted, in which case ScramClient will
>>> # generate the nonce itself.
>>>
>>> c = ScramClient(MECHANISMS, USERNAME, PASSWORD, c_nonce=C_NONCE)
>>>
>>> # Get the client first message and send it to the server
>>> cfirst = c.get_client_first()
>>> print(cfirst)
n,,n=user,r=rOprNGfwEbeRWgbNEkqO
>>>
>>> # Set the first message from the server
>>> c.set_server_first(
... 'r=rOprNGfwEbeRWgbNEkqO%hvYDpWUa2RaTCAfuxFIlj)hNlF$k0,'
... 's=W22ZaJ0SNY7soEsUEjb6gQ==,i=4096')
>>>
>>> # Get the client final message and send it to the server
>>> cfinal = c.get_client_final()
>>> print(cfinal)
c=biws,r=rOprNGfwEbeRWgbNEkqO%hvYDpWUa2RaTCAfuxFIlj)hNlF$k0,p=dHzbZapWIk4jUhN+Ute9ytag9zjfMHgsqmmiz7AndVQ=
>>>
>>> # Set the final message from the server
>>> c.set_server_final('v=6rriTRBi23WpRR/wtup+mMhUZUn/dB5nLTJRsjl95G4=')
>>>
>>> # If it all runs through without raising an exception, the authentication
>>> # has succeeded
Server only
```````````
Here's an example using just the server. The server nonce and salt is specified in order
to give a reproducible example, but in production you'd omit the ``s_nonce`` and
``salt`` parameters and let Scramp generate them:
>>> from scramp import ScramMechanism
>>>
>>> USERNAME = 'user'
>>> PASSWORD = 'pencil'
>>> S_NONCE = '%hvYDpWUa2RaTCAfuxFIlj)hNlF$k0'
>>> SALT = b'[m\x99h\x9d\x125\x8e\xec\xa0K\x14\x126\xfa\x81'
>>>
>>> db = {}
>>>
>>> m = ScramMechanism()
>>>
>>> salt, stored_key, server_key, iteration_count = m.make_auth_info(
... PASSWORD, salt=SALT)
>>>
>>> db[USERNAME] = salt, stored_key, server_key, iteration_count
>>>
>>> # Define your own function for getting a password given a username
>>> def auth_fn(username):
... return db[username]
>>>
>>> # Normally the s_nonce parameter would be omitted, in which case the
>>> # server will generate the nonce itself.
>>>
>>> s = m.make_server(auth_fn, s_nonce=S_NONCE)
>>>
>>> # Set the first message from the client
>>> s.set_client_first('n,,n=user,r=rOprNGfwEbeRWgbNEkqO')
>>>
>>> # Get the first server message, and send it to the client
>>> sfirst = s.get_server_first()
>>> print(sfirst)
r=rOprNGfwEbeRWgbNEkqO%hvYDpWUa2RaTCAfuxFIlj)hNlF$k0,s=W22ZaJ0SNY7soEsUEjb6gQ==,i=4096
>>>
>>> # Set the final message from the client
>>> s.set_client_final(
... 'c=biws,r=rOprNGfwEbeRWgbNEkqO%hvYDpWUa2RaTCAfuxFIlj)hNlF$k0,'
... 'p=dHzbZapWIk4jUhN+Ute9ytag9zjfMHgsqmmiz7AndVQ=')
>>>
>>> # Get the final server message and send it to the client
>>> sfinal = s.get_server_final()
>>> print(sfinal)
v=6rriTRBi23WpRR/wtup+mMhUZUn/dB5nLTJRsjl95G4=
>>>
>>> # If it all runs through without raising an exception, the authentication
>>> # has succeeded
Server only with passlib
Here's an example using just the server and using the passlib hashing library <https://passlib.readthedocs.io/en/stable/index.html>
_. The server nonce and salt is
specified in order to give a reproducible example, but in production you'd omit the
s_nonce
and salt
parameters and let Scramp generate them:
from scramp import ScramMechanism from passlib.hash import scram
USERNAME = 'user' PASSWORD = 'pencil' S_NONCE = '%hvYDpWUa2RaTCAfuxFIlj)hNlF$k0' SALT = b'[m\x99h\x9d\x125\x8e\xec\xa0K\x14\x126\xfa\x81' ITERATION_COUNT = 4096
db = {} hash = scram.using(salt=SALT, rounds=ITERATION_COUNT).hash(PASSWORD)
salt, iteration_count, digest = scram.extract_digest_info(hash, 'sha-256')
stored_key, server_key = m.make_stored_server_keys(digest)
db[USERNAME] = salt, stored_key, server_key, iteration_count
Define your own function for getting a password given a username
def auth_fn(username): ... return db[username]
Normally the s_nonce parameter would be omitted, in which case the
server will generate the nonce itself.
m = ScramMechanism() s = m.make_server(auth_fn, s_nonce=S_NONCE)
Set the first message from the client
s.set_client_first('n,,n=user,r=rOprNGfwEbeRWgbNEkqO')
Get the first server message, and send it to the client
sfirst = s.get_server_first() print(sfirst) r=rOprNGfwEbeRWgbNEkqO%hvYDpWUa2RaTCAfuxFIlj)hNlF$k0,s=W22ZaJ0SNY7soEsUEjb6gQ==,i=4096
Set the final message from the client
s.set_client_final( ... 'c=biws,r=rOprNGfwEbeRWgbNEkqO%hvYDpWUa2RaTCAfuxFIlj)hNlF$k0,' ... 'p=dHzbZapWIk4jUhN+Ute9ytag9zjfMHgsqmmiz7AndVQ=')
Get the final server message and send it to the client
sfinal = s.get_server_final() print(sfinal) v=6rriTRBi23WpRR/wtup+mMhUZUn/dB5nLTJRsjl95G4=
If it all runs through without raising an exception, the authentication
has succeeded
Server Error
Here's an example of when setting a message from the client causes an error. The server
nonce and salt is specified in order to give a reproducible example, but in production
you'd omit the ``s_nonce`` and ``salt`` parameters and let Scramp generate them:
>>> from scramp import ScramException, ScramMechanism
>>>
>>> USERNAME = 'user'
>>> PASSWORD = 'pencil'
>>> S_NONCE = '%hvYDpWUa2RaTCAfuxFIlj)hNlF$k0'
>>> SALT = b'[m\x99h\x9d\x125\x8e\xec\xa0K\x14\x126\xfa\x81'
>>>
>>> db = {}
>>>
>>> m = ScramMechanism()
>>>
>>> salt, stored_key, server_key, iteration_count = m.make_auth_info(
... PASSWORD, salt=SALT)
>>>
>>> db[USERNAME] = salt, stored_key, server_key, iteration_count
>>>
>>> # Define your own function for getting a password given a username
>>> def auth_fn(username):
... return db[username]
>>>
>>> # Normally the s_nonce parameter would be omitted, in which case the
>>> # server will generate the nonce itself.
>>>
>>> s = m.make_server(auth_fn, s_nonce=S_NONCE)
>>>
>>> try:
... # Set the first message from the client
... s.set_client_first('p=tls-unique,,n=user,r=rOprNGfwEbeRWgbNEkqO')
... except ScramException as e:
... print(e)
... # Get the final server message and send it to the client
... sfinal = s.get_server_final()
... print(sfinal)
Received GS2 flag 'p' which indicates that the client requires channel binding, but the server does not: channel-binding-not-supported
e=channel-binding-not-supported
Standards
---------
`RFC 5802 <https://tools.ietf.org/html/rfc5802>`_
Describes SCRAM.
`RFC 7677 <https://datatracker.ietf.org/doc/html/rfc7677>`_
Registers SCRAM-SHA-256 and SCRAM-SHA-256-PLUS.
`draft-melnikov-scram-sha-512-02 <https://datatracker.ietf.org/doc/html/draft-melnikov-scram-sha-512>`_
Registers SCRAM-SHA-512 and SCRAM-SHA-512-PLUS.
`draft-melnikov-scram-sha3-512 <https://datatracker.ietf.org/doc/html/draft-melnikov-scram-sha3-512>`_
Registers SCRAM-SHA3-512 and SCRAM-SHA3-512-PLUS.
`RFC 5929 <https://datatracker.ietf.org/doc/html/rfc5929>`_
Channel Bindings for TLS.
`draft-ietf-kitten-tls-channel-bindings-for-tls13 <https://datatracker.ietf.org/doc/html/draft-ietf-kitten-tls-channel-bindings-for-tls13>`_
Defines the ``tls-exporter`` channel binding, which is `not yet supported by Scramp
<https://github.com/tlocke/scramp/issues/9>`_.
API Docs
--------
scramp.MECHANISMS
A tuple of the supported mechanism names.
scramp.ScramClient
``ScramClient(mechanisms, username, password, channel_binding=None, c_nonce=None)``
Constructor of the ``ScramClient`` class, with the following parameters:
``mechanisms``
A list or tuple of mechanism names. ScramClient will choose the most secure. If
``cbind_data`` is ``None``, the '-PLUS' variants will be filtered out first. The
chosen mechanism is available as the property ``mechanism_name``.
``username``
``password``
``channel_binding``
Providing a value for this parameter allows channel binding to be used (ie. it lets
you use mechanisms ending in '-PLUS'). The value for ``channel_binding`` is a tuple
consisting of the channel binding name and the channel binding data. For example, if
the channel binding name is ``tls-unique``, the ``channel_binding`` parameter would
be ``('tls-unique', data)``, where ``data`` is obtained by calling
`SSLSocket.get_channel_binding()
<https://docs.python.org/3/library/ssl.html#ssl.SSLSocket.get_channel_binding>`_.
The convenience function ``scramp.make_channel_binding()`` can be used to create a
channel binding tuple.
``c_nonce``
The client nonce. It's sometimes useful to set this when testing / debugging, but in
production this should be omitted, in which case ``ScramClient`` will generate a
client nonce.
The ``ScramClient`` object has the following methods and properties:
``get_client_first()``
Get the client first message.
``set_server_first(message)``
Set the first message from the server.
``get_client_final()``
Get the final client message.
``set_server_final(message)``
Set the final message from the server.
``mechanism_name``
The mechanism chosen from the list given in the constructor.
scramp.ScramMechanism
ScramMechanism(mechanism='SCRAM-SHA-256')
Constructor of the ScramMechanism
class, with the following parameter:
mechanism
The SCRAM mechanism to use.
The ScramMechanism
object has the following methods and properties:
make_auth_info(password, iteration_count=None, salt=None)
returns the tuple (salt, stored_key, server_key, iteration_count)
which is stored
in the authentication database on the server side. It has the following parameters:
password
The user's password as a str
.
iteration_count
The rounds as an int
. If None
then use the minimum associated with the
mechanism.
salt
It's sometimes useful to set this binary parameter when testing / debugging, but in
production this should be omitted, in which case a salt will be generated.
make_server(auth_fn, channel_binding=None, s_nonce=None)
returns a ScramServer
object. It takes the following parameters:
auth_fn
This is a function provided by the programmer that has one parameter, a username of
type str
and returns returns the tuple (salt, stored_key, server_key, iteration_count)
. Where salt
, stored_key
and server_key
are of a
binary type, and iteration_count
is an int
.
channel_binding
Providing a value for this parameter allows channel binding to be used (ie. it lets
you use mechanisms ending in -PLUS
). The value for channel_binding
is a
tuple consisting of the channel binding name and the channel binding data. For
example, if the channel binding name is 'tls-unique', the channel_binding
parameter would be ('tls-unique', data)
, where data
is obtained by calling
SSLSocket.get_channel_binding() <https://docs.python.org/3/library/ssl.html#ssl.SSLSocket.get_channel_binding>
_.
The convenience function scramp.make_channel_binding()
can be used to create a
channel binding tuple. If channel_binding
is provided and the mechanism isn't a
-PLUS
variant, then the server will negotiate with the client to use the
-PLUS
variant if the client supports it, or otherwise to use the mechanism
without channel binding.
s_nonce
The server nonce as a str
. It's sometimes useful to set this when testing /
debugging, but in production this should be omitted, in which case ScramServer
will generate a server nonce.
make_stored_server_keys(salted_password)
returns (stored_key, server_key)
tuple of bytes
objects given a salted
password. This is useful if you want to use a separate hashing implementation from
the one provided by Scramp. It takes the following parameter:
salted_password
A binary object representing the hashed password.
iteration_count
The minimum iteration count recommended for this mechanism.
scramp.ScramServer
The ``ScramServer`` object has the following methods:
``set_client_first(message)``
Set the first message from the client.
``get_server_first()``
Get the server first message.
``set_client_final(message)``
Set the final client message.
``get_server_final()``
Get the server final message.
scramp.make_channel_binding()
make_channel_binding(name, ssl_socket)
A helper function that makes a channel_binding
tuple when given a channel binding
name and an SSL socket. The parameters are:
name
A channel binding name such as 'tls-unique' or 'tls-server-end-point'.
ssl_socket
An instance of ssl.SSLSocket <https://docs.python.org/3/library/ssl.html#ssl.SSLSocket>
_.
This file is written in the reStructuredText <https://docutils.sourceforge.io/docs/user/rst/quickref.html>
_ format. To generate an
HTML page from it, do:
source venv/bin/activate
Sphinx
: pip install Sphinx
rst2html.py
: rst2html.py README.rst README.html
source venv/bin/activate
tox
: pip install tox
tox
: tox
Run tox
to make sure all tests pass, then update the release notes, then do::
git tag -a x.y.z -m "version x.y.z" rm -r dist python -m build twine upload --sign dist/*
Version 1.4.4, 2022-11-01
- Tighten up parsing of messages to make sure that a ``ScramException`` is raised if a
message is malformed.
Version 1.4.3, 2022-10-26
Version 1.4.2, 2022-10-22
- Switch to using the MIT-0 licence https://choosealicense.com/licenses/mit-0/
- When creating a ScramClient, allow non ``-PLUS`` variants, even if a
``channel_binding`` parameter is provided. Previously this would raise and
exception.
Version 1.4.1, 2021-08-25
make_channel_binding()
to create a tls-server-end-point channel
binding, support certificates with hash algorithm of sha512.Version 1.4.0, 2021-03-28
- Raise an exception if the client receives an error from the server.
Version 1.3.0, 2021-03-28
server_final
message, an exception is still thrown as before.Version 1.2.2, 2021-02-13
- Fix bug in generating the AuthMessage. It was incorrect when channel binding
was used. So now Scramp supports channel binding.
Version 1.2.1, 2021-02-07
Add support for channel binding.
Add support for SCRAM-SHA-512 and SCRAM-SHA3-512 and their channel binding variants.
Version 1.2.0, 2020-05-30
- This is a backwardly incompatible change on the server side, the client side will
work as before. The idea of this change is to make it possible to have an
authentication database. That is, the authentication information can be stored, and
then retrieved when needed to authenticate the user.
- In addition, it's now possible on the server side to use a third party hashing library
such as passlib as the hashing implementation.
Version 1.1.1, 2020-03-28
Version 1.1.0, 2019-02-24
- Add support for the SCRAM-SHA-1 mechanism.
Version 1.0.0, 2019-02-17
Version 0.0.0, 2019-02-10
- Copied SCRAM implementation from `pg8000 <https://github.com/tlocke/pg8000>`_. The
idea is to make it a general SCRAM implemtation. Credit to the `Scrampy
<https://github.com/cagdass/scrampy>`_ project which I read through to help with this
project. Also credit to the `passlib <https://github.com/efficks/passlib>`_ project
from which I copied the ``saslprep`` function.
FAQs
An implementation of the SCRAM protocol.
We found that scramp demonstrated a healthy version release cadence and project activity because the last version was released less than a year ago. It has 1 open source maintainer collaborating on the project.
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