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PKCS#11 (Cryptoki) support for Python

Project description

A high level, “more Pythonic” interface to the PKCS#11 (Cryptoki) standard to support HSM and Smartcard devices in Python.

The interface is designed to follow the logical structure of a HSM, with useful defaults for obscurely documented parameters. Many APIs will optionally accept iterables and act as generators, allowing you to stream large data blocks in a straightforward way.

Source: https://github.com/danni/python-pkcs11

Documentation: http://python-pkcs11.readthedocs.io/en/latest/

Getting Started

Install from Pip:

pip install python-pkcs11

Or build from source:

python setup.py build

Assuming your PKCS#11 library is set as PKCS_MODULE and contains a token named DEMO:

AES

import pkcs11

# Initialise our PKCS#11 library
lib = pkcs11.lib(os.environ['PKCS11_MODULE'])
token = lib.get_token(token_label='DEMO')

data = b'INPUT DATA'

# Open a session on our token
with token.open(user_pin='1234') as session:
    # Generate an AES key in this session
    key = session.generate_key(pkcs11.KeyType.AES, 256, store=False)

    # Get an initialisation vector
    iv = session.generate_random(128)  # AES blocks are fixed at 128 bits
    # Encrypt our data
    crypttext = key.encrypt(data, mechanism_param=iv)

RSA

import pkcs11

lib = pkcs11.lib(os.environ['PKCS11_MODULE'])
token = lib.get_token(token_label='DEMO')

data = b'INPUT DATA'

# Open a session on our token
with token.open(user_pin='1234') as session:
    # Generate an RSA keypair in this session
    pub, priv = session.generate_keypair(pkcs11.KeyType.RSA, 2048, store=False)

    # Encrypt as one block
    crypttext = pub.encrypt(data)

Diffie-Hellman

import pkcs11

lib = pkcs11.lib(os.environ['PKCS11_MODULE'])
token = lib.get_token(token_label='DEMO')

with token.open() as session:
    # Given shared Diffie-Hellman parameters
    parameters = session.create_domain_parameters(KeyType.DH, {
        Attribute.PRIME: prime,  # Diffie-Hellman parameters
        Attribute.BASE: base,
    })

    # Generate a DH key pair from the public parameters
    public, private = parameters.generate_keypair()

    # Share the public half of it with our other party.
    _network_.write(public[Attribute.VALUE])
    # And get their shared value
    other_value = _network_.read()

    # Derive a shared session key with perfect forward secrecy
    session_key = private.derive_key(
        KeyType.AES, 128,
        mechanism_param=other_value)

Elliptic-Curve Diffie-Hellman

import pkcs11

lib = pkcs11.lib(os.environ['PKCS11_MODULE'])
token = lib.get_token(token_label='DEMO')

with token.open() as session:
    # Given DER encocded EC parameters, e.g. from
    #    openssl ecparam -outform der -name <named curve>
    parameters = session.create_domain_parameters(KeyType.EC, {
        Attribute.EC_PARAMS: ecparams,
    })

    # Generate a DH key pair from the public parameters
    public, private = parameters.generate_keypair()

    # Share the public half of it with our other party.
    _network_.write(public[Attribute.EC_POINT])
    # And get their shared value
    other_value = _network_.read()

    # Derive a shared session key
    session_key = private.derive_key(
        KeyType.AES, 128,
        mechanism_param=(KDF.NULL, None, other_value))

Tested Compatibility

Functionality

SoftHSMv2

Thales nCipher

Get Slots/Tokens

Works

Works

Get Mechanisms

Works

Works

Initialize token

Not implemented

Slot events

Not implemented

Alternative authentication path

Not implemented

Always authenticate keys

Not implemented

Create/Copy

Keys

Works

Works

Certificates

Caveats [1]

Caveats [1]

Domain Params

Caveats [1]

Caveats [1]

Destroy Object

Works

N/A

Generate Random

Works

Works

Seed Random

Works

N/A

Digest (Data & Keys)

Works

Caveats [2]

AES

Generate key

Works

Works

Encrypt/Decrypt

Works

Works

Wrap/Unwrap

? [3]

Works

Sign/Verify

Works

Works [4]

RSA

Generate key pair

Works

Works

Encrypt/Decrypt

Works

Works

Wrap/Unwrap

Works

Works

Sign/Verify

Works

Works

DH

Generate parameters

Works

N/A

Generate key pair

Works

Caveats [5]

Derive Key

Works

Caveats [6]

EC

Generate key pair

Caveats [5]

? [3]

Sign/Verify (ECDSA)

Works [4]

? [3]

Derive key (ECDH)

Works

? [3]

Proprietary extensions

N/A

Not implemented

Python version:

  • 3.4 (with aenum)

  • 3.5 (with aenum)

  • 3.6

PKCS#11 version:

  • 2.4

Feel free to send pull requests for any functionality that’s not exposed. The code is designed to be readable and expose the PKCS#11 spec in a straight-forward way.

If you want your device supported, get in touch!

More info on PKCS#11

The latest version of the PKCS#11 spec is available from OASIS:

http://docs.oasis-open.org/pkcs11/pkcs11-base/v2.40/pkcs11-base-v2.40.html

You should also consult the documentation for your PKCS#11 implementation. Many implementations expose additional vendor options configurable in your environment, including alternative features, modes and debugging information.

License

MIT License

Copyright (c) 2017 Danielle Madeley

Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the “Software”), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions:

The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software.

THE SOFTWARE IS PROVIDED “AS IS”, WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.

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