/usr/lib/python2.7/dist-packages/pskc/encryption.py is in python-pskc 0.5-1.
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# coding: utf-8
#
# Copyright (C) 2014-2016 Arthur de Jong
#
# This library is free software; you can redistribute it and/or
# modify it under the terms of the GNU Lesser General Public
# License as published by the Free Software Foundation; either
# version 2.1 of the License, or (at your option) any later version.
#
# This library is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
# Lesser General Public License for more details.
#
# You should have received a copy of the GNU Lesser General Public
# License along with this library; if not, write to the Free Software
# Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA
# 02110-1301 USA
"""Module that handles encrypted PSKC values.
This module defines an Encryption class that handles the encryption key,
algorithms and decryption.
The encryption key can be derived using the KeyDerivation class.
"""
def algorithm_key_lengths(algorithm):
"""Return the possible key lengths for the configured algorithm."""
from pskc.exceptions import DecryptionError
if algorithm is None:
raise DecryptionError('No algorithm specified')
elif algorithm.endswith('#aes128-cbc') or \
algorithm.endswith('#aes192-cbc') or \
algorithm.endswith('#aes256-cbc'):
return [int(algorithm[-7:-4]) // 8]
elif algorithm.endswith('#tripledes-cbc') or \
algorithm.endswith('#kw-tripledes'):
from Crypto.Cipher import DES3
return list(DES3.key_size)
elif algorithm.endswith('#kw-aes128') or \
algorithm.endswith('#kw-aes192') or \
algorithm.endswith('#kw-aes256'):
return [int(algorithm[-3:]) // 8]
else:
raise DecryptionError('Unsupported algorithm: %r' % algorithm)
def decrypt(algorithm, key, ciphertext, iv=None):
"""Decrypt the ciphertext and return the plaintext value."""
from pskc.exceptions import DecryptionError
if key is None:
raise DecryptionError('No key available')
if algorithm is None:
raise DecryptionError('No algorithm specified')
if len(key) not in algorithm_key_lengths(algorithm):
raise DecryptionError('Invalid key length')
if algorithm.endswith('#aes128-cbc') or \
algorithm.endswith('#aes192-cbc') or \
algorithm.endswith('#aes256-cbc'):
from Crypto.Cipher import AES
from pskc.crypto import unpad
if not iv:
iv = ciphertext[:AES.block_size]
ciphertext = ciphertext[AES.block_size:]
cipher = AES.new(key, AES.MODE_CBC, iv)
return unpad(cipher.decrypt(ciphertext), AES.block_size)
elif algorithm.endswith('#tripledes-cbc'):
from Crypto.Cipher import DES3
from pskc.crypto import unpad
if not iv:
iv = ciphertext[:DES3.block_size]
ciphertext = ciphertext[DES3.block_size:]
cipher = DES3.new(key, DES3.MODE_CBC, iv)
return unpad(cipher.decrypt(ciphertext), DES3.block_size)
elif algorithm.endswith('#kw-aes128') or \
algorithm.endswith('#kw-aes192') or \
algorithm.endswith('#kw-aes256'):
from pskc.crypto.aeskw import unwrap
return unwrap(ciphertext, key)
elif algorithm.endswith('#kw-tripledes'): # pragma: no branch
from pskc.crypto.tripledeskw import unwrap
return unwrap(ciphertext, key)
# no fallthrough because algorithm_key_lengths() fails with unknown algo
def encrypt(algorithm, key, plaintext, iv=None):
"""Encrypt the provided value with the key using the algorithm."""
from pskc.exceptions import EncryptionError
if key is None:
raise EncryptionError('No key available')
if algorithm is None:
raise EncryptionError('No algorithm specified')
if len(key) not in algorithm_key_lengths(algorithm):
raise EncryptionError('Invalid key length')
if algorithm.endswith('#aes128-cbc') or \
algorithm.endswith('#aes192-cbc') or \
algorithm.endswith('#aes256-cbc'):
from Crypto import Random
from Crypto.Cipher import AES
from pskc.crypto import pad
iv = iv or Random.get_random_bytes(AES.block_size)
cipher = AES.new(key, AES.MODE_CBC, iv)
return iv + cipher.encrypt(pad(plaintext, AES.block_size))
elif algorithm.endswith('#tripledes-cbc'):
from Crypto import Random
from Crypto.Cipher import DES3
from pskc.crypto import pad
iv = iv or Random.get_random_bytes(DES3.block_size)
cipher = DES3.new(key, DES3.MODE_CBC, iv)
return iv + cipher.encrypt(pad(plaintext, DES3.block_size))
elif algorithm.endswith('#kw-aes128') or \
algorithm.endswith('#kw-aes192') or \
algorithm.endswith('#kw-aes256'):
from pskc.crypto.aeskw import wrap
return wrap(plaintext, key)
elif algorithm.endswith('#kw-tripledes'): # pragma: no branch
from pskc.crypto.tripledeskw import wrap
return wrap(plaintext, key)
# no fallthrough because algorithm_key_lengths() fails with unknown algo
class KeyDerivation(object):
"""Handle key derivation.
The algorithm property contains the key derivation algorithm to use. For
PBDKF2 the following parameters are set:
pbkdf2_salt: salt value
pbkdf2_iterations: number of iterations to use
pbkdf2_key_length: required key length in bytes
pbkdf2_prf: name of pseudorandom function used
"""
def __init__(self):
self.algorithm = None
# PBKDF2 properties
self.pbkdf2_salt = None
self.pbkdf2_iterations = None
self.pbkdf2_key_length = None
self.pbkdf2_prf = None
def derive_pbkdf2(self, password):
from Crypto.Protocol.KDF import PBKDF2
from pskc.mac import get_hmac
from pskc.exceptions import KeyDerivationError
prf = None
if self.pbkdf2_prf:
prf = get_hmac(self.pbkdf2_prf)
if prf is None:
raise KeyDerivationError(
'Pseudorandom function unsupported: %r' %
self.pbkdf2_prf)
if not all((password, self.pbkdf2_salt, self.pbkdf2_key_length,
self.pbkdf2_iterations)):
raise KeyDerivationError('Incomplete PBKDF2 configuration')
return PBKDF2(
password, self.pbkdf2_salt, dkLen=self.pbkdf2_key_length,
count=self.pbkdf2_iterations, prf=prf)
def derive(self, password):
"""Derive a key from the password."""
from pskc.exceptions import KeyDerivationError
if self.algorithm is None:
raise KeyDerivationError('No algorithm specified')
if self.algorithm.endswith('#pbkdf2'):
return self.derive_pbkdf2(password)
else:
raise KeyDerivationError(
'Unsupported algorithm: %r' % self.algorithm)
def setup_pbkdf2(self, password, salt=None, salt_length=16,
key_length=None, iterations=None, prf=None):
from Crypto import Random
from pskc.algorithms import normalise_algorithm
self.algorithm = normalise_algorithm('pbkdf2')
if salt is None:
salt = Random.get_random_bytes(salt_length)
self.pbkdf2_salt = salt
if iterations:
self.pbkdf2_iterations = iterations
elif self.pbkdf2_iterations is None:
self.pbkdf2_iterations = 12 * 1000
if key_length: # pragma: no branch (always specified)
self.pbkdf2_key_length = key_length
if prf:
self.pbkdf2_prf = normalise_algorithm(prf)
return self.derive_pbkdf2(password)
class Encryption(object):
"""Class for handling encryption keys that are used in the PSKC file.
Encryption generally uses a symmetric key that is used to encrypt some
of the information stored in PSKC files (typically the seed). This
class provides the following values:
id: identifier of the key
algorithm: the encryption algorithm used
key_names: list of names for the key
key_name: (first) name of the key (usually there is only one)
key: the key value itself (binary form)
iv: optional initialization vector for CBC based encryption
fields: a list of Key fields that will be encrypted on writing
The key can either be assigned to the key property or derived using the
derive_key() method.
"""
def __init__(self, pskc):
self.pskc = pskc
self.id = None
self._algorithm = None
self.key_names = []
self.key = None
self.iv = None
self.derivation = KeyDerivation()
self.fields = []
@property
def key_name(self):
"""Provide the name of the (first) key."""
if self.key_names:
return self.key_names[0]
@key_name.setter
def key_name(self, value):
self.key_names = [value]
@property
def algorithm(self):
"""Provide the encryption algorithm used."""
if self._algorithm:
return self._algorithm
@algorithm.setter
def algorithm(self, value):
from pskc.algorithms import normalise_algorithm
self._algorithm = normalise_algorithm(value)
def derive_key(self, password):
"""Derive a key from the password."""
self.key = self.derivation.derive(password)
def _setup_encryption(self, kwargs):
for k in ('id', 'algorithm', 'key_name', 'key_names', 'fields'):
v = kwargs.pop(k, None)
if v is not None:
setattr(self, k, v)
# default encryption to AES128-CBC
if not self.algorithm:
self.algorithm = 'aes128-cbc'
# default to encrypting the secret only
if not self.fields:
self.fields = ['secret', ]
# if we're using a CBC mode of encryption, add a MAC
if self.algorithm.endswith('-cbc'):
self.pskc.mac.setup()
def setup_preshared_key(self, **kwargs):
"""Configure pre-shared key encryption when writing the file.
The following arguments may be supplied:
key: the encryption key to use
id: encryption key identifier
algorithm: encryption algorithm
key_length: encryption key length in bytes
key_name: a name for the key
key_names: a number of names for the key
fields: a list of fields to encrypt
None of the arguments are required, reasonable defaults will be
chosen for missing arguments.
"""
self._setup_encryption(kwargs)
self.key = kwargs.pop('key', self.key)
if not self.key:
from Crypto import Random
self.key = Random.get_random_bytes(kwargs.pop(
'key_length', self.algorithm_key_lengths[-1]))
def setup_pbkdf2(self, password, **kwargs):
"""Configure password-based PSKC encryption when writing the file.
The following arguments may be supplied:
password: the password to use (required)
id: encryption key identifier
algorithm: encryption algorithm
key_length: encryption key length in bytes
key_name: a name for the key
key_names: a number of names for the key
fields: a list of fields to encrypt
salt: PBKDF2 salt
salt_length: used when generating random salt
iterations: number of PBKDF2 iterations
prf: PBKDF2 pseudorandom function
Only password is required, for the other arguments reasonable
defaults will be chosen.
"""
self._setup_encryption(kwargs)
# pass a key length to PBKDF2
kwargs.setdefault('key_length', self.algorithm_key_lengths[-1])
self.key = self.derivation.setup_pbkdf2(password, **kwargs)
@property
def algorithm_key_lengths(self):
"""Provide the possible key lengths for the configured algorithm."""
return algorithm_key_lengths(self.algorithm)
def decrypt_value(self, cipher_value, algorithm=None):
"""Decrypt the cipher_value and return the plaintext value."""
return decrypt(
algorithm or self.algorithm, self.key, cipher_value, self.iv)
def encrypt_value(self, plaintext):
"""Encrypt the provided value and return the cipher_value."""
return encrypt(self.algorithm, self.key, plaintext, self.iv)
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