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/ Protocol / KDF.py
#
# KDF.py : a collection of Key Derivation Functions
#
# Part of the Python Cryptography Toolkit
#
# ===================================================================
# The contents of this file are dedicated to the public domain. To
# the extent that dedication to the public domain is not available,
# everyone is granted a worldwide, perpetual, royalty-free,
# non-exclusive license to exercise all rights associated with the
# contents of this file for any purpose whatsoever.
# No rights are reserved.
#
# 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.
# ===================================================================
import struct
from functools import reduce
from Crypto.Util.py3compat import tobytes, bord, _copy_bytes, iter_range
from Crypto.Hash import SHA1, SHA256, HMAC, CMAC
from Crypto.Util.strxor import strxor
from Crypto.Util.number import size as bit_size, long_to_bytes, bytes_to_long
from Crypto.Util._raw_api import (load_pycryptodome_raw_lib,
create_string_buffer,
get_raw_buffer, c_size_t)
_raw_salsa20_lib = load_pycryptodome_raw_lib("Crypto.Cipher._Salsa20",
"""
int Salsa20_8_core(const uint8_t *x, const uint8_t *y,
uint8_t *out);
""")
_raw_scrypt_lib = load_pycryptodome_raw_lib("Crypto.Protocol._scrypt",
"""
typedef int (core_t)(const uint8_t [64], const uint8_t [64], uint8_t [64]);
int scryptROMix(const uint8_t *data_in, uint8_t *data_out,
size_t data_len, unsigned N, core_t *core);
""")
def PBKDF1(password, salt, dkLen, count=1000, hashAlgo=None):
"""Derive one key from a password (or passphrase).
This function performs key derivation according to an old version of
the PKCS#5 standard (v1.5) or `RFC2898
<https://www.ietf.org/rfc/rfc2898.txt>`_.
.. warning::
Newer applications should use the more secure and versatile :func:`PBKDF2`
instead.
Args:
password (string):
The secret password to generate the key from.
salt (byte string):
An 8 byte string to use for better protection from dictionary attacks.
This value does not need to be kept secret, but it should be randomly
chosen for each derivation.
dkLen (integer):
The length of the desired key. The default is 16 bytes, suitable for
instance for :mod:`Crypto.Cipher.AES`.
count (integer):
The number of iterations to carry out. The recommendation is 1000 or
more.
hashAlgo (module):
The hash algorithm to use, as a module or an object from the :mod:`Crypto.Hash` package.
The digest length must be no shorter than ``dkLen``.
The default algorithm is :mod:`Crypto.Hash.SHA1`.
Return:
A byte string of length ``dkLen`` that can be used as key.
"""
if not hashAlgo:
hashAlgo = SHA1
password = tobytes(password)
pHash = hashAlgo.new(password+salt)
digest = pHash.digest_size
if dkLen > digest:
raise TypeError("Selected hash algorithm has a too short digest (%d bytes)." % digest)
if len(salt) != 8:
raise ValueError("Salt is not 8 bytes long (%d bytes instead)." % len(salt))
for i in iter_range(count-1):
pHash = pHash.new(pHash.digest())
return pHash.digest()[:dkLen]
def PBKDF2(password, salt, dkLen=16, count=1000, prf=None, hmac_hash_module=None):
"""Derive one or more keys from a password (or passphrase).
This function performs key derivation according to
the PKCS#5 standard (v2.0).
Args:
password (string or byte string):
The secret password to generate the key from.
salt (string or byte string):
A (byte) string to use for better protection from dictionary attacks.
This value does not need to be kept secret, but it should be randomly
chosen for each derivation. It is recommended to be at least 8 bytes long.
dkLen (integer):
The cumulative length of the desired keys.
count (integer):
The number of iterations to carry out.
prf (callable):
A pseudorandom function. It must be a function that returns a pseudorandom string
from two parameters: a secret and a salt. If not specified,
**HMAC-SHA1** is used.
hmac_hash_module (module):
A module from `Crypto.Hash` implementing a Merkle-Damgard cryptographic
hash, which PBKDF2 must use in combination with HMAC.
This parameter is mutually exclusive with ``prf``.
Return:
A byte string of length ``dkLen`` that can be used as key material.
If you wanted multiple keys, just break up this string into segments of the desired length.
"""
password = tobytes(password)
salt = tobytes(salt)
if prf and hmac_hash_module:
raise ValueError("'prf' and 'hmac_hash_module' are mutually exlusive")
if prf is None and hmac_hash_module is None:
hmac_hash_module = SHA1
if prf or not hasattr(hmac_hash_module, "_pbkdf2_hmac_assist"):
# Generic (and slow) implementation
if prf is None:
prf = lambda p,s: HMAC.new(p, s, hmac_hash_module).digest()
def link(s):
s[0], s[1] = s[1], prf(password, s[1])
return s[0]
key = b''
i = 1
while len(key) < dkLen:
s = [ prf(password, salt + struct.pack(">I", i)) ] * 2
key += reduce(strxor, (link(s) for j in range(count)) )
i += 1
else:
# Optimized implementation
key = b''
i = 1
while len(key)<dkLen:
base = HMAC.new(password, b"", hmac_hash_module)
first_digest = base.copy().update(salt + struct.pack(">I", i)).digest()
key += base._pbkdf2_hmac_assist(first_digest, count)
i += 1
return key[:dkLen]
class _S2V(object):
"""String-to-vector PRF as defined in `RFC5297`_.
This class implements a pseudorandom function family
based on CMAC that takes as input a vector of strings.
.. _RFC5297: http://tools.ietf.org/html/rfc5297
"""
def __init__(self, key, ciphermod, cipher_params=None):
"""Initialize the S2V PRF.
:Parameters:
key : byte string
A secret that can be used as key for CMACs
based on ciphers from ``ciphermod``.
ciphermod : module
A block cipher module from `Crypto.Cipher`.
cipher_params : dictionary
A set of extra parameters to use to create a cipher instance.
"""
self._key = _copy_bytes(None, None, key)
self._ciphermod = ciphermod
self._last_string = self._cache = b'\x00' * ciphermod.block_size
# Max number of update() call we can process
self._n_updates = ciphermod.block_size * 8 - 1
if cipher_params is None:
self._cipher_params = {}
else:
self._cipher_params = dict(cipher_params)
@staticmethod
def new(key, ciphermod):
"""Create a new S2V PRF.
:Parameters:
key : byte string
A secret that can be used as key for CMACs
based on ciphers from ``ciphermod``.
ciphermod : module
A block cipher module from `Crypto.Cipher`.
"""
return _S2V(key, ciphermod)
def _double(self, bs):
doubled = bytes_to_long(bs)<<1
if bord(bs[0]) & 0x80:
doubled ^= 0x87
return long_to_bytes(doubled, len(bs))[-len(bs):]
def update(self, item):
"""Pass the next component of the vector.
The maximum number of components you can pass is equal to the block
length of the cipher (in bits) minus 1.
:Parameters:
item : byte string
The next component of the vector.
:Raise TypeError: when the limit on the number of components has been reached.
"""
if self._n_updates == 0:
raise TypeError("Too many components passed to S2V")
self._n_updates -= 1
mac = CMAC.new(self._key,
msg=self._last_string,
ciphermod=self._ciphermod,
cipher_params=self._cipher_params)
self._cache = strxor(self._double(self._cache), mac.digest())
self._last_string = _copy_bytes(None, None, item)
def derive(self):
""""Derive a secret from the vector of components.
:Return: a byte string, as long as the block length of the cipher.
"""
if len(self._last_string) >= 16:
# xorend
final = self._last_string[:-16] + strxor(self._last_string[-16:], self._cache)
else:
# zero-pad & xor
padded = (self._last_string + b'\x80' + b'\x00' * 15)[:16]
final = strxor(padded, self._double(self._cache))
mac = CMAC.new(self._key,
msg=final,
ciphermod=self._ciphermod,
cipher_params=self._cipher_params)
return mac.digest()
def HKDF(master, key_len, salt, hashmod, num_keys=1, context=None):
"""Derive one or more keys from a master secret using
the HMAC-based KDF defined in RFC5869_.
This KDF is not suitable for deriving keys from a password or for key
stretching. Use :func:`PBKDF2` instead.
HKDF is a key derivation method approved by NIST in `SP 800 56C`__.
Args:
master (byte string):
The unguessable value used by the KDF to generate the other keys.
It must be a high-entropy secret, though not necessarily uniform.
It must not be a password.
salt (byte string):
A non-secret, reusable value that strengthens the randomness
extraction step.
Ideally, it is as long as the digest size of the chosen hash.
If empty, a string of zeroes in used.
key_len (integer):
The length in bytes of every derived key.
hashmod (module):
A cryptographic hash algorithm from :mod:`Crypto.Hash`.
:mod:`Crypto.Hash.SHA512` is a good choice.
num_keys (integer):
The number of keys to derive. Every key is :data:`key_len` bytes long.
The maximum cumulative length of all keys is
255 times the digest size.
context (byte string):
Optional identifier describing what the keys are used for.
Return:
A byte string or a tuple of byte strings.
.. _RFC5869: http://tools.ietf.org/html/rfc5869
.. __: http://csrc.nist.gov/publications/nistpubs/800-56C/SP-800-56C.pdf
"""
output_len = key_len * num_keys
if output_len > (255 * hashmod.digest_size):
raise ValueError("Too much secret data to derive")
if not salt:
salt = b'\x00' * hashmod.digest_size
if context is None:
context = b""
# Step 1: extract
hmac = HMAC.new(salt, master, digestmod=hashmod)
prk = hmac.digest()
# Step 2: expand
t = [ b"" ]
n = 1
tlen = 0
while tlen < output_len:
hmac = HMAC.new(prk, t[-1] + context + struct.pack('B', n), digestmod=hashmod)
t.append(hmac.digest())
tlen += hashmod.digest_size
n += 1
derived_output = b"".join(t)
if num_keys == 1:
return derived_output[:key_len]
kol = [derived_output[idx:idx + key_len]
for idx in iter_range(0, output_len, key_len)]
return list(kol[:num_keys])
def scrypt(password, salt, key_len, N, r, p, num_keys=1):
"""Derive one or more keys from a passphrase.
This function performs key derivation according to
the `scrypt`_ algorithm, introduced in Percival's paper
`"Stronger key derivation via sequential memory-hard functions"`__.
This implementation is based on `RFC7914`__.
Args:
password (string):
The secret pass phrase to generate the keys from.
salt (string):
A string to use for better protection from dictionary attacks.
This value does not need to be kept secret,