src/cryptography/hazmat/primitives/kdf/kbkdf.py - platform/external/python/cryptography - Git at Google

 # This file is dual licensed under the terms of the Apache License, Version
 # 2.0, and the BSD License. See the LICENSE file in the root of this repository
 # for complete details.

 from __future__ import absolute_import, division, print_function

 from enum import Enum

 from six.moves import range

 from cryptography import utils
 from cryptography.exceptions import (
     AlreadyFinalized,
     InvalidKey,
     UnsupportedAlgorithm,
     _Reasons,
 )
 from cryptography.hazmat.backends import _get_backend
 from cryptography.hazmat.backends.interfaces import HMACBackend
 from cryptography.hazmat.primitives import constant_time, hashes, hmac
 from cryptography.hazmat.primitives.kdf import KeyDerivationFunction


 class Mode(Enum):
     CounterMode = "ctr"


 class CounterLocation(Enum):
     BeforeFixed = "before_fixed"
     AfterFixed = "after_fixed"


 @utils.register_interface(KeyDerivationFunction)
 class KBKDFHMAC(object):
     def __init__(
         self,
         algorithm,
         mode,
         length,
         rlen,
         llen,
         location,
         label,
         context,
         fixed,
         backend=None,
     ):
         backend = _get_backend(backend)
         if not isinstance(backend, HMACBackend):
             raise UnsupportedAlgorithm(
                 "Backend object does not implement HMACBackend.",
                 _Reasons.BACKEND_MISSING_INTERFACE,
             )

         if not isinstance(algorithm, hashes.HashAlgorithm):
             raise UnsupportedAlgorithm(
                 "Algorithm supplied is not a supported hash algorithm.",
                 _Reasons.UNSUPPORTED_HASH,
             )

         if not backend.hmac_supported(algorithm):
             raise UnsupportedAlgorithm(
                 "Algorithm supplied is not a supported hmac algorithm.",
                 _Reasons.UNSUPPORTED_HASH,
             )

         if not isinstance(mode, Mode):
             raise TypeError("mode must be of type Mode")

         if not isinstance(location, CounterLocation):
             raise TypeError("location must be of type CounterLocation")

         if (label or context) and fixed:
             raise ValueError(
                 "When supplying fixed data, " "label and context are ignored."
             )

         if rlen is None or not self._valid_byte_length(rlen):
             raise ValueError("rlen must be between 1 and 4")

         if llen is None and fixed is None:
             raise ValueError("Please specify an llen")

         if llen is not None and not isinstance(llen, int):
             raise TypeError("llen must be an integer")

         if label is None:
             label = b""

         if context is None:
             context = b""

         utils._check_bytes("label", label)
         utils._check_bytes("context", context)
         self._algorithm = algorithm
         self._mode = mode
         self._length = length
         self._rlen = rlen
         self._llen = llen
         self._location = location
         self._label = label
         self._context = context
         self._backend = backend
         self._used = False
         self._fixed_data = fixed

     def _valid_byte_length(self, value):
         if not isinstance(value, int):
             raise TypeError("value must be of type int")

         value_bin = utils.int_to_bytes(1, value)
         if not 1 <= len(value_bin) <= 4:
             return False
         return True

     def derive(self, key_material):
         if self._used:
             raise AlreadyFinalized

         utils._check_byteslike("key_material", key_material)
         self._used = True

         # inverse floor division (equivalent to ceiling)
         rounds = -(-self._length // self._algorithm.digest_size)

         output = [b""]

         # For counter mode, the number of iterations shall not be
         # larger than 2^r-1, where r <= 32 is the binary length of the counter
         # This ensures that the counter values used as an input to the
         # PRF will not repeat during a particular call to the KDF function.
         r_bin = utils.int_to_bytes(1, self._rlen)
         if rounds > pow(2, len(r_bin) * 8) - 1:
             raise ValueError("There are too many iterations.")

         for i in range(1, rounds + 1):
             h = hmac.HMAC(key_material, self._algorithm, backend=self._backend)

             counter = utils.int_to_bytes(i, self._rlen)
             if self._location == CounterLocation.BeforeFixed:
                 h.update(counter)

             h.update(self._generate_fixed_input())

             if self._location == CounterLocation.AfterFixed:
                 h.update(counter)

             output.append(h.finalize())

         return b"".join(output)[: self._length]

     def _generate_fixed_input(self):
         if self._fixed_data and isinstance(self._fixed_data, bytes):
             return self._fixed_data

         l_val = utils.int_to_bytes(self._length * 8, self._llen)

         return b"".join([self._label, b"\x00", self._context, l_val])

     def verify(self, key_material, expected_key):
         if not constant_time.bytes_eq(self.derive(key_material), expected_key):
             raise InvalidKey
	# This file is dual licensed under the terms of the Apache License, Version
	# 2.0, and the BSD License. See the LICENSE file in the root of this repository
	# for complete details.

	from __future__ import absolute_import, division, print_function

	from enum import Enum

	from six.moves import range

	from cryptography import utils
	from cryptography.exceptions import (
	AlreadyFinalized,
	InvalidKey,
	UnsupportedAlgorithm,
	_Reasons,
	)
	from cryptography.hazmat.backends import _get_backend
	from cryptography.hazmat.backends.interfaces import HMACBackend
	from cryptography.hazmat.primitives import constant_time, hashes, hmac
	from cryptography.hazmat.primitives.kdf import KeyDerivationFunction


	class Mode(Enum):
	CounterMode = "ctr"


	class CounterLocation(Enum):
	BeforeFixed = "before_fixed"
	AfterFixed = "after_fixed"


	@utils.register_interface(KeyDerivationFunction)
	class KBKDFHMAC(object):
	def __init__(
	self,
	algorithm,
	mode,
	length,
	rlen,
	llen,
	location,
	label,
	context,
	fixed,
	backend=None,
	):
	backend = _get_backend(backend)
	if not isinstance(backend, HMACBackend):
	raise UnsupportedAlgorithm(
	"Backend object does not implement HMACBackend.",
	_Reasons.BACKEND_MISSING_INTERFACE,
	)

	if not isinstance(algorithm, hashes.HashAlgorithm):
	raise UnsupportedAlgorithm(
	"Algorithm supplied is not a supported hash algorithm.",
	_Reasons.UNSUPPORTED_HASH,
	)

	if not backend.hmac_supported(algorithm):
	raise UnsupportedAlgorithm(
	"Algorithm supplied is not a supported hmac algorithm.",
	_Reasons.UNSUPPORTED_HASH,
	)

	if not isinstance(mode, Mode):
	raise TypeError("mode must be of type Mode")

	if not isinstance(location, CounterLocation):
	raise TypeError("location must be of type CounterLocation")

	if (label or context) and fixed:
	raise ValueError(
	"When supplying fixed data, " "label and context are ignored."
	)

	if rlen is None or not self._valid_byte_length(rlen):
	raise ValueError("rlen must be between 1 and 4")

	if llen is None and fixed is None:
	raise ValueError("Please specify an llen")

	if llen is not None and not isinstance(llen, int):
	raise TypeError("llen must be an integer")

	if label is None:
	label = b""

	if context is None:
	context = b""

	utils._check_bytes("label", label)
	utils._check_bytes("context", context)
	self._algorithm = algorithm
	self._mode = mode
	self._length = length
	self._rlen = rlen
	self._llen = llen
	self._location = location
	self._label = label
	self._context = context
	self._backend = backend
	self._used = False
	self._fixed_data = fixed

	def _valid_byte_length(self, value):
	if not isinstance(value, int):
	raise TypeError("value must be of type int")

	value_bin = utils.int_to_bytes(1, value)
	if not 1 <= len(value_bin) <= 4:
	return False
	return True

	def derive(self, key_material):
	if self._used:
	raise AlreadyFinalized

	utils._check_byteslike("key_material", key_material)
	self._used = True

	# inverse floor division (equivalent to ceiling)
	rounds = -(-self._length // self._algorithm.digest_size)

	output = [b""]

	# For counter mode, the number of iterations shall not be
	# larger than 2^r-1, where r <= 32 is the binary length of the counter
	# This ensures that the counter values used as an input to the
	# PRF will not repeat during a particular call to the KDF function.
	r_bin = utils.int_to_bytes(1, self._rlen)
	if rounds > pow(2, len(r_bin) * 8) - 1:
	raise ValueError("There are too many iterations.")

	for i in range(1, rounds + 1):
	h = hmac.HMAC(key_material, self._algorithm, backend=self._backend)

	counter = utils.int_to_bytes(i, self._rlen)
	if self._location == CounterLocation.BeforeFixed:
	h.update(counter)

	h.update(self._generate_fixed_input())

	if self._location == CounterLocation.AfterFixed:
	h.update(counter)

	output.append(h.finalize())

	return b"".join(output)[: self._length]

	def _generate_fixed_input(self):
	if self._fixed_data and isinstance(self._fixed_data, bytes):
	return self._fixed_data

	l_val = utils.int_to_bytes(self._length * 8, self._llen)

	return b"".join([self._label, b"\x00", self._context, l_val])

	def verify(self, key_material, expected_key):
	if not constant_time.bytes_eq(self.derive(key_material), expected_key):
	raise InvalidKey