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# 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 import abc import six from cryptography import utils @six.add_metaclass(abc.ABCMeta) class Mode(object): @abc.abstractproperty def name(self): """ A string naming this mode (e.g. "ECB", "CBC"). """ @abc.abstractmethod def validate_for_algorithm(self, algorithm): """ Checks that all the necessary invariants of this (mode, algorithm) combination are met. """ @six.add_metaclass(abc.ABCMeta) class ModeWithInitializationVector(object): @abc.abstractproperty def initialization_vector(self): """ The value of the initialization vector for this mode as bytes. """ @six.add_metaclass(abc.ABCMeta) class ModeWithTweak(object): @abc.abstractproperty def tweak(self): """ The value of the tweak for this mode as bytes. """ @six.add_metaclass(abc.ABCMeta) class ModeWithNonce(object): @abc.abstractproperty def nonce(self): """ The value of the nonce for this mode as bytes. """ @six.add_metaclass(abc.ABCMeta) class ModeWithAuthenticationTag(object): @abc.abstractproperty def tag(self): """ The value of the tag supplied to the constructor of this mode. """ def _check_aes_key_length(self, algorithm): if algorithm.key_size > 256 and algorithm.name == "AES": raise ValueError( "Only 128, 192, and 256 bit keys are allowed for this AES mode" ) def _check_iv_length(self, algorithm): if len(self.initialization_vector) * 8 != algorithm.block_size: raise ValueError( "Invalid IV size ({}) for {}.".format( len(self.initialization_vector), self.name ) ) def _check_iv_and_key_length(self, algorithm): _check_aes_key_length(self, algorithm) _check_iv_length(self, algorithm) @utils.register_interface(Mode) @utils.register_interface(ModeWithInitializationVector) class CBC(object): name = "CBC" def __init__(self, initialization_vector): utils._check_byteslike("initialization_vector", initialization_vector) self._initialization_vector = initialization_vector initialization_vector = utils.read_only_property("_initialization_vector") validate_for_algorithm = _check_iv_and_key_length @utils.register_interface(Mode) @utils.register_interface(ModeWithTweak) class XTS(object): name = "XTS" def __init__(self, tweak): utils._check_byteslike("tweak", tweak) if len(tweak) != 16: raise ValueError("tweak must be 128-bits (16 bytes)") self._tweak = tweak tweak = utils.read_only_property("_tweak") def validate_for_algorithm(self, algorithm): if algorithm.key_size not in (256, 512): raise ValueError( "The XTS specification requires a 256-bit key for AES-128-XTS" " and 512-bit key for AES-256-XTS" ) @utils.register_interface(Mode) class ECB(object): name = "ECB" validate_for_algorithm = _check_aes_key_length @utils.register_interface(Mode) @utils.register_interface(ModeWithInitializationVector) class OFB(object): name = "OFB" def __init__(self, initialization_vector): utils._check_byteslike("initialization_vector", initialization_vector) self._initialization_vector = initialization_vector initialization_vector = utils.read_only_property("_initialization_vector") validate_for_algorithm = _check_iv_and_key_length @utils.register_interface(Mode) @utils.register_interface(ModeWithInitializationVector) class CFB(object): name = "CFB" def __init__(self, initialization_vector): utils._check_byteslike("initialization_vector", initialization_vector) self._initialization_vector = initialization_vector initialization_vector = utils.read_only_property("_initialization_vector") validate_for_algorithm = _check_iv_and_key_length @utils.register_interface(Mode) @utils.register_interface(ModeWithInitializationVector) class CFB8(object): name = "CFB8" def __init__(self, initialization_vector): utils._check_byteslike("initialization_vector", initialization_vector) self._initialization_vector = initialization_vector initialization_vector = utils.read_only_property("_initialization_vector") validate_for_algorithm = _check_iv_and_key_length @utils.register_interface(Mode) @utils.register_interface(ModeWithNonce) class CTR(object): name = "CTR" def __init__(self, nonce): utils._check_byteslike("nonce", nonce) self._nonce = nonce nonce = utils.read_only_property("_nonce") def validate_for_algorithm(self, algorithm): _check_aes_key_length(self, algorithm) if len(self.nonce) * 8 != algorithm.block_size: raise ValueError( "Invalid nonce size ({}) for {}.".format( len(self.nonce), self.name ) ) @utils.register_interface(Mode) @utils.register_interface(ModeWithInitializationVector) @utils.register_interface(ModeWithAuthenticationTag) class GCM(object): name = "GCM" _MAX_ENCRYPTED_BYTES = (2 ** 39 - 256) // 8 _MAX_AAD_BYTES = (2 ** 64) // 8 def __init__(self, initialization_vector, tag=None, min_tag_length=16): # len(initialization_vector) must in [1, 2 ** 64), but it's impossible # to actually construct a bytes object that large, so we don't check # for it utils._check_byteslike("initialization_vector", initialization_vector) if len(initialization_vector) == 0: raise ValueError("initialization_vector must be at least 1 byte") self._initialization_vector = initialization_vector if tag is not None: utils._check_bytes("tag", tag) if min_tag_length < 4: raise ValueError("min_tag_length must be >= 4") if len(tag) < min_tag_length: raise ValueError( "Authentication tag must be {} bytes or longer.".format( min_tag_length ) ) self._tag = tag self._min_tag_length = min_tag_length tag = utils.read_only_property("_tag") initialization_vector = utils.read_only_property("_initialization_vector") def validate_for_algorithm(self, algorithm): _check_aes_key_length(self, algorithm)