관리-도구
편집 파일: algorithms.py
# 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 annotations from cryptography import utils from cryptography.hazmat.primitives.ciphers import ( BlockCipherAlgorithm, CipherAlgorithm, ) def _verify_key_size(algorithm: CipherAlgorithm, key: bytes) -> bytes: # Verify that the key is instance of bytes utils._check_byteslike("key", key) # Verify that the key size matches the expected key size if len(key) * 8 not in algorithm.key_sizes: raise ValueError( "Invalid key size ({}) for {}.".format( len(key) * 8, algorithm.name ) ) return key class AES(BlockCipherAlgorithm): name = "AES" block_size = 128 # 512 added to support AES-256-XTS, which uses 512-bit keys key_sizes = frozenset([128, 192, 256, 512]) def __init__(self, key: bytes): self.key = _verify_key_size(self, key) @property def key_size(self) -> int: return len(self.key) * 8 class AES128(BlockCipherAlgorithm): name = "AES" block_size = 128 key_sizes = frozenset([128]) key_size = 128 def __init__(self, key: bytes): self.key = _verify_key_size(self, key) class AES256(BlockCipherAlgorithm): name = "AES" block_size = 128 key_sizes = frozenset([256]) key_size = 256 def __init__(self, key: bytes): self.key = _verify_key_size(self, key) class Camellia(BlockCipherAlgorithm): name = "camellia" block_size = 128 key_sizes = frozenset([128, 192, 256]) def __init__(self, key: bytes): self.key = _verify_key_size(self, key) @property def key_size(self) -> int: return len(self.key) * 8 class TripleDES(BlockCipherAlgorithm): name = "3DES" block_size = 64 key_sizes = frozenset([64, 128, 192]) def __init__(self, key: bytes): if len(key) == 8: key += key + key elif len(key) == 16: key += key[:8] self.key = _verify_key_size(self, key) @property def key_size(self) -> int: return len(self.key) * 8 class Blowfish(BlockCipherAlgorithm): name = "Blowfish" block_size = 64 key_sizes = frozenset(range(32, 449, 8)) def __init__(self, key: bytes): self.key = _verify_key_size(self, key) @property def key_size(self) -> int: return len(self.key) * 8 _BlowfishInternal = Blowfish utils.deprecated( Blowfish, __name__, "Blowfish has been deprecated", utils.DeprecatedIn37, name="Blowfish", ) class CAST5(BlockCipherAlgorithm): name = "CAST5" block_size = 64 key_sizes = frozenset(range(40, 129, 8)) def __init__(self, key: bytes): self.key = _verify_key_size(self, key) @property def key_size(self) -> int: return len(self.key) * 8 _CAST5Internal = CAST5 utils.deprecated( CAST5, __name__, "CAST5 has been deprecated", utils.DeprecatedIn37, name="CAST5", ) class ARC4(CipherAlgorithm): name = "RC4" key_sizes = frozenset([40, 56, 64, 80, 128, 160, 192, 256]) def __init__(self, key: bytes): self.key = _verify_key_size(self, key) @property def key_size(self) -> int: return len(self.key) * 8 class IDEA(BlockCipherAlgorithm): name = "IDEA" block_size = 64 key_sizes = frozenset([128]) def __init__(self, key: bytes): self.key = _verify_key_size(self, key) @property def key_size(self) -> int: return len(self.key) * 8 _IDEAInternal = IDEA utils.deprecated( IDEA, __name__, "IDEA has been deprecated", utils.DeprecatedIn37, name="IDEA", ) class SEED(BlockCipherAlgorithm): name = "SEED" block_size = 128 key_sizes = frozenset([128]) def __init__(self, key: bytes): self.key = _verify_key_size(self, key) @property def key_size(self) -> int: return len(self.key) * 8 _SEEDInternal = SEED utils.deprecated( SEED, __name__, "SEED has been deprecated", utils.DeprecatedIn37, name="SEED", ) class ChaCha20(CipherAlgorithm): name = "ChaCha20" key_sizes = frozenset([256]) def __init__(self, key: bytes, nonce: bytes): self.key = _verify_key_size(self, key) utils._check_byteslike("nonce", nonce) if len(nonce) != 16: raise ValueError("nonce must be 128-bits (16 bytes)") self._nonce = nonce @property def nonce(self) -> bytes: return self._nonce @property def key_size(self) -> int: return len(self.key) * 8 class SM4(BlockCipherAlgorithm): name = "SM4" block_size = 128 key_sizes = frozenset([128]) def __init__(self, key: bytes): self.key = _verify_key_size(self, key) @property def key_size(self) -> int: return len(self.key) * 8