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# # PublicKey/_PBES.py : Password-Based Encryption functions # # =================================================================== # # Copyright (c) 2014, Legrandin <helderijs@gmail.com> # All rights reserved. # # Redistribution and use in source and binary forms, with or without # modification, are permitted provided that the following conditions # are met: # # 1. Redistributions of source code must retain the above copyright # notice, this list of conditions and the following disclaimer. # 2. Redistributions in binary form must reproduce the above copyright # notice, this list of conditions and the following disclaimer in # the documentation and/or other materials provided with the # distribution. # # THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS # "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT # LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS # FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE # COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, # INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, # BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; # LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER # CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT # LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN # ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE # POSSIBILITY OF SUCH DAMAGE. # =================================================================== from Crypto import Random from Crypto.Util.asn1 import ( DerSequence, DerOctetString, DerObjectId, DerInteger, ) from Crypto.Util.Padding import pad, unpad from Crypto.Hash import MD5, SHA1, SHA224, SHA256, SHA384, SHA512 from Crypto.Cipher import DES, ARC2, DES3, AES from Crypto.Protocol.KDF import PBKDF1, PBKDF2, scrypt _OID_PBE_WITH_MD5_AND_DES_CBC = "1.2.840.113549.1.5.3" _OID_PBE_WITH_MD5_AND_RC2_CBC = "1.2.840.113549.1.5.6" _OID_PBE_WITH_SHA1_AND_DES_CBC = "1.2.840.113549.1.5.10" _OID_PBE_WITH_SHA1_AND_RC2_CBC = "1.2.840.113549.1.5.11" _OID_PBES2 = "1.2.840.113549.1.5.13" _OID_PBKDF2 = "1.2.840.113549.1.5.12" _OID_SCRYPT = "1.3.6.1.4.1.11591.4.11" _OID_HMAC_SHA1 = "1.2.840.113549.2.7" _OID_HMAC_SHA224 = "1.2.840.113549.2.8" _OID_HMAC_SHA256 = "1.2.840.113549.2.9" _OID_HMAC_SHA384 = "1.2.840.113549.2.10" _OID_HMAC_SHA512 = "1.2.840.113549.2.11" _OID_DES_EDE3_CBC = "1.2.840.113549.3.7" _OID_AES128_CBC = "2.16.840.1.101.3.4.1.2" _OID_AES192_CBC = "2.16.840.1.101.3.4.1.22" _OID_AES256_CBC = "2.16.840.1.101.3.4.1.42" class PbesError(ValueError): pass # These are the ASN.1 definitions used by the PBES1/2 logic: # # EncryptedPrivateKeyInfo ::= SEQUENCE { # encryptionAlgorithm EncryptionAlgorithmIdentifier, # encryptedData EncryptedData # } # # EncryptionAlgorithmIdentifier ::= AlgorithmIdentifier # # EncryptedData ::= OCTET STRING # # AlgorithmIdentifier ::= SEQUENCE { # algorithm OBJECT IDENTIFIER, # parameters ANY DEFINED BY algorithm OPTIONAL # } # # PBEParameter ::= SEQUENCE { # salt OCTET STRING (SIZE(8)), # iterationCount INTEGER # } # # PBES2-params ::= SEQUENCE { # keyDerivationFunc AlgorithmIdentifier {{PBES2-KDFs}}, # encryptionScheme AlgorithmIdentifier {{PBES2-Encs}} # } # # PBKDF2-params ::= SEQUENCE { # salt CHOICE { # specified OCTET STRING, # otherSource AlgorithmIdentifier {{PBKDF2-SaltSources}} # }, # iterationCount INTEGER (1..MAX), # keyLength INTEGER (1..MAX) OPTIONAL, # prf AlgorithmIdentifier {{PBKDF2-PRFs}} DEFAULT algid-hmacWithSHA1 # } # # scrypt-params ::= SEQUENCE { # salt OCTET STRING, # costParameter INTEGER (1..MAX), # blockSize INTEGER (1..MAX), # parallelizationParameter INTEGER (1..MAX), # keyLength INTEGER (1..MAX) OPTIONAL # } class PBES1(object): """Deprecated encryption scheme with password-based key derivation (originally defined in PKCS#5 v1.5, but still present in `v2.0`__). .. __: http://www.ietf.org/rfc/rfc2898.txt """ @staticmethod def decrypt(data, passphrase): """Decrypt a piece of data using a passphrase and *PBES1*. The algorithm to use is automatically detected. :Parameters: data : byte string The piece of data to decrypt. passphrase : byte string The passphrase to use for decrypting the data. :Returns: The decrypted data, as a binary string. """ enc_private_key_info = DerSequence().decode(data) encrypted_algorithm = DerSequence().decode(enc_private_key_info[0]) encrypted_data = DerOctetString().decode(enc_private_key_info[1]).payload pbe_oid = DerObjectId().decode(encrypted_algorithm[0]).value cipher_params = {} if pbe_oid == _OID_PBE_WITH_MD5_AND_DES_CBC: # PBE_MD5_DES_CBC hashmod = MD5 ciphermod = DES elif pbe_oid == _OID_PBE_WITH_MD5_AND_RC2_CBC: # PBE_MD5_RC2_CBC hashmod = MD5 ciphermod = ARC2 cipher_params['effective_keylen'] = 64 elif pbe_oid == _OID_PBE_WITH_SHA1_AND_DES_CBC: # PBE_SHA1_DES_CBC hashmod = SHA1 ciphermod = DES elif pbe_oid == _OID_PBE_WITH_SHA1_AND_RC2_CBC: # PBE_SHA1_RC2_CBC hashmod = SHA1 ciphermod = ARC2 cipher_params['effective_keylen'] = 64 else: raise PbesError("Unknown OID for PBES1") pbe_params = DerSequence().decode(encrypted_algorithm[1], nr_elements=2) salt = DerOctetString().decode(pbe_params[0]).payload iterations = pbe_params[1] key_iv = PBKDF1(passphrase, salt, 16, iterations, hashmod) key, iv = key_iv[:8], key_iv[8:] cipher = ciphermod.new(key, ciphermod.MODE_CBC, iv, **cipher_params) pt = cipher.decrypt(encrypted_data) return unpad(pt, cipher.block_size) class PBES2(object): """Encryption scheme with password-based key derivation (defined in `PKCS#5 v2.0`__). .. __: http://www.ietf.org/rfc/rfc2898.txt.""" @staticmethod def encrypt(data, passphrase, protection, prot_params=None, randfunc=None): """Encrypt a piece of data using a passphrase and *PBES2*. :Parameters: data : byte string The piece of data to encrypt. passphrase : byte string The passphrase to use for encrypting the data. protection : string The identifier of the encryption algorithm to use. The default value is '``PBKDF2WithHMAC-SHA1AndDES-EDE3-CBC``'. prot_params : dictionary Parameters of the protection algorithm. +------------------+-----------------------------------------------+ | Key | Description | +==================+===============================================+ | iteration_count | The KDF algorithm is repeated several times to| | | slow down brute force attacks on passwords | | | (called *N* or CPU/memory cost in scrypt). | | | | | | The default value for PBKDF2 is 1 000. | | | The default value for scrypt is 16 384. | +------------------+-----------------------------------------------+ | salt_size | Salt is used to thwart dictionary and rainbow | | | attacks on passwords. The default value is 8 | | | bytes. | +------------------+-----------------------------------------------+ | block_size | *(scrypt only)* Memory-cost (r). The default | | | value is 8. | +------------------+-----------------------------------------------+ | parallelization | *(scrypt only)* CPU-cost (p). The default | | | value is 1. | +------------------+-----------------------------------------------+ randfunc : callable Random number generation function; it should accept a single integer N and return a string of random data, N bytes long. If not specified, a new RNG will be instantiated from ``Crypto.Random``. :Returns: The encrypted data, as a binary string. """ if prot_params is None: prot_params = {} if randfunc is None: randfunc = Random.new().read if protection == 'PBKDF2WithHMAC-SHA1AndDES-EDE3-CBC': key_size = 24 module = DES3 cipher_mode = DES3.MODE_CBC enc_oid = _OID_DES_EDE3_CBC elif protection in ('PBKDF2WithHMAC-SHA1AndAES128-CBC', 'scryptAndAES128-CBC'): key_size = 16 module = AES cipher_mode = AES.MODE_CBC enc_oid = _OID_AES128_CBC elif protection in ('PBKDF2WithHMAC-SHA1AndAES192-CBC', 'scryptAndAES192-CBC'): key_size = 24 module = AES cipher_mode = AES.MODE_CBC enc_oid = _OID_AES192_CBC elif protection in ('PBKDF2WithHMAC-SHA1AndAES256-CBC', 'scryptAndAES256-CBC'): key_size = 32 module = AES cipher_mode = AES.MODE_CBC enc_oid = _OID_AES256_CBC else: raise ValueError("Unknown PBES2 mode") # Get random data iv = randfunc(module.block_size) salt = randfunc(prot_params.get("salt_size", 8)) # Derive key from password if protection.startswith('PBKDF2'): count = prot_params.get("iteration_count", 1000) key = PBKDF2(passphrase, salt, key_size, count) kdf_info = DerSequence([ DerObjectId(_OID_PBKDF2), # PBKDF2 DerSequence([ DerOctetString(salt), DerInteger(count) ]) ]) else: # It must be scrypt count = prot_params.get("iteration_count", 16384) scrypt_r = prot_params.get('block_size', 8) scrypt_p = prot_params.get('parallelization', 1) key = scrypt(passphrase, salt, key_size, count, scrypt_r, scrypt_p) kdf_info = DerSequence([ DerObjectId(_OID_SCRYPT), # scrypt DerSequence([ DerOctetString(salt), DerInteger(count), DerInteger(scrypt_r), DerInteger(scrypt_p) ]) ]) # Create cipher and use it cipher = module.new(key, cipher_mode, iv) encrypted_data = cipher.encrypt(pad(data, cipher.block_size)) enc_info = DerSequence([ DerObjectId(enc_oid), DerOctetString(iv) ]) # Result enc_private_key_info = DerSequence([ # encryptionAlgorithm DerSequence([ DerObjectId(_OID_PBES2), DerSequence([ kdf_info, enc_info ]), ]), DerOctetString(encrypted_data) ]) return enc_private_key_info.encode() @staticmethod def decrypt(data, passphrase): """Decrypt a piece of data using a passphrase and *PBES2*. The algorithm to use is automatically detected. :Parameters: data : byte string The piece of data to decrypt. passphrase : byte string The passphrase to use for decrypting the data. :Returns: The decrypted data, as a binary string. """ enc_private_key_info = DerSequence().decode(data, nr_elements=2) enc_algo = DerSequence().decode(enc_private_key_info[0]) encrypted_data = DerOctetString().decode(enc_private_key_info[1]).payload pbe_oid = DerObjectId().decode(enc_algo[0]).value if pbe_oid != _OID_PBES2: raise PbesError("Not a PBES2 object") pbes2_params = DerSequence().decode(enc_algo[1], nr_elements=2) ### Key Derivation Function selection kdf_info = DerSequence().decode(pbes2_params[0], nr_elements=2) kdf_oid = DerObjectId().decode(kdf_info[0]).value kdf_key_length = None # We only support PBKDF2 or scrypt if kdf_oid == _OID_PBKDF2: pbkdf2_params = DerSequence().decode(kdf_info[1], nr_elements=(2, 3, 4)) salt = DerOctetString().decode(pbkdf2_params[0]).payload iteration_count = pbkdf2_params[1] left = len(pbkdf2_params) - 2 idx = 2 if left > 0: try: kdf_key_length = pbkdf2_params[idx] - 0 left -= 1 idx += 1 except TypeError: pass # Default is HMAC-SHA1 pbkdf2_prf_oid = "1.2.840.113549.2.7" if left > 0: pbkdf2_prf_algo_id = DerSequence().decode(pbkdf2_params[idx]) pbkdf2_prf_oid = DerObjectId().decode(pbkdf2_prf_algo_id[0]).value elif kdf_oid == _OID_SCRYPT: scrypt_params = DerSequence().decode(kdf_info[1], nr_elements=(4, 5)) salt = DerOctetString().decode(scrypt_params[0]).payload iteration_count, scrypt_r, scrypt_p = [scrypt_params[x] for x in (1, 2, 3)] if len(scrypt_params) > 4: kdf_key_length = scrypt_params[4] else: kdf_key_length = None else: raise PbesError("Unsupported PBES2 KDF") ### Cipher selection enc_info = DerSequence().decode(pbes2_params[1]) enc_oid = DerObjectId().decode(enc_info[0]).value if enc_oid == _OID_DES_EDE3_CBC: # DES_EDE3_CBC ciphermod = DES3 key_size = 24 elif enc_oid == _OID_AES128_CBC: # AES128_CBC ciphermod = AES key_size = 16 elif enc_oid == _OID_AES192_CBC: # AES192_CBC ciphermod = AES key_size = 24 elif enc_oid == _OID_AES256_CBC: # AES256_CBC ciphermod = AES key_size = 32 else: raise PbesError("Unsupported PBES2 cipher") if kdf_key_length and kdf_key_length != key_size: raise PbesError("Mismatch between PBES2 KDF parameters" " and selected cipher") IV = DerOctetString().decode(enc_info[1]).payload # Create cipher if kdf_oid == _OID_PBKDF2: if pbkdf2_prf_oid == _OID_HMAC_SHA1: hmac_hash_module = SHA1 elif pbkdf2_prf_oid == _OID_HMAC_SHA224: hmac_hash_module = SHA224 elif pbkdf2_prf_oid == _OID_HMAC_SHA256: hmac_hash_module = SHA256 elif pbkdf2_prf_oid == _OID_HMAC_SHA384: hmac_hash_module = SHA384 elif pbkdf2_prf_oid == _OID_HMAC_SHA512: hmac_hash_module = SHA512 else: raise PbesError("Unsupported HMAC %s" % pbkdf2_prf_oid) key = PBKDF2(passphrase, salt, key_size, iteration_count, hmac_hash_module=hmac_hash_module) else: key = scrypt(passphrase, salt, key_size, iteration_count, scrypt_r, scrypt_p) cipher = ciphermod.new(key, ciphermod.MODE_CBC, IV) # Decrypt data pt = cipher.decrypt(encrypted_data) return unpad(pt, cipher.block_size)