def test_encryption_and_signing(): message = "Some arbitrary message" mac_key_1 = key.with_length(256) mac_key_2 = key.with_length(256) cbc_key = key.with_length(256) authenticated_encryption = Authenticated_Encryption((mac_key_1, mac_key_2, cbc_key)) mac = CBC_MAC((mac_key_1, mac_key_2)) cbc = AES_CBC(cbc_key) cipher, tag = authenticated_encryption.encrypt_and_sign(message) assert_equal(message, cbc.decrypt(cipher)) assert_equal(tag, mac.sign(cipher))
class Authenticated_Encryption(object): def __init__(self, keys): self.mac = CBC_MAC((keys[0], keys[1])) self.aes_cbc = AES_CBC(keys[2]) def encrypt_and_sign(self, message): cipher = self.aes_cbc.encrypt(message) tag = self.mac.sign(cipher) return cipher, tag def authenticate_and_decrypt(self, cipher, tag): authenticated = self.mac.verify(cipher, tag) message = "" if not authenticated else self.aes_cbc.decrypt(cipher) return authenticated, message
def main(): ctr_ciphers = ["69dda8455c7dd4254bf353b773304eec0ec7702330098ce7f7520d1cbbb20fc388d1b0adb5054dbd7370849dbf0b88d393f252e764f1f5f7ad97ef79d59ce29f5f51eeca32eabedd9afa9329", \ "770b80259ec33beb2561358a9f2dc617e46218c0a53cbeca695ae45faa8952aa0e311bde9d4e01726d3184c34451"] cbc_ciphers = ["4ca00ff4c898d61e1edbf1800618fb2828a226d160dad07883d04e008a7897ee2e4b7465d5290d0c0e6c6822236e1daafb94ffe0c5da05d9476be028ad7c1d81", "5b68629feb8606f9a6667670b75b38a5b4832d0f26e1ab7da33249de7d4afc48e713ac646ace36e872ad5fb8a512428a6e21364b0c374df45503473c5242a253"] ctr_key = "36f18357be4dbd77f050515c73fcf9f2" cbc_key = "140b41b22a29beb4061bda66b6747e14" #CBC decryptor = AES_CBC(cbc_key) for c in cbc_ciphers: print '%s' % decryptor.decrypt(c) #CTR decryptor = AES_CTR(ctr_key) for c in ctr_ciphers: print '%s' % decryptor.decrypt(c)
def test_AES_CBC(self): key = os.urandom(16).encode('hex') decryptor = AES_CBC(key) for m in self.msgs: self.assertEqual(decryptor.decrypt(decryptor.encrypt(m)), m)
def __init__(self, keys): self.mac = CBC_MAC((keys[0], keys[1])) self.aes_cbc = AES_CBC(keys[2])