import os import pyaes from . import libssl if libssl.AES is not None: # Use libssl if available, since it will be faster AES = libssl.AES else: # Fallback to a pure Python implementation class AES: @staticmethod def decrypt_ige(cipher_text, key, iv): """Decrypts the given text in 16-bytes blocks by using the given key and 32-bytes initialization vector """ iv1 = iv[:len(iv) // 2] iv2 = iv[len(iv) // 2:] aes = pyaes.AES(key) plain_text = [] blocks_count = len(cipher_text) // 16 cipher_text_block = [0] * 16 for block_index in range(blocks_count): for i in range(16): cipher_text_block[i] = \ cipher_text[block_index * 16 + i] ^ iv2[i] plain_text_block = aes.decrypt(cipher_text_block) for i in range(16): plain_text_block[i] ^= iv1[i] iv1 = cipher_text[block_index * 16:block_index * 16 + 16] iv2 = plain_text_block plain_text.extend(plain_text_block) return bytes(plain_text) @staticmethod def encrypt_ige(plain_text, key, iv): """Encrypts the given text in 16-bytes blocks by using the given key and 32-bytes initialization vector """ # Add random padding iff it's not evenly divisible by 16 already if len(plain_text) % 16 != 0: padding_count = 16 - len(plain_text) % 16 plain_text += os.urandom(padding_count) iv1 = iv[:len(iv) // 2] iv2 = iv[len(iv) // 2:] aes = pyaes.AES(key) cipher_text = [] blocks_count = len(plain_text) // 16 for block_index in range(blocks_count): plain_text_block = list( plain_text[block_index * 16:block_index * 16 + 16] ) for i in range(16): plain_text_block[i] ^= iv1[i] cipher_text_block = aes.encrypt(plain_text_block) for i in range(16): cipher_text_block[i] ^= iv2[i] iv1 = cipher_text_block iv2 = plain_text[block_index * 16:block_index * 16 + 16] cipher_text.extend(cipher_text_block) return bytes(cipher_text)