"""Pure-Python AES implementation.""" from cryptomath import * from AES import * from rijndael import rijndael def new(key, mode, IV): return Python_AES(key, mode, IV) class Python_AES(AES): def __init__(self, key, mode, IV): AES.__init__(self, key, mode, IV, "python") self.rijndael = rijndael(key, 16) self.IV = IV def encrypt(self, plaintext): AES.encrypt(self, plaintext) plaintextBytes = stringToBytes(plaintext) chainBytes = stringToBytes(self.IV) #CBC Mode: For each block... for x in range(len(plaintextBytes)/16): #XOR with the chaining block blockBytes = plaintextBytes[x*16 : (x*16)+16] for y in range(16): blockBytes[y] ^= chainBytes[y] blockString = bytesToString(blockBytes) #Encrypt it encryptedBytes = stringToBytes(self.rijndael.encrypt(blockString)) #Overwrite the input with the output for y in range(16): plaintextBytes[(x*16)+y] = encryptedBytes[y] #Set the next chaining block chainBytes = encryptedBytes self.IV = bytesToString(chainBytes) return bytesToString(plaintextBytes) def decrypt(self, ciphertext): AES.decrypt(self, ciphertext) ciphertextBytes = stringToBytes(ciphertext) chainBytes = stringToBytes(self.IV) #CBC Mode: For each block... for x in range(len(ciphertextBytes)/16): #Decrypt it blockBytes = ciphertextBytes[x*16 : (x*16)+16] blockString = bytesToString(blockBytes) decryptedBytes = stringToBytes(self.rijndael.decrypt(blockString)) #XOR with the chaining block and overwrite the input with output for y in range(16): decryptedBytes[y] ^= chainBytes[y] ciphertextBytes[(x*16)+y] = decryptedBytes[y] #Set the next chaining block chainBytes = blockBytes self.IV = bytesToString(chainBytes) return bytesToString(ciphertextBytes)