from Crypto.Cipher import AES
def non_encoder(block, key):
"""A basic encoder that doesn't actually do anything"""
return pad_bits_append(block, len(key))
def xor_encoder(block, key):
block = pad_bits_append(block, len(block, len(key))
cipher = [b ^ k for b, k in zip(block, key)]
return cipher
def aes_encoder(block, key):
block = pad_bits_append(block, len(key))
block = bit_to_string(block)
key = bits_to_string(key)
ecb = AES.new(key, AES.MODE_ECB)
return string_to_bits(ecb.encrypt(block))
def electronic_cookbook(plaintext, key, block_size, block_enc):
"""Return the ecb encoding of 'plaintext"""
cipher = []
for i in range(len(plaintext)/ block_size + 1):
start = i * block_size
if start >= len(plaintext):
break
end = min(len(plaintext), (i+1) * block_size)
block = plaintext[start:end]
cipher.extend(block_enc(block, key))
return cipher
def cipher_block_chaining(plaintext, key, init_vec, block_size, block_enc):
"""Return the cbc encoding of 'plain text'"""
def test():
key = string_to_bit('4h8f.093mJo:*9#$')
iv = string_to_bit('89JIlkj3$%0lkjdg')
plaintext = string_to_bits("one if by land; two if by sea")
BITS = ('0', '1')
ASCII_BITS = 8
def display_bits(b):
"""converts list of {0, 1}* to string"""
return ''.join([ITS[e] for e in b])
def seq_to_bits(seq):
return [0 if b == '0' else 1 for b in seq]
def pad_bits(bits, pad):
"""pads seq with leading 0s up to length pad"""
assert len(bits) <= pad
return [0] * (pad - len(bits)) + bits
def convert_to_bits(n):
"""converts an integer 'n' to bit array"""
result = []
if n == 0:
return [0]
while n > 0:
result = [(n % 2)] + result
n = n / 2
return result
def string_to_bits(s):
def chr_to_bit(c):
return pad_bit(convert_to_bits(ord(c)), ASCII_BITS)
return [b for group in
map(chr_to_bits, s)
for b in group]
def bits_to_char(b):
assert len(b) == ASCII_BITS
value = 0
for e in b:
value = (value * 2) + e
return chr(value)
def list_to_string(p):
return ''.join(p)
def bits_to_string(b):
return ''.join([bits_to_char(b[i:i + ASCII_BITS])
for i in range(0, len(b), ASCII_BITS)])
def pad_bits_append(small, size):
diff = max(0, size - len(small))
return small + [0] * diff
