def CBC_encrypt(data, key, IV):
l = len(data)
b = randint(5, 10)
data = random_key_generator(b) + data + random_key_generator(randint(
5, 10))
data = pad(data, 16)
encryptor = AES.new(key, AES.MODE_CBC, IV=IV)
return encryptor.encrypt(data)[b:b + l]
def ecb_oracle(plain_bytes, block_size):
if isinstance(plain_bytes, str):
plain_bytes = plain_bytes.encode('ascii')
#secret_string = b64decode(fake_string)
secret_string = b64decode(to_decrypt)
plain_bytes += secret_string
plain_bytes = pad(plain_bytes, block_size)
return encrypt_AES_ECB(plain_bytes, en_key)
def ECB_encrypt(data, key):
l = len(data)
b = randint(5, 10)
data = random_key_generator(b) + data + random_key_generator(randint(
5, 10))
data = pad(data, 16)
mode = AES.new(key, AES.MODE_ECB)
return mode.encrypt(data)[b:l + b]
def encrypt_AES_CBC(plaintext, key):
plaintext = plaintext.replace('&', '').replace('=', '')
plaintext = "comment1=cooking%20MCs;userdata=" + plaintext + ";comment2=%20like%20a%20pound%20of%20bacon"
plaintext = plaintext.encode('ascii')
print(keysize_blocks(BLOCK_SIZE, plaintext))
padded_plaintext = pad(plaintext, BLOCK_SIZE)
cipher_obj = AES.new(key, AES.MODE_CBC, iv)
encrypted_bytes = cipher_obj.encrypt(padded_plaintext)
return encrypted_bytes
def encryption_oracle(plain_bytes, block_size):
key = urandom(block_size)
append = urandom(randint(5, 10))
preppend = urandom(randint(5, 10))
#plain_bytes = append + plain_bytes + preppend
plain_bytes = pad(plain_bytes, block_size)
print("Plainbyte length: ", len(plain_bytes))
if randint(0, 1):
encrypted = encrypt_AES_ECB(plain_bytes, key)
#print("Making ECB")
return encrypted
else:
iv = urandom(block_size)
encrypted = encrypt_AES_CBC(plain_bytes, iv, key, block_size)
#print("Making CBC")
return encrypted
def encrypt_profile(encoded_str, key):
encoded_str = encoded_str.encode('ascii')
encoded_str = pad(encoded.encode('ascii'), BLOCK_SIZE)
return encrypt_AES_ECB(encoded_str, key)
key = urandom(BLOCK_SIZE)
iv = urandom(BLOCK_SIZE)
sample = """MDAwMDAwTm93IHRoYXQgdGhlIHBhcnR5IGlzIGp1bXBpbmc=
MDAwMDAxV2l0aCB0aGUgYmFzcyBraWNrZWQgaW4gYW5kIHRoZSBWZWdhJ3MgYXJlIHB1bXBpbic=
MDAwMDAyUXVpY2sgdG8gdGhlIHBvaW50LCB0byB0aGUgcG9pbnQsIG5vIGZha2luZw==
MDAwMDAzQ29va2luZyBNQydzIGxpa2UgYSBwb3VuZCBvZiBiYWNvbg==
MDAwMDA0QnVybmluZyAnZW0sIGlmIHlvdSBhaW4ndCBxdWljayBhbmQgbmltYmxl
MDAwMDA1SSBnbyBjcmF6eSB3aGVuIEkgaGVhciBhIGN5bWJhbA==
MDAwMDA2QW5kIGEgaGlnaCBoYXQgd2l0aCBhIHNvdXBlZCB1cCB0ZW1wbw==
MDAwMDA3SSdtIG9uIGEgcm9sbCwgaXQncyB0aW1lIHRvIGdvIHNvbG8=
MDAwMDA4b2xsaW4nIGluIG15IGZpdmUgcG9pbnQgb2g=
MDAwMDA5aXRoIG15IHJhZy10b3AgZG93biBzbyBteSBoYWlyIGNhbiBibG93"""
clean_sample = sample.split("\n")
clean_sample = [string.strip(" ") for string in clean_sample]
plaintext = pad(b64decode(choice(clean_sample)), BLOCK_SIZE)
#plaintext = pad(clean_sample[1].encode('ascii'), BLOCK_SIZE)
print(plaintext)
cipher_text_original = encrypt_func(plaintext, key, iv)
#cipher_text = bytearray(16) + cipher_text_original
cipher_text = bytearray(b'0' * BLOCK_SIZE) + cipher_text_original
#import pdb; pdb.set_trace()
print("Cipher text is: ", cipher_text)
decrypted = decrypt_func(cipher_text, key, iv)
# To derive intermediate
# P = Plaintext, I = intermediate, E = 16
# P16 = I16 ^ E16
# x01 = I16 ^ E'16
def detection_oracle(data):
c = 0
if detect_ECB(pad(data)):
c = 1
return c
iv = intermediate
while ciphertext:
intermediate = ciphertext.pop(0)
decrypted_bytes = decrypt_AES_ECB_bytes(intermediate, key)
plaintext += xor_bytes(decrypted_bytes, iv)
iv = intermediate
return plaintext
if __name__ == '__main__':
BLOCK_SIZE = 16
iv = ("\x00" * BLOCK_SIZE).encode('ascii')
key = pad("secret_password".encode('ascii'), BLOCK_SIZE)
message = pad("hello world, the quick brown fox".encode('ascii'), BLOCK_SIZE)
x = encrypt_AES_CBC(message, iv, key, BLOCK_SIZE)
#print(x)
#x = encrypt_AES_ECB(message, key)
#print(x)
#y = decrypt_AES_ECB_bytes(x, key)
#print(y)
y = decrypt_AES_CBC(x, iv, key, BLOCK_SIZE)
print(y.decode('ascii'))
key2 = pad("YELLOW SUBMARINE".encode('ascii'), BLOCK_SIZE)
cipher_message = base64_file_to_bytes('10.txt')
decrypted = decrypt_AES_CBC(cipher_message, iv, key2, BLOCK_SIZE)
print(decrypted.decode('ascii'))
