import random from utils.binary_writer import BinaryWriter from hashlib import sha1 def generate_random_long(signed=True): result = random.getrandbits(64) if not signed: result &= 0xFFFFFFFFFFFFFFFF # Ensure it's unsigned return result def generate_random_bytes(count): with BinaryWriter() as writer: for _ in range(count): writer.write(random.getrandbits(8)) return writer.get_bytes() def calc_key(shared_key, msg_key, client): x = 0 if client else 8 buffer = [0] * 48 buffer[0:16] = msg_key buffer[16:48] = shared_key[x:x + 32] sha1a = sha1(buffer) buffer[0:16] = shared_key[x + 32:x + 48] buffer[16:32] = msg_key buffer[32:48] = shared_key[x + 48:x + 64] sha1b = sha1(buffer) buffer[0:32] = shared_key[x + 64:x + 96] buffer[32:48] = msg_key sha1c = sha1(buffer) buffer[0:16] = msg_key buffer[16:48] = shared_key[x + 96:x + 128] sha1d = sha1(buffer) key = sha1a[0:8] + sha1b[8:20] + sha1c[4:16] iv = sha1a[8:20] + sha1b[0:8] + sha1c[16:20] + sha1d[0:8] return key, iv def calc_msg_key(data): return sha1(data)[4:20] def calc_msg_key_offset(data, offset, limit): # TODO untested, may not be offset like this # In the original code it was as parameters for the sha function, not slicing the array return sha1(data[offset:offset + limit])[4:20]