import argparse import hashlib from Crypto.Cipher import AES import sys import os # pip install voussoirkit from voussoirkit import bytestring # 128 bits BLOCK_SIZE = 32 KEY_SIZE = 32 SEEK_END = 2 def decrypt_data(aes, data): data = aes.decrypt(data) pad_byte = data[-1:] data = data.rstrip(pad_byte) return data def encrypt_data(aes, data): pad_byte = (data[-1] + 1) % 256 pad_length = BLOCK_SIZE - (len(data) % BLOCK_SIZE) data += (bytes([pad_byte]) * pad_length) data = aes.encrypt(data) return data def decrypt_file(aes, input_handle, output_handle): current_pos = input_handle.tell() input_size = input_handle.seek(0, SEEK_END) - current_pos input_handle.seek(current_pos) bytes_read = 0 while True: chunk = input_handle.read(BLOCK_SIZE) if len(chunk) == 0: break bytes_read += len(chunk) chunk = aes.decrypt(chunk) if bytes_read == input_size: last_byte = chunk[-1] while chunk and chunk[-1] == last_byte: chunk = chunk[:-1] if bytes_read % bytestring.MIBIBYTE == 0: print(bytestring.bytestring(bytes_read)) output_handle.write(chunk) def encrypt_file(aes, input_handle, output_handle): last_byte = 0 done = False bytes_read = 0 while not done: chunk = input_handle.read(BLOCK_SIZE) if len(chunk) > 0: last_byte = chunk[-1] if len(chunk) < BLOCK_SIZE: pad_byte = (last_byte + 1) % 256 pad_byte = bytes([pad_byte]) chunk += pad_byte * (BLOCK_SIZE - len(chunk)) done = True bytes_read += len(chunk) if bytes_read % bytestring.MIBIBYTE == 0: print(bytestring.bytestring(bytes_read)) chunk = aes.encrypt(chunk) output_handle.write(chunk) #print(''.join((hex(x)[2:].rjust(2, '0') for x in chunk))) def prepare_handles_argparse(args): return (aes, input_handle, output_handle) def encrypt_argparse(args): input_handle = open(args.input, 'rb') output_handle = open(args.output, 'wb') password = hashit(args.password) initialization_vector = os.urandom(16) aes = AES.new(password, mode=3, IV=initialization_vector) output_handle.write(initialization_vector) encrypt_file(aes, input_handle, output_handle) def decrypt_argparse(args): input_handle = open(args.input, 'rb') output_handle = open(args.output, 'wb') password = hashit(args.password) initialization_vector = input_handle.read(16) aes = AES.new(password, mode=3, IV=initialization_vector) decrypt_file(aes, input_handle, output_handle) def hashit(text): h = hashlib.sha512(text.encode('utf-8')).hexdigest() h = h[:BLOCK_SIZE] return h def main(argv): parser = argparse.ArgumentParser() subparsers = parser.add_subparsers() p_encrypt = subparsers.add_parser('encrypt') p_encrypt.add_argument('-i', '--input', dest='input', required=True) p_encrypt.add_argument('-o', '--output', dest='output', required=True) p_encrypt.add_argument('-p', '--password', dest='password', required=True) p_encrypt.set_defaults(func=encrypt_argparse) p_decrypt = subparsers.add_parser('decrypt') p_decrypt.add_argument('-i', '--input', dest='input', required=True) p_decrypt.add_argument('-o', '--output', dest='output', required=True) p_decrypt.add_argument('-p', '--password', dest='password', required=True) p_decrypt.set_defaults(func=decrypt_argparse) args = parser.parse_args(argv) return args.func(args) if __name__ == '__main__': raise SystemExit(main(sys.argv[1:]))