I'm looking for an approach to encrypt/obfuscate a 30 bit number.
The results will be grouped into sets of 3 and visible to users as a 6 character alphanumeric encoded with a base32 alphabet, but the user should not be able to pick up a pattern in the alphnumeric strings. For example, the users could see 3 strings: ASDFGH, LKJHGF, ZXCVBN and those might map to the numbers 1073741821, 1073741822, 1073741823. But, it is a pattern they should not be able to easily figure out.
I've looked at a few encryption algorithms, like DES. Here is a bad and naive attempt:
import struct from Crypto.Cipher import DES from .baseconv import base32_urlsafe _KEY = '\x81\x98\xe1\x14<\xb3\xe8\x10' _encryptor = DES.new(_KEY) def encrypt_number(number): encrypted_i64 = struct.unpack( '!Q', _encryptor.encrypt(struct.pack('!Q', number)) ) encrypted_i30 = encrypted_i64 >> 34 return base32_urlsafe.encode(encrypted_i30)
But obviously I won't be able to decrypt the string if ever needed and uniqueness is lost with this approach. Also looked at using XOR, but that is too predictable, since more often then not the numbers will be in a consecutive sequence.
I've never had to encode something like this. So, I'm looking for some encryption algorithms/approaches to research and consider. I'm using python, but ideas or examples using other languages are welcome.