I was asked to encrypt a password by creating a new procedure and what I was thinking was to work with bits to change each character of my input key with apparently unrelated characters, and so I wrote this function:

(I'm working with PHP code):

function CBS($digits, $n_times) {
    $mask = 0x7FFFFFFF;
    $digits = intval($digits);
    if($n_times > 0) {
        $digits = ($digits<<$n_times%32) & (($digits>>(32-$n_times%32)) & ($mask>>(31-$n_times%32)));
    }elseif($n_times < 0) {
        $n_times = abs($n_times);
        $digits = (($digits>>$n_times%32) & ($mask >> (-1+$n_times%32))) | ($digits<<(32-$n_times%32));
    return decbin($digits);

Of course after I encrypted my password I should be able to decrypt it.

Is there any way to do that?

You don't need to write me the code to do it, it would be great if you could explain it to me with words, too.

  • I would have hashed too but my teacher asked me right to encrypt, so I guess I'll have to do it... Commented Oct 22, 2015 at 18:40
  • It's probably part of the spec for your certification, so I can hardly blame you for that, though the examining board for whatever certification you're doing really shouldn't be teaching this in the scope of passwords.
    – AStopher
    Commented Oct 22, 2015 at 18:48
  • Well, the one of us who will create the safest algorithm will get the best mark, so I'm trying to do my best! Commented Oct 22, 2015 at 18:57
  • The safest would be to hash, but it sounds like you don't have that option.
    – AStopher
    Commented Oct 22, 2015 at 19:02
  • 1
    Your use of the AND operator is not readily reversible. XOR is such a key building block to crypto precisely because X XOR (Y XOR X) = Y. So it is reversible. You could use a variant of your non-reversible construction by implementing it in a Feistel structure. You should google that as it will help you a lot in creating a stronger algorithm. Still not to be used for serious applications, but a Feistel structure with a good PRF should make a decent classroom crypto algorithm.
    – WDS
    Commented Oct 22, 2015 at 19:16

1 Answer 1


"Of course after I encrypted my password I should be able to decrypt it." - fundamentally wrong!. Right encrypt function (i.e. hash-function) should not have reverse function. Very simple identification algorithm:
1. User enters password
2. Get hash from password by using encrypt function (entered_hash=f(password))
3. Compare entered_hash with right_hash_stored
NEVER store passwords, only hashes !

I think, that if you want your encrypt function has reverse, it should consist of function having reverse, so AND and OR are not such, but ROT and XOR are. So all you need - the squense of ROT/XOR (for XOR mask you can use encrypted value of previos squense step, in this case it must aslo be saved)

  • Yes, I know perfectly that it shouldn't be encrypted and how to verify if entered password matches with the hashed one, but for some reason this excercise requres to reverse it once encrypted. Of course this is not a professional job. Commented Oct 22, 2015 at 19:07
  • With ROT you mean a circular shift? Commented Oct 22, 2015 at 20:02
  • Yes: for example there is a list [2,3] - each value means number to circular shift (let it would be left-shift) with following XOR, i.e. number-to-shift XOR shift-result. Encrypt steps:
    – Val K
    Commented Oct 22, 2015 at 21:54
  • Encrypt steps (for sequense=[2,5]): en1=(pass<<2)XOR 2; en2=(en1<<5) XOR 5. Decrypt: dc1= (en2 XOR 5)>> 5; pass= (dc1 XOR 2) >> 2.
    – Val K
    Commented Oct 22, 2015 at 22:04
  • OK, thank you, I think I'll try the way you suggested! Commented Oct 23, 2015 at 12:48

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