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I'm a complete beginner to any sort of decrypting. I wrote a class that I think should be quite secure. Can you give me constructive criticism of how could I improve the algorithm.

package main;

import java.util.Random;

public class Main {

   public static void main(String[] args) {
      //we will be playing around with this string
      new Main("1234567890abc");

   private Random rnd;
   private byte[] randoms;

    * Starts up RNG
    * Prints out a test
   public Main(String password) {
      //random long generated from the password
      long randomLong = randomNumber(password);
      //Random class using randomLong as seed
      rnd = new Random(randomLong);
      randoms = new byte[password.length()];
      //Array of random bytes generated with rnd


      String cryped = encrypt(password);
      String decryped = decrypt(cryped);


    * Encrypts the password.
   private String encrypt(String password) {
      char[] chars = password.toCharArray();      
      for (int i = 0; i < chars.length; i++) {
         chars[i] = (char) (chars[i] + randoms[i]);
      return String.valueOf(chars);

    * Decrypts an allready encryped password.
   private String decrypt(String crypted) {
      char[] chars = crypted.toCharArray();
      for (int i = 0; i < chars.length; i++) {
         chars[i] = (char) (chars[i] - randoms[i]);
      return String.valueOf(chars);

    * Finds a random number BASED ON PASSWORD
   private long randomNumber(String password)
      char[] chars = password.toCharArray();
      long number = 0;
      for (char c : chars) {
         number += c;
      number *= chars.length;
      return number;

The class is written in Java but should be readable to anyone.

share|improve this question
Why not put the code here ? For readability, indexation... all that :) – Antoine Claval Jun 6 '11 at 7:58
Is that homework ? If not, why not using the package* ? – Antoine Claval Jun 6 '11 at 8:01
It is not homework and I don't have to use it anywhere. – Rob Fox Jun 6 '11 at 8:05
Definitely not trying to burst your bubble, but people spend their entire lives trying to write cryptographically secure software. Whipping up a 55 line class isn't gonna cut it in the real world when you have somebody brute forcing your database. Like others have said, use an existing class or read into an open source encryption package if you are interested in learning. – Jordan Jun 6 '11 at 8:06
Is OK to copy your code from pastebin to here? That way your question will make sense when the pastebin expires. – Eamon Nerbonne Jun 6 '11 at 8:16
up vote 10 down vote accepted
  1. Don't reinvent your own cryptography in real life (is this an excercise?) Even experts make mistakes. Use something that's been publically scrutinized.
  2. The java random number generator is not cryptographically secure. With a long enough text to encrypt, patterns will emerge that can permit various information leaks upto and including revealing the password (but see point three) and the plaintext.
  3. You use the password to seed the random number generator. This is a standard (and fine) idea, but you do so using an algorithm that is invariant to permutation! i.e. Your encryption treats "sinecure" and "insecure" or other passwords that are anagrams as equivalent (and probably others too). For a strong password of up to 16 letters and no codepoints beyond 255, the highest reachable seed is 255*16*16 = 65280; but there are even fewer possibilities since there are seeds lower than this which are not reachable. On my keyboard, bruteforcing shows just 9734 different seeds for passwords consisting solely of keyboard-writable characters excluding newline (I count 95) of up to 16 characters in length; that's less than 1 bit of entropy per letter.
  4. CodeInChaos has a few additional observations in his answer: you're using a stream cipher (even harder to get right!). You're also encrypting the password which suggests you may be looking for a hash not an encryption function, (or is that just an example?).
  5. By the way if you're trying to store passwords; don't - not even encrypted! See the sony fiasco for why; you may get hacked, you may lose your password database, and your encryption keys may be known to the attacker. Instead, use standard, best-practice password hashing (and prefer a standard preexisting component if possible). Such a system should at least use a secure hash such as sha1 or better; passwords should be individually salted (the salt can be stored plaintext), and the process should be made computationally expensive to make brute-force unattractive. See for details.
share|improve this answer
Storing passwords is OK if your program is a password manager. – CodesInChaos Jun 6 '11 at 10:27

Horribly broken in more than one way.

  1. Your key is 64 bit, a bit small for today. But that's the least of your worries for now.
  2. I see a non cryptographic PRNG. You need to use a crypto PRNG.
  3. You're reusing a key in a stream cypher. Stream cyphers are notorious for being hard to use correctly. In this mode of operation it basically behaves like a one-time-pad generated by a PRNG. Once you reuse a key in such a mode, your crypto is broken.
    Suppose an attacker knows encrypt(p1) and encrypt(p2). Then he can calculate encrypt(p1)-encrypt(p2) which is identical to p1-p2.
  4. Your effective key size is much smaller than 64bit. The sum of chars in a string is <2^16*length. And for most characters it's even <128. So you're key will usually be a number <1000'000. That's trivial to brute force.
  5. Each element in randoms is a byte i.e. 8 bit. A char is 16 bit. So you're not adding modulo 256. Thus you leak information about the encrypted password.

And to improve it, throw out your own algorithm entirely and use a well know, reviewed algorithm. Inventing your own algorithm is a bad idea unless you're a cryptography expert. And even expert make mistakes relatively often.

And do you really need password decryption (i.e. is it a password store), or is password hashing enough?

My suggestion is to put your master password in a key-derivation-function (PKDF2 is a common choice). Then use the key this function returns to encrypt the rest of your data file using AES.

share|improve this answer
@downvoter What's wrong in this answer? – CodesInChaos Jun 6 '11 at 8:12
...nothing as far as I can tell: +1 – Eamon Nerbonne Jun 6 '11 at 8:17
When you wrote that 1000'000 number, I thought I'd write a bruteforcer: turns out, with up to 16 characters, there are just 9642 different possibilities: really limited :-) – Eamon Nerbonne Jun 6 '11 at 8:54
The main problem with brute forcing his password store is how to recognize that you were successful. – CodesInChaos Jun 6 '11 at 8:58
That entirely depends on what he's encrypting, of course – Eamon Nerbonne Jun 6 '11 at 8:59

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