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How do I go about reverse engineering this random generator so that it returns the initial value "123456" from the generated random value?

public class calcus {
  public static void main(String[] args)  {
    int count = 0;
    StringBuilder sb = new StringBuilder();
    Random r = new Random(123456);
    while (count < 7) {
        count++;
        sb.append(r.nextInt(27)).append(",");
    }
    String[] reverseNumber= sb.toString().split(",");
    System.out.println(Arrays.toString(reverseNumber)); // [9, 11, 19, 16, 19, 4, 15]            
  }
}
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  • What is you need? I mean Can you explain more. Do you need to Find out the logic behind Random. May 19, 2018 at 5:11
  • I want to know how to implement(code) the reverse method, so that I can get the initial value from the generated random number, since it will always generate same random number if I use the nextInt(27) for the random number 123456
    – king amada
    May 19, 2018 at 5:55
  • Java, I believe, uses 48bit LCG. It is always a reversible generator, so given output bits you could quickly get the seed: stackoverflow.com/questions/2911432/… May 19, 2018 at 6:01
  • @SeverinPappadeux I saw the question before I asked this question, but I really don't know how to implement it in my code above, if you can help, that would be great.
    – king amada
    May 19, 2018 at 6:43
  • 123456 is not your initial value, it is the seed you use for the generation of subsequent random numbers. May 19, 2018 at 7:35

1 Answer 1

2

Literally, you don't need to reverse engineer the Random class.

  • The source code is published for all to see. (For example, google for "java.util.Random source" ...)

  • The algorithms that it uses are described in the javadocs in sufficient detail for you to reimplement it. Even the algorithm for setting the seed.

But if you are asking if you can run the random sequence backwards to recover the seed, you would need to carefully examine the code and work out the inverse function for the LCG. But I'm not sure it this will be sufficient, since nextInt(int) and even nextInt() don't return the entire 48 bit state of the generator.

To get around that, you may need to do some "nasty reflection" to extract the state. And if you are going to do that, the source code shows that the Random class records the value of the seed. So you may as well just extract it directly ... in the same way.

(How? Search for a Q&A that explains how to access a private field using reflection.)


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  • You cannot recover the seed from a single output. Since this is not a cryptographic RNG, you can recover it from a sufficient volume of output. See Cracking a linear congruential generator for more.
    – rossum
    May 19, 2018 at 7:49
  • @rossum: The next()* methods of Random class do not use the low 16 bits of the LCG, hence those are never observed. This makes recovery somewhat more challenging than your link suggests. May 19, 2018 at 13:08
  • Yes, not using the low 16 bits does make it more difficult, but that just needs a longer set of outputs to determine all the parameters of the generator. 16 bits is 65536, so at a maximum that many outputs would determine everything. I suspect a lot less than that, but I cannot be sure without doing the calculation.
    – rossum
    May 19, 2018 at 16:14

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