# Permutation Generation

Some members of my team were discussing password storage and general security issues today. Anyway, the discussion briefly touched upon how quick GPU-accelerated brute-force attacks are compared to the traditional CPU-only implementations.

This got me interested, so I decided to play around with some code. Since I've never written anything like this before, I decided to write a simple (CPU-only) brute-forcer. My initial implementation dealt with a fixed length (4 digit) password. For testing purposes, I implemented it a la:

``````for(char a = '0'; a <= '9'; ++a)
{
for(char b = '0'; b <= '9'; ++b)
{
for(char c = '0'; c <= '9'; ++c)
{
for(char d = '0'; d <= '9'; ++d)
{
candidate[0] = a; candidate[1] = b;
candidate[2] = c; candidate[3] = d;

// Test 'candidate'...
}
}
}
}
``````

This works well, but is obviously inflexible. I attempted to generalize the above to handle any password length but have failed to do so. For some reason, I can't get my head around the logic that these brute-forcers use to run through 1-n character possibilities given an "alphabet".

Is there some common algorithm that allows you to accomplish this? Any examples welcome.

-
The concept you are looking for is called recursion :) –  Sven Marnach Dec 3 '10 at 19:41
Duplicate - stackoverflow.com/q/3183469/21727 –  mbeckish Dec 3 '10 at 19:43
the problem is that you should have n nested loop, but n is known only at runtime... =/ –  BlackBear Dec 3 '10 at 19:47

Search engines are your friends :) C++ Brute force example

(Scroll down a little bit..)

-

Here's a Iterative Version....The following works only for lowercase, but can easily be modified....

``````public static String nextLexographicWord(String txt)
{
char [] letters = txt.toCharArray();
int l = letters .length - 1;
while(l >= 0)
{
if(letters[l] == 'z')
letters[l] = 'a';
else
{
letters[l]++;
break;
}
l--;
}
if(l < 0) return 'a' + (new String(letters));
return new String(letters);
}
``````
-
It's java, btw.... –  st0le Dec 6 '10 at 5:38