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Although this is a university assignment (homework) I've come to the best solution I could think of. I would achieve full marks with this code as it matches the question, however I was specially allowed to develop it in C# rather than everyone else using Java, kind of a "yeh, show what c# can do" challenge ;-)

The question was:

Create a program to find the password of a SHA1 hash using a brute force technique, assuming passwords are 6 characters long and can only contain lower-case a-z and 0-9.

I created a LINQ query and after I have the possible combinations I need to run them through SHA1 to get a hash and compare it to the provided password hash.

I created this code:

public static string BruteForceHash(string hash)

                var results = from c0 in Enumerable.Range(0, 36)
                              from c1 in Enumerable.Range(0, 36)
                              from c2 in Enumerable.Range(0, 36)
                              from c3 in Enumerable.Range(0, 36)
                              from c4 in Enumerable.Range(0, 36)
                              from c5 in Enumerable.Range(0, 36)
                              select new string(

                string found = null;
                Parallel.ForEach(results, (result, loopstate, a) =>
                                                  string hashed = SHA1(result, Encoding.Default);

                                                  if (hashed == hash)
                                                      found = result;

                if (found != null)
                    return found;

            return "Not found.";

Now my real problem is that it solved easy passwords quickly ("aaaaaa" is instant) but obviously takes longer the further the password is away from "aaaaaa".

I would hope someone could provide some pointers on how to increase the performance.

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Reduce overhead, that's just about it. You could handcraft a SHA1 implementation that used 6 characters. You could try to reduce GC overhead, like why are you using Enumerable.Range? Why not: from c1 in Characters? Also, you might look into trying: select ("" + c0 + c1 +c 2) + ("" + c3 + c4 + c5) instead of your array-based string constructors. However, this just goes to show, brute-force is slow. –  Lasse V. Karlsen Feb 9 '11 at 12:32
Does "run it on a really big box with lots of cores" count? Heck, run it on an azure cluster... –  Marc Gravell Feb 9 '11 at 12:32
@marc: LOL! :) .... –  Mitch Wheat Feb 9 '11 at 12:34
See lassevk.kilnhg.com/Repo/StackOverflow/answers/SO4944816 for my attempt at this problem. –  Lasse V. Karlsen Feb 9 '11 at 13:09
Yes Lasse post as the answer (I'll accept it!), I think your code has given me more performance and a few more ideas on how to improve my code. Although I'm adding long comments/msdn links to explain how it works so the Java people won't be really confused ;-) –  Phil Feb 9 '11 at 16:30

1 Answer 1

up vote 2 down vote accepted

If you are fairly happy with the implementation then I would run the code with a performance profiler like YourKit or DotTrace you can look at the hot spot in the code and look at tuning from there. Sometimes its nice to do this when you are using syntacticly sugared code like LINQ, that way you can get a feel for whats really going on under the hood too...

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