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I'm not that hip on the L33t language beyond what I've read on Wikipedia.

I do need to add a dictionary check to our password-strength-validation tool, and since leet-speak only adds trivial overhead to the password cracking process, I'd like to de-leet-ify the input before checking it against the dictionary.

To clarify the reasoning behind this: When required to add symbols to their passwords many users will simply do some very predictable leet substitution on a common word to meet the number and symbol inclusion requirement. Because it is so predictable, this adds very little actual complexity to the password over just using the original dictionary word. \Edit

Not knowing all the rules, especially the multi-character substitutions like "//" for "W", and being certain this is a problem that has been addressed many times including certainly by open source projects.

I'm looking for code samples, but haven't found any so-far. If it is C# code that would be a bonus!, but code in any common language will help.

Also, it would be nice to have an extensible approach, as I understand this dialect evolves quickly. It would be nice to be able to add-in some rules in a year as those evolve.

And no, this is not the basis for my entire password strength check. This is only the part I am asking for help on in this post. So we are not distracted by other elements of password and security concerns, let me describe the password concerns that don't have to do with leet-speak:

We measure the bits of entropy in the password per NIST special publication 800-63, and require a policy-configurable equivalent measure (56 bits for example) for the password to be valid. This still leaves room for dictionary words that have been simply leet-ed and from an entropy perspective aren't a whole lot better plain dictionary words.

I would simply like to tell users that "P@s5w0rd" is too close a dictionary word, and they could probably find a stronger password.

I know there is a lot more to security considerations like the balance between passwords that humans can remember, and passwords that are secure. This isn't that question.

All I'm asking about is converting l33t to plaintext which should be nearly as fun and interesting of a topic as code golf. Has anyone seen any code samples?

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4 Answers 4

up vote 7 down vote accepted

Also offering some code:

String password  = @"\/\/4573Fu|_";
Dictionary<string, string> leetRules = new Dictionary<string, string>();

leetRules.Add("4", "A");
leetRules.Add(@"/\", "A");
leetRules.Add("@", "A");
leetRules.Add("^", "A");

leetRules.Add("13", "B");
leetRules.Add("/3", "B");
leetRules.Add("|3", "B");
leetRules.Add("8", "B");

leetRules.Add("><", "X");

leetRules.Add("<", "C");
leetRules.Add("(", "C");

leetRules.Add("|)", "D");
leetRules.Add("|>", "D");

leetRules.Add("3", "E");

leetRules.Add("6", "G");

leetRules.Add("/-/", "H");
leetRules.Add("[-]", "H");
leetRules.Add("]-[", "H");

leetRules.Add("!", "I");

leetRules.Add("|_", "L");

leetRules.Add("_/", "J");
leetRules.Add("_|", "J");

leetRules.Add("1", "L");

leetRules.Add("0", "O");

leetRules.Add("5", "S");

leetRules.Add("7", "T");

leetRules.Add(@"\/\/", "W");
leetRules.Add(@"\/", "V");

leetRules.Add("2", "Z");

foreach (KeyValuePair<string,string> x in leetRules)
{
    password = password.Replace(x.Key, x.Value);
}

MessageBox.Show(password.ToUpper());
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I think a map leet=>unleet would be better, as you wouldn't have to type leetRules.Add for every pair. –  tstenner Jul 9 '10 at 19:52
    
Thanks, that is perfect. Extensible, simple. These substitutions could be in a file to make it even more extensible. The suffixes like -xor and -zorz could just be removed. Is there no more to leet than just this substitution cipher? Wasteful? Interesting choice of password. –  DanO Jul 9 '10 at 20:01
    
I though there might be more grammar involved with leet than just substitution. Dealing with grammars was one part of CS I didn't care for. –  DanO Jul 9 '10 at 20:03
    
As far as building on this to support grammar and additional replacements, the function would likely never return just 1 result from an inbound password. If you want to be returned an array of every possible replacement (i.e. h4ck = hack, hax, haxx) then I could assist in expanding it. As it is now, I ordered some replacements specifically to not mess up replacements taking place later. –  Fosco Jul 9 '10 at 20:12
    
@Fosco Even with the ordering, I don't think it's possible to map a leet sequence to only one unleet sequence: \/\3 may be translated to VB, V\E, \A3, \AE, etc... perhaps returning a set of all possible translations would be better? –  samy Aug 19 at 8:27

I must say I think this is a bad idea... If you want them to be strong, come up with better requirements.. must be at least 8 characters, contain upper AND lowercase letters, contain at least one number, and at least one special character. Implement a maximum authorization failure counter before disabling an account. Once that's done, what are you worried about?

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2  
+1 for better direction, more relevant security principles. –  andyortlieb Jul 9 '10 at 17:54
3  
@Stephen even then the OPs question wants to de1337ify that... and they would get something like "leet haxxor" or "elite hacker" depending on what rules they follow, they would be better off adding "l33t haxx0r" to the dictionary of bad passwords. –  Shaded Jul 9 '10 at 18:03
4  
I don't think the OP is only interested in common 1337 wordings, like h4x0r etc., but also the usage of 1337 in a password to conform to his rules. For example, if I normally use "escobar" as my password, then he won't allow "esc0b4r" -- Well, at least that's how I interpret his problem description :) –  cwap Jul 9 '10 at 18:10
2  
@Jonathon: I agree with you. I was just pointing out that this answer doesn't really address the OP's problem - he is already planning on defining strong password requirements. –  Stephen Cleary Jul 9 '10 at 18:16
2  
Thanks all. Many of these suggestions are already in-effect in the system, I didn't mention them because they weren't terribly relevant to the question. I have a complexity measure in in terms of bits of entropy as per the NIST publication on the subject. passwords must be at least equivalent to 56 bits (configurable by policy). But a dictionary check is an important suplement to that. "P@s5W0rd" may pass simple regex checks, and even look like good entropy, but it is not a good password because it is a dictionary word that has been leeted which adds trivial overhead to a dicitonary attack. –  DanO Jul 9 '10 at 18:55

Why don't you just implement a function to just create "pronounceable" passwords and require users to use them? It seems like much less work and better security.

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This is good suggestion, and an interesting idea, as user generated passwords do have inherent problems most of the time. In this case though, users need to be able to choose their own password, and we just have to make sure it is strong enough. That is a great idea to offer if they want help coming up with a password. –  DanO Jul 9 '10 at 22:40

I'm finding the question interesting so here is an additional answer as an intellectual exercice; since leet speak cannot be mapped to a unique word, you have to examine the possible decoded values that one leet speak chain can give. Here some sample code:

public class LeetSpeakDecoder
{
    private Dictionary<string, IEnumerable<string>> Cache { get; set; }
    private Dictionary<string, string> Rules { get; set; }

    public LeetSpeakDecoder()
    {
        Cache = new Dictionary<string, IEnumerable<string>>();
        Rules = new Dictionary<string,string>();

        Rules.Add("4", "A");
        // add rules here...
    }

    public IEnumerable<string> Decode(string leet)
    {
        var list = new List<string>();
        if (Cache.ContainsKey(leet))
        {
            return Cache[leet];
        }

        DecodeOneCharacter(leet, list);
        DecodeMoreThanOneCharacter(leet, list);
        DecodeWholeWord(leet, list);

        list = list.Distinct().ToList();

        Cache.Add(leet, list);
        return list;
    }

    private void DecodeOneCharacter(string leet, List<string> list)
    {
        if (leet.Length == 1)
        {
            list.Add(leet);
        }
    }

    private void DecodeMoreThanOneCharacter(string leet, List<string> list)
    {
        if (leet.Length > 1)
        {   // we split the word in two parts and check how many variations each part will decode to
            for (var splitPoint = 1; splitPoint < leet.Length; splitPoint++)
            {
                foreach (var leftPartDecoded in Decode(leet.Substring(0, splitPoint)))
                {
                    foreach (var rightPartDecoded in Decode(leet.Substring(splitPoint)))
                    {
                        list.Add(leftPartDecoded + rightPartDecoded);
                    }
                }
            }
        }
    }

    private void DecodeWholeWord(string leet, List<string> list)
    {
        if (Rules.ContainsKey(leet))
        {
            list.Add(Rules[leet]);
        }
    }
}

The code considers that

  • one character can be kept as is (DecodeOneCharacter)
  • a word must be decoded by the combination of the decoded values for all the possible splits of the word (DecodeMoreThanOneCharacter)
  • a word must be decoded directly against the rules (DecodeWholeWord)

The caching is very useful since the code is quite inefficient at tracking what permutations are useless: splitting "wasteful" into "w" and "asteful" or into "wa" and "steful" will lead to some repetitions of the decoding on the right, then eventually on the left. I don't have much data on it but it was regularly hit for more than 90% of the decodes; not too shabby for one small addition.

Since it returns a combination of all the possible leet decoded strings you may want to have a look at it for your solution: for example Fosco's code will decode "137M3P455" to "BTMEPASS" but you may want to know that it also translates to "LETMEPASS" -- which should make you cringe a bit more.

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