Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free.

I've been looking at this all day. I probably should have walked away from it hours ago; I might be missing something obvious at this point.

Short version: Is there a way to generate and boil down an asymmetrically encrypted hash to a reasonable number of unambiguous, human readable characters?

Long version:

I want to generate license keys for my software. I would like these keys to be of a reasonable length (25-36 characters) and easily read and entered by a human (so avoid ambiguous characters like the number 0 and the capital letter O).

Finally--and this seems to be the kicker--I'd really like to use asymmetric encryption to make it more difficult to generate new keys.

I've got the general approach: concatenate my information (user name, product version, a salt) into a string and generate a SHA1() hash from that, then encrypt the hash with my private key. On the client, build the SHA1() hash from the same information, then decrypt the license with the public key and see if I've got a match.

Since this is a Mac app, I looked at AquaticPrime, but that generates a relatively large license file rather than a string. I can work with that if I must, but as a user I really like the convenience of a license key that I can read and print.

I also looked at CocoaFob which does generate a key, but it is so long that I'd want to deliver it as a file anyway.

I fooled around with OpenSSL for a while but couldn't come up with anything of a reasonable length.

So...am I missing something obvious here? Is there a way to generate and boil down an asymmetrically encrypted hash to a reasonable number of unambiguous, human readable characters?

I'm open to buying a solution. But I work on a number of different of platforms, so I'd want something portable. Everything I've looked at so far has been platform specific.

Many, many thanks for a solution!

PS - Yes, I know it will still be cracked. I'm trying to come up with something reasonable that, as a user, I would still find friendly.

share|improve this question
    
The answer seems to be: no, you can't. I'll leave the question open in case someone can prove me wrong, but from what I can tell it just takes that many bytes to encrypt a hash, and that's just how it is. I ended up using CocoaFob, and so far no one has complained about the (absurdly) long license keys. –  starkos Jun 18 '10 at 22:47
2  
As a point of interest: my app, obscure as it is, was cracked in less than 24 hours. But it requires the executable to be patched (they swap out my public key with one of their own) before their keygen will work. I can easily break the patch with each new release (just shuffle the key around) so I can live with it. –  starkos Jun 18 '10 at 22:50

4 Answers 4

up vote 1 down vote accepted

Unfortunately, no. If you make it shorter, you lose information and won't be able to recreate the original hash.

However, here's a couple things you may try:

  • Use base32. Map it to all the available letters in the alphabet that aren't ambiguous. (0vsO, etc.)
  • Use DSA, it tends to be more compact than RSA.
  • Making your input shorter (truncating the sha1 hash, or using md5 instead, for example) might make the output shorter, too.
share|improve this answer
    
Truncating the hash, and then using fewer bits for the encryption, sounds like a good suggestion. –  starkos Jan 6 '11 at 11:59

I would consider the MD5 algorithm. It's widely implemented and will generate a 32 character alphanumeric string regardless of the input size. Apply the algorithm to your SHA1 hash and it may be what you're looking for.

share|improve this answer
    
MD5 would only save four bytes over SHA1, and regardless it isn't encryption, just a hash. Anyone who figures out the input data would be able to generate their own license keys. By adding a private/public keypair, they won't be able to create new licenses without the private key. (They can still hack the binary, but that's a different problem) –  starkos Apr 28 '10 at 1:20

Treat each SHA1 character as hex, perhaps drop any unnecessary formatting, (dashes or brackets), use some array mapping to convert 0-9A-F as say A-P in some random order, use that as your 'human' entered text. MD5 will give you your 32 chars or a few more for SHA1. Unmap the chars back to your SHA1/MD5 string/bytes and proceed from there.

share|improve this answer
    
Okay, but the question was "Is there a way to...boil down an <b>asymmetrically encrypted</b> hash. –  starkos Jun 18 '10 at 22:40
    
I don't think it matters how you arrive at the bytes/string, asymmetrically or not. The hash output is 'designed' to 'occupy' the bit-space, ie: 128 bits, 160 bits, etc. You either take it as-is, or post-process it: truncate it or boil-it-down anyway you choose, but you will lose the uniqueness of the hash or/and the cryptographic strength of the hash. A simple truncation should work and be 'good enough', providing internally you can compute the full hash to start with before you compare with a trucated part. –  andora Jun 19 '10 at 15:12
    
Distributing a hash of an asymmetric key makes no sense; you'd have to include the private key in the client to verify the hash! I am computing a hash, then encrypting it, and that is my (long) license key. –  starkos Jun 21 '10 at 14:07

I will not answer on the encryption part, but the thing I have started to do registration interfaces is to check the clipboard for text when the interface is raised. If text is present on the clipboard, scan it to see if the user has copied their registration information from somewhere (email, web page, etc.) and if you find information that could be your registration info/keys, pre-populate the registration interface with it.

It is also a good idea to show a small alert on the interface indicating that the info was successfully scraped from the clipboard (or not!) just so the user knows what did or did not happen.

share|improve this answer

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.