Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

Microsoft products and other products often have a product key that is 5 groups of 5 characters, like this:

ABCDE-12345-ABCDE-12345-VWXYZ

How does the product know if the key is valid? Some sort of cryptography? Is there a library if I want to use this kind of product key in my code?

share|improve this question
3  
MS would probably never reveal their algorithm. –  Rafe Kettler Dec 1 '10 at 6:02
3  
Just like 27-character product keys, only faster. As long as no-one comes up with 23-character product keys, we should be fine :-) {with apologies to the Farrelly brothers}. –  paxdiablo Dec 1 '10 at 6:04

2 Answers 2

You might want to have a look at this article on how to implement a serial number validation function. It also goes into some advanced techniques such as how to keep on top of keygens, leaked keys, etc.

In short, there are typically three underlying fields in such a key:

  • the actual serial number, which the article calls a "seed"
  • some verification data; only part of the verification data is actually checked by the code
  • a checksum, CRC or other simple typo-proofing mechanism

By only implementing part of the verification data checking in your code, you can do things like "genuine validation" (in which case the rest of the verification happens on your server) or trip up keygens by checking different subsets of the validation data in new releases.

share|improve this answer

There are four ways to confirm a key.

  1. Simple compare to an existing string in the exe (extremely easy to crack)
  2. Algorithmic compare to an entered string of characters (almost as easy as #1. Depends entirely on the reverse engineering skills of the cracker).
  3. Compare with a server over the internet. (can be circumvented)
  4. Hardware dongle.

Depending on the product you have from microsoft, they use one of the first 3 mechanisms above. For example, their OS's usually phone home; but their dev tools either have the key baked in or do an algorithmic compare. Some of their older OS's used to do the algorithm.

There is a modified option 3, but that is simply having the app phone home every so often, typically based on some event. In the case of OS's, MS has it validate the entered product key for certain windows updates and other product downloads. Also, depending on the license key itself it might phone home once a month or so. As a side note, there is a reason why China has the #1 installed base of IE6.

The 4th option can also be circumvented. Usually the cracker will just patch your product to bypass the part of the code which does the hardware check.

share|improve this answer
    
How would the algorithmic compare work? –  Chetan Dec 1 '10 at 6:04
    
Is it more secure to store hash of keys instead of keys in exe? –  ArsenMkrt Dec 1 '10 at 6:05
    
@ArsenMkrt: Nope. Any exe can be decompiled. When this happens the algorithm you use to hash the entered key (for comparison) will be known. When that's known, then it becomes trivial to build a rainbow table to get a working key. People are now using various cloud services to crack keys in a matter of minutes. –  Chris Lively Dec 1 '10 at 6:08
1  
@ArsenMkrt: Point is, you can make it hard, but not impossible. You should make it hard enough that normal people will just go ahead and pay for whatever it is you're trying to protect. The crooks are going to be crooks no matter what. –  Chris Lively Dec 1 '10 at 6:09
2  
And option 3 can be circumvented by anyone who can disassemble and tinker with their own network router or DNS server. It is trivial to set up a fake authentication server and direct traffic to it. If the program validates the server's authenticity using an SSL certificate or something similar, something as simple as a hex editor can be used to overwrite that certificate with a forged one from the attacker. In short: if it's running on someone else's computer, you ultimately have no way to protect it 100%. –  cdhowie Dec 1 '10 at 6:12

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.