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Basically, my understanding of the process so far is that I choose a modulus (p), a generator (g), and a random private key (xa) that is between 1 and p-1, inclusive. The provider chooses a random private key (xb). The shared secret is g ^ (xa * xb) mod p = (g ^ xa) ^ xb mod p = (g ^xb) ^ xa mod p.

I haven't taken math in about three years, so I have no idea what that means (once the mod function is hit) and have no idea why there are three equals signs (my best guess is that those three statements need to equal each other). I'm trying to use Javascript to generate a shared secret for a MAC key to do OpenID requests against Google's servers. Can anyone offer some assistance or clarification?

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The three statements do equal each other. Take your generator value to the provider's random key power, and then calculate that to your random private key's power, and then get the remainder after dividing that value by p. –  stevebot Nov 27 '10 at 8:13
    
Shouldn't these keys be taking care of by OpenID library? Are you writing a library for OpenID login? –  timdream Nov 28 '10 at 7:48
    
timdream: Yes, I am. :) –  Paddy Foran Dec 2 '10 at 19:31

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up vote 2 down vote accepted

The process you describe is known as Diffie-Hellman Key Exchange. You can find an implementation for javascript here, for example.

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