Okay, hello everyone!
The problem domain for my Prolog problem is cryptographic protocols.
I've a Prolog program I'm trying to run in GNU Prolog. It should work...but of course it doesn't.
I'm trying to put the gist of it here:
% two people, c (the client) and a (the attacker) % we have two public keys (asymmetric cryptographic keys, e.g.PGP) publicKey(k_c). publicKey(k_a). % we have two private keys (asymmetric cryptographic keys, e.g.PGP) privateKey(k_a-1). privateKey(k_c-1). % here I define the two public/private key pairs. keyPair(k_c,k_c-1). keyPair(k_a,k_a-1). % just some kind of id id(c). id(a). % nonces (some kind of value that's always new and is not guessable) nonce(n_c). nonce(n_a). % two functions % enc(Data, Key) encrypts Data with Key cryptoFunction(enc(_,_)). % sign(Data, Key) signs Data with Key (a signature) cryptoFunction(sign(_,_)). % a default message sent from the client to a server init(n_c,k_c,sign([c,k_c],k_c-1)). % Now I want to find out all combinations that can be sent without violating the rules % The server always checks for some kind of guard (see below) % define the message template init(Init_1, Init_2, Init_3) :- % define the types nonce(Init_1), publicKey(Init_2), id(Init_3_1_1), % example: % Init_3_1_2 means init % third parameter of init (the sign function) % first parameter of sign function % second part of the concatenation publicKey(Init_3_1_2), privateKey(Init_3_2), % build the message Init_3 = sign(Init_3_1,Init_3_2), Init_3_1 = [Init_3_1_1,Init_3_1_2], keyPair(Init_2,SignKey). Init_3 == sign([_,Init_2],SignKey).
The last rule of the body, "Init_3 == sign([_,Init_2],SignKey)" is the guard that the server is checking.
Now when I trace with Prolog, the last part is instantiated to
sign([c,k_c],k_c-1) == sign([_281,k_c],k_c-1)
And then fails. Why doesn't _281 instantiate to c? Everything else is okay. Do I have to use Init_3_1_1 as the variable name? Or is there another way to be able to use the guard?
I hope I explained the problem well, if not, please do tell.