Proof of concept implementation of ProtoGalaxy (https://eprint.iacr.org/2023/1106.pdf) using arkworks.
Do not use in production.
Thanks to Liam Eagen and Ariel Gabizon for their kind explanations.
This code has been done in the context of the research on folding schemes in 0xPARC.
(img: protogalaxies colliding, from Wikipedia)
Implementation of ProtoGalaxy's scheme described in section 4 of the paper.
Current version implements the folding on prover & verifier and it works for k-to-1 instances and with multiple iterations, but it is not optimized. Next steps in terms of implementation include: F(X) O(n) construction following Claim 4.4, compute K(X) in O(kd log(kd)M + ndkC) as described in Claim 4.5, add tests folding in multiple iterations and also in a tree approach, add the decider and integrate with some existing R1CS tooling for the R1CS & witness generation.
Example of folding k+1 instances:
// assume we have:
// an R1CS instance 'r1cs'
// a valid witness 'w' from our running instance
// k valid 'witnesses' to be fold
// compute the committed instance for our running witness
let phi = Pedersen::<G1Projective>::commit(&pedersen_params, &witness.w, &witness.r_w);
let instance = CommittedInstance::<G1Projective> {
phi,
betas: betas.clone(),
e: Fr::zero(),
};
// compute the k committed instances to be fold
let mut instances: Vec<CommittedInstance<G1Projective>> = Vec::new();
for i in 0..k {
let phi_i =
Pedersen::<G1Projective>::commit(&pedersen_params, &witnesses[i].w, &witnesses[i].r_w);
let instance_i = CommittedInstance::<G1Projective> {
phi: phi_i,
betas: betas.clone(),
e: Fr::zero(),
};
instances.push(instance_i);
}
// set the initial random betas
let beta = Fr::rand(&mut rng);
let betas = powers_of_beta(beta, t);
// Prover folds the instances and witnesses
let (F_coeffs, K_coeffs, folded_instance, folded_witness) = Folding::<G1Projective>::prover(
&mut transcript_p,
&r1cs,
instance.clone(),
witness,
instances.clone(),
witnesses,
);
// verifier folds the instances
let folded_instance_v = Folding::<G1Projective>::verifier(
&mut transcript_v,
&r1cs,
instance,
instances,
F_coeffs,
K_coeffs,
);
// check that the folded instance satisfies the relation
assert!(check_instance(&r2cs, folded_instance, folded_witness));
// now, the folded instance & witness can be folded again with n other instances.
(see the actual code for more details)