2021-04-30 15:07:54 +02:00
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use crate::field::field::Field;
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2021-05-04 19:56:34 +02:00
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use crate::field::lagrange::interpolant;
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use crate::fri::{fri_proof, verify_fri_proof, FriConfig};
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use crate::merkle_tree::MerkleTree;
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use crate::plonk_challenger::Challenger;
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use crate::plonk_common::reduce_with_powers;
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use crate::polynomial::old_polynomial::Polynomial;
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use crate::polynomial::polynomial::PolynomialCoeffs;
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use crate::proof::{FriProof, Hash};
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use crate::util::{log2_strict, reverse_index_bits_in_place, transpose};
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use anyhow::Result;
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struct ListPolynomialCommitment<F: Field> {
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pub polynomials: Vec<PolynomialCoeffs<F>>,
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pub fri_config: FriConfig,
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pub merkle_tree: MerkleTree<F>,
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pub degree: usize,
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pub blinding: bool,
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}
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impl<F: Field> ListPolynomialCommitment<F> {
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pub fn new(
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polynomials: Vec<PolynomialCoeffs<F>>,
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fri_config: &FriConfig,
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blinding: bool,
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) -> Self {
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let degree = polynomials[0].len();
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let lde_values = polynomials
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.iter()
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.map(|p| {
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assert_eq!(p.len(), degree, "Polynomial degree invalid.");
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p.clone()
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.lde(fri_config.rate_bits)
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.coset_fft(F::MULTIPLICATIVE_GROUP_GENERATOR)
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.values
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})
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.chain(blinding.then(|| {
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(0..(degree << fri_config.rate_bits))
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.map(|_| F::rand())
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.collect()
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}))
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.collect::<Vec<_>>();
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let mut leaves = transpose(&lde_values);
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reverse_index_bits_in_place(&mut leaves);
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// let merkle_tree = MerkleTree::new(transpose(&lde_values), false);
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let merkle_tree = MerkleTree::new(leaves, false);
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Self {
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polynomials,
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fri_config: fri_config.clone(),
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merkle_tree,
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degree,
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blinding,
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}
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}
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pub fn open(&self, points: &[F], challenger: &mut Challenger<F>) -> OpeningProof<F> {
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for p in points {
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assert_ne!(
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p.exp_usize(self.degree),
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F::ONE,
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"Opening point is in the subgroup."
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);
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}
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let evaluations = points
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.iter()
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.map(|&x| {
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self.polynomials
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.iter()
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.map(|p| p.eval(x))
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.collect::<Vec<_>>()
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})
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.collect::<Vec<_>>();
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for evals in &evaluations {
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challenger.observe_elements(evals);
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}
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challenger.observe_hash(&self.merkle_tree.root);
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let alpha = challenger.get_challenge();
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let scaled_poly = self
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.polynomials
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.iter()
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.rev()
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.map(|p| p.clone().into())
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.fold(Polynomial::empty(), |acc, p| acc.scalar_mul(alpha).add(&p));
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let scaled_evals = evaluations
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.iter()
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.map(|e| reduce_with_powers(e, alpha))
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.collect::<Vec<_>>();
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let pairs = points
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.iter()
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.zip(&scaled_evals)
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.map(|(&x, &e)| (x, e))
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.collect::<Vec<_>>();
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debug_assert!(pairs.iter().all(|&(x, e)| scaled_poly.eval(x) == e));
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let interpolant: Polynomial<F> = interpolant(&pairs).into();
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let denominator = points
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.iter()
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.fold(Polynomial::from(vec![F::ONE]), |acc, &x| {
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acc.mul(&vec![-x, F::ONE].into())
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});
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let numerator = scaled_poly.add(&interpolant.neg());
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let (mut quotient, rem) = numerator.polynomial_division(&denominator);
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debug_assert!(rem.is_zero());
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quotient.pad((quotient.degree() + 1).next_power_of_two());
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let lde_quotient = PolynomialCoeffs::from(quotient.clone()).lde(self.fri_config.rate_bits);
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let lde_quotient_values = lde_quotient
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.clone()
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.coset_fft(F::MULTIPLICATIVE_GROUP_GENERATOR);
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let fri_proof = fri_proof(
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&[self.merkle_tree.clone()],
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&lde_quotient,
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&lde_quotient_values,
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challenger,
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&self.fri_config,
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);
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OpeningProof {
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evaluations,
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merkle_root: self.merkle_tree.root,
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fri_proof,
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quotient_degree: quotient.len(),
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}
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}
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}
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pub struct OpeningProof<F: Field> {
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evaluations: Vec<Vec<F>>,
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merkle_root: Hash<F>,
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fri_proof: FriProof<F>,
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quotient_degree: usize,
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}
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impl<F: Field> OpeningProof<F> {
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pub fn verify(
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&self,
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points: &[F],
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challenger: &mut Challenger<F>,
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fri_config: &FriConfig,
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) -> Result<()> {
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for evals in &self.evaluations {
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challenger.observe_elements(evals);
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}
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challenger.observe_hash(&self.merkle_root);
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let alpha = challenger.get_challenge();
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let scaled_evals = self
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.evaluations
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.iter()
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.map(|e| reduce_with_powers(e, alpha))
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.collect::<Vec<_>>();
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let pairs = points
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.iter()
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.zip(&scaled_evals)
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.map(|(&x, &e)| (x, e))
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.collect::<Vec<_>>();
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verify_fri_proof(
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log2_strict(self.quotient_degree),
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&pairs,
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alpha,
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&[self.merkle_root],
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&self.fri_proof,
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challenger,
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fri_config,
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)
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}
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}
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#[cfg(test)]
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mod tests {
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use super::*;
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use crate::field::crandall_field::CrandallField;
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use anyhow::Result;
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#[test]
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fn test_polynomial_commitment() -> Result<()> {
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type F = CrandallField;
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let k = 10;
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let degree_log = 11;
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let degree = 1 << degree_log;
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let fri_config = FriConfig {
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proof_of_work_bits: 2,
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rate_bits: 2,
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reduction_arity_bits: vec![3, 2, 1, 2],
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num_query_rounds: 3,
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};
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let polys = (0..k)
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.map(|_| PolynomialCoeffs::new((0..degree).map(|_| F::rand()).collect()))
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.collect();
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let lpc = ListPolynomialCommitment::new(polys, &fri_config, false);
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let num_points = 3;
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let points = (0..num_points).map(|_| F::rand()).collect::<Vec<_>>();
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let proof = lpc.open(&points, &mut Challenger::new());
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proof.verify(&points, &mut Challenger::new(), &fri_config)
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}
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}
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