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| Author | SHA1 | Date | |
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| ffe9084566 |
Generated
+932
-757
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@@ -7,17 +7,18 @@ use std::borrow::Borrow;
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use std::convert::TryInto;
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use bls12_381::{G1Projective, G2Projective, Scalar};
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use digest::generic_array::typenum::Unsigned;
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use digest::Digest;
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use digest::generic_array::typenum::Unsigned;
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use group::GroupEncoding;
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use itertools::izip;
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use sha2::Sha256;
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use crate::Attribute;
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use crate::error::{CoconutError, Result};
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use crate::scheme::issuance::compute_commitment_hash;
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use crate::scheme::setup::Parameters;
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use crate::scheme::VerificationKey;
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use crate::utils::{hash_g1, try_deserialize_scalar, try_deserialize_scalar_vec};
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use crate::Attribute;
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// as per the reference python implementation
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type ChallengeDigest = Sha256;
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@@ -38,10 +39,10 @@ pub struct ProofCmCs {
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// and as per the bls12-381 library all elements are using big-endian form
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/// Generates a Scalar [or Fp] challenge by hashing a number of elliptic curve points.
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fn compute_challenge<D, I, B>(iter: I) -> Scalar
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where
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D: Digest,
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I: Iterator<Item = B>,
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B: AsRef<[u8]>,
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where
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D: Digest,
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I: Iterator<Item=B>,
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B: AsRef<[u8]>,
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{
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let mut h = D::new();
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for point_representation in iter {
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@@ -69,8 +70,8 @@ fn produce_response(witness: &Scalar, challenge: &Scalar, secret: &Scalar) -> Sc
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// note: it's caller's responsibility to ensure witnesses.len() = secrets.len()
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fn produce_responses<S>(witnesses: &[Scalar], challenge: &Scalar, secrets: &[S]) -> Vec<Scalar>
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where
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S: Borrow<Scalar>,
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where
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S: Borrow<Scalar>,
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{
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debug_assert_eq!(witnesses.len(), secrets.len());
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@@ -91,6 +92,7 @@ impl ProofCmCs {
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commitments: &[G1Projective],
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pedersen_commitments_openings: &[Scalar],
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private_attributes: &[Attribute],
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public_attributes: &[Attribute],
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) -> Self {
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// note: this is only called from `prepare_blind_sign` that already checks
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// whether private attributes are non-empty and whether we don't have too many
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@@ -104,7 +106,7 @@ impl ProofCmCs {
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let witness_attributes = params.n_random_scalars(private_attributes.len());
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// recompute h
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let h = hash_g1(commitment.to_bytes());
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let h = compute_commitment_hash(*commitment, public_attributes);
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let hs_bytes = params
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.gen_hs()
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.iter()
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@@ -119,10 +121,10 @@ impl ProofCmCs {
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// Ccm = (wr * g1) + (wm[0] * hs[0]) + ... + (wm[i] * hs[i])
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let commitment_attributes = g1 * witness_commitment_opening
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+ witness_attributes
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.iter()
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.zip(params.gen_hs().iter())
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.map(|(wm_i, hs_i)| hs_i * wm_i)
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.sum::<G1Projective>();
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.iter()
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.zip(params.gen_hs().iter())
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.map(|(wm_i, hs_i)| hs_i * wm_i)
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.sum::<G1Projective>();
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// zkp commitments for the individual attributes
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let commitments_attributes = witness_pedersen_commitments_openings
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@@ -186,7 +188,7 @@ impl ProofCmCs {
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}
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// recompute h
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let h = hash_g1(commitment.to_bytes());
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let h = compute_commitment_hash(*commitment, public_attributes);
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let g1 = params.gen1();
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let hs_bytes = params
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@@ -199,26 +201,26 @@ impl ProofCmCs {
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// Cw = (cm * c) + (rr * g1) + (rm[0] * hs[0]) + ... + (rm[n] * hs[n])
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let commitment_attributes = (commitment
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- public_attributes
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.iter()
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.zip(params.gen_hs().iter().skip(self.response_attributes.len()))
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.map(|(pub_attr, hs)| hs * pub_attr)
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.sum::<G1Projective>())
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.iter()
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.zip(params.gen_hs().iter().skip(self.response_attributes.len()))
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.map(|(pub_attr, hs)| hs * pub_attr)
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.sum::<G1Projective>())
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* self.challenge
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+ g1 * self.response_opening
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+ self
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.response_attributes
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.iter()
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.zip(params.gen_hs().iter())
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.map(|(res_attr, hs)| hs * res_attr)
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.sum::<G1Projective>();
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.response_attributes
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.iter()
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.zip(params.gen_hs().iter())
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.map(|(res_attr, hs)| hs * res_attr)
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.sum::<G1Projective>();
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let commitments_attributes = izip!(
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commitments.iter(),
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self.response_openings.iter(),
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self.response_attributes.iter()
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)
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.map(|(cm_j, r_o_j, r_m_j)| cm_j * self.challenge + g1 * r_o_j + h * r_m_j)
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.collect::<Vec<_>>();
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.map(|(cm_j, r_o_j, r_m_j)| cm_j * self.challenge + g1 * r_o_j + h * r_m_j)
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.collect::<Vec<_>>();
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let commitments_bytes = commitments
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.iter()
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@@ -365,10 +367,10 @@ impl ProofKappaZeta {
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let commitment_kappa = params.gen2() * witness_blinder
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+ verification_key.alpha
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+ witness_attributes
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.iter()
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.zip(verification_key.beta_g2.iter())
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.map(|(wm_i, beta_i)| beta_i * wm_i)
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.sum::<G2Projective>();
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.iter()
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.zip(verification_key.beta_g2.iter())
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.map(|(wm_i, beta_i)| beta_i * wm_i)
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.sum::<G2Projective>();
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// zeta is the public value associated with the serial number
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let commitment_zeta = params.gen2() * witness_serial_number;
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@@ -422,10 +424,10 @@ impl ProofKappaZeta {
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+ params.gen2() * self.response_blinder
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+ verification_key.alpha * (Scalar::one() - self.challenge)
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+ response_attributes
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.iter()
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.zip(verification_key.beta_g2.iter())
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.map(|(priv_attr, beta_i)| beta_i * priv_attr)
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.sum::<G2Projective>();
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.iter()
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.zip(verification_key.beta_g2.iter())
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.map(|(priv_attr, beta_i)| beta_i * priv_attr)
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.sum::<G2Projective>();
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// zeta is the public value associated with the serial number
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let commitment_zeta = zeta * self.challenge + params.gen2() * self.response_serial_number;
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@@ -529,9 +531,18 @@ mod tests {
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let cms: [G1Projective; 1] = [G1Projective::random(&mut rng)];
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let rs = params.n_random_scalars(1);
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let private_attributes = params.n_random_scalars(1);
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let public_attributes = params.n_random_scalars(1);
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// 0 public 1 private
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let pi_s = ProofCmCs::construct(¶ms, &cm, &r, &cms, &rs, &private_attributes);
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let pi_s = ProofCmCs::construct(
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¶ms,
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&cm,
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&r,
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&cms,
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&rs,
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&private_attributes,
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&public_attributes,
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);
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let bytes = pi_s.to_bytes();
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assert_eq!(ProofCmCs::from_bytes(&bytes).unwrap(), pi_s);
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@@ -547,7 +558,15 @@ mod tests {
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let private_attributes = params.n_random_scalars(2);
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// 0 public 2 privates
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let pi_s = ProofCmCs::construct(¶ms, &cm, &r, &cms, &rs, &private_attributes);
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let pi_s = ProofCmCs::construct(
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¶ms,
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&cm,
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&r,
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&cms,
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&rs,
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&private_attributes,
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&public_attributes,
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);
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let bytes = pi_s.to_bytes();
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assert_eq!(ProofCmCs::from_bytes(&bytes).unwrap(), pi_s);
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@@ -201,8 +201,16 @@ pub fn compute_pedersen_commitments_for_private_attributes(
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(commitments_openings, pedersen_commitments)
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}
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pub fn compute_commitment_hash(commitment: G1Projective) -> G1Projective {
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hash_g1(commitment.to_bytes())
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pub fn compute_commitment_hash(
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commitment: G1Projective,
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public_attributes: &[Attribute],
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) -> G1Projective {
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let mut msg_bytes = Vec::with_capacity(public_attributes.len() * 32);
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msg_bytes.extend_from_slice(&commitment.to_affine().to_compressed());
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for attr in public_attributes {
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msg_bytes.extend_from_slice(&attr.to_bytes());
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}
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hash_g1(msg_bytes)
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}
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/// Builds cryptographic material required for blind sign.
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@@ -230,7 +238,7 @@ pub fn prepare_blind_sign(
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compute_attributes_commitment(params, private_attributes, public_attributes, hs);
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// Compute the challenge as the commitment hash
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let commitment_hash = compute_commitment_hash(commitment);
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let commitment_hash = compute_commitment_hash(commitment, public_attributes);
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let (pedersen_commitments_openings, pedersen_commitments) =
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compute_pedersen_commitments_for_private_attributes(
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@@ -246,6 +254,7 @@ pub fn prepare_blind_sign(
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&pedersen_commitments,
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&pedersen_commitments_openings,
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private_attributes,
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public_attributes,
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);
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Ok((
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@@ -276,7 +285,7 @@ pub fn blind_sign(
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}
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// Verify the commitment hash
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let h = hash_g1(blind_sign_request.commitment.to_bytes());
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let h = compute_commitment_hash(blind_sign_request.commitment, public_attributes);
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if !(h == blind_sign_request.commitment_hash) {
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return Err(CoconutError::Issuance(
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"Failed to verify the commitment hash".to_string(),
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Reference in New Issue
Block a user