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152 lines
4.6 KiB
Rust
152 lines
4.6 KiB
Rust
use core::ops::Deref;
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use hex_literal::hex;
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use rand_core::OsRng;
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use zeroize::Zeroizing;
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use ff::Field;
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use group::GroupEncoding;
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use k256::{Scalar, ProjectivePoint};
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use transcript::{Transcript, RecommendedTranscript};
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use crate::{DLEqProof, MultiDLEqProof};
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#[cfg(feature = "experimental")]
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mod cross_group;
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fn generators() -> [k256::ProjectivePoint; 5] {
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[
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ProjectivePoint::GENERATOR,
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ProjectivePoint::from_bytes(
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&(hex!("0250929b74c1a04954b78b4b6035e97a5e078a5a0f28ec96d547bfee9ace803ac0").into()),
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)
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.unwrap(),
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// Just an increment of the last byte from the previous, where the previous two are valid
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ProjectivePoint::from_bytes(
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&(hex!("0250929b74c1a04954b78b4b6035e97a5e078a5a0f28ec96d547bfee9ace803ac4").into()),
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)
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.unwrap(),
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ProjectivePoint::from_bytes(
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&(hex!("0250929b74c1a04954b78b4b6035e97a5e078a5a0f28ec96d547bfee9ace803aca").into()),
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)
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.unwrap(),
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ProjectivePoint::from_bytes(
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&(hex!("0250929b74c1a04954b78b4b6035e97a5e078a5a0f28ec96d547bfee9ace803acb").into()),
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)
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.unwrap(),
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]
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}
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#[test]
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fn test_dleq() {
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let generators = generators();
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let transcript = || RecommendedTranscript::new(b"DLEq Proof Test");
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for i in 0 .. 5 {
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let key = Zeroizing::new(Scalar::random(&mut OsRng));
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let proof = DLEqProof::prove(&mut OsRng, &mut transcript(), &generators[.. i], &key);
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let mut keys = [ProjectivePoint::GENERATOR; 5];
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for k in 0 .. 5 {
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keys[k] = generators[k] * key.deref();
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}
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proof.verify(&mut transcript(), &generators[.. i], &keys[.. i]).unwrap();
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// Different challenge
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assert!(proof
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.verify(
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&mut RecommendedTranscript::new(b"different challenge"),
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&generators[.. i],
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&keys[.. i]
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)
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.is_err());
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// All of these following tests should effectively be a different challenge and accordingly
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// pointless. They're still nice to have though
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// We could edit these tests to always test with at least two generators
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// Then we don't test proofs with zero/one generator(s)
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// While those are stupid, and pointless, and potentially point to a failure in the caller,
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// it could also be part of a dynamic system which deals with variable amounts of generators
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// Not panicking in such use cases, even if they're inefficient, provides seamless behavior
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if i >= 2 {
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// Different generators
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assert!(proof
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.verify(
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&mut transcript(),
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generators[.. i].iter().copied().rev().collect::<Vec<_>>().as_ref(),
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&keys[.. i]
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)
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.is_err());
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// Different keys
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assert!(proof
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.verify(
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&mut transcript(),
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&generators[.. i],
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keys[.. i].iter().copied().rev().collect::<Vec<_>>().as_ref()
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)
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.is_err());
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}
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#[cfg(feature = "serialize")]
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{
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let mut buf = vec![];
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proof.write(&mut buf).unwrap();
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let deserialized = DLEqProof::<ProjectivePoint>::read::<&[u8]>(&mut buf.as_ref()).unwrap();
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assert_eq!(proof, deserialized);
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}
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}
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}
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#[test]
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fn test_multi_dleq() {
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let generators = generators();
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let transcript = || RecommendedTranscript::new(b"MultiDLEq Proof Test");
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// Test up to 3 keys
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for k in 0 ..= 3 {
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let mut keys = vec![];
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let mut these_generators = vec![];
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let mut pub_keys = vec![];
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for i in 0 .. k {
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let key = Zeroizing::new(Scalar::random(&mut OsRng));
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// For each key, test a variable set of generators
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// 0: 0
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// 1: 1, 2
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// 2: 2, 3, 4
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let key_generators = generators[i ..= (i + i)].to_vec();
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let mut these_pub_keys = vec![];
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for generator in &key_generators {
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these_pub_keys.push(generator * key.deref());
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}
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keys.push(key);
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these_generators.push(key_generators);
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pub_keys.push(these_pub_keys);
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}
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let proof = MultiDLEqProof::prove(&mut OsRng, &mut transcript(), &these_generators, &keys);
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proof.verify(&mut transcript(), &these_generators, &pub_keys).unwrap();
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// Different challenge
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assert!(proof
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.verify(&mut RecommendedTranscript::new(b"different challenge"), &these_generators, &pub_keys)
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.is_err());
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// Test verifying for a different amount of keys fail
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if k > 0 {
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assert!(proof.verify(&mut transcript(), &these_generators, &pub_keys[.. k - 1]).is_err());
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}
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#[cfg(feature = "serialize")]
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{
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let mut buf = vec![];
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proof.write(&mut buf).unwrap();
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let deserialized =
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MultiDLEqProof::<ProjectivePoint>::read::<&[u8]>(&mut buf.as_ref(), k).unwrap();
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assert_eq!(proof, deserialized);
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}
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}
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}
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