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extern crate openssl;
pub mod crypto;
mod types;
mod math;
mod dleq;
mod pdleq;
pub mod simple;
pub mod scrape;
#[cfg(test)]
mod tests {
use crypto::*;
use crypto;
use dleq;
use simple;
use scrape;
pub const NB_TESTS: usize = 100;
#[test]
fn crypto_point_add_identity() {
for _ in 0..NB_TESTS {
let i = Scalar::generate();
let p = Point::from_scalar(&i);
assert!(p.clone() + Point::infinity() == p);
}
}
#[test]
fn crypto_point_generator() {
let g = Point::generator();
for _ in 0..NB_TESTS {
let i = Scalar::generate();
let p1 = Point::from_scalar(&i);
let p2 = g.mul(&i);
assert!(p1 == p2);
}
}
#[test]
fn dleq_works() {
for _ in 0..NB_TESTS {
let a = Scalar::generate();
let w = Scalar::generate();
let extra_gen = Point::from_scalar(&Scalar::generate());
let lifted_a = Point::from_scalar(&a);
let lifted_extra_a = extra_gen.mul(&a);
let dleq = dleq::DLEQ {
g1: Point::generator(),
h1: lifted_a,
g2: extra_gen,
h2: lifted_extra_a,
};
let proof = dleq::Proof::create(w, a, dleq.clone());
assert!(proof.verify(dleq));
}
}
#[test]
fn pvss_works() {
let tests = [(1, 4), (5, 5), (2, 8), (10, 50), (48, 50), (2, 20), (10, 100)];
for test in tests.iter() {
let &(t, nb_keys) = test;
println!("t={} n={}", t, nb_keys);
let mut keys = Vec::with_capacity(nb_keys);
let mut pubs = Vec::with_capacity(nb_keys);
for _ in 0..nb_keys {
let (public, private) = crypto::create_keypair();
keys.push(private);
pubs.push(public);
}
let escrow = simple::escrow(t);
let commitments = simple::commitments(&escrow);
let shares = simple::create_shares(&escrow, &pubs);
let mut decrypted = Vec::with_capacity(100);
assert_eq!(t as usize, commitments.len());
assert_eq!(pubs.len(), shares.len());
for share in shares {
assert!(share.id > 0);
let idx = (share.id - 1) as usize;
let verified_encrypted =
share.verify(share.id, &pubs[idx], &escrow.extra_generator, &commitments);
assert!(verified_encrypted,
"encrypted share {} verification failed",
share.id);
let d = simple::decrypt_share(&keys[idx], &pubs[idx], &share);
let verified_decrypted = d.verify(&pubs[idx], &share);
assert!(verified_decrypted);
decrypted.push(d);
}
let recovered = simple::recover(t, decrypted.as_slice()).unwrap();
assert!(recovered == escrow.secret);
let verify_secret = simple::verify_secret(recovered,
escrow.extra_generator,
&commitments,
escrow.proof);
assert!(verify_secret, "secret not verified");
}
}
#[test]
fn scrape_works() {
let tests = [(1, 4), (2, 8), (10, 50), (48, 50), (2, 20), (10, 100)];
for test in tests.iter() {
let &(t, nb_keys) = test;
println!("t={} n={}", t, nb_keys);
let mut keys = Vec::with_capacity(nb_keys);
let mut pubs = Vec::with_capacity(nb_keys);
for _ in 0..nb_keys {
let (public, private) = crypto::create_keypair();
keys.push(private);
pubs.push(public);
}
let escrow = scrape::escrow(t);
let public_shares = scrape::create_shares(&escrow, &pubs);
let mut decrypted = Vec::with_capacity(100);
assert_eq!(nb_keys, public_shares.commitments.len());
assert_eq!(nb_keys, public_shares.encrypted_shares.len());
assert!(public_shares.verify(&pubs));
for share in &public_shares.encrypted_shares {
assert!(share.id > 0);
let idx = (share.id - 1) as usize;
let d = scrape::decrypt_share(&keys[idx], &pubs[idx], &share);
let verified_decrypted = d.verify(&pubs[idx], &share);
assert!(verified_decrypted);
decrypted.push(d);
}
let recovered = scrape::recover(t, decrypted.as_slice()).unwrap();
assert!(recovered == escrow.secret);
let verify_secret = scrape::verify_secret(recovered, &public_shares);
assert!(verify_secret, "secret not verified");
}
}
}