mirror of https://github.com/poanetwork/hbbft.git
107 lines
3.8 KiB
Rust
107 lines
3.8 KiB
Rust
#![deny(unused_must_use)]
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//! Tests for synchronous distributed key generation.
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extern crate env_logger;
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extern crate hbbft;
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extern crate rand;
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extern crate threshold_crypto as crypto;
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use std::collections::BTreeMap;
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use crypto::{PublicKey, SecretKey};
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use hbbft::sync_key_gen::{PartOutcome, SyncKeyGen};
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fn test_sync_key_gen_with(threshold: usize, node_num: usize) {
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// Generate individual key pairs for encryption. These are not suitable for threshold schemes.
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let sec_keys: Vec<SecretKey> = (0..node_num).map(|_| SecretKey::random()).collect();
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let pub_keys: BTreeMap<usize, PublicKey> = sec_keys
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.iter()
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.map(SecretKey::public_key)
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.enumerate()
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.collect();
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// Create the `SyncKeyGen` instances and initial proposals.
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let mut nodes = Vec::new();
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let proposals: Vec<_> = sec_keys
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.into_iter()
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.enumerate()
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.map(|(id, sk)| {
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let (sync_key_gen, proposal) =
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SyncKeyGen::new(&mut rand::thread_rng(), id, sk, pub_keys.clone(), threshold)
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.unwrap_or_else(|_err| {
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panic!("Failed to create `SyncKeyGen` instance #{}", id)
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});
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nodes.push(sync_key_gen);
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proposal
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}).collect();
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// Handle the first `threshold + 1` proposals. Those should suffice for key generation.
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let mut acks = Vec::new();
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for (sender_id, proposal) in proposals[..=threshold].iter().enumerate() {
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for (node_id, node) in nodes.iter_mut().enumerate() {
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let proposal = proposal.clone().expect("proposal");
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let ack = match node
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.handle_part(&mut rand::thread_rng(), &sender_id, proposal)
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.expect("failed to handle part")
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{
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PartOutcome::Valid(Some(ack)) => ack,
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PartOutcome::Valid(None) => panic!("missing ack message"),
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PartOutcome::Invalid(fault) => panic!("invalid proposal: {:?}", fault),
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};
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// Only the first `threshold + 1` manage to commit their `Ack`s.
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if node_id <= 2 * threshold {
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acks.push((node_id, ack));
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}
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}
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}
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// Handle the `Ack`s from `2 * threshold + 1` nodes.
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for (sender_id, ack) in acks {
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for node in &mut nodes {
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assert!(!node.is_ready()); // Not enough `Ack`s yet.
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node.handle_ack(&sender_id, ack.clone())
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.expect("error handling ack");
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}
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}
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// Compute the keys and test a threshold signature.
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let msg = "Help I'm trapped in a unit test factory";
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let pub_key_set = nodes[0]
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.generate()
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.expect("Failed to generate `PublicKeySet` for node #0")
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.0;
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let sig_shares: BTreeMap<_, _> = nodes
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.iter()
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.enumerate()
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.map(|(idx, node)| {
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assert!(node.is_ready());
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let (pks, opt_sk) = node.generate().unwrap_or_else(|_| {
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panic!(
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"Failed to generate `PublicKeySet` and `SecretKeyShare` for node #{}",
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idx
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)
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});
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let sk = opt_sk.expect("new secret key");
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assert_eq!(pks, pub_key_set);
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let sig = sk.sign(msg);
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assert!(pks.public_key_share(idx).verify(&sig, msg));
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(idx, sig)
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}).collect();
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let sig = pub_key_set
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.combine_signatures(sig_shares.iter().take(threshold + 1))
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.expect("signature shares match");
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assert!(pub_key_set.public_key().verify(&sig, msg));
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}
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#[test]
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fn test_sync_key_gen() {
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// This returns an error in all but the first test.
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let _ = env_logger::try_init();
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for &node_num in &[1, 2, 3, 4, 8, 15] {
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let threshold = (node_num - 1) / 3;
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test_sync_key_gen_with(threshold, node_num);
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}
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}
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