serai/processor/src/tests/scanner.rs

201 lines
6.3 KiB
Rust

use core::{pin::Pin, time::Duration, future::Future};
use std::sync::Arc;
use rand_core::OsRng;
use ciphersuite::{group::GroupEncoding, Ciphersuite};
use frost::{Participant, tests::key_gen};
use tokio::{sync::Mutex, time::timeout};
use serai_db::{DbTxn, Db, MemDb};
use serai_client::validator_sets::primitives::Session;
use crate::{
networks::{OutputType, Output, Block, Network},
key_gen::NetworkKeyDb,
multisigs::scanner::{ScannerEvent, Scanner, ScannerHandle},
};
pub async fn new_scanner<N: Network, D: Db>(
network: &N,
db: &D,
group_key: <N::Curve as Ciphersuite>::G,
first: &Arc<Mutex<bool>>,
) -> ScannerHandle<N, D> {
let activation_number = network.get_latest_block_number().await.unwrap();
let mut db = db.clone();
let (mut scanner, current_keys) = Scanner::new(network.clone(), db.clone());
let mut first = first.lock().await;
if *first {
assert!(current_keys.is_empty());
let mut txn = db.txn();
scanner.register_key(&mut txn, activation_number, group_key).await;
txn.commit();
for _ in 0 .. N::CONFIRMATIONS {
network.mine_block().await;
}
*first = false;
} else {
assert_eq!(current_keys.len(), 1);
}
scanner
}
pub async fn test_scanner<N: Network>(
new_network: impl Fn(MemDb) -> Pin<Box<dyn Send + Future<Output = N>>>,
) {
let mut keys =
frost::tests::key_gen::<_, N::Curve>(&mut OsRng).remove(&Participant::new(1).unwrap()).unwrap();
N::tweak_keys(&mut keys);
let group_key = keys.group_key();
let mut db = MemDb::new();
{
let mut txn = db.txn();
NetworkKeyDb::set(&mut txn, Session(0), &group_key.to_bytes().as_ref().to_vec());
txn.commit();
}
let network = new_network(db.clone()).await;
// Mine blocks so there's a confirmed block
for _ in 0 .. N::CONFIRMATIONS {
network.mine_block().await;
}
let first = Arc::new(Mutex::new(true));
let scanner = new_scanner(&network, &db, group_key, &first).await;
// Receive funds
let block = network.test_send(N::external_address(&network, keys.group_key()).await).await;
let block_id = block.id();
// Verify the Scanner picked them up
let verify_event = |mut scanner: ScannerHandle<N, MemDb>| async move {
let outputs =
match timeout(Duration::from_secs(30), scanner.events.recv()).await.unwrap().unwrap() {
ScannerEvent::Block { is_retirement_block, block, outputs } => {
scanner.multisig_completed.send(false).unwrap();
assert!(!is_retirement_block);
assert_eq!(block, block_id);
assert_eq!(outputs.len(), 1);
assert_eq!(outputs[0].kind(), OutputType::External);
outputs
}
ScannerEvent::Completed(_, _, _, _, _) => {
panic!("unexpectedly got eventuality completion");
}
};
(scanner, outputs)
};
let (mut scanner, outputs) = verify_event(scanner).await;
// Create a new scanner off the current DB and verify it re-emits the above events
verify_event(new_scanner(&network, &db, group_key, &first).await).await;
// Acknowledge the block
let mut cloned_db = db.clone();
let mut txn = cloned_db.txn();
assert_eq!(scanner.ack_block(&mut txn, block_id).await.1, outputs);
scanner.release_lock().await;
txn.commit();
// There should be no more events
assert!(timeout(Duration::from_secs(30), scanner.events.recv()).await.is_err());
// Create a new scanner off the current DB and make sure it also does nothing
assert!(timeout(
Duration::from_secs(30),
new_scanner(&network, &db, group_key, &first).await.events.recv()
)
.await
.is_err());
}
pub async fn test_no_deadlock_in_multisig_completed<N: Network>(
new_network: impl Fn(MemDb) -> Pin<Box<dyn Send + Future<Output = N>>>,
) {
// This test scans two blocks then acknowledges one, yet a network with one confirm won't scan
// two blocks before the first is acknowledged (due to the look-ahead limit)
if N::CONFIRMATIONS <= 1 {
return;
}
let mut db = MemDb::new();
let network = new_network(db.clone()).await;
// Mine blocks so there's a confirmed block
for _ in 0 .. N::CONFIRMATIONS {
network.mine_block().await;
}
let (mut scanner, current_keys) = Scanner::new(network.clone(), db.clone());
assert!(current_keys.is_empty());
// Register keys to cause Block events at CONFIRMATIONS (dropped since first keys),
// CONFIRMATIONS + 1, and CONFIRMATIONS + 2
for i in 0 .. 3 {
let key = {
let mut keys = key_gen(&mut OsRng);
for keys in keys.values_mut() {
N::tweak_keys(keys);
}
let key = keys[&Participant::new(1).unwrap()].group_key();
if i == 0 {
let mut txn = db.txn();
NetworkKeyDb::set(&mut txn, Session(0), &key.to_bytes().as_ref().to_vec());
txn.commit();
// Sleep for 5 seconds as setting the Network key value will trigger an async task for
// Ethereum
tokio::time::sleep(Duration::from_secs(5)).await;
}
key
};
let mut txn = db.txn();
scanner
.register_key(
&mut txn,
network.get_latest_block_number().await.unwrap() + N::CONFIRMATIONS + i,
key,
)
.await;
txn.commit();
}
for _ in 0 .. (3 * N::CONFIRMATIONS) {
network.mine_block().await;
}
// Block for the second set of keys registered
let block_id =
match timeout(Duration::from_secs(30), scanner.events.recv()).await.unwrap().unwrap() {
ScannerEvent::Block { is_retirement_block, block, outputs: _ } => {
scanner.multisig_completed.send(false).unwrap();
assert!(!is_retirement_block);
block
}
ScannerEvent::Completed(_, _, _, _, _) => {
panic!("unexpectedly got eventuality completion");
}
};
// Block for the third set of keys registered
match timeout(Duration::from_secs(30), scanner.events.recv()).await.unwrap().unwrap() {
ScannerEvent::Block { .. } => {}
ScannerEvent::Completed(_, _, _, _, _) => {
panic!("unexpectedly got eventuality completion");
}
};
// The ack_block acquisition shows the Scanner isn't maintaining the lock on its own thread after
// emitting the Block event
// TODO: This is incomplete. Also test after emitting Completed
let mut txn = db.txn();
assert_eq!(scanner.ack_block(&mut txn, block_id).await.1, vec![]);
scanner.release_lock().await;
txn.commit();
scanner.multisig_completed.send(false).unwrap();
}