mirror of
https://github.com/serai-dex/serai.git
synced 2024-12-27 14:09:48 +00:00
247 lines
7.3 KiB
Rust
247 lines
7.3 KiB
Rust
// TODO
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use core::{pin::Pin, future::Future};
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use std::collections::HashMap;
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use rand_core::{RngCore, OsRng};
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use ciphersuite::group::GroupEncoding;
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use frost::{
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Participant, ThresholdKeys,
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dkg::tests::{key_gen, clone_without},
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};
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use serai_db::{DbTxn, Db, MemDb};
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use serai_client::{
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primitives::{NetworkId, Coin, Amount, Balance},
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validator_sets::primitives::Session,
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};
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use messages::sign::*;
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use crate::{
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Payment,
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networks::{Output, Transaction, Eventuality, Network},
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key_gen::NetworkKeyDb,
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multisigs::scheduler::Scheduler,
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signer::Signer,
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};
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#[allow(clippy::type_complexity)]
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pub async fn sign<N: Network>(
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network: N,
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session: Session,
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mut keys_txs: HashMap<
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Participant,
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(ThresholdKeys<N::Curve>, (N::SignableTransaction, N::Eventuality)),
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>,
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) -> <N::Eventuality as Eventuality>::Claim {
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let actual_id = SignId { session, id: [0xaa; 32], attempt: 0 };
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let mut keys = HashMap::new();
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let mut txs = HashMap::new();
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for (i, (these_keys, this_tx)) in keys_txs.drain() {
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keys.insert(i, these_keys);
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txs.insert(i, this_tx);
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}
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let mut signers = HashMap::new();
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let mut dbs = HashMap::new();
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let mut t = 0;
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for i in 1 ..= keys.len() {
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let i = Participant::new(u16::try_from(i).unwrap()).unwrap();
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let keys = keys.remove(&i).unwrap();
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t = keys.params().t();
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signers.insert(i, Signer::<_, MemDb>::new(network.clone(), Session(0), vec![keys]));
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dbs.insert(i, MemDb::new());
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}
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drop(keys);
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let mut signing_set = vec![];
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while signing_set.len() < usize::from(t) {
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let candidate = Participant::new(
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u16::try_from((OsRng.next_u64() % u64::try_from(signers.len()).unwrap()) + 1).unwrap(),
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)
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.unwrap();
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if signing_set.contains(&candidate) {
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continue;
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}
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signing_set.push(candidate);
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}
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let mut preprocesses = HashMap::new();
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let mut eventuality = None;
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for i in 1 ..= signers.len() {
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let i = Participant::new(u16::try_from(i).unwrap()).unwrap();
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let (tx, this_eventuality) = txs.remove(&i).unwrap();
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let mut txn = dbs.get_mut(&i).unwrap().txn();
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match signers
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.get_mut(&i)
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.unwrap()
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.sign_transaction(&mut txn, actual_id.id, tx, &this_eventuality)
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.await
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{
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// All participants should emit a preprocess
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Some(ProcessorMessage::Preprocess { id, preprocesses: mut these_preprocesses }) => {
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assert_eq!(id, actual_id);
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assert_eq!(these_preprocesses.len(), 1);
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if signing_set.contains(&i) {
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preprocesses.insert(i, these_preprocesses.swap_remove(0));
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}
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}
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_ => panic!("didn't get preprocess back"),
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}
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txn.commit();
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if eventuality.is_none() {
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eventuality = Some(this_eventuality.clone());
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}
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assert_eq!(eventuality, Some(this_eventuality));
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}
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let mut shares = HashMap::new();
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for i in &signing_set {
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let mut txn = dbs.get_mut(i).unwrap().txn();
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match signers
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.get_mut(i)
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.unwrap()
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.handle(
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&mut txn,
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CoordinatorMessage::Preprocesses {
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id: actual_id.clone(),
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preprocesses: clone_without(&preprocesses, i),
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},
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)
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.await
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.unwrap()
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{
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ProcessorMessage::Share { id, shares: mut these_shares } => {
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assert_eq!(id, actual_id);
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assert_eq!(these_shares.len(), 1);
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shares.insert(*i, these_shares.swap_remove(0));
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}
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_ => panic!("didn't get share back"),
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}
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txn.commit();
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}
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let mut tx_id = None;
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for i in &signing_set {
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let mut txn = dbs.get_mut(i).unwrap().txn();
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match signers
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.get_mut(i)
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.unwrap()
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.handle(
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&mut txn,
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CoordinatorMessage::Shares { id: actual_id.clone(), shares: clone_without(&shares, i) },
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)
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.await
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.unwrap()
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{
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ProcessorMessage::Completed { session, id, tx } => {
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assert_eq!(session, Session(0));
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assert_eq!(id, actual_id.id);
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if tx_id.is_none() {
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tx_id = Some(tx.clone());
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}
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assert_eq!(tx_id, Some(tx));
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}
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_ => panic!("didn't get TX back"),
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}
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txn.commit();
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}
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let mut typed_claim = <N::Eventuality as Eventuality>::Claim::default();
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typed_claim.as_mut().copy_from_slice(tx_id.unwrap().as_ref());
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assert!(network.check_eventuality_by_claim(&eventuality.unwrap(), &typed_claim).await);
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typed_claim
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}
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pub async fn test_signer<N: Network>(
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new_network: impl Fn(MemDb) -> Pin<Box<dyn Send + Future<Output = N>>>,
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) {
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let mut keys = key_gen(&mut OsRng);
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for keys in keys.values_mut() {
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N::tweak_keys(keys);
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}
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let key = keys[&Participant::new(1).unwrap()].group_key();
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let mut db = MemDb::new();
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{
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let mut txn = db.txn();
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NetworkKeyDb::set(&mut txn, Session(0), &key.to_bytes().as_ref().to_vec());
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txn.commit();
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}
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let network = new_network(db.clone()).await;
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let outputs = network
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.get_outputs(&network.test_send(N::external_address(&network, key).await).await, key)
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.await;
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let sync_block = network.get_latest_block_number().await.unwrap() - N::CONFIRMATIONS;
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let amount = (2 * N::DUST) + 1000;
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let plan = {
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let mut txn = db.txn();
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let mut scheduler = N::Scheduler::new::<MemDb>(&mut txn, key, N::NETWORK);
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let payments = vec![Payment {
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address: N::external_address(&network, key).await,
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balance: Balance {
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coin: match N::NETWORK {
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NetworkId::Serai => panic!("test_signer called with Serai"),
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NetworkId::Bitcoin => Coin::Bitcoin,
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NetworkId::Ethereum => Coin::Ether,
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NetworkId::Monero => Coin::Monero,
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},
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amount: Amount(amount),
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},
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}];
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let mut plans = scheduler.schedule::<MemDb>(&mut txn, outputs.clone(), payments, key, false);
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assert_eq!(plans.len(), 1);
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plans.swap_remove(0)
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};
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let mut keys_txs = HashMap::new();
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let mut eventualities = vec![];
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for (i, keys) in keys.drain() {
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let (signable, eventuality) =
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network.prepare_send(sync_block, plan.clone(), 0).await.unwrap().tx.unwrap();
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eventualities.push(eventuality.clone());
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keys_txs.insert(i, (keys, (signable, eventuality)));
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}
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let claim = sign(network.clone(), Session(0), keys_txs).await;
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// Mine a block, and scan it, to ensure that the TX actually made it on chain
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network.mine_block().await;
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let block_number = network.get_latest_block_number().await.unwrap();
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let tx = network.get_transaction_by_eventuality(block_number, &eventualities[0]).await;
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let outputs = network
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.get_outputs(
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&network.get_block(network.get_latest_block_number().await.unwrap()).await.unwrap(),
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key,
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)
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.await;
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// Don't run if Ethereum as the received output will revert by the contract
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// (and therefore not actually exist)
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if N::NETWORK != NetworkId::Ethereum {
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assert_eq!(outputs.len(), 1 + usize::from(u8::from(plan.change.is_some())));
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// Adjust the amount for the fees
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let amount = amount - tx.fee(&network).await;
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if plan.change.is_some() {
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// Check either output since Monero will randomize its output order
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assert!(
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(outputs[0].balance().amount.0 == amount) || (outputs[1].balance().amount.0 == amount)
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);
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} else {
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assert!(outputs[0].balance().amount.0 == amount);
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}
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}
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// Check the eventualities pass
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for eventuality in eventualities {
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let completion = network.confirm_completion(&eventuality, &claim).await.unwrap().unwrap();
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assert_eq!(N::Eventuality::claim(&completion), claim);
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}
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}
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