use bitcoin_harness::Bitcoind; use futures::future::try_join; use libp2p::{Multiaddr, PeerId}; use monero_harness::Monero; use rand::rngs::OsRng; use std::sync::Arc; use swap::{ alice, alice::swap::AliceState, bob, bob::swap::BobState, network::transport::build, storage::Database, SwapAmounts, PUNISH_TIMELOCK, REFUND_TIMELOCK, }; use tempfile::tempdir; use testcontainers::clients::Cli; use uuid::Uuid; use xmr_btc::{bitcoin, config::Config, cross_curve_dleq}; /// Run the following tests with RUST_MIN_STACK=100000000000 #[tokio::test] async fn happy_path() { init_tracing(); let cli = Cli::default(); let bitcoind = Bitcoind::new(&cli, "0.19.1").unwrap(); let _ = bitcoind.init(5).await; let (monero, _container) = Monero::new(&cli, None, vec!["alice".to_string(), "bob".to_string()]) .await .unwrap(); let btc = bitcoin::Amount::from_sat(1_000_000); let btc_alice = bitcoin::Amount::ZERO; let btc_bob = btc * 10; // this xmr value matches the logic of alice::calculate_amounts i.e. btc * // 10_000 * 100 let xmr = 1_000_000_000_000; let xmr_alice = xmr * 10; let xmr_bob = 0; let alice_multiaddr: Multiaddr = "/ip4/127.0.0.1/tcp/9876" .parse() .expect("failed to parse Alice's address"); let (alice_state, alice_swarm, alice_btc_wallet, alice_xmr_wallet, alice_peer_id) = init_alice( &bitcoind, &monero, btc, btc_alice, xmr, xmr_alice, alice_multiaddr.clone(), ) .await; let (bob_state, bob_swarm, bob_btc_wallet, bob_xmr_wallet, bob_db) = init_bob( alice_multiaddr, alice_peer_id, &bitcoind, &monero, btc, btc_bob, xmr, xmr_bob, ) .await; let alice_swap = alice::swap::swap( alice_state, alice_swarm, alice_btc_wallet.clone(), alice_xmr_wallet.clone(), Config::regtest(), ); let bob_swap = bob::swap::swap( bob_state, bob_swarm, bob_db, bob_btc_wallet.clone(), bob_xmr_wallet.clone(), OsRng, Uuid::new_v4(), ); try_join(alice_swap, bob_swap).await.unwrap(); let btc_alice_final = alice_btc_wallet.as_ref().balance().await.unwrap(); let btc_bob_final = bob_btc_wallet.as_ref().balance().await.unwrap(); let xmr_alice_final = alice_xmr_wallet.as_ref().get_balance().await.unwrap(); bob_xmr_wallet.as_ref().0.refresh().await.unwrap(); let xmr_bob_final = bob_xmr_wallet.as_ref().get_balance().await.unwrap(); assert_eq!( btc_alice_final, btc_alice + btc - bitcoin::Amount::from_sat(bitcoin::TX_FEE) ); assert!(btc_bob_final <= btc_bob - btc); assert!(xmr_alice_final.as_piconero() <= xmr_alice - xmr); assert_eq!(xmr_bob_final.as_piconero(), xmr_bob + xmr); } /// Bob locks Btc and Alice locks Xmr. Bob does not act; he fails to send Alice /// the encsig and fail to refund or redeem. Alice punishes. #[tokio::test] async fn alice_punishes_if_bob_never_acts_after_fund() { init_tracing(); let cli = Cli::default(); let bitcoind = Bitcoind::new(&cli, "0.19.1").unwrap(); let _ = bitcoind.init(5).await; let (monero, _container) = Monero::new(&cli, None, vec!["alice".to_string(), "bob".to_string()]) .await .unwrap(); let btc_to_swap = bitcoin::Amount::from_sat(1_000_000); let xmr_to_swap = 1_000_000_000_000; let bob_btc_starting_balance = btc_to_swap * 10; let bob_xmr_starting_balance = 0; let alice_btc_starting_balance = bitcoin::Amount::ZERO; let alice_xmr_starting_balance = xmr_to_swap * 10; let alice_multiaddr: Multiaddr = "/ip4/127.0.0.1/tcp/9877" .parse() .expect("failed to parse Alice's address"); let (alice_state, alice_swarm, alice_btc_wallet, alice_xmr_wallet, alice_peer_id) = init_alice( &bitcoind, &monero, btc_to_swap, alice_btc_starting_balance, xmr_to_swap, alice_xmr_starting_balance, alice_multiaddr.clone(), ) .await; let (bob_state, bob_swarm, bob_btc_wallet, bob_xmr_wallet, bob_db) = init_bob( alice_multiaddr, alice_peer_id, &bitcoind, &monero, btc_to_swap, bob_btc_starting_balance, xmr_to_swap, bob_xmr_starting_balance, ) .await; let bob_xmr_locked_fut = bob::swap::run_until( bob_state, bob::swap::is_xmr_locked, bob_swarm, bob_db, bob_btc_wallet.clone(), bob_xmr_wallet.clone(), OsRng, Uuid::new_v4(), ); let alice_xmr_locked_fut = alice::swap::run_until( alice_state, alice::swap::is_xmr_locked, alice_swarm, alice_btc_wallet.clone(), alice_xmr_wallet.clone(), Config::regtest(), ); // Wait until alice has locked xmr and bob has locked btc let ((alice_state, alice_swarm), _bob_state) = try_join(alice_xmr_locked_fut, bob_xmr_locked_fut) .await .unwrap(); let (punished, _) = alice::swap::swap( alice_state, alice_swarm, alice_btc_wallet.clone(), alice_xmr_wallet.clone(), Config::regtest(), ) .await .unwrap(); assert!(matches!(punished, AliceState::Punished)); // todo: Add balance assertions } #[allow(clippy::too_many_arguments)] async fn init_alice( bitcoind: &Bitcoind<'_>, monero: &Monero, btc_to_swap: bitcoin::Amount, _btc_starting_balance: bitcoin::Amount, xmr_to_swap: u64, xmr_starting_balance: u64, alice_multiaddr: Multiaddr, ) -> ( AliceState, alice::Swarm, Arc, Arc, PeerId, ) { monero .init(vec![("alice", xmr_starting_balance)]) .await .unwrap(); let alice_xmr_wallet = Arc::new(swap::monero::Wallet( monero.wallet("alice").unwrap().client(), )); let alice_btc_wallet = Arc::new( swap::bitcoin::Wallet::new("alice", bitcoind.node_url.clone()) .await .unwrap(), ); let amounts = SwapAmounts { btc: btc_to_swap, xmr: xmr_btc::monero::Amount::from_piconero(xmr_to_swap), }; let alice_behaviour = alice::Behaviour::default(); let alice_peer_id = alice_behaviour.peer_id(); let alice_transport = build(alice_behaviour.identity()).unwrap(); let rng = &mut OsRng; let alice_state = { let a = bitcoin::SecretKey::new_random(rng); let s_a = cross_curve_dleq::Scalar::random(rng); let v_a = xmr_btc::monero::PrivateViewKey::new_random(rng); AliceState::Started { amounts, a, s_a, v_a, } }; let alice_swarm = alice::new_swarm(alice_multiaddr, alice_transport, alice_behaviour).unwrap(); ( alice_state, alice_swarm, alice_btc_wallet, alice_xmr_wallet, alice_peer_id, ) } #[allow(clippy::too_many_arguments)] async fn init_bob( alice_multiaddr: Multiaddr, alice_peer_id: PeerId, bitcoind: &Bitcoind<'_>, monero: &Monero, btc_to_swap: bitcoin::Amount, btc_starting_balance: bitcoin::Amount, xmr_to_swap: u64, xmr_stating_balance: u64, ) -> ( BobState, bob::Swarm, Arc, Arc, Database, ) { let bob_btc_wallet = Arc::new( swap::bitcoin::Wallet::new("bob", bitcoind.node_url.clone()) .await .unwrap(), ); bitcoind .mint( bob_btc_wallet.0.new_address().await.unwrap(), btc_starting_balance, ) .await .unwrap(); monero .init(vec![("bob", xmr_stating_balance)]) .await .unwrap(); let bob_xmr_wallet = Arc::new(swap::monero::Wallet(monero.wallet("bob").unwrap().client())); let amounts = SwapAmounts { btc: btc_to_swap, xmr: xmr_btc::monero::Amount::from_piconero(xmr_to_swap), }; let rng = &mut OsRng; let bob_db_dir = tempdir().unwrap(); let bob_db = Database::open(bob_db_dir.path()).unwrap(); let bob_behaviour = bob::Behaviour::default(); let bob_transport = build(bob_behaviour.identity()).unwrap(); let refund_address = bob_btc_wallet.new_address().await.unwrap(); let state0 = xmr_btc::bob::State0::new( rng, btc_to_swap, xmr_btc::monero::Amount::from_piconero(xmr_to_swap), REFUND_TIMELOCK, PUNISH_TIMELOCK, refund_address, ); let bob_state = BobState::Started { state0, amounts, peer_id: alice_peer_id, addr: alice_multiaddr, }; let bob_swarm = bob::new_swarm(bob_transport, bob_behaviour).unwrap(); (bob_state, bob_swarm, bob_btc_wallet, bob_xmr_wallet, bob_db) } fn init_tracing() { use tracing_subscriber::util::SubscriberInitExt as _; let _guard = tracing_subscriber::fmt() .with_env_filter("swap=info,xmr_btc=info") .with_ansi(false) .set_default(); }