use crate::testutils::{init_alice, init_bob}; use futures::{ future::{join, select, Either}, FutureExt, }; use get_port::get_port; use libp2p::Multiaddr; use rand::rngs::OsRng; use swap::{ bitcoin, config::Config, monero, protocol::{alice, alice::AliceState, bob, bob::BobState}, seed::Seed, }; use testcontainers::clients::Cli; use testutils::init_tracing; use uuid::Uuid; pub mod testutils; /// 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() { let _guard = init_tracing(); let cli = Cli::default(); let ( monero, testutils::Containers { bitcoind, monerods: _monerods, }, ) = testutils::init_containers(&cli).await; let btc_to_swap = bitcoin::Amount::from_sat(1_000_000); let xmr_to_swap = monero::Amount::from_piconero(1_000_000_000_000); let bob_btc_starting_balance = btc_to_swap * 10; let alice_btc_starting_balance = bitcoin::Amount::ZERO; let alice_xmr_starting_balance = xmr_to_swap * 10; let port = get_port().expect("Failed to find a free port"); let alice_multiaddr: Multiaddr = format!("/ip4/127.0.0.1/tcp/{}", port) .parse() .expect("failed to parse Alice's address"); let config = Config::regtest(); let ( alice_state, mut alice_event_loop, alice_event_loop_handle, alice_btc_wallet, alice_xmr_wallet, alice_db, ) = init_alice( &bitcoind, &monero, btc_to_swap, xmr_to_swap, alice_xmr_starting_balance, alice_multiaddr.clone(), config, Seed::random().unwrap(), ) .await; let (bob_state, bob_event_loop, bob_event_loop_handle, bob_btc_wallet, bob_xmr_wallet, bob_db) = init_bob( alice_multiaddr, alice_event_loop.peer_id(), &bitcoind, &monero, btc_to_swap, bob_btc_starting_balance, xmr_to_swap, config, ) .await; let bob_btc_locked_fut = bob::swap::run_until( bob_state, bob::swap::is_btc_locked, bob_event_loop_handle, bob_db, bob_btc_wallet.clone(), bob_xmr_wallet.clone(), OsRng, Uuid::new_v4(), ) .boxed(); let bob_fut = select(bob_btc_locked_fut, bob_event_loop.run().boxed()); let alice_fut = alice::swap::swap( alice_state, alice_event_loop_handle, alice_btc_wallet.clone(), alice_xmr_wallet.clone(), Config::regtest(), Uuid::new_v4(), alice_db, ) .boxed(); let alice_fut = select(alice_fut, alice_event_loop.run().boxed()); // Wait until alice has locked xmr and bob has locked btc let (alice_state, bob_state) = join(alice_fut, bob_fut).await; let alice_state = match alice_state { Either::Left((state, _)) => state.unwrap(), Either::Right(_) => panic!("Alice event loop should not terminate."), }; let bob_state = match bob_state { Either::Left((state, _)) => state.unwrap(), Either::Right(_) => panic!("Bob event loop should not terminate."), }; assert!(matches!(alice_state, AliceState::BtcPunished)); let bob_state3 = if let BobState::BtcLocked(state3, ..) = bob_state { state3 } else { panic!("Bob in unexpected state"); }; let btc_alice_final = alice_btc_wallet.as_ref().balance().await.unwrap(); let btc_bob_final = bob_btc_wallet.as_ref().balance().await.unwrap(); // lock_tx_bitcoin_fee is determined by the wallet, it is not necessarily equal // to TX_FEE let lock_tx_bitcoin_fee = bob_btc_wallet .transaction_fee(bob_state3.tx_lock_id()) .await .unwrap(); assert_eq!( btc_alice_final, alice_btc_starting_balance + btc_to_swap - bitcoin::Amount::from_sat(2 * bitcoin::TX_FEE) ); assert_eq!( btc_bob_final, bob_btc_starting_balance - btc_to_swap - lock_tx_bitcoin_fee ); }