use anyhow::{bail, Result}; use async_recursion::async_recursion; use rand::{CryptoRng, RngCore}; use std::sync::Arc; use tokio::select; use tracing::{debug, info}; use uuid::Uuid; use crate::{ bitcoin, database::{Database, Swap}, monero, protocol::bob::{self, event_loop::EventLoopHandle, state::*}, ExpiredTimelocks, SwapAmounts, }; // TODO(Franck): Make this a method on a struct #[allow(clippy::too_many_arguments)] pub async fn swap( state: BobState, event_loop_handle: EventLoopHandle, db: Database, bitcoin_wallet: Arc, monero_wallet: Arc, rng: R, swap_id: Uuid, ) -> Result where R: RngCore + CryptoRng + Send, { run_until( state, is_complete, event_loop_handle, db, bitcoin_wallet, monero_wallet, rng, swap_id, ) .await } pub fn is_complete(state: &BobState) -> bool { matches!( state, BobState::BtcRefunded(..) | BobState::XmrRedeemed { .. } | BobState::BtcPunished { .. } | BobState::SafelyAborted ) } pub fn is_btc_locked(state: &BobState) -> bool { matches!(state, BobState::BtcLocked(..)) } pub fn is_xmr_locked(state: &BobState) -> bool { matches!(state, BobState::XmrLocked(..)) } pub fn is_encsig_sent(state: &BobState) -> bool { matches!(state, BobState::EncSigSent(..)) } // State machine driver for swap execution #[allow(clippy::too_many_arguments)] #[async_recursion] pub async fn run_until( state: BobState, is_target_state: fn(&BobState) -> bool, mut event_loop_handle: EventLoopHandle, db: Database, bitcoin_wallet: Arc, monero_wallet: Arc, mut rng: R, swap_id: Uuid, ) -> Result where R: RngCore + CryptoRng + Send, { info!("Current state: {}", state); if is_target_state(&state) { Ok(state) } else { match state { BobState::Started { state0, amounts } => { event_loop_handle.dial().await?; let state2 = negotiate( state0, amounts, &mut event_loop_handle, &mut rng, bitcoin_wallet.clone(), ) .await?; let state = BobState::Negotiated(state2); let db_state = state.clone().into(); db.insert_latest_state(swap_id, Swap::Bob(db_state)).await?; run_until( state, is_target_state, event_loop_handle, db, bitcoin_wallet, monero_wallet, rng, swap_id, ) .await } BobState::Negotiated(state2) => { // Do not lock Bitcoin if not connected to Alice. event_loop_handle.dial().await?; // Alice and Bob have exchanged info let state3 = state2.lock_btc(bitcoin_wallet.as_ref()).await?; let state = BobState::BtcLocked(state3); let db_state = state.clone().into(); db.insert_latest_state(swap_id, Swap::Bob(db_state)).await?; run_until( state, is_target_state, event_loop_handle, db, bitcoin_wallet, monero_wallet, rng, swap_id, ) .await } // Bob has locked Btc // Watch for Alice to Lock Xmr or for cancel timelock to elapse BobState::BtcLocked(state3) => { let state = if let ExpiredTimelocks::None = state3.current_epoch(bitcoin_wallet.as_ref()).await? { event_loop_handle.dial().await?; let msg2_watcher = event_loop_handle.recv_message2(); let cancel_timelock_expires = state3.wait_for_cancel_timelock_to_expire(bitcoin_wallet.as_ref()); // Record the current monero wallet block height so we don't have to scan from // block 0 once we create the redeem wallet. // TODO: This can be optimized further by extracting the block height when // tx-lock was included. However, scanning a few more blocks won't do any harm // and is simpler. let monero_wallet_restore_blockheight = monero_wallet.inner.block_height().await?; select! { msg2 = msg2_watcher => { let msg2 = msg2?; info!("Received XMR lock transaction transfer proof from Alice, watching for transfer confirmations"); debug!("Transfer proof: {:?}", msg2.tx_lock_proof); let xmr_lock_watcher = state3.clone() .watch_for_lock_xmr(monero_wallet.as_ref(), msg2, monero_wallet_restore_blockheight.height); let cancel_timelock_expires = state3.wait_for_cancel_timelock_to_expire(bitcoin_wallet.as_ref()); select! { state4 = xmr_lock_watcher => { BobState::XmrLocked(state4?) }, _ = cancel_timelock_expires => { let state4 = state3.state4(); BobState::CancelTimelockExpired(state4) } } }, _ = cancel_timelock_expires => { let state4 = state3.state4(); BobState::CancelTimelockExpired(state4) } } } else { let state4 = state3.state4(); BobState::CancelTimelockExpired(state4) }; let db_state = state.clone().into(); db.insert_latest_state(swap_id, Swap::Bob(db_state)).await?; run_until( state, is_target_state, event_loop_handle, db, bitcoin_wallet, monero_wallet, rng, swap_id, ) .await } BobState::XmrLocked(state) => { let state = if let ExpiredTimelocks::None = state.expired_timelock(bitcoin_wallet.as_ref()).await? { event_loop_handle.dial().await?; // Alice has locked Xmr // Bob sends Alice his key let tx_redeem_encsig = state.tx_redeem_encsig(); let state4_clone = state.clone(); let enc_sig_sent_watcher = event_loop_handle.send_message3(tx_redeem_encsig); let bitcoin_wallet = bitcoin_wallet.clone(); let cancel_timelock_expires = state4_clone.wait_for_cancel_timelock_to_expire(bitcoin_wallet.as_ref()); select! { _ = enc_sig_sent_watcher => { BobState::EncSigSent(state) }, _ = cancel_timelock_expires => { BobState::CancelTimelockExpired(state) } } } else { BobState::CancelTimelockExpired(state) }; let db_state = state.clone().into(); db.insert_latest_state(swap_id, Swap::Bob(db_state)).await?; run_until( state, is_target_state, event_loop_handle, db, bitcoin_wallet, monero_wallet, rng, swap_id, ) .await } BobState::EncSigSent(state) => { let state = if let ExpiredTimelocks::None = state.expired_timelock(bitcoin_wallet.as_ref()).await? { let state_clone = state.clone(); let redeem_watcher = state_clone.watch_for_redeem_btc(bitcoin_wallet.as_ref()); let cancel_timelock_expires = state_clone.wait_for_cancel_timelock_to_expire(bitcoin_wallet.as_ref()); select! { state5 = redeem_watcher => { BobState::BtcRedeemed(state5?) }, _ = cancel_timelock_expires => { BobState::CancelTimelockExpired(state) } } } else { BobState::CancelTimelockExpired(state) }; let db_state = state.clone().into(); db.insert_latest_state(swap_id, Swap::Bob(db_state)).await?; run_until( state, is_target_state, event_loop_handle, db, bitcoin_wallet.clone(), monero_wallet, rng, swap_id, ) .await } BobState::BtcRedeemed(state) => { // Bob redeems XMR using revealed s_a state.claim_xmr(monero_wallet.as_ref()).await?; let state = BobState::XmrRedeemed { tx_lock_id: state.tx_lock_id(), }; let db_state = state.clone().into(); db.insert_latest_state(swap_id, Swap::Bob(db_state)).await?; run_until( state, is_target_state, event_loop_handle, db, bitcoin_wallet, monero_wallet, rng, swap_id, ) .await } BobState::CancelTimelockExpired(state4) => { if state4 .check_for_tx_cancel(bitcoin_wallet.as_ref()) .await .is_err() { state4.submit_tx_cancel(bitcoin_wallet.as_ref()).await?; } let state = BobState::BtcCancelled(state4); db.insert_latest_state(swap_id, Swap::Bob(state.clone().into())) .await?; run_until( state, is_target_state, event_loop_handle, db, bitcoin_wallet, monero_wallet, rng, swap_id, ) .await } BobState::BtcCancelled(state) => { // Bob has cancelled the swap let state = match state.expired_timelock(bitcoin_wallet.as_ref()).await? { ExpiredTimelocks::None => { bail!("Internal error: canceled state reached before cancel timelock was expired"); } ExpiredTimelocks::Cancel => { state.refund_btc(bitcoin_wallet.as_ref()).await?; BobState::BtcRefunded(state) } ExpiredTimelocks::Punish => BobState::BtcPunished { tx_lock_id: state.tx_lock_id(), }, }; let db_state = state.clone().into(); db.insert_latest_state(swap_id, Swap::Bob(db_state)).await?; run_until( state, is_target_state, event_loop_handle, db, bitcoin_wallet, monero_wallet, rng, swap_id, ) .await } BobState::BtcRefunded(state4) => Ok(BobState::BtcRefunded(state4)), BobState::BtcPunished { tx_lock_id } => Ok(BobState::BtcPunished { tx_lock_id }), BobState::SafelyAborted => Ok(BobState::SafelyAborted), BobState::XmrRedeemed { tx_lock_id } => Ok(BobState::XmrRedeemed { tx_lock_id }), } } } pub async fn negotiate( state0: crate::protocol::bob::state::State0, amounts: SwapAmounts, swarm: &mut EventLoopHandle, mut rng: R, bitcoin_wallet: Arc, ) -> Result where R: RngCore + CryptoRng + Send, { tracing::trace!("Starting negotiate"); swarm.request_amounts(amounts.btc).await?; swarm.send_message0(state0.next_message(&mut rng)).await?; let msg0 = swarm.recv_message0().await?; let state1 = state0.receive(bitcoin_wallet.as_ref(), msg0).await?; swarm.send_message1(state1.next_message()).await?; let msg1 = swarm.recv_message1().await?; let state2 = state1.receive(msg1)?; swarm.send_message2(state2.next_message()).await?; Ok(state2) }