use anyhow::{anyhow, Result}; use futures::FutureExt; use libp2p::{core::Multiaddr, PeerId}; use tokio::{ stream::StreamExt, sync::mpsc::{Receiver, Sender}, }; use tracing::{debug, error, info}; use crate::{ bitcoin::EncryptedSignature, network::{transport::SwapTransport, TokioExecutor}, protocol::{ alice, bob::{self, Behaviour, OutEvent}, }, }; #[derive(Debug)] pub struct Channels { sender: Sender, receiver: Receiver, } impl Channels { pub fn new() -> Channels { let (sender, receiver) = tokio::sync::mpsc::channel(100); Channels { sender, receiver } } } impl Default for Channels { fn default() -> Self { Self::new() } } #[derive(Debug)] pub struct EventLoopHandle { msg0: Receiver, msg1: Receiver, msg2: Receiver, request_amounts: Sender<::bitcoin::Amount>, conn_established: Receiver, dial_alice: Sender<()>, send_msg0: Sender, send_msg1: Sender, send_msg2: Sender, send_msg3: Sender, } impl EventLoopHandle { pub async fn recv_message0(&mut self) -> Result { self.msg0 .recv() .await .ok_or_else(|| anyhow!("Failed to receive message 0 from Bob")) } pub async fn recv_message1(&mut self) -> Result { self.msg1 .recv() .await .ok_or_else(|| anyhow!("Failed to receive message 1 from Bob")) } pub async fn recv_message2(&mut self) -> Result { self.msg2 .recv() .await .ok_or_else(|| anyhow!("Failed o receive message 2 from Bob")) } /// Dials other party and wait for the connection to be established. /// Do nothing if we are already connected pub async fn dial(&mut self) -> Result<()> { debug!("Attempt to dial Alice"); let _ = self.dial_alice.send(()).await?; self.conn_established .recv() .await .ok_or_else(|| anyhow!("Failed to receive connection established from Alice"))?; Ok(()) } pub async fn request_amounts(&mut self, btc_amount: ::bitcoin::Amount) -> Result<()> { let _ = self.request_amounts.send(btc_amount).await?; Ok(()) } pub async fn send_message0(&mut self, msg: bob::Message0) -> Result<()> { let _ = self.send_msg0.send(msg).await?; Ok(()) } pub async fn send_message1(&mut self, msg: bob::Message1) -> Result<()> { let _ = self.send_msg1.send(msg).await?; Ok(()) } pub async fn send_message2(&mut self, msg: bob::Message2) -> Result<()> { let _ = self.send_msg2.send(msg).await?; Ok(()) } pub async fn send_message3(&mut self, tx_redeem_encsig: EncryptedSignature) -> Result<()> { let _ = self.send_msg3.send(tx_redeem_encsig).await?; Ok(()) } } #[allow(missing_debug_implementations)] pub struct EventLoop { swarm: libp2p::Swarm, alice_peer_id: PeerId, msg0: Sender, msg1: Sender, msg2: Sender, conn_established: Sender, request_amounts: Receiver<::bitcoin::Amount>, dial_alice: Receiver<()>, send_msg0: Receiver, send_msg1: Receiver, send_msg2: Receiver, send_msg3: Receiver, } impl EventLoop { pub fn new( transport: SwapTransport, behaviour: Behaviour, peer_id: PeerId, alice_peer_id: PeerId, alice_addr: Multiaddr, ) -> Result<(Self, EventLoopHandle)> { let mut swarm = libp2p::swarm::SwarmBuilder::new(transport, behaviour, peer_id) .executor(Box::new(TokioExecutor { handle: tokio::runtime::Handle::current(), })) .build(); swarm.add_address(alice_peer_id.clone(), alice_addr); let amounts = Channels::new(); let msg0 = Channels::new(); let msg1 = Channels::new(); let msg2 = Channels::new(); let conn_established = Channels::new(); let dial_alice = Channels::new(); let send_msg0 = Channels::new(); let send_msg1 = Channels::new(); let send_msg2 = Channels::new(); let send_msg3 = Channels::new(); let event_loop = EventLoop { swarm, alice_peer_id, request_amounts: amounts.receiver, msg0: msg0.sender, msg1: msg1.sender, msg2: msg2.sender, conn_established: conn_established.sender, dial_alice: dial_alice.receiver, send_msg0: send_msg0.receiver, send_msg1: send_msg1.receiver, send_msg2: send_msg2.receiver, send_msg3: send_msg3.receiver, }; let handle = EventLoopHandle { request_amounts: amounts.sender, msg0: msg0.receiver, msg1: msg1.receiver, msg2: msg2.receiver, conn_established: conn_established.receiver, dial_alice: dial_alice.sender, send_msg0: send_msg0.sender, send_msg1: send_msg1.sender, send_msg2: send_msg2.sender, send_msg3: send_msg3.sender, }; Ok((event_loop, handle)) } pub async fn run(mut self) { loop { tokio::select! { swarm_event = self.swarm.next().fuse() => { match swarm_event { OutEvent::ConnectionEstablished(peer_id) => { let _ = self.conn_established.send(peer_id).await; } OutEvent::Amounts(_amounts) => info!("Amounts received from Alice"), OutEvent::Message0(msg) => { let _ = self.msg0.send(*msg).await; } OutEvent::Message1(msg) => { let _ = self.msg1.send(*msg).await; } OutEvent::Message2(msg) => { let _ = self.msg2.send(msg).await; } OutEvent::Message3 => info!("Alice acknowledged message 3 received"), } }, option = self.dial_alice.next().fuse() => { if option.is_some() { let peer_id = self.alice_peer_id.clone(); if self.swarm.pt.is_connected(&peer_id) { debug!("Already connected to Alice: {}", peer_id); let _ = self.conn_established.send(peer_id).await; } else { info!("dialing alice: {}", peer_id); if let Err(err) = libp2p::Swarm::dial(&mut self.swarm, &peer_id) { error!("Could not dial alice: {}", err); // TODO(Franck): If Dial fails then we should report it. } } } }, amounts = self.request_amounts.next().fuse() => { if let Some(btc_amount) = amounts { self.swarm.request_amounts(self.alice_peer_id.clone(), btc_amount.as_sat()); } }, msg0 = self.send_msg0.next().fuse() => { if let Some(msg) = msg0 { self.swarm.send_message0(self.alice_peer_id.clone(), msg); } } msg1 = self.send_msg1.next().fuse() => { if let Some(msg) = msg1 { self.swarm.send_message1(self.alice_peer_id.clone(), msg); } }, msg2 = self.send_msg2.next().fuse() => { if let Some(msg) = msg2 { self.swarm.send_message2(self.alice_peer_id.clone(), msg); } }, msg3 = self.send_msg3.next().fuse() => { if let Some(tx_redeem_encsig) = msg3 { self.swarm.send_message3(self.alice_peer_id.clone(), tx_redeem_encsig); } } } } } }