From: Jeffrey Czyz Date: Tue, 18 May 2021 23:06:13 +0000 (-0700) Subject: Remove event channel from lightning-net-tokio X-Git-Tag: v0.0.98~19^2 X-Git-Url: http://git.bitcoin.ninja/index.cgi?p=rust-lightning;a=commitdiff_plain;h=a1f95de7342b32a097cb1375a6e48b262fc3730a Remove event channel from lightning-net-tokio It is unnecessary since ChannelManager has a notification interface as of 12c735ab3af8f09dc402f8147594afcc4569be61. --- diff --git a/lightning-net-tokio/src/lib.rs b/lightning-net-tokio/src/lib.rs index 8ff186c4..d102778a 100644 --- a/lightning-net-tokio/src/lib.rs +++ b/lightning-net-tokio/src/lib.rs @@ -12,18 +12,16 @@ //! //! Designed to be as simple as possible, the high-level usage is almost as simple as "hand over a //! TcpStream and a reference to a PeerManager and the rest is handled", except for the -//! [Event](../lightning/util/events/enum.Event.html) handlng mechanism, see below. +//! [Event](../lightning/util/events/enum.Event.html) handling mechanism; see example below. //! //! The PeerHandler, due to the fire-and-forget nature of this logic, must be an Arc, and must use //! the SocketDescriptor provided here as the PeerHandler's SocketDescriptor. //! -//! Three methods are exposed to register a new connection for handling in tokio::spawn calls, see -//! their individual docs for more. All three take a -//! [mpsc::Sender<()>](../tokio/sync/mpsc/struct.Sender.html) which is sent into every time -//! something occurs which may result in lightning [Events](../lightning/util/events/enum.Event.html). -//! The call site should, thus, look something like this: +//! Three methods are exposed to register a new connection for handling in tokio::spawn calls; see +//! their individual docs for details. +//! +//! # Example //! ``` -//! use tokio::sync::mpsc; //! use std::net::TcpStream; //! use bitcoin::secp256k1::key::PublicKey; //! use lightning::util::events::{Event, EventHandler, EventsProvider}; @@ -43,32 +41,30 @@ //! //! // Connect to node with pubkey their_node_id at addr: //! async fn connect_to_node(peer_manager: PeerManager, chain_monitor: Arc, channel_manager: ChannelManager, their_node_id: PublicKey, addr: SocketAddr) { -//! let (sender, mut receiver) = mpsc::channel(2); -//! lightning_net_tokio::connect_outbound(peer_manager, sender, their_node_id, addr).await; -//! loop { -//! receiver.recv().await; -//! channel_manager.process_pending_events(&|event| { -//! // Handle the event! -//! }); -//! chain_monitor.process_pending_events(&|event| { -//! // Handle the event! -//! }); -//! } +//! lightning_net_tokio::connect_outbound(peer_manager, their_node_id, addr).await; +//! loop { +//! channel_manager.await_persistable_update(); +//! channel_manager.process_pending_events(&|event| { +//! // Handle the event! +//! }); +//! chain_monitor.process_pending_events(&|event| { +//! // Handle the event! +//! }); +//! } //! } //! //! // Begin reading from a newly accepted socket and talk to the peer: //! async fn accept_socket(peer_manager: PeerManager, chain_monitor: Arc, channel_manager: ChannelManager, socket: TcpStream) { -//! let (sender, mut receiver) = mpsc::channel(2); -//! lightning_net_tokio::setup_inbound(peer_manager, sender, socket); -//! loop { -//! receiver.recv().await; -//! channel_manager.process_pending_events(&|event| { -//! // Handle the event! -//! }); -//! chain_monitor.process_pending_events(&|event| { -//! // Handle the event! -//! }); -//! } +//! lightning_net_tokio::setup_inbound(peer_manager, socket); +//! loop { +//! channel_manager.await_persistable_update(); +//! channel_manager.process_pending_events(&|event| { +//! // Handle the event! +//! }); +//! chain_monitor.process_pending_events(&|event| { +//! // Handle the event! +//! }); +//! } //! } //! ``` @@ -90,7 +86,7 @@ use lightning::util::logger::Logger; use std::{task, thread}; use std::net::SocketAddr; use std::net::TcpStream as StdTcpStream; -use std::sync::{Arc, Mutex, MutexGuard}; +use std::sync::{Arc, Mutex}; use std::sync::atomic::{AtomicU64, Ordering}; use std::time::Duration; use std::hash::Hash; @@ -102,7 +98,6 @@ static ID_COUNTER: AtomicU64 = AtomicU64::new(0); /// read future (which is returned by schedule_read). struct Connection { writer: Option>, - event_notify: mpsc::Sender<()>, // Because our PeerManager is templated by user-provided types, and we can't (as far as I can // tell) have a const RawWakerVTable built out of templated functions, we need some indirection // between being woken up with write-ready and calling PeerManager::write_buffer_space_avail. @@ -129,21 +124,10 @@ struct Connection { id: u64, } impl Connection { - fn event_trigger(us: &mut MutexGuard) { - match us.event_notify.try_send(()) { - Ok(_) => {}, - Err(mpsc::error::TrySendError::Full(_)) => { - // Ignore full errors as we just need the user to poll after this point, so if they - // haven't received the last send yet, it doesn't matter. - }, - _ => panic!() - } - } async fn schedule_read(peer_manager: Arc, Arc, Arc>>, us: Arc>, mut reader: io::ReadHalf, mut read_wake_receiver: mpsc::Receiver<()>, mut write_avail_receiver: mpsc::Receiver<()>) where CMH: ChannelMessageHandler + 'static, RMH: RoutingMessageHandler + 'static, L: Logger + 'static + ?Sized { - let peer_manager_ref = peer_manager.clone(); // 8KB is nice and big but also should never cause any issues with stack overflowing. let mut buf = [0; 8192]; @@ -201,7 +185,6 @@ impl Connection { if pause_read { us_lock.read_paused = true; } - Self::event_trigger(&mut us_lock); }, Err(e) => shutdown_socket!(e, Disconnect::CloseConnection), } @@ -210,6 +193,7 @@ impl Connection { Err(e) => shutdown_socket!(e, Disconnect::PeerDisconnected), }, } + peer_manager.process_events(); }; let writer_option = us.lock().unwrap().writer.take(); if let Some(mut writer) = writer_option { @@ -217,12 +201,12 @@ impl Connection { let _ = writer.shutdown().await; } if let Disconnect::PeerDisconnected = disconnect_type { - peer_manager_ref.socket_disconnected(&our_descriptor); - Self::event_trigger(&mut us.lock().unwrap()); + peer_manager.socket_disconnected(&our_descriptor); + peer_manager.process_events(); } } - fn new(event_notify: mpsc::Sender<()>, stream: StdTcpStream) -> (io::ReadHalf, mpsc::Receiver<()>, mpsc::Receiver<()>, Arc>) { + fn new(stream: StdTcpStream) -> (io::ReadHalf, mpsc::Receiver<()>, mpsc::Receiver<()>, Arc>) { // We only ever need a channel of depth 1 here: if we returned a non-full write to the // PeerManager, we will eventually get notified that there is room in the socket to write // new bytes, which will generate an event. That event will be popped off the queue before @@ -238,7 +222,7 @@ impl Connection { (reader, write_receiver, read_receiver, Arc::new(Mutex::new(Self { - writer: Some(writer), event_notify, write_avail, read_waker, read_paused: false, + writer: Some(writer), write_avail, read_waker, read_paused: false, block_disconnect_socket: false, rl_requested_disconnect: false, id: ID_COUNTER.fetch_add(1, Ordering::AcqRel) }))) @@ -251,13 +235,11 @@ impl Connection { /// The returned future will complete when the peer is disconnected and associated handling /// futures are freed, though, because all processing futures are spawned with tokio::spawn, you do /// not need to poll the provided future in order to make progress. -/// -/// See the module-level documentation for how to handle the event_notify mpsc::Sender. -pub fn setup_inbound(peer_manager: Arc, Arc, Arc>>, event_notify: mpsc::Sender<()>, stream: StdTcpStream) -> impl std::future::Future where +pub fn setup_inbound(peer_manager: Arc, Arc, Arc>>, stream: StdTcpStream) -> impl std::future::Future where CMH: ChannelMessageHandler + 'static + Send + Sync, RMH: RoutingMessageHandler + 'static + Send + Sync, L: Logger + 'static + ?Sized + Send + Sync { - let (reader, write_receiver, read_receiver, us) = Connection::new(event_notify, stream); + let (reader, write_receiver, read_receiver, us) = Connection::new(stream); #[cfg(debug_assertions)] let last_us = Arc::clone(&us); @@ -293,13 +275,11 @@ pub fn setup_inbound(peer_manager: Arc(peer_manager: Arc, Arc, Arc>>, event_notify: mpsc::Sender<()>, their_node_id: PublicKey, stream: StdTcpStream) -> impl std::future::Future where +pub fn setup_outbound(peer_manager: Arc, Arc, Arc>>, their_node_id: PublicKey, stream: StdTcpStream) -> impl std::future::Future where CMH: ChannelMessageHandler + 'static + Send + Sync, RMH: RoutingMessageHandler + 'static + Send + Sync, L: Logger + 'static + ?Sized + Send + Sync { - let (reader, mut write_receiver, read_receiver, us) = Connection::new(event_notify, stream); + let (reader, mut write_receiver, read_receiver, us) = Connection::new(stream); #[cfg(debug_assertions)] let last_us = Arc::clone(&us); @@ -365,14 +345,12 @@ pub fn setup_outbound(peer_manager: Arc(peer_manager: Arc, Arc, Arc>>, event_notify: mpsc::Sender<()>, their_node_id: PublicKey, addr: SocketAddr) -> Option> where +pub async fn connect_outbound(peer_manager: Arc, Arc, Arc>>, their_node_id: PublicKey, addr: SocketAddr) -> Option> where CMH: ChannelMessageHandler + 'static + Send + Sync, RMH: RoutingMessageHandler + 'static + Send + Sync, L: Logger + 'static + ?Sized + Send + Sync { if let Ok(Ok(stream)) = time::timeout(Duration::from_secs(10), async { TcpStream::connect(&addr).await.map(|s| s.into_std().unwrap()) }).await { - Some(setup_outbound(peer_manager, event_notify, their_node_id, stream)) + Some(setup_outbound(peer_manager, their_node_id, stream)) } else { None } } @@ -634,9 +612,8 @@ mod tests { (std::net::TcpStream::connect("127.0.0.1:46926").unwrap(), listener.accept().unwrap().0) } else { panic!("Failed to bind to v4 localhost on common ports"); }; - let (sender, _receiver) = mpsc::channel(2); - let fut_a = super::setup_outbound(Arc::clone(&a_manager), sender.clone(), b_pub, conn_a); - let fut_b = super::setup_inbound(b_manager, sender, conn_b); + let fut_a = super::setup_outbound(Arc::clone(&a_manager), b_pub, conn_a); + let fut_b = super::setup_inbound(b_manager, conn_b); tokio::time::timeout(Duration::from_secs(10), a_connected.recv()).await.unwrap(); tokio::time::timeout(Duration::from_secs(1), b_connected.recv()).await.unwrap();