278 lines
9.2 KiB
Rust
278 lines
9.2 KiB
Rust
//! A peer set whose size is dynamically determined by resource constraints.
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// Portions of this submodule were adapted from tower-balance,
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// which is (c) 2019 Tower Contributors (MIT licensed).
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use std::{
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net::SocketAddr,
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sync::{Arc, Mutex},
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time::Duration,
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};
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use futures::{
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channel::mpsc,
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future::{self, Future, FutureExt},
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sink::SinkExt,
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stream::{FuturesUnordered, StreamExt},
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};
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use tokio::net::{TcpListener, TcpStream};
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use tower::{
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buffer::Buffer,
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discover::{Change, ServiceStream},
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layer::Layer,
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Service, ServiceExt,
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};
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use tower_load::{peak_ewma::PeakEwmaDiscover, NoInstrument};
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use crate::{
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peer, timestamp_collector::TimestampCollector, AddressBook, BoxedStdError, Config, Request,
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Response,
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};
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use super::CandidateSet;
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use super::PeerSet;
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type PeerChange = Result<Change<SocketAddr, peer::Client>, BoxedStdError>;
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/// Initialize a peer set with the given `config`, forwarding peer requests to the `inbound_service`.
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pub async fn init<S>(
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config: Config,
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inbound_service: S,
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) -> (
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impl Service<
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Request,
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Response = Response,
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Error = BoxedStdError,
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Future = impl Future<Output = Result<Response, BoxedStdError>> + Send,
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> + Send
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+ Clone
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+ 'static,
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Arc<Mutex<AddressBook>>,
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)
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where
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S: Service<Request, Response = Response, Error = BoxedStdError> + Clone + Send + 'static,
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S::Future: Send + 'static,
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{
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let (address_book, timestamp_collector) = TimestampCollector::spawn();
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// Construct services that handle inbound handshakes and perform outbound
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// handshakes. These use the same handshake service internally to detect
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// self-connection attempts. Both are decorated with a tower TimeoutLayer to
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// enforce timeouts as specified in the Config.
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let (listener, connector) = {
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use tower::timeout::TimeoutLayer;
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let hs_timeout = TimeoutLayer::new(config.handshake_timeout);
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let hs = peer::Handshake::new(config.clone(), inbound_service, timestamp_collector);
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(
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hs_timeout.layer(hs.clone()),
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hs_timeout.layer(peer::Connector::new(hs)),
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)
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};
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// Create an mpsc channel for peer changes, with a generous buffer.
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let (peerset_tx, peerset_rx) = mpsc::channel::<PeerChange>(100);
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// Create an mpsc channel for peerset demand signaling.
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let (demand_tx, demand_rx) = mpsc::channel::<()>(100);
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// Connect the rx end to a PeerSet, wrapping new peers in load instruments.
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let peer_set = Buffer::new(
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PeerSet::new(
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PeakEwmaDiscover::new(
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ServiceStream::new(
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// ServiceStream interprets an error as stream termination,
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// so discard any errored connections...
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peerset_rx.filter(|result| future::ready(result.is_ok())),
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),
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config.ewma_default_rtt,
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config.ewma_decay_time,
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NoInstrument,
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),
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demand_tx,
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),
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config.peerset_request_buffer_size,
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);
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// Connect the tx end to the 3 peer sources:
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// 1. Initial peers, specified in the config.
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tokio::spawn(add_initial_peers(
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config.initial_peers(),
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connector.clone(),
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peerset_tx.clone(),
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));
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// 2. Incoming peer connections, via a listener.
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tokio::spawn(
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listen(config.listen_addr, listener, peerset_tx.clone()).map(|result| {
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if let Err(e) = result {
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error!(%e);
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}
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}),
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);
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// 3. Outgoing peers we connect to in response to load.
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let mut candidates = CandidateSet::new(address_book.clone(), peer_set.clone());
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// We need to await candidates.update() here, because Zcashd only sends one
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// `addr` message per connection, and if we only have one initial peer we
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// need to ensure that its `addr` message is used by the crawler.
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// XXX this should go in CandidateSet::new, but we need init() -> Result<_,_>
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let _ = candidates.update().await;
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info!("Sending initial request for peers");
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tokio::spawn(
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crawl_and_dial(
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config.new_peer_interval,
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demand_rx,
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candidates,
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connector,
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peerset_tx,
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)
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.map(|result| {
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if let Err(e) = result {
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error!(%e);
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}
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}),
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);
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(peer_set, address_book)
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}
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/// Use the provided `handshaker` to connect to `initial_peers`, then send
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/// the results over `tx`.
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#[instrument(skip(initial_peers, connector, tx))]
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async fn add_initial_peers<S>(
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initial_peers: Vec<SocketAddr>,
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connector: S,
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mut tx: mpsc::Sender<PeerChange>,
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) where
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S: Service<SocketAddr, Response = Change<SocketAddr, peer::Client>, Error = BoxedStdError>
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+ Clone,
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S::Future: Send + 'static,
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{
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info!(?initial_peers, "Connecting to initial peer set");
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use tower::util::CallAllUnordered;
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let addr_stream = futures::stream::iter(initial_peers.into_iter());
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let mut handshakes = CallAllUnordered::new(connector, addr_stream);
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while let Some(handshake_result) = handshakes.next().await {
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let _ = tx.send(handshake_result).await;
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}
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}
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/// Bind to `addr`, listen for peers using `handshaker`, then send the
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/// results over `tx`.
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#[instrument(skip(tx, handshaker))]
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async fn listen<S>(
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addr: SocketAddr,
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mut handshaker: S,
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tx: mpsc::Sender<PeerChange>,
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) -> Result<(), BoxedStdError>
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where
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S: Service<(TcpStream, SocketAddr), Response = peer::Client, Error = BoxedStdError> + Clone,
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S::Future: Send + 'static,
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{
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let mut listener = TcpListener::bind(addr).await?;
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loop {
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if let Ok((tcp_stream, addr)) = listener.accept().await {
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debug!(?addr, "got incoming connection");
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handshaker.ready().await?;
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// Construct a handshake future but do not drive it yet....
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let handshake = handshaker.call((tcp_stream, addr));
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// ... instead, spawn a new task to handle this connection
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let mut tx2 = tx.clone();
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tokio::spawn(async move {
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if let Ok(client) = handshake.await {
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let _ = tx2.send(Ok(Change::Insert(addr, client))).await;
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}
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});
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}
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}
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}
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/// Given a channel that signals a need for new peers, try to connect to a peer
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/// and send the resulting `peer::Client` through a channel.
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///
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#[instrument(skip(new_peer_interval, demand_signal, candidates, connector, success_tx))]
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async fn crawl_and_dial<C, S>(
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new_peer_interval: Duration,
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demand_signal: mpsc::Receiver<()>,
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mut candidates: CandidateSet<S>,
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mut connector: C,
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mut success_tx: mpsc::Sender<PeerChange>,
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) -> Result<(), BoxedStdError>
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where
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C: Service<SocketAddr, Response = Change<SocketAddr, peer::Client>, Error = BoxedStdError>
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+ Clone,
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C::Future: Send + 'static,
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S: Service<Request, Response = Response, Error = BoxedStdError>,
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S::Future: Send + 'static,
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{
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use futures::TryFutureExt;
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// On creation, we are likely to have very few peers, so try to get more
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// connections quickly by concurrently connecting to a large number of
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// candidates.
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let mut handshakes = FuturesUnordered::new();
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for _ in 0..50usize {
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if let Some(candidate) = candidates.next() {
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connector.ready().await?;
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handshakes.push(
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connector
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.call(candidate.addr)
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// Use map_err to tag failed connections with the MetaAddr,
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// so they can be reported to the CandidateSet.
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.map_err(move |_| candidate),
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)
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}
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}
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while let Some(handshake) = handshakes.next().await {
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match handshake {
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Ok(change) => {
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debug!("Successfully dialed new peer, sending to peerset");
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success_tx.send(Ok(change)).await?;
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}
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Err(candidate) => {
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debug!(?candidate.addr, "marking address as failed");
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candidates.report_failed(candidate);
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}
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}
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}
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let mut connect_signal = futures::stream::select(
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tokio::time::interval(new_peer_interval).map(|_| ()),
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demand_signal,
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);
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while let Some(()) = connect_signal.next().await {
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debug!("got demand signal from peer set, updating candidates");
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candidates.update().await?;
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loop {
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let candidate = match candidates.next() {
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Some(candidate) => candidate,
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None => {
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warn!("got demand for more peers but no available candidates");
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break;
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}
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};
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connector.ready().await?;
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match connector
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.call(candidate.addr)
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.map_err(move |_| candidate)
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.await
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{
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Ok(change) => {
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debug!("Successfully dialed new peer, sending to peerset");
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success_tx.send(Ok(change)).await?;
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break;
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}
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Err(candidate) => {
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debug!(?candidate.addr, "marking address as failed");
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candidates.report_failed(candidate);
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}
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}
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}
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}
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Ok(())
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}
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