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// Copyright 2021 Protocol Labs.
// Copyright 2018 Parity Technologies (UK) Ltd.
//
// Permission is hereby granted, free of charge, to any person obtaining a
// copy of this software and associated documentation files (the "Software"),
// to deal in the Software without restriction, including without limitation
// the rights to use, copy, modify, merge, publish, distribute, sublicense,
// and/or sell copies of the Software, and to permit persons to whom the
// Software is furnished to do so, subject to the following conditions:
//
// The above copyright notice and this permission notice shall be included in
// all copies or substantial portions of the Software.
//
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS
// OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
// AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
// FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER
// DEALINGS IN THE SOFTWARE.
use crate::connection::{Connection, ConnectionId, PendingPoint};
use crate::{
connection::{
Connected, ConnectionError, IncomingInfo, PendingConnectionError,
PendingInboundConnectionError, PendingOutboundConnectionError,
},
transport::TransportError,
ConnectedPoint, ConnectionHandler, Executor, Multiaddr, PeerId,
};
use concurrent_dial::ConcurrentDial;
use fnv::FnvHashMap;
use futures::prelude::*;
use futures::stream::SelectAll;
use futures::{
channel::{mpsc, oneshot},
future::{poll_fn, BoxFuture, Either},
ready,
stream::FuturesUnordered,
};
use instant::{Duration, Instant};
use libp2p_core::connection::Endpoint;
use libp2p_core::muxing::{StreamMuxerBox, StreamMuxerExt};
use std::task::Waker;
use std::{
collections::HashMap,
fmt,
num::{NonZeroU8, NonZeroUsize},
pin::Pin,
task::Context,
task::Poll,
};
use tracing::Instrument;
use void::Void;
mod concurrent_dial;
mod task;
enum ExecSwitch {
Executor(Box<dyn Executor + Send>),
LocalSpawn(FuturesUnordered<Pin<Box<dyn Future<Output = ()> + Send>>>),
}
impl ExecSwitch {
fn advance_local(&mut self, cx: &mut Context) {
match self {
ExecSwitch::Executor(_) => {}
ExecSwitch::LocalSpawn(local) => {
while let Poll::Ready(Some(())) = local.poll_next_unpin(cx) {}
}
}
}
fn spawn(&mut self, task: impl Future<Output = ()> + Send + 'static) {
let task = task.boxed();
match self {
Self::Executor(executor) => executor.exec(task),
Self::LocalSpawn(local) => local.push(task),
}
}
}
/// A connection `Pool` manages a set of connections for each peer.
pub(crate) struct Pool<THandler>
where
THandler: ConnectionHandler,
{
local_id: PeerId,
/// The connection counter(s).
counters: ConnectionCounters,
/// The managed connections of each peer that are currently considered established.
established: FnvHashMap<
PeerId,
FnvHashMap<ConnectionId, EstablishedConnection<THandler::FromBehaviour>>,
>,
/// The pending connections that are currently being negotiated.
pending: HashMap<ConnectionId, PendingConnection>,
/// Size of the task command buffer (per task).
task_command_buffer_size: usize,
/// Number of addresses concurrently dialed for a single outbound connection attempt.
dial_concurrency_factor: NonZeroU8,
/// The configured override for substream protocol upgrades, if any.
substream_upgrade_protocol_override: Option<libp2p_core::upgrade::Version>,
/// The maximum number of inbound streams concurrently negotiating on a connection.
///
/// See [`Connection::max_negotiating_inbound_streams`].
max_negotiating_inbound_streams: usize,
/// How many [`task::EstablishedConnectionEvent`]s can be buffered before the connection is back-pressured.
per_connection_event_buffer_size: usize,
/// The executor to use for running connection tasks. Can either be a global executor
/// or a local queue.
executor: ExecSwitch,
/// Sender distributed to pending tasks for reporting events back
/// to the pool.
pending_connection_events_tx: mpsc::Sender<task::PendingConnectionEvent>,
/// Receiver for events reported from pending tasks.
pending_connection_events_rx: mpsc::Receiver<task::PendingConnectionEvent>,
/// Waker in case we haven't established any connections yet.
no_established_connections_waker: Option<Waker>,
/// Receivers for events reported from established connections.
established_connection_events:
SelectAll<mpsc::Receiver<task::EstablishedConnectionEvent<THandler::ToBehaviour>>>,
/// Receivers for [`NewConnection`] objects that are dropped.
new_connection_dropped_listeners: FuturesUnordered<oneshot::Receiver<StreamMuxerBox>>,
/// How long a connection should be kept alive once it starts idling.
idle_connection_timeout: Duration,
}
#[derive(Debug)]
pub(crate) struct EstablishedConnection<TInEvent> {
endpoint: ConnectedPoint,
/// Channel endpoint to send commands to the task.
sender: mpsc::Sender<task::Command<TInEvent>>,
}
impl<TInEvent> EstablishedConnection<TInEvent> {
/// (Asynchronously) sends an event to the connection handler.
///
/// If the handler is not ready to receive the event, either because
/// it is busy or the connection is about to close, the given event
/// is returned with an `Err`.
///
/// If execution of this method is preceded by successful execution of
/// `poll_ready_notify_handler` without another intervening execution
/// of `notify_handler`, it only fails if the connection is now about
/// to close.
pub(crate) fn notify_handler(&mut self, event: TInEvent) -> Result<(), TInEvent> {
let cmd = task::Command::NotifyHandler(event);
self.sender.try_send(cmd).map_err(|e| match e.into_inner() {
task::Command::NotifyHandler(event) => event,
_ => unreachable!("Expect failed send to return initial event."),
})
}
/// Checks if `notify_handler` is ready to accept an event.
///
/// Returns `Ok(())` if the handler is ready to receive an event via `notify_handler`.
///
/// Returns `Err(())` if the background task associated with the connection
/// is terminating and the connection is about to close.
pub(crate) fn poll_ready_notify_handler(
&mut self,
cx: &mut Context<'_>,
) -> Poll<Result<(), ()>> {
self.sender.poll_ready(cx).map_err(|_| ())
}
/// Initiates a graceful close of the connection.
///
/// Has no effect if the connection is already closing.
pub(crate) fn start_close(&mut self) {
// Clone the sender so that we are guaranteed to have
// capacity for the close command (every sender gets a slot).
match self.sender.clone().try_send(task::Command::Close) {
Ok(()) => {}
Err(e) => assert!(e.is_disconnected(), "No capacity for close command."),
};
}
}
struct PendingConnection {
/// [`PeerId`] of the remote peer.
peer_id: Option<PeerId>,
endpoint: PendingPoint,
/// When dropped, notifies the task which then knows to terminate.
abort_notifier: Option<oneshot::Sender<Void>>,
/// The moment we became aware of this possible connection, useful for timing metrics.
accepted_at: Instant,
}
impl PendingConnection {
fn is_for_same_remote_as(&self, other: PeerId) -> bool {
self.peer_id.map_or(false, |peer| peer == other)
}
/// Aborts the connection attempt, closing the connection.
fn abort(&mut self) {
if let Some(notifier) = self.abort_notifier.take() {
drop(notifier);
}
}
}
impl<THandler: ConnectionHandler> fmt::Debug for Pool<THandler> {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> Result<(), fmt::Error> {
f.debug_struct("Pool")
.field("counters", &self.counters)
.finish()
}
}
/// Event that can happen on the `Pool`.
#[derive(Debug)]
pub(crate) enum PoolEvent<ToBehaviour> {
/// A new connection has been established.
ConnectionEstablished {
id: ConnectionId,
peer_id: PeerId,
endpoint: ConnectedPoint,
connection: NewConnection,
/// [`Some`] when the new connection is an outgoing connection.
/// Addresses are dialed in parallel. Contains the addresses and errors
/// of dial attempts that failed before the one successful dial.
concurrent_dial_errors: Option<Vec<(Multiaddr, TransportError<std::io::Error>)>>,
/// How long it took to establish this connection.
established_in: std::time::Duration,
},
/// An established connection was closed.
///
/// A connection may close if
///
/// * it encounters an error, which includes the connection being
/// closed by the remote. In this case `error` is `Some`.
/// * it was actively closed by [`EstablishedConnection::start_close`],
/// i.e. a successful, orderly close.
/// * it was actively closed by [`Pool::disconnect`], i.e.
/// dropped without an orderly close.
///
ConnectionClosed {
id: ConnectionId,
/// Information about the connection that errored.
connected: Connected,
/// The error that occurred, if any. If `None`, the connection
/// was closed by the local peer.
error: Option<ConnectionError>,
/// The remaining established connections to the same peer.
remaining_established_connection_ids: Vec<ConnectionId>,
},
/// An outbound connection attempt failed.
PendingOutboundConnectionError {
/// The ID of the failed connection.
id: ConnectionId,
/// The error that occurred.
error: PendingOutboundConnectionError,
/// The (expected) peer of the failed connection.
peer: Option<PeerId>,
},
/// An inbound connection attempt failed.
PendingInboundConnectionError {
/// The ID of the failed connection.
id: ConnectionId,
/// Address used to send back data to the remote.
send_back_addr: Multiaddr,
/// Local connection address.
local_addr: Multiaddr,
/// The error that occurred.
error: PendingInboundConnectionError,
},
/// A node has produced an event.
ConnectionEvent {
id: ConnectionId,
peer_id: PeerId,
/// The produced event.
event: ToBehaviour,
},
/// The connection to a node has changed its address.
AddressChange {
id: ConnectionId,
peer_id: PeerId,
/// The new endpoint.
new_endpoint: ConnectedPoint,
/// The old endpoint.
old_endpoint: ConnectedPoint,
},
}
impl<THandler> Pool<THandler>
where
THandler: ConnectionHandler,
{
/// Creates a new empty `Pool`.
pub(crate) fn new(local_id: PeerId, config: PoolConfig) -> Self {
let (pending_connection_events_tx, pending_connection_events_rx) = mpsc::channel(0);
let executor = match config.executor {
Some(exec) => ExecSwitch::Executor(exec),
None => ExecSwitch::LocalSpawn(Default::default()),
};
Pool {
local_id,
counters: ConnectionCounters::new(),
established: Default::default(),
pending: Default::default(),
task_command_buffer_size: config.task_command_buffer_size,
dial_concurrency_factor: config.dial_concurrency_factor,
substream_upgrade_protocol_override: config.substream_upgrade_protocol_override,
max_negotiating_inbound_streams: config.max_negotiating_inbound_streams,
per_connection_event_buffer_size: config.per_connection_event_buffer_size,
idle_connection_timeout: config.idle_connection_timeout,
executor,
pending_connection_events_tx,
pending_connection_events_rx,
no_established_connections_waker: None,
established_connection_events: Default::default(),
new_connection_dropped_listeners: Default::default(),
}
}
/// Gets the dedicated connection counters.
pub(crate) fn counters(&self) -> &ConnectionCounters {
&self.counters
}
/// Gets an established connection from the pool by ID.
pub(crate) fn get_established(
&mut self,
id: ConnectionId,
) -> Option<&mut EstablishedConnection<THandler::FromBehaviour>> {
self.established
.values_mut()
.find_map(|connections| connections.get_mut(&id))
}
/// Returns true if we are connected to the given peer.
///
/// This will return true only after a `NodeReached` event has been produced by `poll()`.
pub(crate) fn is_connected(&self, id: PeerId) -> bool {
self.established.contains_key(&id)
}
/// Returns the number of connected peers, i.e. those with at least one
/// established connection in the pool.
pub(crate) fn num_peers(&self) -> usize {
self.established.len()
}
/// (Forcefully) close all connections to the given peer.
///
/// All connections to the peer, whether pending or established are
/// closed asap and no more events from these connections are emitted
/// by the pool effective immediately.
pub(crate) fn disconnect(&mut self, peer: PeerId) {
if let Some(conns) = self.established.get_mut(&peer) {
for (_, conn) in conns.iter_mut() {
conn.start_close();
}
}
for connection in self
.pending
.iter_mut()
.filter_map(|(_, info)| info.is_for_same_remote_as(peer).then_some(info))
{
connection.abort()
}
}
/// Returns an iterator over all established connections of `peer`.
pub(crate) fn iter_established_connections_of_peer(
&mut self,
peer: &PeerId,
) -> impl Iterator<Item = ConnectionId> + '_ {
match self.established.get(peer) {
Some(conns) => either::Either::Left(conns.iter().map(|(id, _)| *id)),
None => either::Either::Right(std::iter::empty()),
}
}
/// Checks whether we are currently dialing the given peer.
pub(crate) fn is_dialing(&self, peer: PeerId) -> bool {
self.pending.iter().any(|(_, info)| {
matches!(info.endpoint, PendingPoint::Dialer { .. }) && info.is_for_same_remote_as(peer)
})
}
/// Returns an iterator over all connected peers, i.e. those that have
/// at least one established connection in the pool.
pub(crate) fn iter_connected(&self) -> impl Iterator<Item = &PeerId> {
self.established.keys()
}
/// Adds a pending outgoing connection to the pool in the form of a `Future`
/// that establishes and negotiates the connection.
pub(crate) fn add_outgoing(
&mut self,
dials: Vec<
BoxFuture<
'static,
(
Multiaddr,
Result<(PeerId, StreamMuxerBox), TransportError<std::io::Error>>,
),
>,
>,
peer: Option<PeerId>,
role_override: Endpoint,
dial_concurrency_factor_override: Option<NonZeroU8>,
connection_id: ConnectionId,
) {
let concurrency_factor =
dial_concurrency_factor_override.unwrap_or(self.dial_concurrency_factor);
let span = tracing::debug_span!(parent: tracing::Span::none(), "new_outgoing_connection", %concurrency_factor, num_dials=%dials.len(), id = %connection_id);
span.follows_from(tracing::Span::current());
let (abort_notifier, abort_receiver) = oneshot::channel();
self.executor.spawn(
task::new_for_pending_outgoing_connection(
connection_id,
ConcurrentDial::new(dials, concurrency_factor),
abort_receiver,
self.pending_connection_events_tx.clone(),
)
.instrument(span),
);
let endpoint = PendingPoint::Dialer { role_override };
self.counters.inc_pending(&endpoint);
self.pending.insert(
connection_id,
PendingConnection {
peer_id: peer,
endpoint,
abort_notifier: Some(abort_notifier),
accepted_at: Instant::now(),
},
);
}
/// Adds a pending incoming connection to the pool in the form of a
/// `Future` that establishes and negotiates the connection.
pub(crate) fn add_incoming<TFut>(
&mut self,
future: TFut,
info: IncomingInfo<'_>,
connection_id: ConnectionId,
) where
TFut: Future<Output = Result<(PeerId, StreamMuxerBox), std::io::Error>> + Send + 'static,
{
let endpoint = info.create_connected_point();
let (abort_notifier, abort_receiver) = oneshot::channel();
let span = tracing::debug_span!(parent: tracing::Span::none(), "new_incoming_connection", remote_addr = %info.send_back_addr, id = %connection_id);
span.follows_from(tracing::Span::current());
self.executor.spawn(
task::new_for_pending_incoming_connection(
connection_id,
future,
abort_receiver,
self.pending_connection_events_tx.clone(),
)
.instrument(span),
);
self.counters.inc_pending_incoming();
self.pending.insert(
connection_id,
PendingConnection {
peer_id: None,
endpoint: endpoint.into(),
abort_notifier: Some(abort_notifier),
accepted_at: Instant::now(),
},
);
}
pub(crate) fn spawn_connection(
&mut self,
id: ConnectionId,
obtained_peer_id: PeerId,
endpoint: &ConnectedPoint,
connection: NewConnection,
handler: THandler,
) {
let connection = connection.extract();
let conns = self.established.entry(obtained_peer_id).or_default();
self.counters.inc_established(endpoint);
let (command_sender, command_receiver) = mpsc::channel(self.task_command_buffer_size);
let (event_sender, event_receiver) = mpsc::channel(self.per_connection_event_buffer_size);
conns.insert(
id,
EstablishedConnection {
endpoint: endpoint.clone(),
sender: command_sender,
},
);
self.established_connection_events.push(event_receiver);
if let Some(waker) = self.no_established_connections_waker.take() {
waker.wake();
}
let connection = Connection::new(
connection,
handler,
self.substream_upgrade_protocol_override,
self.max_negotiating_inbound_streams,
self.idle_connection_timeout,
);
let span = tracing::debug_span!(parent: tracing::Span::none(), "new_established_connection", remote_addr = %endpoint.get_remote_address(), %id, peer = %obtained_peer_id);
span.follows_from(tracing::Span::current());
self.executor.spawn(
task::new_for_established_connection(
id,
obtained_peer_id,
connection,
command_receiver,
event_sender,
)
.instrument(span),
)
}
/// Polls the connection pool for events.
#[tracing::instrument(level = "debug", name = "Pool::poll", skip(self, cx))]
pub(crate) fn poll(&mut self, cx: &mut Context<'_>) -> Poll<PoolEvent<THandler::ToBehaviour>>
where
THandler: ConnectionHandler + 'static,
<THandler as ConnectionHandler>::OutboundOpenInfo: Send,
{
// Poll for events of established connections.
//
// Note that established connections are polled before pending connections, thus
// prioritizing established connections over pending connections.
match self.established_connection_events.poll_next_unpin(cx) {
Poll::Pending => {}
Poll::Ready(None) => {
self.no_established_connections_waker = Some(cx.waker().clone());
}
Poll::Ready(Some(task::EstablishedConnectionEvent::Notify { id, peer_id, event })) => {
return Poll::Ready(PoolEvent::ConnectionEvent { peer_id, id, event });
}
Poll::Ready(Some(task::EstablishedConnectionEvent::AddressChange {
id,
peer_id,
new_address,
})) => {
let connection = self
.established
.get_mut(&peer_id)
.expect("Receive `AddressChange` event for established peer.")
.get_mut(&id)
.expect("Receive `AddressChange` event from established connection");
let mut new_endpoint = connection.endpoint.clone();
new_endpoint.set_remote_address(new_address);
let old_endpoint =
std::mem::replace(&mut connection.endpoint, new_endpoint.clone());
return Poll::Ready(PoolEvent::AddressChange {
peer_id,
id,
new_endpoint,
old_endpoint,
});
}
Poll::Ready(Some(task::EstablishedConnectionEvent::Closed { id, peer_id, error })) => {
let connections = self
.established
.get_mut(&peer_id)
.expect("`Closed` event for established connection");
let EstablishedConnection { endpoint, .. } =
connections.remove(&id).expect("Connection to be present");
self.counters.dec_established(&endpoint);
let remaining_established_connection_ids: Vec<ConnectionId> =
connections.keys().cloned().collect();
if remaining_established_connection_ids.is_empty() {
self.established.remove(&peer_id);
}
return Poll::Ready(PoolEvent::ConnectionClosed {
id,
connected: Connected { endpoint, peer_id },
error,
remaining_established_connection_ids,
});
}
}
// Poll for events of pending connections.
loop {
if let Poll::Ready(Some(result)) =
self.new_connection_dropped_listeners.poll_next_unpin(cx)
{
if let Ok(dropped_connection) = result {
self.executor.spawn(async move {
let _ = dropped_connection.close().await;
});
}
continue;
}
let event = match self.pending_connection_events_rx.poll_next_unpin(cx) {
Poll::Ready(Some(event)) => event,
Poll::Pending => break,
Poll::Ready(None) => unreachable!("Pool holds both sender and receiver."),
};
match event {
task::PendingConnectionEvent::ConnectionEstablished {
id,
output: (obtained_peer_id, mut muxer),
outgoing,
} => {
let PendingConnection {
peer_id: expected_peer_id,
endpoint,
abort_notifier: _,
accepted_at,
} = self
.pending
.remove(&id)
.expect("Entry in `self.pending` for previously pending connection.");
self.counters.dec_pending(&endpoint);
let (endpoint, concurrent_dial_errors) = match (endpoint, outgoing) {
(PendingPoint::Dialer { role_override }, Some((address, errors))) => (
ConnectedPoint::Dialer {
address,
role_override,
},
Some(errors),
),
(
PendingPoint::Listener {
local_addr,
send_back_addr,
},
None,
) => (
ConnectedPoint::Listener {
local_addr,
send_back_addr,
},
None,
),
(PendingPoint::Dialer { .. }, None) => unreachable!(
"Established incoming connection via pending outgoing connection."
),
(PendingPoint::Listener { .. }, Some(_)) => unreachable!(
"Established outgoing connection via pending incoming connection."
),
};
let check_peer_id = || {
if let Some(peer) = expected_peer_id {
if peer != obtained_peer_id {
return Err(PendingConnectionError::WrongPeerId {
obtained: obtained_peer_id,
endpoint: endpoint.clone(),
});
}
}
if self.local_id == obtained_peer_id {
return Err(PendingConnectionError::LocalPeerId {
endpoint: endpoint.clone(),
});
}
Ok(())
};
if let Err(error) = check_peer_id() {
self.executor.spawn(poll_fn(move |cx| {
if let Err(e) = ready!(muxer.poll_close_unpin(cx)) {
tracing::debug!(
peer=%obtained_peer_id,
connection=%id,
"Failed to close connection to peer: {:?}",
e
);
}
Poll::Ready(())
}));
match endpoint {
ConnectedPoint::Dialer { .. } => {
return Poll::Ready(PoolEvent::PendingOutboundConnectionError {
id,
error: error
.map(|t| vec![(endpoint.get_remote_address().clone(), t)]),
peer: expected_peer_id.or(Some(obtained_peer_id)),
})
}
ConnectedPoint::Listener {
send_back_addr,
local_addr,
} => {
return Poll::Ready(PoolEvent::PendingInboundConnectionError {
id,
error,
send_back_addr,
local_addr,
})
}
};
}
let established_in = accepted_at.elapsed();
let (connection, drop_listener) = NewConnection::new(muxer);
self.new_connection_dropped_listeners.push(drop_listener);
return Poll::Ready(PoolEvent::ConnectionEstablished {
peer_id: obtained_peer_id,
endpoint,
id,
connection,
concurrent_dial_errors,
established_in,
});
}
task::PendingConnectionEvent::PendingFailed { id, error } => {
if let Some(PendingConnection {
peer_id,
endpoint,
abort_notifier: _,
accepted_at: _, // Ignoring the time it took for the connection to fail.
}) = self.pending.remove(&id)
{
self.counters.dec_pending(&endpoint);
match (endpoint, error) {
(PendingPoint::Dialer { .. }, Either::Left(error)) => {
return Poll::Ready(PoolEvent::PendingOutboundConnectionError {
id,
error,
peer: peer_id,
});
}
(
PendingPoint::Listener {
send_back_addr,
local_addr,
},
Either::Right(error),
) => {
return Poll::Ready(PoolEvent::PendingInboundConnectionError {
id,
error,
send_back_addr,
local_addr,
});
}
(PendingPoint::Dialer { .. }, Either::Right(_)) => {
unreachable!("Inbound error for outbound connection.")
}
(PendingPoint::Listener { .. }, Either::Left(_)) => {
unreachable!("Outbound error for inbound connection.")
}
}
}
}
}
}
self.executor.advance_local(cx);
Poll::Pending
}
}
/// Opaque type for a new connection.
///
/// This connection has just been established but isn't part of the [`Pool`] yet.
/// It either needs to be spawned via [`Pool::spawn_connection`] or dropped if undesired.
///
/// On drop, this type send the connection back to the [`Pool`] where it will be gracefully closed.
#[derive(Debug)]
pub(crate) struct NewConnection {
connection: Option<StreamMuxerBox>,
drop_sender: Option<oneshot::Sender<StreamMuxerBox>>,
}
impl NewConnection {
fn new(conn: StreamMuxerBox) -> (Self, oneshot::Receiver<StreamMuxerBox>) {
let (sender, receiver) = oneshot::channel();
(
Self {
connection: Some(conn),
drop_sender: Some(sender),
},
receiver,
)
}
fn extract(mut self) -> StreamMuxerBox {
self.connection.take().unwrap()
}
}
impl Drop for NewConnection {
fn drop(&mut self) {
if let Some(connection) = self.connection.take() {
let _ = self
.drop_sender
.take()
.expect("`drop_sender` to always be `Some`")
.send(connection);
}
}
}
/// Network connection information.
#[derive(Debug, Clone)]
pub struct ConnectionCounters {
/// The current number of incoming connections.
pending_incoming: u32,
/// The current number of outgoing connections.
pending_outgoing: u32,
/// The current number of established inbound connections.
established_incoming: u32,
/// The current number of established outbound connections.
established_outgoing: u32,
}
impl ConnectionCounters {
fn new() -> Self {
Self {
pending_incoming: 0,
pending_outgoing: 0,
established_incoming: 0,
established_outgoing: 0,
}
}
/// The total number of connections, both pending and established.
pub fn num_connections(&self) -> u32 {
self.num_pending() + self.num_established()
}
/// The total number of pending connections, both incoming and outgoing.
pub fn num_pending(&self) -> u32 {
self.pending_incoming + self.pending_outgoing
}
/// The number of incoming connections being established.
pub fn num_pending_incoming(&self) -> u32 {
self.pending_incoming
}
/// The number of outgoing connections being established.
pub fn num_pending_outgoing(&self) -> u32 {
self.pending_outgoing
}
/// The number of established incoming connections.
pub fn num_established_incoming(&self) -> u32 {
self.established_incoming
}
/// The number of established outgoing connections.
pub fn num_established_outgoing(&self) -> u32 {
self.established_outgoing
}
/// The total number of established connections.
pub fn num_established(&self) -> u32 {
self.established_outgoing + self.established_incoming
}
fn inc_pending(&mut self, endpoint: &PendingPoint) {
match endpoint {
PendingPoint::Dialer { .. } => {
self.pending_outgoing += 1;
}
PendingPoint::Listener { .. } => {
self.pending_incoming += 1;
}
}
}
fn inc_pending_incoming(&mut self) {
self.pending_incoming += 1;
}
fn dec_pending(&mut self, endpoint: &PendingPoint) {
match endpoint {
PendingPoint::Dialer { .. } => {
self.pending_outgoing -= 1;
}
PendingPoint::Listener { .. } => {
self.pending_incoming -= 1;
}
}
}
fn inc_established(&mut self, endpoint: &ConnectedPoint) {
match endpoint {
ConnectedPoint::Dialer { .. } => {
self.established_outgoing += 1;
}
ConnectedPoint::Listener { .. } => {
self.established_incoming += 1;
}
}
}
fn dec_established(&mut self, endpoint: &ConnectedPoint) {
match endpoint {
ConnectedPoint::Dialer { .. } => {
self.established_outgoing -= 1;
}
ConnectedPoint::Listener { .. } => {
self.established_incoming -= 1;
}
}
}
}
/// Configuration options when creating a [`Pool`].
///
/// The default configuration specifies no dedicated task executor, a
/// task event buffer size of 32, and a task command buffer size of 7.
pub(crate) struct PoolConfig {
/// Executor to use to spawn tasks.
pub(crate) executor: Option<Box<dyn Executor + Send>>,
/// Size of the task command buffer (per task).
pub(crate) task_command_buffer_size: usize,
/// Size of the pending connection task event buffer and the established connection task event
/// buffer.
pub(crate) per_connection_event_buffer_size: usize,
/// Number of addresses concurrently dialed for a single outbound connection attempt.
pub(crate) dial_concurrency_factor: NonZeroU8,
/// How long a connection should be kept alive once it is idling.
pub(crate) idle_connection_timeout: Duration,
/// The configured override for substream protocol upgrades, if any.
substream_upgrade_protocol_override: Option<libp2p_core::upgrade::Version>,
/// The maximum number of inbound streams concurrently negotiating on a connection.
///
/// See [`Connection::max_negotiating_inbound_streams`].
max_negotiating_inbound_streams: usize,
}
impl PoolConfig {
pub(crate) fn new(executor: Option<Box<dyn Executor + Send>>) -> Self {
Self {
executor,
task_command_buffer_size: 32,
per_connection_event_buffer_size: 7,
dial_concurrency_factor: NonZeroU8::new(8).expect("8 > 0"),
idle_connection_timeout: Duration::ZERO,
substream_upgrade_protocol_override: None,
max_negotiating_inbound_streams: 128,
}
}
/// Sets the maximum number of events sent to a connection's background task
/// that may be buffered, if the task cannot keep up with their consumption and
/// delivery to the connection handler.
///
/// When the buffer for a particular connection is full, `notify_handler` will no
/// longer be able to deliver events to the associated [`Connection`],
/// thus exerting back-pressure on the connection and peer API.
pub(crate) fn with_notify_handler_buffer_size(mut self, n: NonZeroUsize) -> Self {
self.task_command_buffer_size = n.get() - 1;
self
}
/// Sets the maximum number of buffered connection events (beyond a guaranteed
/// buffer of 1 event per connection).
///
/// When the buffer is full, the background tasks of all connections will stall.
/// In this way, the consumers of network events exert back-pressure on
/// the network connection I/O.
pub(crate) fn with_per_connection_event_buffer_size(mut self, n: usize) -> Self {
self.per_connection_event_buffer_size = n;
self
}
/// Number of addresses concurrently dialed for a single outbound connection attempt.
pub(crate) fn with_dial_concurrency_factor(mut self, factor: NonZeroU8) -> Self {
self.dial_concurrency_factor = factor;
self
}
/// Configures an override for the substream upgrade protocol to use.
pub(crate) fn with_substream_upgrade_protocol_override(
mut self,
v: libp2p_core::upgrade::Version,
) -> Self {
self.substream_upgrade_protocol_override = Some(v);
self
}
/// The maximum number of inbound streams concurrently negotiating on a connection.
///
/// See [`Connection::max_negotiating_inbound_streams`].
pub(crate) fn with_max_negotiating_inbound_streams(mut self, v: usize) -> Self {
self.max_negotiating_inbound_streams = v;
self
}
}