// Copyright 2020 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. pub(crate) mod protocol; pub use protocol::ProtocolSupport; use crate::codec::Codec; use crate::handler::protocol::Protocol; use crate::{InboundRequestId, OutboundRequestId, EMPTY_QUEUE_SHRINK_THRESHOLD}; use futures::channel::mpsc; use futures::{channel::oneshot, prelude::*}; use libp2p_swarm::handler::{ ConnectionEvent, DialUpgradeError, FullyNegotiatedInbound, FullyNegotiatedOutbound, ListenUpgradeError, }; use libp2p_swarm::{ handler::{ConnectionHandler, ConnectionHandlerEvent, StreamUpgradeError}, SubstreamProtocol, }; use smallvec::SmallVec; use std::{ collections::VecDeque, fmt, io, sync::{ atomic::{AtomicU64, Ordering}, Arc, }, task::{Context, Poll}, time::Duration, }; /// A connection handler for a request response [`Behaviour`](super::Behaviour) protocol. pub struct Handler where TCodec: Codec, { /// The supported inbound protocols. inbound_protocols: SmallVec<[TCodec::Protocol; 2]>, /// The request/response message codec. codec: TCodec, /// Queue of events to emit in `poll()`. pending_events: VecDeque>, /// Outbound upgrades waiting to be emitted as an `OutboundSubstreamRequest`. pending_outbound: VecDeque>, requested_outbound: VecDeque>, /// A channel for receiving inbound requests. inbound_receiver: mpsc::Receiver<( InboundRequestId, TCodec::Request, oneshot::Sender, )>, /// The [`mpsc::Sender`] for the above receiver. Cloned for each inbound request. inbound_sender: mpsc::Sender<( InboundRequestId, TCodec::Request, oneshot::Sender, )>, inbound_request_id: Arc, worker_streams: futures_bounded::FuturesMap, io::Error>>, } #[derive(Debug, Clone, Copy, PartialEq, Eq, Hash)] enum RequestId { Inbound(InboundRequestId), Outbound(OutboundRequestId), } impl Handler where TCodec: Codec + Send + Clone + 'static, { pub(super) fn new( inbound_protocols: SmallVec<[TCodec::Protocol; 2]>, codec: TCodec, substream_timeout: Duration, inbound_request_id: Arc, max_concurrent_streams: usize, ) -> Self { let (inbound_sender, inbound_receiver) = mpsc::channel(0); Self { inbound_protocols, codec, pending_outbound: VecDeque::new(), requested_outbound: Default::default(), inbound_receiver, inbound_sender, pending_events: VecDeque::new(), inbound_request_id, worker_streams: futures_bounded::FuturesMap::new( substream_timeout, max_concurrent_streams, ), } } /// Returns the next inbound request ID. fn next_inbound_request_id(&mut self) -> InboundRequestId { InboundRequestId(self.inbound_request_id.fetch_add(1, Ordering::Relaxed)) } fn on_fully_negotiated_inbound( &mut self, FullyNegotiatedInbound { protocol: (mut stream, protocol), info: (), }: FullyNegotiatedInbound< ::InboundProtocol, ::InboundOpenInfo, >, ) { let mut codec = self.codec.clone(); let request_id = self.next_inbound_request_id(); let mut sender = self.inbound_sender.clone(); let recv = async move { // A channel for notifying the inbound upgrade when the // response is sent. let (rs_send, rs_recv) = oneshot::channel(); let read = codec.read_request(&protocol, &mut stream); let request = read.await?; sender .send((request_id, request, rs_send)) .await .expect("`ConnectionHandler` owns both ends of the channel"); drop(sender); if let Ok(response) = rs_recv.await { let write = codec.write_response(&protocol, &mut stream, response); write.await?; stream.close().await?; Ok(Event::ResponseSent(request_id)) } else { stream.close().await?; Ok(Event::ResponseOmission(request_id)) } }; // Inbound connections are reported to the upper layer from within the above task, // so by failing to schedule it, it means the upper layer will never know about the // inbound request. Because of that we do not report any inbound failure. if self .worker_streams .try_push(RequestId::Inbound(request_id), recv.boxed()) .is_err() { tracing::warn!("Dropping inbound stream because we are at capacity") } } fn on_fully_negotiated_outbound( &mut self, FullyNegotiatedOutbound { protocol: (mut stream, protocol), info: (), }: FullyNegotiatedOutbound< ::OutboundProtocol, ::OutboundOpenInfo, >, ) { let message = self .requested_outbound .pop_front() .expect("negotiated a stream without a pending message"); let mut codec = self.codec.clone(); let request_id = message.request_id; let send = async move { let write = codec.write_request(&protocol, &mut stream, message.request); write.await?; stream.close().await?; let read = codec.read_response(&protocol, &mut stream); let response = read.await?; Ok(Event::Response { request_id, response, }) }; if self .worker_streams .try_push(RequestId::Outbound(request_id), send.boxed()) .is_err() { self.pending_events.push_back(Event::OutboundStreamFailed { request_id: message.request_id, error: io::Error::new(io::ErrorKind::Other, "max sub-streams reached"), }); } } fn on_dial_upgrade_error( &mut self, DialUpgradeError { error, info: () }: DialUpgradeError< ::OutboundOpenInfo, ::OutboundProtocol, >, ) { let message = self .requested_outbound .pop_front() .expect("negotiated a stream without a pending message"); match error { StreamUpgradeError::Timeout => { self.pending_events .push_back(Event::OutboundTimeout(message.request_id)); } StreamUpgradeError::NegotiationFailed => { // The remote merely doesn't support the protocol(s) we requested. // This is no reason to close the connection, which may // successfully communicate with other protocols already. // An event is reported to permit user code to react to the fact that // the remote peer does not support the requested protocol(s). self.pending_events .push_back(Event::OutboundUnsupportedProtocols(message.request_id)); } StreamUpgradeError::Apply(e) => void::unreachable(e), StreamUpgradeError::Io(e) => { self.pending_events.push_back(Event::OutboundStreamFailed { request_id: message.request_id, error: e, }); } } } fn on_listen_upgrade_error( &mut self, ListenUpgradeError { error, .. }: ListenUpgradeError< ::InboundOpenInfo, ::InboundProtocol, >, ) { void::unreachable(error) } } /// The events emitted by the [`Handler`]. pub enum Event where TCodec: Codec, { /// A request has been received. Request { request_id: InboundRequestId, request: TCodec::Request, sender: oneshot::Sender, }, /// A response has been received. Response { request_id: OutboundRequestId, response: TCodec::Response, }, /// A response to an inbound request has been sent. ResponseSent(InboundRequestId), /// A response to an inbound request was omitted as a result /// of dropping the response `sender` of an inbound `Request`. ResponseOmission(InboundRequestId), /// An outbound request timed out while sending the request /// or waiting for the response. OutboundTimeout(OutboundRequestId), /// An outbound request failed to negotiate a mutually supported protocol. OutboundUnsupportedProtocols(OutboundRequestId), OutboundStreamFailed { request_id: OutboundRequestId, error: io::Error, }, /// An inbound request timed out while waiting for the request /// or sending the response. InboundTimeout(InboundRequestId), InboundStreamFailed { request_id: InboundRequestId, error: io::Error, }, } impl fmt::Debug for Event { fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result { match self { Event::Request { request_id, request: _, sender: _, } => f .debug_struct("Event::Request") .field("request_id", request_id) .finish(), Event::Response { request_id, response: _, } => f .debug_struct("Event::Response") .field("request_id", request_id) .finish(), Event::ResponseSent(request_id) => f .debug_tuple("Event::ResponseSent") .field(request_id) .finish(), Event::ResponseOmission(request_id) => f .debug_tuple("Event::ResponseOmission") .field(request_id) .finish(), Event::OutboundTimeout(request_id) => f .debug_tuple("Event::OutboundTimeout") .field(request_id) .finish(), Event::OutboundUnsupportedProtocols(request_id) => f .debug_tuple("Event::OutboundUnsupportedProtocols") .field(request_id) .finish(), Event::OutboundStreamFailed { request_id, error } => f .debug_struct("Event::OutboundStreamFailed") .field("request_id", &request_id) .field("error", &error) .finish(), Event::InboundTimeout(request_id) => f .debug_tuple("Event::InboundTimeout") .field(request_id) .finish(), Event::InboundStreamFailed { request_id, error } => f .debug_struct("Event::InboundStreamFailed") .field("request_id", &request_id) .field("error", &error) .finish(), } } } pub struct OutboundMessage { pub(crate) request_id: OutboundRequestId, pub(crate) request: TCodec::Request, pub(crate) protocols: SmallVec<[TCodec::Protocol; 2]>, } impl fmt::Debug for OutboundMessage where TCodec: Codec, { fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result { f.debug_struct("OutboundMessage").finish_non_exhaustive() } } impl ConnectionHandler for Handler where TCodec: Codec + Send + Clone + 'static, { type FromBehaviour = OutboundMessage; type ToBehaviour = Event; type InboundProtocol = Protocol; type OutboundProtocol = Protocol; type OutboundOpenInfo = (); type InboundOpenInfo = (); fn listen_protocol(&self) -> SubstreamProtocol { SubstreamProtocol::new( Protocol { protocols: self.inbound_protocols.clone(), }, (), ) } fn on_behaviour_event(&mut self, request: Self::FromBehaviour) { self.pending_outbound.push_back(request); } #[tracing::instrument(level = "trace", name = "ConnectionHandler::poll", skip(self, cx))] fn poll( &mut self, cx: &mut Context<'_>, ) -> Poll, (), Self::ToBehaviour>> { match self.worker_streams.poll_unpin(cx) { Poll::Ready((_, Ok(Ok(event)))) => { return Poll::Ready(ConnectionHandlerEvent::NotifyBehaviour(event)); } Poll::Ready((RequestId::Inbound(id), Ok(Err(e)))) => { return Poll::Ready(ConnectionHandlerEvent::NotifyBehaviour( Event::InboundStreamFailed { request_id: id, error: e, }, )); } Poll::Ready((RequestId::Outbound(id), Ok(Err(e)))) => { return Poll::Ready(ConnectionHandlerEvent::NotifyBehaviour( Event::OutboundStreamFailed { request_id: id, error: e, }, )); } Poll::Ready((RequestId::Inbound(id), Err(futures_bounded::Timeout { .. }))) => { return Poll::Ready(ConnectionHandlerEvent::NotifyBehaviour( Event::InboundTimeout(id), )); } Poll::Ready((RequestId::Outbound(id), Err(futures_bounded::Timeout { .. }))) => { return Poll::Ready(ConnectionHandlerEvent::NotifyBehaviour( Event::OutboundTimeout(id), )); } Poll::Pending => {} } // Drain pending events that were produced by `worker_streams`. if let Some(event) = self.pending_events.pop_front() { return Poll::Ready(ConnectionHandlerEvent::NotifyBehaviour(event)); } else if self.pending_events.capacity() > EMPTY_QUEUE_SHRINK_THRESHOLD { self.pending_events.shrink_to_fit(); } // Check for inbound requests. if let Poll::Ready(Some((id, rq, rs_sender))) = self.inbound_receiver.poll_next_unpin(cx) { // We received an inbound request. return Poll::Ready(ConnectionHandlerEvent::NotifyBehaviour(Event::Request { request_id: id, request: rq, sender: rs_sender, })); } // Emit outbound requests. if let Some(request) = self.pending_outbound.pop_front() { let protocols = request.protocols.clone(); self.requested_outbound.push_back(request); return Poll::Ready(ConnectionHandlerEvent::OutboundSubstreamRequest { protocol: SubstreamProtocol::new(Protocol { protocols }, ()), }); } debug_assert!(self.pending_outbound.is_empty()); if self.pending_outbound.capacity() > EMPTY_QUEUE_SHRINK_THRESHOLD { self.pending_outbound.shrink_to_fit(); } Poll::Pending } fn on_connection_event( &mut self, event: ConnectionEvent< Self::InboundProtocol, Self::OutboundProtocol, Self::InboundOpenInfo, Self::OutboundOpenInfo, >, ) { match event { ConnectionEvent::FullyNegotiatedInbound(fully_negotiated_inbound) => { self.on_fully_negotiated_inbound(fully_negotiated_inbound) } ConnectionEvent::FullyNegotiatedOutbound(fully_negotiated_outbound) => { self.on_fully_negotiated_outbound(fully_negotiated_outbound) } ConnectionEvent::DialUpgradeError(dial_upgrade_error) => { self.on_dial_upgrade_error(dial_upgrade_error) } ConnectionEvent::ListenUpgradeError(listen_upgrade_error) => { self.on_listen_upgrade_error(listen_upgrade_error) } _ => {} } } }