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// 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. //! Generic request/response protocols. //! //! ## General Usage //! //! [`RequestResponse`] is a `NetworkBehaviour` that implements a generic //! request/response protocol or protocol family, whereby each request is //! sent over a new substream on a connection. `RequestResponse` is generic //! over the actual messages being sent, which are defined in terms of a //! [`RequestResponseCodec`]. Creating a request/response protocol thus amounts //! to providing an implementation of this trait which can then be //! given to [`RequestResponse::new`]. Further configuration options are //! available via the [`RequestResponseConfig`]. //! //! Requests are sent using [`RequestResponse::send_request`] and the //! responses received as [`RequestResponseMessage::Response`] via //! [`RequestResponseEvent::Message`]. //! //! Responses are sent using [`RequestResponse::send_response`] upon //! receiving a [`RequestResponseMessage::Request`] via //! [`RequestResponseEvent::Message`]. //! //! ## Protocol Families //! //! A single [`RequestResponse`] instance can be used with an entire //! protocol family that share the same request and response types. //! For that purpose, [`RequestResponseCodec::Protocol`] is typically //! instantiated with a sum type. //! //! ## Limited Protocol Support //! //! It is possible to only support inbound or outbound requests for //! a particular protocol. This is achieved by instantiating `RequestResponse` //! with protocols using [`ProtocolSupport::Inbound`] or //! [`ProtocolSupport::Outbound`]. Any subset of protocols of a protocol //! family can be configured in this way. Such protocols will not be //! advertised during inbound respectively outbound protocol negotiation //! on the substreams. pub mod codec; pub mod handler; pub mod throttled; pub use codec::{RequestResponseCodec, ProtocolName}; pub use handler::ProtocolSupport; pub use throttled::Throttled; use futures::{ channel::oneshot, }; use handler::{ RequestProtocol, RequestResponseHandler, RequestResponseHandlerEvent, }; use libp2p_core::{ ConnectedPoint, Multiaddr, PeerId, connection::ConnectionId, }; use libp2p_swarm::{ DialPeerCondition, NetworkBehaviour, NetworkBehaviourAction, NotifyHandler, PollParameters, }; use smallvec::SmallVec; use std::{ collections::{HashMap, HashSet, VecDeque}, fmt, time::Duration, sync::{atomic::AtomicU64, Arc}, task::{Context, Poll} }; /// An inbound request or response. #[derive(Debug)] pub enum RequestResponseMessage<TRequest, TResponse, TChannelResponse = TResponse> { /// A request message. Request { /// The ID of this request. request_id: RequestId, /// The request message. request: TRequest, /// The channel waiting for the response. /// /// If this channel is dropped instead of being used to send a response /// via [`RequestResponse::send_response`], a [`RequestResponseEvent::InboundFailure`] /// with [`InboundFailure::ResponseOmission`] is emitted. channel: ResponseChannel<TChannelResponse>, }, /// A response message. Response { /// The ID of the request that produced this response. /// /// See [`RequestResponse::send_request`]. request_id: RequestId, /// The response message. response: TResponse }, } /// The events emitted by a [`RequestResponse`] protocol. #[derive(Debug)] pub enum RequestResponseEvent<TRequest, TResponse, TChannelResponse = TResponse> { /// An incoming message (request or response). Message { /// The peer who sent the message. peer: PeerId, /// The incoming message. message: RequestResponseMessage<TRequest, TResponse, TChannelResponse> }, /// An outbound request failed. OutboundFailure { /// The peer to whom the request was sent. peer: PeerId, /// The (local) ID of the failed request. request_id: RequestId, /// The error that occurred. error: OutboundFailure, }, /// An inbound request failed. InboundFailure { /// The peer from whom the request was received. peer: PeerId, /// The ID of the failed inbound request. request_id: RequestId, /// The error that occurred. error: InboundFailure, }, /// A response to an inbound request has been sent. /// /// When this event is received, the response has been flushed on /// the underlying transport connection. ResponseSent { /// The peer to whom the response was sent. peer: PeerId, /// The ID of the inbound request whose response was sent. request_id: RequestId, }, } /// Possible failures occurring in the context of sending /// an outbound request and receiving the response. #[derive(Debug, Clone)] pub enum OutboundFailure { /// The request could not be sent because a dialing attempt failed. DialFailure, /// The request timed out before a response was received. /// /// It is not known whether the request may have been /// received (and processed) by the remote peer. Timeout, /// The connection closed before a response was received. /// /// It is not known whether the request may have been /// received (and processed) by the remote peer. ConnectionClosed, /// The remote supports none of the requested protocols. UnsupportedProtocols, } /// Possible failures occurring in the context of receiving an /// inbound request and sending a response. #[derive(Debug, Clone)] pub enum InboundFailure { /// The inbound request timed out, either while reading the /// incoming request or before a response is sent, e.g. if /// [`RequestResponse::send_response`] is not called in a /// timely manner. Timeout, /// The connection closed before a response could be send. ConnectionClosed, /// The local peer supports none of the protocols requested /// by the remote. UnsupportedProtocols, /// The local peer failed to respond to an inbound request /// due to the [`ResponseChannel`] being dropped instead of /// being passed to [`RequestResponse::send_response`]. ResponseOmission, } /// A channel for sending a response to an inbound request. /// /// See [`RequestResponse::send_response`]. #[derive(Debug)] pub struct ResponseChannel<TResponse> { request_id: RequestId, peer: PeerId, sender: oneshot::Sender<TResponse>, } impl<TResponse> ResponseChannel<TResponse> { /// Checks whether the response channel is still open, i.e. /// the `RequestResponse` behaviour is still waiting for a /// a response to be sent via [`RequestResponse::send_response`] /// and this response channel. /// /// If the response channel is no longer open then the inbound /// request timed out waiting for the response. pub fn is_open(&self) -> bool { !self.sender.is_canceled() } /// Get the ID of the inbound request waiting for a response. pub(crate) fn request_id(&self) -> RequestId { self.request_id } } /// The ID of an inbound or outbound request. /// /// Note: [`RequestId`]'s uniqueness is only guaranteed between two /// inbound and likewise between two outbound requests. There is no /// uniqueness guarantee in a set of both inbound and outbound /// [`RequestId`]s nor in a set of inbound or outbound requests /// originating from different [`RequestResponse`] behaviours. #[derive(Debug, Copy, Clone, PartialEq, Eq, Hash)] pub struct RequestId(u64); impl fmt::Display for RequestId { fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { write!(f, "{}", self.0) } } /// The configuration for a `RequestResponse` protocol. #[derive(Debug, Clone)] pub struct RequestResponseConfig { request_timeout: Duration, connection_keep_alive: Duration, } impl Default for RequestResponseConfig { fn default() -> Self { Self { connection_keep_alive: Duration::from_secs(10), request_timeout: Duration::from_secs(10), } } } impl RequestResponseConfig { /// Sets the keep-alive timeout of idle connections. pub fn set_connection_keep_alive(&mut self, v: Duration) -> &mut Self { self.connection_keep_alive = v; self } /// Sets the timeout for inbound and outbound requests. pub fn set_request_timeout(&mut self, v: Duration) -> &mut Self { self.request_timeout = v; self } } /// A request/response protocol for some message codec. pub struct RequestResponse<TCodec> where TCodec: RequestResponseCodec, { /// The supported inbound protocols. inbound_protocols: SmallVec<[TCodec::Protocol; 2]>, /// The supported outbound protocols. outbound_protocols: SmallVec<[TCodec::Protocol; 2]>, /// The next (local) request ID. next_request_id: RequestId, /// The next (inbound) request ID. next_inbound_id: Arc<AtomicU64>, /// The protocol configuration. config: RequestResponseConfig, /// The protocol codec for reading and writing requests and responses. codec: TCodec, /// Pending events to return from `poll`. pending_events: VecDeque< NetworkBehaviourAction< RequestProtocol<TCodec>, RequestResponseEvent<TCodec::Request, TCodec::Response>>>, /// The currently connected peers, their pending outbound and inbound responses and their known, /// reachable addresses, if any. connected: HashMap<PeerId, SmallVec<[Connection; 2]>>, /// Externally managed addresses via `add_address` and `remove_address`. addresses: HashMap<PeerId, SmallVec<[Multiaddr; 6]>>, /// Requests that have not yet been sent and are waiting for a connection /// to be established. pending_outbound_requests: HashMap<PeerId, SmallVec<[RequestProtocol<TCodec>; 10]>>, } impl<TCodec> RequestResponse<TCodec> where TCodec: RequestResponseCodec + Clone, { /// Creates a new `RequestResponse` behaviour for the given /// protocols, codec and configuration. pub fn new<I>(codec: TCodec, protocols: I, cfg: RequestResponseConfig) -> Self where I: IntoIterator<Item = (TCodec::Protocol, ProtocolSupport)> { let mut inbound_protocols = SmallVec::new(); let mut outbound_protocols = SmallVec::new(); for (p, s) in protocols { if s.inbound() { inbound_protocols.push(p.clone()); } if s.outbound() { outbound_protocols.push(p.clone()); } } RequestResponse { inbound_protocols, outbound_protocols, next_request_id: RequestId(1), next_inbound_id: Arc::new(AtomicU64::new(1)), config: cfg, codec, pending_events: VecDeque::new(), connected: HashMap::new(), pending_outbound_requests: HashMap::new(), addresses: HashMap::new(), } } /// Creates a `RequestResponse` which limits requests per peer. /// /// The behaviour is wrapped in [`Throttled`] and detects the limits /// per peer at runtime which are then enforced. pub fn throttled<I>(c: TCodec, protos: I, cfg: RequestResponseConfig) -> Throttled<TCodec> where I: IntoIterator<Item = (TCodec::Protocol, ProtocolSupport)>, TCodec: Send, TCodec::Protocol: Sync { Throttled::new(c, protos, cfg) } /// Initiates sending a request. /// /// If the targeted peer is currently not connected, a dialing /// attempt is initiated and the request is sent as soon as a /// connection is established. /// /// > **Note**: In order for such a dialing attempt to succeed, /// > the `RequestResonse` protocol must either be embedded /// > in another `NetworkBehaviour` that provides peer and /// > address discovery, or known addresses of peers must be /// > managed via [`RequestResponse::add_address`] and /// > [`RequestResponse::remove_address`]. pub fn send_request(&mut self, peer: &PeerId, request: TCodec::Request) -> RequestId { let request_id = self.next_request_id(); let request = RequestProtocol { request_id, codec: self.codec.clone(), protocols: self.outbound_protocols.clone(), request, }; if let Some(request) = self.try_send_request(peer, request) { self.pending_events.push_back(NetworkBehaviourAction::DialPeer { peer_id: *peer, condition: DialPeerCondition::Disconnected, }); self.pending_outbound_requests.entry(*peer).or_default().push(request); } request_id } /// Initiates sending a response to an inbound request. /// /// If the [`ResponseChannel`] is already closed due to a timeout or the /// connection being closed, the response is returned as an `Err` for /// further handling. Once the response has been successfully sent on the /// corresponding connection, [`RequestResponseEvent::ResponseSent`] is /// emitted. In all other cases [`RequestResponseEvent::InboundFailure`] /// will be or has been emitted. /// /// The provided `ResponseChannel` is obtained from an inbound /// [`RequestResponseMessage::Request`]. pub fn send_response(&mut self, ch: ResponseChannel<TCodec::Response>, rs: TCodec::Response) -> Result<(), TCodec::Response> { ch.sender.send(rs) } /// Adds a known address for a peer that can be used for /// dialing attempts by the `Swarm`, i.e. is returned /// by [`NetworkBehaviour::addresses_of_peer`]. /// /// Addresses added in this way are only removed by `remove_address`. pub fn add_address(&mut self, peer: &PeerId, address: Multiaddr) { self.addresses.entry(*peer).or_default().push(address); } /// Removes an address of a peer previously added via `add_address`. pub fn remove_address(&mut self, peer: &PeerId, address: &Multiaddr) { let mut last = false; if let Some(addresses) = self.addresses.get_mut(peer) { addresses.retain(|a| a != address); last = addresses.is_empty(); } if last { self.addresses.remove(peer); } } /// Checks whether a peer is currently connected. pub fn is_connected(&self, peer: &PeerId) -> bool { if let Some(connections) = self.connected.get(peer) { !connections.is_empty() } else { false } } /// Checks whether an outbound request to the peer with the provided /// [`PeerId`] initiated by [`RequestResponse::send_request`] is still /// pending, i.e. waiting for a response. pub fn is_pending_outbound(&self, peer: &PeerId, request_id: &RequestId) -> bool { // Check if request is already sent on established connection. let est_conn = self.connected.get(peer) .map(|cs| cs.iter().any(|c| c.pending_inbound_responses.contains(request_id))) .unwrap_or(false); // Check if request is still pending to be sent. let pen_conn = self.pending_outbound_requests.get(peer) .map(|rps| rps.iter().any(|rp| {rp.request_id == *request_id})) .unwrap_or(false); est_conn || pen_conn } /// Checks whether an inbound request from the peer with the provided /// [`PeerId`] is still pending, i.e. waiting for a response by the local /// node through [`RequestResponse::send_response`]. pub fn is_pending_inbound(&self, peer: &PeerId, request_id: &RequestId) -> bool { self.connected.get(peer) .map(|cs| cs.iter().any(|c| c.pending_outbound_responses.contains(request_id))) .unwrap_or(false) } /// Returns the next request ID. fn next_request_id(&mut self) -> RequestId { let request_id = self.next_request_id; self.next_request_id.0 += 1; request_id } /// Tries to send a request by queueing an appropriate event to be /// emitted to the `Swarm`. If the peer is not currently connected, /// the given request is return unchanged. fn try_send_request(&mut self, peer: &PeerId, request: RequestProtocol<TCodec>) -> Option<RequestProtocol<TCodec>> { if let Some(connections) = self.connected.get_mut(peer) { if connections.is_empty() { return Some(request) } let ix = (request.request_id.0 as usize) % connections.len(); let conn = &mut connections[ix]; conn.pending_inbound_responses.insert(request.request_id); self.pending_events.push_back(NetworkBehaviourAction::NotifyHandler { peer_id: *peer, handler: NotifyHandler::One(conn.id), event: request }); None } else { Some(request) } } /// Remove pending outbound response for the given peer and connection. /// /// Returns `true` if the provided connection to the given peer is still /// alive and the [`RequestId`] was previously present and is now removed. /// Returns `false` otherwise. fn remove_pending_outbound_response( &mut self, peer: &PeerId, connection: ConnectionId, request: RequestId, ) -> bool { self.get_connection_mut(peer, connection) .map(|c| c.pending_outbound_responses.remove(&request)) .unwrap_or(false) } /// Remove pending inbound response for the given peer and connection. /// /// Returns `true` if the provided connection to the given peer is still /// alive and the [`RequestId`] was previously present and is now removed. /// Returns `false` otherwise. fn remove_pending_inbound_response( &mut self, peer: &PeerId, connection: ConnectionId, request: &RequestId, ) -> bool { self.get_connection_mut(peer, connection) .map(|c| c.pending_inbound_responses.remove(request)) .unwrap_or(false) } /// Returns a mutable reference to the connection in `self.connected` /// corresponding to the given [`PeerId`] and [`ConnectionId`]. fn get_connection_mut( &mut self, peer: &PeerId, connection: ConnectionId, ) -> Option<&mut Connection> { self.connected.get_mut(peer).and_then(|connections| { connections.iter_mut().find(|c| c.id == connection) }) } } impl<TCodec> NetworkBehaviour for RequestResponse<TCodec> where TCodec: RequestResponseCodec + Send + Clone + 'static, { type ProtocolsHandler = RequestResponseHandler<TCodec>; type OutEvent = RequestResponseEvent<TCodec::Request, TCodec::Response>; fn new_handler(&mut self) -> Self::ProtocolsHandler { RequestResponseHandler::new( self.inbound_protocols.clone(), self.codec.clone(), self.config.connection_keep_alive, self.config.request_timeout, self.next_inbound_id.clone() ) } fn addresses_of_peer(&mut self, peer: &PeerId) -> Vec<Multiaddr> { let mut addresses = Vec::new(); if let Some(connections) = self.connected.get(peer) { addresses.extend(connections.iter().filter_map(|c| c.address.clone())) } if let Some(more) = self.addresses.get(peer) { addresses.extend(more.into_iter().cloned()); } addresses } fn inject_connected(&mut self, peer: &PeerId) { if let Some(pending) = self.pending_outbound_requests.remove(peer) { for request in pending { let request = self.try_send_request(peer, request); assert!(request.is_none()); } } } fn inject_connection_established(&mut self, peer: &PeerId, conn: &ConnectionId, endpoint: &ConnectedPoint) { let address = match endpoint { ConnectedPoint::Dialer { address } => Some(address.clone()), ConnectedPoint::Listener { .. } => None }; self.connected.entry(*peer) .or_default() .push(Connection::new(*conn, address)); } fn inject_connection_closed(&mut self, peer_id: &PeerId, conn: &ConnectionId, _: &ConnectedPoint) { let connections = self.connected.get_mut(peer_id) .expect("Expected some established connection to peer before closing."); let connection = connections.iter() .position(|c| &c.id == conn) .map(|p: usize| connections.remove(p)) .expect("Expected connection to be established before closing."); if connections.is_empty() { self.connected.remove(peer_id); } for request_id in connection.pending_outbound_responses { self.pending_events.push_back(NetworkBehaviourAction::GenerateEvent( RequestResponseEvent::InboundFailure { peer: *peer_id, request_id, error: InboundFailure::ConnectionClosed } )); } for request_id in connection.pending_inbound_responses { self.pending_events.push_back(NetworkBehaviourAction::GenerateEvent( RequestResponseEvent::OutboundFailure { peer: *peer_id, request_id, error: OutboundFailure::ConnectionClosed } )); } } fn inject_disconnected(&mut self, peer: &PeerId) { self.connected.remove(peer); } fn inject_dial_failure(&mut self, peer: &PeerId) { // If there are pending outgoing requests when a dial failure occurs, // it is implied that we are not connected to the peer, since pending // outgoing requests are drained when a connection is established and // only created when a peer is not connected when a request is made. // Thus these requests must be considered failed, even if there is // another, concurrent dialing attempt ongoing. if let Some(pending) = self.pending_outbound_requests.remove(peer) { for request in pending { self.pending_events.push_back(NetworkBehaviourAction::GenerateEvent( RequestResponseEvent::OutboundFailure { peer: *peer, request_id: request.request_id, error: OutboundFailure::DialFailure } )); } } } fn inject_event( &mut self, peer: PeerId, connection: ConnectionId, event: RequestResponseHandlerEvent<TCodec>, ) { match event { RequestResponseHandlerEvent::Response { request_id, response } => { let removed = self.remove_pending_inbound_response(&peer, connection, &request_id); debug_assert!( removed, "Expect request_id to be pending before receiving response.", ); let message = RequestResponseMessage::Response { request_id, response }; self.pending_events.push_back( NetworkBehaviourAction::GenerateEvent( RequestResponseEvent::Message { peer, message })); } RequestResponseHandlerEvent::Request { request_id, request, sender } => { let channel = ResponseChannel { request_id, peer, sender }; let message = RequestResponseMessage::Request { request_id, request, channel }; self.pending_events.push_back(NetworkBehaviourAction::GenerateEvent( RequestResponseEvent::Message { peer, message } )); match self.get_connection_mut(&peer, connection) { Some(connection) => { let inserted = connection.pending_outbound_responses.insert(request_id); debug_assert!(inserted, "Expect id of new request to be unknown."); }, // Connection closed after `RequestResponseEvent::Request` has been emitted. None => { self.pending_events.push_back(NetworkBehaviourAction::GenerateEvent( RequestResponseEvent::InboundFailure { peer, request_id, error: InboundFailure::ConnectionClosed } )); } } } RequestResponseHandlerEvent::ResponseSent(request_id) => { let removed = self.remove_pending_outbound_response(&peer, connection, request_id); debug_assert!(removed, "Expect request_id to be pending before response is sent."); self.pending_events.push_back( NetworkBehaviourAction::GenerateEvent( RequestResponseEvent::ResponseSent { peer, request_id })); } RequestResponseHandlerEvent::ResponseOmission(request_id) => { let removed = self.remove_pending_outbound_response(&peer, connection, request_id); debug_assert!( removed, "Expect request_id to be pending before response is omitted.", ); self.pending_events.push_back( NetworkBehaviourAction::GenerateEvent( RequestResponseEvent::InboundFailure { peer, request_id, error: InboundFailure::ResponseOmission })); } RequestResponseHandlerEvent::OutboundTimeout(request_id) => { let removed = self.remove_pending_inbound_response(&peer, connection, &request_id); debug_assert!(removed, "Expect request_id to be pending before request times out."); self.pending_events.push_back( NetworkBehaviourAction::GenerateEvent( RequestResponseEvent::OutboundFailure { peer, request_id, error: OutboundFailure::Timeout, })); } RequestResponseHandlerEvent::InboundTimeout(request_id) => { // Note: `RequestResponseHandlerEvent::InboundTimeout` is emitted both for timing // out to receive the request and for timing out sending the response. In the former // case the request is never added to `pending_outbound_responses` and thus one can // not assert the request_id to be present before removing it. self.remove_pending_outbound_response(&peer, connection, request_id); self.pending_events.push_back( NetworkBehaviourAction::GenerateEvent( RequestResponseEvent::InboundFailure { peer, request_id, error: InboundFailure::Timeout, })); } RequestResponseHandlerEvent::OutboundUnsupportedProtocols(request_id) => { let removed = self.remove_pending_inbound_response(&peer, connection, &request_id); debug_assert!( removed, "Expect request_id to be pending before failing to connect.", ); self.pending_events.push_back( NetworkBehaviourAction::GenerateEvent( RequestResponseEvent::OutboundFailure { peer, request_id, error: OutboundFailure::UnsupportedProtocols, })); } RequestResponseHandlerEvent::InboundUnsupportedProtocols(request_id) => { // Note: No need to call `self.remove_pending_outbound_response`, // `RequestResponseHandlerEvent::Request` was never emitted for this request and // thus request was never added to `pending_outbound_responses`. self.pending_events.push_back( NetworkBehaviourAction::GenerateEvent( RequestResponseEvent::InboundFailure { peer, request_id, error: InboundFailure::UnsupportedProtocols, })); } } } fn poll(&mut self, _: &mut Context<'_>, _: &mut impl PollParameters) -> Poll<NetworkBehaviourAction< RequestProtocol<TCodec>, RequestResponseEvent<TCodec::Request, TCodec::Response> >> { if let Some(ev) = self.pending_events.pop_front() { return Poll::Ready(ev); } else if self.pending_events.capacity() > EMPTY_QUEUE_SHRINK_THRESHOLD { self.pending_events.shrink_to_fit(); } Poll::Pending } } /// Internal threshold for when to shrink the capacity /// of empty queues. If the capacity of an empty queue /// exceeds this threshold, the associated memory is /// released. const EMPTY_QUEUE_SHRINK_THRESHOLD: usize = 100; /// Internal information tracked for an established connection. struct Connection { id: ConnectionId, address: Option<Multiaddr>, /// Pending outbound responses where corresponding inbound requests have /// been received on this connection and emitted via `poll` but have not yet /// been answered. pending_outbound_responses: HashSet<RequestId>, /// Pending inbound responses for previously sent requests on this /// connection. pending_inbound_responses: HashSet<RequestId> } impl Connection { fn new(id: ConnectionId, address: Option<Multiaddr>) -> Self { Self { id, address, pending_outbound_responses: Default::default(), pending_inbound_responses: Default::default(), } } }