RustRepoTrans
/
Dataset_Construction
/projects
/libp2p
/rust
/protocols
/request-response
/tests
/ping.rs
| // 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. | |
| //! Integration tests for the `Behaviour`. | |
| use futures::prelude::*; | |
| use libp2p_identity::PeerId; | |
| use libp2p_request_response as request_response; | |
| use libp2p_request_response::ProtocolSupport; | |
| use libp2p_swarm::{StreamProtocol, Swarm, SwarmEvent}; | |
| use libp2p_swarm_test::SwarmExt; | |
| use rand::Rng; | |
| use serde::{Deserialize, Serialize}; | |
| use std::{io, iter}; | |
| use tracing_subscriber::EnvFilter; | |
| async fn is_response_outbound() { | |
| let _ = tracing_subscriber::fmt() | |
| .with_env_filter(EnvFilter::from_default_env()) | |
| .try_init(); | |
| let ping = Ping("ping".to_string().into_bytes()); | |
| let offline_peer = PeerId::random(); | |
| let mut swarm1 = Swarm::new_ephemeral(|_| { | |
| request_response::cbor::Behaviour::<Ping, Pong>::new( | |
| [( | |
| StreamProtocol::new("/ping/1"), | |
| request_response::ProtocolSupport::Full, | |
| )], | |
| request_response::Config::default(), | |
| ) | |
| }); | |
| let request_id1 = swarm1 | |
| .behaviour_mut() | |
| .send_request(&offline_peer, ping.clone()); | |
| match swarm1 | |
| .next_swarm_event() | |
| .await | |
| .try_into_behaviour_event() | |
| .unwrap() | |
| { | |
| request_response::Event::OutboundFailure { | |
| peer, | |
| request_id: req_id, | |
| error: _error, | |
| } => { | |
| assert_eq!(&offline_peer, &peer); | |
| assert_eq!(req_id, request_id1); | |
| } | |
| e => panic!("Peer: Unexpected event: {e:?}"), | |
| } | |
| let request_id2 = swarm1.behaviour_mut().send_request(&offline_peer, ping); | |
| assert!(!swarm1 | |
| .behaviour() | |
| .is_pending_outbound(&offline_peer, &request_id1)); | |
| assert!(swarm1 | |
| .behaviour() | |
| .is_pending_outbound(&offline_peer, &request_id2)); | |
| } | |
| /// Exercises a simple ping protocol. | |
| async fn ping_protocol() { | |
| let ping = Ping("ping".to_string().into_bytes()); | |
| let pong = Pong("pong".to_string().into_bytes()); | |
| let protocols = iter::once((StreamProtocol::new("/ping/1"), ProtocolSupport::Full)); | |
| let cfg = request_response::Config::default(); | |
| let mut swarm1 = Swarm::new_ephemeral(|_| { | |
| request_response::cbor::Behaviour::<Ping, Pong>::new(protocols.clone(), cfg.clone()) | |
| }); | |
| let peer1_id = *swarm1.local_peer_id(); | |
| let mut swarm2 = Swarm::new_ephemeral(|_| { | |
| request_response::cbor::Behaviour::<Ping, Pong>::new(protocols, cfg) | |
| }); | |
| let peer2_id = *swarm2.local_peer_id(); | |
| swarm1.listen().with_memory_addr_external().await; | |
| swarm2.connect(&mut swarm1).await; | |
| let expected_ping = ping.clone(); | |
| let expected_pong = pong.clone(); | |
| let peer1 = async move { | |
| loop { | |
| match swarm1.next_swarm_event().await.try_into_behaviour_event() { | |
| Ok(request_response::Event::Message { | |
| peer, | |
| message: | |
| request_response::Message::Request { | |
| request, channel, .. | |
| }, | |
| }) => { | |
| assert_eq!(&request, &expected_ping); | |
| assert_eq!(&peer, &peer2_id); | |
| swarm1 | |
| .behaviour_mut() | |
| .send_response(channel, pong.clone()) | |
| .unwrap(); | |
| } | |
| Ok(request_response::Event::ResponseSent { peer, .. }) => { | |
| assert_eq!(&peer, &peer2_id); | |
| } | |
| Ok(e) => { | |
| panic!("Peer1: Unexpected event: {e:?}") | |
| } | |
| Err(..) => {} | |
| } | |
| } | |
| }; | |
| let num_pings: u8 = rand::thread_rng().gen_range(1..100); | |
| let peer2 = async { | |
| let mut count = 0; | |
| let mut req_id = swarm2.behaviour_mut().send_request(&peer1_id, ping.clone()); | |
| assert!(swarm2.behaviour().is_pending_outbound(&peer1_id, &req_id)); | |
| loop { | |
| match swarm2 | |
| .next_swarm_event() | |
| .await | |
| .try_into_behaviour_event() | |
| .unwrap() | |
| { | |
| request_response::Event::Message { | |
| peer, | |
| message: | |
| request_response::Message::Response { | |
| request_id, | |
| response, | |
| }, | |
| } => { | |
| count += 1; | |
| assert_eq!(&response, &expected_pong); | |
| assert_eq!(&peer, &peer1_id); | |
| assert_eq!(req_id, request_id); | |
| if count >= num_pings { | |
| return; | |
| } else { | |
| req_id = swarm2.behaviour_mut().send_request(&peer1_id, ping.clone()); | |
| } | |
| } | |
| e => panic!("Peer2: Unexpected event: {e:?}"), | |
| } | |
| } | |
| }; | |
| async_std::task::spawn(Box::pin(peer1)); | |
| peer2.await; | |
| } | |
| async fn emits_inbound_connection_closed_failure() { | |
| let ping = Ping("ping".to_string().into_bytes()); | |
| let protocols = iter::once((StreamProtocol::new("/ping/1"), ProtocolSupport::Full)); | |
| let cfg = request_response::Config::default(); | |
| let mut swarm1 = Swarm::new_ephemeral(|_| { | |
| request_response::cbor::Behaviour::<Ping, Pong>::new(protocols.clone(), cfg.clone()) | |
| }); | |
| let peer1_id = *swarm1.local_peer_id(); | |
| let mut swarm2 = Swarm::new_ephemeral(|_| { | |
| request_response::cbor::Behaviour::<Ping, Pong>::new(protocols, cfg) | |
| }); | |
| let peer2_id = *swarm2.local_peer_id(); | |
| swarm1.listen().with_memory_addr_external().await; | |
| swarm2.connect(&mut swarm1).await; | |
| swarm2.behaviour_mut().send_request(&peer1_id, ping.clone()); | |
| // Wait for swarm 1 to receive request by swarm 2. | |
| let _channel = loop { | |
| futures::select!( | |
| event = swarm1.select_next_some() => match event { | |
| SwarmEvent::Behaviour(request_response::Event::Message { | |
| peer, | |
| message: request_response::Message::Request { request, channel, .. } | |
| }) => { | |
| assert_eq!(&request, &ping); | |
| assert_eq!(&peer, &peer2_id); | |
| break channel; | |
| }, | |
| SwarmEvent::Behaviour(ev) => panic!("Peer1: Unexpected event: {ev:?}"), | |
| _ => {} | |
| }, | |
| event = swarm2.select_next_some() => { | |
| if let SwarmEvent::Behaviour(ev) = event { | |
| panic!("Peer2: Unexpected event: {ev:?}"); | |
| } | |
| } | |
| ) | |
| }; | |
| // Drop swarm 2 in order for the connection between swarm 1 and 2 to close. | |
| drop(swarm2); | |
| loop { | |
| match swarm1.select_next_some().await { | |
| SwarmEvent::Behaviour(request_response::Event::InboundFailure { | |
| error: request_response::InboundFailure::ConnectionClosed, | |
| .. | |
| }) => break, | |
| SwarmEvent::Behaviour(e) => panic!("Peer1: Unexpected event: {e:?}"), | |
| _ => {} | |
| } | |
| } | |
| } | |
| /// We expect the substream to be properly closed when response channel is dropped. | |
| /// Since the ping protocol used here expects a response, the sender considers this | |
| /// early close as a protocol violation which results in the connection being closed. | |
| /// If the substream were not properly closed when dropped, the sender would instead | |
| /// run into a timeout waiting for the response. | |
| async fn emits_inbound_connection_closed_if_channel_is_dropped() { | |
| let ping = Ping("ping".to_string().into_bytes()); | |
| let protocols = iter::once((StreamProtocol::new("/ping/1"), ProtocolSupport::Full)); | |
| let cfg = request_response::Config::default(); | |
| let mut swarm1 = Swarm::new_ephemeral(|_| { | |
| request_response::cbor::Behaviour::<Ping, Pong>::new(protocols.clone(), cfg.clone()) | |
| }); | |
| let peer1_id = *swarm1.local_peer_id(); | |
| let mut swarm2 = Swarm::new_ephemeral(|_| { | |
| request_response::cbor::Behaviour::<Ping, Pong>::new(protocols, cfg) | |
| }); | |
| let peer2_id = *swarm2.local_peer_id(); | |
| swarm1.listen().with_memory_addr_external().await; | |
| swarm2.connect(&mut swarm1).await; | |
| swarm2.behaviour_mut().send_request(&peer1_id, ping.clone()); | |
| // Wait for swarm 1 to receive request by swarm 2. | |
| let event = loop { | |
| futures::select!( | |
| event = swarm1.select_next_some() => { | |
| if let SwarmEvent::Behaviour(request_response::Event::Message { | |
| peer, | |
| message: request_response::Message::Request { request, channel, .. } | |
| }) = event { | |
| assert_eq!(&request, &ping); | |
| assert_eq!(&peer, &peer2_id); | |
| drop(channel); | |
| continue; | |
| } | |
| }, | |
| event = swarm2.select_next_some() => { | |
| if let SwarmEvent::Behaviour(ev) = event { | |
| break ev; | |
| } | |
| }, | |
| ) | |
| }; | |
| let error = match event { | |
| request_response::Event::OutboundFailure { error, .. } => error, | |
| e => panic!("unexpected event from peer 2: {e:?}"), | |
| }; | |
| assert!(matches!( | |
| error, | |
| request_response::OutboundFailure::Io(e) if e.kind() == io::ErrorKind::UnexpectedEof, | |
| )); | |
| } | |
| // Simple Ping-Pong Protocol | |
| struct Ping(Vec<u8>); | |
| struct Pong(Vec<u8>); | |