use ipfs::Node; use libp2p::{multiaddr::Protocol, Multiaddr}; use std::time::Duration; use tokio::time::timeout; #[cfg(any(feature = "test_go_interop", feature = "test_js_interop"))] mod common; #[cfg(any(feature = "test_go_interop", feature = "test_js_interop"))] use common::interop::ForeignNode; const TIMEOUT: Duration = Duration::from_secs(5); // Make sure two instances of ipfs can be connected by `Multiaddr`. #[tokio::test(max_threads = 1)] async fn connect_two_nodes_by_addr() { let node_a = Node::new("a").await; #[cfg(all(not(feature = "test_go_interop"), not(feature = "test_js_interop")))] let node_b = Node::new("b").await; #[cfg(any(feature = "test_go_interop", feature = "test_js_interop"))] let node_b = ForeignNode::new(); timeout(TIMEOUT, node_a.connect(node_b.addrs[0].clone())) .await .expect("timeout") .expect("should have connected"); } // Make sure only a `Multiaddr` with `/p2p/` can be used to connect. #[tokio::test(max_threads = 1)] #[should_panic(expected = "called `Result::unwrap()` on an `Err` value: MissingProtocolP2p")] async fn dont_connect_without_p2p() { let node_a = Node::new("a").await; let node_b = Node::new("b").await; let mut b_addr = node_b.addrs[0].clone(); // drop the /p2p/peer_id part b_addr.pop(); timeout(TIMEOUT, node_a.connect(b_addr)) .await .expect("timeout") .expect_err("should not have connected"); } // Make sure two instances of ipfs can be connected by `PeerId`. #[ignore = "connecting just by PeerId is not currently supported"] #[tokio::test(max_threads = 1)] async fn connect_two_nodes_by_peer_id() { let node_a = Node::new("a").await; let node_b = Node::new("b").await; node_a .add_peer(node_b.id.clone(), node_b.addrs[0].clone()) .await .unwrap(); let b_id_multiaddr: Multiaddr = format!("/p2p/{}", &node_b.id).parse().unwrap(); timeout(TIMEOUT, node_a.connect(b_id_multiaddr)) .await .expect("timeout") .expect("should have connected"); } // Ensure that duplicate connection attempts don't cause hangs. #[tokio::test(max_threads = 1)] async fn connect_duplicate_multiaddr() { let node_a = Node::new("a").await; let node_b = Node::new("b").await; // test duplicate connections by address for _ in 0..3 { // final success or failure doesn't matter, there should be no timeout let _ = timeout(TIMEOUT, node_a.connect(node_b.addrs[0].clone())) .await .unwrap(); } } // More complicated one to the above; first node will have two listening addresses and the second // one should dial both of the addresses, resulting in two connections. #[tokio::test(max_threads = 1)] async fn connect_two_nodes_with_two_connections_doesnt_panic() { let node_a = Node::new("a").await; let node_b = Node::new("b").await; node_a .add_listening_address("/ip4/127.0.0.1/tcp/0".parse().unwrap()) .await .unwrap(); let addresses = node_a.addrs_local().await.unwrap(); assert_eq!(addresses.len(), 2); for mut addr in addresses.into_iter() { addr.push(Protocol::P2p(node_a.id.clone().into())); timeout(TIMEOUT, node_b.connect(addr)) .await .expect("timeout") .expect("should have connected"); } // not too sure on this, since there'll be a single peer but two connections; the return // type is `Vec` but it's peer with any connection. let mut peers = node_a.peers().await.unwrap(); assert_eq!(peers.len(), 1); // sadly we are unable to currently verify that there exists two connections for the node_b // peer.. node_a .disconnect(peers.remove(0).addr) .await .expect("failed to disconnect peer_b at peer_a"); let peers = node_a.peers().await.unwrap(); assert!( peers.is_empty(), "node_b was still connected after disconnect: {:?}", peers ); }