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use libp2p_identify as identify; |
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use libp2p_identity as identity; |
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use libp2p_kad::store::MemoryStore; |
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use libp2p_kad::{Behaviour, Config, Event, Mode}; |
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use libp2p_swarm::{Swarm, SwarmEvent}; |
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use libp2p_swarm_test::SwarmExt; |
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use tracing_subscriber::EnvFilter; |
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use Event::*; |
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use MyBehaviourEvent::*; |
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#[async_std::test] |
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async fn server_gets_added_to_routing_table_by_client() { |
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let _ = tracing_subscriber::fmt() |
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.with_env_filter(EnvFilter::from_default_env()) |
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.try_init(); |
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let mut client = Swarm::new_ephemeral(MyBehaviour::new); |
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let mut server = Swarm::new_ephemeral(MyBehaviour::new); |
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server.listen().with_memory_addr_external().await; |
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client.connect(&mut server).await; |
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let server_peer_id = *server.local_peer_id(); |
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async_std::task::spawn(server.loop_on_next()); |
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let peer = client |
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.wait(|e| match e { |
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SwarmEvent::Behaviour(Kad(RoutingUpdated { peer, .. })) => Some(peer), |
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_ => None, |
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}) |
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.await; |
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assert_eq!(peer, server_peer_id); |
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} |
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#[async_std::test] |
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async fn two_servers_add_each_other_to_routing_table() { |
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let _ = tracing_subscriber::fmt() |
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.with_env_filter(EnvFilter::from_default_env()) |
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.try_init(); |
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let mut server1 = Swarm::new_ephemeral(MyBehaviour::new); |
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let mut server2 = Swarm::new_ephemeral(MyBehaviour::new); |
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server2.listen().with_memory_addr_external().await; |
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server1.connect(&mut server2).await; |
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let server1_peer_id = *server1.local_peer_id(); |
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let server2_peer_id = *server2.local_peer_id(); |
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match libp2p_swarm_test::drive(&mut server1, &mut server2).await { |
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( |
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[Identify(_), Identify(_), Kad(RoutingUpdated { peer: peer1, .. })] |
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| [Identify(_), Kad(RoutingUpdated { peer: peer1, .. }), Identify(_)], |
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[Identify(_), Identify(_)], |
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) => { |
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assert_eq!(peer1, server2_peer_id); |
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} |
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other => panic!("Unexpected events: {other:?}"), |
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} |
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server1.listen().with_memory_addr_external().await; |
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server2.connect(&mut server1).await; |
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async_std::task::spawn(server1.loop_on_next()); |
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let peer = server2 |
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.wait(|e| match e { |
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SwarmEvent::Behaviour(Kad(RoutingUpdated { peer, .. })) => Some(peer), |
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_ => None, |
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}) |
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.await; |
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assert_eq!(peer, server1_peer_id); |
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} |
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#[async_std::test] |
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async fn adding_an_external_addresses_activates_server_mode_on_existing_connections() { |
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let _ = tracing_subscriber::fmt() |
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.with_env_filter(EnvFilter::from_default_env()) |
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.try_init(); |
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let mut client = Swarm::new_ephemeral(MyBehaviour::new); |
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let mut server = Swarm::new_ephemeral(MyBehaviour::new); |
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let server_peer_id = *server.local_peer_id(); |
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let (memory_addr, _) = server.listen().await; |
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client.dial(memory_addr.clone()).unwrap(); |
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match libp2p_swarm_test::drive(&mut client, &mut server).await { |
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([Identify(_), Identify(_)], [Identify(_), Identify(_)]) => {} |
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other => panic!("Unexpected events: {other:?}"), |
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} |
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server.add_external_address(memory_addr); |
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match libp2p_swarm_test::drive(&mut client, &mut server).await { |
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( |
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[Identify(identify::Event::Received { .. }), Kad(RoutingUpdated { peer: peer1, .. })], |
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[Kad(ModeChanged { new_mode }), Identify(identify::Event::Pushed { .. })], |
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) => { |
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assert_eq!(new_mode, Mode::Server); |
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assert_eq!(peer1, server_peer_id); |
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} |
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other => panic!("Unexpected events: {other:?}"), |
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} |
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} |
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#[async_std::test] |
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async fn set_client_to_server_mode() { |
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let _ = tracing_subscriber::fmt() |
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.with_env_filter(EnvFilter::from_default_env()) |
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.try_init(); |
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let mut client = Swarm::new_ephemeral(MyBehaviour::new); |
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client.behaviour_mut().kad.set_mode(Some(Mode::Client)); |
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let mut server = Swarm::new_ephemeral(MyBehaviour::new); |
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server.listen().with_memory_addr_external().await; |
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client.connect(&mut server).await; |
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let server_peer_id = *server.local_peer_id(); |
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let client_event = client.wait(|e| match e { |
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SwarmEvent::Behaviour(Kad(RoutingUpdated { peer, .. })) => Some(peer), |
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_ => None, |
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}); |
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let server_event = server.wait(|e| match e { |
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SwarmEvent::Behaviour(Identify(identify::Event::Received { info, .. })) => Some(info), |
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_ => None, |
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}); |
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let (peer, info) = futures::future::join(client_event, server_event).await; |
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assert_eq!(peer, server_peer_id); |
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assert!(info |
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.protocols |
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.iter() |
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.all(|proto| libp2p_kad::PROTOCOL_NAME.ne(proto))); |
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client.behaviour_mut().kad.set_mode(Some(Mode::Server)); |
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async_std::task::spawn(client.loop_on_next()); |
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let info = server |
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.wait(|e| match e { |
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SwarmEvent::Behaviour(Identify(identify::Event::Received { info, .. })) => Some(info), |
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_ => None, |
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}) |
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.await; |
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assert!(info |
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.protocols |
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.iter() |
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.any(|proto| libp2p_kad::PROTOCOL_NAME.eq(proto))); |
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} |
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#[derive(libp2p_swarm::NetworkBehaviour)] |
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#[behaviour(prelude = "libp2p_swarm::derive_prelude")] |
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struct MyBehaviour { |
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identify: identify::Behaviour, |
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kad: Behaviour<MemoryStore>, |
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} |
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impl MyBehaviour { |
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fn new(k: identity::Keypair) -> Self { |
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let local_peer_id = k.public().to_peer_id(); |
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Self { |
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identify: identify::Behaviour::new(identify::Config::new( |
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"/test/1.0.0".to_owned(), |
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k.public(), |
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)), |
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kad: Behaviour::with_config( |
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local_peer_id, |
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MemoryStore::new(local_peer_id), |
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Config::new(libp2p_kad::PROTOCOL_NAME), |
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), |
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} |
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} |
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} |
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