use bytes::Bytes; use futures::channel; use std::{ sync::{ atomic::{AtomicUsize, Ordering}, Arc, }, thread, }; use tentacle::{ async_trait, builder::{MetaBuilder, ServiceBuilder}, context::{ProtocolContext, ProtocolContextMutRef}, multiaddr::Multiaddr, secio::SecioKeyPair, service::{ProtocolHandle, ProtocolMeta, Service, TargetProtocol}, traits::{ServiceHandle, ServiceProtocol}, ProtocolId, }; pub fn create(secio: bool, meta: ProtocolMeta, shandle: F) -> Service where F: ServiceHandle + Unpin + 'static, { let builder = ServiceBuilder::default().insert_protocol(meta); if secio { builder .handshake_type(SecioKeyPair::secp256k1_generated().into()) .build(shandle) } else { builder.build(shandle) } } struct PHandle; #[async_trait] impl ServiceProtocol for PHandle { async fn init(&mut self, _context: &mut ProtocolContext) {} async fn connected(&mut self, context: ProtocolContextMutRef<'_>, _version: &str) { if context.session.ty.is_inbound() { let prefix = "x".repeat(10); let _res = context.send_message(Bytes::from(prefix)).await; } } async fn disconnected(&mut self, context: ProtocolContextMutRef<'_>) { let _res = context.shutdown().await; } async fn received(&mut self, context: ProtocolContextMutRef<'_>, _data: Bytes) { if context.session.ty.is_outbound() { let _res = context.shutdown().await; } } } fn create_meta(id: ProtocolId) -> (ProtocolMeta, Arc) { let count = Arc::new(AtomicUsize::new(0)); let count_clone = count.clone(); let count_clone_1 = count.clone(); let meta = MetaBuilder::new() .id(id) .before_send(move |data| { count_clone.fetch_add(1, Ordering::SeqCst); data }) .before_receive(move || { let count = count_clone_1.clone(); Some(Box::new(move |data: bytes::BytesMut| { count.fetch_add(1, Ordering::SeqCst); Ok(data.freeze()) })) }); ( meta.service_handle(move || { if id == 0.into() { ProtocolHandle::None } else { let handle = Box::new(PHandle); ProtocolHandle::Callback(handle) } }) .build(), count, ) } fn test_before_handle(secio: bool) { let (meta, result_1) = create_meta(1.into()); let (addr_sender, addr_receiver) = channel::oneshot::channel::(); thread::spawn(move || { let rt = tokio::runtime::Runtime::new().unwrap(); let mut service = create(secio, meta, ()); rt.block_on(async move { let listen_addr = service .listen("/ip4/127.0.0.1/tcp/0".parse().unwrap()) .await .unwrap(); let _res = addr_sender.send(listen_addr); service.run().await }); }); let (meta, result_2) = create_meta(1.into()); let handle_2 = thread::spawn(move || { let rt = tokio::runtime::Runtime::new().unwrap(); let mut service = create(secio, meta, ()); rt.block_on(async move { let listen_addr = addr_receiver.await.unwrap(); service .dial(listen_addr, TargetProtocol::All) .await .unwrap(); service.run().await }); }); handle_2.join().unwrap(); assert_eq!(result_1.load(Ordering::SeqCst), 1); assert_eq!(result_2.load(Ordering::SeqCst), 1); } #[test] fn test_before_with_secio() { test_before_handle(true) } #[test] fn test_before_with_no_secio() { test_before_handle(false) }