use async_std::task; use crypto_box::SecretKey; use log::LevelFilter; use std::sync::atomic::{AtomicBool, AtomicUsize, Ordering}; use std::sync::Arc; use std::time::Duration; use vented::event::Event; use vented::server::data::{Node, ServerTimeouts}; use vented::server::server_events::NODE_LIST_REQUEST_EVENT; use vented::server::VentedServer; fn setup() { simple_logger::SimpleLogger::new() .with_module_level("async_std", LevelFilter::Warn) .with_module_level("async_io", LevelFilter::Warn) .with_module_level("polling", LevelFilter::Warn) .init() .unwrap(); } #[test] fn test_server_communication() { setup(); let ping_count = Arc::new(AtomicUsize::new(0)); let pong_count = Arc::new(AtomicUsize::new(0)); let c_pinged = Arc::new(AtomicBool::new(false)); let mut rng = rand::thread_rng(); let global_secret_a = SecretKey::generate(&mut rng); let global_secret_b = SecretKey::generate(&mut rng); let global_secret_c = SecretKey::generate(&mut rng); let nodes = vec![ Node { id: "A".to_string(), addresses: vec!["localhost:22222".to_string()], public_key: global_secret_a.public_key(), trusted: true, }, Node { id: "B".to_string(), addresses: vec![], public_key: global_secret_b.public_key(), trusted: false, }, Node { id: "C".to_string(), addresses: vec![], public_key: global_secret_c.public_key(), trusted: false, }, ]; let mut nodes_a = nodes.clone(); for i in 0..10 { nodes_a.push(Node { id: format!("Node-{}", i), addresses: vec!["192.168.178.1".to_string()], public_key: global_secret_c.public_key(), trusted: false, }) } task::block_on(async { let mut server_a = VentedServer::new( "A".to_string(), global_secret_a, nodes_a, ServerTimeouts::default(), ); let mut server_b = VentedServer::new( "B".to_string(), global_secret_b, nodes.clone(), ServerTimeouts::default(), ); let mut server_c = VentedServer::new( "C".to_string(), global_secret_c, nodes, ServerTimeouts::default(), ); server_a.listen("localhost:22222".to_string()); server_a.on("ping", { let ping_count = Arc::clone(&ping_count); move |_| { let ping_count = Arc::clone(&ping_count); Box::pin(async move { ping_count.fetch_add(1, Ordering::Relaxed); Some(Event::new("pong".to_string())) }) } }); server_b.on("pong", { let pong_count = Arc::clone(&pong_count); move |_| { let pong_count = Arc::clone(&pong_count); Box::pin(async move { pong_count.fetch_add(1, Ordering::Relaxed); None }) } }); server_c.on("ping", { let c_pinged = Arc::clone(&c_pinged); move |_| { let c_pinged = Arc::clone(&c_pinged); Box::pin(async move { c_pinged.store(true, Ordering::Relaxed); None }) } }); for i in 0..10 { assert!(server_a .emit(format!("Nodes-{}", i), Event::new("ping")) .await .is_err()); } server_b .emit("A", Event::new(NODE_LIST_REQUEST_EVENT)) .await .unwrap(); server_c .emit("A", Event::new("ping".to_string())) .await .unwrap(); server_b .emit("C", Event::new("ping".to_string())) .await .unwrap(); for _ in 0..9 { server_b .emit("A", Event::new("ping".to_string())) .await .unwrap(); } server_a .emit("B", Event::new("pong".to_string())) .await .unwrap(); task::sleep(Duration::from_secs(2)).await; }); // wait one second to make sure the servers were able to process the events assert_eq!(ping_count.load(Ordering::SeqCst), 10); assert_eq!(pong_count.load(Ordering::SeqCst), 10); assert!(c_pinged.load(Ordering::SeqCst)); }