use std::{ sync::mpsc::sync_channel, thread, time::{Duration, Instant}, }; use actix_rt::{System, Worker}; #[test] fn await_for_timer() { let time = Duration::from_secs(1); let instant = Instant::now(); System::new("test_wait_timer").block_on(async move { tokio::time::sleep(time).await; }); assert!( instant.elapsed() >= time, "Block on should poll awaited future to completion" ); } #[test] fn join_another_worker() { let time = Duration::from_secs(1); let instant = Instant::now(); System::new("test_join_another_worker").block_on(async move { let mut worker = Worker::new(); worker.spawn(Box::pin(async move { tokio::time::sleep(time).await; Worker::current().stop(); })); worker.join().unwrap(); }); assert!( instant.elapsed() >= time, "Join on another worker should complete only when it calls stop" ); let instant = Instant::now(); System::new("test_join_another_worker").block_on(async move { let mut worker = Worker::new(); worker.spawn_fn(move || { actix_rt::spawn(async move { tokio::time::sleep(time).await; Worker::current().stop(); }); }); worker.join().unwrap(); }); assert!( instant.elapsed() >= time, "Join on a worker that has used actix_rt::spawn should wait for said future" ); let instant = Instant::now(); System::new("test_join_another_worker").block_on(async move { let mut worker = Worker::new(); worker.spawn(Box::pin(async move { tokio::time::sleep(time).await; Worker::current().stop(); })); worker.stop(); worker.join().unwrap(); }); assert!( instant.elapsed() < time, "Premature stop of worker should conclude regardless of it's current state" ); } #[test] fn non_static_block_on() { let string = String::from("test_str"); let str = string.as_str(); let sys = System::new("borrow some"); sys.block_on(async { actix_rt::time::sleep(Duration::from_millis(1)).await; assert_eq!("test_str", str); }); let rt = actix_rt::Runtime::new().unwrap(); rt.block_on(async { actix_rt::time::sleep(Duration::from_millis(1)).await; assert_eq!("test_str", str); }); System::run(|| { assert_eq!("test_str", str); System::current().stop(); }) .unwrap(); } #[test] fn wait_for_spawns() { let rt = actix_rt::Runtime::new().unwrap(); let handle = rt.spawn(async { println!("running on the runtime"); // assertion panic is caught at task boundary assert_eq!(1, 2); }); assert!(rt.block_on(handle).is_err()); } #[test] fn worker_spawn_fn_runs() { let _ = System::new("test-system"); let (tx, rx) = sync_channel::(1); let mut worker = Worker::new(); worker.spawn_fn(move || tx.send(42).unwrap()); let num = rx.recv().unwrap(); assert_eq!(num, 42); worker.stop(); worker.join().unwrap(); } #[test] fn worker_drop_no_panic_fn() { let _ = System::new("test-system"); let mut worker = Worker::new(); worker.spawn_fn(|| panic!("test")); worker.stop(); worker.join().unwrap(); } #[test] fn worker_drop_no_panic_fut() { use futures_util::future::lazy; let _ = System::new("test-system"); let mut worker = Worker::new(); worker.spawn(lazy(|_| panic!("test"))); worker.stop(); worker.join().unwrap(); } #[test] fn worker_item_storage() { let _ = System::new("test-system"); let mut worker = Worker::new(); assert!(!Worker::contains_item::()); Worker::set_item(42u32); assert!(Worker::contains_item::()); Worker::get_item(|&item: &u32| assert_eq!(item, 42)); Worker::get_mut_item(|&mut item: &mut u32| assert_eq!(item, 42)); let thread = thread::spawn(move || { Worker::get_item(|&_item: &u32| unreachable!("u32 not in this thread")); }) .join(); assert!(thread.is_err()); let thread = thread::spawn(move || { Worker::get_mut_item(|&mut _item: &mut i8| unreachable!("i8 not in this thread")); }) .join(); assert!(thread.is_err()); worker.stop(); worker.join().unwrap(); } #[test] fn system_name_cow_str() { let _ = System::new("test-system"); System::current().stop(); } #[test] fn system_name_cow_string() { let _ = System::new("test-system".to_owned()); System::current().stop(); }