diff options
Diffstat (limited to 'karyons_core/src/async_utils')
-rw-r--r-- | karyons_core/src/async_utils/backoff.rs | 115 | ||||
-rw-r--r-- | karyons_core/src/async_utils/condvar.rs | 387 | ||||
-rw-r--r-- | karyons_core/src/async_utils/condwait.rs | 96 | ||||
-rw-r--r-- | karyons_core/src/async_utils/mod.rs | 13 | ||||
-rw-r--r-- | karyons_core/src/async_utils/select.rs | 99 | ||||
-rw-r--r-- | karyons_core/src/async_utils/task_group.rs | 197 | ||||
-rw-r--r-- | karyons_core/src/async_utils/timeout.rs | 52 |
7 files changed, 0 insertions, 959 deletions
diff --git a/karyons_core/src/async_utils/backoff.rs b/karyons_core/src/async_utils/backoff.rs deleted file mode 100644 index f7e131d..0000000 --- a/karyons_core/src/async_utils/backoff.rs +++ /dev/null @@ -1,115 +0,0 @@ -use std::{ - cmp::min, - sync::atomic::{AtomicBool, AtomicU32, Ordering}, - time::Duration, -}; - -use smol::Timer; - -/// Exponential backoff -/// <https://en.wikipedia.org/wiki/Exponential_backoff> -/// -/// # Examples -/// -/// ``` -/// use karyons_core::async_utils::Backoff; -/// -/// async { -/// let backoff = Backoff::new(300, 3000); -/// -/// loop { -/// backoff.sleep().await; -/// -/// // do something -/// break; -/// } -/// -/// backoff.reset(); -/// -/// // .... -/// }; -/// -/// ``` -/// -pub struct Backoff { - /// The base delay in milliseconds for the initial retry. - base_delay: u64, - /// The max delay in milliseconds allowed for a retry. - max_delay: u64, - /// Atomic counter - retries: AtomicU32, - /// Stop flag - stop: AtomicBool, -} - -impl Backoff { - /// Creates a new Backoff. - pub fn new(base_delay: u64, max_delay: u64) -> Self { - Self { - base_delay, - max_delay, - retries: AtomicU32::new(0), - stop: AtomicBool::new(false), - } - } - - /// Sleep based on the current retry count and delay values. - /// Retruns the delay value. - pub async fn sleep(&self) -> u64 { - if self.stop.load(Ordering::SeqCst) { - Timer::after(Duration::from_millis(self.max_delay)).await; - return self.max_delay; - } - - let retries = self.retries.load(Ordering::SeqCst); - let delay = self.base_delay * (2_u64).pow(retries); - let delay = min(delay, self.max_delay); - - if delay == self.max_delay { - self.stop.store(true, Ordering::SeqCst); - } - - self.retries.store(retries + 1, Ordering::SeqCst); - - Timer::after(Duration::from_millis(delay)).await; - delay - } - - /// Reset the retry counter to 0. - pub fn reset(&self) { - self.retries.store(0, Ordering::SeqCst); - self.stop.store(false, Ordering::SeqCst); - } -} - -#[cfg(test)] -mod tests { - use super::*; - use std::sync::Arc; - - #[test] - fn test_backoff() { - smol::block_on(async move { - let backoff = Arc::new(Backoff::new(5, 15)); - let backoff_c = backoff.clone(); - smol::spawn(async move { - let delay = backoff_c.sleep().await; - assert_eq!(delay, 5); - - let delay = backoff_c.sleep().await; - assert_eq!(delay, 10); - - let delay = backoff_c.sleep().await; - assert_eq!(delay, 15); - }) - .await; - - smol::spawn(async move { - backoff.reset(); - let delay = backoff.sleep().await; - assert_eq!(delay, 5); - }) - .await; - }); - } -} diff --git a/karyons_core/src/async_utils/condvar.rs b/karyons_core/src/async_utils/condvar.rs deleted file mode 100644 index 814f78f..0000000 --- a/karyons_core/src/async_utils/condvar.rs +++ /dev/null @@ -1,387 +0,0 @@ -use std::{ - collections::HashMap, - future::Future, - pin::Pin, - sync::Mutex, - task::{Context, Poll, Waker}, -}; - -use smol::lock::MutexGuard; - -use crate::utils::random_16; - -/// CondVar is an async version of <https://doc.rust-lang.org/std/sync/struct.Condvar.html> -/// -/// # Example -/// -///``` -/// use std::sync::Arc; -/// -/// use smol::lock::Mutex; -/// -/// use karyons_core::async_utils::CondVar; -/// -/// async { -/// -/// let val = Arc::new(Mutex::new(false)); -/// let condvar = Arc::new(CondVar::new()); -/// -/// let val_cloned = val.clone(); -/// let condvar_cloned = condvar.clone(); -/// smol::spawn(async move { -/// let mut val = val_cloned.lock().await; -/// -/// // While the boolean flag is false, wait for a signal. -/// while !*val { -/// val = condvar_cloned.wait(val).await; -/// } -/// -/// // ... -/// }); -/// -/// let condvar_cloned = condvar.clone(); -/// smol::spawn(async move { -/// let mut val = val.lock().await; -/// -/// // While the boolean flag is false, wait for a signal. -/// while !*val { -/// val = condvar_cloned.wait(val).await; -/// } -/// -/// // ... -/// }); -/// -/// // Wake up all waiting tasks on this condvar -/// condvar.broadcast(); -/// }; -/// -/// ``` - -pub struct CondVar { - inner: Mutex<Wakers>, -} - -impl CondVar { - /// Creates a new CondVar - pub fn new() -> Self { - Self { - inner: Mutex::new(Wakers::new()), - } - } - - /// Blocks the current task until this condition variable receives a notification. - pub async fn wait<'a, T>(&self, g: MutexGuard<'a, T>) -> MutexGuard<'a, T> { - let m = MutexGuard::source(&g); - - CondVarAwait::new(self, g).await; - - m.lock().await - } - - /// Wakes up one blocked task waiting on this condvar. - pub fn signal(&self) { - self.inner.lock().unwrap().wake(true); - } - - /// Wakes up all blocked tasks waiting on this condvar. - pub fn broadcast(&self) { - self.inner.lock().unwrap().wake(false); - } -} - -impl Default for CondVar { - fn default() -> Self { - Self::new() - } -} - -struct CondVarAwait<'a, T> { - id: Option<u16>, - condvar: &'a CondVar, - guard: Option<MutexGuard<'a, T>>, -} - -impl<'a, T> CondVarAwait<'a, T> { - fn new(condvar: &'a CondVar, guard: MutexGuard<'a, T>) -> Self { - Self { - condvar, - guard: Some(guard), - id: None, - } - } -} - -impl<'a, T> Future for CondVarAwait<'a, T> { - type Output = (); - - fn poll(mut self: Pin<&mut Self>, cx: &mut Context<'_>) -> Poll<Self::Output> { - let mut inner = self.condvar.inner.lock().unwrap(); - - match self.guard.take() { - Some(_) => { - // the first pooll will release the Mutexguard - self.id = Some(inner.put(Some(cx.waker().clone()))); - Poll::Pending - } - None => { - // Return Ready if it has already been polled and removed - // from the waker list. - if self.id.is_none() { - return Poll::Ready(()); - } - - let i = self.id.as_ref().unwrap(); - match inner.wakers.get_mut(i).unwrap() { - Some(wk) => { - // This will prevent cloning again - if !wk.will_wake(cx.waker()) { - *wk = cx.waker().clone(); - } - Poll::Pending - } - None => { - inner.delete(i); - self.id = None; - Poll::Ready(()) - } - } - } - } - } -} - -impl<'a, T> Drop for CondVarAwait<'a, T> { - fn drop(&mut self) { - if let Some(id) = self.id { - let mut inner = self.condvar.inner.lock().unwrap(); - if let Some(wk) = inner.wakers.get_mut(&id).unwrap().take() { - wk.wake() - } - } - } -} - -/// Wakers is a helper struct to store the task wakers -struct Wakers { - wakers: HashMap<u16, Option<Waker>>, -} - -impl Wakers { - fn new() -> Self { - Self { - wakers: HashMap::new(), - } - } - - fn put(&mut self, waker: Option<Waker>) -> u16 { - let mut id: u16; - - id = random_16(); - while self.wakers.contains_key(&id) { - id = random_16(); - } - - self.wakers.insert(id, waker); - id - } - - fn delete(&mut self, id: &u16) -> Option<Option<Waker>> { - self.wakers.remove(id) - } - - fn wake(&mut self, signal: bool) { - for (_, wk) in self.wakers.iter_mut() { - match wk.take() { - Some(w) => { - w.wake(); - if signal { - break; - } - } - None => continue, - } - } - } -} - -#[cfg(test)] -mod tests { - use super::*; - use smol::lock::Mutex; - use std::{ - collections::VecDeque, - sync::{ - atomic::{AtomicUsize, Ordering}, - Arc, - }, - }; - - // The tests below demonstrate a solution to a problem in the Wikipedia - // explanation of condition variables: - // https://en.wikipedia.org/wiki/Monitor_(synchronization)#Solving_the_bounded_producer/consumer_problem. - - struct Queue { - items: VecDeque<String>, - max_len: usize, - } - impl Queue { - fn new(max_len: usize) -> Self { - Self { - items: VecDeque::new(), - max_len, - } - } - - fn is_full(&self) -> bool { - self.items.len() == self.max_len - } - - fn is_empty(&self) -> bool { - self.items.is_empty() - } - } - - #[test] - fn test_condvar_signal() { - smol::block_on(async { - let number_of_tasks = 30; - - let queue = Arc::new(Mutex::new(Queue::new(5))); - let condvar_full = Arc::new(CondVar::new()); - let condvar_empty = Arc::new(CondVar::new()); - - let queue_cloned = queue.clone(); - let condvar_full_cloned = condvar_full.clone(); - let condvar_empty_cloned = condvar_empty.clone(); - - let _producer1 = smol::spawn(async move { - for i in 1..number_of_tasks { - // Lock queue mtuex - let mut queue = queue_cloned.lock().await; - - // Check if the queue is non-full - while queue.is_full() { - // Release queue mutex and sleep - queue = condvar_full_cloned.wait(queue).await; - } - - queue.items.push_back(format!("task {i}")); - - // Wake up the consumer - condvar_empty_cloned.signal(); - } - }); - - let queue_cloned = queue.clone(); - let task_consumed = Arc::new(AtomicUsize::new(0)); - let task_consumed_ = task_consumed.clone(); - let consumer = smol::spawn(async move { - for _ in 1..number_of_tasks { - // Lock queue mtuex - let mut queue = queue_cloned.lock().await; - - // Check if the queue is non-empty - while queue.is_empty() { - // Release queue mutex and sleep - queue = condvar_empty.wait(queue).await; - } - - let _ = queue.items.pop_front().unwrap(); - - task_consumed_.fetch_add(1, Ordering::Relaxed); - - // Do something - - // Wake up the producer - condvar_full.signal(); - } - }); - - consumer.await; - assert!(queue.lock().await.is_empty()); - assert_eq!(task_consumed.load(Ordering::Relaxed), 29); - }); - } - - #[test] - fn test_condvar_broadcast() { - smol::block_on(async { - let tasks = 30; - - let queue = Arc::new(Mutex::new(Queue::new(5))); - let condvar = Arc::new(CondVar::new()); - - let queue_cloned = queue.clone(); - let condvar_cloned = condvar.clone(); - let _producer1 = smol::spawn(async move { - for i in 1..tasks { - // Lock queue mtuex - let mut queue = queue_cloned.lock().await; - - // Check if the queue is non-full - while queue.is_full() { - // Release queue mutex and sleep - queue = condvar_cloned.wait(queue).await; - } - - queue.items.push_back(format!("producer1: task {i}")); - - // Wake up all producer and consumer tasks - condvar_cloned.broadcast(); - } - }); - - let queue_cloned = queue.clone(); - let condvar_cloned = condvar.clone(); - let _producer2 = smol::spawn(async move { - for i in 1..tasks { - // Lock queue mtuex - let mut queue = queue_cloned.lock().await; - - // Check if the queue is non-full - while queue.is_full() { - // Release queue mutex and sleep - queue = condvar_cloned.wait(queue).await; - } - - queue.items.push_back(format!("producer2: task {i}")); - - // Wake up all producer and consumer tasks - condvar_cloned.broadcast(); - } - }); - - let queue_cloned = queue.clone(); - let task_consumed = Arc::new(AtomicUsize::new(0)); - let task_consumed_ = task_consumed.clone(); - - let consumer = smol::spawn(async move { - for _ in 1..((tasks * 2) - 1) { - { - // Lock queue mutex - let mut queue = queue_cloned.lock().await; - - // Check if the queue is non-empty - while queue.is_empty() { - // Release queue mutex and sleep - queue = condvar.wait(queue).await; - } - - let _ = queue.items.pop_front().unwrap(); - - task_consumed_.fetch_add(1, Ordering::Relaxed); - - // Do something - - // Wake up all producer and consumer tasks - condvar.broadcast(); - } - } - }); - - consumer.await; - assert!(queue.lock().await.is_empty()); - assert_eq!(task_consumed.load(Ordering::Relaxed), 58); - }); - } -} diff --git a/karyons_core/src/async_utils/condwait.rs b/karyons_core/src/async_utils/condwait.rs deleted file mode 100644 index f16a99e..0000000 --- a/karyons_core/src/async_utils/condwait.rs +++ /dev/null @@ -1,96 +0,0 @@ -use smol::lock::Mutex; - -use super::CondVar; - -/// CondWait is a wrapper struct for CondVar with a Mutex boolean flag. -/// -/// # Example -/// -///``` -/// use std::sync::Arc; -/// -/// use karyons_core::async_utils::CondWait; -/// -/// async { -/// let cond_wait = Arc::new(CondWait::new()); -/// let cond_wait_cloned = cond_wait.clone(); -/// let task = smol::spawn(async move { -/// cond_wait_cloned.wait().await; -/// // ... -/// }); -/// -/// cond_wait.signal().await; -/// }; -/// -/// ``` -/// -pub struct CondWait { - /// The CondVar - condvar: CondVar, - /// Boolean flag - w: Mutex<bool>, -} - -impl CondWait { - /// Creates a new CondWait. - pub fn new() -> Self { - Self { - condvar: CondVar::new(), - w: Mutex::new(false), - } - } - - /// Waits for a signal or broadcast. - pub async fn wait(&self) { - let mut w = self.w.lock().await; - - // While the boolean flag is false, wait for a signal. - while !*w { - w = self.condvar.wait(w).await; - } - } - - /// Signal a waiting task. - pub async fn signal(&self) { - *self.w.lock().await = true; - self.condvar.signal(); - } - - /// Signal all waiting tasks. - pub async fn broadcast(&self) { - *self.w.lock().await = true; - self.condvar.broadcast(); - } - - /// Reset the boolean flag value to false. - pub async fn reset(&self) { - *self.w.lock().await = false; - } -} - -impl Default for CondWait { - fn default() -> Self { - Self::new() - } -} - -#[cfg(test)] -mod tests { - use super::*; - use std::sync::Arc; - - #[test] - fn test_cond_wait() { - smol::block_on(async { - let cond_wait = Arc::new(CondWait::new()); - let cond_wait_cloned = cond_wait.clone(); - let task = smol::spawn(async move { - cond_wait_cloned.wait().await; - true - }); - - cond_wait.signal().await; - assert!(task.await); - }); - } -} diff --git a/karyons_core/src/async_utils/mod.rs b/karyons_core/src/async_utils/mod.rs deleted file mode 100644 index c871bad..0000000 --- a/karyons_core/src/async_utils/mod.rs +++ /dev/null @@ -1,13 +0,0 @@ -mod backoff; -mod condvar; -mod condwait; -mod select; -mod task_group; -mod timeout; - -pub use backoff::Backoff; -pub use condvar::CondVar; -pub use condwait::CondWait; -pub use select::{select, Either}; -pub use task_group::{TaskGroup, TaskResult}; -pub use timeout::timeout; diff --git a/karyons_core/src/async_utils/select.rs b/karyons_core/src/async_utils/select.rs deleted file mode 100644 index d61b355..0000000 --- a/karyons_core/src/async_utils/select.rs +++ /dev/null @@ -1,99 +0,0 @@ -use std::pin::Pin; -use std::task::{Context, Poll}; - -use pin_project_lite::pin_project; -use smol::future::Future; - -/// Returns the result of the future that completes first, preferring future1 -/// if both are ready. -/// -/// # Examples -/// -/// ``` -/// use std::future; -/// -/// use karyons_core::async_utils::{select, Either}; -/// -/// async { -/// let fut1 = future::pending::<String>(); -/// let fut2 = future::ready(0); -/// let res = select(fut1, fut2).await; -/// assert!(matches!(res, Either::Right(0))); -/// // .... -/// }; -/// -/// ``` -/// -pub fn select<T1, T2, F1, F2>(future1: F1, future2: F2) -> Select<F1, F2> -where - F1: Future<Output = T1>, - F2: Future<Output = T2>, -{ - Select { future1, future2 } -} - -pin_project! { - #[derive(Debug)] - pub struct Select<F1, F2> { - #[pin] - future1: F1, - #[pin] - future2: F2, - } -} - -/// The return value from the `select` function, indicating which future -/// completed first. -#[derive(Debug)] -pub enum Either<T1, T2> { - Left(T1), - Right(T2), -} - -// Implement the Future trait for the Select struct. -impl<T1, T2, F1, F2> Future for Select<F1, F2> -where - F1: Future<Output = T1>, - F2: Future<Output = T2>, -{ - type Output = Either<T1, T2>; - - fn poll(self: Pin<&mut Self>, cx: &mut Context<'_>) -> Poll<Self::Output> { - let this = self.project(); - - if let Poll::Ready(t) = this.future1.poll(cx) { - return Poll::Ready(Either::Left(t)); - } - - if let Poll::Ready(t) = this.future2.poll(cx) { - return Poll::Ready(Either::Right(t)); - } - - Poll::Pending - } -} - -#[cfg(test)] -mod tests { - use super::{select, Either}; - use smol::Timer; - use std::future; - - #[test] - fn test_async_select() { - smol::block_on(async move { - let fut = select(Timer::never(), future::ready(0 as u32)).await; - assert!(matches!(fut, Either::Right(0))); - - let fut1 = future::pending::<String>(); - let fut2 = future::ready(0); - let res = select(fut1, fut2).await; - assert!(matches!(res, Either::Right(0))); - - let fut1 = future::ready(0); - let fut2 = future::pending::<String>(); - let res = select(fut1, fut2).await; - assert!(matches!(res, Either::Left(_))); - }); - } -} diff --git a/karyons_core/src/async_utils/task_group.rs b/karyons_core/src/async_utils/task_group.rs deleted file mode 100644 index 8707d0e..0000000 --- a/karyons_core/src/async_utils/task_group.rs +++ /dev/null @@ -1,197 +0,0 @@ -use std::{future::Future, sync::Arc, sync::Mutex}; - -use smol::Task; - -use crate::Executor; - -use super::{select, CondWait, Either}; - -/// TaskGroup is a group of spawned tasks. -/// -/// # Example -/// -/// ``` -/// -/// use std::sync::Arc; -/// -/// use karyons_core::async_utils::TaskGroup; -/// -/// async { -/// -/// let ex = Arc::new(smol::Executor::new()); -/// let group = TaskGroup::new(); -/// -/// group.spawn(ex.clone(), smol::Timer::never(), |_| async {}); -/// -/// group.cancel().await; -/// -/// }; -/// -/// ``` -/// -pub struct TaskGroup { - tasks: Mutex<Vec<TaskHandler>>, - stop_signal: Arc<CondWait>, -} - -impl<'a> TaskGroup { - /// Creates a new task group - pub fn new() -> Self { - Self { - tasks: Mutex::new(Vec::new()), - stop_signal: Arc::new(CondWait::new()), - } - } - - /// Spawns a new task and calls the callback after it has completed - /// or been canceled. The callback will have the `TaskResult` as a - /// parameter, indicating whether the task completed or was canceled. - pub fn spawn<T, Fut, CallbackF, CallbackFut>( - &self, - executor: Executor<'a>, - fut: Fut, - callback: CallbackF, - ) where - T: Send + Sync + 'a, - Fut: Future<Output = T> + Send + 'a, - CallbackF: FnOnce(TaskResult<T>) -> CallbackFut + Send + 'a, - CallbackFut: Future<Output = ()> + Send + 'a, - { - let task = TaskHandler::new(executor.clone(), fut, callback, self.stop_signal.clone()); - self.tasks.lock().unwrap().push(task); - } - - /// Checks if the task group is empty. - pub fn is_empty(&self) -> bool { - self.tasks.lock().unwrap().is_empty() - } - - /// Get the number of the tasks in the group. - pub fn len(&self) -> usize { - self.tasks.lock().unwrap().len() - } - - /// Cancels all tasks in the group. - pub async fn cancel(&self) { - self.stop_signal.broadcast().await; - - loop { - let task = self.tasks.lock().unwrap().pop(); - if let Some(t) = task { - t.cancel().await - } else { - break; - } - } - } -} - -impl Default for TaskGroup { - fn default() -> Self { - Self::new() - } -} - -/// The result of a spawned task. -#[derive(Debug)] -pub enum TaskResult<T> { - Completed(T), - Cancelled, -} - -impl<T: std::fmt::Debug> std::fmt::Display for TaskResult<T> { - fn fmt(&self, f: &mut std::fmt::Formatter) -> std::fmt::Result { - match self { - TaskResult::Cancelled => write!(f, "Task cancelled"), - TaskResult::Completed(res) => write!(f, "Task completed: {:?}", res), - } - } -} - -/// TaskHandler -pub struct TaskHandler { - task: Task<()>, - cancel_flag: Arc<CondWait>, -} - -impl<'a> TaskHandler { - /// Creates a new task handle - fn new<T, Fut, CallbackF, CallbackFut>( - ex: Executor<'a>, - fut: Fut, - callback: CallbackF, - stop_signal: Arc<CondWait>, - ) -> TaskHandler - where - T: Send + Sync + 'a, - Fut: Future<Output = T> + Send + 'a, - CallbackF: FnOnce(TaskResult<T>) -> CallbackFut + Send + 'a, - CallbackFut: Future<Output = ()> + Send + 'a, - { - let cancel_flag = Arc::new(CondWait::new()); - let cancel_flag_c = cancel_flag.clone(); - let task = ex.spawn(async move { - //start_signal.signal().await; - // Waits for either the stop signal or the task to complete. - let result = select(stop_signal.wait(), fut).await; - - let result = match result { - Either::Left(_) => TaskResult::Cancelled, - Either::Right(res) => TaskResult::Completed(res), - }; - - // Call the callback with the result. - callback(result).await; - - cancel_flag_c.signal().await; - }); - - TaskHandler { task, cancel_flag } - } - - /// Cancels the task. - async fn cancel(self) { - self.cancel_flag.wait().await; - self.task.cancel().await; - } -} - -#[cfg(test)] -mod tests { - use super::*; - use std::{future, sync::Arc}; - - #[test] - fn test_task_group() { - let ex = Arc::new(smol::Executor::new()); - smol::block_on(ex.clone().run(async move { - let group = Arc::new(TaskGroup::new()); - - group.spawn(ex.clone(), future::ready(0), |res| async move { - assert!(matches!(res, TaskResult::Completed(0))); - }); - - group.spawn(ex.clone(), future::pending::<()>(), |res| async move { - assert!(matches!(res, TaskResult::Cancelled)); - }); - - let groupc = group.clone(); - let exc = ex.clone(); - group.spawn( - ex.clone(), - async move { - groupc.spawn(exc.clone(), future::pending::<()>(), |res| async move { - assert!(matches!(res, TaskResult::Cancelled)); - }); - }, - |res| async move { - assert!(matches!(res, TaskResult::Completed(_))); - }, - ); - - // Do something - smol::Timer::after(std::time::Duration::from_millis(50)).await; - group.cancel().await; - })); - } -} diff --git a/karyons_core/src/async_utils/timeout.rs b/karyons_core/src/async_utils/timeout.rs deleted file mode 100644 index 7c55e1b..0000000 --- a/karyons_core/src/async_utils/timeout.rs +++ /dev/null @@ -1,52 +0,0 @@ -use std::{future::Future, time::Duration}; - -use smol::Timer; - -use super::{select, Either}; -use crate::{error::Error, Result}; - -/// Waits for a future to complete or times out if it exceeds a specified -/// duration. -/// -/// # Example -/// -/// ``` -/// use std::{future, time::Duration}; -/// -/// use karyons_core::async_utils::timeout; -/// -/// async { -/// let fut = future::pending::<()>(); -/// assert!(timeout(Duration::from_millis(100), fut).await.is_err()); -/// }; -/// -/// ``` -/// -pub async fn timeout<T, F>(delay: Duration, future1: F) -> Result<T> -where - F: Future<Output = T>, -{ - let result = select(Timer::after(delay), future1).await; - - match result { - Either::Left(_) => Err(Error::Timeout), - Either::Right(res) => Ok(res), - } -} - -#[cfg(test)] -mod tests { - use super::*; - use std::{future, time::Duration}; - - #[test] - fn test_timeout() { - smol::block_on(async move { - let fut = future::pending::<()>(); - assert!(timeout(Duration::from_millis(10), fut).await.is_err()); - - let fut = smol::Timer::after(Duration::from_millis(10)); - assert!(timeout(Duration::from_millis(50), fut).await.is_ok()) - }); - } -} |