use core::future::poll_fn; use core::marker::PhantomData; use core::mem; use core::task::Poll; use super::raw; /// Token to spawn a newly-created task in an executor. /// /// When calling a task function (like `#[embassy_executor::task] async fn my_task() { ... }`), the returned /// value is a `SpawnToken` that represents an instance of the task, ready to spawn. You must /// then spawn it into an executor, typically with [`Spawner::spawn()`]. /// /// The generic parameter `S` determines whether the task can be spawned in executors /// in other threads or not. If `S: Send`, it can, which allows spawning it into a [`SendSpawner`]. /// If not, it can't, so it can only be spawned into the current thread's executor, with [`Spawner`]. /// /// # Panics /// /// Dropping a SpawnToken instance panics. You may not "abort" spawning a task in this way. /// Once you've invoked a task function and obtained a SpawnToken, you *must* spawn it. #[must_use = "Calling a task function does nothing on its own. You must spawn the returned SpawnToken, typically with Spawner::spawn()"] pub struct SpawnToken { raw_task: Option, phantom: PhantomData<*mut S>, } impl SpawnToken { pub(crate) unsafe fn new(raw_task: raw::TaskRef) -> Self { Self { raw_task: Some(raw_task), phantom: PhantomData, } } /// Return a SpawnToken that represents a failed spawn. pub fn new_failed() -> Self { Self { raw_task: None, phantom: PhantomData, } } } impl Drop for SpawnToken { fn drop(&mut self) { // TODO deallocate the task instead. panic!("SpawnToken instances may not be dropped. You must pass them to Spawner::spawn()") } } /// Error returned when spawning a task. #[derive(Copy, Clone, Debug)] #[cfg_attr(feature = "defmt", derive(defmt::Format))] pub enum SpawnError { /// Too many instances of this task are already running. /// /// By default, a task marked with `#[embassy_executor::task]` can only have one instance /// running at a time. You may allow multiple instances to run in parallel with /// `#[embassy_executor::task(pool_size = 4)]`, at the cost of higher RAM usage. Busy, } /// Handle to spawn tasks into an executor. /// /// This Spawner can spawn any task (Send and non-Send ones), but it can /// only be used in the executor thread (it is not Send itself). /// /// If you want to spawn tasks from another thread, use [SendSpawner]. #[derive(Copy, Clone)] pub struct Spawner { executor: &'static raw::Executor, not_send: PhantomData<*mut ()>, } impl Spawner { pub(crate) fn new(executor: &'static raw::Executor) -> Self { Self { executor, not_send: PhantomData, } } /// Get a Spawner for the current executor. /// /// This function is `async` just to get access to the current async /// context. It returns instantly, it does not block/yield. /// /// # Panics /// /// Panics if the current executor is not an Embassy executor. pub async fn for_current_executor() -> Self { poll_fn(|cx| { let task = raw::task_from_waker(cx.waker()); let executor = unsafe { task.header().executor.get().unwrap_unchecked() }; let executor = unsafe { raw::Executor::wrap(executor) }; Poll::Ready(Self::new(executor)) }) .await } /// Spawn a task into an executor. /// /// You obtain the `token` by calling a task function (i.e. one marked with `#[embassy_executor::task]`). pub fn spawn(&self, token: SpawnToken) -> Result<(), SpawnError> { let task = token.raw_task; mem::forget(token); match task { Some(task) => { unsafe { self.executor.spawn(task) }; Ok(()) } None => Err(SpawnError::Busy), } } // Used by the `embassy_executor_macros::main!` macro to throw an error when spawn // fails. This is here to allow conditional use of `defmt::unwrap!` // without introducing a `defmt` feature in the `embassy_executor_macros` package, // which would require use of `-Z namespaced-features`. /// Spawn a task into an executor, panicking on failure. /// /// # Panics /// /// Panics if the spawning fails. pub fn must_spawn(&self, token: SpawnToken) { unwrap!(self.spawn(token)); } /// Convert this Spawner to a SendSpawner. This allows you to send the /// spawner to other threads, but the spawner loses the ability to spawn /// non-Send tasks. pub fn make_send(&self) -> SendSpawner { SendSpawner::new(&self.executor.inner) } } /// Handle to spawn tasks into an executor from any thread. /// /// This Spawner can be used from any thread (it is Send), but it can /// only spawn Send tasks. The reason for this is spawning is effectively /// "sending" the tasks to the executor thread. /// /// If you want to spawn non-Send tasks, use [Spawner]. #[derive(Copy, Clone)] pub struct SendSpawner { executor: &'static raw::SyncExecutor, } impl SendSpawner { pub(crate) fn new(executor: &'static raw::SyncExecutor) -> Self { Self { executor } } /// Get a Spawner for the current executor. /// /// This function is `async` just to get access to the current async /// context. It returns instantly, it does not block/yield. /// /// # Panics /// /// Panics if the current executor is not an Embassy executor. pub async fn for_current_executor() -> Self { poll_fn(|cx| { let task = raw::task_from_waker(cx.waker()); let executor = unsafe { task.header().executor.get().unwrap_unchecked() }; Poll::Ready(Self::new(executor)) }) .await } /// Spawn a task into an executor. /// /// You obtain the `token` by calling a task function (i.e. one marked with `#[embassy_executor::task]`). pub fn spawn(&self, token: SpawnToken) -> Result<(), SpawnError> { let header = token.raw_task; mem::forget(token); match header { Some(header) => { unsafe { self.executor.spawn(header) }; Ok(()) } None => Err(SpawnError::Busy), } } /// Spawn a task into an executor, panicking on failure. /// /// # Panics /// /// Panics if the spawning fails. pub fn must_spawn(&self, token: SpawnToken) { unwrap!(self.spawn(token)); } }