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Merge pull request #396 from embassy-rs/channel-fixes

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embassy/channel: several improvements
This commit is contained in:
Dario Nieuwenhuis 2021-09-13 00:25:53 +02:00 committed by GitHub
commit f1c35b40c7
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5 changed files with 116 additions and 185 deletions
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1
embassy/Cargo.toml
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@ -42,6 +42,7 @@ embassy-traits = { version = "0.1.0", path = "../embassy-traits"}
atomic-polyfill = "0.1.3" atomic-polyfill = "0.1.3"
critical-section = "0.2.1" critical-section = "0.2.1"
embedded-hal = "0.2.6" embedded-hal = "0.2.6"
heapless = "0.7.5"
[dev-dependencies] [dev-dependencies]
embassy = { path = ".", features = ["executor-agnostic"] } embassy = { path = ".", features = ["executor-agnostic"] }

19
embassy/src/blocking_mutex/kind.rs Normal file
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@ -0,0 +1,19 @@
use super::{CriticalSectionMutex, Mutex, NoopMutex, ThreadModeMutex};
pub trait MutexKind {
type Mutex<T>: Mutex<Data = T>;
}
pub enum CriticalSection {}
impl MutexKind for CriticalSection {
type Mutex<T> = CriticalSectionMutex<T>;
}
pub enum ThreadMode {}
impl MutexKind for ThreadMode {
type Mutex<T> = ThreadModeMutex<T>;
}
pub enum Noop {}
impl MutexKind for Noop {
type Mutex<T> = NoopMutex<T>;
}

10
embassy/src/blocking_mutex/mod.rs
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@ -1,5 +1,7 @@
//! Blocking mutex (not async) //! Blocking mutex (not async)
pub mod kind;
use core::cell::UnsafeCell; use core::cell::UnsafeCell;
use critical_section::CriticalSection; use critical_section::CriticalSection;
@ -13,7 +15,7 @@ pub trait Mutex {
fn new(data: Self::Data) -> Self; fn new(data: Self::Data) -> Self;
/// Creates a critical section and grants temporary access to the protected data. /// Creates a critical section and grants temporary access to the protected data.
fn lock<R>(&mut self, f: impl FnOnce(&Self::Data) -> R) -> R; fn lock<R>(&self, f: impl FnOnce(&Self::Data) -> R) -> R;
} }
/// A "mutex" based on critical sections /// A "mutex" based on critical sections
@ -55,7 +57,7 @@ impl<T> Mutex for CriticalSectionMutex<T> {
Self::new(data) Self::new(data)
} }
fn lock<R>(&mut self, f: impl FnOnce(&Self::Data) -> R) -> R { fn lock<R>(&self, f: impl FnOnce(&Self::Data) -> R) -> R {
critical_section::with(|cs| f(self.borrow(cs))) critical_section::with(|cs| f(self.borrow(cs)))
} }
} }
@ -102,7 +104,7 @@ impl<T> Mutex for ThreadModeMutex<T> {
Self::new(data) Self::new(data)
} }
fn lock<R>(&mut self, f: impl FnOnce(&Self::Data) -> R) -> R { fn lock<R>(&self, f: impl FnOnce(&Self::Data) -> R) -> R {
f(self.borrow()) f(self.borrow())
} }
} }
@ -155,7 +157,7 @@ impl<T> Mutex for NoopMutex<T> {
Self::new(data) Self::new(data)
} }
fn lock<R>(&mut self, f: impl FnOnce(&Self::Data) -> R) -> R { fn lock<R>(&self, f: impl FnOnce(&Self::Data) -> R) -> R {
f(self.borrow()) f(self.borrow())
} }
} }

264
embassy/src/channel/mpsc.rs
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@ -37,19 +37,18 @@
//! //!
//! This channel and its associated types were derived from https://docs.rs/tokio/0.1.22/tokio/sync/mpsc/fn.channel.html //! This channel and its associated types were derived from https://docs.rs/tokio/0.1.22/tokio/sync/mpsc/fn.channel.html
use core::cell::UnsafeCell; use core::cell::RefCell;
use core::fmt; use core::fmt;
use core::marker::PhantomData;
use core::mem::MaybeUninit;
use core::pin::Pin; use core::pin::Pin;
use core::ptr;
use core::task::Context; use core::task::Context;
use core::task::Poll; use core::task::Poll;
use core::task::Waker; use core::task::Waker;
use futures::Future; use futures::Future;
use heapless::Deque;
use crate::blocking_mutex::{CriticalSectionMutex, Mutex, NoopMutex, ThreadModeMutex}; use crate::blocking_mutex::kind::MutexKind;
use crate::blocking_mutex::Mutex;
use crate::waitqueue::WakerRegistration; use crate::waitqueue::WakerRegistration;
/// Send values to the associated `Receiver`. /// Send values to the associated `Receiver`.
@ -57,36 +56,19 @@ use crate::waitqueue::WakerRegistration;
/// Instances are created by the [`split`](split) function. /// Instances are created by the [`split`](split) function.
pub struct Sender<'ch, M, T, const N: usize> pub struct Sender<'ch, M, T, const N: usize>
where where
M: Mutex<Data = ()>, M: MutexKind,
{ {
channel_cell: &'ch UnsafeCell<ChannelCell<M, T, N>>, channel: &'ch Channel<M, T, N>,
} }
// Safe to pass the sender around
unsafe impl<'ch, M, T, const N: usize> Send for Sender<'ch, M, T, N> where M: Mutex<Data = ()> + Sync
{}
unsafe impl<'ch, M, T, const N: usize> Sync for Sender<'ch, M, T, N> where M: Mutex<Data = ()> + Sync
{}
/// Receive values from the associated `Sender`. /// Receive values from the associated `Sender`.
/// ///
/// Instances are created by the [`split`](split) function. /// Instances are created by the [`split`](split) function.
pub struct Receiver<'ch, M, T, const N: usize> pub struct Receiver<'ch, M, T, const N: usize>
where where
M: Mutex<Data = ()>, M: MutexKind,
{
channel_cell: &'ch UnsafeCell<ChannelCell<M, T, N>>,
_receiver_consumed: &'ch mut PhantomData<()>,
}
// Safe to pass the receiver around
unsafe impl<'ch, M, T, const N: usize> Send for Receiver<'ch, M, T, N> where
M: Mutex<Data = ()> + Sync
{
}
unsafe impl<'ch, M, T, const N: usize> Sync for Receiver<'ch, M, T, N> where
M: Mutex<Data = ()> + Sync
{ {
channel: &'ch Channel<M, T, N>,
} }
/// Splits a bounded mpsc channel into a `Sender` and `Receiver`. /// Splits a bounded mpsc channel into a `Sender` and `Receiver`.
@ -117,16 +99,11 @@ pub fn split<M, T, const N: usize>(
channel: &mut Channel<M, T, N>, channel: &mut Channel<M, T, N>,
) -> (Sender<M, T, N>, Receiver<M, T, N>) ) -> (Sender<M, T, N>, Receiver<M, T, N>)
where where
M: Mutex<Data = ()>, M: MutexKind,
{ {
let sender = Sender { let sender = Sender { channel };
channel_cell: &channel.channel_cell, let receiver = Receiver { channel };
}; channel.lock(|c| {
let receiver = Receiver {
channel_cell: &channel.channel_cell,
_receiver_consumed: &mut channel.receiver_consumed,
};
Channel::lock(&channel.channel_cell, |c| {
c.register_receiver(); c.register_receiver();
c.register_sender(); c.register_sender();
}); });
@ -135,7 +112,7 @@ where
impl<'ch, M, T, const N: usize> Receiver<'ch, M, T, N> impl<'ch, M, T, const N: usize> Receiver<'ch, M, T, N>
where where
M: Mutex<Data = ()>, M: MutexKind,
{ {
/// Receives the next value for this receiver. /// Receives the next value for this receiver.
/// ///
@ -155,7 +132,7 @@ where
/// [`close`]: Self::close /// [`close`]: Self::close
pub fn recv<'m>(&'m mut self) -> RecvFuture<'m, M, T, N> { pub fn recv<'m>(&'m mut self) -> RecvFuture<'m, M, T, N> {
RecvFuture { RecvFuture {
channel_cell: self.channel_cell, channel: self.channel,
} }
} }
@ -164,7 +141,7 @@ where
/// This method will either receive a message from the channel immediately or return an error /// This method will either receive a message from the channel immediately or return an error
/// if the channel is empty. /// if the channel is empty.
pub fn try_recv(&self) -> Result<T, TryRecvError> { pub fn try_recv(&self) -> Result<T, TryRecvError> {
Channel::lock(self.channel_cell, |c| c.try_recv()) self.channel.lock(|c| c.try_recv())
} }
/// Closes the receiving half of a channel without dropping it. /// Closes the receiving half of a channel without dropping it.
@ -178,56 +155,45 @@ where
/// until those are released. /// until those are released.
/// ///
pub fn close(&mut self) { pub fn close(&mut self) {
Channel::lock(self.channel_cell, |c| c.close()) self.channel.lock(|c| c.close())
} }
} }
impl<'ch, M, T, const N: usize> Drop for Receiver<'ch, M, T, N> impl<'ch, M, T, const N: usize> Drop for Receiver<'ch, M, T, N>
where where
M: Mutex<Data = ()>, M: MutexKind,
{ {
fn drop(&mut self) { fn drop(&mut self) {
Channel::lock(self.channel_cell, |c| c.deregister_receiver()) self.channel.lock(|c| c.deregister_receiver())
} }
} }
pub struct RecvFuture<'ch, M, T, const N: usize> pub struct RecvFuture<'ch, M, T, const N: usize>
where where
M: Mutex<Data = ()>, M: MutexKind,
{ {
channel_cell: &'ch UnsafeCell<ChannelCell<M, T, N>>, channel: &'ch Channel<M, T, N>,
} }
impl<'ch, M, T, const N: usize> Future for RecvFuture<'ch, M, T, N> impl<'ch, M, T, const N: usize> Future for RecvFuture<'ch, M, T, N>
where where
M: Mutex<Data = ()>, M: MutexKind,
{ {
type Output = Option<T>; type Output = Option<T>;
fn poll(self: Pin<&mut Self>, cx: &mut Context<'_>) -> Poll<Option<T>> { fn poll(self: Pin<&mut Self>, cx: &mut Context<'_>) -> Poll<Option<T>> {
Channel::lock(self.channel_cell, |c| { self.channel
match c.try_recv_with_context(Some(cx)) { .lock(|c| match c.try_recv_with_context(Some(cx)) {
Ok(v) => Poll::Ready(Some(v)), Ok(v) => Poll::Ready(Some(v)),
Err(TryRecvError::Closed) => Poll::Ready(None), Err(TryRecvError::Closed) => Poll::Ready(None),
Err(TryRecvError::Empty) => Poll::Pending, Err(TryRecvError::Empty) => Poll::Pending,
} })
})
} }
} }
// Safe to pass the receive future around since it locks channel whenever polled
unsafe impl<'ch, M, T, const N: usize> Send for RecvFuture<'ch, M, T, N> where
M: Mutex<Data = ()> + Sync
{
}
unsafe impl<'ch, M, T, const N: usize> Sync for RecvFuture<'ch, M, T, N> where
M: Mutex<Data = ()> + Sync
{
}
impl<'ch, M, T, const N: usize> Sender<'ch, M, T, N> impl<'ch, M, T, const N: usize> Sender<'ch, M, T, N>
where where
M: Mutex<Data = ()>, M: MutexKind,
{ {
/// Sends a value, waiting until there is capacity. /// Sends a value, waiting until there is capacity.
/// ///
@ -249,7 +215,7 @@ where
/// [`Receiver`]: Receiver /// [`Receiver`]: Receiver
pub fn send(&self, message: T) -> SendFuture<'ch, M, T, N> { pub fn send(&self, message: T) -> SendFuture<'ch, M, T, N> {
SendFuture { SendFuture {
sender: self.clone(), channel: self.channel,
message: Some(message), message: Some(message),
} }
} }
@ -275,7 +241,7 @@ where
/// [`channel`]: channel /// [`channel`]: channel
/// [`close`]: Receiver::close /// [`close`]: Receiver::close
pub fn try_send(&self, message: T) -> Result<(), TrySendError<T>> { pub fn try_send(&self, message: T) -> Result<(), TrySendError<T>> {
Channel::lock(self.channel_cell, |c| c.try_send(message)) self.channel.lock(|c| c.try_send(message))
} }
/// Completes when the receiver has dropped. /// Completes when the receiver has dropped.
@ -284,7 +250,7 @@ where
/// values is canceled and immediately stop doing work. /// values is canceled and immediately stop doing work.
pub async fn closed(&self) { pub async fn closed(&self) {
CloseFuture { CloseFuture {
sender: self.clone(), channel: self.channel,
} }
.await .await
} }
@ -296,29 +262,27 @@ where
/// [`Receiver`]: crate::sync::mpsc::Receiver /// [`Receiver`]: crate::sync::mpsc::Receiver
/// [`Receiver::close`]: crate::sync::mpsc::Receiver::close /// [`Receiver::close`]: crate::sync::mpsc::Receiver::close
pub fn is_closed(&self) -> bool { pub fn is_closed(&self) -> bool {
Channel::lock(self.channel_cell, |c| c.is_closed()) self.channel.lock(|c| c.is_closed())
} }
} }
pub struct SendFuture<'ch, M, T, const N: usize> pub struct SendFuture<'ch, M, T, const N: usize>
where where
M: Mutex<Data = ()>, M: MutexKind,
{ {
sender: Sender<'ch, M, T, N>, channel: &'ch Channel<M, T, N>,
message: Option<T>, message: Option<T>,
} }
impl<'ch, M, T, const N: usize> Future for SendFuture<'ch, M, T, N> impl<'ch, M, T, const N: usize> Future for SendFuture<'ch, M, T, N>
where where
M: Mutex<Data = ()>, M: MutexKind,
{ {
type Output = Result<(), SendError<T>>; type Output = Result<(), SendError<T>>;
fn poll(mut self: Pin<&mut Self>, cx: &mut Context<'_>) -> Poll<Self::Output> { fn poll(mut self: Pin<&mut Self>, cx: &mut Context<'_>) -> Poll<Self::Output> {
match self.message.take() { match self.message.take() {
Some(m) => match Channel::lock(self.sender.channel_cell, |c| { Some(m) => match self.channel.lock(|c| c.try_send_with_context(m, Some(cx))) {
c.try_send_with_context(m, Some(cx))
}) {
Ok(..) => Poll::Ready(Ok(())), Ok(..) => Poll::Ready(Ok(())),
Err(TrySendError::Closed(m)) => Poll::Ready(Err(SendError(m))), Err(TrySendError::Closed(m)) => Poll::Ready(Err(SendError(m))),
Err(TrySendError::Full(m)) => { Err(TrySendError::Full(m)) => {
@ -331,25 +295,23 @@ where
} }
} }
impl<'ch, M, T, const N: usize> Unpin for SendFuture<'ch, M, T, N> where M: Mutex<Data = ()> {} impl<'ch, M, T, const N: usize> Unpin for SendFuture<'ch, M, T, N> where M: MutexKind {}
struct CloseFuture<'ch, M, T, const N: usize> struct CloseFuture<'ch, M, T, const N: usize>
where where
M: Mutex<Data = ()>, M: MutexKind,
{ {
sender: Sender<'ch, M, T, N>, channel: &'ch Channel<M, T, N>,
} }
impl<'ch, M, T, const N: usize> Future for CloseFuture<'ch, M, T, N> impl<'ch, M, T, const N: usize> Future for CloseFuture<'ch, M, T, N>
where where
M: Mutex<Data = ()>, M: MutexKind,
{ {
type Output = (); type Output = ();
fn poll(self: Pin<&mut Self>, cx: &mut Context<'_>) -> Poll<Self::Output> { fn poll(self: Pin<&mut Self>, cx: &mut Context<'_>) -> Poll<Self::Output> {
if Channel::lock(self.sender.channel_cell, |c| { if self.channel.lock(|c| c.is_closed_with_context(Some(cx))) {
c.is_closed_with_context(Some(cx))
}) {
Poll::Ready(()) Poll::Ready(())
} else { } else {
Poll::Pending Poll::Pending
@ -359,22 +321,21 @@ where
impl<'ch, M, T, const N: usize> Drop for Sender<'ch, M, T, N> impl<'ch, M, T, const N: usize> Drop for Sender<'ch, M, T, N>
where where
M: Mutex<Data = ()>, M: MutexKind,
{ {
fn drop(&mut self) { fn drop(&mut self) {
Channel::lock(self.channel_cell, |c| c.deregister_sender()) self.channel.lock(|c| c.deregister_sender())
} }
} }
impl<'ch, M, T, const N: usize> Clone for Sender<'ch, M, T, N> impl<'ch, M, T, const N: usize> Clone for Sender<'ch, M, T, N>
where where
M: Mutex<Data = ()>, M: MutexKind,
{ {
#[allow(clippy::clone_double_ref)]
fn clone(&self) -> Self { fn clone(&self) -> Self {
Channel::lock(self.channel_cell, |c| c.register_sender()); self.channel.lock(|c| c.register_sender());
Sender { Sender {
channel_cell: self.channel_cell.clone(), channel: self.channel,
} }
} }
} }
@ -446,10 +407,7 @@ impl<T> defmt::Format for TrySendError<T> {
} }
struct ChannelState<T, const N: usize> { struct ChannelState<T, const N: usize> {
buf: [MaybeUninit<UnsafeCell<T>>; N], queue: Deque<T, N>,
read_pos: usize,
write_pos: usize,
full: bool,
closed: bool, closed: bool,
receiver_registered: bool, receiver_registered: bool,
senders_registered: u32, senders_registered: u32,
@ -458,14 +416,9 @@ struct ChannelState<T, const N: usize> {
} }
impl<T, const N: usize> ChannelState<T, N> { impl<T, const N: usize> ChannelState<T, N> {
const INIT: MaybeUninit<UnsafeCell<T>> = MaybeUninit::uninit();
const fn new() -> Self { const fn new() -> Self {
ChannelState { ChannelState {
buf: [Self::INIT; N], queue: Deque::new(),
read_pos: 0,
write_pos: 0,
full: false,
closed: false, closed: false,
receiver_registered: false, receiver_registered: false,
senders_registered: 0, senders_registered: 0,
@ -479,17 +432,16 @@ impl<T, const N: usize> ChannelState<T, N> {
} }
fn try_recv_with_context(&mut self, cx: Option<&mut Context<'_>>) -> Result<T, TryRecvError> { fn try_recv_with_context(&mut self, cx: Option<&mut Context<'_>>) -> Result<T, TryRecvError> {
if self.read_pos != self.write_pos || self.full { if self.queue.is_full() {
if self.full { self.senders_waker.wake();
self.full = false; }
self.senders_waker.wake();
} if let Some(message) = self.queue.pop_front() {
let message = unsafe { (self.buf[self.read_pos]).assume_init_mut().get().read() };
self.read_pos = (self.read_pos + 1) % self.buf.len();
Ok(message) Ok(message)
} else if !self.closed { } else if !self.closed {
cx.into_iter() if let Some(cx) = cx {
.for_each(|cx| self.set_receiver_waker(&cx.waker())); self.set_receiver_waker(cx.waker());
}
Err(TryRecvError::Empty) Err(TryRecvError::Empty)
} else { } else {
Err(TryRecvError::Closed) Err(TryRecvError::Closed)
@ -505,22 +457,21 @@ impl<T, const N: usize> ChannelState<T, N> {
message: T, message: T,
cx: Option<&mut Context<'_>>, cx: Option<&mut Context<'_>>,
) -> Result<(), TrySendError<T>> { ) -> Result<(), TrySendError<T>> {
if !self.closed { if self.closed {
if !self.full { return Err(TrySendError::Closed(message));
self.buf[self.write_pos] = MaybeUninit::new(message.into()); }
self.write_pos = (self.write_pos + 1) % self.buf.len();
if self.write_pos == self.read_pos { match self.queue.push_back(message) {
self.full = true; Ok(()) => {
}
self.receiver_waker.wake(); self.receiver_waker.wake();
Ok(()) Ok(())
} else { }
Err(message) => {
cx.into_iter() cx.into_iter()
.for_each(|cx| self.set_senders_waker(&cx.waker())); .for_each(|cx| self.set_senders_waker(&cx.waker()));
Err(TrySendError::Full(message)) Err(TrySendError::Full(message))
} }
} else {
Err(TrySendError::Closed(message))
} }
} }
@ -585,16 +536,6 @@ impl<T, const N: usize> ChannelState<T, N> {
} }
} }
impl<T, const N: usize> Drop for ChannelState<T, N> {
fn drop(&mut self) {
while self.read_pos != self.write_pos || self.full {
self.full = false;
unsafe { ptr::drop_in_place(self.buf[self.read_pos].as_mut_ptr()) };
self.read_pos = (self.read_pos + 1) % N;
}
}
}
/// A a bounded mpsc channel for communicating between asynchronous tasks /// A a bounded mpsc channel for communicating between asynchronous tasks
/// with backpressure. /// with backpressure.
/// ///
@ -605,61 +546,35 @@ impl<T, const N: usize> Drop for ChannelState<T, N> {
/// All data sent will become available in the same order as it was sent. /// All data sent will become available in the same order as it was sent.
pub struct Channel<M, T, const N: usize> pub struct Channel<M, T, const N: usize>
where where
M: Mutex<Data = ()>, M: MutexKind,
{ {
channel_cell: UnsafeCell<ChannelCell<M, T, N>>, inner: M::Mutex<RefCell<ChannelState<T, N>>>,
receiver_consumed: PhantomData<()>,
} }
struct ChannelCell<M, T, const N: usize>
where
M: Mutex<Data = ()>,
{
mutex: M,
state: ChannelState<T, N>,
}
pub type WithCriticalSections = CriticalSectionMutex<()>;
pub type WithThreadModeOnly = ThreadModeMutex<()>;
pub type WithNoThreads = NoopMutex<()>;
impl<M, T, const N: usize> Channel<M, T, N> impl<M, T, const N: usize> Channel<M, T, N>
where where
M: Mutex<Data = ()>, M: MutexKind,
{ {
/// Establish a new bounded channel. For example, to create one with a NoopMutex: /// Establish a new bounded channel. For example, to create one with a NoopMutex:
/// ///
/// ``` /// ```
/// use embassy::channel::mpsc; /// use embassy::channel::mpsc;
/// use embassy::channel::mpsc::{Channel, WithNoThreads}; /// use embassy::blocking_mutex::kind::Noop;
/// use embassy::channel::mpsc::Channel;
/// ///
/// // Declare a bounded channel of 3 u32s. /// // Declare a bounded channel of 3 u32s.
/// let mut channel = Channel::<WithNoThreads, u32, 3>::new(); /// let mut channel = Channel::<Noop, u32, 3>::new();
/// // once we have a channel, obtain its sender and receiver /// // once we have a channel, obtain its sender and receiver
/// let (sender, receiver) = mpsc::split(&mut channel); /// let (sender, receiver) = mpsc::split(&mut channel);
/// ``` /// ```
pub fn new() -> Self { pub fn new() -> Self {
let mutex = M::new(()); Self {
let state = ChannelState::new(); inner: M::Mutex::new(RefCell::new(ChannelState::new())),
let channel_cell = ChannelCell { mutex, state };
Channel {
channel_cell: UnsafeCell::new(channel_cell),
receiver_consumed: PhantomData,
} }
} }
fn lock<R>( fn lock<R>(&self, f: impl FnOnce(&mut ChannelState<T, N>) -> R) -> R {
channel_cell: &UnsafeCell<ChannelCell<M, T, N>>, self.inner.lock(|rc| f(&mut *rc.borrow_mut()))
f: impl FnOnce(&mut ChannelState<T, N>) -> R,
) -> R {
unsafe {
let channel_cell = &mut *(channel_cell.get());
let mutex = &mut channel_cell.mutex;
let mut state = &mut channel_cell.state;
mutex.lock(|_| f(&mut state))
}
} }
} }
@ -671,20 +586,13 @@ mod tests {
use futures_executor::ThreadPool; use futures_executor::ThreadPool;
use futures_timer::Delay; use futures_timer::Delay;
use crate::blocking_mutex::kind::{CriticalSection, Noop};
use crate::util::Forever; use crate::util::Forever;
use super::*; use super::*;
fn capacity<T, const N: usize>(c: &ChannelState<T, N>) -> usize { fn capacity<T, const N: usize>(c: &ChannelState<T, N>) -> usize {
if !c.full { c.queue.capacity() - c.queue.len()
if c.write_pos > c.read_pos {
(c.buf.len() - c.write_pos) + c.read_pos
} else {
(c.buf.len() - c.read_pos) + c.write_pos
}
} else {
0
}
} }
#[test] #[test]
@ -747,7 +655,7 @@ mod tests {
#[test] #[test]
fn simple_send_and_receive() { fn simple_send_and_receive() {
let mut c = Channel::<WithNoThreads, u32, 3>::new(); let mut c = Channel::<Noop, u32, 3>::new();
let (s, r) = split(&mut c); let (s, r) = split(&mut c);
assert!(s.clone().try_send(1).is_ok()); assert!(s.clone().try_send(1).is_ok());
assert_eq!(r.try_recv().unwrap(), 1); assert_eq!(r.try_recv().unwrap(), 1);
@ -755,7 +663,7 @@ mod tests {
#[test] #[test]
fn should_close_without_sender() { fn should_close_without_sender() {
let mut c = Channel::<WithNoThreads, u32, 3>::new(); let mut c = Channel::<Noop, u32, 3>::new();
let (s, r) = split(&mut c); let (s, r) = split(&mut c);
drop(s); drop(s);
match r.try_recv() { match r.try_recv() {
@ -766,7 +674,7 @@ mod tests {
#[test] #[test]
fn should_close_once_drained() { fn should_close_once_drained() {
let mut c = Channel::<WithNoThreads, u32, 3>::new(); let mut c = Channel::<Noop, u32, 3>::new();
let (s, r) = split(&mut c); let (s, r) = split(&mut c);
assert!(s.try_send(1).is_ok()); assert!(s.try_send(1).is_ok());
drop(s); drop(s);
@ -779,7 +687,7 @@ mod tests {
#[test] #[test]
fn should_reject_send_when_receiver_dropped() { fn should_reject_send_when_receiver_dropped() {
let mut c = Channel::<WithNoThreads, u32, 3>::new(); let mut c = Channel::<Noop, u32, 3>::new();
let (s, r) = split(&mut c); let (s, r) = split(&mut c);
drop(r); drop(r);
match s.try_send(1) { match s.try_send(1) {
@ -790,7 +698,7 @@ mod tests {
#[test] #[test]
fn should_reject_send_when_channel_closed() { fn should_reject_send_when_channel_closed() {
let mut c = Channel::<WithNoThreads, u32, 3>::new(); let mut c = Channel::<Noop, u32, 3>::new();
let (s, mut r) = split(&mut c); let (s, mut r) = split(&mut c);
assert!(s.try_send(1).is_ok()); assert!(s.try_send(1).is_ok());
r.close(); r.close();
@ -806,7 +714,7 @@ mod tests {
async fn receiver_closes_when_sender_dropped_async() { async fn receiver_closes_when_sender_dropped_async() {
let executor = ThreadPool::new().unwrap(); let executor = ThreadPool::new().unwrap();
static CHANNEL: Forever<Channel<WithCriticalSections, u32, 3>> = Forever::new(); static CHANNEL: Forever<Channel<CriticalSection, u32, 3>> = Forever::new();
let c = CHANNEL.put(Channel::new()); let c = CHANNEL.put(Channel::new());
let (s, mut r) = split(c); let (s, mut r) = split(c);
assert!(executor assert!(executor
@ -821,7 +729,7 @@ mod tests {
async fn receiver_receives_given_try_send_async() { async fn receiver_receives_given_try_send_async() {
let executor = ThreadPool::new().unwrap(); let executor = ThreadPool::new().unwrap();
static CHANNEL: Forever<Channel<WithCriticalSections, u32, 3>> = Forever::new(); static CHANNEL: Forever<Channel<CriticalSection, u32, 3>> = Forever::new();
let c = CHANNEL.put(Channel::new()); let c = CHANNEL.put(Channel::new());
let (s, mut r) = split(c); let (s, mut r) = split(c);
assert!(executor assert!(executor
@ -834,7 +742,7 @@ mod tests {
#[futures_test::test] #[futures_test::test]
async fn sender_send_completes_if_capacity() { async fn sender_send_completes_if_capacity() {
let mut c = Channel::<WithCriticalSections, u32, 1>::new(); let mut c = Channel::<CriticalSection, u32, 1>::new();
let (s, mut r) = split(&mut c); let (s, mut r) = split(&mut c);
assert!(s.send(1).await.is_ok()); assert!(s.send(1).await.is_ok());
assert_eq!(r.recv().await, Some(1)); assert_eq!(r.recv().await, Some(1));
@ -842,7 +750,7 @@ mod tests {
#[futures_test::test] #[futures_test::test]
async fn sender_send_completes_if_closed() { async fn sender_send_completes_if_closed() {
static CHANNEL: Forever<Channel<WithCriticalSections, u32, 1>> = Forever::new(); static CHANNEL: Forever<Channel<CriticalSection, u32, 1>> = Forever::new();
let c = CHANNEL.put(Channel::new()); let c = CHANNEL.put(Channel::new());
let (s, r) = split(c); let (s, r) = split(c);
drop(r); drop(r);
@ -856,7 +764,7 @@ mod tests {
async fn senders_sends_wait_until_capacity() { async fn senders_sends_wait_until_capacity() {
let executor = ThreadPool::new().unwrap(); let executor = ThreadPool::new().unwrap();
static CHANNEL: Forever<Channel<WithCriticalSections, u32, 1>> = Forever::new(); static CHANNEL: Forever<Channel<CriticalSection, u32, 1>> = Forever::new();
let c = CHANNEL.put(Channel::new()); let c = CHANNEL.put(Channel::new());
let (s0, mut r) = split(c); let (s0, mut r) = split(c);
assert!(s0.try_send(1).is_ok()); assert!(s0.try_send(1).is_ok());
@ -876,7 +784,7 @@ mod tests {
#[futures_test::test] #[futures_test::test]
async fn sender_close_completes_if_closing() { async fn sender_close_completes_if_closing() {
static CHANNEL: Forever<Channel<WithCriticalSections, u32, 1>> = Forever::new(); static CHANNEL: Forever<Channel<CriticalSection, u32, 1>> = Forever::new();
let c = CHANNEL.put(Channel::new()); let c = CHANNEL.put(Channel::new());
let (s, mut r) = split(c); let (s, mut r) = split(c);
r.close(); r.close();
@ -885,7 +793,7 @@ mod tests {
#[futures_test::test] #[futures_test::test]
async fn sender_close_completes_if_closed() { async fn sender_close_completes_if_closed() {
static CHANNEL: Forever<Channel<WithCriticalSections, u32, 1>> = Forever::new(); static CHANNEL: Forever<Channel<CriticalSection, u32, 1>> = Forever::new();
let c = CHANNEL.put(Channel::new()); let c = CHANNEL.put(Channel::new());
let (s, r) = split(c); let (s, r) = split(c);
drop(r); drop(r);

7
examples/nrf/src/bin/mpsc.rs
View File

@ -6,7 +6,8 @@
mod example_common; mod example_common;
use defmt::unwrap; use defmt::unwrap;
use embassy::channel::mpsc::{self, Channel, Sender, TryRecvError, WithNoThreads}; use embassy::blocking_mutex::kind::Noop;
use embassy::channel::mpsc::{self, Channel, Sender, TryRecvError};
use embassy::executor::Spawner; use embassy::executor::Spawner;
use embassy::time::{Duration, Timer}; use embassy::time::{Duration, Timer};
use embassy::util::Forever; use embassy::util::Forever;
@ -19,10 +20,10 @@ enum LedState {
Off, Off,
} }
static CHANNEL: Forever<Channel<WithNoThreads, LedState, 1>> = Forever::new(); static CHANNEL: Forever<Channel<Noop, LedState, 1>> = Forever::new();
#[embassy::task(pool_size = 1)] #[embassy::task(pool_size = 1)]
async fn my_task(sender: Sender<'static, WithNoThreads, LedState, 1>) { async fn my_task(sender: Sender<'static, Noop, LedState, 1>) {
loop { loop {
let _ = sender.send(LedState::On).await; let _ = sender.send(LedState::On).await;
Timer::after(Duration::from_secs(1)).await; Timer::after(Duration::from_secs(1)).await;