552 lines
15 KiB
Rust
552 lines
15 KiB
Rust
//! Async byte stream pipe.
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use core::cell::RefCell;
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use core::future::Future;
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use core::pin::Pin;
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use core::task::{Context, Poll};
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use crate::blocking_mutex::raw::RawMutex;
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use crate::blocking_mutex::Mutex;
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use crate::ring_buffer::RingBuffer;
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use crate::waitqueue::WakerRegistration;
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/// Write-only access to a [`Pipe`].
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#[derive(Copy)]
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pub struct Writer<'p, M, const N: usize>
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where
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M: RawMutex,
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{
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pipe: &'p Pipe<M, N>,
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}
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impl<'p, M, const N: usize> Clone for Writer<'p, M, N>
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where
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M: RawMutex,
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{
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fn clone(&self) -> Self {
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Writer { pipe: self.pipe }
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}
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}
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impl<'p, M, const N: usize> Writer<'p, M, N>
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where
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M: RawMutex,
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{
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/// Writes a value.
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///
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/// See [`Pipe::write()`]
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pub fn write<'a>(&'a self, buf: &'a [u8]) -> WriteFuture<'a, M, N> {
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self.pipe.write(buf)
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}
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/// Attempt to immediately write a message.
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///
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/// See [`Pipe::write()`]
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pub fn try_write(&self, buf: &[u8]) -> Result<usize, TryWriteError> {
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self.pipe.try_write(buf)
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}
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}
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/// Future returned by [`Pipe::write`] and [`Writer::write`].
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pub struct WriteFuture<'p, M, const N: usize>
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where
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M: RawMutex,
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{
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pipe: &'p Pipe<M, N>,
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buf: &'p [u8],
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}
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impl<'p, M, const N: usize> Future for WriteFuture<'p, M, N>
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where
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M: RawMutex,
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{
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type Output = usize;
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fn poll(self: Pin<&mut Self>, cx: &mut Context<'_>) -> Poll<Self::Output> {
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match self.pipe.try_write_with_context(Some(cx), self.buf) {
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Ok(n) => Poll::Ready(n),
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Err(TryWriteError::Full) => Poll::Pending,
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}
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}
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}
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impl<'p, M, const N: usize> Unpin for WriteFuture<'p, M, N> where M: RawMutex {}
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/// Read-only access to a [`Pipe`].
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#[derive(Copy)]
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pub struct Reader<'p, M, const N: usize>
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where
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M: RawMutex,
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{
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pipe: &'p Pipe<M, N>,
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}
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impl<'p, M, const N: usize> Clone for Reader<'p, M, N>
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where
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M: RawMutex,
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{
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fn clone(&self) -> Self {
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Reader { pipe: self.pipe }
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}
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}
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impl<'p, M, const N: usize> Reader<'p, M, N>
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where
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M: RawMutex,
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{
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/// Reads a value.
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///
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/// See [`Pipe::read()`]
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pub fn read<'a>(&'a self, buf: &'a mut [u8]) -> ReadFuture<'a, M, N> {
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self.pipe.read(buf)
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}
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/// Attempt to immediately read a message.
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///
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/// See [`Pipe::read()`]
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pub fn try_read(&self, buf: &mut [u8]) -> Result<usize, TryReadError> {
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self.pipe.try_read(buf)
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}
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}
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/// Future returned by [`Pipe::read`] and [`Reader::read`].
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pub struct ReadFuture<'p, M, const N: usize>
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where
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M: RawMutex,
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{
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pipe: &'p Pipe<M, N>,
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buf: &'p mut [u8],
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}
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impl<'p, M, const N: usize> Future for ReadFuture<'p, M, N>
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where
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M: RawMutex,
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{
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type Output = usize;
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fn poll(mut self: Pin<&mut Self>, cx: &mut Context<'_>) -> Poll<Self::Output> {
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match self.pipe.try_read_with_context(Some(cx), self.buf) {
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Ok(n) => Poll::Ready(n),
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Err(TryReadError::Empty) => Poll::Pending,
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}
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}
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}
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impl<'p, M, const N: usize> Unpin for ReadFuture<'p, M, N> where M: RawMutex {}
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/// Error returned by [`try_read`](Pipe::try_read).
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#[derive(PartialEq, Eq, Clone, Copy, Debug)]
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#[cfg_attr(feature = "defmt", derive(defmt::Format))]
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pub enum TryReadError {
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/// No data could be read from the pipe because it is currently
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/// empty, and reading would require blocking.
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Empty,
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}
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/// Error returned by [`try_write`](Pipe::try_write).
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#[derive(PartialEq, Eq, Clone, Copy, Debug)]
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#[cfg_attr(feature = "defmt", derive(defmt::Format))]
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pub enum TryWriteError {
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/// No data could be written to the pipe because it is
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/// currently full, and writing would require blocking.
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Full,
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}
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struct PipeState<const N: usize> {
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buffer: RingBuffer<N>,
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read_waker: WakerRegistration,
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write_waker: WakerRegistration,
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}
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impl<const N: usize> PipeState<N> {
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const fn new() -> Self {
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PipeState {
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buffer: RingBuffer::new(),
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read_waker: WakerRegistration::new(),
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write_waker: WakerRegistration::new(),
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}
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}
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fn clear(&mut self) {
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self.buffer.clear();
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self.write_waker.wake();
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}
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fn try_read(&mut self, buf: &mut [u8]) -> Result<usize, TryReadError> {
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self.try_read_with_context(None, buf)
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}
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fn try_read_with_context(&mut self, cx: Option<&mut Context<'_>>, buf: &mut [u8]) -> Result<usize, TryReadError> {
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if self.buffer.is_full() {
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self.write_waker.wake();
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}
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let available = self.buffer.pop_buf();
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if available.is_empty() {
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if let Some(cx) = cx {
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self.read_waker.register(cx.waker());
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}
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return Err(TryReadError::Empty);
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}
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let n = available.len().min(buf.len());
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buf[..n].copy_from_slice(&available[..n]);
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self.buffer.pop(n);
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Ok(n)
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}
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fn try_write(&mut self, buf: &[u8]) -> Result<usize, TryWriteError> {
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self.try_write_with_context(None, buf)
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}
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fn try_write_with_context(&mut self, cx: Option<&mut Context<'_>>, buf: &[u8]) -> Result<usize, TryWriteError> {
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if self.buffer.is_empty() {
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self.read_waker.wake();
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}
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let available = self.buffer.push_buf();
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if available.is_empty() {
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if let Some(cx) = cx {
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self.write_waker.register(cx.waker());
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}
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return Err(TryWriteError::Full);
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}
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let n = available.len().min(buf.len());
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available[..n].copy_from_slice(&buf[..n]);
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self.buffer.push(n);
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Ok(n)
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}
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}
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/// A bounded pipe for communicating between asynchronous tasks
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/// with backpressure.
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///
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/// The pipe will buffer up to the provided number of messages. Once the
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/// buffer is full, attempts to `write` new messages will wait until a message is
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/// read from the pipe.
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///
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/// All data written will become available in the same order as it was written.
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pub struct Pipe<M, const N: usize>
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where
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M: RawMutex,
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{
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inner: Mutex<M, RefCell<PipeState<N>>>,
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}
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impl<M, const N: usize> Pipe<M, N>
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where
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M: RawMutex,
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{
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/// Establish a new bounded pipe. For example, to create one with a NoopMutex:
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///
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/// ```
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/// use embassy_util::pipe::Pipe;
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/// use embassy_util::blocking_mutex::raw::NoopRawMutex;
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///
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/// // Declare a bounded pipe, with a buffer of 256 bytes.
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/// let mut pipe = Pipe::<NoopRawMutex, 256>::new();
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/// ```
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pub const fn new() -> Self {
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Self {
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inner: Mutex::new(RefCell::new(PipeState::new())),
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}
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}
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fn lock<R>(&self, f: impl FnOnce(&mut PipeState<N>) -> R) -> R {
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self.inner.lock(|rc| f(&mut *rc.borrow_mut()))
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}
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fn try_read_with_context(&self, cx: Option<&mut Context<'_>>, buf: &mut [u8]) -> Result<usize, TryReadError> {
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self.lock(|c| c.try_read_with_context(cx, buf))
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}
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fn try_write_with_context(&self, cx: Option<&mut Context<'_>>, buf: &[u8]) -> Result<usize, TryWriteError> {
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self.lock(|c| c.try_write_with_context(cx, buf))
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}
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/// Get a writer for this pipe.
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pub fn writer(&self) -> Writer<'_, M, N> {
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Writer { pipe: self }
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}
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/// Get a reader for this pipe.
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pub fn reader(&self) -> Reader<'_, M, N> {
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Reader { pipe: self }
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}
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/// Write a value, waiting until there is capacity.
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///
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/// Writeing completes when the value has been pushed to the pipe's queue.
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/// This doesn't mean the value has been read yet.
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pub fn write<'a>(&'a self, buf: &'a [u8]) -> WriteFuture<'a, M, N> {
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WriteFuture { pipe: self, buf }
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}
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/// Attempt to immediately write a message.
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///
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/// This method differs from [`write`](Pipe::write) by returning immediately if the pipe's
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/// buffer is full, instead of waiting.
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///
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/// # Errors
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///
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/// If the pipe capacity has been reached, i.e., the pipe has `n`
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/// buffered values where `n` is the argument passed to [`Pipe`], then an
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/// error is returned.
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pub fn try_write(&self, buf: &[u8]) -> Result<usize, TryWriteError> {
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self.lock(|c| c.try_write(buf))
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}
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/// Receive the next value.
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///
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/// If there are no messages in the pipe's buffer, this method will
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/// wait until a message is written.
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pub fn read<'a>(&'a self, buf: &'a mut [u8]) -> ReadFuture<'a, M, N> {
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ReadFuture { pipe: self, buf }
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}
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/// Attempt to immediately read a message.
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///
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/// This method will either read a message from the pipe immediately or return an error
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/// if the pipe is empty.
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pub fn try_read(&self, buf: &mut [u8]) -> Result<usize, TryReadError> {
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self.lock(|c| c.try_read(buf))
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}
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/// Clear the data in the pipe's buffer.
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pub fn clear(&self) {
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self.lock(|c| c.clear())
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}
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/// Return whether the pipe is full (no free space in the buffer)
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pub fn is_full(&self) -> bool {
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self.len() == N
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}
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/// Return whether the pipe is empty (no data buffered)
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pub fn is_empty(&self) -> bool {
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self.len() == 0
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}
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/// Total byte capacity.
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///
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/// This is the same as the `N` generic param.
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pub fn capacity(&self) -> usize {
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N
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}
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/// Used byte capacity.
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pub fn len(&self) -> usize {
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self.lock(|c| c.buffer.len())
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}
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/// Free byte capacity.
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///
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/// This is equivalent to `capacity() - len()`
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pub fn free_capacity(&self) -> usize {
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N - self.len()
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}
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}
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#[cfg(feature = "nightly")]
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mod io_impls {
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use core::convert::Infallible;
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use futures_util::FutureExt;
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use super::*;
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impl<M: RawMutex, const N: usize> embedded_io::Io for Pipe<M, N> {
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type Error = Infallible;
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}
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impl<M: RawMutex, const N: usize> embedded_io::asynch::Read for Pipe<M, N> {
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type ReadFuture<'a> = impl Future<Output = Result<usize, Self::Error>>
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where
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Self: 'a;
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fn read<'a>(&'a mut self, buf: &'a mut [u8]) -> Self::ReadFuture<'a> {
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Pipe::read(self, buf).map(Ok)
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}
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}
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impl<M: RawMutex, const N: usize> embedded_io::asynch::Write for Pipe<M, N> {
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type WriteFuture<'a> = impl Future<Output = Result<usize, Self::Error>>
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where
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Self: 'a;
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fn write<'a>(&'a mut self, buf: &'a [u8]) -> Self::WriteFuture<'a> {
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Pipe::write(self, buf).map(Ok)
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}
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type FlushFuture<'a> = impl Future<Output = Result<(), Self::Error>>
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where
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Self: 'a;
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fn flush<'a>(&'a mut self) -> Self::FlushFuture<'a> {
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futures_util::future::ready(Ok(()))
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}
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}
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impl<M: RawMutex, const N: usize> embedded_io::Io for &Pipe<M, N> {
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type Error = Infallible;
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}
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impl<M: RawMutex, const N: usize> embedded_io::asynch::Read for &Pipe<M, N> {
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type ReadFuture<'a> = impl Future<Output = Result<usize, Self::Error>>
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where
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Self: 'a;
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fn read<'a>(&'a mut self, buf: &'a mut [u8]) -> Self::ReadFuture<'a> {
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Pipe::read(self, buf).map(Ok)
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}
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}
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impl<M: RawMutex, const N: usize> embedded_io::asynch::Write for &Pipe<M, N> {
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type WriteFuture<'a> = impl Future<Output = Result<usize, Self::Error>>
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where
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Self: 'a;
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fn write<'a>(&'a mut self, buf: &'a [u8]) -> Self::WriteFuture<'a> {
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Pipe::write(self, buf).map(Ok)
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}
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type FlushFuture<'a> = impl Future<Output = Result<(), Self::Error>>
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where
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Self: 'a;
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fn flush<'a>(&'a mut self) -> Self::FlushFuture<'a> {
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futures_util::future::ready(Ok(()))
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}
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}
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impl<M: RawMutex, const N: usize> embedded_io::Io for Reader<'_, M, N> {
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type Error = Infallible;
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}
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impl<M: RawMutex, const N: usize> embedded_io::asynch::Read for Reader<'_, M, N> {
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type ReadFuture<'a> = impl Future<Output = Result<usize, Self::Error>>
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where
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Self: 'a;
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fn read<'a>(&'a mut self, buf: &'a mut [u8]) -> Self::ReadFuture<'a> {
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Reader::read(self, buf).map(Ok)
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}
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}
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impl<M: RawMutex, const N: usize> embedded_io::Io for Writer<'_, M, N> {
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type Error = Infallible;
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}
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impl<M: RawMutex, const N: usize> embedded_io::asynch::Write for Writer<'_, M, N> {
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type WriteFuture<'a> = impl Future<Output = Result<usize, Self::Error>>
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where
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Self: 'a;
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fn write<'a>(&'a mut self, buf: &'a [u8]) -> Self::WriteFuture<'a> {
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Writer::write(self, buf).map(Ok)
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}
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type FlushFuture<'a> = impl Future<Output = Result<(), Self::Error>>
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where
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Self: 'a;
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fn flush<'a>(&'a mut self) -> Self::FlushFuture<'a> {
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futures_util::future::ready(Ok(()))
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}
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}
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}
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#[cfg(test)]
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mod tests {
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use futures_executor::ThreadPool;
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use futures_util::task::SpawnExt;
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use static_cell::StaticCell;
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use super::*;
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use crate::blocking_mutex::raw::{CriticalSectionRawMutex, NoopRawMutex};
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fn capacity<const N: usize>(c: &PipeState<N>) -> usize {
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N - c.buffer.len()
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}
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#[test]
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fn writing_once() {
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let mut c = PipeState::<3>::new();
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assert!(c.try_write(&[1]).is_ok());
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assert_eq!(capacity(&c), 2);
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}
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#[test]
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fn writing_when_full() {
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let mut c = PipeState::<3>::new();
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assert_eq!(c.try_write(&[42]), Ok(1));
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assert_eq!(c.try_write(&[43]), Ok(1));
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assert_eq!(c.try_write(&[44]), Ok(1));
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assert_eq!(c.try_write(&[45]), Err(TryWriteError::Full));
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assert_eq!(capacity(&c), 0);
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}
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#[test]
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fn receiving_once_with_one_send() {
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let mut c = PipeState::<3>::new();
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assert!(c.try_write(&[42]).is_ok());
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let mut buf = [0; 16];
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assert_eq!(c.try_read(&mut buf), Ok(1));
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assert_eq!(buf[0], 42);
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assert_eq!(capacity(&c), 3);
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}
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#[test]
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fn receiving_when_empty() {
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let mut c = PipeState::<3>::new();
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let mut buf = [0; 16];
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assert_eq!(c.try_read(&mut buf), Err(TryReadError::Empty));
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assert_eq!(capacity(&c), 3);
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}
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#[test]
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fn simple_send_and_receive() {
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let c = Pipe::<NoopRawMutex, 3>::new();
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assert!(c.try_write(&[42]).is_ok());
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let mut buf = [0; 16];
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assert_eq!(c.try_read(&mut buf), Ok(1));
|
|
assert_eq!(buf[0], 42);
|
|
}
|
|
|
|
#[test]
|
|
fn cloning() {
|
|
let c = Pipe::<NoopRawMutex, 3>::new();
|
|
let r1 = c.reader();
|
|
let w1 = c.writer();
|
|
|
|
let _ = r1.clone();
|
|
let _ = w1.clone();
|
|
}
|
|
|
|
#[futures_test::test]
|
|
async fn receiver_receives_given_try_write_async() {
|
|
let executor = ThreadPool::new().unwrap();
|
|
|
|
static CHANNEL: StaticCell<Pipe<CriticalSectionRawMutex, 3>> = StaticCell::new();
|
|
let c = &*CHANNEL.init(Pipe::new());
|
|
let c2 = c;
|
|
let f = async move {
|
|
assert_eq!(c2.try_write(&[42]), Ok(1));
|
|
};
|
|
executor.spawn(f).unwrap();
|
|
let mut buf = [0; 16];
|
|
assert_eq!(c.read(&mut buf).await, 1);
|
|
assert_eq!(buf[0], 42);
|
|
}
|
|
|
|
#[futures_test::test]
|
|
async fn sender_send_completes_if_capacity() {
|
|
let c = Pipe::<CriticalSectionRawMutex, 1>::new();
|
|
c.write(&[42]).await;
|
|
let mut buf = [0; 16];
|
|
assert_eq!(c.read(&mut buf).await, 1);
|
|
assert_eq!(buf[0], 42);
|
|
}
|
|
}
|