Refactor bxcan split.
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766ec77ec5
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06a83c0f89
@ -1,4 +1,3 @@
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use core::cell::{RefCell, RefMut};
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use core::future::poll_fn;
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use core::marker::PhantomData;
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use core::ops::{Deref, DerefMut};
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@ -84,7 +83,7 @@ impl<T: Instance> interrupt::typelevel::Handler<T::SCEInterrupt> for SceInterrup
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}
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pub struct Can<'d, T: Instance> {
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pub can: RefCell<bxcan::Can<BxcanInstance<'d, T>>>,
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pub can: bxcan::Can<BxcanInstance<'d, T>>,
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}
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#[derive(Debug)]
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@ -175,14 +174,12 @@ impl<'d, T: Instance> Can<'d, T> {
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tx.set_as_af(tx.af_num(), AFType::OutputPushPull);
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let can = bxcan::Can::builder(BxcanInstance(peri)).leave_disabled();
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let can_ref_cell = RefCell::new(can);
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Self { can: can_ref_cell }
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Self { can }
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}
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pub fn set_bitrate(&mut self, bitrate: u32) {
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let bit_timing = Self::calc_bxcan_timings(T::frequency(), bitrate).unwrap();
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self.can
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.borrow_mut()
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.modify_config()
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.set_bit_timing(bit_timing)
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.leave_disabled();
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@ -193,55 +190,56 @@ impl<'d, T: Instance> Can<'d, T> {
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/// This will wait for 11 consecutive recessive bits (bus idle state).
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/// Contrary to enable method from bxcan library, this will not freeze the executor while waiting.
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pub async fn enable(&mut self) {
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while self.borrow_mut().enable_non_blocking().is_err() {
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while self.enable_non_blocking().is_err() {
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// SCE interrupt is only generated for entering sleep mode, but not leaving.
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// Yield to allow other tasks to execute while can bus is initializing.
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embassy_futures::yield_now().await;
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}
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}
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/// Queues the message to be sent but exerts backpressure
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pub async fn write(&mut self, frame: &Frame) -> bxcan::TransmitStatus {
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CanTx { can: &self.can }.write(frame).await
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self.split().0.write(frame).await
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}
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/// Attempts to transmit a frame without blocking.
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///
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/// Returns [Err(TryWriteError::Full)] if all transmit mailboxes are full.
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pub fn try_write(&mut self, frame: &Frame) -> Result<bxcan::TransmitStatus, TryWriteError> {
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CanTx { can: &self.can }.try_write(frame)
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self.split().0.try_write(frame)
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}
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/// Waits for a specific transmit mailbox to become empty
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pub async fn flush(&self, mb: bxcan::Mailbox) {
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CanTx { can: &self.can }.flush(mb).await
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CanTx::<T>::_flush(mb).await
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}
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/// Waits until any of the transmit mailboxes become empty
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pub async fn flush_any(&self) {
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CanTx { can: &self.can }.flush_any().await
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CanTx::<T>::_flush_any().await
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}
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/// Waits until all of the transmit mailboxes become empty
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pub async fn flush_all(&self) {
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CanTx { can: &self.can }.flush_all().await
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CanTx::<T>::_flush_all().await
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}
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/// Returns a tuple of the time the message was received and the message frame
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pub async fn read(&mut self) -> Result<Envelope, BusError> {
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CanRx { can: &self.can }.read().await
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self.split().1.read().await
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}
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/// Attempts to read a can frame without blocking.
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///
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/// Returns [Err(TryReadError::Empty)] if there are no frames in the rx queue.
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pub fn try_read(&mut self) -> Result<Envelope, TryReadError> {
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CanRx { can: &self.can }.try_read()
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self.split().1.try_read()
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}
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/// Waits while receive queue is empty.
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pub async fn wait_not_empty(&mut self) {
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CanRx { can: &self.can }.wait_not_empty().await
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self.split().1.wait_not_empty().await
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}
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unsafe fn receive_fifo(fifo: RxFifo) {
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@ -385,24 +383,25 @@ impl<'d, T: Instance> Can<'d, T> {
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Some((sjw - 1) << 24 | (bs1 as u32 - 1) << 16 | (bs2 as u32 - 1) << 20 | (prescaler - 1))
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}
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pub fn split<'c>(&'c self) -> (CanTx<'c, 'd, T>, CanRx<'c, 'd, T>) {
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(CanTx { can: &self.can }, CanRx { can: &self.can })
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pub fn split<'c>(&'c mut self) -> (CanTx<'c, 'd, T>, CanRx<'c, 'd, T>) {
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let (tx, rx0, rx1) = self.can.split_by_ref();
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(CanTx { tx }, CanRx { rx0, rx1 })
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}
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pub fn as_mut(&self) -> RefMut<'_, bxcan::Can<BxcanInstance<'d, T>>> {
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self.can.borrow_mut()
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pub fn as_mut(&mut self) -> &mut bxcan::Can<BxcanInstance<'d, T>> {
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&mut self.can
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}
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}
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pub struct CanTx<'c, 'd, T: Instance> {
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can: &'c RefCell<bxcan::Can<BxcanInstance<'d, T>>>,
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tx: &'c mut bxcan::Tx<BxcanInstance<'d, T>>,
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}
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impl<'c, 'd, T: Instance> CanTx<'c, 'd, T> {
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pub async fn write(&mut self, frame: &Frame) -> bxcan::TransmitStatus {
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poll_fn(|cx| {
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T::state().tx_waker.register(cx.waker());
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if let Ok(status) = self.can.borrow_mut().transmit(frame) {
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if let Ok(status) = self.tx.transmit(frame) {
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return Poll::Ready(status);
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}
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@ -415,11 +414,10 @@ impl<'c, 'd, T: Instance> CanTx<'c, 'd, T> {
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///
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/// Returns [Err(TryWriteError::Full)] if all transmit mailboxes are full.
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pub fn try_write(&mut self, frame: &Frame) -> Result<bxcan::TransmitStatus, TryWriteError> {
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self.can.borrow_mut().transmit(frame).map_err(|_| TryWriteError::Full)
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self.tx.transmit(frame).map_err(|_| TryWriteError::Full)
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}
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/// Waits for a specific transmit mailbox to become empty
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pub async fn flush(&self, mb: bxcan::Mailbox) {
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pub async fn _flush(mb: bxcan::Mailbox) {
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poll_fn(|cx| {
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T::state().tx_waker.register(cx.waker());
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if T::regs().tsr().read().tme(mb.index()) {
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@ -431,8 +429,13 @@ impl<'c, 'd, T: Instance> CanTx<'c, 'd, T> {
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.await;
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}
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/// Waits for a specific transmit mailbox to become empty
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pub async fn flush(&self, mb: bxcan::Mailbox) {
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Self::_flush(mb).await
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}
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/// Waits until any of the transmit mailboxes become empty
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pub async fn flush_any(&self) {
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pub async fn _flush_any() {
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poll_fn(|cx| {
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T::state().tx_waker.register(cx.waker());
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@ -449,8 +452,13 @@ impl<'c, 'd, T: Instance> CanTx<'c, 'd, T> {
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.await;
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}
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/// Waits until any of the transmit mailboxes become empty
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pub async fn flush_any(&self) {
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Self::_flush_any().await
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}
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/// Waits until all of the transmit mailboxes become empty
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pub async fn flush_all(&self) {
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pub async fn _flush_all() {
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poll_fn(|cx| {
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T::state().tx_waker.register(cx.waker());
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@ -466,11 +474,19 @@ impl<'c, 'd, T: Instance> CanTx<'c, 'd, T> {
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})
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.await;
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}
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/// Waits until all of the transmit mailboxes become empty
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pub async fn flush_all(&self) {
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Self::_flush_all().await
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}
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}
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#[allow(dead_code)]
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pub struct CanRx<'c, 'd, T: Instance> {
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can: &'c RefCell<bxcan::Can<BxcanInstance<'d, T>>>,
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rx0: &'c mut bxcan::Rx0<BxcanInstance<'d, T>>,
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rx1: &'c mut bxcan::Rx1<BxcanInstance<'d, T>>,
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}
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impl<'c, 'd, T: Instance> CanRx<'c, 'd, T> {
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@ -538,7 +554,7 @@ impl<'d, T: Instance> Drop for Can<'d, T> {
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}
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impl<'d, T: Instance> Deref for Can<'d, T> {
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type Target = RefCell<bxcan::Can<BxcanInstance<'d, T>>>;
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type Target = bxcan::Can<BxcanInstance<'d, T>>;
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fn deref(&self) -> &Self::Target {
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&self.can
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