mirror of
https://github.com/embassy-rs/embassy.git
synced 2024-11-25 08:12:30 +00:00
embassy-rp: async i2c implementation
This is an interrupt-driven async i2c master implementation. It makes as best use of the RP2040's i2c block's fifos as possible to minimize interrupts. It implements embedded_hal_async::i2c for easy interop. WIP async impl
This commit is contained in:
parent
72b645b0c9
commit
5e2c52ee5b
@ -1,6 +1,10 @@
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use core::future;
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use core::marker::PhantomData;
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use core::task::Poll;
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use embassy_cortex_m::interrupt::InterruptExt;
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use embassy_hal_common::{into_ref, PeripheralRef};
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use embassy_sync::waitqueue::AtomicWaker;
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use pac::i2c;
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use crate::gpio::sealed::Pin;
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@ -79,7 +83,7 @@ impl<'d, T: Instance> I2c<'d, T, Blocking> {
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// NOTE(unsafe) We have &mut self
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unsafe {
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// wait until there is space in the FIFO to write the next byte
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while p.ic_txflr().read().txflr() == FIFO_SIZE {}
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while Self::tx_fifo_full() {}
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p.ic_data_cmd().write(|w| {
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w.set_restart(restart && first);
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@ -88,7 +92,7 @@ impl<'d, T: Instance> I2c<'d, T, Blocking> {
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w.set_cmd(true);
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});
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while p.ic_rxflr().read().rxflr() == 0 {
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while Self::rx_fifo_len() == 0 {
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self.read_and_clear_abort_reason()?;
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}
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@ -165,9 +169,250 @@ impl<'d, T: Instance> I2c<'d, T, Blocking> {
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// Automatic Stop
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}
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}
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static I2C_WAKER: AtomicWaker = AtomicWaker::new();
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impl<'d, T: Instance> I2c<'d, T, Async> {
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pub fn new_async(
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peri: impl Peripheral<P = T> + 'd,
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scl: impl Peripheral<P = impl SclPin<T>> + 'd,
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sda: impl Peripheral<P = impl SdaPin<T>> + 'd,
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irq: impl Peripheral<P = T::Interrupt> + 'd,
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config: Config,
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) -> Self {
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into_ref!(scl, sda, irq);
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let i2c = Self::new_inner(peri, scl.map_into(), sda.map_into(), config);
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irq.set_handler(Self::on_interrupt);
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unsafe {
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let i2c = T::regs();
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// mask everything initially
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i2c.ic_intr_mask().write_value(i2c::regs::IcIntrMask(0));
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}
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irq.unpend();
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debug_assert!(!irq.is_pending());
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irq.enable();
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i2c
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}
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/// Calls `f` to check if we are ready or not.
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/// If not, `g` is called once the waker is set (to eg enable the required interrupts).
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async fn wait_on<F, U, G>(&mut self, mut f: F, mut g: G) -> U
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where
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F: FnMut(&mut Self) -> Poll<U>,
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G: FnMut(&mut Self),
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{
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future::poll_fn(|cx| {
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let r = f(self);
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if r.is_pending() {
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I2C_WAKER.register(cx.waker());
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g(self);
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}
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r
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})
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.await
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}
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// Mask interrupts and wake any task waiting for this interrupt
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unsafe fn on_interrupt(_: *mut ()) {
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let i2c = T::regs();
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i2c.ic_intr_mask().write_value(pac::i2c::regs::IcIntrMask::default());
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I2C_WAKER.wake();
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}
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async fn read_async_internal(&mut self, buffer: &mut [u8], restart: bool, send_stop: bool) -> Result<(), Error> {
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if buffer.is_empty() {
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return Err(Error::InvalidReadBufferLength);
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}
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let p = T::regs();
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let mut remaining = buffer.len();
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let mut remaining_queue = buffer.len();
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let mut abort_reason = None;
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while remaining > 0 {
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// Waggle SCK - basically the same as write
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let tx_fifo_space = Self::tx_fifo_capacity();
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let mut batch = 0;
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debug_assert!(remaining_queue > 0);
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for _ in 0..remaining_queue.min(tx_fifo_space as usize) {
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remaining_queue -= 1;
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let last = remaining_queue == 0;
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batch += 1;
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unsafe {
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p.ic_data_cmd().write(|w| {
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w.set_restart(restart && remaining_queue == buffer.len() - 1);
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w.set_stop(last && send_stop);
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w.set_cmd(true);
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});
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}
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}
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// We've either run out of txfifo or just plain finished setting up
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// the clocks for the message - either way we need to wait for rx
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// data.
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debug_assert!(batch > 0);
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let res = self
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.wait_on(
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|me| {
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let rxfifo = Self::rx_fifo_len();
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if let Err(abort_reason) = me.read_and_clear_abort_reason() {
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Poll::Ready(Err(abort_reason))
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} else if rxfifo >= batch {
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Poll::Ready(Ok(rxfifo))
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} else {
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Poll::Pending
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}
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},
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|_me| unsafe {
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// Set the read threshold to the number of bytes we're
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// expecting so we don't get spurious interrupts.
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p.ic_rx_tl().write(|w| w.set_rx_tl(batch - 1));
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p.ic_intr_mask().modify(|w| {
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w.set_m_rx_full(true);
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w.set_m_tx_abrt(true);
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});
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},
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)
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.await;
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match res {
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Err(reason) => {
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abort_reason = Some(reason);
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// XXX keep going anyway?
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break;
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}
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Ok(rxfifo) => {
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// Fetch things from rx fifo. We're assuming we're the only
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// rxfifo reader, so nothing else can take things from it.
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let rxbytes = (rxfifo as usize).min(remaining);
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let received = buffer.len() - remaining;
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for b in &mut buffer[received..received + rxbytes] {
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*b = unsafe { p.ic_data_cmd().read().dat() };
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}
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remaining -= rxbytes;
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}
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};
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}
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// wait for stop condition to be emitted.
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self.wait_on(
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|_me| unsafe {
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if !p.ic_raw_intr_stat().read().stop_det() && send_stop {
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Poll::Pending
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} else {
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Poll::Ready(())
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}
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},
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|_me| unsafe {
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p.ic_intr_mask().modify(|w| {
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w.set_m_stop_det(true);
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w.set_m_tx_abrt(true);
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});
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},
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)
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.await;
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unsafe { p.ic_clr_stop_det().read() };
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if let Some(abort_reason) = abort_reason {
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return Err(abort_reason);
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}
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Ok(())
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}
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async fn write_async_internal(
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&mut self,
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bytes: impl IntoIterator<Item = u8>,
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send_stop: bool,
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) -> Result<(), Error> {
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let p = T::regs();
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let mut bytes = bytes.into_iter().peekable();
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'xmit: loop {
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let tx_fifo_space = Self::tx_fifo_capacity();
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for _ in 0..tx_fifo_space {
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if let Some(byte) = bytes.next() {
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let last = bytes.peek().is_none();
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unsafe {
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p.ic_data_cmd().write(|w| {
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w.set_stop(last && send_stop);
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w.set_cmd(false);
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w.set_dat(byte);
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});
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}
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} else {
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break 'xmit;
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}
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}
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self.wait_on(
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|me| {
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if let Err(abort_reason) = me.read_and_clear_abort_reason() {
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Poll::Ready(Err(abort_reason))
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} else if !Self::tx_fifo_full() {
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Poll::Ready(Ok(()))
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} else {
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Poll::Pending
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}
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},
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|_me| unsafe {
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p.ic_intr_mask().modify(|w| {
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w.set_m_tx_empty(true);
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w.set_m_tx_abrt(true);
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})
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},
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)
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.await?;
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}
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// wait for fifo to drain
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self.wait_on(
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|_me| unsafe {
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if p.ic_raw_intr_stat().read().tx_empty() {
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Poll::Ready(())
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} else {
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Poll::Pending
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}
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},
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|_me| unsafe {
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p.ic_intr_mask().modify(|w| {
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w.set_m_tx_empty(true);
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w.set_m_tx_abrt(true);
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});
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},
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)
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.await;
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Ok(())
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}
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pub async fn read_async(&mut self, addr: u16, buffer: &mut [u8]) -> Result<(), Error> {
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Self::setup(addr)?;
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self.read_async_internal(buffer, false, true).await
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}
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pub async fn write_async(&mut self, addr: u16, buffer: &[u8]) -> Result<(), Error> {
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Self::setup(addr)?;
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self.write_async_internal(buffer.iter().copied(), true).await
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}
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}
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impl<'d, T: Instance, M: Mode> I2c<'d, T, M> {
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impl<'d, T: Instance + 'd, M: Mode> I2c<'d, T, M> {
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fn new_inner(
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_peri: impl Peripheral<P = T> + 'd,
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scl: PeripheralRef<'d, AnyPin>,
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@ -182,6 +427,10 @@ impl<'d, T: Instance, M: Mode> I2c<'d, T, M> {
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let p = T::regs();
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unsafe {
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let reset = T::reset();
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crate::reset::reset(reset);
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crate::reset::unreset_wait(reset);
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p.ic_enable().write(|w| w.set_enable(false));
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// Select controller mode & speed
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@ -267,9 +516,7 @@ impl<'d, T: Instance, M: Mode> I2c<'d, T, M> {
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p.ic_enable().write(|w| w.set_enable(true));
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}
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Self {
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phantom: PhantomData,
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}
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Self { phantom: PhantomData }
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}
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fn setup(addr: u16) -> Result<(), Error> {
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@ -290,6 +537,23 @@ impl<'d, T: Instance, M: Mode> I2c<'d, T, M> {
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Ok(())
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}
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#[inline]
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fn tx_fifo_full() -> bool {
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Self::tx_fifo_capacity() == 0
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}
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#[inline]
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fn tx_fifo_capacity() -> u8 {
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let p = T::regs();
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unsafe { FIFO_SIZE - p.ic_txflr().read().txflr() }
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}
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#[inline]
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fn rx_fifo_len() -> u8 {
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let p = T::regs();
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unsafe { p.ic_rxflr().read().rxflr() }
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}
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fn read_and_clear_abort_reason(&mut self) -> Result<(), Error> {
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let p = T::regs();
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unsafe {
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@ -317,7 +581,6 @@ impl<'d, T: Instance, M: Mode> I2c<'d, T, M> {
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}
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}
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}
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}
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mod eh02 {
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@ -444,6 +707,91 @@ mod eh1 {
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}
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}
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}
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#[cfg(all(feature = "unstable-traits", feature = "nightly"))]
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mod nightly {
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use core::future::Future;
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use embedded_hal_1::i2c::Operation;
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use embedded_hal_async::i2c::AddressMode;
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use super::*;
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impl<'d, A, T> embedded_hal_async::i2c::I2c<A> for I2c<'d, T, Async>
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where
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A: AddressMode + Into<u16> + 'static,
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T: Instance + 'd,
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{
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type ReadFuture<'a> = impl Future<Output = Result<(), Self::Error>> + 'a
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where Self: 'a;
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type WriteFuture<'a> = impl Future<Output = Result<(), Self::Error>> + 'a
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where Self: 'a;
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type WriteReadFuture<'a> = impl Future<Output = Result<(), Self::Error>> + 'a
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where Self: 'a;
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type TransactionFuture<'a, 'b> = impl Future<Output = Result<(), Error>> + 'a
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where Self: 'a, 'b: 'a;
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fn read<'a>(&'a mut self, address: A, buffer: &'a mut [u8]) -> Self::ReadFuture<'a> {
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let addr: u16 = address.into();
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async move {
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Self::setup(addr)?;
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self.read_async_internal(buffer, false, true).await
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}
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}
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fn write<'a>(&'a mut self, address: A, write: &'a [u8]) -> Self::WriteFuture<'a> {
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let addr: u16 = address.into();
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async move {
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Self::setup(addr)?;
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self.write_async_internal(write.iter().copied(), true).await
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}
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}
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fn write_read<'a>(
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&'a mut self,
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address: A,
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bytes: &'a [u8],
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buffer: &'a mut [u8],
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) -> Self::WriteReadFuture<'a> {
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let addr: u16 = address.into();
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async move {
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Self::setup(addr)?;
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self.write_async_internal(bytes.iter().cloned(), false).await?;
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self.read_async_internal(buffer, false, true).await
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}
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}
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fn transaction<'a, 'b>(
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&'a mut self,
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address: A,
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operations: &'a mut [Operation<'b>],
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) -> Self::TransactionFuture<'a, 'b> {
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let addr: u16 = address.into();
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async move {
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let mut iterator = operations.iter_mut();
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while let Some(op) = iterator.next() {
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let last = iterator.len() == 0;
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match op {
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Operation::Read(buffer) => {
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Self::setup(addr)?;
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self.read_async_internal(buffer, false, last).await?;
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}
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Operation::Write(buffer) => {
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Self::setup(addr)?;
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self.write_async_internal(buffer.into_iter().cloned(), last).await?;
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}
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}
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}
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Ok(())
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}
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}
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}
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}
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fn i2c_reserved_addr(addr: u16) -> bool {
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(addr & 0x78) == 0 || (addr & 0x78) == 0x78
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@ -459,6 +807,7 @@ mod sealed {
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type Interrupt: Interrupt;
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fn regs() -> crate::pac::i2c::I2c;
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fn reset() -> crate::pac::resets::regs::Peripherals;
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}
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pub trait Mode {}
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@ -485,7 +834,7 @@ impl_mode!(Async);
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pub trait Instance: sealed::Instance {}
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macro_rules! impl_instance {
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($type:ident, $irq:ident, $tx_dreq:expr, $rx_dreq:expr) => {
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($type:ident, $irq:ident, $reset:ident, $tx_dreq:expr, $rx_dreq:expr) => {
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impl sealed::Instance for peripherals::$type {
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const TX_DREQ: u8 = $tx_dreq;
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const RX_DREQ: u8 = $rx_dreq;
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@ -496,13 +845,20 @@ macro_rules! impl_instance {
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fn regs() -> pac::i2c::I2c {
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pac::$type
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}
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#[inline]
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fn reset() -> pac::resets::regs::Peripherals {
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let mut ret = pac::resets::regs::Peripherals::default();
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ret.$reset(true);
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ret
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}
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}
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impl Instance for peripherals::$type {}
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};
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}
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impl_instance!(I2C0, I2C0_IRQ, 32, 33);
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impl_instance!(I2C1, I2C1_IRQ, 34, 35);
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impl_instance!(I2C0, I2C0_IRQ, set_i2c0, 32, 33);
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impl_instance!(I2C1, I2C1_IRQ, set_i2c1, 34, 35);
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pub trait SdaPin<T: Instance>: sealed::SdaPin<T> + crate::gpio::Pin {}
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pub trait SclPin<T: Instance>: sealed::SclPin<T> + crate::gpio::Pin {}
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@ -30,3 +30,6 @@ embedded-hal-1 = { package = "embedded-hal", version = "1.0.0-alpha.8" }
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embedded-hal-async = { version = "0.1.0-alpha.1" }
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embedded-io = { version = "0.3.0", features = ["async", "defmt"] }
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static_cell = "1.0.0"
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[profile.release]
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debug = true
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