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https://github.com/embassy-rs/embassy.git
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Merge pull request #260 from Liamolucko/nrf-timer
Add an nRF Timer driver
This commit is contained in:
commit
d49adc98be
@ -15,7 +15,9 @@ use crate::gpio::sealed::Pin as _;
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use crate::gpio::{OptionalPin as GpioOptionalPin, Pin as GpioPin};
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use crate::pac;
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use crate::ppi::{AnyConfigurableChannel, ConfigurableChannel, Event, Ppi, Task};
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use crate::timer::Frequency;
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use crate::timer::Instance as TimerInstance;
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use crate::timer::Timer;
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use crate::uarte::{Config, Instance as UarteInstance};
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// Re-export SVD variants to allow user to directly set values
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@ -35,7 +37,7 @@ enum TxState {
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struct State<'d, U: UarteInstance, T: TimerInstance> {
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phantom: PhantomData<&'d mut U>,
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timer: T,
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timer: Timer<'d, T>,
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_ppi_ch1: Ppi<'d, AnyConfigurableChannel>,
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_ppi_ch2: Ppi<'d, AnyConfigurableChannel>,
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@ -76,10 +78,11 @@ impl<'d, U: UarteInstance, T: TimerInstance> BufferedUarte<'d, U, T> {
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rx_buffer: &'d mut [u8],
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tx_buffer: &'d mut [u8],
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) -> Self {
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unborrow!(timer, ppi_ch1, ppi_ch2, irq, rxd, txd, cts, rts);
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unborrow!(ppi_ch1, ppi_ch2, irq, rxd, txd, cts, rts);
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let r = U::regs();
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let rt = timer.regs();
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let mut timer = Timer::new_irqless(timer);
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rxd.conf().write(|w| w.input().connect().drive().h0h1());
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r.psel.rxd.write(|w| unsafe { w.bits(rxd.psel_bits()) });
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@ -133,25 +136,19 @@ impl<'d, U: UarteInstance, T: TimerInstance> BufferedUarte<'d, U, T> {
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// This gives us the amount of 16M ticks for 20 bits.
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let timeout = 0x8000_0000 / (config.baudrate as u32 / 40);
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rt.tasks_stop.write(|w| unsafe { w.bits(1) });
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rt.bitmode.write(|w| w.bitmode()._32bit());
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rt.prescaler.write(|w| unsafe { w.prescaler().bits(0) });
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rt.cc[0].write(|w| unsafe { w.bits(timeout) });
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rt.mode.write(|w| w.mode().timer());
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rt.shorts.write(|w| {
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w.compare0_clear().set_bit();
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w.compare0_stop().set_bit();
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w
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});
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timer.set_frequency(Frequency::F16MHz);
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timer.cc(0).write(timeout);
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timer.cc(0).short_compare_clear();
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timer.cc(0).short_compare_stop();
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let mut ppi_ch1 = Ppi::new(ppi_ch1.degrade_configurable());
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ppi_ch1.set_event(Event::from_reg(&r.events_rxdrdy));
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ppi_ch1.set_task(Task::from_reg(&rt.tasks_clear));
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ppi_ch1.set_fork_task(Task::from_reg(&rt.tasks_start));
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ppi_ch1.set_task(timer.task_clear());
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ppi_ch1.set_fork_task(timer.task_start());
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ppi_ch1.enable();
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let mut ppi_ch2 = Ppi::new(ppi_ch2.degrade_configurable());
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ppi_ch2.set_event(Event::from_reg(&rt.events_compare[0]));
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ppi_ch2.set_event(timer.cc(0).event_compare());
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ppi_ch2.set_task(Task::from_reg(&r.tasks_stoprx));
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ppi_ch2.enable();
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@ -181,11 +178,10 @@ impl<'d, U: UarteInstance, T: TimerInstance> BufferedUarte<'d, U, T> {
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inner.as_mut().register_interrupt();
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inner.with(|state, _irq| {
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let r = U::regs();
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let rt = state.timer.regs();
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let timeout = 0x8000_0000 / (baudrate as u32 / 40);
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rt.cc[0].write(|w| unsafe { w.bits(timeout) });
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rt.tasks_clear.write(|w| unsafe { w.bits(1) });
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state.timer.cc(0).write(timeout);
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state.timer.clear();
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r.baudrate.write(|w| w.baudrate().variant(baudrate));
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});
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@ -268,11 +264,10 @@ impl<'d, U: UarteInstance, T: TimerInstance> AsyncWrite for BufferedUarte<'d, U,
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impl<'a, U: UarteInstance, T: TimerInstance> Drop for State<'a, U, T> {
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fn drop(&mut self) {
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let r = U::regs();
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let rt = self.timer.regs();
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// TODO this probably deadlocks. do like Uarte instead.
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rt.tasks_stop.write(|w| unsafe { w.bits(1) });
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self.timer.stop();
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if let RxState::Receiving = self.rx_state {
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r.tasks_stoprx.write(|w| unsafe { w.bits(1) });
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}
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@ -293,7 +288,6 @@ impl<'a, U: UarteInstance, T: TimerInstance> PeripheralState for State<'a, U, T>
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fn on_interrupt(&mut self) {
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trace!("irq: start");
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let r = U::regs();
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let rt = self.timer.regs();
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loop {
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match self.rx_state {
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@ -330,7 +324,7 @@ impl<'a, U: UarteInstance, T: TimerInstance> PeripheralState for State<'a, U, T>
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RxState::Receiving => {
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trace!(" irq_rx: in state receiving");
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if r.events_endrx.read().bits() != 0 {
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rt.tasks_stop.write(|w| unsafe { w.bits(1) });
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self.timer.stop();
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let n: usize = r.rxd.amount.read().amount().bits() as usize;
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trace!(" irq_rx: endrx {:?}", n);
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@ -1,15 +1,30 @@
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#![macro_use]
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use core::marker::PhantomData;
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use core::task::Poll;
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use embassy::interrupt::Interrupt;
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use embassy::interrupt::InterruptExt;
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use embassy::util::OnDrop;
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use embassy::util::Unborrow;
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use embassy_extras::unborrow;
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use futures::future::poll_fn;
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use crate::pac;
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use crate::ppi::Event;
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use crate::ppi::Task;
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pub(crate) mod sealed {
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use embassy::util::AtomicWaker;
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use super::*;
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pub trait Instance {
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fn regs(&self) -> &pac::timer0::RegisterBlock;
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/// The number of CC registers this instance has.
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const CCS: usize;
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fn regs() -> &'static pac::timer0::RegisterBlock;
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/// Storage for the waker for CC register `n`.
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fn waker(n: usize) -> &'static AtomicWaker;
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}
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pub trait ExtendedInstance {}
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}
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@ -20,19 +35,306 @@ pub trait Instance: Unborrow<Target = Self> + sealed::Instance + 'static {
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pub trait ExtendedInstance: Instance + sealed::ExtendedInstance {}
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macro_rules! impl_timer {
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($type:ident, $pac_type:ident, $irq:ident) => {
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($type:ident, $pac_type:ident, $irq:ident, $ccs:literal) => {
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impl crate::timer::sealed::Instance for peripherals::$type {
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fn regs(&self) -> &pac::timer0::RegisterBlock {
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const CCS: usize = $ccs;
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fn regs() -> &'static pac::timer0::RegisterBlock {
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unsafe { &*(pac::$pac_type::ptr() as *const pac::timer0::RegisterBlock) }
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}
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fn waker(n: usize) -> &'static ::embassy::util::AtomicWaker {
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use ::embassy::util::AtomicWaker;
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const NEW_AW: AtomicWaker = AtomicWaker::new();
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static WAKERS: [AtomicWaker; $ccs] = [NEW_AW; $ccs];
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&WAKERS[n]
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}
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}
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impl crate::timer::Instance for peripherals::$type {
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type Interrupt = crate::interrupt::$irq;
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}
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};
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($type:ident, $pac_type:ident, $irq:ident) => {
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impl_timer!($type, $pac_type, $irq, 4);
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};
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($type:ident, $pac_type:ident, $irq:ident, extended) => {
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impl_timer!($type, $pac_type, $irq);
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impl_timer!($type, $pac_type, $irq, 6);
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impl crate::timer::sealed::ExtendedInstance for peripherals::$type {}
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impl crate::timer::ExtendedInstance for peripherals::$type {}
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};
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}
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#[repr(u8)]
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pub enum Frequency {
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// I'd prefer not to prefix these with `F`, but Rust identifiers can't start with digits.
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F16MHz = 0,
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F8MHz = 1,
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F4MHz = 2,
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F2MHz = 3,
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F1MHz = 4,
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F500kHz = 5,
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F250kHz = 6,
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F125kHz = 7,
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F62500Hz = 8,
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F31250Hz = 9,
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}
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/// nRF Timer driver.
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///
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/// The timer has an internal counter, which is incremented for every tick of the timer.
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/// The counter is 32-bit, so it wraps back to 0 at 4294967296.
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///
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/// It has either 4 or 6 Capture/Compare registers, which can be used to capture the current state of the counter
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/// or trigger an event when the counter reaches a certain value.
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pub struct Timer<'d, T: Instance> {
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phantom: PhantomData<&'d mut T>,
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}
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impl<'d, T: Instance> Timer<'d, T> {
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pub fn new(
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timer: impl Unborrow<Target = T> + 'd,
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irq: impl Unborrow<Target = T::Interrupt> + 'd,
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) -> Self {
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unborrow!(irq);
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irq.set_handler(Self::on_interrupt);
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irq.unpend();
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irq.enable();
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Self::new_irqless(timer)
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}
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/// Create a `Timer` without an interrupt, meaning `Cc::wait` won't work.
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///
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/// This is used by `Uarte` internally.
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pub(crate) fn new_irqless(_timer: impl Unborrow<Target = T> + 'd) -> Self {
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let regs = T::regs();
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let mut this = Self {
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phantom: PhantomData,
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};
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// Stop the timer before doing anything else,
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// since changing BITMODE while running can cause 'unpredictable behaviour' according to the specification.
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this.stop();
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// Set the instance to timer mode.
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regs.mode.write(|w| w.mode().timer());
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// Make the counter's max value as high as possible.
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// TODO: is there a reason someone would want to set this lower?
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regs.bitmode.write(|w| w.bitmode()._32bit());
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// Initialize the counter at 0.
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this.clear();
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// Default to the max frequency of the lower power clock
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this.set_frequency(Frequency::F1MHz);
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for n in 0..T::CCS {
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let cc = this.cc(n);
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// Initialize all the shorts as disabled.
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cc.unshort_compare_clear();
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cc.unshort_compare_stop();
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// Initialize the CC registers as 0.
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cc.write(0);
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}
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this
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}
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/// Starts the timer.
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pub fn start(&self) {
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T::regs().tasks_start.write(|w| unsafe { w.bits(1) })
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}
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/// Stops the timer.
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pub fn stop(&self) {
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T::regs().tasks_stop.write(|w| unsafe { w.bits(1) })
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}
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/// Reset the timer's counter to 0.
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pub fn clear(&self) {
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T::regs().tasks_clear.write(|w| unsafe { w.bits(1) })
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}
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/// Returns the START task, for use with PPI.
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///
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/// When triggered, this task starts the timer.
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pub fn task_start(&self) -> Task {
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Task::from_reg(&T::regs().tasks_start)
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}
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/// Returns the STOP task, for use with PPI.
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///
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/// When triggered, this task stops the timer.
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pub fn task_stop(&self) -> Task {
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Task::from_reg(&T::regs().tasks_stop)
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}
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/// Returns the CLEAR task, for use with PPI.
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///
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/// When triggered, this task resets the timer's counter to 0.
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pub fn task_clear(&self) -> Task {
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Task::from_reg(&T::regs().tasks_clear)
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}
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/// Change the timer's frequency.
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///
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/// This will stop the timer if it isn't already stopped,
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/// because the timer may exhibit 'unpredictable behaviour' if it's frequency is changed while it's running.
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pub fn set_frequency(&self, frequency: Frequency) {
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self.stop();
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T::regs()
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.prescaler
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// SAFETY: `frequency` is a variant of `Frequency`,
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// whose values are all in the range of 0-9 (the valid range of `prescaler`).
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.write(|w| unsafe { w.prescaler().bits(frequency as u8) })
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}
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fn on_interrupt(_: *mut ()) {
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let regs = T::regs();
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for n in 0..T::CCS {
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if regs.events_compare[n].read().bits() != 0 {
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// Clear the interrupt, otherwise the interrupt will be repeatedly raised as soon as the interrupt handler exits.
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// We can't clear the event, because it's used to poll whether the future is done or still pending.
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regs.intenclr
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.modify(|r, w| unsafe { w.bits(r.bits() | (1 << (16 + n))) });
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T::waker(n).wake();
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}
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}
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}
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/// Returns this timer's `n`th CC register.
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///
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/// # Panics
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/// Panics if `n` >= the number of CC registers this timer has (4 for a normal timer, 6 for an extended timer).
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pub fn cc(&mut self, n: usize) -> Cc<T> {
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if n >= T::CCS {
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panic!(
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"Cannot get CC register {} of timer with {} CC registers.",
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n,
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T::CCS
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);
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}
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Cc {
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n,
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phantom: PhantomData,
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}
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}
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}
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/// A representation of a timer's Capture/Compare (CC) register.
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///
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/// A CC register holds a 32-bit value.
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/// This is used either to store a capture of the timer's current count, or to specify the value for the timer to compare against.
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///
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/// The timer will fire the register's COMPARE event when its counter reaches the value stored in the register.
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/// When the register's CAPTURE task is triggered, the timer will store the current value of its counter in the register
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pub struct Cc<'a, T: Instance> {
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n: usize,
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phantom: PhantomData<&'a mut T>,
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}
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impl<'a, T: Instance> Cc<'a, T> {
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/// Get the current value stored in the register.
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pub fn read(&self) -> u32 {
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T::regs().cc[self.n].read().cc().bits()
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}
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/// Set the value stored in the register.
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///
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/// `event_compare` will fire when the timer's counter reaches this value.
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pub fn write(&self, value: u32) {
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// SAFETY: there are no invalid values for the CC register.
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T::regs().cc[self.n].write(|w| unsafe { w.cc().bits(value) })
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}
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/// Capture the current value of the timer's counter in this register, and return it.
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pub fn capture(&self) -> u32 {
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T::regs().tasks_capture[self.n].write(|w| unsafe { w.bits(1) });
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self.read()
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}
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/// Returns this CC register's CAPTURE task, for use with PPI.
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///
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/// When triggered, this task will capture the current value of the timer's counter in this register.
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pub fn task_capture(&self) -> Task {
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Task::from_reg(&T::regs().tasks_capture[self.n])
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}
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/// Returns this CC register's COMPARE event, for use with PPI.
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///
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/// This event will fire when the timer's counter reaches the value in this CC register.
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pub fn event_compare(&self) -> Event {
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Event::from_reg(&T::regs().events_compare[self.n])
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}
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/// Enable the shortcut between this CC register's COMPARE event and the timer's CLEAR task.
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///
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/// This means that when the COMPARE event is fired, the CLEAR task will be triggered.
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///
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/// So, when the timer's counter reaches the value stored in this register, the timer's counter will be reset to 0.
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pub fn short_compare_clear(&self) {
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T::regs()
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.shorts
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.modify(|r, w| unsafe { w.bits(r.bits() | (1 << self.n)) })
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}
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/// Disable the shortcut between this CC register's COMPARE event and the timer's CLEAR task.
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pub fn unshort_compare_clear(&self) {
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T::regs()
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.shorts
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.modify(|r, w| unsafe { w.bits(r.bits() & !(1 << self.n)) })
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}
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/// Enable the shortcut between this CC register's COMPARE event and the timer's STOP task.
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///
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/// This means that when the COMPARE event is fired, the STOP task will be triggered.
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///
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/// So, when the timer's counter reaches the value stored in this register, the timer will stop counting up.
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pub fn short_compare_stop(&self) {
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T::regs()
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.shorts
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.modify(|r, w| unsafe { w.bits(r.bits() | (1 << (8 + self.n))) })
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}
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/// Disable the shortcut between this CC register's COMPARE event and the timer's STOP task.
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pub fn unshort_compare_stop(&self) {
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T::regs()
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.shorts
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.modify(|r, w| unsafe { w.bits(r.bits() & !(1 << (8 + self.n))) })
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}
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/// Wait until the timer's counter reaches the value stored in this register.
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///
|
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/// This requires a mutable reference so that this task's waker cannot be overwritten by a second call to `wait`.
|
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pub async fn wait(&mut self) {
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let regs = T::regs();
|
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// Enable the interrupt for this CC's COMPARE event.
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regs.intenset
|
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.modify(|r, w| unsafe { w.bits(r.bits() | (1 << (16 + self.n))) });
|
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|
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// Disable the interrupt if the future is dropped.
|
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let on_drop = OnDrop::new(|| {
|
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regs.intenclr
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.modify(|r, w| unsafe { w.bits(r.bits() | (1 << (16 + self.n))) });
|
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});
|
||||
|
||||
poll_fn(|cx| {
|
||||
T::waker(self.n).register(cx.waker());
|
||||
|
||||
if regs.events_compare[self.n].read().bits() != 0 {
|
||||
// Reset the register for next time
|
||||
regs.events_compare[self.n].reset();
|
||||
Poll::Ready(())
|
||||
} else {
|
||||
Poll::Pending
|
||||
}
|
||||
})
|
||||
.await;
|
||||
|
||||
// The interrupt was already disabled in the interrupt handler, so there's no need to disable it again.
|
||||
on_drop.defuse();
|
||||
}
|
||||
}
|
||||
|
@ -18,7 +18,9 @@ use crate::gpio::{self, OptionalPin as GpioOptionalPin, Pin as GpioPin};
|
||||
use crate::interrupt::Interrupt;
|
||||
use crate::pac;
|
||||
use crate::ppi::{AnyConfigurableChannel, ConfigurableChannel, Event, Ppi, Task};
|
||||
use crate::timer::Frequency;
|
||||
use crate::timer::Instance as TimerInstance;
|
||||
use crate::timer::Timer;
|
||||
|
||||
// Re-export SVD variants to allow user to directly set values.
|
||||
pub use pac::uarte0::{baudrate::BAUDRATE_A as Baudrate, config::PARITY_A as Parity};
|
||||
@ -287,7 +289,7 @@ impl<'d, T: Instance> Write for Uarte<'d, T> {
|
||||
/// allowing it to implement the ReadUntilIdle trait.
|
||||
pub struct UarteWithIdle<'d, U: Instance, T: TimerInstance> {
|
||||
uarte: Uarte<'d, U>,
|
||||
timer: T,
|
||||
timer: Timer<'d, T>,
|
||||
ppi_ch1: Ppi<'d, AnyConfigurableChannel>,
|
||||
_ppi_ch2: Ppi<'d, AnyConfigurableChannel>,
|
||||
}
|
||||
@ -316,11 +318,11 @@ impl<'d, U: Instance, T: TimerInstance> UarteWithIdle<'d, U, T> {
|
||||
) -> Self {
|
||||
let baudrate = config.baudrate;
|
||||
let uarte = Uarte::new(uarte, irq, rxd, txd, cts, rts, config);
|
||||
let mut timer = Timer::new_irqless(timer);
|
||||
|
||||
unborrow!(timer, ppi_ch1, ppi_ch2);
|
||||
unborrow!(ppi_ch1, ppi_ch2);
|
||||
|
||||
let r = U::regs();
|
||||
let rt = timer.regs();
|
||||
|
||||
// BAUDRATE register values are `baudrate * 2^32 / 16000000`
|
||||
// source: https://devzone.nordicsemi.com/f/nordic-q-a/391/uart-baudrate-register-values
|
||||
@ -330,25 +332,19 @@ impl<'d, U: Instance, T: TimerInstance> UarteWithIdle<'d, U, T> {
|
||||
// This gives us the amount of 16M ticks for 20 bits.
|
||||
let timeout = 0x8000_0000 / (baudrate as u32 / 40);
|
||||
|
||||
rt.tasks_stop.write(|w| unsafe { w.bits(1) });
|
||||
rt.bitmode.write(|w| w.bitmode()._32bit());
|
||||
rt.prescaler.write(|w| unsafe { w.prescaler().bits(0) });
|
||||
rt.cc[0].write(|w| unsafe { w.bits(timeout) });
|
||||
rt.mode.write(|w| w.mode().timer());
|
||||
rt.shorts.write(|w| {
|
||||
w.compare0_clear().set_bit();
|
||||
w.compare0_stop().set_bit();
|
||||
w
|
||||
});
|
||||
timer.set_frequency(Frequency::F16MHz);
|
||||
timer.cc(0).write(timeout);
|
||||
timer.cc(0).short_compare_clear();
|
||||
timer.cc(0).short_compare_stop();
|
||||
|
||||
let mut ppi_ch1 = Ppi::new(ppi_ch1.degrade_configurable());
|
||||
ppi_ch1.set_event(Event::from_reg(&r.events_rxdrdy));
|
||||
ppi_ch1.set_task(Task::from_reg(&rt.tasks_clear));
|
||||
ppi_ch1.set_fork_task(Task::from_reg(&rt.tasks_start));
|
||||
ppi_ch1.set_task(timer.task_clear());
|
||||
ppi_ch1.set_fork_task(timer.task_start());
|
||||
ppi_ch1.enable();
|
||||
|
||||
let mut ppi_ch2 = Ppi::new(ppi_ch2.degrade_configurable());
|
||||
ppi_ch2.set_event(Event::from_reg(&rt.events_compare[0]));
|
||||
ppi_ch2.set_event(timer.cc(0).event_compare());
|
||||
ppi_ch2.set_task(Task::from_reg(&r.tasks_stoprx));
|
||||
ppi_ch2.enable();
|
||||
|
||||
@ -373,12 +369,10 @@ impl<'d, U: Instance, T: TimerInstance> ReadUntilIdle for UarteWithIdle<'d, U, T
|
||||
let r = U::regs();
|
||||
let s = U::state();
|
||||
|
||||
let rt = self.timer.regs();
|
||||
|
||||
let drop = OnDrop::new(move || {
|
||||
let drop = OnDrop::new(|| {
|
||||
info!("read drop: stopping");
|
||||
|
||||
rt.tasks_stop.write(|w| unsafe { w.bits(1) });
|
||||
self.timer.stop();
|
||||
|
||||
r.intenclr.write(|w| w.endrx().clear());
|
||||
r.events_rxto.reset();
|
||||
@ -413,7 +407,7 @@ impl<'d, U: Instance, T: TimerInstance> ReadUntilIdle for UarteWithIdle<'d, U, T
|
||||
let n = r.rxd.amount.read().amount().bits() as usize;
|
||||
|
||||
// Stop timer
|
||||
rt.tasks_stop.write(|w| unsafe { w.bits(1) });
|
||||
self.timer.stop();
|
||||
r.events_rxstarted.reset();
|
||||
|
||||
drop.defuse();
|
||||
|
Loading…
Reference in New Issue
Block a user