175 lines
4.8 KiB
Rust
175 lines
4.8 KiB
Rust
use core::cell::Cell;
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use atomic_polyfill::{AtomicU8, Ordering};
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use critical_section::CriticalSection;
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use embassy_sync::blocking_mutex::raw::CriticalSectionRawMutex;
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use embassy_sync::blocking_mutex::Mutex;
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use embassy_time::driver::{AlarmHandle, Driver};
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use crate::interrupt::InterruptExt;
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use crate::{interrupt, pac};
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struct AlarmState {
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timestamp: Cell<u64>,
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callback: Cell<Option<(fn(*mut ()), *mut ())>>,
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}
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unsafe impl Send for AlarmState {}
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const ALARM_COUNT: usize = 4;
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const DUMMY_ALARM: AlarmState = AlarmState {
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timestamp: Cell::new(0),
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callback: Cell::new(None),
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};
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struct TimerDriver {
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alarms: Mutex<CriticalSectionRawMutex, [AlarmState; ALARM_COUNT]>,
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next_alarm: AtomicU8,
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}
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embassy_time::time_driver_impl!(static DRIVER: TimerDriver = TimerDriver{
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alarms: Mutex::const_new(CriticalSectionRawMutex::new(), [DUMMY_ALARM; ALARM_COUNT]),
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next_alarm: AtomicU8::new(0),
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});
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impl Driver for TimerDriver {
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fn now(&self) -> u64 {
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loop {
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let hi = pac::TIMER.timerawh().read();
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let lo = pac::TIMER.timerawl().read();
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let hi2 = pac::TIMER.timerawh().read();
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if hi == hi2 {
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return (hi as u64) << 32 | (lo as u64);
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}
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}
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}
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unsafe fn allocate_alarm(&self) -> Option<AlarmHandle> {
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let id = self.next_alarm.fetch_update(Ordering::AcqRel, Ordering::Acquire, |x| {
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if x < ALARM_COUNT as u8 {
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Some(x + 1)
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} else {
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None
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}
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});
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match id {
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Ok(id) => Some(AlarmHandle::new(id)),
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Err(_) => None,
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}
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}
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fn set_alarm_callback(&self, alarm: AlarmHandle, callback: fn(*mut ()), ctx: *mut ()) {
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let n = alarm.id() as usize;
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critical_section::with(|cs| {
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let alarm = &self.alarms.borrow(cs)[n];
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alarm.callback.set(Some((callback, ctx)));
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})
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}
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fn set_alarm(&self, alarm: AlarmHandle, timestamp: u64) -> bool {
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let n = alarm.id() as usize;
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critical_section::with(|cs| {
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let alarm = &self.alarms.borrow(cs)[n];
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alarm.timestamp.set(timestamp);
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// Arm it.
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// Note that we're not checking the high bits at all. This means the irq may fire early
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// if the alarm is more than 72 minutes (2^32 us) in the future. This is OK, since on irq fire
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// it is checked if the alarm time has passed.
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pac::TIMER.alarm(n).write_value(timestamp as u32);
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let now = self.now();
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if timestamp <= now {
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// If alarm timestamp has passed the alarm will not fire.
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// Disarm the alarm and return `false` to indicate that.
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pac::TIMER.armed().write(|w| w.set_armed(1 << n));
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alarm.timestamp.set(u64::MAX);
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false
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} else {
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true
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}
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})
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}
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}
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impl TimerDriver {
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fn check_alarm(&self, n: usize) {
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critical_section::with(|cs| {
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let alarm = &self.alarms.borrow(cs)[n];
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let timestamp = alarm.timestamp.get();
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if timestamp <= self.now() {
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self.trigger_alarm(n, cs)
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} else {
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// Not elapsed, arm it again.
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// This can happen if it was set more than 2^32 us in the future.
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pac::TIMER.alarm(n).write_value(timestamp as u32);
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}
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});
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// clear the irq
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pac::TIMER.intr().write(|w| w.set_alarm(n, true));
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}
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fn trigger_alarm(&self, n: usize, cs: CriticalSection) {
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// disarm
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pac::TIMER.armed().write(|w| w.set_armed(1 << n));
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let alarm = &self.alarms.borrow(cs)[n];
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alarm.timestamp.set(u64::MAX);
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// Call after clearing alarm, so the callback can set another alarm.
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if let Some((f, ctx)) = alarm.callback.get() {
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f(ctx);
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}
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}
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}
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/// safety: must be called exactly once at bootup
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pub unsafe fn init() {
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// init alarms
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critical_section::with(|cs| {
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let alarms = DRIVER.alarms.borrow(cs);
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for a in alarms {
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a.timestamp.set(u64::MAX);
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}
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});
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// enable all irqs
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pac::TIMER.inte().write(|w| {
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w.set_alarm(0, true);
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w.set_alarm(1, true);
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w.set_alarm(2, true);
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w.set_alarm(3, true);
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});
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interrupt::TIMER_IRQ_0.enable();
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interrupt::TIMER_IRQ_1.enable();
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interrupt::TIMER_IRQ_2.enable();
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interrupt::TIMER_IRQ_3.enable();
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}
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#[cfg(feature = "rt")]
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#[interrupt]
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fn TIMER_IRQ_0() {
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DRIVER.check_alarm(0)
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}
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#[cfg(feature = "rt")]
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#[interrupt]
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fn TIMER_IRQ_1() {
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DRIVER.check_alarm(1)
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}
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#[cfg(feature = "rt")]
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#[interrupt]
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fn TIMER_IRQ_2() {
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DRIVER.check_alarm(2)
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}
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#[cfg(feature = "rt")]
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#[interrupt]
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fn TIMER_IRQ_3() {
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DRIVER.check_alarm(3)
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}
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