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https://github.com/embassy-rs/embassy.git
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Add support for multi alarm to RTC.
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a734a9ff46
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@ -3,7 +3,7 @@ use core::ops::Deref;
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use core::sync::atomic::{AtomicU32, Ordering};
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use crate::interrupt;
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use crate::interrupt::Mutex;
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use crate::interrupt::{CriticalSection, Mutex};
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use crate::pac::{rtc0, Interrupt, RTC0, RTC1};
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#[cfg(any(feature = "52832", feature = "52833", feature = "52840"))]
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@ -34,6 +34,22 @@ mod test {
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}
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}
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struct AlarmState {
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timestamp: Cell<u64>,
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callback: Cell<Option<fn()>>,
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}
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impl AlarmState {
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fn new() -> Self {
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Self {
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timestamp: Cell::new(u64::MAX),
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callback: Cell::new(None),
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}
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}
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}
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const ALARM_COUNT: usize = 3;
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pub struct RTC<T> {
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rtc: T,
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@ -50,7 +66,7 @@ pub struct RTC<T> {
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period: AtomicU32,
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/// Timestamp at which to fire alarm. u64::MAX if no alarm is scheduled.
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alarm: Mutex<Cell<(u64, Option<fn()>)>>,
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alarms: Mutex<[AlarmState; ALARM_COUNT]>,
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}
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unsafe impl<T> Send for RTC<T> {}
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@ -61,7 +77,7 @@ impl<T: Instance> RTC<T> {
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Self {
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rtc,
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period: AtomicU32::new(0),
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alarm: Mutex::new(Cell::new((u64::MAX, None))),
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alarms: Mutex::new([AlarmState::new(), AlarmState::new(), AlarmState::new()]),
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}
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}
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@ -101,9 +117,13 @@ impl<T: Instance> RTC<T> {
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self.next_period();
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}
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if self.rtc.events_compare[1].read().bits() == 1 {
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self.rtc.events_compare[1].write(|w| w);
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self.trigger_alarm();
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for n in 0..ALARM_COUNT {
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if self.rtc.events_compare[n + 1].read().bits() == 1 {
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self.rtc.events_compare[n + 1].write(|w| w);
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interrupt::free(|cs| {
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self.trigger_alarm(n, cs);
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})
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}
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}
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}
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@ -112,35 +132,43 @@ impl<T: Instance> RTC<T> {
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let period = self.period.fetch_add(1, Ordering::Relaxed) + 1;
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let t = (period as u64) << 23;
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let (at, _) = self.alarm.borrow(cs).get();
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for alarm in self.alarms.borrow(cs) {
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let at = alarm.timestamp.get();
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let diff = at - t;
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if diff < 0xc00000 {
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self.rtc.cc[1].write(|w| unsafe { w.bits(at as u32 & 0xFFFFFF) });
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self.rtc.intenset.write(|w| w.compare1().set());
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let diff = at - t;
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if diff < 0xc00000 {
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self.rtc.cc[1].write(|w| unsafe { w.bits(at as u32 & 0xFFFFFF) });
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self.rtc.intenset.write(|w| w.compare1().set());
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}
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}
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})
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}
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fn trigger_alarm(&self) {
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fn trigger_alarm(&self, n: usize, cs: &CriticalSection) {
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self.rtc.intenclr.write(|w| w.compare1().clear());
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interrupt::free(|cs| {
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let alarm = self.alarm.borrow(cs);
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let (_, f) = alarm.get();
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alarm.set((u64::MAX, None));
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// Call after clearing alarm, so the callback can set another alarm.
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f.map(|f| f())
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});
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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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alarm.callback.get().map(|f| f());
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}
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fn do_set_alarm(&self, timestamp: u64, callback: Option<fn()>) {
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fn set_alarm_callback(&self, n: usize, callback: fn()) {
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interrupt::free(|cs| {
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self.alarm.borrow(cs).set((timestamp, callback));
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let alarm = &self.alarms.borrow(cs)[n];
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alarm.callback.set(Some(callback));
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})
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}
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fn set_alarm(&self, n: usize, timestamp: u64) {
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interrupt::free(|cs| {
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let alarm = &self.alarms.borrow(cs)[n];
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alarm.timestamp.set(timestamp);
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let t = self.now();
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if timestamp <= t {
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self.trigger_alarm();
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self.trigger_alarm(n, cs);
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return;
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}
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@ -155,7 +183,7 @@ impl<T: Instance> RTC<T> {
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let t = self.now();
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if timestamp <= t {
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self.trigger_alarm();
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self.trigger_alarm(n, cs);
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return;
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}
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} else {
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@ -165,21 +193,32 @@ impl<T: Instance> RTC<T> {
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}
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pub fn alarm0(&'static self) -> Alarm<T> {
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Alarm { rtc: self }
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Alarm { n: 0, rtc: self }
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}
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pub fn alarm1(&'static self) -> Alarm<T> {
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Alarm { n: 1, rtc: self }
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}
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pub fn alarm2(&'static self) -> Alarm<T> {
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Alarm { n: 2, rtc: self }
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}
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}
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pub struct Alarm<T: Instance> {
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n: usize,
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rtc: &'static RTC<T>,
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}
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impl<T: Instance> embassy::time::Alarm for Alarm<T> {
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fn set(&self, timestamp: u64, callback: fn()) {
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self.rtc.do_set_alarm(timestamp, Some(callback));
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fn set_callback(&self, callback: fn()) {
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self.rtc.set_alarm_callback(self.n, callback);
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}
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fn set(&self, timestamp: u64) {
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self.rtc.set_alarm(self.n, timestamp);
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}
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fn clear(&self) {
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self.rtc.do_set_alarm(u64::MAX, None);
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self.rtc.set_alarm(self.n, u64::MAX);
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}
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}
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@ -27,6 +27,7 @@ pub struct Executor<M, A: Alarm> {
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impl<M: Model, A: Alarm> Executor<M, A> {
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pub fn new(alarm: A) -> Self {
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alarm.set_callback(M::signal);
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Self {
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inner: se::Executor::new(M::signal),
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alarm,
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@ -53,7 +54,7 @@ impl<M: Model, A: Alarm> Executor<M, A> {
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match self.timer.next_expiration() {
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// If this is in the past, set_alarm will immediately trigger the alarm,
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// which will make the wfe immediately return so we do another loop iteration.
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Some(at) => self.alarm.set(at, M::signal),
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Some(at) => self.alarm.set(at),
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None => self.alarm.clear(),
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}
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})
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@ -273,13 +273,17 @@ impl Future for Timer {
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/// Trait to register a callback at a given timestamp.
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pub trait Alarm {
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/// Sets the callback function to be called when the alarm triggers.
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/// The callback may be called from any context (interrupt or thread mode).
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fn set_callback(&self, callback: fn());
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/// Sets an alarm at the given timestamp. When the clock reaches that
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/// timestamp, the provided callback funcion will be called.
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///
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/// When callback is called, it is guaranteed that now() will return a value greater or equal than timestamp.
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///
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/// Only one alarm can be active at a time. This overwrites any previously-set alarm if any.
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fn set(&self, timestamp: u64, callback: fn());
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fn set(&self, timestamp: u64);
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/// Clears the previously-set alarm.
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/// If no alarm was set, this is a noop.
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@ -35,7 +35,8 @@ fn main() -> ! {
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rtc.start();
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alarm.set(53719, || info!("ALARM TRIGGERED"));
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alarm.set_callback(|| info!("ALARM TRIGGERED"));
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alarm.set(53719);
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info!("initialized!");
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