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Merge pull request #280 from 9names/alarm-ergonomics
Use atomic operations for altering Timer alarm interrupts
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commit
16c9064c52
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@ -54,7 +54,7 @@ mod app {
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let mut timer = hal::Timer::new(c.device.TIMER, &mut resets);
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let mut alarm = timer.alarm_0().unwrap();
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let _ = alarm.schedule(SCAN_TIME_US.microseconds());
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alarm.enable_interrupt(&mut timer);
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alarm.enable_interrupt();
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(Shared { timer, alarm, led }, Local {}, init::Monotonics())
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}
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@ -73,10 +73,9 @@ mod app {
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}
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*c.local.tog = !*c.local.tog;
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let timer = c.shared.timer;
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let alarm = c.shared.alarm;
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(timer, alarm).lock(|t, a| {
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a.clear_interrupt(t);
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let mut alarm = c.shared.alarm;
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(alarm).lock(|a| {
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a.clear_interrupt();
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let _ = a.schedule(SCAN_TIME_US.microseconds());
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});
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}
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@ -3,6 +3,7 @@
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use embedded_time::duration::Microseconds;
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use crate::atomic_register_access::{write_bitmask_clear, write_bitmask_set};
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use crate::pac::{RESETS, TIMER};
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use crate::resets::SubsystemReset;
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use core::marker::PhantomData;
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@ -200,12 +201,15 @@ macro_rules! impl_alarm {
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/// ` is called.
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///
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/// The interrupt is unable to trigger a 2nd time until this interrupt is cleared.
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pub fn clear_interrupt(&mut self, timer: &mut Timer) {
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// safety: Because we have a mutable reference on `timer`, we have exclusive access to `TIMER::ptr()`
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let _ = timer;
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let timer = unsafe { &*TIMER::ptr() };
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timer.intr.modify(|_, w| w.$int_alarm().set_bit());
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pub fn clear_interrupt(&mut self) {
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// safety: TIMER.intr is a write-clear register, so we can atomically clear our interrupt
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// by writing its value to this field
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// Only one instance of this alarm index can exist, and only this alarm interacts with this bit
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// of the TIMER.inte register
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unsafe {
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let timer = &(*pac::TIMER::ptr());
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timer.intr.write_with_zero(|w| w.$int_alarm().set_bit());
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}
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}
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/// Enable this alarm to trigger an interrupt. This alarm will trigger `
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@ -215,21 +219,27 @@ macro_rules! impl_alarm {
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/// After this interrupt is triggered, make sure to clear the interrupt with [clear_interrupt].
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///
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/// [clear_interrupt]: #method.clear_interrupt
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pub fn enable_interrupt(&mut self, timer: &mut Timer) {
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// safety: Because we have a mutable reference on `timer`, we have exclusive access to `TIMER::ptr()`
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let _ = timer;
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let timer = unsafe { &*TIMER::ptr() };
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timer.inte.modify(|_, w| w.$int_alarm().set_bit());
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pub fn enable_interrupt(&mut self) {
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// safety: using the atomic set alias means we can atomically set our interrupt enable bit.
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// Only one instance of this alarm can exist, and only this alarm interacts with this bit
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// of the TIMER.inte register
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unsafe {
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let timer = &(*pac::TIMER::ptr());
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let reg = (&timer.inte).as_ptr();
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write_bitmask_set(reg, $armed_bit_mask);
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}
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}
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/// Disable this alarm, preventing it from triggering an interrupt.
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pub fn disable_interrupt(&mut self, timer: &mut Timer) {
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// safety: Because we have a mutable reference on `timer`, we have exclusive access to `TIMER::ptr()`
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let _ = timer;
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let timer = unsafe { &*TIMER::ptr() };
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timer.inte.modify(|_, w| w.$int_alarm().clear_bit());
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pub fn disable_interrupt(&mut self) {
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// safety: using the atomic set alias means we can atomically clear our interrupt enable bit.
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// Only one instance of this alarm can exist, and only this alarm interacts with this bit
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// of the TIMER.inte register
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unsafe {
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let timer = &(*pac::TIMER::ptr());
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let reg = (&timer.inte).as_ptr();
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write_bitmask_clear(reg, $armed_bit_mask);
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}
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}
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/// Schedule the alarm to be finished after `countdown`. If [enable_interrupt] is called, this will trigger interrupt `
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