use core::sync::atomic::{AtomicUsize, Ordering}; use log; use trinket_m0::{clock::GenericClockController, RTC}; struct Clock(AtomicUsize); impl Clock { const fn new() -> Self { Self(AtomicUsize::new(0)) } fn set(&self, millis: usize) { self.0.store(millis, Ordering::SeqCst) } // Slightly less than 1ms, due to using a 32,768Hz clock, we can't // hit exactly 1ms, so we shoot for a bit under. fn millis(&self) -> usize { self.0.load(Ordering::SeqCst) } } static CLOCK: Clock = Clock::new(); // Set to run every ~500µs. This has been loosely calibrated from a // nrf52 clock running Arduino and a Linux host. static COUNTER: u32 = 13; pub fn setup(mut rtc: RTC, clocks: &mut GenericClockController) -> impl FnMut() { let rtc_clock = &clocks.gclk1(); clocks.rtc(&rtc_clock); rtc.mode0().ctrl.write(|w| w.swrst().set_bit()); while rtc.mode0().status.read().syncbusy().bit_is_set() {} rtc.mode0().ctrl.write(|w| { w.mode().count32(); // Neither the prescaler nor matchlr values seem to work. Not // sure why. //w.prescaler().div1024(); w.matchclr().set_bit() // Reset on match for periodic }); rtc.mode0().comp[0].write(|w| unsafe { w.bits(COUNTER) }); rtc.mode0().intflag.write(|w| w.cmp0().set_bit()); rtc.mode0().intenset.write(|w| w.cmp0().set_bit()); // Enable the RTC and wait for sync. rtc.mode0().ctrl.write(|w| w.enable().set_bit()); while rtc.mode0().status.read().syncbusy().bit_is_set() {} move || handler(&mut rtc) } pub fn millis() -> usize { CLOCK.millis() } fn handler(rtc: &mut RTC) { // FIXME: matchclr doesn't seem to work to reset the counter? rtc.mode0().count.write(|w| unsafe { w.bits(0) }); rtc.mode0().intflag.write(|w| w.cmp0().set_bit()); static mut TICKS: usize = 0; static mut ADD: bool = false; unsafe { if ADD { TICKS += 1; CLOCK.set(TICKS); } ADD = !ADD; log::logger().flush(); } }