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October 7, 2021 19:57
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rtic 0.6 monotonic timer for stm32L0
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#![no_main] | |
#![no_std] | |
use rtic::rtic_monotonic::{embedded_time, Clock, Fraction, Instant, Monotonic}; | |
use stm32l0xx_hal::pac::TIM21; | |
use stm32l0xx_hal::timer::Timer; | |
/// Extended TIM21/16 to 64 bits | |
pub struct ExtendedMonotonicTimer<TIM> { | |
_tim: Timer<TIM>, | |
ovf: u64, | |
} | |
impl ExtendedMonotonicTimer<TIM21> { | |
pub fn new(tim: Timer<TIM21>) -> Self { | |
ExtendedMonotonicTimer { _tim: tim, ovf: 0 } | |
} | |
fn is_overflow(&self) -> bool { | |
let tim = unsafe { &*TIM21::ptr() }; | |
tim.sr.read().uif().bit_is_set() | |
} | |
pub fn count(&self) -> u16 { | |
let cnt = unsafe { (*TIM21::ptr()).cnt.read() }; | |
//defmt::info!("cnt {}", cnt.cnt().bits()); | |
cnt.cnt().bits() | |
} | |
} | |
impl Clock for ExtendedMonotonicTimer<TIM21> { | |
const SCALING_FACTOR: Fraction = Fraction::new(1, 64_000_000); | |
type T = u64; | |
fn try_now(&self) -> Result<Instant<Self>, embedded_time::clock::Error> { | |
let cnt = self.count(); | |
// If the overflow bit is set, we add this to the timer value. It means the `on_interrupt` | |
// has not yet happened, and we need to compensate here. | |
let ovf = if self.is_overflow() { 0x10000 } else { 0 }; | |
Ok(Instant::new(cnt as u64 + ovf as u64 + self.ovf)) | |
} | |
} | |
/// Use Compare channel 1 for Monotonic | |
impl Monotonic for ExtendedMonotonicTimer<TIM21> { | |
// Since we are counting overflows we can't let RTIC disable the interrupt. | |
const DISABLE_INTERRUPT_ON_EMPTY_QUEUE: bool = false; | |
unsafe fn reset(&mut self) { | |
// Since reset is only called once, we use it to enable the interrupt generation bit. | |
let tim = &*TIM21::ptr(); | |
tim.dier.modify(|_, w| w.cc1ie().set_bit()); | |
tim.cnt.write(|w| w.bits(0)); | |
} | |
fn set_compare(&mut self, instant: &Instant<Self>) { | |
let now = self.try_now().unwrap(); | |
// Since the timer may or may not overflow based on the requested compare val, we check | |
// how many ticks are left. | |
let val = match instant.checked_duration_since(&now) { | |
None => self.count().wrapping_add(1), // In the past | |
Some(x) if x.integer() <= 0xffff => instant.duration_since_epoch().integer() as u16, // Will not overflow | |
Some(_x) => self.count().wrapping_add(0xffff), // Will overflow | |
}; | |
unsafe { (*TIM21::ptr()).ccr1.write(|w| w.ccr().bits(val)) }; | |
} | |
fn clear_compare_flag(&mut self) { | |
let tim = unsafe { &*TIM21::ptr() }; | |
tim.sr.modify(|_, w| w.cc1if().clear_bit()); | |
} | |
fn on_interrupt(&mut self) { | |
// If there was an overflow, increment the overflow counter. | |
if self.is_overflow() { | |
let tim = unsafe { &*TIM21::ptr() }; | |
tim.sr.modify(|_, w| w.uif().clear_bit()); | |
self.ovf += 0x10000; | |
} | |
} | |
} |
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https://github.com/stm32-rs/stm32l4xx-hal/blob/rtic_0.6_monotonic/src/timer.rs#L236-L289