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rtic/rtic-monotonics/src/rp2040.rs
Finomnis 612a47ef4d
Fix mono delay (#843) 
* rtic-time: Compenstate for timer uncertainty

* Update changelog and incorrect cargo.lock in an example

* Fix Monotonic impls

* Fix tests

* Fix other monotonics, again

* Update changelog

* Fix example

* Fix DelayUs and DelayMs impls

* Minor coding style fix in u64 conversions

* Fix all changelogs

* Fix changelog

* Fix blocking DelayUs

* Minor monotonic rework

* Add delay precision test

* Add more tests

* Add rust-version tags to Cargo.toml

* Fix imxrt, rp2040 and systick timer

* Fix more monotonics

* Fix systick monotonic

* Some reverts

* Fix imxrt

* Fix nrf

* Fix rp2040

* Fix stm32

* Fix systick

* Fix rtic-time tests

* Bump to e-h.rc2

* Apply e-h.rc2 fixes to rtic-time

* Apply fixes from arbiter

* Fix clippy warning

* Minor beautification

* Revert previous changes

* Fix variable name

* Add blocking tests, but disable them by default
2023-12-01 07:59:22 +00:00

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//! [`Monotonic`] implementation for RP2040's Timer peripheral.
//!
//! # Example
//!
//! ```
//! use rtic_monotonics::rp2040::*;
//!
//! fn init() {
//! # // This is normally provided by the selected PAC
//! # let timer = unsafe { core::mem::transmute(()) };
//! # let mut resets = unsafe { core::mem::transmute(()) };
//! // Generate the required token
//! let token = rtic_monotonics::create_rp2040_monotonic_token!();
//!
//! // Start the monotonic
//! Timer::start(timer, &mut resets, token);
//! }
//!
//! async fn usage() {
//! loop {
//! // Use the monotonic
//! Timer::delay(100.millis()).await;
//! }
//! }
//! ```
use super::Monotonic;
pub use super::{TimeoutError, TimerQueue};
use core::future::Future;
pub use fugit::{self, ExtU64, ExtU64Ceil};
use rp2040_pac::{timer, Interrupt, NVIC, RESETS, TIMER};
/// Timer implementing [`Monotonic`] which runs at 1 MHz.
pub struct Timer;
impl Timer {
/// Start a `Monotonic` based on RP2040's Timer.
pub fn start(
timer: TIMER,
resets: &RESETS,
_interrupt_token: impl crate::InterruptToken<Self>,
) {
resets.reset.modify(|_, w| w.timer().clear_bit());
while resets.reset_done.read().timer().bit_is_clear() {}
timer.inte.modify(|_, w| w.alarm_0().bit(true));
TIMER_QUEUE.initialize(Self {});
unsafe {
crate::set_monotonic_prio(rp2040_pac::NVIC_PRIO_BITS, Interrupt::TIMER_IRQ_0);
NVIC::unmask(Interrupt::TIMER_IRQ_0);
}
}
fn timer() -> &'static timer::RegisterBlock {
unsafe { &*TIMER::ptr() }
}
}
static TIMER_QUEUE: TimerQueue<Timer> = TimerQueue::new();
// Forward timerqueue interface
impl Timer {
/// Used to access the underlying timer queue
#[doc(hidden)]
pub fn __tq() -> &'static TimerQueue<Timer> {
&TIMER_QUEUE
}
/// Timeout at a specific time.
#[inline]
pub async fn timeout_at<F: Future>(
instant: <Self as Monotonic>::Instant,
future: F,
) -> Result<F::Output, TimeoutError> {
TIMER_QUEUE.timeout_at(instant, future).await
}
/// Timeout after a specific duration.
#[inline]
pub async fn timeout_after<F: Future>(
duration: <Self as Monotonic>::Duration,
future: F,
) -> Result<F::Output, TimeoutError> {
TIMER_QUEUE.timeout_after(duration, future).await
}
/// Delay for some duration of time.
#[inline]
pub async fn delay(duration: <Self as Monotonic>::Duration) {
TIMER_QUEUE.delay(duration).await;
}
/// Delay to some specific time instant.
#[inline]
pub async fn delay_until(instant: <Self as Monotonic>::Instant) {
TIMER_QUEUE.delay_until(instant).await;
}
}
impl Monotonic for Timer {
type Instant = fugit::TimerInstantU64<1_000_000>;
type Duration = fugit::TimerDurationU64<1_000_000>;
const ZERO: Self::Instant = Self::Instant::from_ticks(0);
const TICK_PERIOD: Self::Duration = Self::Duration::from_ticks(1);
fn now() -> Self::Instant {
let timer = Self::timer();
let mut hi0 = timer.timerawh.read().bits();
loop {
let low = timer.timerawl.read().bits();
let hi1 = timer.timerawh.read().bits();
if hi0 == hi1 {
break Self::Instant::from_ticks((u64::from(hi0) << 32) | u64::from(low));
}
hi0 = hi1;
}
}
fn set_compare(instant: Self::Instant) {
let now = Self::now();
let max = u32::MAX as u64;
// 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) {
Some(x) if x.ticks() <= max => instant.duration_since_epoch().ticks() & max, // Will not overflow
_ => 0, // Will overflow or in the past, set the same value as after overflow to not get extra interrupts
};
Self::timer()
.alarm0
.write(|w| unsafe { w.bits(val as u32) });
}
fn clear_compare_flag() {
Self::timer().intr.modify(|_, w| w.alarm_0().bit(true));
}
fn pend_interrupt() {
rp2040_pac::NVIC::pend(Interrupt::TIMER_IRQ_0);
}
fn on_interrupt() {}
fn enable_timer() {}
fn disable_timer() {}
}
rtic_time::embedded_hal_delay_impl_fugit64!(Timer);
#[cfg(feature = "embedded-hal-async")]
rtic_time::embedded_hal_async_delay_impl_fugit64!(Timer);
/// Register the Timer interrupt for the monotonic.
#[macro_export]
macro_rules! create_rp2040_monotonic_token {
() => {{
#[no_mangle]
#[allow(non_snake_case)]
unsafe extern "C" fn TIMER_IRQ_0() {
$crate::rp2040::Timer::__tq().on_monotonic_interrupt();
}
pub struct Rp2040Token;
unsafe impl $crate::InterruptToken<$crate::rp2040::Timer> for Rp2040Token {}
Rp2040Token
}};
}
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