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fc04d2a33c
embassy/embassy-stm32/src/low_power.rs
xoviat fc04d2a33c rtc: get wakup irq working
2023-08-23 19:52:32 -05:00

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Rust
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use core::arch::asm;
use core::marker::PhantomData;
use cortex_m::peripheral::SCB;
use embassy_executor::*;
use embassy_time::Duration;
use crate::interrupt;
use crate::interrupt::typelevel::Interrupt;
use crate::pac::EXTI;
const THREAD_PENDER: usize = usize::MAX;
const THRESHOLD: Duration = Duration::from_millis(500);
use crate::rtc::{Rtc, RtcInstant};
static mut RTC: Option<&'static Rtc> = None;
foreach_interrupt! {
(RTC, rtc, $block:ident, WKUP, $irq:ident) => {
#[interrupt]
unsafe fn $irq() {
Executor::on_wakeup_irq();
}
};
}
pub fn stop_with_rtc(rtc: &'static Rtc) {
crate::interrupt::typelevel::RTC_WKUP::unpend();
unsafe { crate::interrupt::typelevel::RTC_WKUP::enable() };
EXTI.rtsr(0).modify(|w| w.set_line(22, true));
EXTI.imr(0).modify(|w| w.set_line(22, true));
unsafe { RTC = Some(rtc) };
}
pub fn start_wakeup_alarm(requested_duration: embassy_time::Duration) -> RtcInstant {
unsafe { RTC }.unwrap().start_wakeup_alarm(requested_duration)
}
pub fn stop_wakeup_alarm() -> RtcInstant {
unsafe { RTC }.unwrap().stop_wakeup_alarm()
}
/// Thread mode executor, using WFE/SEV.
///
/// This is the simplest and most common kind of executor. It runs on
/// thread mode (at the lowest priority level), and uses the `WFE` ARM instruction
/// to sleep when it has no more work to do. When a task is woken, a `SEV` instruction
/// is executed, to make the `WFE` exit from sleep and poll the task.
///
/// This executor allows for ultra low power consumption for chips where `WFE`
/// triggers low-power sleep without extra steps. If your chip requires extra steps,
/// you may use [`raw::Executor`] directly to program custom behavior.
pub struct Executor {
inner: raw::Executor,
not_send: PhantomData<*mut ()>,
}
impl Executor {
/// Create a new Executor.
pub fn new() -> Self {
Self {
inner: raw::Executor::new(THREAD_PENDER as *mut ()),
not_send: PhantomData,
}
}
unsafe fn on_wakeup_irq() {
info!("on wakeup irq");
cortex_m::asm::bkpt();
}
fn low_power_ready(&self) -> bool {
true
}
fn time_until_next_alarm(&self) -> Duration {
Duration::from_secs(3)
}
fn get_scb(&self) -> SCB {
unsafe { cortex_m::Peripherals::steal() }.SCB
}
fn configure_pwr(&self) {
trace!("low power before wfe");
if !self.low_power_ready() {
return;
}
let time_until_next_alarm = self.time_until_next_alarm();
if time_until_next_alarm < THRESHOLD {
return;
}
trace!("low power stop required");
critical_section::with(|_| {
trace!("executor: set wakeup alarm...");
start_wakeup_alarm(time_until_next_alarm);
trace!("low power wait for rtc ready...");
self.get_scb().set_sleepdeep();
});
}
/// Run the executor.
///
/// The `init` closure is called with a [`Spawner`] that spawns tasks on
/// this executor. Use it to spawn the initial task(s). After `init` returns,
/// the executor starts running the tasks.
///
/// To spawn more tasks later, you may keep copies of the [`Spawner`] (it is `Copy`),
/// for example by passing it as an argument to the initial tasks.
///
/// This function requires `&'static mut self`. This means you have to store the
/// Executor instance in a place where it'll live forever and grants you mutable
/// access. There's a few ways to do this:
///
/// - a [StaticCell](https://docs.rs/static_cell/latest/static_cell/) (safe)
/// - a `static mut` (unsafe)
/// - a local variable in a function you know never returns (like `fn main() -> !`), upgrading its lifetime with `transmute`. (unsafe)
///
/// This function never returns.
pub fn run(&'static mut self, init: impl FnOnce(Spawner)) -> ! {
init(self.inner.spawner());
loop {
unsafe {
self.inner.poll();
self.configure_pwr();
asm!("wfe");
};
}
}
}
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