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Add multi-priority executor example.

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Dario Nieuwenhuis 2020-09-26 00:36:02 +02:00
parent 37d2b440ff
commit 68eac3a57c
2 changed files with 186 additions and 1 deletions
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2
README.md
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@ -18,7 +18,7 @@ The `embassy::executor` module provides an async/await executor based on [static
- No `alloc`, no heap needed. Task futures are statically allocated.
- Integrated timer queue allows simple sleeping: `Timer::after(Duration::from_ticks(64000)).await;`.
- Suitable for low-power operation. Using interrupts or `WFE/SEV` ensures the CPU sleeps when there's no work to do. No busy-loop polling.
- Creating multiple executor instances is supported, to run tasks with multiple priority levels. This allows higher-priority tasks to preempt lower-priority tasks. (example coming soon)
- Creating multiple executor instances is supported, to run tasks with multiple priority levels. This allows higher-priority tasks to preempt lower-priority tasks.
- Compatible with RTIC (example coming soon).
## Utils

185
examples/src/bin/multiprio.rs Normal file
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@ -0,0 +1,185 @@
//! This example showcases how to create multiple Executor instances to run tasks at
//! different priority levels.
//!
//! Low priority executor runs in thread mode (not interrupt), and uses `sev` for signaling
//! there's work in the queue, and `wfe` for waiting for work.
//!
//! Medium and high priority executors run in two interrupts with different priorities.
//! Signaling work is done by pending the interrupt. No "waiting" needs to be done explicitly, since
//! when there's work the interrupt will trigger and run the executor.
//!
//! Sample output below. Note that high priority ticks can interrupt everything else, and
//! medium priority computations can interrupt low priority computations, making them to appear
//! to take significantly longer time.
//!
//! ```not_rust
//! [med] Starting long computation
//! [med] done in 992 ms
//! [high] tick!
//! [low] Starting long computation
//! [med] Starting long computation
//! [high] tick!
//! [high] tick!
//! [med] done in 993 ms
//! [med] Starting long computation
//! [high] tick!
//! [high] tick!
//! [med] done in 993 ms
//! [low] done in 3972 ms
//! [med] Starting long computation
//! [high] tick!
//! [high] tick!
//! [med] done in 993 ms
//! ```
//!
//! For comparison, try changing the code so all 3 tasks get spawned on the low priority executor.
//! You will get an output like the following. Note that no computation is ever interrupted.
//!
//! ```not_rust
//! [high] tick!
//! [med] Starting long computation
//! [med] done in 496 ms
//! [low] Starting long computation
//! [low] done in 992 ms
//! [med] Starting long computation
//! [med] done in 496 ms
//! [high] tick!
//! [low] Starting long computation
//! [low] done in 992 ms
//! [high] tick!
//! [med] Starting long computation
//! [med] done in 496 ms
//! [high] tick!
//! ```
//!
#![no_std]
#![no_main]
#![feature(type_alias_impl_trait)]
#[path = "../example_common.rs"]
mod example_common;
use example_common::*;
use core::mem::MaybeUninit;
use cortex_m_rt::entry;
use embassy::executor::{task, Executor};
use embassy::time::{Duration, Instant, Timer};
use embassy_nrf::{interrupt, pac, rtc};
use nrf52840_hal::clocks;
#[task]
async fn run_high() {
loop {
info!(" [high] tick!");
Timer::after(Duration::from_ticks(27374)).await;
}
}
#[task]
async fn run_med() {
loop {
let start = Instant::now();
info!(" [med] Starting long computation");
// Spin-wait to simulate a long CPU computation
cortex_m::asm::delay(32_000_000); // ~1 second
let end = Instant::now();
let ms = end.duration_since(start).into_ticks() / 33;
info!(" [med] done in {:u32} ms", ms);
Timer::after(Duration::from_ticks(23421)).await;
}
}
#[task]
async fn run_low() {
loop {
let start = Instant::now();
info!("[low] Starting long computation");
// Spin-wait to simulate a long CPU computation
cortex_m::asm::delay(64_000_000); // ~2 seconds
let end = Instant::now();
let ms = end.duration_since(start).into_ticks() / 33;
info!("[low] done in {:u32} ms", ms);
Timer::after(Duration::from_ticks(32983)).await;
}
}
static mut RTC: MaybeUninit<rtc::RTC<pac::RTC1>> = MaybeUninit::uninit();
static mut EXECUTOR_LOW: MaybeUninit<Executor<rtc::Alarm<pac::RTC1>>> = MaybeUninit::uninit();
static mut EXECUTOR_MED: MaybeUninit<Executor<rtc::Alarm<pac::RTC1>>> = MaybeUninit::uninit();
static mut EXECUTOR_HIGH: MaybeUninit<Executor<rtc::Alarm<pac::RTC1>>> = MaybeUninit::uninit();
#[entry]
fn main() -> ! {
info!("Hello World!");
let p = embassy_nrf::pac::Peripherals::take().dewrap();
clocks::Clocks::new(p.CLOCK)
.enable_ext_hfosc()
.set_lfclk_src_external(clocks::LfOscConfiguration::NoExternalNoBypass)
.start_lfclk();
let rtc: &'static _ = unsafe {
let ptr = RTC.as_mut_ptr();
ptr.write(rtc::RTC::new(p.RTC1));
&*ptr
};
rtc.start();
unsafe { embassy::time::set_clock(rtc) };
let executor_low: &'static _ = unsafe {
let ptr = EXECUTOR_LOW.as_mut_ptr();
ptr.write(Executor::new(rtc.alarm0(), cortex_m::asm::sev));
&*ptr
};
let executor_med: &'static _ = unsafe {
let ptr = EXECUTOR_MED.as_mut_ptr();
ptr.write(Executor::new(rtc.alarm1(), || {
interrupt::pend(interrupt::SWI0_EGU0)
}));
&*ptr
};
let executor_high: &'static _ = unsafe {
let ptr = EXECUTOR_HIGH.as_mut_ptr();
ptr.write(Executor::new(rtc.alarm2(), || {
interrupt::pend(interrupt::SWI1_EGU1)
}));
&*ptr
};
interrupt::set_priority(interrupt::SWI0_EGU0, interrupt::Priority::Level7);
interrupt::set_priority(interrupt::SWI1_EGU1, interrupt::Priority::Level6);
interrupt::enable(interrupt::SWI0_EGU0);
interrupt::enable(interrupt::SWI1_EGU1);
unsafe {
executor_low.spawn(run_low()).dewrap();
executor_med.spawn(run_med()).dewrap();
executor_high.spawn(run_high()).dewrap();
loop {
executor_low.run();
cortex_m::asm::wfe();
}
}
}
#[interrupt]
unsafe fn SWI0_EGU0() {
EXECUTOR_MED.as_ptr().as_ref().unwrap().run()
}
#[interrupt]
unsafe fn SWI1_EGU1() {
EXECUTOR_HIGH.as_ptr().as_ref().unwrap().run()
}