rtic/examples/tq.rs
Jorge Aparicio 1f5f94bc31 take 3
2018-04-20 06:48:59 +02:00

271 lines
6.8 KiB
Rust

// #![deny(unsafe_code)]
// #![deny(warnings)]
#![allow(dead_code)]
#![feature(proc_macro)]
#![no_std]
#[macro_use]
extern crate cortex_m;
extern crate cortex_m_rtfm as rtfm;
extern crate panic_abort;
extern crate stm32f103xx;
use core::cmp;
use cortex_m::peripheral::syst::SystClkSource;
use cortex_m::peripheral::ITM;
use rtfm::ll::{Consumer, FreeList, Instant, Node, Producer, RingBuffer, Slot, TaggedPayload,
TimerQueue};
use rtfm::{app, Resource, Threshold};
use stm32f103xx::Interrupt;
const ACAP: usize = 2;
const MS: u32 = 8_000;
app! {
device: stm32f103xx,
resources: {
/* timer queue */
static TQ: TimerQueue<Task, [TaggedPayload<Task>; 2]>;
/* a */
// payloads w/ after
static AN: [Node<i32>; 2] = [Node::new(), Node::new()];
static AFL: FreeList<i32> = FreeList::new();
/* exti0 */
static Q1: RingBuffer<TaggedPayload<Task1>, [TaggedPayload<Task1>; ACAP + 1], u8> =
RingBuffer::u8();
static Q1C: Consumer<'static, TaggedPayload<Task1>, [TaggedPayload<Task1>; ACAP + 1], u8>;
static Q1P: Producer<'static, TaggedPayload<Task1>, [TaggedPayload<Task1>; ACAP + 1], u8>;
},
init: {
resources: [AN, Q1],
},
tasks: {
EXTI1: {
path: exti1,
resources: [TQ, AFL],
priority: 1,
// async: [a],
},
// dispatch interrupt
EXTI0: {
path: exti0,
resources: [Q1C, AFL],
priority: 1,
},
// timer queue
SYS_TICK: {
path: sys_tick,
resources: [TQ, Q1P],
priority: 2,
},
},
}
pub fn init(mut p: ::init::Peripherals, r: init::Resources) -> init::LateResources {
// ..
/* executed after `init` end */
p.core.DWT.enable_cycle_counter();
unsafe { p.core.DWT.cyccnt.write(0) };
p.core.SYST.set_clock_source(SystClkSource::Core);
p.core.SYST.enable_counter();
p.core.SYST.disable_interrupt();
// populate the free list
for n in r.AN {
r.AFL.push(Slot::new(n));
}
let (q1p, q1c) = r.Q1.split();
init::LateResources {
TQ: TimerQueue::new(p.core.SYST),
Q1C: q1c,
Q1P: q1p,
}
}
pub fn idle() -> ! {
rtfm::set_pending(Interrupt::EXTI1);
loop {
rtfm::wfi()
}
}
fn a(_t: &mut Threshold, bl: Instant, payload: i32) {
unsafe {
iprintln!(
&mut (*ITM::ptr()).stim[0],
"a(now={:?}, bl={:?}, payload={})",
Instant::now(),
bl,
payload
)
}
}
fn exti1(t: &mut Threshold, r: EXTI1::Resources) {
/* expansion */
let bl = Instant::now();
let mut async = a::Async::new(bl, r.TQ, r.AFL);
/* end of expansion */
unsafe { iprintln!(&mut (*ITM::ptr()).stim[0], "EXTI0(bl={:?})", bl) }
async.a(t, 100 * MS, 0).unwrap();
async.a(t, 50 * MS, 1).unwrap();
}
/* auto generated */
fn exti0(t: &mut Threshold, mut r: EXTI0::Resources) {
while let Some(payload) = r.Q1C.dequeue() {
match payload.tag() {
Task1::a => {
let (bl, payload, slot) = unsafe { payload.coerce() }.read();
r.AFL.claim_mut(t, |afl, _| afl.push(slot));
a(&mut unsafe { Threshold::new(1) }, bl, payload);
}
}
}
}
fn sys_tick(t: &mut Threshold, r: SYS_TICK::Resources) {
#[allow(non_snake_case)]
let SYS_TICK::Resources { mut Q1P, mut TQ } = r;
enum State<T>
where
T: Copy,
{
Payload(TaggedPayload<T>),
Baseline(Instant),
Done,
}
loop {
let state = TQ.claim_mut(t, |tq, _| {
if let Some(bl) = tq.queue.peek().map(|p| p.baseline()) {
if Instant::now() >= bl {
// message ready
State::Payload(tq.queue.pop().unwrap())
} else {
// new timeout
State::Baseline(bl)
}
} else {
// empty queue
tq.syst.disable_interrupt();
State::Done
}
});
match state {
State::Payload(p) => match p.tag() {
Task::a => {
Q1P.claim_mut(t, |q1p, _| q1p.enqueue_unchecked(p.retag(Task1::a)));
rtfm::set_pending(Interrupt::EXTI0);
}
},
State::Baseline(bl) => {
const MAX: u32 = 0x00ffffff;
let diff = bl - Instant::now();
if diff < 0 {
// message became ready
continue;
} else {
TQ.claim_mut(t, |tq, _| {
tq.syst.set_reload(cmp::min(MAX, diff as u32));
tq.syst.clear_current();
});
return;
}
}
State::Done => {
return;
}
}
}
}
// Tasks dispatched at a priority of 1
#[allow(non_camel_case_types)]
#[derive(Clone, Copy)]
pub enum Task1 {
a,
}
// All tasks
#[allow(non_camel_case_types)]
#[derive(Clone, Copy)]
pub enum Task {
a,
}
mod a {
use cortex_m::peripheral::SCB;
use rtfm::ll::Instant;
use rtfm::{Resource, Threshold};
use Task;
#[allow(non_snake_case)]
pub struct Async {
// inherited baseline
baseline: Instant,
TQ: ::EXTI1::TQ,
AFL: ::EXTI1::AFL,
}
impl Async {
#[allow(non_snake_case)]
pub fn new(bl: Instant, TQ: ::EXTI1::TQ, AFL: ::EXTI1::AFL) -> Self {
Async {
baseline: bl,
TQ,
AFL,
}
}
pub fn a(&mut self, t: &mut Threshold, after: u32, payload: i32) -> Result<(), i32> {
if let Some(slot) = self.AFL.claim_mut(t, |afl, _| afl.pop()) {
let baseline = self.baseline;
self.TQ.claim_mut(t, |tq, _| {
if tq.queue.capacity() == tq.queue.len() {
// full
Err(payload)
} else {
let bl = baseline + after;
if tq.queue
.peek()
.map(|head| bl < head.baseline())
.unwrap_or(true)
{
tq.syst.enable_interrupt();
// Set SYST pending
unsafe { (*SCB::ptr()).icsr.write(1 << 26) }
}
tq.queue.push(slot.write(bl, payload).tag(Task::a)).ok();
Ok(())
}
})
} else {
Err(payload)
}
}
}
}