forked from pinealservo/blue_pill_ui
129 lines
4.3 KiB
Rust
129 lines
4.3 KiB
Rust
//! Blinks an LED
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//!
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//! This assumes that a LED is connected to pc13 as is the case on the blue pill board.
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//!
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//! Note: Without additional hardware, PC13 should not be used to drive an LED, see page 5.1.2 of
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//! the reference manual for an explanation. This is not an issue on the blue pill.
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#![deny(unsafe_code)]
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#![no_std]
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#![no_main]
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use panic_rtt_target as _;
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// RTIC requires that unused interrupts are declared in "dispatchers" when
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// using software tasks; these free interrupts will be used to dispatch the
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// software tasks.
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//
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// For a list, see:
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// https://docs.rs/stm32f1xx-hal/0.6.1/stm32f1xx_hal/stm32/enum.Interrupt.html
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#[rtic::app(device = stm32f1xx_hal::stm32, peripherals = true, dispatchers = [TAMPER])]
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mod app {
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use core::sync::atomic::{self, Ordering};
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use rtt_target::{rprintln, rtt_init_print};
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use stm32f1xx_hal::{
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prelude::*,
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stm32,
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timer::{Event, Timer},
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};
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use stm32f1xx_hal as hal;
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// Defining this struct makes shared resources available to tasks;
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// they will be initialized by the values returned from `init` and
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// will be wrapped in a `Mutex` and must be accessed via a closure
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// passed to its `lock` method.
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// If you annotate a field with #[lock_free] you can opt-out of the
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// mutex but it may only be shared by tasks at the same priority.
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#[shared]
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struct Shared {}
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// This struct defines local resources (accessed by only one task);
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// they will be initialized by the values returned from `init` and
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// can be accessed directly.
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#[local]
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struct Local {
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led1: hal::gpio::gpioc::PC13<hal::gpio::Output<hal::gpio::PushPull>>,
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tmr2: hal::timer::CountDownTimer<stm32::TIM2>,
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tmr3: hal::timer::CountDownTimer<stm32::TIM3>,
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}
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// This task does startup config; the peripherals are passed in thanks to
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// `peripherals = true` in the app definition. They are the `device` and
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// `core` fields of `init::Context`.
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#[init]
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fn init(cx: init::Context) -> (Shared, Local, init::Monotonics) {
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rtt_init_print!();
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rprintln!("init begin");
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// Set everything to 8MHz using the external clock
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let mut flash = cx.device.FLASH.constrain();
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let rcc = cx.device.RCC.constrain();
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let clocks = rcc
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.cfgr
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.use_hse(8.mhz())
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.sysclk(8.mhz())
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.hclk(8.mhz())
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.pclk1(8.mhz())
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.pclk2(8.mhz())
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.adcclk(8.mhz())
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.freeze(&mut flash.acr);
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// LED is on pin C13, configure it for output
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let mut gpioc = cx.device.GPIOC.split();
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let led1 = gpioc.pc13.into_push_pull_output(&mut gpioc.crh);
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// Use TIM2 for the beat counter task
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let mut tmr2 = Timer::tim2(cx.device.TIM2, &clocks).start_count_down(1.hz());
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tmr2.listen(Event::Update);
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// Use TIM3 for the LED blinker task
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let mut tmr3 = Timer::tim3(cx.device.TIM3, &clocks).start_count_down(2.hz());
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tmr3.listen(Event::Update);
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rprintln!("init end");
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(Shared {}, Local { led1, tmr2, tmr3 }, init::Monotonics())
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}
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#[idle]
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fn idle(_: idle::Context) -> ! {
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loop {
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// The compiler may omit this loop without the following
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atomic::compiler_fence(Ordering::SeqCst);
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}
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}
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// Update the beat counter and periodically display the current count
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// on the RTT channel
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// Since `beat` is a local, we can have it initialized.
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#[task(local = [beat: u32 = 0])]
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fn beat_update(cx: beat_update::Context) {
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if *cx.local.beat % 10 == 0 {
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rprintln!("TIM2 beat = {}", *cx.local.beat);
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}
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*cx.local.beat += 1;
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}
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// Interrupt task for TIM2, the beat counter timer
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#[task(binds = TIM2, priority = 2, local = [tmr2])]
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fn tim2(cx: tim2::Context) {
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// Delegate the state update to a software task
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beat_update::spawn().unwrap();
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// Restart the timer and clear the interrupt flag
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cx.local.tmr2.start(1.hz());
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cx.local.tmr2.clear_update_interrupt_flag();
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}
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// Interrupt task for TIM3, the LED blink timer
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#[task(binds = TIM3, priority = 1, local = [led1, tmr3])]
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fn tim3(cx: tim3::Context) {
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cx.local.led1.toggle();
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cx.local.tmr3.start(2.hz());
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cx.local.tmr3.clear_update_interrupt_flag();
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}
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}
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