//! Two tasks running at *different* priorities with access to the same resource #![deny(unsafe_code)] #![feature(const_fn)] #![feature(proc_macro)] #![no_std] extern crate cortex_m_rtfm as rtfm; extern crate stm32f103xx; use rtfm::{app, Resource, Threshold}; app! { device: stm32f103xx, resources: { static COUNTER: u64 = 0; }, tasks: { // The `SYS_TICK` task has higher priority than `TIM2` SYS_TICK: { path: sys_tick, priority: 2, resources: [COUNTER], }, TIM2: { path: tim2, priority: 1, resources: [COUNTER], }, }, } fn init(_p: init::Peripherals, _r: init::Resources) { // .. } fn idle() -> ! { loop { rtfm::wfi(); } } fn sys_tick(_t: &mut Threshold, r: SYS_TICK::Resources) { // .. // This task can't be preempted by `tim2` so it has direct access to the // resource data **r.COUNTER += 1; // .. } fn tim2(t: &mut Threshold, mut r: TIM2::Resources) { // .. // As this task runs at lower priority it needs a critical section to // prevent `sys_tick` from preempting it while it modifies this resource // data. The critical section is required to prevent data races which can // lead to undefined behavior r.COUNTER.claim_mut(t, |counter, _t| { **counter += 1; }); // .. }