//! examples/lock.rs #![deny(unsafe_code)] #![deny(warnings)] #![no_main] #![no_std] use cortex_m_semihosting::{debug, hprintln}; use lm3s6965::Interrupt; use panic_semihosting as _; use rtic::Mutex; use rtic_core::Exclusive; #[rtic::app(device = lm3s6965)] const APP: () = { struct Resources { #[init(0)] shared: u32, } #[init] fn init(_: init::Context) { rtic::pend(Interrupt::GPIOA); } // when omitted priority is assumed to be `1` #[task(binds = GPIOA, resources = [shared])] fn gpioa(c: gpioa::Context) { hprintln!("A").unwrap(); // the lower priority task requires a critical section to access the data c.resources.shared.lock(|shared| { // data can only be modified within this critical section (closure) *shared += 1; // GPIOB will *not* run right now due to the critical section rtic::pend(Interrupt::GPIOB); hprintln!("B - shared = {}", *shared).unwrap(); // GPIOC does not contend for `shared` so it's allowed to run now rtic::pend(Interrupt::GPIOC); }); // critical section is over: GPIOB can now start hprintln!("E").unwrap(); debug::exit(debug::EXIT_SUCCESS); } #[task(binds = GPIOB, priority = 2, resources = [shared])] fn gpiob(c: gpiob::Context) { c.resources.shared.lock(|shared| { *shared += 1; hprintln!("D - shared = {}", shared).unwrap(); }); } #[task(binds = GPIOC, priority = 3, resources = [shared])] fn gpioc(c: gpioc::Context) { static mut STATE: u32 = 0; hprintln!("GPIOC(STATE = {})", *STATE).unwrap(); *c.resources.shared += 2; let mut ex_shared = Exclusive::new(c.resources.shared); // a mutable exclusive is still possible to DerefMut *ex_shared += 1; *c.resources.shared += 3; // will fail advance(STATE, ex_shared); // try swap order of (1) hprintln!("GPIOC(STATE = {})", *STATE).unwrap(); } }; // the second parameter is generic: it can be any type that implements the `Mutex` trait fn advance(state: &mut u32, shared: impl Mutex) { *state += 1; let (old, new) = shared.lock(|shared: &mut u32| { let old = *shared; *shared += *state; (old, *shared) }); hprintln!("shared: {} -> {}", old, new).unwrap(); }