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add enable
/ disable
functions, add $enabled parameter to tasks!
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1 changed files with 65 additions and 34 deletions
99
src/lib.rs
99
src/lib.rs
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@ -1,6 +1,7 @@
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//! RTFM: Real Time For the Masses (ARM Cortex-M edition)
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//!
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//! RTFM is a framework for building event driven / real time applications.
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//! RTFM is a framework for building embedded event-driven / real-time
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//! applications.
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//!
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//! This crate is based on the RTFM framework created by [prof. Per
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//! Lindgren][per] and uses a simplified version of the Stack Resource Policy as
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@ -17,15 +18,15 @@
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//! - Deadlock free execution guaranteed at compile time.
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//! - Minimal overhead as the scheduler has no software component / runtime; the
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//! hardware does all the scheduling.
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//! - Full support for all Cortex M3, M4 and M7 devices. M0(+) is partially
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//! supported at this time.
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//! - The number of priority levels is configurable at compile time through the
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//! `P2` (4 levels), `P3` (8 levels), etc. Cargo features. The number of
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//! - Full support for all Cortex M3, M4 and M7 devices. M0(+) is also supported
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//! but the whole API is not available (due to missing hardware features).
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//! - The number of task priority levels is configurable at compile time through
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//! the `P2` (4 levels), `P3` (8 levels), etc. Cargo features. The number of
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//! priority levels supported by the hardware is device specific but this
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//! crate defaults to 16 as that's the most common scenario.
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//! - This task model is amenable to known WCET (Worst Case Execution Time)
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//! analysis and scheduling analysis techniques. (Though we don't have any
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//! tooling for that ATM.)
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//! analysis and scheduling analysis techniques. (Though we haven't yet
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//! developed tooling for that.)
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//!
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//! # Limitations
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//!
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@ -360,6 +361,7 @@ extern crate typenum;
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use core::cell::UnsafeCell;
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use core::marker::PhantomData;
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use core::ptr;
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use cortex_m::ctxt::Context;
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use cortex_m::interrupt::Nr;
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@ -512,7 +514,7 @@ impl<Periph, RC> Peripheral<Periph, C<RC>> {
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unsafe impl<T, C> Sync for Peripheral<T, C> {}
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/// Runs closure `f` in a *global* critical section
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/// Runs the closure `f` in a *global* critical section
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///
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/// No task can preempt this critical section
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pub fn critical<R, F>(f: F) -> R
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@ -533,8 +535,53 @@ where
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r
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}
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/// Disables the `task`
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///
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/// The task won't run even if the underlying interrupt is raised
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pub fn disable<T, TP>(_task: fn(T, P<TP>))
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where
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T: Context + Nr,
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{
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// NOTE(safe) zero sized type
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let _task = unsafe { ptr::read(0x0 as *const T) };
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// NOTE(safe) atomic write
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unsafe { (*_NVIC.get()).disable(_task) }
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}
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/// Enables the `task`
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pub fn enable<T, TP>(_task: fn(T, P<TP>))
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where
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T: Context + Nr,
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{
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// NOTE(safe) zero sized type
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let _task = unsafe { ptr::read(0x0 as *const T) };
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// NOTE(safe) atomic write
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unsafe { (*_NVIC.get()).enable(_task) }
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}
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/// Converts a shifted hardware priority into a logical priority
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pub fn hw2logical(hw: u8) -> u8 {
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(1 << PRIORITY_BITS) - (hw >> (8 - PRIORITY_BITS))
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}
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/// Converts a logical priority into a shifted hardware priority, as used by the
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/// NVIC and the BASEPRI register
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///
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/// # Panics
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///
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/// This function panics if `logical` is outside the closed range
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/// `[1, 1 << PRIORITY_BITS]`. Where `PRIORITY_BITS` is the number of priority
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/// bits used by the device specific NVIC implementation.
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pub fn logical2hw(logical: u8) -> u8 {
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assert!(logical >= 1 && logical <= (1 << PRIORITY_BITS));
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((1 << PRIORITY_BITS) - logical) << (8 - PRIORITY_BITS)
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}
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/// Requests the execution of a `task`
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pub fn request<T, PRIORITY>(_task: fn(T, P<PRIORITY>))
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pub fn request<T, TP>(_task: fn(T, P<TP>))
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where
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T: Context + Nr,
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{
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@ -561,9 +608,9 @@ where
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}
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#[doc(hidden)]
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pub fn _validate_priority<PRIORITY>(_: &P<PRIORITY>)
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pub fn _validate_priority<TP>(_: &P<TP>)
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where
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PRIORITY: Cmp<U0, Output = Greater> + LessThanOrEqual<UMAX>,
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TP: Cmp<U0, Output = Greater> + LessThanOrEqual<UMAX>,
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{
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}
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@ -633,40 +680,22 @@ pub unsafe trait GreaterThanOrEqual<RHS> {}
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/// Do not implement this trait yourself. This is an implementation detail.
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pub unsafe trait LessThanOrEqual<RHS> {}
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/// Converts a logical priority into a shifted hardware priority, as used by the
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/// NVIC and the BASEPRI register
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///
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/// # Panics
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///
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/// This function panics if `logical` is outside the closed range
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/// `[1, 1 << PRIORITY_BITS]`. Where `PRIORITY_BITS` is the number of priority
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/// bits used by the device specific NVIC implementation.
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pub fn logical2hw(logical: u8) -> u8 {
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assert!(logical >= 1 && logical <= (1 << PRIORITY_BITS));
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((1 << PRIORITY_BITS) - logical) << (8 - PRIORITY_BITS)
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}
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/// Converts a shifted hardware priority into a logical priority
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pub fn hw2logical(hw: u8) -> u8 {
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(1 << PRIORITY_BITS) - (hw >> (8 - PRIORITY_BITS))
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}
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/// A macro to declare tasks
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///
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/// **NOTE** This macro will expand to a `main` function.
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///
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/// Each `$task` is bound to an `$Interrupt` handler and has a priority `$P`.
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/// `$enabled` indicates whether the task will be enabled before `idle` runs.
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///
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/// The `$Interrupt` handlers are defined in the `$device` crate.
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///
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/// **NOTE** This macro will expand to a `main` function.
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///
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/// Apart from defining the listed `$tasks`, the `init` and `idle` functions
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/// must be defined as well. `init` has type signature `fn(P0, &C16)`, and
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/// `idle` has signature `fn(P0) -> !`.
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#[macro_export]
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macro_rules! tasks {
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($device:ident, {
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$($task:ident: ($Interrupt:ident, $P:ident),)*
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$($task:ident: ($Interrupt:ident, $P:ident, $enabled:expr),)*
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}) => {
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fn main() {
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$crate::critical(|cmax| {
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@ -709,7 +738,9 @@ macro_rules! tasks {
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let _nvic = unsafe { &*$crate::_NVIC.get() };
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$(
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_nvic.enable(::$device::interrupt::Interrupt::$Interrupt);
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if $enabled {
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$crate::enable(::$task);
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}
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)*
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}
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