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Docs: SW and HW tasks
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@ -14,11 +14,18 @@ start execution in reaction to a hardware event.
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Specifying a non-existing interrupt name will cause a compilation error. The interrupt names
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are commonly defined by [PAC or HAL][pacorhal] crates.
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Any available interrupt vector should work, but different hardware might have
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added special properties to select interrupt priority levels, such as the
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[nRF “softdevice”](https://github.com/rtic-rs/cortex-m-rtic/issues/434).
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Beware of re-purposing interrupt vectors used internally by hardware features,
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RTIC is unaware of such hardware specific details.
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[pacorhal]: https://docs.rust-embedded.org/book/start/registers.html
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[NVIC]: https://developer.arm.com/documentation/100166/0001/Nested-Vectored-Interrupt-Controller/NVIC-functional-description/NVIC-interrupts
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The example below demonstrates the use of the `#[task]` attribute to declare an
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interrupt handler.
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The example below demonstrates the use of the `#[task(binds = InterruptName)]` attribute to declare a
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hardware task bound to an interrupt handler.
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``` rust
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{{#include ../../../../examples/hardware.rs}}
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@ -1,19 +1,25 @@
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# Software tasks & spawn
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Software tasks are tasks which are not directly assigned to a specific interrupt vector.
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The RTIC concept of a software task shares a lot with that of [hardware tasks][hardware_tasks.md]
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with the core difference that a software task is not explicitly bound to a specific
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interrupt vector, but rather a “dispatcher” interrupt vector running
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at the same priority as the software task.
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They run as interrupt handlers where all software tasks at the
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same priority level shares a "free" interrupt handler acting as a dispatcher.
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Thus, what differentiates software and hardware tasks are the dispatcher versus
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bound interrupt vector.
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These free interrupts used as dispatchers are interrupt vectors not used by hardware tasks.
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Thus, software tasks are tasks which are not directly assigned to a specific interrupt vector.
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The `#[task]` attribute used on a function declare it as a software tasks.
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Observe the absence of a `binds = InterruptName` argument to the attribute.
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The static method `task_name::spawn()` spawns (starts) a software task and
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given that there are no higher priority tasks running the task will start executing directly.
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A list of “free” and usable interrupts allows the framework to dispatch software tasks.
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All software tasks at the same priority level shares an interrupt handler acting as a dispatcher.
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What differentiates software and hardware tasks are the dispatcher versus bound interrupt vector.
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The interrupt vectors used as dispatchers can not be used by hardware tasks.
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A list of “free” (not in use by hardware tasks) and usable interrupts allows the framework
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to dispatch software tasks.
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This list of dispatchers, `dispatchers = [FreeInterrupt1, FreeInterrupt2, ...]` is an
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argument to the `#[app]` attribute.
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