Attribute Macro rtic::app

#[app]

Attribute used to declare a RTIC application

This attribute must be applied to a const item of type (). The const item is effectively used as a mod item: its value must be a block that contains items commonly found in modules, like functions and static variables.

The app attribute has one mandatory argument:

• device = <path>. The path must point to a device crate generated using svd2rust v0.14.x or newer.

and a few optional arguments:

• peripherals = <bool>. Indicates whether the runtime takes the device peripherals and makes them available to the init context.

• monotonic = <path>. This is a path to a zero-sized structure (e.g. struct Foo;) that implements the Monotonic trait. This argument must be provided to use the schedule API.

The items allowed in the block value of the const item are specified below:

1. struct Resources

This structure contains the declaration of all the resources used by the application. Each field in this structure corresponds to a different resource. Each resource may optionally be given an initial value using the #[init(<value>)] attribute. Resources with no compile-time initial value as referred to as late resources.

2. fn

Functions must contain one of the following attributes: init, idle or task. The attribute defines the role of the function in the application.

a. #[init]

This attribute indicates that the function is to be used as the initialization function. There must be exactly one instance of the init attribute inside the app pseudo-module. The signature of the init function must be fn (<fn-name>::Context) [-> <fn-name>::LateResources] where <fn-name> is the name of the function adorned with the #[init] attribute.

The init function runs after memory (RAM) is initialized and runs with interrupts disabled. Interrupts are re-enabled after init returns.

The init attribute accepts the following optional arguments:

• resources = [resource_a, resource_b, ..]. This is the list of resources this context has access to.

• schedule = [task_a, task_b, ..]. This is the list of software tasks that this context can schedule to run in the future. IMPORTANT: This argument is accepted only if the monotonic argument is passed to the #[app] attribute.

• spawn = [task_a, task_b, ..]. This is the list of software tasks that this context can immediately spawn.

The first argument of the function, <fn-name>::Context, is a structure that contains the following fields:

• core. Exclusive access to core peripherals. The type of this field is rtic::Peripherals when the schedule API is used and cortex_m::Peripherals when it’s not.

• device: <device>::Peripherals. Exclusive access to device-specific peripherals. This field is only present when the peripherals argument of the #[app] attribute is set to true. <device> is the path to the device crate specified in the top app attribute.

• start: <Instant>. The start time of the system: <Instant>::zero(). <Instant> is the Instant type associated to the Monotonic implementation specified in the top #[app] attribute. NOTE: this field is only present when the schedule is used.

• resources: <fn-name>::Resources. A struct that contains all the resources that can be accessed from this context. Each field is a different resource; each resource may appear as a reference (&[mut]-) or as proxy structure that implements the rftm::Mutex trait.

• schedule: <fn-name>::Schedule. A struct that can be used to schedule software tasks.

• spawn: <fn-name>::Spawn. A struct that can be used to spawn software tasks.

The return type <fn-name>::LateResources must only be specified when late resources, resources with no initial value declared at compile time, are used. <fn-name>::LateResources is a structure where each field corresponds to a different late resource. The <fn-name>::LateResources value returned by the #[init] function is used to initialize the late resources before idle or any task can start.

Other properties:

• The static mut variables declared at the beginning of this function will be transformed into &'static mut references that are safe to access. For example, static mut FOO: u32 = 0 will become FOO: &'static mut u32.

b. #[idle]

This attribute indicates that the function is to be used as the idle task. There can be at most once instance of the idle attribute inside the app pseudo-module. The signature of the idle function must be fn(<fn-name>::Context) -> ! where <fn-name> is the name of the function adorned with the #[idle] attribute.

The idle task is a special task that always runs in the background. The idle task runs at the lowest priority of 0. If the idle task is not defined then the runtime sets the SLEEPONEXIT bit after executing init.

The idle attribute accepts the following optional arguments:

• resources = (..). Same meaning / function as #[init].resources.

• schedule = (..). Same meaning / function as #[init].schedule.

• spawn = (..). Same meaning / function as #[init].spawn.

The first argument of the function, idle::Context, is a structure that contains the following fields:

• resources: _. Same meaning / function as <init>::Context.resources.

• schedule: idle::Schedule. Same meaning / function as <init>::Context.schedule.

• spawn: idle::Spawn. Same meaning / function as <init>::Context.spawn.

Other properties:

• The static mut variables declared at the beginning of this function will be transformed into &'static mut references that are safe to access. For example, static mut FOO: u32 = 0 will become FOO: &'static mut u32.

c. #[task]

This attribute indicates that the function is either a hardware task or a software task. The signature of hardware tasks must be fn(<fn-name>::Context) whereas the signature of software tasks must be fn(<fn-name>::Context, <inputs>). <fn-name> refers to the name of the function adorned with the #[task] attribute.

The task attribute accepts the following optional arguments.

• binds = <interrupt-name>. Binds this task to a particular interrupt. When this argument is present the task is treated as a hardware task; when it’s omitted the task treated is treated as a software task.

• priority = <integer>. This is the static priority of the exception handler. The value must be in the range 1..=(1 << <device-path>::NVIC_PRIO_BITS) where <device-path> is the path to the device crate specified in the top app attribute. If this argument is omitted the priority is assumed to be 1.

• resources = (..). Same meaning / function as #[init].resources.

• schedule = (..). Same meaning / function as #[init].schedule.

• spawn = (..). Same meaning / function as #[init].spawn.

The first argument of the function, <fn-name>::Context, is a structure that contains the following fields:

• start: <Instant>. For hardware tasks this is the time at which this handler started executing. For software tasks this is the time at which the task was scheduled to run. NOTE: only present when the schedule API is used.

• resources: _. Same meaning / function as <init>::Context.resources.

• schedule: <exception-name>::Schedule. Same meaning / function as <init>::Context.schedule.

• spawn: <exception-name>::Spawn. Same meaning / function as <init>::Context.spawn.

Other properties / constraints:

• The static mut variables declared at the beginning of this function will be transformed into non-static &mut references that are safe to access. For example, static mut FOO: u32 = 0 will become FOO: &mut u32.

3. extern block

This extern block contains a list of interrupts which are not used by the application as hardware tasks. These interrupts will be used to dispatch software tasks. Each interrupt will be used to dispatch multiple software tasks at the same priority level.

This extern block must only contain functions with signature fn (). The names of these functions must match the names of the target device interrupts.

Attributes can be applied to the functions inside this block. These attributes will be forwarded to the interrupt handlers generated by the app attribute.