rtic/macros/src/codegen.rs

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#![deny(warnings)]
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use proc_macro::TokenStream;
use std::{
collections::HashMap,
sync::atomic::{AtomicUsize, Ordering},
time::{SystemTime, UNIX_EPOCH},
};
use proc_macro2::Span;
use quote::quote;
use rand::{Rng, SeedableRng};
use syn::{parse_quote, ArgCaptured, Attribute, Ident, IntSuffix, LitInt};
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use crate::{
analyze::{Analysis, Ownership},
syntax::{App, Idents, Static},
};
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// NOTE to avoid polluting the user namespaces we map some identifiers to pseudo-hygienic names.
// In some instances we also use the pseudo-hygienic names for safety, for example the user should
// not modify the priority field of resources.
type Aliases = HashMap<Ident, Ident>;
struct Context {
// Alias
#[cfg(feature = "timer-queue")]
baseline: Ident,
dispatchers: HashMap<u8, Dispatcher>,
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// Alias (`fn`)
idle: Ident,
// Alias (`fn`)
init: Ident,
// Alias
priority: Ident,
// For non-singletons this maps the resource name to its `static mut` variable name
statics: Aliases,
/// Task -> Alias (`struct`)
resources: HashMap<Kind, Resources>,
// Alias (`enum`)
schedule_enum: Ident,
// Task -> Alias (`fn`)
schedule_fn: Aliases,
tasks: HashMap<Ident, Task>,
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// Alias (`struct` / `static mut`)
timer_queue: Ident,
}
struct Dispatcher {
enum_: Ident,
ready_queue: Ident,
}
struct Task {
alias: Ident,
free_queue: Ident,
inputs: Ident,
spawn_fn: Ident,
#[cfg(feature = "timer-queue")]
scheduleds: Ident,
}
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impl Default for Context {
fn default() -> Self {
Context {
#[cfg(feature = "timer-queue")]
baseline: mk_ident(None),
dispatchers: HashMap::new(),
idle: mk_ident(Some("idle")),
init: mk_ident(Some("init")),
priority: mk_ident(None),
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statics: Aliases::new(),
resources: HashMap::new(),
schedule_enum: mk_ident(None),
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schedule_fn: Aliases::new(),
tasks: HashMap::new(),
timer_queue: mk_ident(None),
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}
}
}
struct Resources {
alias: Ident,
decl: proc_macro2::TokenStream,
}
pub fn app(app: &App, analysis: &Analysis) -> TokenStream {
let mut ctxt = Context::default();
let resources = resources(&mut ctxt, &app, analysis);
let tasks = tasks(&mut ctxt, &app, analysis);
let (dispatchers_data, dispatchers) = dispatchers(&mut ctxt, &app, analysis);
let (init_fn, has_late_resources) = init(&mut ctxt, &app, analysis);
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let init_arg = if cfg!(feature = "timer-queue") {
quote!(rtfm::Peripherals {
CBP: p.CBP,
CPUID: p.CPUID,
DCB: &mut p.DCB,
FPB: p.FPB,
FPU: p.FPU,
ITM: p.ITM,
MPU: p.MPU,
SCB: &mut p.SCB,
TPIU: p.TPIU,
})
} else {
quote!(rtfm::Peripherals {
CBP: p.CBP,
CPUID: p.CPUID,
DCB: p.DCB,
DWT: p.DWT,
FPB: p.FPB,
FPU: p.FPU,
ITM: p.ITM,
MPU: p.MPU,
SCB: &mut p.SCB,
SYST: p.SYST,
TPIU: p.TPIU,
})
};
let init = &ctxt.init;
let init_phase = if has_late_resources {
let assigns = app
.resources
.iter()
.filter_map(|(name, res)| {
if res.expr.is_none() {
let alias = &ctxt.statics[name];
Some(quote!(#alias.set(res.#name);))
} else {
None
}
})
.collect::<Vec<_>>();
quote!(
let res = #init(#init_arg);
#(#assigns)*
)
} else {
quote!(#init(#init_arg);)
};
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let post_init = post_init(&ctxt, &app, analysis);
let (idle_fn, idle_expr) = idle(&mut ctxt, &app, analysis);
let exceptions = exceptions(&mut ctxt, app, analysis);
let (root_interrupts, scoped_interrupts) = interrupts(&mut ctxt, app, analysis);
let spawn = spawn(&mut ctxt, app, analysis);
let schedule = match () {
#[cfg(feature = "timer-queue")]
() => schedule(&ctxt, app),
#[cfg(not(feature = "timer-queue"))]
() => quote!(),
};
let timer_queue = timer_queue(&ctxt, app, analysis);
let pre_init = pre_init(&ctxt, &app, analysis);
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let assertions = assertions(app, analysis);
let main = mk_ident(None);
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quote!(
#resources
#spawn
#timer_queue
#schedule
#dispatchers_data
#(#exceptions)*
#root_interrupts
const APP: () = {
#scoped_interrupts
#(#dispatchers)*
};
#(#tasks)*
#init_fn
#idle_fn
#[export_name = "main"]
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#[allow(unsafe_code)]
#[doc(hidden)]
unsafe fn #main() -> ! {
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#assertions
rtfm::export::interrupt::disable();
#pre_init
#init_phase
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#post_init
rtfm::export::interrupt::enable();
#idle_expr
}
)
.into()
}
fn resources(ctxt: &mut Context, app: &App, analysis: &Analysis) -> proc_macro2::TokenStream {
let mut items = vec![];
let mut module = vec![];
for (name, res) in &app.resources {
let cfgs = &res.cfgs;
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let attrs = &res.attrs;
let mut_ = &res.mutability;
let ty = &res.ty;
let expr = &res.expr;
if res.singleton {
items.push(quote!(
#(#attrs)*
pub static #mut_ #name: #ty = #expr;
));
let alias = mk_ident(None);
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if let Some(Ownership::Shared { ceiling }) = analysis.ownerships.get(name) {
items.push(mk_resource(
ctxt,
cfgs,
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name,
quote!(#name),
*ceiling,
quote!(&mut <#name as owned_singleton::Singleton>::new()),
app,
Some(&mut module),
))
}
ctxt.statics.insert(name.clone(), alias);
} else {
let alias = mk_ident(None);
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let symbol = format!("{}::{}", name, alias);
items.push(
expr.as_ref()
.map(|expr| {
quote!(
#(#attrs)*
#(#cfgs)*
#[doc = #symbol]
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static mut #alias: #ty = #expr;
)
})
.unwrap_or_else(|| {
quote!(
#(#attrs)*
#(#cfgs)*
#[doc = #symbol]
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static mut #alias: rtfm::export::MaybeUninit<#ty> =
rtfm::export::MaybeUninit::uninitialized();
)
}),
);
if let Some(Ownership::Shared { ceiling }) = analysis.ownerships.get(name) {
if res.mutability.is_some() {
let ptr = if res.expr.is_none() {
quote!(unsafe { #alias.get_mut() })
} else {
quote!(unsafe { &mut #alias })
};
items.push(mk_resource(
ctxt,
cfgs,
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name,
quote!(#ty),
*ceiling,
ptr,
app,
Some(&mut module),
));
}
}
ctxt.statics.insert(name.clone(), alias);
}
}
if !module.is_empty() {
items.push(quote!(
/// Resource proxies
pub mod resources {
#(#module)*
}
));
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}
quote!(#(#items)*)
}
fn init(ctxt: &mut Context, app: &App, analysis: &Analysis) -> (proc_macro2::TokenStream, bool) {
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let attrs = &app.init.attrs;
let locals = mk_locals(&app.init.statics, true);
let stmts = &app.init.stmts;
// TODO remove in v0.5.x
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let assigns = app
.init
.assigns
.iter()
.map(|assign| {
let attrs = &assign.attrs;
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if app
.resources
.get(&assign.left)
.map(|r| r.expr.is_none())
.unwrap_or(false)
{
let alias = &ctxt.statics[&assign.left];
let expr = &assign.right;
quote!(
#(#attrs)*
unsafe { #alias.set(#expr); }
)
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} else {
let left = &assign.left;
let right = &assign.right;
quote!(
#(#attrs)*
#left = #right;
)
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}
})
.collect::<Vec<_>>();
let prelude = prelude(
ctxt,
Kind::Init,
&app.init.args.resources,
&app.init.args.spawn,
&app.init.args.schedule,
app,
255,
analysis,
);
let (late_resources, late_resources_ident, ret) = if app.init.returns_late_resources {
// create `LateResources` struct in the root of the crate
let ident = mk_ident(None);
let fields = app
.resources
.iter()
.filter_map(|(name, res)| {
if res.expr.is_none() {
let ty = &res.ty;
Some(quote!(pub #name: #ty))
} else {
None
}
})
.collect::<Vec<_>>();
let late_resources = quote!(
#[allow(non_snake_case)]
pub struct #ident {
#(#fields),*
}
);
(
Some(late_resources),
Some(ident),
Some(quote!(-> init::LateResources)),
)
} else {
(None, None, None)
};
let has_late_resources = late_resources.is_some();
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let module = module(
ctxt,
Kind::Init,
!app.init.args.schedule.is_empty(),
!app.init.args.spawn.is_empty(),
app,
late_resources_ident,
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);
#[cfg(feature = "timer-queue")]
let baseline = &ctxt.baseline;
let baseline_let = match () {
#[cfg(feature = "timer-queue")]
() => quote!(let #baseline = rtfm::Instant::artificial(0);),
#[cfg(not(feature = "timer-queue"))]
() => quote!(),
};
let start_let = match () {
#[cfg(feature = "timer-queue")]
() => quote!(
#[allow(unused_variables)]
let start = #baseline;
),
#[cfg(not(feature = "timer-queue"))]
() => quote!(),
};
let unsafety = &app.init.unsafety;
let device = &app.args.device;
let init = &ctxt.init;
(
quote!(
#late_resources
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#module
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#(#attrs)*
#unsafety fn #init(mut core: rtfm::Peripherals) #ret {
#(#locals)*
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#baseline_let
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#prelude
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let mut device = unsafe { #device::Peripherals::steal() };
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#start_let
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#(#stmts)*
#(#assigns)*
}
),
has_late_resources,
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)
}
fn post_init(ctxt: &Context, app: &App, analysis: &Analysis) -> proc_macro2::TokenStream {
let mut exprs = vec![];
// TODO turn the assertions that check that the priority is not larger than what's supported by
// the device into compile errors
let device = &app.args.device;
let nvic_prio_bits = quote!(#device::NVIC_PRIO_BITS);
for (name, exception) in &app.exceptions {
let priority = exception.args.priority;
exprs.push(quote!(assert!(#priority <= (1 << #nvic_prio_bits))));
exprs.push(quote!(p.SCB.set_priority(
rtfm::export::SystemHandler::#name,
((1 << #nvic_prio_bits) - #priority) << (8 - #nvic_prio_bits),
)));
}
if !analysis.timer_queue.tasks.is_empty() {
let priority = analysis.timer_queue.priority;
exprs.push(quote!(assert!(#priority <= (1 << #nvic_prio_bits))));
exprs.push(quote!(p.SCB.set_priority(
rtfm::export::SystemHandler::SysTick,
((1 << #nvic_prio_bits) - #priority) << (8 - #nvic_prio_bits),
)));
}
if app.idle.is_none() {
// Set SLEEPONEXIT bit to enter sleep mode when returning from ISR
exprs.push(quote!(p.SCB.scr.modify(|r| r | 1 << 1)));
}
// Enable and start the system timer
if !analysis.timer_queue.tasks.is_empty() {
let tq = &ctxt.timer_queue;
exprs.push(quote!(#tq.get_mut().syst.set_clock_source(rtfm::export::SystClkSource::Core)));
exprs.push(quote!(#tq.get_mut().syst.enable_counter()));
}
// Enable cycle counter
if cfg!(feature = "timer-queue") {
exprs.push(quote!(p.DCB.enable_trace()));
exprs.push(quote!(p.DWT.enable_cycle_counter()));
}
quote!(#(#exprs;)*)
}
/// This function creates creates a module for `init` / `idle` / a `task` (see `kind` argument)
fn module(
ctxt: &mut Context,
kind: Kind,
schedule: bool,
spawn: bool,
app: &App,
late_resources: Option<Ident>,
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) -> proc_macro2::TokenStream {
let mut items = vec![];
let mut fields = vec![];
let name = kind.ident();
let priority = &ctxt.priority;
let device = &app.args.device;
let mut lt = None;
match kind {
Kind::Init => {
if cfg!(feature = "timer-queue") {
fields.push(quote!(
/// System start time = `Instant(0 /* cycles */)`
pub start: rtfm::Instant,
));
}
fields.push(quote!(
/// Core (Cortex-M) peripherals
pub core: rtfm::Peripherals<'a>,
/// Device specific peripherals
pub device: #device::Peripherals,
));
lt = Some(quote!('a));
}
Kind::Idle => {}
Kind::Exception(_) | Kind::Interrupt(_) => {
if cfg!(feature = "timer-queue") {
fields.push(quote!(
/// Time at which this handler started executing
pub start: rtfm::Instant,
));
}
}
Kind::Task(_) => {
if cfg!(feature = "timer-queue") {
fields.push(quote!(
/// The time at which this task was scheduled to run
pub scheduled: rtfm::Instant,
));
}
}
}
if schedule {
lt = Some(quote!('a));
fields.push(quote!(
/// Tasks that can be scheduled from this context
pub schedule: Schedule<'a>,
));
items.push(quote!(
/// Tasks that can be scheduled from this context
#[derive(Clone, Copy)]
pub struct Schedule<'a> {
#[doc(hidden)]
pub #priority: &'a core::cell::Cell<u8>,
}
));
}
if spawn {
lt = Some(quote!('a));
fields.push(quote!(
/// Tasks that can be spawned from this context
pub spawn: Spawn<'a>,
));
if kind.is_idle() {
items.push(quote!(
/// Tasks that can be spawned from this context
#[derive(Clone, Copy)]
pub struct Spawn<'a> {
#[doc(hidden)]
pub #priority: &'a core::cell::Cell<u8>,
}
));
} else {
let baseline_field = match () {
#[cfg(feature = "timer-queue")]
() => {
let baseline = &ctxt.baseline;
quote!(
#[doc(hidden)]
pub #baseline: rtfm::Instant,
)
}
#[cfg(not(feature = "timer-queue"))]
() => quote!(),
};
items.push(quote!(
/// Tasks that can be spawned from this context
#[derive(Clone, Copy)]
pub struct Spawn<'a> {
#baseline_field
#[doc(hidden)]
pub #priority: &'a core::cell::Cell<u8>,
}
));
}
}
let mut root = None;
if let Some(resources) = ctxt.resources.get(&kind) {
lt = Some(quote!('a));
root = Some(resources.decl.clone());
let alias = &resources.alias;
items.push(quote!(
#[doc(inline)]
pub use super::#alias as Resources;
));
fields.push(quote!(
/// Resources available in this context
pub resources: Resources<'a>,
));
};
let doc = match kind {
Kind::Exception(_) => "Exception handler",
Kind::Idle => "Idle loop",
Kind::Init => "Initialization function",
Kind::Interrupt(_) => "Interrupt handler",
Kind::Task(_) => "Software task",
};
if let Some(late_resources) = late_resources {
items.push(quote!(
pub use super::#late_resources as LateResources;
));
}
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quote!(
#root
#[doc = #doc]
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#[allow(non_snake_case)]
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pub mod #name {
/// Variables injected into this context by the `app` attribute
pub struct Context<#lt> {
#(#fields)*
}
#(#items)*
}
)
}
/// The prelude injects `resources`, `spawn`, `schedule` and `start` / `scheduled` (all values) into
/// a function scope
fn prelude(
ctxt: &mut Context,
kind: Kind,
resources: &Idents,
spawn: &Idents,
schedule: &Idents,
app: &App,
logical_prio: u8,
analysis: &Analysis,
) -> proc_macro2::TokenStream {
let mut items = vec![];
let lt = if kind.runs_once() {
quote!('static)
} else {
quote!('a)
};
let module = kind.ident();
let priority = &ctxt.priority;
if !resources.is_empty() {
let mut defs = vec![];
let mut exprs = vec![];
// NOTE This field is just to avoid unused type parameter errors around `'a`
defs.push(quote!(#[allow(dead_code)] #priority: &'a core::cell::Cell<u8>));
exprs.push(parse_quote!(#priority));
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let mut may_call_lock = false;
let mut needs_unsafe = false;
for name in resources {
let res = &app.resources[name];
let cfgs = &res.cfgs;
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let initialized = res.expr.is_some();
let singleton = res.singleton;
let mut_ = res.mutability;
let ty = &res.ty;
if kind.is_init() {
let mut force_mut = false;
if !analysis.ownerships.contains_key(name) {
// owned by Init
if singleton {
needs_unsafe = true;
defs.push(quote!(
#(#cfgs)*
pub #name: #name
));
exprs.push(quote!(
#(#cfgs)*
#name: <#name as owned_singleton::Singleton>::new()
));
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continue;
} else {
defs.push(quote!(
#(#cfgs)*
pub #name: &'static #mut_ #ty
));
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}
} else {
// owned by someone else
if singleton {
needs_unsafe = true;
defs.push(quote!(
#(#cfgs)*
pub #name: &'a mut #name
));
exprs.push(quote!(
#(#cfgs)*
#name: &mut <#name as owned_singleton::Singleton>::new()
));
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continue;
} else {
force_mut = true;
defs.push(quote!(
#(#cfgs)*
pub #name: &'a mut #ty
));
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}
}
let alias = &ctxt.statics[name];
// Resources assigned to init are always const initialized
needs_unsafe = true;
if force_mut {
exprs.push(quote!(
#(#cfgs)*
#name: &mut #alias
));
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} else {
exprs.push(quote!(
#(#cfgs)*
#name: &#mut_ #alias
));
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}
} else {
let ownership = &analysis.ownerships[name];
let mut exclusive = false;
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if ownership.needs_lock(logical_prio) {
may_call_lock = true;
if singleton {
if mut_.is_none() {
needs_unsafe = true;
defs.push(quote!(
#(#cfgs)*
pub #name: &'a #name
));
exprs.push(quote!(
#(#cfgs)*
#name: &<#name as owned_singleton::Singleton>::new()
));
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continue;
} else {
// Generate a resource proxy
defs.push(quote!(
#(#cfgs)*
pub #name: resources::#name<'a>
));
exprs.push(quote!(
#(#cfgs)*
#name: resources::#name { #priority }
));
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continue;
}
} else {
if mut_.is_none() {
defs.push(quote!(
#(#cfgs)*
pub #name: &'a #ty
));
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} else {
// Generate a resource proxy
defs.push(quote!(
#(#cfgs)*
pub #name: resources::#name<'a>
));
exprs.push(quote!(
#(#cfgs)*
#name: resources::#name { #priority }
));
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continue;
}
}
} else {
if singleton {
if kind.runs_once() {
needs_unsafe = true;
defs.push(quote!(
#(#cfgs)*
pub #name: #name
));
exprs.push(quote!(
#(#cfgs)*
#name: <#name as owned_singleton::Singleton>::new()
));
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} else {
needs_unsafe = true;
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if ownership.is_owned() || mut_.is_none() {
defs.push(quote!(
#(#cfgs)*
pub #name: &'a #mut_ #name
));
let alias = mk_ident(None);
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items.push(quote!(
#(#cfgs)*
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let #mut_ #alias = unsafe {
<#name as owned_singleton::Singleton>::new()
};
));
exprs.push(quote!(
#(#cfgs)*
#name: &#mut_ #alias
));
} else {
may_call_lock = true;
defs.push(quote!(
#(#cfgs)*
pub #name: rtfm::Exclusive<'a, #name>
));
let alias = mk_ident(None);
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items.push(quote!(
#(#cfgs)*
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let #mut_ #alias = unsafe {
<#name as owned_singleton::Singleton>::new()
};
));
exprs.push(quote!(
#(#cfgs)*
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#name: rtfm::Exclusive(&mut #alias)
));
}
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}
continue;
} else {
if ownership.is_owned() || mut_.is_none() {
defs.push(quote!(
#(#cfgs)*
pub #name: &#lt #mut_ #ty
));
} else {
exclusive = true;
may_call_lock = true;
defs.push(quote!(
#(#cfgs)*
pub #name: rtfm::Exclusive<#lt, #ty>
));
}
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}
}
let alias = &ctxt.statics[name];
needs_unsafe = true;
if initialized {
if exclusive {
exprs.push(quote!(
#(#cfgs)*
#name: rtfm::Exclusive(&mut #alias)
));
} else {
exprs.push(quote!(
#(#cfgs)*
#name: &#mut_ #alias
));
}
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} else {
let method = if mut_.is_some() {
quote!(get_mut)
} else {
quote!(get_ref)
};
if exclusive {
exprs.push(quote!(
#(#cfgs)*
#name: rtfm::Exclusive(#alias.#method())
));
} else {
exprs.push(quote!(
#(#cfgs)*
#name: #alias.#method()
));
}
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}
}
}
let alias = mk_ident(None);
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let unsafety = if needs_unsafe {
Some(quote!(unsafe))
} else {
None
};
let defs = &defs;
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let doc = format!("`{}::Resources`", kind.ident().to_string());
let decl = quote!(
#[doc = #doc]
#[allow(non_snake_case)]
pub struct #alias<'a> { #(#defs,)* }
);
items.push(quote!(
#[allow(unused_variables)]
#[allow(unsafe_code)]
#[allow(unused_mut)]
let mut resources = #unsafety { #alias { #(#exprs,)* } };
));
ctxt.resources
.insert(kind.clone(), Resources { alias, decl });
if may_call_lock {
items.push(quote!(
use rtfm::Mutex;
));
}
}
if !spawn.is_empty() {
if kind.is_idle() {
items.push(quote!(
#[allow(unused_variables)]
let spawn = #module::Spawn { #priority };
));
} else {
let baseline_expr = match () {
#[cfg(feature = "timer-queue")]
() => {
let baseline = &ctxt.baseline;
quote!(#baseline)
}
#[cfg(not(feature = "timer-queue"))]
() => quote!(),
};
items.push(quote!(
#[allow(unused_variables)]
let spawn = #module::Spawn { #priority, #baseline_expr };
));
}
}
if !schedule.is_empty() {
// Populate `schedule_fn`
for task in schedule {
if ctxt.schedule_fn.contains_key(task) {
continue;
}
ctxt.schedule_fn.insert(task.clone(), mk_ident(None));
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}
items.push(quote!(
#[allow(unused_imports)]
use rtfm::U32Ext;
#[allow(unused_variables)]
let schedule = #module::Schedule { #priority };
));
}
if items.is_empty() {
quote!()
} else {
quote!(
let ref #priority = core::cell::Cell::new(#logical_prio);
#(#items)*
)
}
}
fn idle(
ctxt: &mut Context,
app: &App,
analysis: &Analysis,
) -> (proc_macro2::TokenStream, proc_macro2::TokenStream) {
if let Some(idle) = app.idle.as_ref() {
let attrs = &idle.attrs;
let locals = mk_locals(&idle.statics, true);
let stmts = &idle.stmts;
let prelude = prelude(
ctxt,
Kind::Idle,
&idle.args.resources,
&idle.args.spawn,
&idle.args.schedule,
app,
0,
analysis,
);
let module = module(
ctxt,
Kind::Idle,
!idle.args.schedule.is_empty(),
!idle.args.spawn.is_empty(),
app,
None,
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);
let unsafety = &idle.unsafety;
let idle = &ctxt.idle;
(
quote!(
#module
#(#attrs)*
#unsafety fn #idle() -> ! {
#(#locals)*
#prelude
#(#stmts)*
}
),
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quote!(#idle()),
)
} else {
(
quote!(),
quote!(loop {
rtfm::export::wfi();
}),
)
}
}
fn exceptions(ctxt: &mut Context, app: &App, analysis: &Analysis) -> Vec<proc_macro2::TokenStream> {
app.exceptions
.iter()
.map(|(ident, exception)| {
let attrs = &exception.attrs;
let stmts = &exception.stmts;
let prelude = prelude(
ctxt,
Kind::Exception(ident.clone()),
&exception.args.resources,
&exception.args.spawn,
&exception.args.schedule,
app,
exception.args.priority,
analysis,
);
let module = module(
ctxt,
Kind::Exception(ident.clone()),
!exception.args.schedule.is_empty(),
!exception.args.spawn.is_empty(),
app,
None,
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);
#[cfg(feature = "timer-queue")]
let baseline = &ctxt.baseline;
let baseline_let = match () {
#[cfg(feature = "timer-queue")]
() => quote!(let #baseline = rtfm::Instant::now();),
#[cfg(not(feature = "timer-queue"))]
() => quote!(),
};
let start_let = match () {
#[cfg(feature = "timer-queue")]
() => quote!(
#[allow(unused_variables)]
let start = #baseline;
),
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#[cfg(not(feature = "timer-queue"))]
() => quote!(),
};
let locals = mk_locals(&exception.statics, false);
let symbol = ident.to_string();
let alias = mk_ident(None);
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let unsafety = &exception.unsafety;
quote!(
#module
#[doc(hidden)]
#[export_name = #symbol]
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#(#attrs)*
#unsafety fn #alias() {
#(#locals)*
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#baseline_let
#prelude
#start_let
rtfm::export::run(move || {
#(#stmts)*
})
}
)
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})
.collect()
}
fn interrupts(
ctxt: &mut Context,
app: &App,
analysis: &Analysis,
) -> (proc_macro2::TokenStream, proc_macro2::TokenStream) {
let mut root = vec![];
let mut scoped = vec![];
let device = &app.args.device;
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for (ident, interrupt) in &app.interrupts {
let attrs = &interrupt.attrs;
let stmts = &interrupt.stmts;
let prelude = prelude(
ctxt,
Kind::Interrupt(ident.clone()),
&interrupt.args.resources,
&interrupt.args.spawn,
&interrupt.args.schedule,
app,
interrupt.args.priority,
analysis,
);
root.push(module(
ctxt,
Kind::Interrupt(ident.clone()),
!interrupt.args.schedule.is_empty(),
!interrupt.args.spawn.is_empty(),
app,
None,
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));
#[cfg(feature = "timer-queue")]
let baseline = &ctxt.baseline;
let baseline_let = match () {
#[cfg(feature = "timer-queue")]
() => quote!(let #baseline = rtfm::Instant::now();),
#[cfg(not(feature = "timer-queue"))]
() => quote!(),
};
let start_let = match () {
#[cfg(feature = "timer-queue")]
() => quote!(
#[allow(unused_variables)]
let start = #baseline;
),
#[cfg(not(feature = "timer-queue"))]
() => quote!(),
};
let locals = mk_locals(&interrupt.statics, false);
let alias = mk_ident(None);
let symbol = ident.to_string();
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let unsafety = &interrupt.unsafety;
scoped.push(quote!(
#(#attrs)*
#[export_name = #symbol]
#unsafety fn #alias() {
// check that this interrupt exists
let _ = #device::interrupt::#ident;
#(#locals)*
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#baseline_let
#prelude
#start_let
rtfm::export::run(move || {
#(#stmts)*
})
}
));
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}
(quote!(#(#root)*), quote!(#(#scoped)*))
}
fn tasks(ctxt: &mut Context, app: &App, analysis: &Analysis) -> proc_macro2::TokenStream {
let mut items = vec![];
// first pass to generate buffers (statics and resources) and spawn aliases
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for (name, task) in &app.tasks {
#[cfg(feature = "timer-queue")]
let scheduleds_alias = mk_ident(None);
let free_alias = mk_ident(None);
let inputs_alias = mk_ident(None);
let task_alias = mk_ident(Some(&name.to_string()));
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let inputs = &task.inputs;
let ty = tuple_ty(inputs);
let capacity_lit = mk_capacity_literal(analysis.capacities[name]);
let capacity_ty = mk_typenum_capacity(analysis.capacities[name], true);
let resource = mk_resource(
ctxt,
&[],
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&free_alias,
quote!(rtfm::export::FreeQueue<#capacity_ty>),
*analysis.free_queues.get(name).unwrap_or(&0),
quote!(#free_alias.get_mut()),
app,
None,
);
let scheduleds_static = match () {
#[cfg(feature = "timer-queue")]
() => {
let scheduleds_symbol = format!("{}::SCHEDULED_TIMES::{}", name, scheduleds_alias);
quote!(
#[doc = #scheduleds_symbol]
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static mut #scheduleds_alias:
rtfm::export::MaybeUninit<[rtfm::Instant; #capacity_lit]> =
rtfm::export::MaybeUninit::uninitialized();
)
}
#[cfg(not(feature = "timer-queue"))]
() => quote!(),
};
let inputs_symbol = format!("{}::INPUTS::{}", name, inputs_alias);
let free_symbol = format!("{}::FREE_QUEUE::{}", name, free_alias);
items.push(quote!(
// FIXME(MaybeUninit) MaybeUninit won't be necessary when core::mem::MaybeUninit
// stabilizes because heapless constructors will work in const context
#[doc = #free_symbol]
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static mut #free_alias: rtfm::export::MaybeUninit<
rtfm::export::FreeQueue<#capacity_ty>
> = rtfm::export::MaybeUninit::uninitialized();
#resource
#[doc = #inputs_symbol]
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static mut #inputs_alias: rtfm::export::MaybeUninit<[#ty; #capacity_lit]> =
rtfm::export::MaybeUninit::uninitialized();
#scheduleds_static
));
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ctxt.tasks.insert(
name.clone(),
Task {
alias: task_alias,
free_queue: free_alias,
inputs: inputs_alias,
spawn_fn: mk_ident(None),
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#[cfg(feature = "timer-queue")]
scheduleds: scheduleds_alias,
},
);
}
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// second pass to generate the actual task function
for (name, task) in &app.tasks {
let inputs = &task.inputs;
let locals = mk_locals(&task.statics, false);
let stmts = &task.stmts;
let unsafety = &task.unsafety;
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let scheduled_let = match () {
#[cfg(feature = "timer-queue")]
() => {
let baseline = &ctxt.baseline;
quote!(let scheduled = #baseline;)
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}
#[cfg(not(feature = "timer-queue"))]
() => quote!(),
};
let prelude = prelude(
ctxt,
Kind::Task(name.clone()),
&task.args.resources,
&task.args.spawn,
&task.args.schedule,
app,
task.args.priority,
analysis,
);
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items.push(module(
ctxt,
Kind::Task(name.clone()),
!task.args.schedule.is_empty(),
!task.args.spawn.is_empty(),
app,
None,
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));
let attrs = &task.attrs;
let cfgs = &task.cfgs;
let task_alias = &ctxt.tasks[name].alias;
let baseline_arg = match () {
#[cfg(feature = "timer-queue")]
() => {
let baseline = &ctxt.baseline;
quote!(#baseline: rtfm::Instant,)
}
#[cfg(not(feature = "timer-queue"))]
() => quote!(),
};
items.push(quote!(
#(#attrs)*
#(#cfgs)*
#unsafety fn #task_alias(#baseline_arg #(#inputs,)*) {
#(#locals)*
#prelude
#scheduled_let
#(#stmts)*
}
));
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}
quote!(#(#items)*)
}
fn dispatchers(
ctxt: &mut Context,
app: &App,
analysis: &Analysis,
) -> (proc_macro2::TokenStream, proc_macro2::TokenStream) {
let mut data = vec![];
let mut dispatchers = vec![];
let device = &app.args.device;
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for (level, dispatcher) in &analysis.dispatchers {
let ready_alias = mk_ident(None);
let enum_alias = mk_ident(None);
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let capacity = mk_typenum_capacity(dispatcher.capacity, true);
let variants = dispatcher
.tasks
.iter()
.map(|task| {
let task_ = &app.tasks[task];
let cfgs = &task_.cfgs;
quote!(
#(#cfgs)*
#task
)
})
.collect::<Vec<_>>();
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let symbol = format!("P{}::READY_QUEUE::{}", level, ready_alias);
let e = quote!(rtfm::export);
let ty = quote!(#e::ReadyQueue<#enum_alias, #capacity>);
let ceiling = *analysis.ready_queues.get(&level).unwrap_or(&0);
let resource = mk_resource(
ctxt,
&[],
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&ready_alias,
ty.clone(),
ceiling,
quote!(#ready_alias.get_mut()),
app,
None,
);
data.push(quote!(
#[allow(dead_code)]
#[allow(non_camel_case_types)]
enum #enum_alias { #(#variants,)* }
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#[doc = #symbol]
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static mut #ready_alias: #e::MaybeUninit<#ty> = #e::MaybeUninit::uninitialized();
#resource
));
let arms = dispatcher
.tasks
.iter()
.map(|task| {
let task_ = &ctxt.tasks[task];
let inputs = &task_.inputs;
let free = &task_.free_queue;
let alias = &task_.alias;
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let task__ = &app.tasks[task];
let pats = tuple_pat(&task__.inputs);
let cfgs = &task__.cfgs;
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let baseline_let;
let call;
match () {
#[cfg(feature = "timer-queue")]
() => {
let scheduleds = &task_.scheduleds;
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baseline_let = quote!(
let baseline =
ptr::read(#scheduleds.get_ref().get_unchecked(usize::from(index)));
);
call = quote!(#alias(baseline, #pats));
}
#[cfg(not(feature = "timer-queue"))]
() => {
baseline_let = quote!();
call = quote!(#alias(#pats));
}
};
quote!(
#(#cfgs)*
#enum_alias::#task => {
#baseline_let
let input = ptr::read(#inputs.get_ref().get_unchecked(usize::from(index)));
#free.get_mut().split().0.enqueue_unchecked(index);
let (#pats) = input;
#call
}
)
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})
.collect::<Vec<_>>();
let attrs = &dispatcher.attrs;
let interrupt = &dispatcher.interrupt;
let symbol = interrupt.to_string();
let alias = mk_ident(None);
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dispatchers.push(quote!(
#(#attrs)*
#[export_name = #symbol]
unsafe fn #alias() {
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use core::ptr;
// check that this interrupt exists
let _ = #device::interrupt::#interrupt;
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rtfm::export::run(|| {
while let Some((task, index)) = #ready_alias.get_mut().split().1.dequeue() {
match task {
#(#arms)*
}
}
});
}
));
ctxt.dispatchers.insert(
*level,
Dispatcher {
ready_queue: ready_alias,
enum_: enum_alias,
},
);
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}
(quote!(#(#data)*), quote!(#(#dispatchers)*))
}
fn spawn(ctxt: &Context, app: &App, analysis: &Analysis) -> proc_macro2::TokenStream {
let mut items = vec![];
// Generate `spawn` functions
let device = &app.args.device;
let priority = &ctxt.priority;
#[cfg(feature = "timer-queue")]
let baseline = &ctxt.baseline;
for (name, task) in &ctxt.tasks {
let alias = &task.spawn_fn;
let task_ = &app.tasks[name];
let cfgs = &task_.cfgs;
let free = &task.free_queue;
let level = task_.args.priority;
let dispatcher = &ctxt.dispatchers[&level];
let ready = &dispatcher.ready_queue;
let enum_ = &dispatcher.enum_;
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let dispatcher = &analysis.dispatchers[&level].interrupt;
let inputs = &task.inputs;
let args = &task_.inputs;
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let ty = tuple_ty(args);
let pats = tuple_pat(args);
let scheduleds_write = match () {
#[cfg(feature = "timer-queue")]
() => {
let scheduleds = &ctxt.tasks[name].scheduleds;
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quote!(
ptr::write(
#scheduleds.get_mut().get_unchecked_mut(usize::from(index)),
#baseline,
);
)
}
#[cfg(not(feature = "timer-queue"))]
() => quote!(),
};
let baseline_arg = match () {
#[cfg(feature = "timer-queue")]
() => quote!(#baseline: rtfm::Instant,),
#[cfg(not(feature = "timer-queue"))]
() => quote!(),
};
items.push(quote!(
#[inline(always)]
#(#cfgs)*
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unsafe fn #alias(
#baseline_arg
#priority: &core::cell::Cell<u8>,
#(#args,)*
) -> Result<(), #ty> {
use core::ptr;
use rtfm::Mutex;
if let Some(index) = (#free { #priority }).lock(|f| f.split().1.dequeue()) {
ptr::write(#inputs.get_mut().get_unchecked_mut(usize::from(index)), (#pats));
#scheduleds_write
#ready { #priority }.lock(|rq| {
rq.split().0.enqueue_unchecked((#enum_::#name, index))
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});
rtfm::pend(#device::Interrupt::#dispatcher);
Ok(())
} else {
Err((#pats))
}
}
))
}
// Generate `spawn` structs; these call the `spawn` functions generated above
for (name, spawn) in app.spawn_callers() {
if spawn.is_empty() {
continue;
}
#[cfg(feature = "timer-queue")]
let is_idle = name.to_string() == "idle";
let mut methods = vec![];
for task in spawn {
let task_ = &app.tasks[task];
let alias = &ctxt.tasks[task].spawn_fn;
let inputs = &task_.inputs;
let cfgs = &task_.cfgs;
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let ty = tuple_ty(inputs);
let pats = tuple_pat(inputs);
let instant = match () {
#[cfg(feature = "timer-queue")]
() => {
if is_idle {
quote!(rtfm::Instant::now(),)
} else {
quote!(self.#baseline,)
}
}
#[cfg(not(feature = "timer-queue"))]
() => quote!(),
};
methods.push(quote!(
#[allow(unsafe_code)]
#[inline]
#(#cfgs)*
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pub fn #task(&self, #(#inputs,)*) -> Result<(), #ty> {
unsafe { #alias(#instant &self.#priority, #pats) }
}
));
}
items.push(quote!(
impl<'a> #name::Spawn<'a> {
#(#methods)*
}
));
}
quote!(#(#items)*)
}
#[cfg(feature = "timer-queue")]
fn schedule(ctxt: &Context, app: &App) -> proc_macro2::TokenStream {
let mut items = vec![];
// Generate `schedule` functions
let priority = &ctxt.priority;
let timer_queue = &ctxt.timer_queue;
for (task, alias) in &ctxt.schedule_fn {
let task_ = &ctxt.tasks[task];
let free = &task_.free_queue;
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let enum_ = &ctxt.schedule_enum;
let inputs = &task_.inputs;
let scheduleds = &task_.scheduleds;
let task__ = &app.tasks[task];
let args = &task__.inputs;
let cfgs = &task__.cfgs;
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let ty = tuple_ty(args);
let pats = tuple_pat(args);
items.push(quote!(
#[inline(always)]
#(#cfgs)*
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unsafe fn #alias(
#priority: &core::cell::Cell<u8>,
instant: rtfm::Instant,
#(#args,)*
) -> Result<(), #ty> {
use core::ptr;
use rtfm::Mutex;
if let Some(index) = (#free { #priority }).lock(|f| f.split().1.dequeue()) {
ptr::write(#inputs.get_mut().get_unchecked_mut(usize::from(index)), (#pats));
ptr::write(
#scheduleds.get_mut().get_unchecked_mut(usize::from(index)),
instant,
);
let nr = rtfm::export::NotReady {
instant,
index,
task: #enum_::#task,
};
({#timer_queue { #priority }}).lock(|tq| tq.enqueue_unchecked(nr));
Ok(())
} else {
Err((#pats))
}
}
))
}
// Generate `Schedule` structs; these call the `schedule` functions generated above
for (name, schedule) in app.schedule_callers() {
if schedule.is_empty() {
continue;
}
debug_assert!(!schedule.is_empty());
let mut methods = vec![];
for task in schedule {
let alias = &ctxt.schedule_fn[task];
let task_ = &app.tasks[task];
let inputs = &task_.inputs;
let cfgs = &task_.cfgs;
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let ty = tuple_ty(inputs);
let pats = tuple_pat(inputs);
methods.push(quote!(
#[inline]
#(#cfgs)*
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pub fn #task(
&self,
instant: rtfm::Instant,
#(#inputs,)*
) -> Result<(), #ty> {
unsafe { #alias(&self.#priority, instant, #pats) }
}
));
}
items.push(quote!(
impl<'a> #name::Schedule<'a> {
#(#methods)*
}
));
}
quote!(#(#items)*)
}
fn timer_queue(ctxt: &Context, app: &App, analysis: &Analysis) -> proc_macro2::TokenStream {
let tasks = &analysis.timer_queue.tasks;
if tasks.is_empty() {
return quote!();
}
let mut items = vec![];
let variants = tasks
.iter()
.map(|task| {
let cfgs = &app.tasks[task].cfgs;
quote!(
#(#cfgs)*
#task
)
})
.collect::<Vec<_>>();
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let enum_ = &ctxt.schedule_enum;
items.push(quote!(
#[allow(dead_code)]
#[allow(non_camel_case_types)]
#[derive(Clone, Copy)]
enum #enum_ { #(#variants,)* }
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));
let cap = mk_typenum_capacity(analysis.timer_queue.capacity, false);
let tq = &ctxt.timer_queue;
let symbol = format!("TIMER_QUEUE::{}", tq);
items.push(quote!(
#[doc = #symbol]
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static mut #tq:
rtfm::export::MaybeUninit<rtfm::export::TimerQueue<#enum_, #cap>> =
rtfm::export::MaybeUninit::uninitialized();
));
items.push(mk_resource(
ctxt,
&[],
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tq,
quote!(rtfm::export::TimerQueue<#enum_, #cap>),
analysis.timer_queue.ceiling,
quote!(#tq.get_mut()),
app,
None,
));
let priority = &ctxt.priority;
let device = &app.args.device;
let arms = tasks
.iter()
.map(|task| {
let task_ = &app.tasks[task];
let level = task_.args.priority;
let cfgs = &task_.cfgs;
let dispatcher_ = &ctxt.dispatchers[&level];
let tenum = &dispatcher_.enum_;
let ready = &dispatcher_.ready_queue;
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let dispatcher = &analysis.dispatchers[&level].interrupt;
quote!(
#(#cfgs)*
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#enum_::#task => {
(#ready { #priority }).lock(|rq| {
rq.split().0.enqueue_unchecked((#tenum::#task, index))
});
rtfm::pend(#device::Interrupt::#dispatcher);
}
)
})
.collect::<Vec<_>>();
let logical_prio = analysis.timer_queue.priority;
let alias = mk_ident(None);
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items.push(quote!(
#[export_name = "SysTick"]
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#[doc(hidden)]
unsafe fn #alias() {
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use rtfm::Mutex;
let ref #priority = core::cell::Cell::new(#logical_prio);
rtfm::export::run(|| {
rtfm::export::sys_tick(#tq { #priority }, |task, index| {
match task {
#(#arms)*
}
});
})
}
));
quote!(#(#items)*)
}
fn pre_init(ctxt: &Context, app: &App, analysis: &Analysis) -> proc_macro2::TokenStream {
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let mut exprs = vec![];
// FIXME(MaybeUninit) Because we are using a fake MaybeUninit we need to set the Option tag to
// Some; otherwise the get_ref and get_mut could result in UB. Also heapless collections can't
// be constructed in const context; we have to initialize them at runtime (i.e. here).
// these are `MaybeUninit` arrays
for task in ctxt.tasks.values() {
let inputs = &task.inputs;
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exprs.push(quote!(#inputs.set(core::mem::uninitialized());))
}
#[cfg(feature = "timer-queue")]
for task in ctxt.tasks.values() {
let scheduleds = &task.scheduleds;
exprs.push(quote!(#scheduleds.set(core::mem::uninitialized());))
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}
// these are `MaybeUninit` `ReadyQueue`s
for dispatcher in ctxt.dispatchers.values() {
let rq = &dispatcher.ready_queue;
exprs.push(quote!(#rq.set(rtfm::export::ReadyQueue::new_sc());))
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}
// these are `MaybeUninit` `FreeQueue`s
for task in ctxt.tasks.values() {
let fq = &task.free_queue;
exprs.push(quote!(#fq.set(rtfm::export::FreeQueue::new_sc());))
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}
// end-of-FIXME
// Initialize the timer queue
if !analysis.timer_queue.tasks.is_empty() {
let tq = &ctxt.timer_queue;
exprs.push(quote!(#tq.set(rtfm::export::TimerQueue::new(p.SYST));));
}
// Populate the `FreeQueue`s
for (name, task) in &ctxt.tasks {
let fq = &task.free_queue;
let capacity = analysis.capacities[name];
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exprs.push(quote!(
for i in 0..#capacity {
#fq.get_mut().enqueue_unchecked(i);
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}
))
}
// TODO turn the assertions that check that the priority is not larger than what's supported by
// the device into compile errors
let device = &app.args.device;
let nvic_prio_bits = quote!(#device::NVIC_PRIO_BITS);
for (name, interrupt) in &app.interrupts {
let priority = interrupt.args.priority;
exprs.push(quote!(p.NVIC.enable(#device::Interrupt::#name);));
exprs.push(quote!(assert!(#priority <= (1 << #nvic_prio_bits));));
exprs.push(quote!(p.NVIC.set_priority(
#device::Interrupt::#name,
((1 << #nvic_prio_bits) - #priority) << (8 - #nvic_prio_bits),
);));
}
for (priority, dispatcher) in &analysis.dispatchers {
let name = &dispatcher.interrupt;
exprs.push(quote!(p.NVIC.enable(#device::Interrupt::#name);));
exprs.push(quote!(assert!(#priority <= (1 << #nvic_prio_bits));));
exprs.push(quote!(p.NVIC.set_priority(
#device::Interrupt::#name,
((1 << #nvic_prio_bits) - #priority) << (8 - #nvic_prio_bits),
);));
}
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// Set the cycle count to 0 and disable it while `init` executes
if cfg!(feature = "timer-queue") {
exprs.push(quote!(p.DWT.ctrl.modify(|r| r & !1);));
exprs.push(quote!(p.DWT.cyccnt.write(0);));
}
quote!(
let mut p = rtfm::export::Peripherals::steal();
#(#exprs)*
)
}
fn assertions(app: &App, analysis: &Analysis) -> proc_macro2::TokenStream {
let mut items = vec![];
for ty in &analysis.assert_sync {
items.push(quote!(rtfm::export::assert_sync::<#ty>()));
}
for task in &analysis.tasks_assert_send {
let ty = tuple_ty(&app.tasks[task].inputs);
items.push(quote!(rtfm::export::assert_send::<#ty>()));
}
// all late resources need to be `Send`
for ty in &analysis.resources_assert_send {
items.push(quote!(rtfm::export::assert_send::<#ty>()));
}
quote!(#(#items;)*)
}
fn mk_resource(
ctxt: &Context,
cfgs: &[Attribute],
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struct_: &Ident,
ty: proc_macro2::TokenStream,
ceiling: u8,
ptr: proc_macro2::TokenStream,
app: &App,
module: Option<&mut Vec<proc_macro2::TokenStream>>,
) -> proc_macro2::TokenStream {
let priority = &ctxt.priority;
let device = &app.args.device;
let mut items = vec![];
let path = if let Some(module) = module {
let doc = format!("`{}`", ty);
module.push(quote!(
#[doc = #doc]
#(#cfgs)*
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pub struct #struct_<'a> {
#[doc(hidden)]
pub #priority: &'a core::cell::Cell<u8>,
}
));
quote!(resources::#struct_)
} else {
items.push(quote!(
#(#cfgs)*
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struct #struct_<'a> {
#priority: &'a core::cell::Cell<u8>,
}
));
quote!(#struct_)
};
items.push(quote!(
#(#cfgs)*
impl<'a> rtfm::Mutex for #path<'a> {
type T = #ty;
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#[inline]
fn lock<R, F>(&mut self, f: F) -> R
where
F: FnOnce(&mut Self::T) -> R,
{
unsafe {
rtfm::export::claim(
#ptr,
&self.#priority,
#ceiling,
#device::NVIC_PRIO_BITS,
f,
)
}
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}
}
));
quote!(#(#items)*)
}
fn mk_capacity_literal(capacity: u8) -> LitInt {
LitInt::new(u64::from(capacity), IntSuffix::None, Span::call_site())
}
fn mk_typenum_capacity(capacity: u8, power_of_two: bool) -> proc_macro2::TokenStream {
let capacity = if power_of_two {
capacity
.checked_next_power_of_two()
.expect("capacity.next_power_of_two()")
} else {
capacity
};
let ident = Ident::new(&format!("U{}", capacity), Span::call_site());
quote!(rtfm::export::consts::#ident)
}
fn mk_ident(name: Option<&str>) -> Ident {
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static CALL_COUNT: AtomicUsize = AtomicUsize::new(0);
let elapsed = SystemTime::now().duration_since(UNIX_EPOCH).unwrap();
let secs = elapsed.as_secs();
let nanos = elapsed.subsec_nanos();
let count = CALL_COUNT.fetch_add(1, Ordering::SeqCst) as u32;
let mut seed: [u8; 16] = [0; 16];
for (i, v) in seed.iter_mut().take(8).enumerate() {
*v = ((secs >> (i * 8)) & 0xFF) as u8
}
for (i, v) in seed.iter_mut().skip(8).take(4).enumerate() {
*v = ((nanos >> (i * 8)) & 0xFF) as u8
}
for (i, v) in seed.iter_mut().skip(12).enumerate() {
*v = ((count >> (i * 8)) & 0xFF) as u8
}
let n;
let mut s = if let Some(name) = name {
n = 4;
format!("{}_", name)
} else {
n = 16;
String::new()
};
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let mut rng = rand::rngs::SmallRng::from_seed(seed);
for i in 0..n {
if i == 0 || rng.gen() {
s.push(('a' as u8 + rng.gen::<u8>() % 25) as char)
} else {
s.push(('0' as u8 + rng.gen::<u8>() % 10) as char)
}
}
Ident::new(&s, Span::call_site())
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}
// `once = true` means that these locals will be called from a function that will run *once*
fn mk_locals(locals: &HashMap<Ident, Static>, once: bool) -> proc_macro2::TokenStream {
let lt = if once { Some(quote!('static)) } else { None };
let locals = locals
.iter()
.map(|(name, static_)| {
let attrs = &static_.attrs;
let cfgs = &static_.cfgs;
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let expr = &static_.expr;
let ident = name;
let ty = &static_.ty;
quote!(
#[allow(non_snake_case)]
#(#cfgs)*
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let #ident: &#lt mut #ty = {
#(#attrs)*
#(#cfgs)*
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static mut #ident: #ty = #expr;
unsafe { &mut #ident }
};
)
})
.collect::<Vec<_>>();
quote!(#(#locals)*)
}
fn tuple_pat(inputs: &[ArgCaptured]) -> proc_macro2::TokenStream {
if inputs.len() == 1 {
let pat = &inputs[0].pat;
quote!(#pat)
} else {
let pats = inputs.iter().map(|i| &i.pat).collect::<Vec<_>>();
quote!(#(#pats,)*)
}
}
fn tuple_ty(inputs: &[ArgCaptured]) -> proc_macro2::TokenStream {
if inputs.len() == 1 {
let ty = &inputs[0].ty;
quote!(#ty)
} else {
let tys = inputs.iter().map(|i| &i.ty).collect::<Vec<_>>();
quote!((#(#tys,)*))
}
}
#[derive(Clone, Debug, Eq, Hash, PartialEq)]
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enum Kind {
Exception(Ident),
Idle,
Init,
Interrupt(Ident),
Task(Ident),
}
impl Kind {
fn ident(&self) -> Ident {
match self {
Kind::Init => Ident::new("init", Span::call_site()),
Kind::Idle => Ident::new("idle", Span::call_site()),
Kind::Task(name) | Kind::Interrupt(name) | Kind::Exception(name) => name.clone(),
}
}
fn is_idle(&self) -> bool {
*self == Kind::Idle
}
fn is_init(&self) -> bool {
*self == Kind::Init
}
fn runs_once(&self) -> bool {
match *self {
Kind::Init | Kind::Idle => true,
_ => false,
}
}
}