mirror of
https://github.com/rtic-rs/rtic.git
synced 2024-11-29 23:14:34 +01:00
140 lines
4.8 KiB
Rust
140 lines
4.8 KiB
Rust
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use proc_macro2::TokenStream as TokenStream2;
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use quote::quote;
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use crate::{analyze::Analysis, check::Extra, codegen::util};
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/// Generates code that runs after `#[init]` returns
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pub fn codegen(
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core: u8,
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analysis: &Analysis,
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extra: &Extra,
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) -> (Vec<TokenStream2>, Vec<TokenStream2>) {
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let mut const_app = vec![];
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let mut stmts = vec![];
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// initialize late resources
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if let Some(late_resources) = analysis.late_resources.get(&core) {
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for name in late_resources {
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// if it's live
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if analysis.locations.get(name).is_some() {
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stmts.push(quote!(#name.as_mut_ptr().write(late.#name);));
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}
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}
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}
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if analysis.timer_queues.is_empty() {
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// cross-initialization barriers -- notify *other* cores that their resources have been
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// initialized
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if analysis.initialization_barriers.contains_key(&core) {
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let ib = util::init_barrier(core);
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const_app.push(quote!(
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#[rtfm::export::shared]
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static #ib: rtfm::export::Barrier = rtfm::export::Barrier::new();
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));
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stmts.push(quote!(
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#ib.release();
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));
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}
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// then wait until the other cores have initialized *our* resources
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for (&initializer, users) in &analysis.initialization_barriers {
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if users.contains(&core) {
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let ib = util::init_barrier(initializer);
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stmts.push(quote!(
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#ib.wait();
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));
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}
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}
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// cross-spawn barriers: wait until other cores are ready to receive messages
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for (&receiver, senders) in &analysis.spawn_barriers {
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if senders.get(&core) == Some(&false) {
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let sb = util::spawn_barrier(receiver);
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stmts.push(quote!(
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#sb.wait();
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));
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}
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}
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} else {
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// if the `schedule` API is used then we'll synchronize all cores to leave the
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// `init`-ialization phase at the same time. In this case the rendezvous barrier makes the
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// cross-initialization and spawn barriers unnecessary
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let m = extra.monotonic();
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if analysis.timer_queues.len() == 1 {
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// reset the monotonic timer / counter
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stmts.push(quote!(
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<#m as rtfm::Monotonic>::reset();
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));
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} else {
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// in the multi-core case we need a rendezvous (RV) barrier between *all* the cores that
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// use the `schedule` API; otherwise one of the cores could observe the before-reset
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// value of the monotonic counter
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// (this may be easier to implement with `AtomicU8.fetch_sub` but that API is not
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// available on ARMv6-M)
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// this core will reset the monotonic counter
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const FIRST: u8 = 0;
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if core == FIRST {
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for &i in analysis.timer_queues.keys() {
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let rv = util::rendezvous_ident(i);
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const_app.push(quote!(
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#[rtfm::export::shared]
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static #rv: rtfm::export::Barrier = rtfm::export::Barrier::new();
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));
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// wait until all the other cores have reached the RV point
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if i != FIRST {
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stmts.push(quote!(
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#rv.wait();
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));
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}
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}
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let rv = util::rendezvous_ident(core);
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stmts.push(quote!(
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// the compiler fences are used to prevent `reset` from being re-ordering wrt to
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// the atomic operations -- we don't know if `reset` contains load or store
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// operations
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core::sync::atomic::compiler_fence(core::sync::atomic::Ordering::SeqCst);
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// reset the counter
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<#m as rtfm::Monotonic>::reset();
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core::sync::atomic::compiler_fence(core::sync::atomic::Ordering::SeqCst);
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// now unblock all the other cores
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#rv.release();
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));
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} else {
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let rv = util::rendezvous_ident(core);
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// let the first core know that we have reached the RV point
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stmts.push(quote!(
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#rv.release();
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));
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let rv = util::rendezvous_ident(FIRST);
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// wait until the first core has reset the monotonic timer
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stmts.push(quote!(
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#rv.wait();
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));
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}
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}
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}
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// enable the interrupts -- this completes the `init`-ialization phase
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stmts.push(quote!(rtfm::export::interrupt::enable();));
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(const_app, stmts)
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}
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