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918f9c3f13
* Atomics: Replace polyfill with portable-atomic * Update Cargo.lock for examples * RTIC: portable-atomic: Update changelog * rtic-monotonics: portable-atomic: Update changelog * lm3s6965: enable critical-section when testing * xtask: Enable portable-atomic/critical-section When dealing with rtic-monotonics * rtic-monotonics: portable-atomics: Do not disable the ability to fallback --------- Co-authored-by: Emil Fresk <emil.fresk@gmail.com>
267 lines
8.9 KiB
Rust
267 lines
8.9 KiB
Rust
//! [`Monotonic`](rtic_time::Monotonic) implementations for i.MX RT's GPT peripherals.
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//!
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//! # Example
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//!
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//! ```
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//! use rtic_monotonics::imxrt::prelude::*;
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//! imxrt_gpt1_monotonic!(Mono, 1_000_000);
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//!
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//! fn init() {
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//! // Obtain ownership of the timer register block.
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//! let gpt1 = unsafe { imxrt_ral::gpt::GPT1::instance() };
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//!
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//! // Configure the timer tick rate as specified earlier
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//! todo!("Configure the gpt1 peripheral to a tick rate of 1_000_000");
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//!
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//! // Start the monotonic
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//! Mono::start(gpt1);
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//! }
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//!
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//! async fn usage() {
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//! loop {
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//! // Use the monotonic
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//! let timestamp = Mono::now();
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//! Mono::delay(100.millis()).await;
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//! }
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//! }
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//! ```
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use portable_atomic::{AtomicU32, Ordering};
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use rtic_time::{
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half_period_counter::calculate_now,
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timer_queue::{TimerQueue, TimerQueueBackend},
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};
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pub use imxrt_ral as ral;
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/// Common definitions and traits for using the i.MX RT monotonics
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pub mod prelude {
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#[cfg(feature = "imxrt_gpt1")]
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pub use crate::imxrt_gpt1_monotonic;
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#[cfg(feature = "imxrt_gpt2")]
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pub use crate::imxrt_gpt2_monotonic;
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pub use crate::Monotonic;
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pub use fugit::{self, ExtU64, ExtU64Ceil};
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}
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#[doc(hidden)]
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#[macro_export]
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macro_rules! __internal_create_imxrt_timer_interrupt {
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($mono_backend:ident, $timer:ident) => {
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#[no_mangle]
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#[allow(non_snake_case)]
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unsafe extern "C" fn $timer() {
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use $crate::TimerQueueBackend;
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$crate::imxrt::$mono_backend::timer_queue().on_monotonic_interrupt();
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}
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};
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}
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#[doc(hidden)]
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#[macro_export]
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macro_rules! __internal_create_imxrt_timer_struct {
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($name:ident, $mono_backend:ident, $timer:ident, $tick_rate_hz:expr) => {
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/// A `Monotonic` based on the GPT peripheral.
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pub struct $name;
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impl $name {
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/// Starts the `Monotonic`.
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///
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/// This method must be called only once.
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pub fn start(gpt: $crate::imxrt::ral::gpt::$timer) {
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$crate::__internal_create_imxrt_timer_interrupt!($mono_backend, $timer);
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$crate::imxrt::$mono_backend::_start(gpt);
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}
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}
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impl $crate::TimerQueueBasedMonotonic for $name {
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type Backend = $crate::imxrt::$mono_backend;
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type Instant = $crate::fugit::Instant<
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<Self::Backend as $crate::TimerQueueBackend>::Ticks,
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1,
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{ $tick_rate_hz },
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>;
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type Duration = $crate::fugit::Duration<
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<Self::Backend as $crate::TimerQueueBackend>::Ticks,
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1,
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{ $tick_rate_hz },
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>;
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}
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$crate::rtic_time::impl_embedded_hal_delay_fugit!($name);
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$crate::rtic_time::impl_embedded_hal_async_delay_fugit!($name);
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};
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}
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/// Create a GPT1 based monotonic and register the GPT1 interrupt for it.
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///
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/// See [`crate::imxrt`] for more details.
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///
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/// # Arguments
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///
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/// * `name` - The name that the monotonic type will have.
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/// * `tick_rate_hz` - The tick rate of the timer peripheral. It's the user's responsibility
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/// to configure the peripheral to the given frequency before starting the
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/// monotonic.
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#[cfg(feature = "imxrt_gpt1")]
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#[macro_export]
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macro_rules! imxrt_gpt1_monotonic {
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($name:ident, $tick_rate_hz:expr) => {
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$crate::__internal_create_imxrt_timer_struct!($name, Gpt1Backend, GPT1, $tick_rate_hz);
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};
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}
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/// Create a GPT2 based monotonic and register the GPT2 interrupt for it.
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///
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/// See [`crate::imxrt`] for more details.
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///
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/// # Arguments
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///
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/// * `name` - The name that the monotonic type will have.
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/// * `tick_rate_hz` - The tick rate of the timer peripheral. It's the user's responsibility
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/// to configure the peripheral to the given frequency before starting the
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/// monotonic.
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#[cfg(feature = "imxrt_gpt2")]
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#[macro_export]
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macro_rules! imxrt_gpt2_monotonic {
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($name:ident, $tick_rate_hz:expr) => {
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$crate::__internal_create_imxrt_timer_struct!($name, Gpt2Backend, GPT2, $tick_rate_hz);
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};
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}
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macro_rules! make_timer {
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($mono_name:ident, $backend_name:ident, $timer:ident, $period:ident, $tq:ident$(, doc: ($($doc:tt)*))?) => {
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/// GPT based [`TimerQueueBackend`].
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$(
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#[cfg_attr(docsrs, doc(cfg($($doc)*)))]
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)?
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pub struct $backend_name;
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use ral::gpt::$timer;
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/// Number of 2^31 periods elapsed since boot.
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static $period: AtomicU32 = AtomicU32::new(0);
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static $tq: TimerQueue<$backend_name> = TimerQueue::new();
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impl $backend_name {
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/// Starts the timer.
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///
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/// **Do not use this function directly.**
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///
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/// Use the prelude macros instead.
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pub fn _start(gpt: $timer) {
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// Disable the timer.
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ral::modify_reg!(ral::gpt, gpt, CR, EN: 0);
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// Clear all status registers.
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ral::write_reg!(ral::gpt, gpt, SR, 0b11_1111);
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// Base configuration
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ral::modify_reg!(ral::gpt, gpt, CR,
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ENMOD: 1, // Clear timer state
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FRR: 1, // Free-Run mode
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);
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// Reset period
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$period.store(0, Ordering::SeqCst);
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// Enable interrupts
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ral::write_reg!(ral::gpt, gpt, IR,
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ROVIE: 1, // Rollover interrupt
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OF1IE: 1, // Timer compare 1 interrupt (for half-periods)
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OF2IE: 1, // Timer compare 2 interrupt (for dynamic wakeup)
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);
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// Configure half-period interrupt
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ral::write_reg!(ral::gpt, gpt, OCR[0], 0x8000_0000);
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// Dynamic interrupt register; for now initialize to zero
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// so it gets combined with rollover interrupt
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ral::write_reg!(ral::gpt, gpt, OCR[1], 0x0000_0000);
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// Initialize timer queue
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$tq.initialize(Self {});
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// Enable the timer
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ral::modify_reg!(ral::gpt, gpt, CR, EN: 1);
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ral::modify_reg!(ral::gpt, gpt, CR,
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ENMOD: 0, // Keep state when disabled
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);
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// SAFETY: We take full ownership of the peripheral and interrupt vector,
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// plus we are not using any external shared resources so we won't impact
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// basepri/source masking based critical sections.
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unsafe {
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crate::set_monotonic_prio(ral::NVIC_PRIO_BITS, ral::Interrupt::$timer);
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cortex_m::peripheral::NVIC::unmask(ral::Interrupt::$timer);
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}
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}
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}
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impl TimerQueueBackend for $backend_name {
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type Ticks = u64;
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fn now() -> Self::Ticks {
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let gpt = unsafe{ $timer::instance() };
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calculate_now(
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|| $period.load(Ordering::Relaxed),
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|| ral::read_reg!(ral::gpt, gpt, CNT)
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)
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}
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fn set_compare(instant: Self::Ticks) {
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let gpt = unsafe{ $timer::instance() };
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// Set the timer regardless of whether it is multiple periods in the future,
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// or even already in the past.
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// The worst thing that can happen is a spurious wakeup, and with a timer
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// period of half an hour, this is hardly a problem.
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let ticks_wrapped = instant as u32;
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ral::write_reg!(ral::gpt, gpt, OCR[1], ticks_wrapped);
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}
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fn clear_compare_flag() {
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let gpt = unsafe{ $timer::instance() };
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ral::write_reg!(ral::gpt, gpt, SR, OF2: 1);
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}
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fn pend_interrupt() {
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cortex_m::peripheral::NVIC::pend(ral::Interrupt::$timer);
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}
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fn on_interrupt() {
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let gpt = unsafe{ $timer::instance() };
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let (rollover, half_rollover) = ral::read_reg!(ral::gpt, gpt, SR, ROV, OF1);
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if rollover != 0 {
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let prev = $period.fetch_add(1, Ordering::Relaxed);
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ral::write_reg!(ral::gpt, gpt, SR, ROV: 1);
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assert!(prev % 2 == 1, "Monotonic must have skipped an interrupt!");
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}
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if half_rollover != 0 {
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let prev = $period.fetch_add(1, Ordering::Relaxed);
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ral::write_reg!(ral::gpt, gpt, SR, OF1: 1);
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assert!(prev % 2 == 0, "Monotonic must have skipped an interrupt!");
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}
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}
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fn timer_queue() -> &'static TimerQueue<Self> {
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&$tq
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}
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}
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};
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}
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#[cfg(feature = "imxrt_gpt1")]
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make_timer!(Gpt1, Gpt1Backend, GPT1, GPT1_HALFPERIODS, GPT1_TQ);
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#[cfg(feature = "imxrt_gpt2")]
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make_timer!(Gpt2, Gpt2Backend, GPT2, GPT2_HALFPERIODS, GPT2_TQ);
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