rtic/rtic-monotonics/src/imxrt.rs

//! [`Monotonic`] implementations for i.MX RT's GPT peripherals.
//!
//! # Example
//!
//! ```
//! use rtic_monotonics::imxrt::*;
//! use rtic_monotonics::imxrt::Gpt1 as Mono;
//!
//! fn init() {
//!     // Obtain ownership of the timer register block
//!     let gpt1 = unsafe { imxrt_ral::gpt::GPT1::instance() };
//!
//!     // Configure the timer clock source and determine its tick rate
//!     let timer_tickrate_hz = 1_000_000;
//!
//!     // Generate timer token to ensure correct timer interrupt handler is used
//!     let token = rtic_monotonics::create_imxrt_gpt1_token!();
//!
//!     // Start the monotonic
//!     Mono::start(timer_tickrate_hz, gpt1, token);
//! }
//!
//! async fn usage() {
//!     loop {
//!          // Use the monotonic
//!          let timestamp = Mono::now().ticks();
//!          Mono::delay(100.millis()).await;
//!     }
//! }
//! ```

use crate::{Monotonic, TimeoutError, TimerQueue};
use atomic_polyfill::{AtomicU32, Ordering};
pub use fugit::{self, ExtU64, ExtU64Ceil};
use rtic_time::half_period_counter::calculate_now;

use imxrt_ral as ral;

const TIMER_HZ: u32 = 1_000_000;

#[doc(hidden)]
#[macro_export]
macro_rules! __internal_create_imxrt_timer_interrupt {
    ($mono_timer:ident, $timer:ident, $timer_token:ident) => {{
        #[no_mangle]
        #[allow(non_snake_case)]
        unsafe extern "C" fn $timer() {
            $crate::imxrt::$mono_timer::__tq().on_monotonic_interrupt();
        }

        pub struct $timer_token;

        unsafe impl $crate::InterruptToken<$crate::imxrt::$mono_timer> for $timer_token {}

        $timer_token
    }};
}

/// Register the GPT1 interrupt for the monotonic.
#[cfg(feature = "imxrt_gpt1")]
#[macro_export]
macro_rules! create_imxrt_gpt1_token {
    () => {{
        $crate::__internal_create_imxrt_timer_interrupt!(Gpt1, GPT1, Gpt1Token)
    }};
}

/// Register the GPT2 interrupt for the monotonic.
#[cfg(feature = "imxrt_gpt2")]
#[macro_export]
macro_rules! create_imxrt_gpt2_token {
    () => {{
        $crate::__internal_create_imxrt_timer_interrupt!(Gpt2, GPT2, Gpt2Token)
    }};
}

macro_rules! make_timer {
    ($mono_name:ident, $timer:ident, $period:ident, $tq:ident$(, doc: ($($doc:tt)*))?) => {
        /// Timer implementing [`Monotonic`] which runs at 1 MHz.
        $(
            #[cfg_attr(docsrs, doc(cfg($($doc)*)))]
        )?

        pub struct $mono_name;

        use ral::gpt::$timer;

        /// Number of 2^31 periods elapsed since boot.
        static $period: AtomicU32 = AtomicU32::new(0);
        static $tq: TimerQueue<$mono_name> = TimerQueue::new();

        impl $mono_name {
            /// Starts the monotonic timer.
            ///
            /// - `tick_freq_hz`: The tick frequency of the given timer.
            /// - `gpt`: The GPT timer register block instance.
            /// - `_interrupt_token`: Required for correct timer interrupt handling.
            ///
            /// This method must be called only once.
            pub fn start(tick_freq_hz: u32, gpt: $timer, _interrupt_token: impl crate::InterruptToken<Self>) {
                // Find a prescaler that creates our desired tick frequency
                let previous_prescaler = ral::read_reg!(ral::gpt, gpt, PR, PRESCALER) + 1;
                let previous_clock_freq = tick_freq_hz * previous_prescaler;
                assert!((previous_clock_freq % TIMER_HZ) == 0,
                        "Unable to find a fitting prescaler value!\n    Input: {}/{}\n    Desired: {}",
                        previous_clock_freq, previous_prescaler, TIMER_HZ);
                let prescaler = previous_clock_freq / TIMER_HZ;
                assert!(prescaler > 0);
                assert!(prescaler <= 4096);

                // Disable the timer.
                ral::modify_reg!(ral::gpt, gpt, CR, EN: 0);
                // Clear all status registers.
                ral::write_reg!(ral::gpt, gpt, SR, 0b11_1111);

                // Base configuration
                ral::modify_reg!(ral::gpt, gpt, CR,
                    ENMOD: 1,   // Clear timer state
                    FRR: 1,     // Free-Run mode
                );

                // Reset period
                $period.store(0, Ordering::SeqCst);

                // Prescaler
                ral::modify_reg!(ral::gpt, gpt, PR,
                    PRESCALER: (prescaler - 1), // Scale to our desired clock rate
                );

                // Enable interrupts
                ral::write_reg!(ral::gpt, gpt, IR,
                    ROVIE: 1,   // Rollover interrupt
                    OF1IE: 1,   // Timer compare 1 interrupt (for half-periods)
                    OF2IE: 1,   // Timer compare 2 interrupt (for dynamic wakeup)
                );

                // Configure half-period interrupt
                ral::write_reg!(ral::gpt, gpt, OCR[0], 0x8000_0000);

                // Dynamic interrupt register; for now initialize to zero
                // so it gets combined with rollover interrupt
                ral::write_reg!(ral::gpt, gpt, OCR[1], 0x0000_0000);

                // Enable the timer
                ral::modify_reg!(ral::gpt, gpt, CR, EN: 1);
                ral::modify_reg!(ral::gpt, gpt, CR,
                    ENMOD: 0,   // Keep state when disabled
                );

                $tq.initialize(Self {});

                // SAFETY: We take full ownership of the peripheral and interrupt vector,
                // plus we are not using any external shared resources so we won't impact
                // basepri/source masking based critical sections.
                unsafe {
                    crate::set_monotonic_prio(ral::NVIC_PRIO_BITS, ral::Interrupt::$timer);
                    cortex_m::peripheral::NVIC::unmask(ral::Interrupt::$timer);
                }
            }

            /// Used to access the underlying timer queue
            #[doc(hidden)]
            pub fn __tq() -> &'static TimerQueue<$mono_name> {
                &$tq
            }

            /// Delay for some duration of time.
            #[inline]
            pub async fn delay(duration: <Self as Monotonic>::Duration) {
                $tq.delay(duration).await;
            }

            /// Timeout at a specific time.
            pub async fn timeout_at<F: core::future::Future>(
                instant: <Self as rtic_time::Monotonic>::Instant,
                future: F,
            ) -> Result<F::Output, TimeoutError> {
                $tq.timeout_at(instant, future).await
            }

            /// Timeout after a specific duration.
            #[inline]
            pub async fn timeout_after<F: core::future::Future>(
                duration: <Self as Monotonic>::Duration,
                future: F,
            ) -> Result<F::Output, TimeoutError> {
                $tq.timeout_after(duration, future).await
            }

            /// Delay to some specific time instant.
            #[inline]
            pub async fn delay_until(instant: <Self as Monotonic>::Instant) {
                $tq.delay_until(instant).await;
            }
        }

        rtic_time::embedded_hal_delay_impl_fugit64!($mono_name);

        #[cfg(feature = "embedded-hal-async")]
        rtic_time::embedded_hal_async_delay_impl_fugit64!($mono_name);

        impl Monotonic for $mono_name {
            type Instant = fugit::TimerInstantU64<TIMER_HZ>;
            type Duration = fugit::TimerDurationU64<TIMER_HZ>;

            const ZERO: Self::Instant = Self::Instant::from_ticks(0);
            const TICK_PERIOD: Self::Duration = Self::Duration::from_ticks(1);

            fn now() -> Self::Instant {
                let gpt = unsafe{ $timer::instance() };

                Self::Instant::from_ticks(calculate_now(
                    $period.load(Ordering::Relaxed),
                    || ral::read_reg!(ral::gpt, gpt, CNT)
                ))
            }

            fn set_compare(instant: Self::Instant) {
                let gpt = unsafe{ $timer::instance() };

                // Set the timer regardless of whether it is multiple periods in the future,
                // or even already in the past.
                // The worst thing that can happen is a spurious wakeup, and with a timer
                // period of half an hour, this is hardly a problem.

                let ticks = instant.duration_since_epoch().ticks();
                let ticks_wrapped = ticks as u32;

                ral::write_reg!(ral::gpt, gpt, OCR[1], ticks_wrapped);
            }

            fn clear_compare_flag() {
                let gpt = unsafe{ $timer::instance() };
                ral::write_reg!(ral::gpt, gpt, SR, OF2: 1);
            }

            fn pend_interrupt() {
                cortex_m::peripheral::NVIC::pend(ral::Interrupt::$timer);
            }

            fn on_interrupt() {
                let gpt = unsafe{ $timer::instance() };

                let (rollover, half_rollover) = ral::read_reg!(ral::gpt, gpt, SR, ROV, OF1);

                if rollover != 0 {
                    $period.fetch_add(1, Ordering::Relaxed);
                    ral::write_reg!(ral::gpt, gpt, SR, ROV: 1);
                }

                if half_rollover != 0 {
                    $period.fetch_add(1, Ordering::Relaxed);
                    ral::write_reg!(ral::gpt, gpt, SR, OF1: 1);
                }
            }
        }
    };
}

#[cfg(feature = "imxrt_gpt1")]
make_timer!(Gpt1, GPT1, GPT1_HALFPERIODS, GPT1_TQ);

#[cfg(feature = "imxrt_gpt2")]
make_timer!(Gpt2, GPT2, GPT2_HALFPERIODS, GPT2_TQ);
Add documentation for imxrt; other doc fixes 2023-11-09 00:35:47 +01:00			//! [`Monotonic`] implementations for i.MX RT's GPT peripherals.
Add Monotonic for i.MX RT chip family 2023-11-01 12:13:25 +01:00			`//!`
			`//! # Example`
			`//!`
			//! ```
			`//! use rtic_monotonics::imxrt::*;`
			`//! use rtic_monotonics::imxrt::Gpt1 as Mono;`
			`//!`
			`//! fn init() {`
			`//! // Obtain ownership of the timer register block`
			`//! let gpt1 = unsafe { imxrt_ral::gpt::GPT1::instance() };`
			`//!`
			`//! // Configure the timer clock source and determine its tick rate`
			`//! let timer_tickrate_hz = 1_000_000;`
			`//!`
			`//! // Generate timer token to ensure correct timer interrupt handler is used`
			`//! let token = rtic_monotonics::create_imxrt_gpt1_token!();`
			`//!`
			`//! // Start the monotonic`
			`//! Mono::start(timer_tickrate_hz, gpt1, token);`
			`//! }`
			`//!`
			`//! async fn usage() {`
			`//! loop {`
			`//! // Use the monotonic`
			`//! let timestamp = Mono::now().ticks();`
			`//! Mono::delay(100.millis()).await;`
			`//! }`
			`//! }`
			//! ```

			`use crate::{Monotonic, TimeoutError, TimerQueue};`
Refactor race condition free timer helper (#850) * Implement half_period_counter in rtic-time * Rename compute_now to calculate_now, use it in stm32 and imxrt * Add more tests * Add some docs * Fix clippy warning, add imxrt timer to monotonics tests * Bump dependency version to make sure monotonics will build properly * Add changelog to rtic-monotonics * Add more docs * Add more docs * Finish documentation * Fix typos * Switch from atomic-polyfill to portable-atomic * Some more doc fixes * More doc fixes * Minor doc fix * Minor doc fix * Fix Atomics not existing * Fix example * Minor example improvement * Revert back to atomic-polyfill * Fix cargo.toml formatting * Remove atomic-polyfill * Attempt to fix unused macro warning * Remove atomics completely from half period counter * Minor doc fix * Doc fixes * Doc fixes * Remove obsolete comment * Fix ordering in monotonic initialization sequence 2023-12-04 15:53:02 +01:00			`use atomic_polyfill::{AtomicU32, Ordering};`
Fix mono delay (#843) * rtic-time: Compenstate for timer uncertainty * Update changelog and incorrect cargo.lock in an example * Fix Monotonic impls * Fix tests * Fix other monotonics, again * Update changelog * Fix example * Fix DelayUs and DelayMs impls * Minor coding style fix in u64 conversions * Fix all changelogs * Fix changelog * Fix blocking DelayUs * Minor monotonic rework * Add delay precision test * Add more tests * Add rust-version tags to Cargo.toml * Fix imxrt, rp2040 and systick timer * Fix more monotonics * Fix systick monotonic * Some reverts * Fix imxrt * Fix nrf * Fix rp2040 * Fix stm32 * Fix systick * Fix rtic-time tests * Bump to e-h.rc2 * Apply e-h.rc2 fixes to rtic-time * Apply fixes from arbiter * Fix clippy warning * Minor beautification * Revert previous changes * Fix variable name * Add blocking tests, but disable them by default 2023-12-01 08:59:22 +01:00			`pub use fugit::{self, ExtU64, ExtU64Ceil};`
Refactor race condition free timer helper (#850) * Implement half_period_counter in rtic-time * Rename compute_now to calculate_now, use it in stm32 and imxrt * Add more tests * Add some docs * Fix clippy warning, add imxrt timer to monotonics tests * Bump dependency version to make sure monotonics will build properly * Add changelog to rtic-monotonics * Add more docs * Add more docs * Finish documentation * Fix typos * Switch from atomic-polyfill to portable-atomic * Some more doc fixes * More doc fixes * Minor doc fix * Minor doc fix * Fix Atomics not existing * Fix example * Minor example improvement * Revert back to atomic-polyfill * Fix cargo.toml formatting * Remove atomic-polyfill * Attempt to fix unused macro warning * Remove atomics completely from half period counter * Minor doc fix * Doc fixes * Doc fixes * Remove obsolete comment * Fix ordering in monotonic initialization sequence 2023-12-04 15:53:02 +01:00			`use rtic_time::half_period_counter::calculate_now;`
Add Monotonic for i.MX RT chip family 2023-11-01 12:13:25 +01:00
			`use imxrt_ral as ral;`

			`const TIMER_HZ: u32 = 1_000_000;`

			`#[doc(hidden)]`
			`#[macro_export]`
			`macro_rules! __internal_create_imxrt_timer_interrupt {`
			`($mono_timer:ident, $timer:ident, $timer_token:ident) => {{`
			`#[no_mangle]`
			`#[allow(non_snake_case)]`
			`unsafe extern "C" fn $timer() {`
			`$crate::imxrt::$mono_timer::__tq().on_monotonic_interrupt();`
			`}`

			`pub struct $timer_token;`

			`unsafe impl $crate::InterruptToken<$crate::imxrt::$mono_timer> for $timer_token {}`

			`$timer_token`
			`}};`
			`}`

Add documentation for imxrt; other doc fixes 2023-11-09 00:35:47 +01:00			`/// Register the GPT1 interrupt for the monotonic.`
Add Monotonic for i.MX RT chip family 2023-11-01 12:13:25 +01:00			`#[cfg(feature = "imxrt_gpt1")]`
			`#[macro_export]`
			`macro_rules! create_imxrt_gpt1_token {`
			`() => {{`
			`$crate::__internal_create_imxrt_timer_interrupt!(Gpt1, GPT1, Gpt1Token)`
			`}};`
			`}`

Add documentation for imxrt; other doc fixes 2023-11-09 00:35:47 +01:00			`/// Register the GPT2 interrupt for the monotonic.`
Add Monotonic for i.MX RT chip family 2023-11-01 12:13:25 +01:00			`#[cfg(feature = "imxrt_gpt2")]`
			`#[macro_export]`
			`macro_rules! create_imxrt_gpt2_token {`
			`() => {{`
			`$crate::__internal_create_imxrt_timer_interrupt!(Gpt2, GPT2, Gpt2Token)`
			`}};`
			`}`

			`macro_rules! make_timer {`
			`($mono_name:ident, $timer:ident, $period:ident, $tq:ident$(, doc: ($($doc:tt)*))?) => {`
Add documentation for imxrt; other doc fixes 2023-11-09 00:35:47 +01:00			/// Timer implementing [`Monotonic`] which runs at 1 MHz.
Add Monotonic for i.MX RT chip family 2023-11-01 12:13:25 +01:00			`$(`
			`#[cfg_attr(docsrs, doc(cfg($($doc)*)))]`
			`)?`

			`pub struct $mono_name;`

			`use ral::gpt::$timer;`

			`/// Number of 2^31 periods elapsed since boot.`
			`static $period: AtomicU32 = AtomicU32::new(0);`
			`static $tq: TimerQueue<$mono_name> = TimerQueue::new();`

			`impl $mono_name {`
			`/// Starts the monotonic timer.`
Add documentation for imxrt; other doc fixes 2023-11-09 00:35:47 +01:00			`///`
Add Monotonic for i.MX RT chip family 2023-11-01 12:13:25 +01:00			/// - `tick_freq_hz`: The tick frequency of the given timer.
			/// - `gpt`: The GPT timer register block instance.
			/// - `_interrupt_token`: Required for correct timer interrupt handling.
Add documentation for imxrt; other doc fixes 2023-11-09 00:35:47 +01:00			`///`
Add Monotonic for i.MX RT chip family 2023-11-01 12:13:25 +01:00			`/// This method must be called only once.`
			`pub fn start(tick_freq_hz: u32, gpt: $timer, _interrupt_token: impl crate::InterruptToken<Self>) {`
			`// Find a prescaler that creates our desired tick frequency`
			`let previous_prescaler = ral::read_reg!(ral::gpt, gpt, PR, PRESCALER) + 1;`
			`let previous_clock_freq = tick_freq_hz * previous_prescaler;`
			`assert!((previous_clock_freq % TIMER_HZ) == 0,`
			`"Unable to find a fitting prescaler value!\n Input: {}/{}\n Desired: {}",`
			`previous_clock_freq, previous_prescaler, TIMER_HZ);`
			`let prescaler = previous_clock_freq / TIMER_HZ;`
			`assert!(prescaler > 0);`
			`assert!(prescaler <= 4096);`

			`// Disable the timer.`
			`ral::modify_reg!(ral::gpt, gpt, CR, EN: 0);`
			`// Clear all status registers.`
			`ral::write_reg!(ral::gpt, gpt, SR, 0b11_1111);`

			`// Base configuration`
			`ral::modify_reg!(ral::gpt, gpt, CR,`
			`ENMOD: 1, // Clear timer state`
			`FRR: 1, // Free-Run mode`
			`);`

			`// Reset period`
Refactor race condition free timer helper (#850) * Implement half_period_counter in rtic-time * Rename compute_now to calculate_now, use it in stm32 and imxrt * Add more tests * Add some docs * Fix clippy warning, add imxrt timer to monotonics tests * Bump dependency version to make sure monotonics will build properly * Add changelog to rtic-monotonics * Add more docs * Add more docs * Finish documentation * Fix typos * Switch from atomic-polyfill to portable-atomic * Some more doc fixes * More doc fixes * Minor doc fix * Minor doc fix * Fix Atomics not existing * Fix example * Minor example improvement * Revert back to atomic-polyfill * Fix cargo.toml formatting * Remove atomic-polyfill * Attempt to fix unused macro warning * Remove atomics completely from half period counter * Minor doc fix * Doc fixes * Doc fixes * Remove obsolete comment * Fix ordering in monotonic initialization sequence 2023-12-04 15:53:02 +01:00			`$period.store(0, Ordering::SeqCst);`
Add Monotonic for i.MX RT chip family 2023-11-01 12:13:25 +01:00
			`// Prescaler`
			`ral::modify_reg!(ral::gpt, gpt, PR,`
			`PRESCALER: (prescaler - 1), // Scale to our desired clock rate`
			`);`

			`// Enable interrupts`
			`ral::write_reg!(ral::gpt, gpt, IR,`
			`ROVIE: 1, // Rollover interrupt`
			`OF1IE: 1, // Timer compare 1 interrupt (for half-periods)`
			`OF2IE: 1, // Timer compare 2 interrupt (for dynamic wakeup)`
			`);`

			`// Configure half-period interrupt`
			`ral::write_reg!(ral::gpt, gpt, OCR[0], 0x8000_0000);`

			`// Dynamic interrupt register; for now initialize to zero`
			`// so it gets combined with rollover interrupt`
			`ral::write_reg!(ral::gpt, gpt, OCR[1], 0x0000_0000);`

			`// Enable the timer`
			`ral::modify_reg!(ral::gpt, gpt, CR, EN: 1);`
			`ral::modify_reg!(ral::gpt, gpt, CR,`
			`ENMOD: 0, // Keep state when disabled`
			`);`

			`$tq.initialize(Self {});`

			`// SAFETY: We take full ownership of the peripheral and interrupt vector,`
			`// plus we are not using any external shared resources so we won't impact`
			`// basepri/source masking based critical sections.`
			`unsafe {`
			`crate::set_monotonic_prio(ral::NVIC_PRIO_BITS, ral::Interrupt::$timer);`
			`cortex_m::peripheral::NVIC::unmask(ral::Interrupt::$timer);`
			`}`
			`}`

			`/// Used to access the underlying timer queue`
			`#[doc(hidden)]`
			`pub fn __tq() -> &'static TimerQueue<$mono_name> {`
			`&$tq`
			`}`

			`/// Delay for some duration of time.`
			`#[inline]`
			`pub async fn delay(duration: <Self as Monotonic>::Duration) {`
			`$tq.delay(duration).await;`
			`}`

			`/// Timeout at a specific time.`
			`pub async fn timeout_at<F: core::future::Future>(`
			`instant: <Self as rtic_time::Monotonic>::Instant,`
			`future: F,`
			`) -> Result<F::Output, TimeoutError> {`
			`$tq.timeout_at(instant, future).await`
			`}`

			`/// Timeout after a specific duration.`
			`#[inline]`
			`pub async fn timeout_after<F: core::future::Future>(`
			`duration: <Self as Monotonic>::Duration,`
			`future: F,`
			`) -> Result<F::Output, TimeoutError> {`
			`$tq.timeout_after(duration, future).await`
			`}`

			`/// Delay to some specific time instant.`
			`#[inline]`
			`pub async fn delay_until(instant: <Self as Monotonic>::Instant) {`
			`$tq.delay_until(instant).await;`
			`}`
			`}`

Fix mono delay (#843) * rtic-time: Compenstate for timer uncertainty * Update changelog and incorrect cargo.lock in an example * Fix Monotonic impls * Fix tests * Fix other monotonics, again * Update changelog * Fix example * Fix DelayUs and DelayMs impls * Minor coding style fix in u64 conversions * Fix all changelogs * Fix changelog * Fix blocking DelayUs * Minor monotonic rework * Add delay precision test * Add more tests * Add rust-version tags to Cargo.toml * Fix imxrt, rp2040 and systick timer * Fix more monotonics * Fix systick monotonic * Some reverts * Fix imxrt * Fix nrf * Fix rp2040 * Fix stm32 * Fix systick * Fix rtic-time tests * Bump to e-h.rc2 * Apply e-h.rc2 fixes to rtic-time * Apply fixes from arbiter * Fix clippy warning * Minor beautification * Revert previous changes * Fix variable name * Add blocking tests, but disable them by default 2023-12-01 08:59:22 +01:00			`rtic_time::embedded_hal_delay_impl_fugit64!($mono_name);`
Add Monotonic for i.MX RT chip family 2023-11-01 12:13:25 +01:00
Fix mono delay (#843) * rtic-time: Compenstate for timer uncertainty * Update changelog and incorrect cargo.lock in an example * Fix Monotonic impls * Fix tests * Fix other monotonics, again * Update changelog * Fix example * Fix DelayUs and DelayMs impls * Minor coding style fix in u64 conversions * Fix all changelogs * Fix changelog * Fix blocking DelayUs * Minor monotonic rework * Add delay precision test * Add more tests * Add rust-version tags to Cargo.toml * Fix imxrt, rp2040 and systick timer * Fix more monotonics * Fix systick monotonic * Some reverts * Fix imxrt * Fix nrf * Fix rp2040 * Fix stm32 * Fix systick * Fix rtic-time tests * Bump to e-h.rc2 * Apply e-h.rc2 fixes to rtic-time * Apply fixes from arbiter * Fix clippy warning * Minor beautification * Revert previous changes * Fix variable name * Add blocking tests, but disable them by default 2023-12-01 08:59:22 +01:00			`#[cfg(feature = "embedded-hal-async")]`
			`rtic_time::embedded_hal_async_delay_impl_fugit64!($mono_name);`
Add Monotonic for i.MX RT chip family 2023-11-01 12:13:25 +01:00
			`impl Monotonic for $mono_name {`
			`type Instant = fugit::TimerInstantU64<TIMER_HZ>;`
			`type Duration = fugit::TimerDurationU64<TIMER_HZ>;`

			`const ZERO: Self::Instant = Self::Instant::from_ticks(0);`
Fix mono delay (#843) * rtic-time: Compenstate for timer uncertainty * Update changelog and incorrect cargo.lock in an example * Fix Monotonic impls * Fix tests * Fix other monotonics, again * Update changelog * Fix example * Fix DelayUs and DelayMs impls * Minor coding style fix in u64 conversions * Fix all changelogs * Fix changelog * Fix blocking DelayUs * Minor monotonic rework * Add delay precision test * Add more tests * Add rust-version tags to Cargo.toml * Fix imxrt, rp2040 and systick timer * Fix more monotonics * Fix systick monotonic * Some reverts * Fix imxrt * Fix nrf * Fix rp2040 * Fix stm32 * Fix systick * Fix rtic-time tests * Bump to e-h.rc2 * Apply e-h.rc2 fixes to rtic-time * Apply fixes from arbiter * Fix clippy warning * Minor beautification * Revert previous changes * Fix variable name * Add blocking tests, but disable them by default 2023-12-01 08:59:22 +01:00			`const TICK_PERIOD: Self::Duration = Self::Duration::from_ticks(1);`
Add Monotonic for i.MX RT chip family 2023-11-01 12:13:25 +01:00
			`fn now() -> Self::Instant {`
			`let gpt = unsafe{ $timer::instance() };`

Refactor race condition free timer helper (#850) * Implement half_period_counter in rtic-time * Rename compute_now to calculate_now, use it in stm32 and imxrt * Add more tests * Add some docs * Fix clippy warning, add imxrt timer to monotonics tests * Bump dependency version to make sure monotonics will build properly * Add changelog to rtic-monotonics * Add more docs * Add more docs * Finish documentation * Fix typos * Switch from atomic-polyfill to portable-atomic * Some more doc fixes * More doc fixes * Minor doc fix * Minor doc fix * Fix Atomics not existing * Fix example * Minor example improvement * Revert back to atomic-polyfill * Fix cargo.toml formatting * Remove atomic-polyfill * Attempt to fix unused macro warning * Remove atomics completely from half period counter * Minor doc fix * Doc fixes * Doc fixes * Remove obsolete comment * Fix ordering in monotonic initialization sequence 2023-12-04 15:53:02 +01:00			`Self::Instant::from_ticks(calculate_now(`
			`$period.load(Ordering::Relaxed),`
			`\|\| ral::read_reg!(ral::gpt, gpt, CNT)`
			`))`
Add Monotonic for i.MX RT chip family 2023-11-01 12:13:25 +01:00			`}`

			`fn set_compare(instant: Self::Instant) {`
			`let gpt = unsafe{ $timer::instance() };`

			`// Set the timer regardless of whether it is multiple periods in the future,`
			`// or even already in the past.`
			`// The worst thing that can happen is a spurious wakeup, and with a timer`
			`// period of half an hour, this is hardly a problem.`

			`let ticks = instant.duration_since_epoch().ticks();`
			`let ticks_wrapped = ticks as u32;`

			`ral::write_reg!(ral::gpt, gpt, OCR[1], ticks_wrapped);`
			`}`

			`fn clear_compare_flag() {`
			`let gpt = unsafe{ $timer::instance() };`
			`ral::write_reg!(ral::gpt, gpt, SR, OF2: 1);`
			`}`

			`fn pend_interrupt() {`
			`cortex_m::peripheral::NVIC::pend(ral::Interrupt::$timer);`
			`}`

			`fn on_interrupt() {`
			`let gpt = unsafe{ $timer::instance() };`

			`let (rollover, half_rollover) = ral::read_reg!(ral::gpt, gpt, SR, ROV, OF1);`

			`if rollover != 0 {`
			`$period.fetch_add(1, Ordering::Relaxed);`
			`ral::write_reg!(ral::gpt, gpt, SR, ROV: 1);`
			`}`

			`if half_rollover != 0 {`
			`$period.fetch_add(1, Ordering::Relaxed);`
			`ral::write_reg!(ral::gpt, gpt, SR, OF1: 1);`
			`}`
			`}`
			`}`
			`};`
			`}`

			`#[cfg(feature = "imxrt_gpt1")]`
			`make_timer!(Gpt1, GPT1, GPT1_HALFPERIODS, GPT1_TQ);`

			`#[cfg(feature = "imxrt_gpt2")]`
			`make_timer!(Gpt2, GPT2, GPT2_HALFPERIODS, GPT2_TQ);`