Add SYSTIMER based ESP32-C3 monotonic (#972)

* add esp32c3 monotonic * fix tests
2024-11-23 12:12:50 +01:00 · 2024-09-29 06:21:14 +02:00 · 2024-09-29 06:21:14 +02:00 · 805ea267a8
commit 805ea267a8
parent 6e68a5e615
12 changed files with 395 additions and 9 deletions
--- a/ci/expected/esp32c3/monotonic.run
+++ b/ci/expected/esp32c3/monotonic.run
@ -0,0 +1,34 @@
 QEMU 8.2.0 monitor - type 'help' for more information
 (qemu) q[K
 ESP-ROM:esp32c3-api1-20210207
 Build:Feb  7 2021
 rst:0x1 (POWERON),boot:0x8 (SPI_FAST_FLASH_BOOT)
 SPIWP:0xee
 mode:DIO, clock div:2
 load:0x3fcd5820,len:0x1714
 load:0x403cc710,len:0x968
 load:0x403ce710,len:0x2f9c
 entry 0x403cc710
 [0;32mI (0) boot: ESP-IDF v5.1.2-342-gbcf1645e44 2nd stage bootloader[0m
 [0;32mI (0) boot: compile time Dec 12 2023 10:50:58[0m
 [0;32mI (0) boot: chip revision: v0.3[0m
 [0;32mI (0) boot.esp32c3: SPI Speed      : 40MHz[0m
 [0;32mI (0) boot.esp32c3: SPI Mode       : SLOW READ[0m
 [0;32mI (0) boot.esp32c3: SPI Flash Size : 4MB[0m
 [0;32mI (0) boot: Enabling RNG early entropy source...[0m
 [0;32mI (1) boot: Partition Table:[0m
 [0;32mI (1) boot: ## Label            Usage          Type ST Offset   Length[0m
 [0;32mI (1) boot:  0 nvs              WiFi data        01 02 00009000 00006000[0m
 [0;32mI (1) boot:  1 phy_init         RF data          01 01 0000f000 00001000[0m
 [0;32mI (1) boot:  2 factory          factory app      00 00 00010000 003f0000[0m
 [0;32mI (1) boot: End of partition table[0m
 [0;32mI (1) esp_image: REDACTED
 [0;32mI (3) esp_image: REDACTED
 [0;32mI (3) esp_image: REDACTED
 [0;32mI (8) esp_image: REDACTED
 [0;32mI (11) boot: Loaded app from partition at offset 0x10000[0m
 [0;32mI (11) boot: Disabling RNG early entropy source...[0m
 init
 hello from bar
 hello from baz
 hello from foo
--- a/examples/esp32c3/.cargo/config.toml
+++ b/examples/esp32c3/.cargo/config.toml
@ -1,6 +1,6 @@
 [target.riscv32imc-unknown-none-elf]
 # Real hardware
-#runner = "espflash flash --monitor"
+# runner = "espflash flash --monitor"
 # QEMU emulator
 runner = "./runner.sh"
@ -14,6 +14,3 @@ rustflags = [
 ]
 target = "riscv32imc-unknown-none-elf"
 [unstable]
 build-std = ["core"]
--- a/examples/esp32c3/Cargo.lock
+++ b/examples/esp32c3/Cargo.lock
@ -144,6 +144,15 @@ version = "1.0.0"
 source = "registry+https://github.com/rust-lang/crates.io-index"
 checksum = "361a90feb7004eca4019fb28352a9465666b24f840f5c3cddf0ff13920590b89"
 [[package]]
 name = "embedded-hal-async"
 version = "1.0.0"
 source = "registry+https://github.com/rust-lang/crates.io-index"
 checksum = "0c4c685bbef7fe13c3c6dd4da26841ed3980ef33e841cddfa15ce8a8fb3f1884"
 dependencies = [
 "embedded-hal 1.0.0",
 ]
 [[package]]
 name = "enum-as-inner"
 version = "0.4.0"
@ -285,6 +294,7 @@ dependencies = [
 "esp-println",
 "esp32c3 0.22.0",
 "rtic",
 "rtic-monotonics",
 ]
 [[package]]
@ -384,6 +394,30 @@ dependencies = [
 "gcd",
 ]
 [[package]]
 name = "futures-core"
 version = "0.3.30"
 source = "registry+https://github.com/rust-lang/crates.io-index"
 checksum = "dfc6580bb841c5a68e9ef15c77ccc837b40a7504914d52e47b8b0e9bbda25a1d"
 [[package]]
 name = "futures-task"
 version = "0.3.30"
 source = "registry+https://github.com/rust-lang/crates.io-index"
 checksum = "38d84fa142264698cdce1a9f9172cf383a0c82de1bddcf3092901442c4097004"
 [[package]]
 name = "futures-util"
 version = "0.3.30"
 source = "registry+https://github.com/rust-lang/crates.io-index"
 checksum = "3d6401deb83407ab3da39eba7e33987a73c3df0c82b4bb5813ee871c19c41d48"
 dependencies = [
 "futures-core",
 "futures-task",
 "pin-project-lite",
 "pin-utils",
 ]
 [[package]]
 name = "gcd"
 version = "2.3.0"
@ -479,6 +513,18 @@ version = "1.0.14"
 source = "registry+https://github.com/rust-lang/crates.io-index"
 checksum = "de3145af08024dea9fa9914f381a17b8fc6034dfb00f3a84013f7ff43f29ed4c"
 [[package]]
 name = "pin-project-lite"
 version = "0.2.14"
 source = "registry+https://github.com/rust-lang/crates.io-index"
 checksum = "bda66fc9667c18cb2758a2ac84d1167245054bcf85d5d1aaa6923f45801bdd02"
 [[package]]
 name = "pin-utils"
 version = "0.1.0"
 source = "registry+https://github.com/rust-lang/crates.io-index"
 checksum = "8b870d8c151b6f2fb93e84a13146138f05d02ed11c7e7c54f8826aaaf7c9f184"
 [[package]]
 name = "portable-atomic"
 version = "1.6.0"
@ -611,6 +657,14 @@ dependencies = [
 "rtic-macros",
 ]
 [[package]]
 name = "rtic-common"
 version = "1.0.1"
 dependencies = [
 "critical-section",
 "portable-atomic",
 ]
 [[package]]
 name = "rtic-core"
 version = "1.0.0"
@ -628,6 +682,30 @@ dependencies = [
 "syn 2.0.53",
 ]
 [[package]]
 name = "rtic-monotonics"
 version = "2.0.2"
 dependencies = [
 "cfg-if",
 "esp32c3 0.22.0",
 "fugit",
 "portable-atomic",
 "riscv",
 "rtic-time",
 ]
 [[package]]
 name = "rtic-time"
 version = "2.0.0"
 dependencies = [
 "critical-section",
 "embedded-hal 1.0.0",
 "embedded-hal-async",
 "fugit",
 "futures-util",
 "rtic-common",
 ]
 [[package]]
 name = "rustversion"
 version = "1.0.14"
--- a/examples/esp32c3/Cargo.toml
+++ b/examples/esp32c3/Cargo.toml
@ -8,6 +8,7 @@ license = "MIT OR Apache-2.0"
 [dependencies]
 rtic = {path = "../../rtic/"}
 rtic-monotonics = {path = "../../rtic-monotonics/"}
 esp-hal = { version = "0.16.1", features = ["esp32c3", "direct-vectoring", "interrupt-preemption"] }
 esp-backtrace = { version = "0.11.0", features = [
    "esp32c3",
@ -21,4 +22,4 @@ esp-println = { version = "0.9.0", features = ["esp32c3", "uart"] }
 [features]
 test-critical-section = []
-riscv-esp32c3-backend = ["rtic/riscv-esp32c3-backend"]
+riscv-esp32c3-backend = ["rtic/riscv-esp32c3-backend", "rtic-monotonics/esp32c3-systimer"]
--- a/examples/esp32c3/README.md
+++ b/examples/esp32c3/README.md
@ -15,12 +15,24 @@ This crate uses the most convenient option in ``cargo-espflash`` and ``espflash`
 ## Running the crate
 Uncomment the 
 ```runner = "espflash flash --monitor"```
 line in ``.cargo/config.toml``
 and comment out (or remove) 
 ```runner = "./runner.sh"```
 Now, running
 ```cargo run --example sw_and_hw --features=riscv-esp32c3-backend (--release)```
-should do the trick.
+in the root of this crate should do the trick.
 # Expected behavior
-The program
+The example ``sw_and_hw``
 - Prints ``init``
 - Enters a high prio task
 - During the execution of the high prio task, the button should be non-functional
@ -31,3 +43,9 @@ The program
 - Exits the low prio task
 - Prints ``idle``
 The example ``monotonic``
 - Prints ``init``
 - Spawns the ``foo``, ``bar``, ``baz`` tasks (because of hardware interrupt latency dispatch, the order here may vary).
 - Each task prints ``hello from $TASK`` on entry
 - The tasks wait for 1, 2, 3 seconds respectively
 - Once the wait period is over, each task exits printing ``bye from $TASK`` (now in the proper order).
--- a/examples/esp32c3/examples/monotonic.rs
+++ b/examples/esp32c3/examples/monotonic.rs
@ -0,0 +1,51 @@
 #![no_main]
 #![no_std]
 use esp_backtrace as _;
 #[rtic::app(device = esp32c3, dispatchers = [])]
 mod app {
    use rtic_monotonics::esp32c3::prelude::*;
    esp32c3_systimer_monotonic!(Mono);
    use esp_hal as _;
    use esp_println::println;
    #[shared]
    struct Shared {}
    #[local]
    struct Local {}
    #[init]
    fn init(cx: init::Context) -> (Shared, Local) {
        println!("init");
        let timer = cx.device.SYSTIMER;
        Mono::start(timer);
        foo::spawn().unwrap();
        bar::spawn().unwrap();
        baz::spawn().unwrap();
        (Shared {}, Local {})
    }
    #[task]
    async fn foo(_cx: foo::Context) {
        println!("hello from foo");
        Mono::delay(2_u64.secs()).await;
        println!("bye from foo");
    }
    #[task]
    async fn bar(_cx: bar::Context) {
        println!("hello from bar");
        Mono::delay(3_u64.secs()).await;
        println!("bye from bar");
    }
    #[task]
    async fn baz(_cx: baz::Context) {
        println!("hello from baz");
        Mono::delay(4_u64.secs()).await;
        println!("bye from baz");
    }
 }
--- a/examples/esp32c3/examples/sw_and_hw.rs
+++ b/examples/esp32c3/examples/sw_and_hw.rs
@ -1,6 +1,5 @@
 #![no_main]
 #![no_std]
 #[rtic::app(device = esp32c3, dispatchers=[FROM_CPU_INTR0, FROM_CPU_INTR1])]
 mod app {
    use esp_backtrace as _;
--- a/examples/esp32c3/rust-toolchain.toml
+++ b/examples/esp32c3/rust-toolchain.toml
@ -1,4 +1,4 @@
 [toolchain]
-channel = "nightly-2023-11-14"
+channel = "stable"
 components = ["rust-src"]
 targets = ["riscv32imc-unknown-none-elf"]
--- a/rtic-monotonics/CHANGELOG.md
+++ b/rtic-monotonics/CHANGELOG.md
@ -13,6 +13,9 @@ For each category, *Added*, *Changed*, *Fixed* add new entries at the top!
 ## v2.0.2 - 2024-07-05
 ### Added
 - `SYSTIMER` based monotonic for the ESP32-C3
 ### Fixed
 - Fix `stm32` monotonic for timer peripherals with only two clock compare modules
--- a/rtic-monotonics/Cargo.toml
+++ b/rtic-monotonics/Cargo.toml
@ -31,6 +31,7 @@ features = [
    "stm32_tim4",
    "stm32_tim5",
    "stm32_tim15",
    "esp32c3-systimer",
 ]
 rustdoc-flags = ["--cfg", "docsrs"]
@ -65,6 +66,11 @@ stm32-metapac = { version = "15.0.0", optional = true }
 # i.MX RT
 imxrt-ral = { version = "0.5.3", optional = true }
 esp32c3 = {version = "0.22.0", optional = true }
 riscv = {version = "0.11.1", optional = true }
 [build-dependencies]
 proc-macro2 = { version = "1.0.36", optional = true }
 quote = { version = "1.0.15", optional = true }
@ -104,6 +110,9 @@ imxrt = ["dep:cortex-m", "dep:imxrt-ral"]
 imxrt_gpt1 = ["imxrt"]
 imxrt_gpt2 = ["imxrt"]
 # ESP32-C3 Timer
 esp32c3-systimer = ["dep:esp32c3", "dep:riscv"]
 # STM32 timers
 # Use as `features = ["stm32g081kb", "stm32_tim15"]`
 stm32_tim2 = []
--- a/rtic-monotonics/src/esp32c3.rs
+++ b/rtic-monotonics/src/esp32c3.rs
@ -0,0 +1,193 @@
 //! [`Monotonic`](rtic_time::Monotonic) implementation for ESP32C3's SYSTIMER.
 //!
 //! Always runs at a fixed rate of 16 MHz.
 //!
 //! # Example
 //!
 //! ```
 //! use rtic_monotonics::esp32c3::prelude::*;
 //!
 //! esp32c3_systimer_monotonic!(Mono);
 //!
 //! fn init() {
 //!     # // This is normally provided by the selected PAC
 //!     # let timer = unsafe { esp32c3::Peripherals::steal() }.SYSTIMER;
 //!     #
 //!     // Start the monotonic
 //!     Mono::start(timer);
 //! }
 //!
 //! async fn usage() {
 //!     loop {
 //!          // Use the monotonic
 //!          let timestamp = Mono::now();
 //!          Mono::delay(100.millis()).await;
 //!     }
 //! }
 //! ```
 /// Common definitions and traits for using the RP2040 timer monotonic
 pub mod prelude {
    pub use crate::esp32c3_systimer_monotonic;
    pub use crate::Monotonic;
    pub use fugit::{self, ExtU64, ExtU64Ceil};
 }
 use crate::TimerQueueBackend;
 use esp32c3::{INTERRUPT_CORE0, SYSTIMER};
 use rtic_time::timer_queue::TimerQueue;
 /// Timer implementing [`TimerQueueBackend`].
 pub struct TimerBackend;
 impl TimerBackend {
    /// Starts the monotonic timer.
    ///
    /// **Do not use this function directly.**
    ///
    /// Use the prelude macros instead.
    pub fn _start(timer: SYSTIMER) {
        const INTERRUPT_MAP_BASE: u32 = 0x600c2000;
        let interrupt_number = 37 as isize;
        let cpu_interrupt_number = 31 as isize;
        unsafe {
            let intr_map_base = INTERRUPT_MAP_BASE as *mut u32;
            intr_map_base
                .offset(interrupt_number)
                .write_volatile(cpu_interrupt_number as u32);
            //map peripheral interrupt to CPU interrupt
            (*INTERRUPT_CORE0::ptr())
                .cpu_int_enable()
                .modify(|r, w| w.bits((1 << cpu_interrupt_number) | r.bits())); //enable the CPU interupt.
            let intr = INTERRUPT_CORE0::ptr();
            let intr_prio_base = (*intr).cpu_int_pri_0().as_ptr();
            intr_prio_base
                .offset(cpu_interrupt_number)
                .write_volatile(15 as u32);
        }
        timer.conf().write(|w| w.timer_unit0_work_en().set_bit());
        timer
            .conf()
            .write(|w| w.timer_unit1_core0_stall_en().clear_bit());
        TIMER_QUEUE.initialize(Self {})
    }
 }
 static TIMER_QUEUE: TimerQueue<TimerBackend> = TimerQueue::new();
 use esp32c3;
 impl TimerQueueBackend for TimerBackend {
    type Ticks = u64;
    fn now() -> Self::Ticks {
        let peripherals = unsafe { esp32c3::Peripherals::steal() };
        peripherals
            .SYSTIMER
            .unit0_op()
            .write(|w| w.timer_unit0_update().set_bit());
        // this must be polled until value is valid
        while {
            peripherals
                .SYSTIMER
                .unit0_op()
                .read()
                .timer_unit0_value_valid()
                == false
        } {}
        let instant: u64 = (peripherals.SYSTIMER.unit0_value_lo().read().bits() as u64)
            | ((peripherals.SYSTIMER.unit0_value_hi().read().bits() as u64) << 32);
        instant
    }
    fn set_compare(instant: Self::Ticks) {
        let systimer = unsafe { esp32c3::Peripherals::steal() }.SYSTIMER;
        systimer
            .target0_conf()
            .write(|w| w.target0_timer_unit_sel().set_bit());
        systimer
            .target0_conf()
            .write(|w| w.target0_period_mode().clear_bit());
        systimer
            .target0_lo()
            .write(|w| unsafe { w.bits((instant & 0xFFFFFFFF).try_into().unwrap()) });
        systimer
            .target0_hi()
            .write(|w| unsafe { w.bits((instant >> 32).try_into().unwrap()) });
        systimer
            .comp0_load()
            .write(|w| w.timer_comp0_load().set_bit()); //sync period to comp register
        systimer.conf().write(|w| w.target0_work_en().set_bit());
        systimer.int_ena().write(|w| w.target0().set_bit());
    }
    fn clear_compare_flag() {
        unsafe { esp32c3::Peripherals::steal() }
            .SYSTIMER
            .int_clr()
            .write(|w| w.target0().bit(true));
    }
    fn pend_interrupt() {
        extern "C" {
            fn cpu_int_31_handler();
        }
        //run the timer interrupt handler in a critical section to emulate a max priority
        //interrupt.
        //since there is no hardware support for pending a timer interrupt.
        riscv::interrupt::disable();
        unsafe { cpu_int_31_handler() };
        unsafe { riscv::interrupt::enable() };
    }
    fn timer_queue() -> &'static TimerQueue<Self> {
        &TIMER_QUEUE
    }
 }
 /// Create an ESP32-C3 SysTimer based monotonic and register the necessary interrupt for it.
 ///
 /// See [`crate::esp32c3`] for more details.
 ///
 /// # Arguments
 ///
 /// * `name` - The name that the monotonic type will have.
 #[macro_export]
 macro_rules! esp32c3_systimer_monotonic {
    ($name:ident) => {
        /// A `Monotonic` based on the ESP32-C3 SysTimer peripheral.
        pub struct $name;
        impl $name {
            /// Starts the `Monotonic`.
            ///
            /// This method must be called only once.
            pub fn start(timer: esp32c3::SYSTIMER) {
                #[export_name = "cpu_int_31_handler"]
                #[allow(non_snake_case)]
                unsafe extern "C" fn Systimer() {
                    use $crate::TimerQueueBackend;
                    $crate::esp32c3::TimerBackend::timer_queue().on_monotonic_interrupt();
                }
                $crate::esp32c3::TimerBackend::_start(timer);
            }
        }
        impl $crate::TimerQueueBasedMonotonic for $name {
            type Backend = $crate::esp32c3::TimerBackend;
            type Instant = $crate::fugit::Instant<
                <Self::Backend as $crate::TimerQueueBackend>::Ticks,
                1,
                16_000_000,
            >;
            type Duration = $crate::fugit::Duration<
                <Self::Backend as $crate::TimerQueueBackend>::Ticks,
                1,
                16_000_000,
            >;
        }
        $crate::rtic_time::impl_embedded_hal_delay_fugit!($name);
        $crate::rtic_time::impl_embedded_hal_async_delay_fugit!($name);
    };
 }
--- a/rtic-monotonics/src/lib.rs
+++ b/rtic-monotonics/src/lib.rs
@ -39,6 +39,9 @@ pub use rtic_time::{
    TimeoutError,
 };
 #[cfg(feature = "esp32c3-systimer")]
 pub mod esp32c3;
 #[cfg(feature = "cortex-m-systick")]
 pub mod systick;