Async SPI working

2025-04-02 20:06:12 +02:00
parent 7cfb8adcd0
commit 3705ed2623
18 changed files with 1454 additions and 301 deletions
--- a/examples/zedboard/Cargo.toml
+++ b/examples/zedboard/Cargo.toml
@ -16,7 +16,7 @@ zynq7000-rt = { path = "../../zynq7000-rt" }
 zynq7000 = { path = "../../zynq7000" }
 zynq7000-hal = { path = "../../zynq7000-hal" }
 zynq7000-embassy = { path = "../../zynq7000-embassy" }
-l3gd20 = { git = "https://github.com/us-irs/l3gd20.git", branch = "add-i2c-if" }
+l3gd20 = { git = "https://github.com/us-irs/l3gd20.git", branch = "add-async-if" }
 embedded-io = "0.6"
 arbitrary-int = "1.3"
 embedded-io-async = "0.6"
--- a/examples/zedboard/src/bin/l3gd20h-i2c-mio.rs
+++ b/examples/zedboard/src/bin/l3gd20h-i2c-mio.rs
@ -84,7 +84,13 @@ async fn main(_spawner: Spawner) -> ! {
    uart.write_all(b"-- Zynq 7000 Zedboard I2C L3GD20H example --\n\r")
        .unwrap();
    // Safety: We are not multi-threaded yet.
-    unsafe { zynq7000_hal::log::init_unsafe_single_core(uart, log::LevelFilter::Trace, false) };
+    unsafe {
+        zynq7000_hal::log::uart_blocking::init_unsafe_single_core(
+            uart,
+            log::LevelFilter::Trace,
+            false,
+        )
+    };

    let boot_mode = BootMode::new();
    info!("Boot mode: {:?}", boot_mode);
@ -105,12 +111,11 @@ async fn main(_spawner: Spawner) -> ! {
    )
    .unwrap();
    let i2c = i2c::I2c::new_with_mio(dp.i2c_1, clk_config, (sck_pin, sda_pin)).unwrap();
-
-    let mut delay = Delay;
    let mut l3gd20 = l3gd20::i2c::L3gd20::new(i2c, l3gd20::i2c::I2cAddr::Sa0Low).unwrap();
    let who_am_i = l3gd20.who_am_i().unwrap();
    info!("L3GD20 WHO_AM_I: 0x{:02X}", who_am_i);

+    let mut delay = Delay;
    let mut ticker = Ticker::every(Duration::from_millis(400));
    let mut mio_led = gpio_pins.mio.mio7.into_output(PinState::Low);

--- a/examples/zedboard/src/bin/l3gd20h-spi-mio.rs
+++ b/examples/zedboard/src/bin/l3gd20h-spi-mio.rs
@ -22,11 +22,11 @@ use zynq7000_hal::{
    clocks::Clocks,
    configure_level_shifter,
    gic::{GicConfigurator, GicInterruptHelper, Interrupt},
-    gpio::{EmioPin, GpioPins, PinState},
+    gpio::{DynMioPin, EmioPin, GpioPins, PinState},
    gtc::Gtc,
-    spi::{self, SpiWithHwCs},
+    spi::{self, SpiAsync, SpiId, SpiWithHwCs, SpiWithHwCsAsync, on_interrupt},
    time::Hertz,
-    uart,
+    uart::{self, TxAsync, on_interrupt_tx},
 };

 use zynq7000::{PsPeripherals, slcr::LevelShifterConfig, spi::DelayControl};
@ -36,6 +36,7 @@ use zynq7000_rt as _;
 const PS_CLOCK_FREQUENCY: Hertz = Hertz::from_raw(33_333_300);

 const DEBUG_SPI_CLK_CONFIG: bool = false;
+const BLOCKING: bool = false;

 /// Entry point (not called like a normal main function)
 #[unsafe(no_mangle)]
@ -48,7 +49,7 @@ pub extern "C" fn boot_core(cpu_id: u32) -> ! {

 #[embassy_executor::main]
 #[unsafe(export_name = "main")]
-async fn main(_spawner: Spawner) -> ! {
+async fn main(spawner: Spawner) -> ! {
    // Enable PS-PL level shifters.
    configure_level_shifter(LevelShifterConfig::EnableAll);
    let dp = PsPeripherals::take().unwrap();
@ -91,8 +92,7 @@ async fn main(_spawner: Spawner) -> ! {
    .unwrap();
    uart.write_all(b"-- Zynq 7000 Zedboard SPI L3GD20H example --\n\r")
        .unwrap();
-    // Safety: We are not multi-threaded yet.
-    unsafe { zynq7000_hal::log::init_unsafe_single_core(uart, log::LevelFilter::Trace, false) };
+    zynq7000_hal::log::rb::init(log::LevelFilter::Trace);

    let boot_mode = BootMode::new();
    info!("Boot mode: {:?}", boot_mode);
@ -129,7 +129,7 @@ async fn main(_spawner: Spawner) -> ! {
    assert_eq!(mod_id, spi::MODULE_ID);
    assert!(spi.sclk() <= Hertz::from_raw(10_000_000));
    let min_delay = (spi.sclk().raw() * 5) / 1_000_000_000;
-    spi.configure_delays(
+    spi.inner().configure_delays(
        DelayControl::builder()
            .with_inter_word_cs_deassert(0)
            .with_between_cs_assertion(0)
@ -138,15 +138,7 @@ async fn main(_spawner: Spawner) -> ! {
            .build(),
    );

-    let mut delay = Delay;
-    let spi_dev = SpiWithHwCs::new(spi, spi::ChipSelect::Slave0, delay.clone());
-    let mut l3gd20 = l3gd20::spi::L3gd20::new(spi_dev).unwrap();
-    let who_am_i = l3gd20.who_am_i().unwrap();
-    info!("L3GD20 WHO_AM_I: 0x{:02X}", who_am_i);
-
-    let mut ticker = Ticker::every(Duration::from_millis(400));
-    let mut mio_led = gpio_pins.mio.mio7.into_output(PinState::Low);
-
+    let mio_led = gpio_pins.mio.mio7.into_output(PinState::Low).downgrade();
    let mut emio_leds: [EmioPin; 8] = [
        gpio_pins.emio.take(0).unwrap(),
        gpio_pins.emio.take(1).unwrap(),
@ -164,6 +156,39 @@ async fn main(_spawner: Spawner) -> ! {
            led.into_output(PinState::Low);
        }
    }
+    spawner.spawn(logger_task(uart)).unwrap();
+    if BLOCKING {
+        blocking_application(mio_led, emio_leds, spi).await;
+    } else {
+        non_blocking_application(mio_led, emio_leds, spi).await;
+    }
+}
+
+#[embassy_executor::task]
+pub async fn logger_task(uart: uart::Uart) {
+    let (tx, _) = uart.split();
+    let mut tx_async = TxAsync::new(tx);
+    let frame_queue = zynq7000_hal::log::rb::get_frame_queue();
+    let mut log_buf: [u8; 2048] = [0; 2048];
+    loop {
+        let next_frame_len = frame_queue.receive().await;
+        zynq7000_hal::log::rb::read_next_frame(next_frame_len, &mut log_buf);
+        tx_async.write(&log_buf[0..next_frame_len]).await;
+    }
+}
+
+pub async fn blocking_application(
+    mut mio_led: DynMioPin,
+    mut emio_leds: [EmioPin; 8],
+    spi: spi::Spi,
+) -> ! {
+    let mut delay = Delay;
+    let spi_dev = SpiWithHwCs::new(spi, spi::ChipSelect::Slave0, delay.clone());
+    let mut l3gd20 = l3gd20::spi::L3gd20::new(spi_dev).unwrap();
+    let who_am_i = l3gd20.who_am_i().unwrap();
+    info!("L3GD20 WHO_AM_I: 0x{:02X}", who_am_i);
+
+    let mut ticker = Ticker::every(Duration::from_millis(400));

    // Power up time for the sensor to get good readings.
    delay.delay_ms(50).await;
@ -181,6 +206,38 @@ async fn main(_spawner: Spawner) -> ! {
    }
 }

+pub async fn non_blocking_application(
+    mut mio_led: DynMioPin,
+    mut emio_leds: [EmioPin; 8],
+    spi: spi::Spi,
+) -> ! {
+    let mut delay = Delay;
+    let spi_async = SpiAsync::new(spi);
+    let spi_dev = SpiWithHwCsAsync::new(spi_async, spi::ChipSelect::Slave0, delay.clone());
+    let mut l3gd20 = l3gd20::asynchronous::spi::L3gd20::new(spi_dev)
+        .await
+        .unwrap();
+    let who_am_i = l3gd20.who_am_i().await.unwrap();
+    info!("L3GD20 WHO_AM_I: 0x{:02X}", who_am_i);
+
+    let mut ticker = Ticker::every(Duration::from_millis(400));
+
+    // Power up time for the sensor to get good readings.
+    delay.delay_ms(50).await;
+    loop {
+        mio_led.toggle().unwrap();
+
+        let measurements = l3gd20.all().await.unwrap();
+        info!("L3GD20: {:?}", measurements);
+        info!("L3GD20 Temp: {:?}", measurements.temp_celcius());
+        for led in emio_leds.iter_mut() {
+            led.toggle().unwrap();
+        }
+
+        ticker.next().await; // Wait for the next cycle of the ticker
+    }
+}
+
 #[unsafe(no_mangle)]
 pub extern "C" fn _irq_handler() {
    let mut gic_helper = GicInterruptHelper::new();
@ -194,7 +251,13 @@ pub extern "C" fn _irq_handler() {
                }
            }
        }
-        Interrupt::Spi(_spi_interrupt) => (),
+        Interrupt::Spi(spi_interrupt) => {
+            if spi_interrupt == zynq7000_hal::gic::SpiInterrupt::Spi1 {
+                on_interrupt(SpiId::Spi1);
+            } else if spi_interrupt == zynq7000_hal::gic::SpiInterrupt::Uart1 {
+                on_interrupt_tx(zynq7000_hal::uart::UartId::Uart1);
+            }
+        }
        Interrupt::Invalid(_) => (),
        Interrupt::Spurious => (),
    }
--- a/examples/zedboard/src/bin/uart-blocking.rs
+++ b/examples/zedboard/src/bin/uart-blocking.rs
@ -134,7 +134,13 @@ async fn main(_spawner: Spawner) -> ! {
    log_uart.write_all(INIT_STRING.as_bytes()).unwrap();

    // Safety: Co-operative multi-tasking is used.
-    unsafe { zynq7000_hal::log::init_unsafe_single_core(log_uart, log::LevelFilter::Trace, false) };
+    unsafe {
+        zynq7000_hal::log::uart_blocking::init_unsafe_single_core(
+            log_uart,
+            log::LevelFilter::Trace,
+            false,
+        )
+    };

    // UART0 routed through EMIO to PL pins.
    let mut uart_0 =
--- a/examples/zedboard/src/bin/uart-non-blocking.rs
+++ b/examples/zedboard/src/bin/uart-non-blocking.rs
@ -212,7 +212,13 @@ async fn main(spawner: Spawner) -> ! {
    }

    // Safety: We are not multi-threaded yet.
-    unsafe { zynq7000_hal::log::init_unsafe_single_core(log_uart, log::LevelFilter::Trace, false) };
+    unsafe {
+        zynq7000_hal::log::uart_blocking::init_unsafe_single_core(
+            log_uart,
+            log::LevelFilter::Trace,
+            false,
+        )
+    };

    // Set up UART multiplexing before creating and configuring the UARTs.
    let mut uart_mux = UartMultiplexer::new([
--- a/examples/zedboard/src/main.rs
+++ b/examples/zedboard/src/main.rs
@ -69,7 +69,13 @@ async fn main(_spawner: Spawner) -> ! {
    .unwrap();
    uart.write_all(INIT_STRING.as_bytes()).unwrap();
    // Safety: We are not multi-threaded yet.
-    unsafe { zynq7000_hal::log::init_unsafe_single_core(uart, log::LevelFilter::Trace, false) };
+    unsafe {
+        zynq7000_hal::log::uart_blocking::init_unsafe_single_core(
+            uart,
+            log::LevelFilter::Trace,
+            false,
+        )
+    };

    let boot_mode = BootMode::new();
    info!("Boot mode: {:?}", boot_mode);