embassy/tests/stm32/src/bin/usart_rx_ringbuffered.rs

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#![no_std]
#![no_main]
#![feature(type_alias_impl_trait)]
#[path = "../example_common.rs"]
mod example_common;
use embassy_executor::Spawner;
use embassy_stm32::interrupt;
use embassy_stm32::usart::{Config, DataBits, Parity, RingBufferedUartRx, StopBits, Uart, UartTx};
use embassy_time::{Duration, Timer};
use example_common::*;
use rand_chacha::ChaCha8Rng;
use rand_core::{RngCore, SeedableRng};
#[cfg(feature = "stm32f103c8")]
mod board {
pub type Uart = embassy_stm32::peripherals::USART1;
pub type TxDma = embassy_stm32::peripherals::DMA1_CH4;
pub type RxDma = embassy_stm32::peripherals::DMA1_CH5;
}
#[cfg(feature = "stm32g491re")]
mod board {
pub type Uart = embassy_stm32::peripherals::USART1;
pub type TxDma = embassy_stm32::peripherals::DMA1_CH1;
pub type RxDma = embassy_stm32::peripherals::DMA1_CH2;
}
#[cfg(feature = "stm32g071rb")]
mod board {
pub type Uart = embassy_stm32::peripherals::USART1;
pub type TxDma = embassy_stm32::peripherals::DMA1_CH1;
pub type RxDma = embassy_stm32::peripherals::DMA1_CH2;
}
#[cfg(feature = "stm32f429zi")]
mod board {
pub type Uart = embassy_stm32::peripherals::USART2;
pub type TxDma = embassy_stm32::peripherals::DMA1_CH6;
pub type RxDma = embassy_stm32::peripherals::DMA1_CH5;
}
#[cfg(feature = "stm32wb55rg")]
mod board {
pub type Uart = embassy_stm32::peripherals::LPUART1;
pub type TxDma = embassy_stm32::peripherals::DMA1_CH1;
pub type RxDma = embassy_stm32::peripherals::DMA1_CH2;
}
#[cfg(feature = "stm32h755zi")]
mod board {
pub type Uart = embassy_stm32::peripherals::USART1;
pub type TxDma = embassy_stm32::peripherals::DMA1_CH0;
pub type RxDma = embassy_stm32::peripherals::DMA1_CH1;
}
#[cfg(feature = "stm32u585ai")]
mod board {
pub type Uart = embassy_stm32::peripherals::USART3;
pub type TxDma = embassy_stm32::peripherals::GPDMA1_CH0;
pub type RxDma = embassy_stm32::peripherals::GPDMA1_CH1;
}
const ONE_BYTE_DURATION_US: u32 = 9_000_000 / 115200;
#[embassy_executor::main]
async fn main(spawner: Spawner) {
let p = embassy_stm32::init(config());
info!("Hello World!");
// Arduino pins D0 and D1
// They're connected together with a 1K resistor.
#[cfg(feature = "stm32f103c8")]
let (tx, rx, usart, irq, tx_dma, rx_dma) = (
p.PA9,
p.PA10,
p.USART1,
interrupt::take!(USART1),
p.DMA1_CH4,
p.DMA1_CH5,
);
#[cfg(feature = "stm32g491re")]
let (tx, rx, usart, irq, tx_dma, rx_dma) =
(p.PC4, p.PC5, p.USART1, interrupt::take!(USART1), p.DMA1_CH1, p.DMA1_CH2);
#[cfg(feature = "stm32g071rb")]
let (tx, rx, usart, irq, tx_dma, rx_dma) =
(p.PC4, p.PC5, p.USART1, interrupt::take!(USART1), p.DMA1_CH1, p.DMA1_CH2);
#[cfg(feature = "stm32f429zi")]
let (tx, rx, usart, irq, tx_dma, rx_dma) =
(p.PA2, p.PA3, p.USART2, interrupt::take!(USART2), p.DMA1_CH6, p.DMA1_CH5);
#[cfg(feature = "stm32wb55rg")]
let (tx, rx, usart, irq, tx_dma, rx_dma) = (
p.PA2,
p.PA3,
p.LPUART1,
interrupt::take!(LPUART1),
p.DMA1_CH1,
p.DMA1_CH2,
);
#[cfg(feature = "stm32h755zi")]
let (tx, rx, usart, irq, tx_dma, rx_dma) =
(p.PB6, p.PB7, p.USART1, interrupt::take!(USART1), p.DMA1_CH0, p.DMA1_CH1);
#[cfg(feature = "stm32u585ai")]
let (tx, rx, usart, irq, tx_dma, rx_dma) = (
p.PD8,
p.PD9,
p.USART3,
interrupt::take!(USART3),
p.GPDMA1_CH0,
p.GPDMA1_CH1,
);
// To run this test, use the saturating_serial test utility to saturate the serial port
let mut config = Config::default();
config.baudrate = 115200;
config.data_bits = DataBits::DataBits8;
config.stop_bits = StopBits::STOP1;
config.parity = Parity::ParityNone;
let usart = Uart::new(usart, rx, tx, irq, tx_dma, rx_dma, config);
let (tx, rx) = usart.split();
static mut DMA_BUF: [u8; 64] = [0; 64];
let dma_buf = unsafe { DMA_BUF.as_mut() };
let rx = rx.into_ring_buffered(dma_buf);
info!("Spawning tasks");
spawner.spawn(transmit_task(tx)).unwrap();
spawner.spawn(receive_task(rx)).unwrap();
}
#[embassy_executor::task]
async fn transmit_task(mut tx: UartTx<'static, board::Uart, board::TxDma>) {
let mut rng = ChaCha8Rng::seed_from_u64(1337);
info!("Starting random transmissions into void...");
let mut i: u8 = 0;
loop {
let mut buf = [0; 32];
let len = 1 + (rng.next_u32() as usize % (buf.len() - 1));
for b in &mut buf[..len] {
*b = i;
i = i.wrapping_add(1);
}
tx.write(&buf[..len]).await.unwrap();
Timer::after(Duration::from_micros((rng.next_u32() % 10000) as _)).await;
//i += 1;
//if i % 1000 == 0 {
// trace!("Wrote {} times", i);
//}
}
}
#[embassy_executor::task]
async fn receive_task(mut rx: RingBufferedUartRx<'static, board::Uart, board::RxDma>) {
info!("Ready to receive...");
let mut rng = ChaCha8Rng::seed_from_u64(1337);
let mut i = 0;
let mut expected: Option<u8> = None;
loop {
let mut buf = [0; 100];
let max_len = 1 + (rng.next_u32() as usize % (buf.len() - 1));
let received = rx.read(&mut buf[..max_len]).await.unwrap();
if expected.is_none() {
info!("Test started");
expected = Some(buf[0]);
}
for byte in &buf[..received] {
if byte != &expected.unwrap() {
error!("Test fail! received {}, expected {}", *byte, expected.unwrap());
cortex_m::asm::bkpt();
return;
}
expected = Some(expected.unwrap().wrapping_add(1));
}
if received < max_len {
let byte_count = rng.next_u32() % 64;
Timer::after(Duration::from_micros((byte_count * ONE_BYTE_DURATION_US) as _)).await;
}
i += 1;
if i % 1000 == 0 {
trace!("Read {} times", i);
}
}
}