#![feature(type_alias_impl_trait)] #[path = "../serial_port.rs"] mod serial_port; use async_io::Async; use embassy_executor::Executor; use embedded_io::asynch::Read; use log::*; use nix::sys::termios; use static_cell::StaticCell; use self::serial_port::SerialPort; #[embassy_executor::task] async fn run() { // Open the serial port. let baudrate = termios::BaudRate::B115200; let port = SerialPort::new("/dev/ttyACM0", baudrate).unwrap(); //let port = Spy::new(port); // Use async_io's reactor for async IO. // This demonstrates how embassy's executor can drive futures from another IO library. // Essentially, async_io::Async converts from AsRawFd+Read+Write to futures's AsyncRead+AsyncWrite let port = Async::new(port).unwrap(); // We can then use FromStdIo to convert from futures's AsyncRead+AsyncWrite // to embedded_io's async Read+Write. // // This is not really needed, you could write the code below using futures::io directly. // It's useful if you want to have portable code across embedded and std. let mut port = embedded_io::adapters::FromFutures::new(port); info!("Serial opened!"); loop { let mut buf = [0u8; 256]; let n = port.read(&mut buf).await.unwrap(); info!("read {:?}", &buf[..n]); } } static EXECUTOR: StaticCell = StaticCell::new(); fn main() { env_logger::builder() .filter_level(log::LevelFilter::Debug) .filter_module("async_io", log::LevelFilter::Info) .format_timestamp_nanos() .init(); let executor = EXECUTOR.init(Executor::new()); executor.run(|spawner| { spawner.spawn(run()).unwrap(); }); }