#![no_main] #![no_std] use panic_halt as _; use py32f0xx_hal as hal; use crate::hal::{ pac, prelude::*, serial::Serial, spi::Spi, spi::{Mode, Phase, Polarity}, }; use nb::block; use cortex_m_rt::entry; /// A basic serial to spi example /// /// If you connect MOSI & MISO pins together, you'll see all characters /// that you typed in your serial terminal echoed back /// /// If you connect MISO to GND, you'll see nothing coming back #[entry] fn main() -> ! { const MODE: Mode = Mode { polarity: Polarity::IdleHigh, phase: Phase::CaptureOnSecondTransition, }; if let Some(p) = pac::Peripherals::take() { let mut flash = p.FLASH; let mut rcc = p.RCC.configure().freeze(&mut flash); let gpioa = p.GPIOA.split(&mut rcc); let (sck, miso, mosi, tx, rx) = cortex_m::interrupt::free(move |cs| { ( // SPI pins gpioa.pa5.into_alternate_af0(cs), gpioa.pa6.into_alternate_af0(cs), gpioa.pa7.into_alternate_af0(cs), // USART pins gpioa.pa2.into_alternate_af1(cs), gpioa.pa3.into_alternate_af1(cs), ) }); // Configure SPI with 1MHz rate let mut spi = Spi::spi1(p.SPI1, (sck, miso, mosi), MODE, 1.mhz(), &mut rcc); let serial = Serial::usart1(p.USART1, (tx, rx), 115_200.bps(), &mut rcc); let (mut tx, mut rx) = serial.split(); let mut data = [0]; loop { let serial_received = block!(rx.read()).unwrap(); spi.write(&[serial_received]).ok(); let spi_received = spi.transfer(&mut data).unwrap(); block!(tx.write(spi_received[0])).ok(); } } loop { continue; } }