//! SPI Half Duplex Read Test //! //! Folowing pins are used: //! SCLK GPIO0 //! MISO GPIO2 //! //! GPIO GPIO3 //! //! Connect MISO (GPIO2) and GPIO (GPIO3) pins. //% CHIPS: esp32 esp32c2 esp32c3 esp32c6 esp32h2 esp32s2 esp32s3 #![no_std] #![no_main] use esp_hal::{ dma::{Dma, DmaPriority, DmaRxBuf, DmaTxBuf}, dma_buffers, gpio::{GpioPin, Io, Level, Output}, peripherals::SPI2, prelude::*, spi::{ master::{Address, Command, HalfDuplexReadWrite, Spi, SpiDma}, HalfDuplexMode, SpiDataMode, SpiMode, }, Blocking, }; use hil_test as _; cfg_if::cfg_if! { if #[cfg(any( feature = "esp32", feature = "esp32s2", ))] { use esp_hal::dma::Spi2DmaChannel as DmaChannel0; } else { use esp_hal::dma::DmaChannel0; } } struct Context { spi: SpiDma<'static, SPI2, DmaChannel0, HalfDuplexMode, Blocking>, miso_mirror: Output<'static, GpioPin<3>>, } #[cfg(test)] #[embedded_test::tests] mod tests { use defmt::assert_eq; use super::*; #[init] fn init() -> Context { let (peripherals, clocks) = esp_hal::init(esp_hal::Config::default()); let io = Io::new(peripherals.GPIO, peripherals.IO_MUX); let sclk = io.pins.gpio0; let miso = io.pins.gpio2; let miso_mirror = Output::new(io.pins.gpio3, Level::High); let dma = Dma::new(peripherals.DMA); cfg_if::cfg_if! { if #[cfg(any(feature = "esp32", feature = "esp32s2"))] { let dma_channel = dma.spi2channel; } else { let dma_channel = dma.channel0; } } let spi = Spi::new_half_duplex(peripherals.SPI2, 100.kHz(), SpiMode::Mode0, &clocks) .with_sck(sclk) .with_miso(miso) .with_dma(dma_channel.configure(false, DmaPriority::Priority0)); Context { spi, miso_mirror } } #[test] #[timeout(3)] fn test_spi_reads_correctly_from_gpio_pin(mut ctx: Context) { const DMA_BUFFER_SIZE: usize = 4; let (buffer, descriptors, _, _) = dma_buffers!(DMA_BUFFER_SIZE, 0); let mut dma_rx_buf = DmaRxBuf::new(descriptors, buffer).unwrap(); // SPI should read '0's from the MISO pin ctx.miso_mirror.set_low(); let mut spi = ctx.spi; let transfer = spi .read( SpiDataMode::Single, Command::None, Address::None, 0, dma_rx_buf, ) .map_err(|e| e.0) .unwrap(); (spi, dma_rx_buf) = transfer.wait(); assert_eq!(dma_rx_buf.as_slice(), &[0x00; DMA_BUFFER_SIZE]); // SPI should read '1's from the MISO pin ctx.miso_mirror.set_high(); let transfer = spi .read( SpiDataMode::Single, Command::None, Address::None, 0, dma_rx_buf, ) .map_err(|e| e.0) .unwrap(); (_, dma_rx_buf) = transfer.wait(); assert_eq!(dma_rx_buf.as_slice(), &[0xFF; DMA_BUFFER_SIZE]); } #[test] #[timeout(3)] fn test_spidmabus_reads_correctly_from_gpio_pin(mut ctx: Context) { const DMA_BUFFER_SIZE: usize = 4; let (buffer, descriptors, tx, txd) = dma_buffers!(DMA_BUFFER_SIZE, 1); let dma_rx_buf = DmaRxBuf::new(descriptors, buffer).unwrap(); let dma_tx_buf = DmaTxBuf::new(txd, tx).unwrap(); let mut spi = ctx.spi.with_buffers(dma_tx_buf, dma_rx_buf); // SPI should read '0's from the MISO pin ctx.miso_mirror.set_low(); let mut buffer = [0xAA; DMA_BUFFER_SIZE]; spi.read( SpiDataMode::Single, Command::None, Address::None, 0, &mut buffer, ) .unwrap(); assert_eq!(buffer.as_slice(), &[0x00; DMA_BUFFER_SIZE]); // SPI should read '1's from the MISO pin ctx.miso_mirror.set_high(); spi.read( SpiDataMode::Single, Command::None, Address::None, 0, &mut buffer, ) .unwrap(); assert_eq!(buffer.as_slice(), &[0xFF; DMA_BUFFER_SIZE]); } }