//! This shows how to continously receive data via I2S. //! //! Pins used: //! MCLK GPIO0 (not ESP32) //! BCLK GPIO2 //! WS GPIO4 //! DIN GPIO5 //! //! Without an additional I2S source device you can connect 3V3 or GND to DIN //! to read 0 or 0xFF or connect DIN to WS to read two different values. //! //! You can also inspect the MCLK, BCLK and WS with a logic analyzer. //% CHIPS: esp32 esp32c3 esp32c6 esp32h2 esp32s2 esp32s3 #![no_std] #![no_main] use esp_backtrace as _; use esp_hal::{ clock::ClockControl, dma::{Dma, DmaPriority}, dma_buffers, gpio::IO, i2s::{DataFormat, I2s, I2sReadDma, Standard}, peripherals::Peripherals, prelude::*, }; use esp_println::println; #[entry] fn main() -> ! { let peripherals = Peripherals::take(); let system = peripherals.SYSTEM.split(); let clocks = ClockControl::boot_defaults(system.clock_control).freeze(); let io = IO::new(peripherals.GPIO, peripherals.IO_MUX); let dma = Dma::new(peripherals.DMA); #[cfg(any(feature = "esp32", feature = "esp32s2"))] let dma_channel = dma.i2s0channel; #[cfg(not(any(feature = "esp32", feature = "esp32s2")))] let dma_channel = dma.channel0; let (_, mut tx_descriptors, mut rx_buffer, mut rx_descriptors) = dma_buffers!(0, 4 * 4092); // Here we test that the type is // 1) reasonably simple (or at least this will flag changes that may make it // more complex) // 2) can be spelled out by the user let i2s = I2s::new( peripherals.I2S0, Standard::Philips, DataFormat::Data16Channel16, 44100u32.Hz(), dma_channel.configure( false, &mut tx_descriptors, &mut rx_descriptors, DmaPriority::Priority0, ), &clocks, ); #[cfg(esp32)] { i2s.with_mclk(io.pins.gpio0); } let mut i2s_rx = i2s .i2s_rx .with_bclk(io.pins.gpio2) .with_ws(io.pins.gpio4) .with_din(io.pins.gpio5) .build(); let mut transfer = i2s_rx.read_dma_circular(&mut rx_buffer).unwrap(); println!("Started transfer"); loop { let avail = transfer.available(); if avail > 0 { let mut rcv = [0u8; 5000]; transfer.pop(&mut rcv[..avail]).unwrap(); println!("Received {:x?}...", &rcv[..30]); } } }