#![no_std] #![no_main] #![feature(type_alias_impl_trait)] #![feature(async_fn_in_trait)] #![allow(incomplete_features)] use core::convert::Infallible; use defmt::*; use embassy_executor::Spawner; use embassy_net::tcp::TcpSocket; use embassy_net::{Stack, StackResources}; use embassy_rp::gpio::{Flex, Level, Output}; use embassy_rp::peripherals::{PIN_23, PIN_24, PIN_25, PIN_29}; use embedded_hal_1::spi::ErrorType; use embedded_hal_async::spi::{ExclusiveDevice, SpiBusFlush, SpiBusRead, SpiBusWrite}; use embedded_io::asynch::Write; use static_cell::StaticCell; use {defmt_rtt as _, panic_probe as _}; macro_rules! singleton { ($val:expr) => {{ type T = impl Sized; static STATIC_CELL: StaticCell = StaticCell::new(); STATIC_CELL.init_with(move || $val) }}; } #[embassy_executor::task] async fn wifi_task( runner: cyw43::Runner<'static, Output<'static, PIN_23>, ExclusiveDevice>>, ) -> ! { runner.run().await } #[embassy_executor::task] async fn net_task(stack: &'static Stack>) -> ! { stack.run().await } #[embassy_executor::main] async fn main(spawner: Spawner) { info!("Hello World!"); let p = embassy_rp::init(Default::default()); // Include the WiFi firmware and Country Locale Matrix (CLM) blobs. let fw = include_bytes!("../../../firmware/43439A0.bin"); let clm = include_bytes!("../../../firmware/43439A0_clm.bin"); // To make flashing faster for development, you may want to flash the firmwares independently // at hardcoded addresses, instead of baking them into the program with `include_bytes!`: // probe-rs-cli download 43439A0.bin --format bin --chip RP2040 --base-address 0x10100000 // probe-rs-cli download 43439A0.clm_blob --format bin --chip RP2040 --base-address 0x10140000 //let fw = unsafe { core::slice::from_raw_parts(0x10100000 as *const u8, 224190) }; //let clm = unsafe { core::slice::from_raw_parts(0x10140000 as *const u8, 4752) }; let pwr = Output::new(p.PIN_23, Level::Low); let cs = Output::new(p.PIN_25, Level::High); let clk = Output::new(p.PIN_29, Level::Low); let mut dio = Flex::new(p.PIN_24); dio.set_low(); dio.set_as_output(); let bus = MySpi { clk, dio }; let spi = ExclusiveDevice::new(bus, cs); let state = singleton!(cyw43::State::new()); let (mut control, runner) = cyw43::new(state, pwr, spi, fw).await; spawner.spawn(wifi_task(runner)).unwrap(); let net_device = control.init(clm).await; //control.join_open(env!("WIFI_NETWORK")).await; control.join_wpa2(env!("WIFI_NETWORK"), env!("WIFI_PASSWORD")).await; let config = embassy_net::ConfigStrategy::Dhcp; //let config = embassy_net::ConfigStrategy::Static(embassy_net::Config { // address: Ipv4Cidr::new(Ipv4Address::new(192, 168, 69, 2), 24), // dns_servers: Vec::new(), // gateway: Some(Ipv4Address::new(192, 168, 69, 1)), //}); // Generate random seed let seed = 0x0123_4567_89ab_cdef; // chosen by fair dice roll. guarenteed to be random. // Init network stack let stack = &*singleton!(Stack::new( net_device, config, singleton!(StackResources::<1, 2, 8>::new()), seed )); unwrap!(spawner.spawn(net_task(stack))); // And now we can use it! let mut rx_buffer = [0; 4096]; let mut tx_buffer = [0; 4096]; let mut buf = [0; 4096]; loop { let mut socket = TcpSocket::new(stack, &mut rx_buffer, &mut tx_buffer); socket.set_timeout(Some(embassy_net::SmolDuration::from_secs(10))); info!("Listening on TCP:1234..."); if let Err(e) = socket.accept(1234).await { warn!("accept error: {:?}", e); continue; } info!("Received connection from {:?}", socket.remote_endpoint()); loop { let n = match socket.read(&mut buf).await { Ok(0) => { warn!("read EOF"); break; } Ok(n) => n, Err(e) => { warn!("read error: {:?}", e); break; } }; info!("rxd {:02x}", &buf[..n]); match socket.write_all(&buf[..n]).await { Ok(()) => {} Err(e) => { warn!("write error: {:?}", e); break; } }; } } } struct MySpi { /// SPI clock clk: Output<'static, PIN_29>, /// 4 signals, all in one!! /// - SPI MISO /// - SPI MOSI /// - IRQ /// - strap to set to gSPI mode on boot. dio: Flex<'static, PIN_24>, } impl ErrorType for MySpi { type Error = Infallible; } impl SpiBusFlush for MySpi { async fn flush(&mut self) -> Result<(), Self::Error> { Ok(()) } } impl SpiBusRead for MySpi { async fn read(&mut self, words: &mut [u32]) -> Result<(), Self::Error> { self.dio.set_as_input(); for word in words { let mut w = 0; for _ in 0..32 { w = w << 1; // rising edge, sample data if self.dio.is_high() { w |= 0x01; } self.clk.set_high(); // falling edge self.clk.set_low(); } *word = w } Ok(()) } } impl SpiBusWrite for MySpi { async fn write(&mut self, words: &[u32]) -> Result<(), Self::Error> { self.dio.set_as_output(); for word in words { let mut word = *word; for _ in 0..32 { // falling edge, setup data self.clk.set_low(); if word & 0x8000_0000 == 0 { self.dio.set_low(); } else { self.dio.set_high(); } // rising edge self.clk.set_high(); word = word << 1; } } self.clk.set_low(); self.dio.set_as_input(); Ok(()) } }