//! Access point //! //! Creates an open access-point with SSID `esp-wifi`. //! You can connect to it using a static IP in range 192.168.2.2 .. 192.168.2.255, gateway 192.168.2.1 //! //! Open http://192.168.2.1:8080/ in your browser //! //! On Android you might need to choose _Keep Accesspoint_ when it tells you the WiFi has no internet connection, Chrome might not want to load the URL - you can use a shell and try `curl` and `ping` //% FEATURES: esp-wifi esp-wifi/wifi-default esp-wifi/wifi esp-wifi/utils //% CHIPS: esp32 esp32s2 esp32s3 esp32c2 esp32c3 esp32c6 #![no_std] #![no_main] use embedded_io::*; use esp_alloc as _; use esp_backtrace as _; use esp_hal::{ prelude::*, rng::Rng, time::{self, Duration}, timer::timg::TimerGroup, }; use esp_println::{print, println}; use esp_wifi::{ init, wifi::{ utils::create_network_interface, AccessPointConfiguration, Configuration, WifiApDevice, }, wifi_interface::WifiStack, EspWifiInitFor, }; use smoltcp::iface::SocketStorage; #[entry] fn main() -> ! { esp_println::logger::init_logger_from_env(); let peripherals = esp_hal::init({ let mut config = esp_hal::Config::default(); config.cpu_clock = CpuClock::max(); config }); esp_alloc::heap_allocator!(72 * 1024); let timg0 = TimerGroup::new(peripherals.TIMG0); let init = init( EspWifiInitFor::Wifi, timg0.timer0, Rng::new(peripherals.RNG), peripherals.RADIO_CLK, ) .unwrap(); let mut wifi = peripherals.WIFI; let mut socket_set_entries: [SocketStorage; 3] = Default::default(); let (iface, device, mut controller, sockets) = create_network_interface(&init, &mut wifi, WifiApDevice, &mut socket_set_entries).unwrap(); let now = || time::now().duration_since_epoch().to_millis(); let mut wifi_stack = WifiStack::new(iface, device, sockets, now); let client_config = Configuration::AccessPoint(AccessPointConfiguration { ssid: "esp-wifi".try_into().unwrap(), ..Default::default() }); let res = controller.set_configuration(&client_config); println!("wifi_set_configuration returned {:?}", res); controller.start().unwrap(); println!("is wifi started: {:?}", controller.is_started()); println!("{:?}", controller.get_capabilities()); wifi_stack .set_iface_configuration(&esp_wifi::wifi::ipv4::Configuration::Client( esp_wifi::wifi::ipv4::ClientConfiguration::Fixed( esp_wifi::wifi::ipv4::ClientSettings { ip: esp_wifi::wifi::ipv4::Ipv4Addr::from(parse_ip("192.168.2.1")), subnet: esp_wifi::wifi::ipv4::Subnet { gateway: esp_wifi::wifi::ipv4::Ipv4Addr::from(parse_ip("192.168.2.1")), mask: esp_wifi::wifi::ipv4::Mask(24), }, dns: None, secondary_dns: None, }, ), )) .unwrap(); println!("Start busy loop on main. Connect to the AP `esp-wifi` and point your browser to http://192.168.2.1:8080/"); println!("Use a static IP in the range 192.168.2.2 .. 192.168.2.255, use gateway 192.168.2.1"); let mut rx_buffer = [0u8; 1536]; let mut tx_buffer = [0u8; 1536]; let mut socket = wifi_stack.get_socket(&mut rx_buffer, &mut tx_buffer); socket.listen(8080).unwrap(); loop { socket.work(); if !socket.is_open() { socket.listen(8080).unwrap(); } if socket.is_connected() { println!("Connected"); let mut time_out = false; let deadline = time::now() + Duration::secs(20); let mut buffer = [0u8; 1024]; let mut pos = 0; while let Ok(len) = socket.read(&mut buffer[pos..]) { let to_print = unsafe { core::str::from_utf8_unchecked(&buffer[..(pos + len)]) }; if to_print.contains("\r\n\r\n") { print!("{}", to_print); println!(); break; } pos += len; if time::now() > deadline { println!("Timeout"); time_out = true; break; } } if !time_out { socket .write_all( b"HTTP/1.0 200 OK\r\n\r\n\ \ \

Hello Rust! Hello esp-wifi!

\ \ \r\n\ ", ) .unwrap(); socket.flush().unwrap(); } socket.close(); println!("Done\n"); println!(); } let deadline = time::now() + Duration::secs(5); while time::now() < deadline { socket.work(); } } } fn parse_ip(ip: &str) -> [u8; 4] { let mut result = [0u8; 4]; for (idx, octet) in ip.split(".").into_iter().enumerate() { result[idx] = u8::from_str_radix(octet, 10).unwrap(); } result }