projekt1/mqtt_display/old_main.rs

// src/bin/main.rs

#![no_std]
#![no_main]
#![deny(
    clippy::mem_forget,
    reason = "mem::forget is generally not safe to do with esp_hal types"
)]

use embassy_executor::Spawner;
use embassy_futures::select::{select, Either};
use embassy_net::{Runner, StackResources};
use embassy_time::{Duration, Timer};
use esp_alloc as _;
use esp_backtrace as _;
use esp_hal::{clock::CpuClock, rng::Rng, timer::timg::TimerGroup};
use esp_wifi::{
    init,
    wifi::{ClientConfiguration, Configuration, WifiController, WifiDevice, WifiEvent, WifiState},
    EspWifiController,
};
use log::info;
use rust_mqtt::packet::v5::publish_packet::QualityOfService;
use projekt_final::mqtt::client::{
    mqtt_events, mqtt_publish, mqtt_subscribe, mqtt_task, IncomingMsg,
};
use defmt_rtt as _;

extern crate alloc;

esp_bootloader_esp_idf::esp_app_desc!();

macro_rules! mk_static {
    ($t:ty,$val:expr) => {{
        static STATIC_CELL: static_cell::StaticCell<$t> = static_cell::StaticCell::new();
        #[deny(unused_attributes)]
        let x = STATIC_CELL.uninit().write(($val));
        x
    }};
}

const SSID: &str = env!("SSID");
const PASSWORD: &str = env!("PASSWORD");

#[esp_hal_embassy::main]
async fn main(spawner: Spawner) -> ! {
    esp_println::logger::init_logger_from_env();
    let config = esp_hal::Config::default().with_cpu_clock(CpuClock::max());
    let peripherals = esp_hal::init(config);

    esp_alloc::heap_allocator!(size: 72 * 1024);

    let timg0 = TimerGroup::new(peripherals.TIMG0);
    let mut rng = Rng::new(peripherals.RNG);

    let esp_wifi_ctrl = &*mk_static!(
        EspWifiController<'static>,
        init(timg0.timer0, rng.clone()).unwrap()
    );

    let (controller, interfaces) =
        esp_wifi::wifi::new(&esp_wifi_ctrl, peripherals.WIFI).unwrap();

    let wifi_interface = interfaces.sta;

    let timg1 = TimerGroup::new(peripherals.TIMG1);
    esp_hal_embassy::init(timg1.timer0);

    let config = embassy_net::Config::dhcpv4(Default::default());

    let seed = (rng.random() as u64) << 32 | rng.random() as u64;

    // Init network stack
    let (stack, runner) = embassy_net::new(
        wifi_interface,
        config,
        mk_static!(StackResources<3>, StackResources::<3>::new()),
        seed,
    );

    spawner.spawn(connection(controller)).ok();
    spawner.spawn(net_task(runner)).ok();

    // Wait for link up
    loop {
        if stack.is_link_up() {
            break;
        }
        Timer::after(Duration::from_millis(500)).await;
    }

    info!("Waiting to get IP address...");
    loop {
        if let Some(config) = stack.config_v4() {
            info!("Got IP: {}", config.address);
            break;
        }
        Timer::after(Duration::from_millis(500)).await;
    }

    spawner.spawn(mqtt_task(stack)).expect("failed to spawn MQTT task");
    info!("MQTT task started");

    mqtt_publish("esp32/topic", b"hello from ESP32 (init)", QualityOfService::QoS1, false).await;
    info!("Sent initial MQTT message");

    mqtt_subscribe("esp32/topic").await;

    // Get a receiver for incoming MQTT messages
    let mqtt_rx = mqtt_events();

    loop {
        // Drive both: either process an MQTT message or publish periodically
        match select(mqtt_rx.receive(), Timer::after(Duration::from_secs(5))).await
        {
            // Received inbound MQTT message (from broker)
            Either::First(msg) => {
                handle_incoming(msg);
            }
            // Time-based example publish
            Either::Second(_) => {
                // mqtt_publish(
                //     "esp32/topic",
                //     b"hello from main",
                //     QualityOfService::QoS1,
                //     false,
                // )
                // .await;
            }
        }
    }
}

fn handle_incoming(msg: IncomingMsg) {
    if let Ok(txt) = core::str::from_utf8(&msg.payload) {
        info!("MAIN RX [{}]: {}", msg.topic.as_str(), txt);
        info!("Received MQTT message -> topic: '{}', payload: '{}'", msg.topic.as_str(), txt);
    } else {
        info!("MAIN RX [{}]: {:?}", msg.topic.as_str(), msg.payload);
    }
}

#[embassy_executor::task]
async fn connection(mut controller: WifiController<'static>) {
    info!("start connection task");
    info!("Device capabilities: {:?}", controller.capabilities());
    loop {
        match esp_wifi::wifi::wifi_state() {
            WifiState::StaConnected => {
                controller.wait_for_event(WifiEvent::StaDisconnected).await;
                Timer::after(Duration::from_millis(5000)).await
            }
            _ => {}
        }
        if !matches!(controller.is_started(), Ok(true)) {
            let client_config = Configuration::Client(ClientConfiguration {
                ssid: SSID.into(),
                password: PASSWORD.into(),
                ..Default::default()
            });
            controller.set_configuration(&client_config).unwrap();
            info!("Starting wifi");
            controller.start_async().await.unwrap();
            info!("Wifi started!");
        }
        info!("About to connect...");

        match controller.connect_async().await {
            Ok(_) => info!("Wifi connected!"),
            Err(e) => {
                info!("Failed to connect to wifi: {e:?}");
                Timer::after(Duration::from_millis(5000)).await
            }
        }
    }
}

#[embassy_executor::task]
async fn net_task(mut runner: Runner<'static, WifiDevice<'static>>) {
    runner.run().await
}