~jojo/jojos-hue

ref: cf432078869f3cb7d90f4abda253613b227780ad jojos-hue/server/src/main.rs -rw-r--r-- 6.2 KiB
cf432078JoJo Base procedure color / brightness / etc off of last color a month ago
                                                                                
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use byteorder::{ByteOrder, LittleEndian};
use palette::{FromColor, Hsv, Hue, RgbHue, Shade, Srgb};
use std::{
    collections::HashMap,
    f32::consts as f32,
    iter::once,
    net::{SocketAddr, UdpSocket},
    sync::{
        mpsc::{channel, sync_channel, Receiver, Sender, SyncSender},
        Arc,
    },
    thread,
    time::{Duration, Instant},
};
use tide::{prelude::*, Request};

const FPS: f32 = 100.0;
const DEADLINE: Duration = Duration::from_secs(10);

type Heartbeat = (SocketAddr, u16);

#[derive(Clone, Copy, Deserialize)]
struct QueryRgb {
    r: f32,
    g: f32,
    b: f32,
}

#[derive(Clone, Copy, Debug)]
enum QueryCmd {
    All(Srgb),
    Off,
    Cycle,
    Breathing,
}

#[derive(Clone, Copy)]
enum Cmd {
    All,
    Off,
    Cycle,
    Breathing,
}

#[async_std::main]
async fn main() -> tide::Result<()> {
    let (heartbeat_tx, heartbeat_rx) = channel();
    let (cmd_tx, cmd_rx) = sync_channel(8);

    thread::spawn(move || {
        let listener = UdpSocket::bind("192.168.0.41:7017").unwrap();
        loop {
            let mut msg = [0; 13];
            if let Some((_, addr)) = listener.recv_from(&mut msg).ok() {
                if let Some(beat) = parse_heartbeat(&msg, addr) {
                    heartbeat_tx.send(beat).unwrap();
                } else {
                    println!(
                        "Malformed message from {}, {:?} / {:?}",
                        addr,
                        String::from_utf8_lossy(&msg),
                        msg
                    )
                }
            }
        }
    });

    thread::spawn(move || controller(heartbeat_rx, cmd_rx));

    let mut web = tide::new();
    web.at("/").serve_file("static/index.html")?;
    web.at("/static").serve_dir("static/")?;
    let cmd_tx1 = cmd_tx.clone();
    web.at("/all")
        .get(move |req| all_handler(req, cmd_tx.clone()));
    web.at("/proc/:name")
        .get(move |req| proc_handler(req, cmd_tx1.clone()));
    web.listen("192.168.0.41:8558").await?;
    Ok(())
}

async fn all_handler(req: Request<()>, tx: SyncSender<QueryCmd>) -> tide::Result {
    let c: QueryRgb = req.query()?;
    tx.send(QueryCmd::All(Srgb::new(c.r, c.g, c.b))).unwrap();
    Ok("cool, ty".into())
}

async fn proc_handler(req: Request<()>, tx: SyncSender<QueryCmd>) -> tide::Result {
    let s = req.param("name")?;
    match s {
        "off" => tx.send(QueryCmd::Off).unwrap(),
        "cycle" => tx.send(QueryCmd::Cycle).unwrap(),
        "breathing" => tx.send(QueryCmd::Breathing).unwrap(),
        _ => {}
    }
    Ok("cool, ty".into())
}

fn controller(heartbeat_rx: Receiver<Heartbeat>, cmd_rx: Receiver<QueryCmd>) {
    let sender = Arc::new(UdpSocket::bind("192.168.0.41:7018").unwrap());
    let mut clients = HashMap::<SocketAddr, (Instant, Sender<_>)>::new();
    let mut tprev = Instant::now();
    let mut tcmd = Instant::now();
    let mut base = Hsv::new(0.0, 0.0, 0.0);
    let mut cmd = Cmd::Off;
    loop {
        while let Ok((addr, nleds)) = heartbeat_rx.try_recv() {
            match clients.get_mut(&addr) {
                Some(client) => client.0 = Instant::now(),
                None => {
                    clients.insert(
                        addr,
                        (Instant::now(), setup_client(addr, nleds, sender.clone())),
                    );
                }
            }
        }
        clients.retain(|addr, (tbeat, _)| {
            let live = tbeat.elapsed() < DEADLINE;
            if !live {
                println!("Sadly, client {} hasn't had a hearbeat for a while, and must thus be pronounced dead!", addr);
            }
            live
        });
        while let Some(new_cmd) = cmd_rx.try_iter().last() {
            println!("New command: {:?}", new_cmd);
            tcmd = Instant::now();
            match new_cmd {
                QueryCmd::All(c) => {
                    base = Hsv::from_color(c);
                    cmd = Cmd::All;
                }
                QueryCmd::Off => cmd = Cmd::Off,
                QueryCmd::Cycle => cmd = Cmd::Cycle,
                QueryCmd::Breathing => cmd = Cmd::Breathing,
            }
        }
        for (_, tx) in clients.values() {
            let t = tcmd.elapsed().as_secs_f64();
            tx.send((cmd, base, t)).ok();
        }
        let dt = tprev.elapsed();
        tprev = Instant::now();
        let period = Duration::from_secs_f32(1.0 / FPS);
        if dt < period {
            thread::sleep(period - dt);
        }
    }
}

fn setup_client(addr: SocketAddr, nleds: u16, sender: Arc<UdpSocket>) -> Sender<(Cmd, Hsv, f64)> {
    let (tx, rx) = channel();
    thread::spawn(move || loop {
        let magic_cookie = b"satan";
        let (cmd, base, t) = rx
            .recv()
            .expect("Client channel closed. Time for this thread to die!");
        let color_data = lightf(cmd, base, t, nleds)
            .into_iter()
            .flat_map(|c| once(c.red).chain(once(c.green)).chain(once(c.blue)))
            .map(|x| (x * 256.0).min(256.0).max(0.0) as u8);
        let data = magic_cookie
            .iter()
            .cloned()
            .chain(color_data)
            .collect::<Vec<u8>>();
        sender.send_to(&data, addr).ok();
    });
    tx
}

fn parse_heartbeat(msg: &[u8; 13], addr: SocketAddr) -> Option<Heartbeat> {
    if msg.starts_with(b"heart<") && msg.ends_with(b">beat") {
        let nleds = LittleEndian::read_u16(&msg[6..8]);
        println!("Heartbeat from {} with {} LEDs", addr, nleds);
        Some((addr, nleds))
    } else {
        None
    }
}

fn lightf(cmd: Cmd, base: Hsv, t: f64, nleds: u16) -> Vec<Srgb> {
    match cmd {
        Cmd::All => vec![Srgb::from_color(base); nleds as usize],
        Cmd::Off => vec![Srgb::from_color(base.darken(t.min(1.0) as f32)); nleds as usize],
        Cmd::Cycle => {
            vec![
                Srgb::from_color(base.shift_hue(hue_f64_to_f32(RgbHue::from_radians(t / 6.0))));
                nleds as usize
            ]
        }
        Cmd::Breathing => {
            vec![
                Srgb::from_color(base.darken(0.9 * (t / 2.0).sin().powi(2) as f32));
                nleds as usize
            ]
        } // Cmd::AudioVis => {}
    }
}

fn hue_f64_to_f32(h: RgbHue<f64>) -> RgbHue<f32> {
    RgbHue::from_radians(h.to_radians() as f32)
}