lesavka/client/src/input/inputs.rs

// client/src/input/inputs.rs

use anyhow::{bail, Context, Result};
use evdev::{Device, EventType, KeyCode, RelativeAxisCode};
use tokio::{sync::broadcast::Sender, time::{interval, Duration}};
use tracing::{debug, info, warn};

use lesavka_common::lesavka::{KeyboardReport, MouseReport};

use super::{keyboard::KeyboardAggregator, mouse::MouseAggregator,
            camera::CameraCapture,  microphone::MicrophoneCapture};

pub struct InputAggregator {
    kbd_tx: Sender<KeyboardReport>,
    mou_tx: Sender<MouseReport>,
    dev_mode: bool,
    released: bool,
    keyboards: Vec<KeyboardAggregator>,
    mice: Vec<MouseAggregator>,
    camera: Option<CameraCapture>,
    mic:    Option<MicrophoneCapture>,
}

impl InputAggregator {
    pub fn new(dev_mode: bool,
               kbd_tx: Sender<KeyboardReport>,
               mou_tx: Sender<MouseReport>) -> Self {
        Self { kbd_tx, mou_tx, dev_mode, released: false,
               keyboards: Vec::new(), mice: Vec::new(),
               camera: None, mic: None }
    }

    /// Called once at startup: enumerates input devices,
    /// classifies them, and constructs a aggregator struct per type.
    pub fn init(&mut self) -> Result<()> {
        let paths = std::fs::read_dir("/dev/input")
            .context("Failed to read /dev/input")?;

        let mut found_any = false;

        for entry in paths {
            let entry = entry?;
            let path = entry.path();

            // skip anything that isn't "event*"
            if !path.file_name().map_or(false, |f| f.to_string_lossy().starts_with("event")) {
                continue;
            }

            // attempt open
            let mut dev = match Device::open(&path) {
                Ok(d) => d,
                Err(e) => {
                    tracing::debug!("Skipping {:?}, open error {e}", path);
                    continue;
                }
            };

            // non-blocking so fetch_events never stalls the whole loop
            dev.set_nonblocking(true).with_context(|| format!("set_non_blocking {:?}", path))?;

            match classify_device(&dev) {
                DeviceKind::Keyboard => {
                    dev.grab().with_context(|| format!("grabbing keyboard {path:?}"))?;
                    info!("Grabbed keyboard {:?}", dev.name().unwrap_or("UNKNOWN"));

                    // pass dev_mode to aggregator
                    // let kbd_agg = KeyboardAggregator::new(dev, self.dev_mode);
                    let kbd_agg = KeyboardAggregator::new(dev, self.dev_mode, self.kbd_tx.clone());
                    self.keyboards.push(kbd_agg);
                    found_any = true;
                    continue;
                }
                DeviceKind::Mouse => {
                    dev.grab().with_context(|| format!("grabbing mouse {path:?}"))?;
                    info!("Grabbed mouse {:?}", dev.name().unwrap_or("UNKNOWN"));

                    // let mouse_agg = MouseAggregator::new(dev);
                    let mouse_agg = MouseAggregator::new(dev, self.dev_mode, self.mou_tx.clone());
                    self.mice.push(mouse_agg);
                    found_any = true;
                    continue;
                }
                DeviceKind::Other => {
                    debug!("Skipping non-kbd/mouse device: {:?}", dev.name().unwrap_or("UNKNOWN"));
                    continue;
                }
            }
        }

        if !found_any {
            bail!("No suitable keyboard/mouse devices found or none grabbed.");
        }

        // Stubs for camera / mic:
        self.camera = Some(CameraCapture::new_stub());
        self.mic    = Some(MicrophoneCapture::new_stub());

        Ok(())
    }

    /// We spawn the sub-aggregators in a loop or using separate tasks.
    /// (For a real system: you'd spawn a separate task for each aggregator.)
    pub async fn run(&mut self) -> Result<()> {
        // Example approach: poll each aggregator in a simple loop
        let mut tick = interval(Duration::from_millis(10));
        loop {
            let mut want_toggle = false;
            let mut want_kill   = false;
            for kbd in &mut self.keyboards {
                kbd.process_events();
                want_toggle |= kbd.magic_grab();
                want_kill   |= kbd.magic_kill();
            }

            if want_toggle { self.toggle_grab(); }
            if want_kill   { 
                warn!("🧙  magic chord - killing 🪄 AVADA KEDAVRA!!! 💥💀⚰️");
                std::process::exit(0); 
            }

            for mouse in &mut self.mice {
                mouse.process_events();
            }
            // camera / mic stubs could go here
            tick.tick().await;
        }
    }

    fn toggle_grab(&mut self) {
        if self.released {
            for k in &mut self.keyboards { k.grab(); }
            for m in &mut self.mice     { m.grab(); }
            tracing::info!("🧙  magic chord - restricting devices 🪄 IMPERIUS!!! 🎮🔒");
        } else {
            for k in &mut self.keyboards { k.ungrab(); }
            for m in &mut self.mice     { m.ungrab(); }
            tracing::info!("🧙  magic chord - freeing devices 🪄 EXPELLIARMUS!!! 🔓🕊️");
        }
        self.released = !self.released;
    }
}

#[derive(Debug)]
struct Classification {
    keyboard: Option<()>,
    mouse: Option<()>,
}

/// The classification function
fn classify_device(dev: &Device) -> DeviceKind {
    let evbits = dev.supported_events();

    // Keyboard logic
    if evbits.contains(EventType::KEY) {
        if let Some(keys) = dev.supported_keys() {
            if keys.contains(KeyCode::KEY_A) || keys.contains(KeyCode::KEY_ENTER) {
                return DeviceKind::Keyboard;
            }
        }
    }

    // Mouse logic
    if evbits.contains(EventType::RELATIVE) {
        if let (Some(rel), Some(keys)) =
            (dev.supported_relative_axes(), dev.supported_keys())
        {
            let has_xy = rel.contains(RelativeAxisCode::REL_X)
                      && rel.contains(RelativeAxisCode::REL_Y);
            let has_btn = keys.contains(KeyCode::BTN_LEFT)
                       || keys.contains(KeyCode::BTN_RIGHT);
            if has_xy && has_btn {
                return DeviceKind::Mouse;
            }
        }
    }

    DeviceKind::Other
}

/// Internal enum for device classification
#[derive(Debug, Clone, Copy)]
enum DeviceKind {
    Keyboard,
    Mouse,
    Other,
}
updates 2025-06-08 22:24:14 -05:00			`// client/src/input/inputs.rs`

			`use anyhow::{bail, Context, Result};`
unblocked evtest 2025-06-11 00:37:01 -05:00			`use evdev::{Device, EventType, KeyCode, RelativeAxisCode};`
rewrite 2025-06-17 20:54:31 -05:00			`use tokio::{sync::broadcast::Sender, time::{interval, Duration}};`
many fixes 2025-06-28 15:45:35 -05:00			`use tracing::{debug, info, warn};`
updates 2025-06-08 22:24:14 -05:00
navka -> lesavka migration 2025-06-23 07:18:26 -05:00			`use lesavka_common::lesavka::{KeyboardReport, MouseReport};`
update for client to server communications 2025-06-11 22:01:16 -05:00
rewrite 2025-06-17 20:54:31 -05:00			`use super::{keyboard::KeyboardAggregator, mouse::MouseAggregator,`
			`camera::CameraCapture, microphone::MicrophoneCapture};`
updates 2025-06-08 22:24:14 -05:00
			`pub struct InputAggregator {`
rewrite 2025-06-17 20:54:31 -05:00			`kbd_tx: Sender<KeyboardReport>,`
			`mou_tx: Sender<MouseReport>,`
			`dev_mode: bool,`
many fixes 2025-06-28 15:45:35 -05:00			`released: bool,`
rewrite 2025-06-17 20:54:31 -05:00			`keyboards: Vec<KeyboardAggregator>,`
			`mice: Vec<MouseAggregator>,`
			`camera: Option<CameraCapture>,`
			`mic: Option<MicrophoneCapture>,`
updates 2025-06-08 22:24:14 -05:00			`}`

			`impl InputAggregator {`
rewrite 2025-06-17 20:54:31 -05:00			`pub fn new(dev_mode: bool,`
			`kbd_tx: Sender<KeyboardReport>,`
			`mou_tx: Sender<MouseReport>) -> Self {`
many fixes 2025-06-28 15:45:35 -05:00			`Self { kbd_tx, mou_tx, dev_mode, released: false,`
rewrite 2025-06-17 20:54:31 -05:00			`keyboards: Vec::new(), mice: Vec::new(),`
			`camera: None, mic: None }`
updates 2025-06-08 22:24:14 -05:00			`}`

			`/// Called once at startup: enumerates input devices,`
			`/// classifies them, and constructs a aggregator struct per type.`
			`pub fn init(&mut self) -> Result<()> {`
			`let paths = std::fs::read_dir("/dev/input")`
			`.context("Failed to read /dev/input")?;`

			`let mut found_any = false;`

			`for entry in paths {`
			`let entry = entry?;`
			`let path = entry.path();`

			`// skip anything that isn't "event*"`
unblocked evtest 2025-06-11 00:37:01 -05:00			`if !path.file_name().map_or(false, \|f\| f.to_string_lossy().starts_with("event")) {`
updates 2025-06-08 22:24:14 -05:00			`continue;`
			`}`

			`// attempt open`
			`let mut dev = match Device::open(&path) {`
			`Ok(d) => d,`
			`Err(e) => {`
			`tracing::debug!("Skipping {:?}, open error {e}", path);`
			`continue;`
			`}`
			`};`

many fixes 2025-06-28 15:45:35 -05:00			`// non-blocking so fetch_events never stalls the whole loop`
unblocked evtest 2025-06-11 00:37:01 -05:00			`dev.set_nonblocking(true).with_context(\|\| format!("set_non_blocking {:?}", path))?;`

updates 2025-06-08 22:24:14 -05:00			`match classify_device(&dev) {`
			`DeviceKind::Keyboard => {`
unblocked evtest 2025-06-11 00:37:01 -05:00			`dev.grab().with_context(\|\| format!("grabbing keyboard {path:?}"))?;`
updates 2025-06-08 22:24:14 -05:00			`info!("Grabbed keyboard {:?}", dev.name().unwrap_or("UNKNOWN"));`
unblocked evtest 2025-06-11 00:37:01 -05:00
			`// pass dev_mode to aggregator`
update for client to server communications 2025-06-11 22:01:16 -05:00			`// let kbd_agg = KeyboardAggregator::new(dev, self.dev_mode);`
pre-rewrite 2025-06-17 08:17:23 -05:00			`let kbd_agg = KeyboardAggregator::new(dev, self.dev_mode, self.kbd_tx.clone());`
updates 2025-06-08 22:24:14 -05:00			`self.keyboards.push(kbd_agg);`
			`found_any = true;`
unblocked evtest 2025-06-11 00:37:01 -05:00			`continue;`
updates 2025-06-08 22:24:14 -05:00			`}`
			`DeviceKind::Mouse => {`
unblocked evtest 2025-06-11 00:37:01 -05:00			`dev.grab().with_context(\|\| format!("grabbing mouse {path:?}"))?;`
updates 2025-06-08 22:24:14 -05:00			`info!("Grabbed mouse {:?}", dev.name().unwrap_or("UNKNOWN"));`
unblocked evtest 2025-06-11 00:37:01 -05:00
rewrite 2025-06-17 20:54:31 -05:00			`// let mouse_agg = MouseAggregator::new(dev);`
pre-rewrite 2025-06-17 08:17:23 -05:00			`let mouse_agg = MouseAggregator::new(dev, self.dev_mode, self.mou_tx.clone());`
updates 2025-06-08 22:24:14 -05:00			`self.mice.push(mouse_agg);`
			`found_any = true;`
unblocked evtest 2025-06-11 00:37:01 -05:00			`continue;`
updates 2025-06-08 22:24:14 -05:00			`}`
			`DeviceKind::Other => {`
unblocked evtest 2025-06-11 00:37:01 -05:00			`debug!("Skipping non-kbd/mouse device: {:?}", dev.name().unwrap_or("UNKNOWN"));`
			`continue;`
updates 2025-06-08 22:24:14 -05:00			`}`
			`}`
			`}`

			`if !found_any {`
			`bail!("No suitable keyboard/mouse devices found or none grabbed.");`
			`}`

			`// Stubs for camera / mic:`
			`self.camera = Some(CameraCapture::new_stub());`
			`self.mic = Some(MicrophoneCapture::new_stub());`

			`Ok(())`
			`}`

			`/// We spawn the sub-aggregators in a loop or using separate tasks.`
			`/// (For a real system: you'd spawn a separate task for each aggregator.)`
			`pub async fn run(&mut self) -> Result<()> {`
			`// Example approach: poll each aggregator in a simple loop`
			`let mut tick = interval(Duration::from_millis(10));`
			`loop {`
many fixes 2025-06-28 15:45:35 -05:00			`let mut want_toggle = false;`
			`let mut want_kill = false;`
updates 2025-06-08 22:24:14 -05:00			`for kbd in &mut self.keyboards {`
			`kbd.process_events();`
many fixes 2025-06-28 15:45:35 -05:00			`want_toggle \|= kbd.magic_grab();`
			`want_kill \|= kbd.magic_kill();`
updates 2025-06-08 22:24:14 -05:00			`}`
many fixes 2025-06-28 15:45:35 -05:00
			`if want_toggle { self.toggle_grab(); }`
			`if want_kill {`
			`warn!("🧙 magic chord - killing 🪄 AVADA KEDAVRA!!! 💥💀⚰️");`
			`std::process::exit(0);`
			`}`

updates 2025-06-08 22:24:14 -05:00			`for mouse in &mut self.mice {`
			`mouse.process_events();`
			`}`
			`// camera / mic stubs could go here`
			`tick.tick().await;`
			`}`
			`}`
many fixes 2025-06-28 15:45:35 -05:00
			`fn toggle_grab(&mut self) {`
			`if self.released {`
many fixes 2025-06-28 16:03:19 -05:00			`for k in &mut self.keyboards { k.grab(); }`
			`for m in &mut self.mice { m.grab(); }`
many fixes 2025-06-28 15:45:35 -05:00			`tracing::info!("🧙 magic chord - restricting devices 🪄 IMPERIUS!!! 🎮🔒");`
			`} else {`
many fixes 2025-06-28 16:03:19 -05:00			`for k in &mut self.keyboards { k.ungrab(); }`
			`for m in &mut self.mice { m.ungrab(); }`
many fixes 2025-06-28 15:45:35 -05:00			`tracing::info!("🧙 magic chord - freeing devices 🪄 EXPELLIARMUS!!! 🔓🕊️");`
			`}`
			`self.released = !self.released;`
			`}`
updates 2025-06-08 22:24:14 -05:00			`}`

unblocked evtest 2025-06-11 00:37:01 -05:00			`#[derive(Debug)]`
			`struct Classification {`
			`keyboard: Option<()>,`
			`mouse: Option<()>,`
			`}`

updates 2025-06-08 22:24:14 -05:00			`/// The classification function`
			`fn classify_device(dev: &Device) -> DeviceKind {`
			`let evbits = dev.supported_events();`

unblocked evtest 2025-06-11 00:37:01 -05:00			`// Keyboard logic`
updates 2025-06-08 22:24:14 -05:00			`if evbits.contains(EventType::KEY) {`
			`if let Some(keys) = dev.supported_keys() {`
			`if keys.contains(KeyCode::KEY_A) \|\| keys.contains(KeyCode::KEY_ENTER) {`
			`return DeviceKind::Keyboard;`
			`}`
			`}`
			`}`
unblocked evtest 2025-06-11 00:37:01 -05:00
			`// Mouse logic`
			`if evbits.contains(EventType::RELATIVE) {`
			`if let (Some(rel), Some(keys)) =`
			`(dev.supported_relative_axes(), dev.supported_keys())`
			`{`
			`let has_xy = rel.contains(RelativeAxisCode::REL_X)`
			`&& rel.contains(RelativeAxisCode::REL_Y);`
			`let has_btn = keys.contains(KeyCode::BTN_LEFT)`
			`\|\| keys.contains(KeyCode::BTN_RIGHT);`
			`if has_xy && has_btn {`
updates 2025-06-08 22:24:14 -05:00			`return DeviceKind::Mouse;`
			`}`
			`}`
			`}`

			`DeviceKind::Other`
			`}`

			`/// Internal enum for device classification`
			`#[derive(Debug, Clone, Copy)]`
			`enum DeviceKind {`
			`Keyboard,`
			`Mouse,`
			`Other,`
			`}`