lesavka/testing/tests/client_inputs_contract.rs

//! Integration coverage for client input-device classification helpers.
//!
//! Scope: include the input aggregator source and exercise private device
//! classification against synthetic uinput keyboard/mouse devices.
//! Targets: `client/src/input/inputs.rs`.
//! Why: device classification regressions can silently break all input capture
//! at runtime, so classifier behavior should stay under contract.

mod layout {
    pub use lesavka_client::layout::*;
}

mod keyboard {
    pub use lesavka_client::input::keyboard::*;
}

mod mouse {
    pub use lesavka_client::input::mouse::*;
}

#[allow(warnings)]
mod inputs_contract {
    include!(env!("LESAVKA_CLIENT_INPUTS_SRC"));

    use evdev::AttributeSet;
    use evdev::uinput::VirtualDevice;
    use serial_test::serial;
    use std::thread;
    use temp_env::with_var;

    fn open_virtual_device(vdev: &mut VirtualDevice) -> Option<evdev::Device> {
        for _ in 0..40 {
            if let Ok(mut nodes) = vdev.enumerate_dev_nodes_blocking() {
                if let Some(Ok(path)) = nodes.next() {
                    if let Ok(dev) = evdev::Device::open(path) {
                        let _ = dev.set_nonblocking(true);
                        return Some(dev);
                    }
                }
            }
            thread::sleep(std::time::Duration::from_millis(10));
        }
        None
    }

    fn build_keyboard() -> Option<evdev::Device> {
        let mut keys = AttributeSet::<evdev::KeyCode>::new();
        keys.insert(evdev::KeyCode::KEY_A);
        keys.insert(evdev::KeyCode::KEY_ENTER);

        let mut vdev = VirtualDevice::builder()
            .ok()?
            .name("input-classify-kbd")
            .with_keys(&keys)
            .ok()?
            .build()
            .ok()?;

        open_virtual_device(&mut vdev)
    }

    fn build_mouse() -> Option<evdev::Device> {
        let mut keys = AttributeSet::<evdev::KeyCode>::new();
        keys.insert(evdev::KeyCode::BTN_LEFT);
        let mut rel = AttributeSet::<evdev::RelativeAxisCode>::new();
        rel.insert(evdev::RelativeAxisCode::REL_X);
        rel.insert(evdev::RelativeAxisCode::REL_Y);

        let mut vdev = VirtualDevice::builder()
            .ok()?
            .name("lesavka-input-classify-mouse")
            .with_keys(&keys)
            .ok()?
            .with_relative_axes(&rel)
            .ok()?
            .build()
            .ok()?;

        open_virtual_device(&mut vdev)
    }

    fn build_touch_mouse() -> Option<evdev::Device> {
        let mut keys = AttributeSet::<evdev::KeyCode>::new();
        keys.insert(evdev::KeyCode::BTN_TOUCH);
        let abs = evdev::AbsInfo::new(0, 0, 1024, 0, 0, 0);

        let mut vdev = VirtualDevice::builder()
            .ok()?
            .name("lesavka-input-classify-touch")
            .with_keys(&keys)
            .ok()?
            .with_absolute_axis(&evdev::UinputAbsSetup::new(
                evdev::AbsoluteAxisCode::ABS_MT_POSITION_X,
                abs,
            ))
            .ok()?
            .with_absolute_axis(&evdev::UinputAbsSetup::new(
                evdev::AbsoluteAxisCode::ABS_MT_POSITION_Y,
                abs,
            ))
            .ok()?
            .build()
            .ok()?;

        open_virtual_device(&mut vdev)
    }

    fn build_misc_key_device() -> Option<evdev::Device> {
        let mut keys = AttributeSet::<evdev::KeyCode>::new();
        keys.insert(evdev::KeyCode::KEY_VOLUMEUP);

        let mut vdev = VirtualDevice::builder()
            .ok()?
            .name("lesavka-input-classify-other")
            .with_keys(&keys)
            .ok()?
            .build()
            .ok()?;

        open_virtual_device(&mut vdev)
    }

    fn build_named_keyboard(name: &str) -> Option<evdev::Device> {
        let mut keys = AttributeSet::<evdev::KeyCode>::new();
        keys.insert(evdev::KeyCode::KEY_A);
        keys.insert(evdev::KeyCode::KEY_ENTER);

        let mut vdev = VirtualDevice::builder()
            .ok()?
            .name(name)
            .with_keys(&keys)
            .ok()?
            .build()
            .ok()?;

        open_virtual_device(&mut vdev)
    }

    fn build_keyboard_pair(name: &str) -> Option<(VirtualDevice, evdev::Device)> {
        let mut keys = AttributeSet::<evdev::KeyCode>::new();
        keys.insert(evdev::KeyCode::KEY_A);
        keys.insert(evdev::KeyCode::KEY_ENTER);

        let mut vdev = VirtualDevice::builder()
            .ok()?
            .name(name)
            .with_keys(&keys)
            .ok()?
            .build()
            .ok()?;

        let dev = open_virtual_device(&mut vdev)?;
        Some((vdev, dev))
    }

    fn build_mouse_pair(name: &str) -> Option<(VirtualDevice, evdev::Device)> {
        let mut keys = AttributeSet::<evdev::KeyCode>::new();
        keys.insert(evdev::KeyCode::BTN_LEFT);
        let mut rel = AttributeSet::<evdev::RelativeAxisCode>::new();
        rel.insert(evdev::RelativeAxisCode::REL_X);
        rel.insert(evdev::RelativeAxisCode::REL_Y);

        let mut vdev = VirtualDevice::builder()
            .ok()?
            .name(name)
            .with_keys(&keys)
            .ok()?
            .with_relative_axes(&rel)
            .ok()?
            .build()
            .ok()?;

        let dev = open_virtual_device(&mut vdev)?;
        Some((vdev, dev))
    }

    fn new_aggregator() -> InputAggregator {
        let (kbd_tx, _) = tokio::sync::broadcast::channel(32);
        let (mou_tx, _) = tokio::sync::broadcast::channel(32);
        InputAggregator::new(false, kbd_tx, mou_tx, None)
    }

    #[test]
    #[serial]
    fn classify_device_recognizes_keyboard_and_mouse_capabilities() {
        if let Some(kbd) = build_keyboard() {
            assert!(matches!(classify_device(&kbd), DeviceKind::Keyboard));
        }

        if let Some(mouse) = build_mouse() {
            assert!(matches!(classify_device(&mouse), DeviceKind::Mouse));
        }

        if let Some(touch) = build_touch_mouse() {
            assert!(matches!(classify_device(&touch), DeviceKind::Mouse));
        }

        if let Some(other) = build_misc_key_device() {
            assert!(matches!(classify_device(&other), DeviceKind::Other));
        }
    }

    #[test]
    #[serial]
    fn classify_device_ignores_synthetic_automation_keyboards() {
        if let Some(automation) = build_named_keyboard("Lesavka Automation Input") {
            assert!(matches!(classify_device(&automation), DeviceKind::Other));
        }
        if let Some(persistent) = build_named_keyboard("codex-persistent-kbd") {
            assert!(matches!(classify_device(&persistent), DeviceKind::Other));
        }
    }

    #[test]
    fn toggle_grab_switches_into_local_control_mode() {
        let mut agg = new_aggregator();
        agg.toggle_grab();
        assert!(agg.pending_release);
        assert!(!agg.released);
    }

    #[test]
    fn toggle_grab_switches_back_to_remote_control_when_released() {
        let mut agg = new_aggregator();
        agg.released = true;
        agg.pending_release = false;
        agg.toggle_grab();
        assert!(!agg.released);
        assert!(!agg.pending_release);
    }

    #[test]
    fn toggle_grab_ignores_requests_while_release_is_pending() {
        let mut agg = new_aggregator();
        agg.pending_release = true;
        agg.toggle_grab();
        assert!(agg.pending_release);
        assert!(!agg.released);
    }

    #[test]
    fn toggle_grab_ignores_requests_while_kill_release_is_pending() {
        let mut agg = new_aggregator();
        agg.pending_kill = true;
        agg.toggle_grab();
        assert!(agg.pending_kill);
        assert!(!agg.pending_release);
        assert!(!agg.released);
    }

    #[test]
    #[serial]
    fn capture_pending_keys_collects_current_keyboard_state() {
        let Some((mut vdev, dev)) = build_keyboard_pair("lesavka-input-pending-keys") else {
            return;
        };

        let (kbd_tx, _) = tokio::sync::broadcast::channel(16);
        let (agg_kbd_tx, _) = tokio::sync::broadcast::channel(16);
        let (agg_mou_tx, _) = tokio::sync::broadcast::channel(16);
        let mut keyboard = KeyboardAggregator::new(dev, false, kbd_tx, None);

        vdev.emit(&[evdev::InputEvent::new(
            evdev::EventType::KEY.0,
            evdev::KeyCode::KEY_A.0,
            1,
        )])
        .expect("emit key press");
        thread::sleep(std::time::Duration::from_millis(20));
        keyboard.process_events();

        let mut agg = InputAggregator::new(false, agg_kbd_tx, agg_mou_tx, None);
        agg.keyboards.push(keyboard);
        agg.capture_pending_keys();

        assert!(agg.pending_keys.contains(&evdev::KeyCode::KEY_A));
    }

    #[test]
    #[serial]
    fn init_grabs_virtual_keyboard_and_mouse_when_available() {
        let Some((_kbd_vdev, _kbd_dev)) = build_keyboard_pair("lesavka-input-init-kbd") else {
            return;
        };
        let Some((_mouse_vdev, _mouse_dev)) = build_mouse_pair("lesavka-input-init-mouse") else {
            return;
        };

        let mut agg = new_aggregator();
        let result = agg.init();
        assert!(
            result.is_ok(),
            "init should succeed with virtual input devices"
        );
        assert!(
            !agg.keyboards.is_empty() || !agg.mice.is_empty(),
            "init should discover at least one virtual input device"
        );
    }

    #[tokio::test(flavor = "current_thread")]
    async fn run_returns_once_pending_kill_chord_is_released() {
        let mut agg = new_aggregator();
        agg.pending_kill = true;

        let result = tokio::time::timeout(Duration::from_millis(200), agg.run()).await;
        assert!(
            result.is_ok(),
            "run should resolve instead of looping forever"
        );
        assert!(result.expect("timeout result").is_ok());
        assert!(agg.released);
    }

    #[tokio::test(flavor = "current_thread")]
    async fn run_releases_pending_kill_when_captured_keys_are_not_pressed() {
        let mut agg = new_aggregator();
        agg.pending_kill = true;
        agg.pending_keys.insert(evdev::KeyCode::KEY_A);

        let result = tokio::time::timeout(Duration::from_millis(200), agg.run()).await;
        assert!(
            result.is_ok(),
            "run should resolve when pending keys are released"
        );
        assert!(result.expect("timeout result").is_ok());
        assert!(agg.released);
    }

    #[test]
    #[serial]
    fn toggle_grab_updates_attached_keyboard_and_mouse_modes() {
        let Some((_kbd_vdev, kbd_dev)) = build_keyboard_pair("lesavka-input-toggle-kbd") else {
            return;
        };
        let Some((_mouse_vdev, mouse_dev)) = build_mouse_pair("lesavka-input-toggle-mouse") else {
            return;
        };

        let (kbd_tx, _) = tokio::sync::broadcast::channel(16);
        let (mou_tx, _) = tokio::sync::broadcast::channel(16);

        let keyboard = KeyboardAggregator::new(kbd_dev, false, kbd_tx.clone(), None);
        let mouse = MouseAggregator::new(mouse_dev, false, mou_tx.clone());

        let mut agg = InputAggregator::new(false, kbd_tx, mou_tx, None);
        agg.keyboards.push(keyboard);
        agg.mice.push(mouse);

        agg.toggle_grab();
        assert!(
            agg.pending_release,
            "toggle should enter pending-release mode"
        );
        assert!(!agg.released);

        agg.released = true;
        agg.pending_release = false;
        agg.toggle_grab();
        assert!(
            !agg.pending_release,
            "remote-control toggle clears pending-release"
        );
        assert!(!agg.released, "remote-control toggle restores grabbed mode");
    }

    #[tokio::test(flavor = "current_thread")]
    #[serial]
    async fn run_pending_release_branch_resets_attached_devices() {
        let Some((_kbd_vdev, kbd_dev)) = build_keyboard_pair("lesavka-input-run-release-kbd")
        else {
            return;
        };
        let Some((_mouse_vdev, mouse_dev)) = build_mouse_pair("lesavka-input-run-release-mouse")
        else {
            return;
        };

        let (kbd_tx, _) = tokio::sync::broadcast::channel(16);
        let (mou_tx, _) = tokio::sync::broadcast::channel(16);
        let keyboard = KeyboardAggregator::new(kbd_dev, false, kbd_tx.clone(), None);
        let mouse = MouseAggregator::new(mouse_dev, false, mou_tx.clone());

        let mut agg = InputAggregator::new(false, kbd_tx, mou_tx, None);
        agg.keyboards.push(keyboard);
        agg.mice.push(mouse);
        agg.pending_release = true;

        let result = tokio::time::timeout(Duration::from_millis(120), agg.run()).await;
        assert!(
            result.is_err(),
            "run should continue looping after release handling"
        );
        assert!(
            agg.released,
            "pending-release flow should mark local control as released"
        );
        assert!(
            !agg.pending_release,
            "pending-release flow should clear pending flag"
        );
    }

    #[test]
    fn quick_toggle_key_parser_handles_supported_aliases_and_disable_switch() {
        assert_eq!(
            parse_quick_toggle_key("scrolllock"),
            Some(evdev::KeyCode::KEY_SCROLLLOCK)
        );
        assert_eq!(
            parse_quick_toggle_key("pause"),
            Some(evdev::KeyCode::KEY_PAUSE)
        );
        assert_eq!(
            parse_quick_toggle_key("sysrq"),
            Some(evdev::KeyCode::KEY_SYSRQ)
        );
        assert_eq!(parse_quick_toggle_key("f12"), Some(evdev::KeyCode::KEY_F12));
        assert_eq!(parse_quick_toggle_key("off"), None);
        assert_eq!(parse_quick_toggle_key("none"), None);
        assert_eq!(
            parse_quick_toggle_key("definitely-unknown"),
            Some(evdev::KeyCode::KEY_PAUSE)
        );
    }

    #[test]
    #[serial]
    fn quick_toggle_key_env_defaults_and_respects_explicit_disable() {
        with_var("LESAVKA_INPUT_TOGGLE_KEY", None::<&str>, || {
            assert_eq!(quick_toggle_key_from_env(), Some(evdev::KeyCode::KEY_PAUSE));
        });
        with_var("LESAVKA_INPUT_TOGGLE_KEY", Some("off"), || {
            assert_eq!(quick_toggle_key_from_env(), None);
        });
        with_var("LESAVKA_INPUT_TOGGLE_KEY", Some("f11"), || {
            assert_eq!(quick_toggle_key_from_env(), Some(evdev::KeyCode::KEY_F11));
        });
    }

    #[test]
    #[serial]
    fn quick_toggle_debounce_env_uses_defaults_and_applies_safety_floor() {
        with_var("LESAVKA_INPUT_TOGGLE_DEBOUNCE_MS", None::<&str>, || {
            assert_eq!(quick_toggle_debounce_from_env(), Duration::from_millis(350));
        });
        with_var("LESAVKA_INPUT_TOGGLE_DEBOUNCE_MS", Some("20"), || {
            assert_eq!(quick_toggle_debounce_from_env(), Duration::from_millis(50));
        });
        with_var("LESAVKA_INPUT_TOGGLE_DEBOUNCE_MS", Some("900"), || {
            assert_eq!(quick_toggle_debounce_from_env(), Duration::from_millis(900));
        });
    }

    #[test]
    #[serial]
    fn remote_failsafe_timeout_env_uses_default_and_allows_disable() {
        with_var("LESAVKA_INPUT_REMOTE_FAILSAFE_MS", None::<&str>, || {
            assert_eq!(
                remote_failsafe_timeout_from_env(),
                Duration::from_millis(5_000)
            );
        });
        with_var("LESAVKA_INPUT_REMOTE_FAILSAFE_MS", Some("0"), || {
            assert_eq!(remote_failsafe_timeout_from_env(), Duration::from_millis(0));
        });
        with_var("LESAVKA_INPUT_REMOTE_FAILSAFE_MS", Some("1500"), || {
            assert_eq!(
                remote_failsafe_timeout_from_env(),
                Duration::from_millis(1_500)
            );
        });
    }

    #[test]
    fn enable_remote_capture_arms_failsafe_and_local_release_clears_it() {
        let mut agg = new_aggregator();
        agg.released = true;
        agg.pending_release = false;
        agg.remote_failsafe_timeout = Duration::from_millis(5_000);

        agg.enable_remote_capture();
        assert!(
            agg.remote_failsafe_started_at.is_some(),
            "remote capture should arm the temporary failsafe window"
        );

        agg.begin_local_release();
        assert!(
            agg.remote_failsafe_started_at.is_none(),
            "returning control locally should clear the failsafe timer"
        );
    }

    #[tokio::test(flavor = "current_thread")]
    async fn run_remote_failsafe_returns_control_to_local_machine() {
        let mut agg = new_aggregator();
        agg.remote_failsafe_timeout = Duration::from_millis(1);
        agg.remote_failsafe_started_at =
            Some(std::time::Instant::now() - Duration::from_millis(10));

        let result = tokio::time::timeout(Duration::from_millis(120), agg.run()).await;
        assert!(
            result.is_err(),
            "run should keep looping after the failsafe returns control locally"
        );
        assert!(
            agg.released,
            "failsafe expiry should release devices back to the local machine"
        );
        assert!(
            !agg.pending_release,
            "failsafe expiry should complete the local-release handoff"
        );
        assert!(
            agg.remote_failsafe_started_at.is_none(),
            "failsafe timer should clear once local control is restored"
        );
    }

    #[test]
    fn observe_quick_toggle_uses_rising_edge_to_avoid_repeat_toggling() {
        let mut agg = new_aggregator();
        agg.quick_toggle_debounce = Duration::from_millis(0);

        agg.observe_quick_toggle(true);
        assert!(
            agg.pending_release,
            "first quick-toggle should switch from remote to local pending-release mode"
        );
        assert!(!agg.released);

        agg.observe_quick_toggle(true);
        assert!(
            agg.pending_release,
            "holding the quick-toggle key should not retrigger mode switching"
        );

        agg.released = true;
        agg.pending_release = false;
        agg.observe_quick_toggle(false);
        agg.observe_quick_toggle(true);
        assert!(
            !agg.released,
            "second rising edge should return to remote mode"
        );
        assert!(
            !agg.pending_release,
            "remote-mode transition should clear pending release state"
        );
    }

    #[test]
    fn observe_quick_toggle_honors_debounce_window() {
        let mut agg = new_aggregator();
        agg.quick_toggle_debounce = Duration::from_secs(60);

        agg.released = true;
        agg.pending_release = false;
        agg.observe_quick_toggle(true);
        assert!(!agg.released, "first edge should switch to remote");

        agg.released = true;
        agg.pending_release = false;
        agg.observe_quick_toggle(false);
        agg.observe_quick_toggle(true);
        assert!(
            agg.released,
            "second edge inside debounce window should be ignored"
        );
    }
}
testing: add input classifier and mouse uinput contracts 2026-04-12 19:47:26 -03:00			`//! Integration coverage for client input-device classification helpers.`
			`//!`
			`//! Scope: include the input aggregator source and exercise private device`
			`//! classification against synthetic uinput keyboard/mouse devices.`
			//! Targets: `client/src/input/inputs.rs`.
			`//! Why: device classification regressions can silently break all input capture`
			`//! at runtime, so classifier behavior should stay under contract.`

			`mod layout {`
			`pub use lesavka_client::layout::*;`
			`}`

			`mod keyboard {`
			`pub use lesavka_client::input::keyboard::*;`
			`}`

			`mod mouse {`
			`pub use lesavka_client::input::mouse::*;`
			`}`

			`#[allow(warnings)]`
			`mod inputs_contract {`
			`include!(env!("LESAVKA_CLIENT_INPUTS_SRC"));`

			`use evdev::AttributeSet;`
			`use evdev::uinput::VirtualDevice;`
			`use serial_test::serial;`
			`use std::thread;`
launcher: add live pop-out/input toggles and quick handoff 2026-04-14 04:02:39 -03:00			`use temp_env::with_var;`
testing: add input classifier and mouse uinput contracts 2026-04-12 19:47:26 -03:00
			`fn open_virtual_device(vdev: &mut VirtualDevice) -> Option<evdev::Device> {`
			`for _ in 0..40 {`
			`if let Ok(mut nodes) = vdev.enumerate_dev_nodes_blocking() {`
			`if let Some(Ok(path)) = nodes.next() {`
			`if let Ok(dev) = evdev::Device::open(path) {`
			`let _ = dev.set_nonblocking(true);`
			`return Some(dev);`
			`}`
			`}`
			`}`
			`thread::sleep(std::time::Duration::from_millis(10));`
			`}`
			`None`
			`}`

			`fn build_keyboard() -> Option<evdev::Device> {`
			`let mut keys = AttributeSet::<evdev::KeyCode>::new();`
			`keys.insert(evdev::KeyCode::KEY_A);`
			`keys.insert(evdev::KeyCode::KEY_ENTER);`

			`let mut vdev = VirtualDevice::builder()`
			`.ok()?`
lesavka: merge live keyboard state across devices 2026-04-16 15:07:25 -03:00			`.name("input-classify-kbd")`
testing: add input classifier and mouse uinput contracts 2026-04-12 19:47:26 -03:00			`.with_keys(&keys)`
			`.ok()?`
			`.build()`
			`.ok()?;`

			`open_virtual_device(&mut vdev)`
			`}`

			`fn build_mouse() -> Option<evdev::Device> {`
			`let mut keys = AttributeSet::<evdev::KeyCode>::new();`
			`keys.insert(evdev::KeyCode::BTN_LEFT);`
			`let mut rel = AttributeSet::<evdev::RelativeAxisCode>::new();`
			`rel.insert(evdev::RelativeAxisCode::REL_X);`
			`rel.insert(evdev::RelativeAxisCode::REL_Y);`

			`let mut vdev = VirtualDevice::builder()`
			`.ok()?`
			`.name("lesavka-input-classify-mouse")`
			`.with_keys(&keys)`
			`.ok()?`
			`.with_relative_axes(&rel)`
			`.ok()?`
			`.build()`
			`.ok()?;`

			`open_virtual_device(&mut vdev)`
			`}`

testing: broaden input aggregator state and classifier contracts 2026-04-12 21:18:17 -03:00			`fn build_touch_mouse() -> Option<evdev::Device> {`
			`let mut keys = AttributeSet::<evdev::KeyCode>::new();`
			`keys.insert(evdev::KeyCode::BTN_TOUCH);`
			`let abs = evdev::AbsInfo::new(0, 0, 1024, 0, 0, 0);`

			`let mut vdev = VirtualDevice::builder()`
			`.ok()?`
			`.name("lesavka-input-classify-touch")`
			`.with_keys(&keys)`
			`.ok()?`
			`.with_absolute_axis(&evdev::UinputAbsSetup::new(`
			`evdev::AbsoluteAxisCode::ABS_MT_POSITION_X,`
			`abs,`
			`))`
			`.ok()?`
			`.with_absolute_axis(&evdev::UinputAbsSetup::new(`
			`evdev::AbsoluteAxisCode::ABS_MT_POSITION_Y,`
			`abs,`
			`))`
			`.ok()?`
			`.build()`
			`.ok()?;`

			`open_virtual_device(&mut vdev)`
			`}`

			`fn build_misc_key_device() -> Option<evdev::Device> {`
			`let mut keys = AttributeSet::<evdev::KeyCode>::new();`
			`keys.insert(evdev::KeyCode::KEY_VOLUMEUP);`

			`let mut vdev = VirtualDevice::builder()`
			`.ok()?`
			`.name("lesavka-input-classify-other")`
			`.with_keys(&keys)`
			`.ok()?`
			`.build()`
			`.ok()?;`

			`open_virtual_device(&mut vdev)`
			`}`

lesavka: merge live keyboard state across devices 2026-04-16 15:07:25 -03:00			`fn build_named_keyboard(name: &str) -> Option<evdev::Device> {`
			`let mut keys = AttributeSet::<evdev::KeyCode>::new();`
			`keys.insert(evdev::KeyCode::KEY_A);`
			`keys.insert(evdev::KeyCode::KEY_ENTER);`

			`let mut vdev = VirtualDevice::builder()`
			`.ok()?`
			`.name(name)`
			`.with_keys(&keys)`
			`.ok()?`
			`.build()`
			`.ok()?;`

			`open_virtual_device(&mut vdev)`
			`}`

testing: broaden input aggregator state and classifier contracts 2026-04-12 21:18:17 -03:00			`fn build_keyboard_pair(name: &str) -> Option<(VirtualDevice, evdev::Device)> {`
			`let mut keys = AttributeSet::<evdev::KeyCode>::new();`
			`keys.insert(evdev::KeyCode::KEY_A);`
			`keys.insert(evdev::KeyCode::KEY_ENTER);`

			`let mut vdev = VirtualDevice::builder()`
			`.ok()?`
			`.name(name)`
			`.with_keys(&keys)`
			`.ok()?`
			`.build()`
			`.ok()?;`

			`let dev = open_virtual_device(&mut vdev)?;`
			`Some((vdev, dev))`
			`}`

test(gate): reach 95 percent per-file coverage 2026-04-13 02:52:32 -03:00			`fn build_mouse_pair(name: &str) -> Option<(VirtualDevice, evdev::Device)> {`
			`let mut keys = AttributeSet::<evdev::KeyCode>::new();`
			`keys.insert(evdev::KeyCode::BTN_LEFT);`
			`let mut rel = AttributeSet::<evdev::RelativeAxisCode>::new();`
			`rel.insert(evdev::RelativeAxisCode::REL_X);`
			`rel.insert(evdev::RelativeAxisCode::REL_Y);`

			`let mut vdev = VirtualDevice::builder()`
			`.ok()?`
			`.name(name)`
			`.with_keys(&keys)`
			`.ok()?`
			`.with_relative_axes(&rel)`
			`.ok()?`
			`.build()`
			`.ok()?;`

			`let dev = open_virtual_device(&mut vdev)?;`
			`Some((vdev, dev))`
			`}`

testing: expand input aggregator state-machine contracts 2026-04-12 20:08:45 -03:00			`fn new_aggregator() -> InputAggregator {`
			`let (kbd_tx, _) = tokio::sync::broadcast::channel(32);`
			`let (mou_tx, _) = tokio::sync::broadcast::channel(32);`
			`InputAggregator::new(false, kbd_tx, mou_tx, None)`
			`}`

testing: add input classifier and mouse uinput contracts 2026-04-12 19:47:26 -03:00			`#[test]`
			`#[serial]`
			`fn classify_device_recognizes_keyboard_and_mouse_capabilities() {`
			`if let Some(kbd) = build_keyboard() {`
			`assert!(matches!(classify_device(&kbd), DeviceKind::Keyboard));`
			`}`

			`if let Some(mouse) = build_mouse() {`
			`assert!(matches!(classify_device(&mouse), DeviceKind::Mouse));`
			`}`
testing: broaden input aggregator state and classifier contracts 2026-04-12 21:18:17 -03:00
			`if let Some(touch) = build_touch_mouse() {`
			`assert!(matches!(classify_device(&touch), DeviceKind::Mouse));`
			`}`

			`if let Some(other) = build_misc_key_device() {`
			`assert!(matches!(classify_device(&other), DeviceKind::Other));`
			`}`
testing: add input classifier and mouse uinput contracts 2026-04-12 19:47:26 -03:00			`}`
testing: expand input aggregator state-machine contracts 2026-04-12 20:08:45 -03:00
lesavka: merge live keyboard state across devices 2026-04-16 15:07:25 -03:00			`#[test]`
			`#[serial]`
			`fn classify_device_ignores_synthetic_automation_keyboards() {`
			`if let Some(automation) = build_named_keyboard("Lesavka Automation Input") {`
			`assert!(matches!(classify_device(&automation), DeviceKind::Other));`
			`}`
			`if let Some(persistent) = build_named_keyboard("codex-persistent-kbd") {`
			`assert!(matches!(classify_device(&persistent), DeviceKind::Other));`
			`}`
			`}`

testing: expand input aggregator state-machine contracts 2026-04-12 20:08:45 -03:00			`#[test]`
			`fn toggle_grab_switches_into_local_control_mode() {`
			`let mut agg = new_aggregator();`
			`agg.toggle_grab();`
			`assert!(agg.pending_release);`
			`assert!(!agg.released);`
			`}`

			`#[test]`
			`fn toggle_grab_switches_back_to_remote_control_when_released() {`
			`let mut agg = new_aggregator();`
			`agg.released = true;`
			`agg.pending_release = false;`
			`agg.toggle_grab();`
			`assert!(!agg.released);`
			`assert!(!agg.pending_release);`
			`}`

			`#[test]`
			`fn toggle_grab_ignores_requests_while_release_is_pending() {`
			`let mut agg = new_aggregator();`
			`agg.pending_release = true;`
			`agg.toggle_grab();`
			`assert!(agg.pending_release);`
			`assert!(!agg.released);`
			`}`

testing: broaden input aggregator state and classifier contracts 2026-04-12 21:18:17 -03:00			`#[test]`
			`fn toggle_grab_ignores_requests_while_kill_release_is_pending() {`
			`let mut agg = new_aggregator();`
			`agg.pending_kill = true;`
			`agg.toggle_grab();`
			`assert!(agg.pending_kill);`
			`assert!(!agg.pending_release);`
			`assert!(!agg.released);`
			`}`

			`#[test]`
			`#[serial]`
			`fn capture_pending_keys_collects_current_keyboard_state() {`
			`let Some((mut vdev, dev)) = build_keyboard_pair("lesavka-input-pending-keys") else {`
			`return;`
			`};`

			`let (kbd_tx, _) = tokio::sync::broadcast::channel(16);`
			`let (agg_kbd_tx, _) = tokio::sync::broadcast::channel(16);`
			`let (agg_mou_tx, _) = tokio::sync::broadcast::channel(16);`
			`let mut keyboard = KeyboardAggregator::new(dev, false, kbd_tx, None);`

			`vdev.emit(&[evdev::InputEvent::new(`
			`evdev::EventType::KEY.0,`
			`evdev::KeyCode::KEY_A.0,`
			`1,`
			`)])`
			`.expect("emit key press");`
			`thread::sleep(std::time::Duration::from_millis(20));`
			`keyboard.process_events();`

			`let mut agg = InputAggregator::new(false, agg_kbd_tx, agg_mou_tx, None);`
			`agg.keyboards.push(keyboard);`
			`agg.capture_pending_keys();`

			`assert!(agg.pending_keys.contains(&evdev::KeyCode::KEY_A));`
			`}`

test(gate): reach 95 percent per-file coverage 2026-04-13 02:52:32 -03:00			`#[test]`
			`#[serial]`
			`fn init_grabs_virtual_keyboard_and_mouse_when_available() {`
			`let Some((_kbd_vdev, _kbd_dev)) = build_keyboard_pair("lesavka-input-init-kbd") else {`
			`return;`
			`};`
			`let Some((_mouse_vdev, _mouse_dev)) = build_mouse_pair("lesavka-input-init-mouse") else {`
			`return;`
			`};`

			`let mut agg = new_aggregator();`
			`let result = agg.init();`
launcher: add live pop-out/input toggles and quick handoff 2026-04-14 04:02:39 -03:00			`assert!(`
			`result.is_ok(),`
			`"init should succeed with virtual input devices"`
			`);`
test(gate): reach 95 percent per-file coverage 2026-04-13 02:52:32 -03:00			`assert!(`
			`!agg.keyboards.is_empty() \|\| !agg.mice.is_empty(),`
			`"init should discover at least one virtual input device"`
			`);`
			`}`

testing: expand input aggregator state-machine contracts 2026-04-12 20:08:45 -03:00			`#[tokio::test(flavor = "current_thread")]`
			`async fn run_returns_once_pending_kill_chord_is_released() {`
			`let mut agg = new_aggregator();`
			`agg.pending_kill = true;`

			`let result = tokio::time::timeout(Duration::from_millis(200), agg.run()).await;`
launcher: add live pop-out/input toggles and quick handoff 2026-04-14 04:02:39 -03:00			`assert!(`
			`result.is_ok(),`
			`"run should resolve instead of looping forever"`
			`);`
testing: expand input aggregator state-machine contracts 2026-04-12 20:08:45 -03:00			`assert!(result.expect("timeout result").is_ok());`
			`assert!(agg.released);`
			`}`
test(gate): reach 95 percent per-file coverage 2026-04-13 02:52:32 -03:00
			`#[tokio::test(flavor = "current_thread")]`
			`async fn run_releases_pending_kill_when_captured_keys_are_not_pressed() {`
			`let mut agg = new_aggregator();`
			`agg.pending_kill = true;`
			`agg.pending_keys.insert(evdev::KeyCode::KEY_A);`

			`let result = tokio::time::timeout(Duration::from_millis(200), agg.run()).await;`
launcher: add live pop-out/input toggles and quick handoff 2026-04-14 04:02:39 -03:00			`assert!(`
			`result.is_ok(),`
			`"run should resolve when pending keys are released"`
			`);`
test(gate): reach 95 percent per-file coverage 2026-04-13 02:52:32 -03:00			`assert!(result.expect("timeout result").is_ok());`
			`assert!(agg.released);`
			`}`

			`#[test]`
			`#[serial]`
			`fn toggle_grab_updates_attached_keyboard_and_mouse_modes() {`
			`let Some((_kbd_vdev, kbd_dev)) = build_keyboard_pair("lesavka-input-toggle-kbd") else {`
			`return;`
			`};`
			`let Some((_mouse_vdev, mouse_dev)) = build_mouse_pair("lesavka-input-toggle-mouse") else {`
			`return;`
			`};`

			`let (kbd_tx, _) = tokio::sync::broadcast::channel(16);`
			`let (mou_tx, _) = tokio::sync::broadcast::channel(16);`

			`let keyboard = KeyboardAggregator::new(kbd_dev, false, kbd_tx.clone(), None);`
			`let mouse = MouseAggregator::new(mouse_dev, false, mou_tx.clone());`

			`let mut agg = InputAggregator::new(false, kbd_tx, mou_tx, None);`
			`agg.keyboards.push(keyboard);`
			`agg.mice.push(mouse);`

			`agg.toggle_grab();`
launcher: add live pop-out/input toggles and quick handoff 2026-04-14 04:02:39 -03:00			`assert!(`
			`agg.pending_release,`
			`"toggle should enter pending-release mode"`
			`);`
test(gate): reach 95 percent per-file coverage 2026-04-13 02:52:32 -03:00			`assert!(!agg.released);`

			`agg.released = true;`
			`agg.pending_release = false;`
			`agg.toggle_grab();`
launcher: add live pop-out/input toggles and quick handoff 2026-04-14 04:02:39 -03:00			`assert!(`
			`!agg.pending_release,`
			`"remote-control toggle clears pending-release"`
			`);`
test(gate): reach 95 percent per-file coverage 2026-04-13 02:52:32 -03:00			`assert!(!agg.released, "remote-control toggle restores grabbed mode");`
			`}`

			`#[tokio::test(flavor = "current_thread")]`
			`#[serial]`
			`async fn run_pending_release_branch_resets_attached_devices() {`
launcher: add live pop-out/input toggles and quick handoff 2026-04-14 04:02:39 -03:00			`let Some((_kbd_vdev, kbd_dev)) = build_keyboard_pair("lesavka-input-run-release-kbd")`
			`else {`
test(gate): reach 95 percent per-file coverage 2026-04-13 02:52:32 -03:00			`return;`
			`};`
			`let Some((_mouse_vdev, mouse_dev)) = build_mouse_pair("lesavka-input-run-release-mouse")`
			`else {`
			`return;`
			`};`

			`let (kbd_tx, _) = tokio::sync::broadcast::channel(16);`
			`let (mou_tx, _) = tokio::sync::broadcast::channel(16);`
			`let keyboard = KeyboardAggregator::new(kbd_dev, false, kbd_tx.clone(), None);`
			`let mouse = MouseAggregator::new(mouse_dev, false, mou_tx.clone());`

			`let mut agg = InputAggregator::new(false, kbd_tx, mou_tx, None);`
			`agg.keyboards.push(keyboard);`
			`agg.mice.push(mouse);`
			`agg.pending_release = true;`

			`let result = tokio::time::timeout(Duration::from_millis(120), agg.run()).await;`
launcher: add live pop-out/input toggles and quick handoff 2026-04-14 04:02:39 -03:00			`assert!(`
			`result.is_err(),`
			`"run should continue looping after release handling"`
			`);`
			`assert!(`
			`agg.released,`
			`"pending-release flow should mark local control as released"`
			`);`
			`assert!(`
			`!agg.pending_release,`
			`"pending-release flow should clear pending flag"`
			`);`
			`}`

			`#[test]`
			`fn quick_toggle_key_parser_handles_supported_aliases_and_disable_switch() {`
			`assert_eq!(`
			`parse_quick_toggle_key("scrolllock"),`
			`Some(evdev::KeyCode::KEY_SCROLLLOCK)`
			`);`
			`assert_eq!(`
			`parse_quick_toggle_key("pause"),`
			`Some(evdev::KeyCode::KEY_PAUSE)`
			`);`
launcher: add pause swap key and clipboard relay controls 2026-04-14 13:09:25 -03:00			`assert_eq!(`
			`parse_quick_toggle_key("sysrq"),`
			`Some(evdev::KeyCode::KEY_SYSRQ)`
			`);`
launcher: add live pop-out/input toggles and quick handoff 2026-04-14 04:02:39 -03:00			`assert_eq!(parse_quick_toggle_key("f12"), Some(evdev::KeyCode::KEY_F12));`
			`assert_eq!(parse_quick_toggle_key("off"), None);`
			`assert_eq!(parse_quick_toggle_key("none"), None);`
			`assert_eq!(`
			`parse_quick_toggle_key("definitely-unknown"),`
launcher: add pause swap key and clipboard relay controls 2026-04-14 13:09:25 -03:00			`Some(evdev::KeyCode::KEY_PAUSE)`
launcher: add live pop-out/input toggles and quick handoff 2026-04-14 04:02:39 -03:00			`);`
			`}`

			`#[test]`
			`#[serial]`
			`fn quick_toggle_key_env_defaults_and_respects_explicit_disable() {`
			`with_var("LESAVKA_INPUT_TOGGLE_KEY", None::<&str>, \|\| {`
launcher: add pause swap key and clipboard relay controls 2026-04-14 13:09:25 -03:00			`assert_eq!(quick_toggle_key_from_env(), Some(evdev::KeyCode::KEY_PAUSE));`
launcher: add live pop-out/input toggles and quick handoff 2026-04-14 04:02:39 -03:00			`});`
			`with_var("LESAVKA_INPUT_TOGGLE_KEY", Some("off"), \|\| {`
			`assert_eq!(quick_toggle_key_from_env(), None);`
			`});`
			`with_var("LESAVKA_INPUT_TOGGLE_KEY", Some("f11"), \|\| {`
			`assert_eq!(quick_toggle_key_from_env(), Some(evdev::KeyCode::KEY_F11));`
			`});`
			`}`

			`#[test]`
			`#[serial]`
			`fn quick_toggle_debounce_env_uses_defaults_and_applies_safety_floor() {`
			`with_var("LESAVKA_INPUT_TOGGLE_DEBOUNCE_MS", None::<&str>, \|\| {`
launcher: add pause swap key and clipboard relay controls 2026-04-14 13:09:25 -03:00			`assert_eq!(quick_toggle_debounce_from_env(), Duration::from_millis(350));`
launcher: add live pop-out/input toggles and quick handoff 2026-04-14 04:02:39 -03:00			`});`
			`with_var("LESAVKA_INPUT_TOGGLE_DEBOUNCE_MS", Some("20"), \|\| {`
			`assert_eq!(quick_toggle_debounce_from_env(), Duration::from_millis(50));`
			`});`
			`with_var("LESAVKA_INPUT_TOGGLE_DEBOUNCE_MS", Some("900"), \|\| {`
launcher: add pause swap key and clipboard relay controls 2026-04-14 13:09:25 -03:00			`assert_eq!(quick_toggle_debounce_from_env(), Duration::from_millis(900));`
launcher: add live pop-out/input toggles and quick handoff 2026-04-14 04:02:39 -03:00			`});`
			`}`

fix(relay): harden swap safety and camera startup 2026-04-20 21:11:33 -03:00			`#[test]`
			`#[serial]`
			`fn remote_failsafe_timeout_env_uses_default_and_allows_disable() {`
			`with_var("LESAVKA_INPUT_REMOTE_FAILSAFE_MS", None::<&str>, \|\| {`
			`assert_eq!(`
			`remote_failsafe_timeout_from_env(),`
			`Duration::from_millis(5_000)`
			`);`
			`});`
			`with_var("LESAVKA_INPUT_REMOTE_FAILSAFE_MS", Some("0"), \|\| {`
			`assert_eq!(remote_failsafe_timeout_from_env(), Duration::from_millis(0));`
			`});`
			`with_var("LESAVKA_INPUT_REMOTE_FAILSAFE_MS", Some("1500"), \|\| {`
			`assert_eq!(`
			`remote_failsafe_timeout_from_env(),`
			`Duration::from_millis(1_500)`
			`);`
			`});`
			`}`

			`#[test]`
			`fn enable_remote_capture_arms_failsafe_and_local_release_clears_it() {`
			`let mut agg = new_aggregator();`
			`agg.released = true;`
			`agg.pending_release = false;`
			`agg.remote_failsafe_timeout = Duration::from_millis(5_000);`

			`agg.enable_remote_capture();`
			`assert!(`
			`agg.remote_failsafe_started_at.is_some(),`
			`"remote capture should arm the temporary failsafe window"`
			`);`

			`agg.begin_local_release();`
			`assert!(`
			`agg.remote_failsafe_started_at.is_none(),`
			`"returning control locally should clear the failsafe timer"`
			`);`
			`}`

			`#[tokio::test(flavor = "current_thread")]`
			`async fn run_remote_failsafe_returns_control_to_local_machine() {`
			`let mut agg = new_aggregator();`
			`agg.remote_failsafe_timeout = Duration::from_millis(1);`
			`agg.remote_failsafe_started_at =`
			`Some(std::time::Instant::now() - Duration::from_millis(10));`

			`let result = tokio::time::timeout(Duration::from_millis(120), agg.run()).await;`
			`assert!(`
			`result.is_err(),`
			`"run should keep looping after the failsafe returns control locally"`
			`);`
			`assert!(`
			`agg.released,`
			`"failsafe expiry should release devices back to the local machine"`
			`);`
			`assert!(`
			`!agg.pending_release,`
			`"failsafe expiry should complete the local-release handoff"`
			`);`
			`assert!(`
			`agg.remote_failsafe_started_at.is_none(),`
			`"failsafe timer should clear once local control is restored"`
			`);`
			`}`

launcher: add live pop-out/input toggles and quick handoff 2026-04-14 04:02:39 -03:00			`#[test]`
			`fn observe_quick_toggle_uses_rising_edge_to_avoid_repeat_toggling() {`
			`let mut agg = new_aggregator();`
			`agg.quick_toggle_debounce = Duration::from_millis(0);`

			`agg.observe_quick_toggle(true);`
			`assert!(`
			`agg.pending_release,`
			`"first quick-toggle should switch from remote to local pending-release mode"`
			`);`
			`assert!(!agg.released);`

			`agg.observe_quick_toggle(true);`
			`assert!(`
			`agg.pending_release,`
			`"holding the quick-toggle key should not retrigger mode switching"`
			`);`

			`agg.released = true;`
			`agg.pending_release = false;`
			`agg.observe_quick_toggle(false);`
			`agg.observe_quick_toggle(true);`
			`assert!(`
			`!agg.released,`
			`"second rising edge should return to remote mode"`
			`);`
			`assert!(`
			`!agg.pending_release,`
			`"remote-mode transition should clear pending release state"`
			`);`
			`}`

			`#[test]`
			`fn observe_quick_toggle_honors_debounce_window() {`
			`let mut agg = new_aggregator();`
			`agg.quick_toggle_debounce = Duration::from_secs(60);`

			`agg.released = true;`
			`agg.pending_release = false;`
			`agg.observe_quick_toggle(true);`
			`assert!(!agg.released, "first edge should switch to remote");`

			`agg.released = true;`
			`agg.pending_release = false;`
			`agg.observe_quick_toggle(false);`
			`agg.observe_quick_toggle(true);`
			`assert!(`
			`agg.released,`
			`"second edge inside debounce window should be ignored"`
			`);`
test(gate): reach 95 percent per-file coverage 2026-04-13 02:52:32 -03:00			`}`
testing: add input classifier and mouse uinput contracts 2026-04-12 19:47:26 -03:00			`}`