lesavka/client/src/launcher/ui/utility_button_bindings.rs

{
    fn default_client_pki_dir() -> PathBuf {
        if let Some(home) = std::env::var_os("HOME") {
            return PathBuf::from(home).join(".config/lesavka/pki");
        }
        std::env::current_dir()
            .unwrap_or_else(|_| PathBuf::from("."))
            .join(".config/lesavka/pki")
    }

    fn install_client_pki_bundle(bundle: &Path) -> Result<PathBuf, String> {
        let target = default_client_pki_dir();
        let scratch = std::env::temp_dir().join(format!(
            "lesavka-client-pki-{}",
            SystemTime::now()
                .duration_since(UNIX_EPOCH)
                .unwrap_or_default()
                .as_millis()
        ));
        std::fs::create_dir_all(&scratch)
            .map_err(|err| format!("could not create extraction folder: {err}"))?;
        let extract = Command::new("tar")
            .arg("-xzf")
            .arg(bundle)
            .arg("-C")
            .arg(&scratch)
            .status()
            .map_err(|err| format!("tar is unavailable: {err}"))?;
        if !extract.success() {
            let _ = std::fs::remove_dir_all(&scratch);
            return Err(format!("could not extract {}", bundle.display()));
        }
        for item in ["ca.crt", "client.crt", "client.key"] {
            if !scratch.join(item).is_file() {
                let _ = std::fs::remove_dir_all(&scratch);
                return Err(format!("bundle is missing {item}"));
            }
        }
        std::fs::create_dir_all(&target)
            .map_err(|err| format!("could not create {}: {err}", target.display()))?;
        for item in ["ca.crt", "client.crt", "client.key"] {
            std::fs::copy(scratch.join(item), target.join(item))
                .map_err(|err| format!("could not install {item}: {err}"))?;
        }
        tighten_client_key_permissions(&target.join("client.key"));
        let _ = std::fs::remove_dir_all(&scratch);
        Ok(target)
    }

    #[cfg(unix)]
    fn tighten_client_key_permissions(path: &Path) {
        use std::os::unix::fs::PermissionsExt;
        if let Ok(mut permissions) = std::fs::metadata(path).map(|metadata| metadata.permissions()) {
            permissions.set_mode(0o600);
            let _ = std::fs::set_permissions(path, permissions);
        }
    }

    #[cfg(not(unix))]
    fn tighten_client_key_permissions(_path: &Path) {}

    {
        let widgets = widgets.clone();
        let window = window.clone();
        let certs_button = widgets.certs_button.clone();
        certs_button.connect_clicked(move |_| {
            let chooser = gtk::FileChooserNative::new(
                Some("Choose Lesavka Client TLS Bundle"),
                Some(&window),
                gtk::FileChooserAction::Open,
                Some("Install"),
                Some("Cancel"),
            );
            chooser.set_modal(true);
            let widgets = widgets.clone();
            chooser.connect_response(move |dialog, response| {
                if response == gtk::ResponseType::Accept {
                    if let Some(bundle) = dialog.file().and_then(|file| file.path()) {
                        widgets.status_label.set_text(&format!(
                            "Installing Lesavka client TLS bundle from {}...",
                            bundle.display()
                        ));
                        match install_client_pki_bundle(&bundle) {
                            Ok(target) => widgets.status_label.set_text(&format!(
                                "Client TLS certs installed at {}. Reconnect the relay to use them.",
                                target.display()
                            )),
                            Err(err) => widgets
                                .status_label
                                .set_text(&format!("Client TLS bundle install failed: {err}")),
                        }
                    } else {
                        widgets
                            .status_label
                            .set_text("Selected TLS bundle did not provide a filesystem path.");
                    }
                }
                dialog.destroy();
            });
            chooser.show();
        });
    }

    {
        let child_proc = Rc::clone(&child_proc);
        let widgets = widgets.clone();
        let server_entry = server_entry.clone();
        let server_addr_fallback = Rc::clone(&server_addr);
        let clipboard_tx = clipboard_tx.clone();
        widgets.clipboard_button.connect_clicked(move |_| {
            if child_proc.borrow().is_none() {
                widgets
                    .status_label
                    .set_text("Start the relay before sending clipboard text.");
                return;
            }
            let server_addr = selected_server_addr(&server_entry, server_addr_fallback.as_ref());
            let Some(display) = gtk::gdk::Display::default() else {
                widgets
                    .status_label
                    .set_text("No desktop clipboard is available in this session.");
                return;
            };
            widgets
                .status_label
                .set_text("Reading the local clipboard and preparing remote paste...");
            let clipboard = display.clipboard();
            let clipboard_tx = clipboard_tx.clone();
            clipboard.read_text_async(None::<&gtk::gio::Cancellable>, move |result| match result {
                Ok(Some(text)) => {
                    let text = text.trim_end_matches(['\r', '\n']).to_string();
                    if text.is_empty() {
                        let _ = clipboard_tx
                            .send(ClipboardMessage::Finished(Err("clipboard is empty".to_string())));
                        return;
                    }
                    let clipboard_tx = clipboard_tx.clone();
                    std::thread::spawn(move || {
                        let result = send_clipboard_text_to_remote(&server_addr, &text)
                            .map_err(|err| err.to_string());
                        let _ = clipboard_tx.send(ClipboardMessage::Finished(result));
                    });
                }
                Ok(None) => {
                    let _ = clipboard_tx
                        .send(ClipboardMessage::Finished(Err("clipboard is empty".to_string())));
                }
                Err(err) => {
                    let _ = clipboard_tx.send(ClipboardMessage::Finished(Err(format!(
                        "clipboard read failed: {err}"
                    ))));
                }
            });
        });
    }
    {
        let widgets = widgets.clone();
        let server_entry = server_entry.clone();
        let server_addr_fallback = Rc::clone(&server_addr);
        let widgets_for_click = widgets.clone();
        widgets.usb_recover_button.connect_clicked(move |_| {
            let server_addr = selected_server_addr(&server_entry, server_addr_fallback.as_ref());
            widgets_for_click.status_label.set_text(
                "Recover USB 1/3: reopening HID handles and checking enumeration...",
            );
            let (tx, rx) = std::sync::mpsc::channel();
            std::thread::spawn(move || {
                let result = recover_usb_soft(&server_addr).map_err(|err| format!("{err:#}"));
                let _ = tx.send(result);
            });
            let widgets = widgets_for_click.clone();
            glib::timeout_add_local(Duration::from_millis(100), move || match rx.try_recv() {
                Ok(Ok(())) => {
                    widgets.status_label.set_text(
                        "Recover USB 2/3: HID reopened. Recover USB 3/3: watching chips for stable enumeration.",
                    );
                    glib::ControlFlow::Break
                }
                Ok(Err(err)) => {
                    widgets
                        .status_label
                        .set_text(&format!("Recover USB failed: {err}"));
                    glib::ControlFlow::Break
                }
                Err(std::sync::mpsc::TryRecvError::Empty) => glib::ControlFlow::Continue,
                Err(std::sync::mpsc::TryRecvError::Disconnected) => {
                    widgets.status_label.set_text(
                        "Recover USB failed: relay stopped responding before completion.",
                    );
                    glib::ControlFlow::Break
                }
            });
        });
    }

    {
        let widgets = widgets.clone();
        let server_entry = server_entry.clone();
        let server_addr_fallback = Rc::clone(&server_addr);
        let widgets_for_click = widgets.clone();
        widgets.uac_recover_button.connect_clicked(move |_| {
            let server_addr = selected_server_addr(&server_entry, server_addr_fallback.as_ref());
            widgets_for_click
                .status_label
                .set_text("Recover UAC 1/3: asking microphone stream to stand down cleanly...");
            let (tx, rx) = std::sync::mpsc::channel();
            std::thread::spawn(move || {
                let result = recover_uac_soft(&server_addr).map_err(|err| format!("{err:#}"));
                let _ = tx.send(result);
            });
            let widgets = widgets_for_click.clone();
            glib::timeout_add_local(Duration::from_millis(100), move || match rx.try_recv() {
                Ok(Ok(())) => {
                    widgets.status_label.set_text(
                        "Recover UAC 2/3: old mic sink released. Recover UAC 3/3: client will reconnect without resetting USB.",
                    );
                    glib::ControlFlow::Break
                }
                Ok(Err(err)) => {
                    widgets
                        .status_label
                        .set_text(&format!("Recover UAC failed: {err}"));
                    glib::ControlFlow::Break
                }
                Err(std::sync::mpsc::TryRecvError::Empty) => glib::ControlFlow::Continue,
                Err(std::sync::mpsc::TryRecvError::Disconnected) => {
                    widgets.status_label.set_text(
                        "Recover UAC failed: relay stopped responding before completion.",
                    );
                    glib::ControlFlow::Break
                }
            });
        });
    }

    {
        let widgets = widgets.clone();
        let server_entry = server_entry.clone();
        let server_addr_fallback = Rc::clone(&server_addr);
        let widgets_for_click = widgets.clone();
        widgets.uvc_recover_button.connect_clicked(move |_| {
            let server_addr = selected_server_addr(&server_entry, server_addr_fallback.as_ref());
            widgets_for_click
                .status_label
                .set_text("Recover UVC 1/3: retiring the webcam spool pipeline safely...");
            let (tx, rx) = std::sync::mpsc::channel();
            std::thread::spawn(move || {
                let result = recover_uvc_soft(&server_addr).map_err(|err| format!("{err:#}"));
                let _ = tx.send(result);
            });
            let widgets = widgets_for_click.clone();
            glib::timeout_add_local(Duration::from_millis(100), move || match rx.try_recv() {
                Ok(Ok(())) => {
                    widgets.status_label.set_text(
                        "Recover UVC 2/3: webcam sink retired. Recover UVC 3/3: client will recreate the UVC spool on reconnect.",
                    );
                    glib::ControlFlow::Break
                }
                Ok(Err(err)) => {
                    widgets
                        .status_label
                        .set_text(&format!("Recover UVC failed: {err}"));
                    glib::ControlFlow::Break
                }
                Err(std::sync::mpsc::TryRecvError::Empty) => glib::ControlFlow::Continue,
                Err(std::sync::mpsc::TryRecvError::Disconnected) => {
                    widgets.status_label.set_text(
                        "Recover UVC failed: relay stopped responding before completion.",
                    );
                    glib::ControlFlow::Break
                }
            });
        });
    }

    {
        let widgets = widgets.clone();
        let server_entry = server_entry.clone();
        let server_addr_fallback = Rc::clone(&server_addr);
        let calibration_tx = calibration_tx.clone();
        let calibration_request_in_flight = Rc::clone(&calibration_request_in_flight);
        widgets.calibration_default_button.connect_clicked(move |_| {
            let server_addr = selected_server_addr(&server_entry, server_addr_fallback.as_ref());
            widgets
                .status_label
                .set_text("Calibration 1/2: restoring saved upstream A/V default...");
            calibration_request_in_flight.set(true);
            request_calibration_command(calibration_tx.clone(), server_addr, |server_addr| {
                restore_default_calibration(server_addr)
            });
        });
    }

    {
        let widgets = widgets.clone();
        let server_entry = server_entry.clone();
        let server_addr_fallback = Rc::clone(&server_addr);
        let calibration_tx = calibration_tx.clone();
        let calibration_request_in_flight = Rc::clone(&calibration_request_in_flight);
        widgets.calibration_factory_button.connect_clicked(move |_| {
            let server_addr = selected_server_addr(&server_entry, server_addr_fallback.as_ref());
            widgets
                .status_label
                .set_text("Calibration 1/2: restoring factory MJPEG upstream A/V baseline...");
            calibration_request_in_flight.set(true);
            request_calibration_command(calibration_tx.clone(), server_addr, |server_addr| {
                restore_factory_calibration(server_addr)
            });
        });
    }

    {
        let widgets = widgets.clone();
        let server_entry = server_entry.clone();
        let server_addr_fallback = Rc::clone(&server_addr);
        let calibration_tx = calibration_tx.clone();
        let calibration_request_in_flight = Rc::clone(&calibration_request_in_flight);
        widgets.calibration_minus_button.connect_clicked(move |_| {
            let server_addr = selected_server_addr(&server_entry, server_addr_fallback.as_ref());
            widgets
                .status_label
                .set_text("Calibration 1/2: nudging upstream audio 5 ms earlier...");
            calibration_request_in_flight.set(true);
            request_calibration_command(calibration_tx.clone(), server_addr, |server_addr| {
                nudge_audio_calibration(server_addr, -5_000)
            });
        });
    }

    {
        let widgets = widgets.clone();
        let server_entry = server_entry.clone();
        let server_addr_fallback = Rc::clone(&server_addr);
        let calibration_tx = calibration_tx.clone();
        let calibration_request_in_flight = Rc::clone(&calibration_request_in_flight);
        widgets.calibration_plus_button.connect_clicked(move |_| {
            let server_addr = selected_server_addr(&server_entry, server_addr_fallback.as_ref());
            widgets
                .status_label
                .set_text("Calibration 1/2: nudging upstream audio 5 ms later...");
            calibration_request_in_flight.set(true);
            request_calibration_command(calibration_tx.clone(), server_addr, |server_addr| {
                nudge_audio_calibration(server_addr, 5_000)
            });
        });
    }

    {
        let widgets = widgets.clone();
        let server_entry = server_entry.clone();
        let server_addr_fallback = Rc::clone(&server_addr);
        let calibration_tx = calibration_tx.clone();
        let calibration_request_in_flight = Rc::clone(&calibration_request_in_flight);
        widgets.calibration_blind_button.connect_clicked(move |_| {
            let Some(sample) = widgets.diagnostics_log.borrow().latest().cloned() else {
                widgets.status_label.set_text(
                    "Blind calibration needs a live upstream camera and microphone sample first.",
                );
                return;
            };
            let camera = sample.upstream_camera;
            let microphone = sample.upstream_microphone;
            if !camera.connected || !microphone.connected {
                widgets.status_label.set_text(
                    "Blind calibration refused: upstream camera and microphone are not both live.",
                );
                return;
            }
            let delivery_delta_ms =
                microphone.latest_delivery_age_ms - camera.latest_delivery_age_ms;
            let delivery_skew_ms = delivery_delta_ms.abs();
            let enqueue_skew_ms =
                (microphone.latest_enqueue_age_ms - camera.latest_enqueue_age_ms).abs();
            if camera.queue_depth >= 28 || microphone.queue_depth >= 14 || delivery_skew_ms > 80.0
            {
                widgets.status_label.set_text(
                    "Blind calibration refused: live queues are too backed up to make a safe timing estimate. Use the test rig or fix queue churn first.",
                );
                return;
            }
            let audio_delta_us = (-(delivery_delta_ms as f64) * 500.0)
                .round()
                .clamp(-10_000.0, 10_000.0) as i64;
            let note = format!(
                "blind estimate from live telemetry: mic-camera delivery delta {delivery_delta_ms:+.1}ms, enqueue skew {enqueue_skew_ms:.1}ms; applying half-step audio delta {:+.1}ms",
                audio_delta_us as f64 / 1000.0
            );
            let server_addr = selected_server_addr(&server_entry, server_addr_fallback.as_ref());
            widgets
                .status_label
                .set_text("Calibration 1/2: applying blind upstream A/V estimate...");
            calibration_request_in_flight.set(true);
            request_calibration_command(calibration_tx.clone(), server_addr, move |server_addr| {
                blind_calibration_estimate(
                    server_addr,
                    audio_delta_us,
                    delivery_skew_ms,
                    enqueue_skew_ms,
                    &note,
                )
            });
        });
    }

    {
        let widgets = widgets.clone();
        widgets.calibration_rig_button.connect_clicked(move |_| {
            widgets.status_label.set_text(
                "Rig calibration wizard is queued for lab tooling; for now the mirrored Tethys sync probe remains the measured-default path.",
            );
        });
    }

    {
        let widgets = widgets.clone();
        widgets.diagnostics_copy_button.connect_clicked(move |_| {
            if let Err(err) = copy_plain_text(&widgets.diagnostics_rendered_text.borrow()) {
                widgets
                    .status_label
                    .set_text(&format!("Could not copy the diagnostics report: {err}"));
            } else {
                widgets
                    .status_label
                    .set_text("Diagnostics report copied to the local clipboard.");
            }
        });
    }

    {
        let app = app.clone();
        let widgets = widgets.clone();
        let diagnostics_popout = Rc::clone(&diagnostics_popout);
        widgets.diagnostics_popout_button.connect_clicked(move |_| {
            open_diagnostics_popout(
                &app,
                &diagnostics_popout,
                &widgets.diagnostics_popout_label,
                &widgets.diagnostics_popout_scroll,
                &widgets.diagnostics_rendered_text,
            );
            widgets
                .status_label
                .set_text("Diagnostics report moved into its own window.");
        });
    }

    {
        let widgets = widgets.clone();
        widgets.console_level_combo.connect_changed(move |combo| {
            let level = combo
                .active_id()
                .as_deref()
                .and_then(ConsoleLogLevel::from_id)
                .unwrap_or_default();
            *widgets.session_log_level.borrow_mut() = level;
            widgets.status_label.set_text(&format!(
                "Console now shows {} relay logs and higher.",
                level.label()
            ));
        });
    }

    {
        let widgets = widgets.clone();
        widgets.console_copy_button.connect_clicked(move |_| {
            if let Err(err) = copy_session_log(&widgets.session_log_buffer) {
                widgets
                    .status_label
                    .set_text(&format!("Could not copy the session log: {err}"));
            } else {
                widgets
                    .status_label
                    .set_text("Session log copied to the local clipboard.");
            }
        });
    }

    {
        let app = app.clone();
        let widgets = widgets.clone();
        let log_popout = Rc::clone(&log_popout);
        widgets.console_popout_button.connect_clicked(move |_| {
            open_session_log_popout(&app, &log_popout, &widgets.session_log_buffer);
            widgets
                .status_label
                .set_text("Session log moved into its own window.");
        });
    }
}
release(lesavka): harden v0.12.3 launcher and gates 2026-04-23 07:00:06 -03:00			`{`
release: ship lesavka 0.16.1 2026-04-30 11:38:16 -03:00			`fn default_client_pki_dir() -> PathBuf {`
			`if let Some(home) = std::env::var_os("HOME") {`
			`return PathBuf::from(home).join(".config/lesavka/pki");`
			`}`
			`std::env::current_dir()`
			`.unwrap_or_else(\|_\| PathBuf::from("."))`
			`.join(".config/lesavka/pki")`
			`}`

			`fn install_client_pki_bundle(bundle: &Path) -> Result<PathBuf, String> {`
			`let target = default_client_pki_dir();`
			`let scratch = std::env::temp_dir().join(format!(`
			`"lesavka-client-pki-{}",`
			`SystemTime::now()`
			`.duration_since(UNIX_EPOCH)`
			`.unwrap_or_default()`
			`.as_millis()`
			`));`
			`std::fs::create_dir_all(&scratch)`
			`.map_err(\|err\| format!("could not create extraction folder: {err}"))?;`
			`let extract = Command::new("tar")`
			`.arg("-xzf")`
			`.arg(bundle)`
			`.arg("-C")`
			`.arg(&scratch)`
			`.status()`
			`.map_err(\|err\| format!("tar is unavailable: {err}"))?;`
			`if !extract.success() {`
			`let _ = std::fs::remove_dir_all(&scratch);`
			`return Err(format!("could not extract {}", bundle.display()));`
			`}`
			`for item in ["ca.crt", "client.crt", "client.key"] {`
			`if !scratch.join(item).is_file() {`
			`let _ = std::fs::remove_dir_all(&scratch);`
			`return Err(format!("bundle is missing {item}"));`
			`}`
			`}`
			`std::fs::create_dir_all(&target)`
			`.map_err(\|err\| format!("could not create {}: {err}", target.display()))?;`
			`for item in ["ca.crt", "client.crt", "client.key"] {`
			`std::fs::copy(scratch.join(item), target.join(item))`
			`.map_err(\|err\| format!("could not install {item}: {err}"))?;`
			`}`
			`tighten_client_key_permissions(&target.join("client.key"));`
			`let _ = std::fs::remove_dir_all(&scratch);`
			`Ok(target)`
			`}`

			`#[cfg(unix)]`
			`fn tighten_client_key_permissions(path: &Path) {`
			`use std::os::unix::fs::PermissionsExt;`
			`if let Ok(mut permissions) = std::fs::metadata(path).map(\|metadata\| metadata.permissions()) {`
			`permissions.set_mode(0o600);`
			`let _ = std::fs::set_permissions(path, permissions);`
			`}`
			`}`

			`#[cfg(not(unix))]`
			`fn tighten_client_key_permissions(_path: &Path) {}`

			`{`
			`let widgets = widgets.clone();`
			`let window = window.clone();`
			`let certs_button = widgets.certs_button.clone();`
			`certs_button.connect_clicked(move \|_\| {`
			`let chooser = gtk::FileChooserNative::new(`
			`Some("Choose Lesavka Client TLS Bundle"),`
			`Some(&window),`
			`gtk::FileChooserAction::Open,`
			`Some("Install"),`
			`Some("Cancel"),`
			`);`
			`chooser.set_modal(true);`
			`let widgets = widgets.clone();`
			`chooser.connect_response(move \|dialog, response\| {`
			`if response == gtk::ResponseType::Accept {`
			`if let Some(bundle) = dialog.file().and_then(\|file\| file.path()) {`
			`widgets.status_label.set_text(&format!(`
			`"Installing Lesavka client TLS bundle from {}...",`
			`bundle.display()`
			`));`
			`match install_client_pki_bundle(&bundle) {`
			`Ok(target) => widgets.status_label.set_text(&format!(`
			`"Client TLS certs installed at {}. Reconnect the relay to use them.",`
			`target.display()`
			`)),`
			`Err(err) => widgets`
			`.status_label`
			`.set_text(&format!("Client TLS bundle install failed: {err}")),`
			`}`
			`} else {`
			`widgets`
			`.status_label`
			`.set_text("Selected TLS bundle did not provide a filesystem path.");`
			`}`
			`}`
			`dialog.destroy();`
			`});`
			`chooser.show();`
			`});`
			`}`

ui(launcher): add eye clip/record/save controls and remove gate probe 2026-04-29 20:52:55 -03:00			`{`
			`let child_proc = Rc::clone(&child_proc);`
			`let widgets = widgets.clone();`
			`let server_entry = server_entry.clone();`
			`let server_addr_fallback = Rc::clone(&server_addr);`
			`let clipboard_tx = clipboard_tx.clone();`
			`widgets.clipboard_button.connect_clicked(move \|_\| {`
			`if child_proc.borrow().is_none() {`
			`widgets`
			`.status_label`
			`.set_text("Start the relay before sending clipboard text.");`
			`return;`
			`}`
			`let server_addr = selected_server_addr(&server_entry, server_addr_fallback.as_ref());`
			`let Some(display) = gtk::gdk::Display::default() else {`
			`widgets`
			`.status_label`
			`.set_text("No desktop clipboard is available in this session.");`
			`return;`
			`};`
			`widgets`
			`.status_label`
			`.set_text("Reading the local clipboard and preparing remote paste...");`
			`let clipboard = display.clipboard();`
			`let clipboard_tx = clipboard_tx.clone();`
			`clipboard.read_text_async(None::<&gtk::gio::Cancellable>, move \|result\| match result {`
			`Ok(Some(text)) => {`
			`let text = text.trim_end_matches(['\r', '\n']).to_string();`
			`if text.is_empty() {`
			`let _ = clipboard_tx`
			`.send(ClipboardMessage::Finished(Err("clipboard is empty".to_string())));`
release(lesavka): harden v0.12.3 launcher and gates 2026-04-23 07:00:06 -03:00			`return;`
			`}`
			`let clipboard_tx = clipboard_tx.clone();`
ui(launcher): add eye clip/record/save controls and remove gate probe 2026-04-29 20:52:55 -03:00			`std::thread::spawn(move \|\| {`
			`let result = send_clipboard_text_to_remote(&server_addr, &text)`
			`.map_err(\|err\| err.to_string());`
			`let _ = clipboard_tx.send(ClipboardMessage::Finished(result));`
release(lesavka): harden v0.12.3 launcher and gates 2026-04-23 07:00:06 -03:00			`});`
ui(launcher): add eye clip/record/save controls and remove gate probe 2026-04-29 20:52:55 -03:00			`}`
			`Ok(None) => {`
			`let _ = clipboard_tx`
			`.send(ClipboardMessage::Finished(Err("clipboard is empty".to_string())));`
			`}`
			`Err(err) => {`
			`let _ = clipboard_tx.send(ClipboardMessage::Finished(Err(format!(`
			`"clipboard read failed: {err}"`
			`))));`
			`}`
			`});`
			`});`
			`}`
			`{`
			`let widgets = widgets.clone();`
			`let server_entry = server_entry.clone();`
			`let server_addr_fallback = Rc::clone(&server_addr);`
			`let widgets_for_click = widgets.clone();`
			`widgets.usb_recover_button.connect_clicked(move \|_\| {`
			`let server_addr = selected_server_addr(&server_entry, server_addr_fallback.as_ref());`
			`widgets_for_click.status_label.set_text(`
fix(recovery): make media recovery safe 2026-04-30 18:38:34 -03:00			`"Recover USB 1/3: reopening HID handles and checking enumeration...",`
ui(launcher): add eye clip/record/save controls and remove gate probe 2026-04-29 20:52:55 -03:00			`);`
			`let (tx, rx) = std::sync::mpsc::channel();`
			`std::thread::spawn(move \|\| {`
fix(recovery): make media recovery safe 2026-04-30 18:38:34 -03:00			`let result = recover_usb_soft(&server_addr).map_err(\|err\| format!("{err:#}"));`
ui(launcher): add eye clip/record/save controls and remove gate probe 2026-04-29 20:52:55 -03:00			`let _ = tx.send(result);`
			`});`
			`let widgets = widgets_for_click.clone();`
			`glib::timeout_add_local(Duration::from_millis(100), move \|\| match rx.try_recv() {`
			`Ok(Ok(())) => {`
			`widgets.status_label.set_text(`
fix(recovery): make media recovery safe 2026-04-30 18:38:34 -03:00			`"Recover USB 2/3: HID reopened. Recover USB 3/3: watching chips for stable enumeration.",`
ui(launcher): add eye clip/record/save controls and remove gate probe 2026-04-29 20:52:55 -03:00			`);`
			`glib::ControlFlow::Break`
			`}`
			`Ok(Err(err)) => {`
release(lesavka): harden v0.12.3 launcher and gates 2026-04-23 07:00:06 -03:00			`widgets`
			`.status_label`
launcher(ui): tighten recovery rail, chip health, and capture fidelity 2026-04-29 23:19:57 -03:00			`.set_text(&format!("Recover USB failed: {err}"));`
ui(launcher): add eye clip/record/save controls and remove gate probe 2026-04-29 20:52:55 -03:00			`glib::ControlFlow::Break`
			`}`
			`Err(std::sync::mpsc::TryRecvError::Empty) => glib::ControlFlow::Continue,`
			`Err(std::sync::mpsc::TryRecvError::Disconnected) => {`
			`widgets.status_label.set_text(`
launcher(ui): tighten recovery rail, chip health, and capture fidelity 2026-04-29 23:19:57 -03:00			`"Recover USB failed: relay stopped responding before completion.",`
ui(launcher): add eye clip/record/save controls and remove gate probe 2026-04-29 20:52:55 -03:00			`);`
			`glib::ControlFlow::Break`
			`}`
			`});`
			`});`
			`}`

			`{`
			`let widgets = widgets.clone();`
			`let server_entry = server_entry.clone();`
			`let server_addr_fallback = Rc::clone(&server_addr);`
			`let widgets_for_click = widgets.clone();`
			`widgets.uac_recover_button.connect_clicked(move \|_\| {`
			`let server_addr = selected_server_addr(&server_entry, server_addr_fallback.as_ref());`
			`widgets_for_click`
			`.status_label`
fix(recovery): make media recovery safe 2026-04-30 18:38:34 -03:00			`.set_text("Recover UAC 1/3: asking microphone stream to stand down cleanly...");`
ui(launcher): add eye clip/record/save controls and remove gate probe 2026-04-29 20:52:55 -03:00			`let (tx, rx) = std::sync::mpsc::channel();`
			`std::thread::spawn(move \|\| {`
fix(recovery): make media recovery safe 2026-04-30 18:38:34 -03:00			`let result = recover_uac_soft(&server_addr).map_err(\|err\| format!("{err:#}"));`
ui(launcher): add eye clip/record/save controls and remove gate probe 2026-04-29 20:52:55 -03:00			`let _ = tx.send(result);`
			`});`
			`let widgets = widgets_for_click.clone();`
			`glib::timeout_add_local(Duration::from_millis(100), move \|\| match rx.try_recv() {`
			`Ok(Ok(())) => {`
			`widgets.status_label.set_text(`
fix(recovery): make media recovery safe 2026-04-30 18:38:34 -03:00			`"Recover UAC 2/3: old mic sink released. Recover UAC 3/3: client will reconnect without resetting USB.",`
ui(launcher): add eye clip/record/save controls and remove gate probe 2026-04-29 20:52:55 -03:00			`);`
			`glib::ControlFlow::Break`
			`}`
			`Ok(Err(err)) => {`
			`widgets`
			`.status_label`
launcher(ui): tighten recovery rail, chip health, and capture fidelity 2026-04-29 23:19:57 -03:00			`.set_text(&format!("Recover UAC failed: {err}"));`
ui(launcher): add eye clip/record/save controls and remove gate probe 2026-04-29 20:52:55 -03:00			`glib::ControlFlow::Break`
			`}`
			`Err(std::sync::mpsc::TryRecvError::Empty) => glib::ControlFlow::Continue,`
			`Err(std::sync::mpsc::TryRecvError::Disconnected) => {`
			`widgets.status_label.set_text(`
launcher(ui): tighten recovery rail, chip health, and capture fidelity 2026-04-29 23:19:57 -03:00			`"Recover UAC failed: relay stopped responding before completion.",`
ui(launcher): add eye clip/record/save controls and remove gate probe 2026-04-29 20:52:55 -03:00			`);`
			`glib::ControlFlow::Break`
			`}`
			`});`
			`});`
			`}`

			`{`
			`let widgets = widgets.clone();`
			`let server_entry = server_entry.clone();`
			`let server_addr_fallback = Rc::clone(&server_addr);`
			`let widgets_for_click = widgets.clone();`
			`widgets.uvc_recover_button.connect_clicked(move \|_\| {`
			`let server_addr = selected_server_addr(&server_entry, server_addr_fallback.as_ref());`
			`widgets_for_click`
			`.status_label`
fix(recovery): make media recovery safe 2026-04-30 18:38:34 -03:00			`.set_text("Recover UVC 1/3: retiring the webcam spool pipeline safely...");`
ui(launcher): add eye clip/record/save controls and remove gate probe 2026-04-29 20:52:55 -03:00			`let (tx, rx) = std::sync::mpsc::channel();`
			`std::thread::spawn(move \|\| {`
fix(recovery): make media recovery safe 2026-04-30 18:38:34 -03:00			`let result = recover_uvc_soft(&server_addr).map_err(\|err\| format!("{err:#}"));`
ui(launcher): add eye clip/record/save controls and remove gate probe 2026-04-29 20:52:55 -03:00			`let _ = tx.send(result);`
			`});`
			`let widgets = widgets_for_click.clone();`
			`glib::timeout_add_local(Duration::from_millis(100), move \|\| match rx.try_recv() {`
			`Ok(Ok(())) => {`
			`widgets.status_label.set_text(`
fix(recovery): make media recovery safe 2026-04-30 18:38:34 -03:00			`"Recover UVC 2/3: webcam sink retired. Recover UVC 3/3: client will recreate the UVC spool on reconnect.",`
ui(launcher): add eye clip/record/save controls and remove gate probe 2026-04-29 20:52:55 -03:00			`);`
			`glib::ControlFlow::Break`
			`}`
			`Ok(Err(err)) => {`
			`widgets`
			`.status_label`
launcher(ui): tighten recovery rail, chip health, and capture fidelity 2026-04-29 23:19:57 -03:00			`.set_text(&format!("Recover UVC failed: {err}"));`
ui(launcher): add eye clip/record/save controls and remove gate probe 2026-04-29 20:52:55 -03:00			`glib::ControlFlow::Break`
			`}`
			`Err(std::sync::mpsc::TryRecvError::Empty) => glib::ControlFlow::Continue,`
			`Err(std::sync::mpsc::TryRecvError::Disconnected) => {`
			`widgets.status_label.set_text(`
launcher(ui): tighten recovery rail, chip health, and capture fidelity 2026-04-29 23:19:57 -03:00			`"Recover UVC failed: relay stopped responding before completion.",`
ui(launcher): add eye clip/record/save controls and remove gate probe 2026-04-29 20:52:55 -03:00			`);`
			`glib::ControlFlow::Break`
			`}`
			`});`
			`});`
			`}`

release: ship lesavka 0.16.0 2026-04-30 08:16:57 -03:00			`{`
			`let widgets = widgets.clone();`
			`let server_entry = server_entry.clone();`
			`let server_addr_fallback = Rc::clone(&server_addr);`
			`let calibration_tx = calibration_tx.clone();`
			`let calibration_request_in_flight = Rc::clone(&calibration_request_in_flight);`
			`widgets.calibration_default_button.connect_clicked(move \|_\| {`
			`let server_addr = selected_server_addr(&server_entry, server_addr_fallback.as_ref());`
			`widgets`
			`.status_label`
			`.set_text("Calibration 1/2: restoring saved upstream A/V default...");`
			`calibration_request_in_flight.set(true);`
			`request_calibration_command(calibration_tx.clone(), server_addr, \|server_addr\| {`
			`restore_default_calibration(server_addr)`
			`});`
			`});`
			`}`

			`{`
			`let widgets = widgets.clone();`
			`let server_entry = server_entry.clone();`
			`let server_addr_fallback = Rc::clone(&server_addr);`
			`let calibration_tx = calibration_tx.clone();`
			`let calibration_request_in_flight = Rc::clone(&calibration_request_in_flight);`
			`widgets.calibration_factory_button.connect_clicked(move \|_\| {`
			`let server_addr = selected_server_addr(&server_entry, server_addr_fallback.as_ref());`
			`widgets`
			`.status_label`
			`.set_text("Calibration 1/2: restoring factory MJPEG upstream A/V baseline...");`
			`calibration_request_in_flight.set(true);`
			`request_calibration_command(calibration_tx.clone(), server_addr, \|server_addr\| {`
			`restore_factory_calibration(server_addr)`
			`});`
			`});`
			`}`

			`{`
			`let widgets = widgets.clone();`
			`let server_entry = server_entry.clone();`
			`let server_addr_fallback = Rc::clone(&server_addr);`
			`let calibration_tx = calibration_tx.clone();`
			`let calibration_request_in_flight = Rc::clone(&calibration_request_in_flight);`
			`widgets.calibration_minus_button.connect_clicked(move \|_\| {`
			`let server_addr = selected_server_addr(&server_entry, server_addr_fallback.as_ref());`
			`widgets`
			`.status_label`
			`.set_text("Calibration 1/2: nudging upstream audio 5 ms earlier...");`
			`calibration_request_in_flight.set(true);`
			`request_calibration_command(calibration_tx.clone(), server_addr, \|server_addr\| {`
			`nudge_audio_calibration(server_addr, -5_000)`
			`});`
			`});`
			`}`

			`{`
			`let widgets = widgets.clone();`
			`let server_entry = server_entry.clone();`
			`let server_addr_fallback = Rc::clone(&server_addr);`
			`let calibration_tx = calibration_tx.clone();`
			`let calibration_request_in_flight = Rc::clone(&calibration_request_in_flight);`
			`widgets.calibration_plus_button.connect_clicked(move \|_\| {`
			`let server_addr = selected_server_addr(&server_entry, server_addr_fallback.as_ref());`
			`widgets`
			`.status_label`
			`.set_text("Calibration 1/2: nudging upstream audio 5 ms later...");`
			`calibration_request_in_flight.set(true);`
			`request_calibration_command(calibration_tx.clone(), server_addr, \|server_addr\| {`
			`nudge_audio_calibration(server_addr, 5_000)`
			`});`
			`});`
			`}`

			`{`
			`let widgets = widgets.clone();`
			`let server_entry = server_entry.clone();`
			`let server_addr_fallback = Rc::clone(&server_addr);`
			`let calibration_tx = calibration_tx.clone();`
			`let calibration_request_in_flight = Rc::clone(&calibration_request_in_flight);`
			`widgets.calibration_blind_button.connect_clicked(move \|_\| {`
			`let Some(sample) = widgets.diagnostics_log.borrow().latest().cloned() else {`
			`widgets.status_label.set_text(`
			`"Blind calibration needs a live upstream camera and microphone sample first.",`
			`);`
			`return;`
			`};`
			`let camera = sample.upstream_camera;`
			`let microphone = sample.upstream_microphone;`
			`if !camera.connected \|\| !microphone.connected {`
			`widgets.status_label.set_text(`
			`"Blind calibration refused: upstream camera and microphone are not both live.",`
			`);`
			`return;`
			`}`
			`let delivery_delta_ms =`
			`microphone.latest_delivery_age_ms - camera.latest_delivery_age_ms;`
			`let delivery_skew_ms = delivery_delta_ms.abs();`
			`let enqueue_skew_ms =`
			`(microphone.latest_enqueue_age_ms - camera.latest_enqueue_age_ms).abs();`
			`if camera.queue_depth >= 28 \|\| microphone.queue_depth >= 14 \|\| delivery_skew_ms > 80.0`
			`{`
			`widgets.status_label.set_text(`
			`"Blind calibration refused: live queues are too backed up to make a safe timing estimate. Use the test rig or fix queue churn first.",`
			`);`
			`return;`
			`}`
			`let audio_delta_us = (-(delivery_delta_ms as f64) * 500.0)`
			`.round()`
			`.clamp(-10_000.0, 10_000.0) as i64;`
			`let note = format!(`
			`"blind estimate from live telemetry: mic-camera delivery delta {delivery_delta_ms:+.1}ms, enqueue skew {enqueue_skew_ms:.1}ms; applying half-step audio delta {:+.1}ms",`
			`audio_delta_us as f64 / 1000.0`
			`);`
			`let server_addr = selected_server_addr(&server_entry, server_addr_fallback.as_ref());`
			`widgets`
			`.status_label`
			`.set_text("Calibration 1/2: applying blind upstream A/V estimate...");`
			`calibration_request_in_flight.set(true);`
			`request_calibration_command(calibration_tx.clone(), server_addr, move \|server_addr\| {`
			`blind_calibration_estimate(`
			`server_addr,`
			`audio_delta_us,`
			`delivery_skew_ms,`
			`enqueue_skew_ms,`
			`&note,`
			`)`
			`});`
			`});`
			`}`

			`{`
			`let widgets = widgets.clone();`
			`widgets.calibration_rig_button.connect_clicked(move \|_\| {`
			`widgets.status_label.set_text(`
media: enforce upstream lip-sync planner 2026-05-01 19:16:40 -03:00			`"Rig calibration wizard is queued for lab tooling; for now the mirrored Tethys sync probe remains the measured-default path.",`
release: ship lesavka 0.16.0 2026-04-30 08:16:57 -03:00			`);`
			`});`
			`}`

ui(launcher): add eye clip/record/save controls and remove gate probe 2026-04-29 20:52:55 -03:00			`{`
			`let widgets = widgets.clone();`
			`widgets.diagnostics_copy_button.connect_clicked(move \|_\| {`
			`if let Err(err) = copy_plain_text(&widgets.diagnostics_rendered_text.borrow()) {`
			`widgets`
			`.status_label`
			`.set_text(&format!("Could not copy the diagnostics report: {err}"));`
			`} else {`
			`widgets`
			`.status_label`
			`.set_text("Diagnostics report copied to the local clipboard.");`
			`}`
			`});`
			`}`

			`{`
			`let app = app.clone();`
			`let widgets = widgets.clone();`
			`let diagnostics_popout = Rc::clone(&diagnostics_popout);`
			`widgets.diagnostics_popout_button.connect_clicked(move \|_\| {`
			`open_diagnostics_popout(`
			`&app,`
			`&diagnostics_popout,`
			`&widgets.diagnostics_popout_label,`
			`&widgets.diagnostics_popout_scroll,`
			`&widgets.diagnostics_rendered_text,`
			`);`
			`widgets`
			`.status_label`
			`.set_text("Diagnostics report moved into its own window.");`
			`});`
			`}`

			`{`
			`let widgets = widgets.clone();`
			`widgets.console_level_combo.connect_changed(move \|combo\| {`
			`let level = combo`
			`.active_id()`
			`.as_deref()`
			`.and_then(ConsoleLogLevel::from_id)`
			`.unwrap_or_default();`
			`*widgets.session_log_level.borrow_mut() = level;`
			`widgets.status_label.set_text(&format!(`
			`"Console now shows {} relay logs and higher.",`
			`level.label()`
			`));`
			`});`
			`}`

			`{`
			`let widgets = widgets.clone();`
			`widgets.console_copy_button.connect_clicked(move \|_\| {`
			`if let Err(err) = copy_session_log(&widgets.session_log_buffer) {`
			`widgets`
			`.status_label`
			`.set_text(&format!("Could not copy the session log: {err}"));`
			`} else {`
			`widgets`
			`.status_label`
			`.set_text("Session log copied to the local clipboard.");`
release(lesavka): harden v0.12.3 launcher and gates 2026-04-23 07:00:06 -03:00			`}`
ui(launcher): add eye clip/record/save controls and remove gate probe 2026-04-29 20:52:55 -03:00			`});`
			`}`

			`{`
			`let app = app.clone();`
			`let widgets = widgets.clone();`
			`let log_popout = Rc::clone(&log_popout);`
			`widgets.console_popout_button.connect_clicked(move \|_\| {`
			`open_session_log_popout(&app, &log_popout, &widgets.session_log_buffer);`
			`widgets`
			`.status_label`
			`.set_text("Session log moved into its own window.");`
			`});`
			`}`
release(lesavka): harden v0.12.3 launcher and gates 2026-04-23 07:00:06 -03:00			`}`