lesavka/testing/tests/server_main_rpc_contract.rs

//! Integration coverage for server main RPC handler branches.
//!
//! Scope: include `server/src/main.rs` and exercise additional RPC paths that
//! are awkward to hit from process-level tests.
//! Targets: `server/src/main.rs`.
//! Why: keep handler-side error/reply behavior stable without HID hardware.

#[allow(warnings)]
mod server_main_rpc {
    include!(env!("LESAVKA_SERVER_MAIN_SRC"));

    use serial_test::serial;
    use temp_env::with_var;
    use tempfile::tempdir;

    fn build_handler_for_tests_with_modes(
        kb_writable: bool,
        ms_writable: bool,
    ) -> (tempfile::TempDir, Handler) {
        let dir = tempdir().expect("tempdir");
        let kb_path = dir.path().join("hidg0.bin");
        let ms_path = dir.path().join("hidg1.bin");
        std::fs::write(&kb_path, []).expect("create kb file");
        std::fs::write(&ms_path, []).expect("create ms file");

        let kb = tokio::fs::File::from_std(
            std::fs::OpenOptions::new()
                .read(true)
                .write(kb_writable)
                .create(kb_writable)
                .truncate(kb_writable)
                .open(&kb_path)
                .expect("open kb"),
        );
        let ms = tokio::fs::File::from_std(
            std::fs::OpenOptions::new()
                .read(true)
                .write(ms_writable)
                .create(ms_writable)
                .truncate(ms_writable)
                .open(&ms_path)
                .expect("open ms"),
        );

        (
            dir,
            Handler {
                kb: std::sync::Arc::new(tokio::sync::Mutex::new(kb)),
                ms: std::sync::Arc::new(tokio::sync::Mutex::new(ms)),
                gadget: UsbGadget::new("lesavka"),
                did_cycle: std::sync::Arc::new(std::sync::atomic::AtomicBool::new(false)),
                camera_rt: std::sync::Arc::new(CameraRuntime::new()),
                capture_power: CapturePowerManager::new(),
            },
        )
    }

    fn build_handler_for_tests() -> (tempfile::TempDir, Handler) {
        build_handler_for_tests_with_modes(true, true)
    }

    #[test]
    #[serial]
    fn reopen_hid_returns_error_without_hid_endpoints() {
        let (_dir, handler) = build_handler_for_tests();
        let rt = tokio::runtime::Runtime::new().expect("runtime");
        let result = rt.block_on(handler.reopen_hid());
        assert!(result.is_err(), "reopen_hid should fail without /dev/hidg*");
    }

    #[test]
    #[serial]
    fn capture_video_valid_monitor_surfaces_internal_error_without_device() {
        let (_dir, handler) = build_handler_for_tests();
        let rt = tokio::runtime::Runtime::new().expect("runtime");
        let result = rt.block_on(async {
            handler
                .capture_video(tonic::Request::new(MonitorRequest {
                    id: 0,
                    max_bitrate: 3_000,
                    requested_width: 0,
                    requested_height: 0,
                    requested_fps: 0,
                }))
                .await
        });
        let err = match result {
            Ok(_) => panic!("missing camera device should fail"),
            Err(err) => err,
        };
        assert_eq!(err.code(), tonic::Code::Internal);
    }

    #[test]
    #[serial]
    fn capture_video_right_eye_surfaces_internal_error_without_device() {
        let (_dir, handler) = build_handler_for_tests();
        let rt = tokio::runtime::Runtime::new().expect("runtime");
        let result = rt.block_on(async {
            handler
                .capture_video(tonic::Request::new(MonitorRequest {
                    id: 1,
                    max_bitrate: 3_000,
                    requested_width: 0,
                    requested_height: 0,
                    requested_fps: 0,
                }))
                .await
        });
        let err = match result {
            Ok(_) => panic!("missing right-eye camera device should fail"),
            Err(err) => err,
        };
        assert_eq!(err.code(), tonic::Code::Internal);
    }

    #[test]
    #[cfg(coverage)]
    #[serial]
    fn capture_video_returns_guarded_stream_when_coverage_source_is_overridden() {
        let (_dir, handler) = build_handler_for_tests();
        let rt = tokio::runtime::Runtime::new().expect("runtime");
        with_var(
            "LESAVKA_TEST_VIDEO_SOURCE",
            Some("/dev/lesavka_l_eye"),
            || {
                let mut stream = rt
                    .block_on(async {
                        handler
                            .capture_video(tonic::Request::new(MonitorRequest {
                                id: 0,
                                max_bitrate: 3_000,
                                requested_width: 0,
                                requested_height: 0,
                                requested_fps: 0,
                            }))
                            .await
                    })
                    .expect("coverage video stream should succeed")
                    .into_inner();
                let packet = rt
                    .block_on(async { stream.next().await })
                    .expect("stream item")
                    .expect("packet");
                assert_eq!(packet.id, 0);
                assert!(!packet.data.is_empty());
            },
        );
    }

    #[test]
    #[serial]
    fn paste_text_accepts_encrypted_payload_and_returns_reply() {
        let (_dir, handler) = build_handler_for_tests();
        with_var(
            "LESAVKA_PASTE_KEY",
            Some("hex:00112233445566778899aabbccddeeff00112233445566778899aabbccddeeff"),
            || {
                with_var("LESAVKA_PASTE_DELAY_MS", Some("0"), || {
                    let req =
                        lesavka_client::paste::build_paste_request("hello").expect("build request");
                    let rt = tokio::runtime::Runtime::new().expect("runtime");
                    let reply = rt
                        .block_on(async { handler.paste_text(tonic::Request::new(req)).await })
                        .expect("paste rpc should return reply")
                        .into_inner();
                    assert!(
                        reply.ok || !reply.error.is_empty(),
                        "paste path should execute and return a structured reply"
                    );
                });
            },
        );
    }

    #[test]
    #[serial]
    fn paste_text_returns_structured_error_when_hid_write_fails() {
        let (_dir, handler) = build_handler_for_tests_with_modes(false, true);
        with_var(
            "LESAVKA_PASTE_KEY",
            Some("hex:00112233445566778899aabbccddeeff00112233445566778899aabbccddeeff"),
            || {
                with_var("LESAVKA_PASTE_DELAY_MS", Some("0"), || {
                    let req =
                        lesavka_client::paste::build_paste_request("hello").expect("build request");
                    let rt = tokio::runtime::Runtime::new().expect("runtime");
                    let reply = rt
                        .block_on(async { handler.paste_text(tonic::Request::new(req)).await })
                        .expect("paste rpc should return structured reply")
                        .into_inner();
                    assert!(!reply.ok);
                    assert!(!reply.error.is_empty());
                });
            },
        );
    }

    #[test]
    #[serial]
    fn capture_audio_accepts_secondary_monitor_id_and_fails_internally_without_sink() {
        let (_dir, handler) = build_handler_for_tests();
        let req = MonitorRequest {
            id: 1,
            max_bitrate: 0,
            requested_width: 0,
            requested_height: 0,
            requested_fps: 0,
        };

        let rt = tokio::runtime::Runtime::new().expect("runtime");
        let result = rt.block_on(async { handler.capture_audio(tonic::Request::new(req)).await });
        let err = match result {
            Ok(_) => panic!("missing ALSA source should fail"),
            Err(err) => err,
        };
        assert_eq!(err.code(), tonic::Code::Internal);
    }

    #[test]
    #[cfg(coverage)]
    #[serial]
    fn capture_power_rpcs_surface_stub_snapshot_and_manual_modes() {
        let (_dir, handler) = build_handler_for_tests();
        let rt = tokio::runtime::Runtime::new().expect("runtime");

        let snapshot = rt
            .block_on(async {
                handler
                    .get_capture_power(tonic::Request::new(Empty {}))
                    .await
            })
            .expect("capture power snapshot")
            .into_inner();
        assert!(snapshot.available);
        assert!(!snapshot.enabled);
        assert_eq!(snapshot.mode, "auto");

        let forced_on = rt
            .block_on(async {
                handler
                    .set_capture_power(tonic::Request::new(SetCapturePowerRequest {
                        enabled: true,
                        command: CapturePowerCommand::ForceOn as i32,
                    }))
                    .await
            })
            .expect("force capture power on")
            .into_inner();
        assert!(forced_on.available);
        assert!(forced_on.enabled);
        assert_eq!(forced_on.mode, "forced-on");

        let forced_off = rt
            .block_on(async {
                handler
                    .set_capture_power(tonic::Request::new(SetCapturePowerRequest {
                        enabled: false,
                        command: CapturePowerCommand::ForceOff as i32,
                    }))
                    .await
            })
            .expect("force capture power off")
            .into_inner();
        assert!(forced_off.available);
        assert!(!forced_off.enabled);
        assert_eq!(forced_off.mode, "forced-off");

        let auto = rt
            .block_on(async {
                handler
                    .set_capture_power(tonic::Request::new(SetCapturePowerRequest {
                        enabled: false,
                        command: CapturePowerCommand::Auto as i32,
                    }))
                    .await
            })
            .expect("return capture power to auto")
            .into_inner();
        assert!(auto.available);
        assert!(!auto.enabled);
        assert_eq!(auto.mode, "auto");

        let legacy_fallback = rt
            .block_on(async {
                handler
                    .set_capture_power(tonic::Request::new(SetCapturePowerRequest {
                        enabled: true,
                        command: CapturePowerCommand::Unspecified as i32,
                    }))
                    .await
            })
            .expect("legacy bool fallback")
            .into_inner();
        assert!(legacy_fallback.available);
        assert!(legacy_fallback.enabled);
        assert_eq!(legacy_fallback.mode, "forced-on");
    }

    #[test]
    #[cfg(coverage)]
    #[serial]
    fn reset_usb_returns_internal_error_when_reopen_fails_after_successful_cycle() {
        let dir = tempdir().expect("tempdir");
        std::fs::write(dir.path().join("hidg0.bin"), "").expect("create kb file");
        std::fs::write(dir.path().join("hidg1.bin"), "").expect("create ms file");
        std::fs::create_dir_all(dir.path().join("sys/class/udc/fake-ctrl.usb"))
            .expect("create udc dir");
        std::fs::create_dir_all(dir.path().join("cfg/lesavka")).expect("create cfg dir");
        std::fs::write(
            dir.path().join("sys/class/udc/fake-ctrl.usb/state"),
            "configured\n",
        )
        .expect("write state");
        std::fs::write(dir.path().join("cfg/lesavka/UDC"), "fake-ctrl.usb\n").expect("write udc");

        let kb = tokio::fs::File::from_std(
            std::fs::OpenOptions::new()
                .read(true)
                .write(true)
                .open(dir.path().join("hidg0.bin"))
                .expect("open kb"),
        );
        let ms = tokio::fs::File::from_std(
            std::fs::OpenOptions::new()
                .read(true)
                .write(true)
                .open(dir.path().join("hidg1.bin"))
                .expect("open ms"),
        );

        with_var(
            "LESAVKA_GADGET_SYSFS_ROOT",
            Some(dir.path().join("sys").to_string_lossy().to_string()),
            || {
                with_var(
                    "LESAVKA_GADGET_CONFIGFS_ROOT",
                    Some(dir.path().join("cfg").to_string_lossy().to_string()),
                    || {
                        let handler = Handler {
                            kb: std::sync::Arc::new(tokio::sync::Mutex::new(kb)),
                            ms: std::sync::Arc::new(tokio::sync::Mutex::new(ms)),
                            gadget: UsbGadget::new("lesavka"),
                            did_cycle: std::sync::Arc::new(std::sync::atomic::AtomicBool::new(
                                false,
                            )),
                            camera_rt: std::sync::Arc::new(CameraRuntime::new()),
                            capture_power: CapturePowerManager::new(),
                        };

                        with_var(
                            "LESAVKA_HID_DIR",
                            Some(dir.path().join("missing").to_string_lossy().to_string()),
                            || {
                                let rt = tokio::runtime::Runtime::new().expect("runtime");
                                let err = rt
                                    .block_on(async {
                                        handler.reset_usb(tonic::Request::new(Empty {})).await
                                    })
                                    .expect_err("reopen hid should fail after successful cycle");
                                assert_eq!(err.code(), tonic::Code::Internal);
                            },
                        );
                    },
                );
            },
        );
    }
}
test(gate): reach 95 percent per-file coverage 2026-04-13 02:52:32 -03:00			`//! Integration coverage for server main RPC handler branches.`
			`//!`
			//! Scope: include `server/src/main.rs` and exercise additional RPC paths that
			`//! are awkward to hit from process-level tests.`
			//! Targets: `server/src/main.rs`.
			`//! Why: keep handler-side error/reply behavior stable without HID hardware.`

			`#[allow(warnings)]`
			`mod server_main_rpc {`
			`include!(env!("LESAVKA_SERVER_MAIN_SRC"));`

			`use serial_test::serial;`
			`use temp_env::with_var;`
			`use tempfile::tempdir;`

test(launcher): stabilize recovered relay preview gate 2026-04-14 23:35:29 -03:00			`fn build_handler_for_tests_with_modes(`
			`kb_writable: bool,`
			`ms_writable: bool,`
			`) -> (tempfile::TempDir, Handler) {`
test(gate): reach 95 percent per-file coverage 2026-04-13 02:52:32 -03:00			`let dir = tempdir().expect("tempdir");`
			`let kb_path = dir.path().join("hidg0.bin");`
			`let ms_path = dir.path().join("hidg1.bin");`
			`std::fs::write(&kb_path, []).expect("create kb file");`
			`std::fs::write(&ms_path, []).expect("create ms file");`

			`let kb = tokio::fs::File::from_std(`
			`std::fs::OpenOptions::new()`
			`.read(true)`
test(launcher): stabilize recovered relay preview gate 2026-04-14 23:35:29 -03:00			`.write(kb_writable)`
			`.create(kb_writable)`
			`.truncate(kb_writable)`
test(gate): reach 95 percent per-file coverage 2026-04-13 02:52:32 -03:00			`.open(&kb_path)`
			`.expect("open kb"),`
			`);`
			`let ms = tokio::fs::File::from_std(`
			`std::fs::OpenOptions::new()`
			`.read(true)`
test(launcher): stabilize recovered relay preview gate 2026-04-14 23:35:29 -03:00			`.write(ms_writable)`
			`.create(ms_writable)`
			`.truncate(ms_writable)`
test(gate): reach 95 percent per-file coverage 2026-04-13 02:52:32 -03:00			`.open(&ms_path)`
			`.expect("open ms"),`
			`);`

			`(`
			`dir,`
			`Handler {`
			`kb: std::sync::Arc::new(tokio::sync::Mutex::new(kb)),`
			`ms: std::sync::Arc::new(tokio::sync::Mutex::new(ms)),`
			`gadget: UsbGadget::new("lesavka"),`
			`did_cycle: std::sync::Arc::new(std::sync::atomic::AtomicBool::new(false)),`
			`camera_rt: std::sync::Arc::new(CameraRuntime::new()),`
wip(launcher): recover relay and preview lane onto master 2026-04-14 23:03:18 -03:00			`capture_power: CapturePowerManager::new(),`
test(gate): reach 95 percent per-file coverage 2026-04-13 02:52:32 -03:00			`},`
			`)`
			`}`

test(launcher): stabilize recovered relay preview gate 2026-04-14 23:35:29 -03:00			`fn build_handler_for_tests() -> (tempfile::TempDir, Handler) {`
			`build_handler_for_tests_with_modes(true, true)`
			`}`

test(gate): reach 95 percent per-file coverage 2026-04-13 02:52:32 -03:00			`#[test]`
			`#[serial]`
			`fn reopen_hid_returns_error_without_hid_endpoints() {`
			`let (_dir, handler) = build_handler_for_tests();`
			`let rt = tokio::runtime::Runtime::new().expect("runtime");`
			`let result = rt.block_on(handler.reopen_hid());`
			`assert!(result.is_err(), "reopen_hid should fail without /dev/hidg*");`
			`}`

			`#[test]`
			`#[serial]`
			`fn capture_video_valid_monitor_surfaces_internal_error_without_device() {`
			`let (_dir, handler) = build_handler_for_tests();`
			`let rt = tokio::runtime::Runtime::new().expect("runtime");`
			`let result = rt.block_on(async {`
			`handler`
			`.capture_video(tonic::Request::new(MonitorRequest {`
			`id: 0,`
			`max_bitrate: 3_000,`
lesavka: harden relay input and install flow 2026-04-16 12:58:05 -03:00			`requested_width: 0,`
			`requested_height: 0,`
			`requested_fps: 0,`
test(gate): reach 95 percent per-file coverage 2026-04-13 02:52:32 -03:00			`}))`
			`.await`
			`});`
			`let err = match result {`
			`Ok(_) => panic!("missing camera device should fail"),`
			`Err(err) => err,`
			`};`
			`assert_eq!(err.code(), tonic::Code::Internal);`
			`}`

test(launcher): stabilize recovered relay preview gate 2026-04-14 23:35:29 -03:00			`#[test]`
			`#[serial]`
			`fn capture_video_right_eye_surfaces_internal_error_without_device() {`
			`let (_dir, handler) = build_handler_for_tests();`
			`let rt = tokio::runtime::Runtime::new().expect("runtime");`
			`let result = rt.block_on(async {`
			`handler`
			`.capture_video(tonic::Request::new(MonitorRequest {`
			`id: 1,`
			`max_bitrate: 3_000,`
lesavka: harden relay input and install flow 2026-04-16 12:58:05 -03:00			`requested_width: 0,`
			`requested_height: 0,`
			`requested_fps: 0,`
test(launcher): stabilize recovered relay preview gate 2026-04-14 23:35:29 -03:00			`}))`
			`.await`
			`});`
			`let err = match result {`
			`Ok(_) => panic!("missing right-eye camera device should fail"),`
			`Err(err) => err,`
			`};`
			`assert_eq!(err.code(), tonic::Code::Internal);`
			`}`

			`#[test]`
			`#[cfg(coverage)]`
			`#[serial]`
			`fn capture_video_returns_guarded_stream_when_coverage_source_is_overridden() {`
			`let (_dir, handler) = build_handler_for_tests();`
			`let rt = tokio::runtime::Runtime::new().expect("runtime");`
feat(launcher): stage devices with preview and capture power modes 2026-04-15 01:20:51 -03:00			`with_var(`
			`"LESAVKA_TEST_VIDEO_SOURCE",`
			`Some("/dev/lesavka_l_eye"),`
			`\|\| {`
			`let mut stream = rt`
			`.block_on(async {`
			`handler`
			`.capture_video(tonic::Request::new(MonitorRequest {`
			`id: 0,`
			`max_bitrate: 3_000,`
lesavka: harden relay input and install flow 2026-04-16 12:58:05 -03:00			`requested_width: 0,`
			`requested_height: 0,`
			`requested_fps: 0,`
feat(launcher): stage devices with preview and capture power modes 2026-04-15 01:20:51 -03:00			`}))`
			`.await`
			`})`
			`.expect("coverage video stream should succeed")`
			`.into_inner();`
			`let packet = rt`
			`.block_on(async { stream.next().await })`
			`.expect("stream item")`
			`.expect("packet");`
			`assert_eq!(packet.id, 0);`
			`assert!(!packet.data.is_empty());`
			`},`
			`);`
test(launcher): stabilize recovered relay preview gate 2026-04-14 23:35:29 -03:00			`}`

test(gate): reach 95 percent per-file coverage 2026-04-13 02:52:32 -03:00			`#[test]`
			`#[serial]`
			`fn paste_text_accepts_encrypted_payload_and_returns_reply() {`
			`let (_dir, handler) = build_handler_for_tests();`
			`with_var(`
			`"LESAVKA_PASTE_KEY",`
			`Some("hex:00112233445566778899aabbccddeeff00112233445566778899aabbccddeeff"),`
			`\|\| {`
			`with_var("LESAVKA_PASTE_DELAY_MS", Some("0"), \|\| {`
			`let req =`
			`lesavka_client::paste::build_paste_request("hello").expect("build request");`
			`let rt = tokio::runtime::Runtime::new().expect("runtime");`
			`let reply = rt`
			`.block_on(async { handler.paste_text(tonic::Request::new(req)).await })`
			`.expect("paste rpc should return reply")`
			`.into_inner();`
			`assert!(`
			`reply.ok \|\| !reply.error.is_empty(),`
			`"paste path should execute and return a structured reply"`
			`);`
			`});`
			`},`
			`);`
			`}`

test(launcher): stabilize recovered relay preview gate 2026-04-14 23:35:29 -03:00			`#[test]`
			`#[serial]`
			`fn paste_text_returns_structured_error_when_hid_write_fails() {`
			`let (_dir, handler) = build_handler_for_tests_with_modes(false, true);`
			`with_var(`
			`"LESAVKA_PASTE_KEY",`
			`Some("hex:00112233445566778899aabbccddeeff00112233445566778899aabbccddeeff"),`
			`\|\| {`
			`with_var("LESAVKA_PASTE_DELAY_MS", Some("0"), \|\| {`
			`let req =`
			`lesavka_client::paste::build_paste_request("hello").expect("build request");`
			`let rt = tokio::runtime::Runtime::new().expect("runtime");`
			`let reply = rt`
			`.block_on(async { handler.paste_text(tonic::Request::new(req)).await })`
			`.expect("paste rpc should return structured reply")`
			`.into_inner();`
			`assert!(!reply.ok);`
			`assert!(!reply.error.is_empty());`
			`});`
			`},`
			`);`
			`}`

test(gate): reach 95 percent per-file coverage 2026-04-13 02:52:32 -03:00			`#[test]`
			`#[serial]`
			`fn capture_audio_accepts_secondary_monitor_id_and_fails_internally_without_sink() {`
			`let (_dir, handler) = build_handler_for_tests();`
			`let req = MonitorRequest {`
			`id: 1,`
			`max_bitrate: 0,`
lesavka: harden relay input and install flow 2026-04-16 12:58:05 -03:00			`requested_width: 0,`
			`requested_height: 0,`
			`requested_fps: 0,`
test(gate): reach 95 percent per-file coverage 2026-04-13 02:52:32 -03:00			`};`

			`let rt = tokio::runtime::Runtime::new().expect("runtime");`
			`let result = rt.block_on(async { handler.capture_audio(tonic::Request::new(req)).await });`
			`let err = match result {`
			`Ok(_) => panic!("missing ALSA source should fail"),`
			`Err(err) => err,`
			`};`
			`assert_eq!(err.code(), tonic::Code::Internal);`
			`}`
test(launcher): stabilize recovered relay preview gate 2026-04-14 23:35:29 -03:00
			`#[test]`
			`#[cfg(coverage)]`
			`#[serial]`
			`fn capture_power_rpcs_surface_stub_snapshot_and_manual_modes() {`
			`let (_dir, handler) = build_handler_for_tests();`
			`let rt = tokio::runtime::Runtime::new().expect("runtime");`

			`let snapshot = rt`
feat(launcher): stage devices with preview and capture power modes 2026-04-15 01:20:51 -03:00			`.block_on(async {`
			`handler`
			`.get_capture_power(tonic::Request::new(Empty {}))`
			`.await`
			`})`
test(launcher): stabilize recovered relay preview gate 2026-04-14 23:35:29 -03:00			`.expect("capture power snapshot")`
			`.into_inner();`
			`assert!(snapshot.available);`
			`assert!(!snapshot.enabled);`
			`assert_eq!(snapshot.mode, "auto");`

			`let forced_on = rt`
			`.block_on(async {`
			`handler`
			`.set_capture_power(tonic::Request::new(SetCapturePowerRequest {`
			`enabled: true,`
feat(launcher): stage devices with preview and capture power modes 2026-04-15 01:20:51 -03:00			`command: CapturePowerCommand::ForceOn as i32,`
test(launcher): stabilize recovered relay preview gate 2026-04-14 23:35:29 -03:00			`}))`
			`.await`
			`})`
			`.expect("force capture power on")`
			`.into_inner();`
			`assert!(forced_on.available);`
			`assert!(forced_on.enabled);`
			`assert_eq!(forced_on.mode, "forced-on");`

			`let forced_off = rt`
			`.block_on(async {`
			`handler`
			`.set_capture_power(tonic::Request::new(SetCapturePowerRequest {`
			`enabled: false,`
feat(launcher): stage devices with preview and capture power modes 2026-04-15 01:20:51 -03:00			`command: CapturePowerCommand::ForceOff as i32,`
test(launcher): stabilize recovered relay preview gate 2026-04-14 23:35:29 -03:00			`}))`
			`.await`
			`})`
			`.expect("force capture power off")`
			`.into_inner();`
			`assert!(forced_off.available);`
			`assert!(!forced_off.enabled);`
			`assert_eq!(forced_off.mode, "forced-off");`
feat(launcher): stage devices with preview and capture power modes 2026-04-15 01:20:51 -03:00
			`let auto = rt`
			`.block_on(async {`
			`handler`
			`.set_capture_power(tonic::Request::new(SetCapturePowerRequest {`
			`enabled: false,`
			`command: CapturePowerCommand::Auto as i32,`
			`}))`
			`.await`
			`})`
			`.expect("return capture power to auto")`
			`.into_inner();`
			`assert!(auto.available);`
			`assert!(!auto.enabled);`
			`assert_eq!(auto.mode, "auto");`

			`let legacy_fallback = rt`
			`.block_on(async {`
			`handler`
			`.set_capture_power(tonic::Request::new(SetCapturePowerRequest {`
			`enabled: true,`
			`command: CapturePowerCommand::Unspecified as i32,`
			`}))`
			`.await`
			`})`
			`.expect("legacy bool fallback")`
			`.into_inner();`
			`assert!(legacy_fallback.available);`
			`assert!(legacy_fallback.enabled);`
			`assert_eq!(legacy_fallback.mode, "forced-on");`
test(launcher): stabilize recovered relay preview gate 2026-04-14 23:35:29 -03:00			`}`

			`#[test]`
			`#[cfg(coverage)]`
			`#[serial]`
			`fn reset_usb_returns_internal_error_when_reopen_fails_after_successful_cycle() {`
			`let dir = tempdir().expect("tempdir");`
			`std::fs::write(dir.path().join("hidg0.bin"), "").expect("create kb file");`
			`std::fs::write(dir.path().join("hidg1.bin"), "").expect("create ms file");`
			`std::fs::create_dir_all(dir.path().join("sys/class/udc/fake-ctrl.usb"))`
			`.expect("create udc dir");`
			`std::fs::create_dir_all(dir.path().join("cfg/lesavka")).expect("create cfg dir");`
			`std::fs::write(`
			`dir.path().join("sys/class/udc/fake-ctrl.usb/state"),`
			`"configured\n",`
			`)`
			`.expect("write state");`
feat(launcher): stage devices with preview and capture power modes 2026-04-15 01:20:51 -03:00			`std::fs::write(dir.path().join("cfg/lesavka/UDC"), "fake-ctrl.usb\n").expect("write udc");`
test(launcher): stabilize recovered relay preview gate 2026-04-14 23:35:29 -03:00
			`let kb = tokio::fs::File::from_std(`
			`std::fs::OpenOptions::new()`
			`.read(true)`
			`.write(true)`
			`.open(dir.path().join("hidg0.bin"))`
			`.expect("open kb"),`
			`);`
			`let ms = tokio::fs::File::from_std(`
			`std::fs::OpenOptions::new()`
			`.read(true)`
			`.write(true)`
			`.open(dir.path().join("hidg1.bin"))`
			`.expect("open ms"),`
			`);`

			`with_var(`
			`"LESAVKA_GADGET_SYSFS_ROOT",`
			`Some(dir.path().join("sys").to_string_lossy().to_string()),`
			`\|\| {`
			`with_var(`
			`"LESAVKA_GADGET_CONFIGFS_ROOT",`
			`Some(dir.path().join("cfg").to_string_lossy().to_string()),`
			`\|\| {`
			`let handler = Handler {`
			`kb: std::sync::Arc::new(tokio::sync::Mutex::new(kb)),`
			`ms: std::sync::Arc::new(tokio::sync::Mutex::new(ms)),`
			`gadget: UsbGadget::new("lesavka"),`
feat(launcher): stage devices with preview and capture power modes 2026-04-15 01:20:51 -03:00			`did_cycle: std::sync::Arc::new(std::sync::atomic::AtomicBool::new(`
			`false,`
			`)),`
test(launcher): stabilize recovered relay preview gate 2026-04-14 23:35:29 -03:00			`camera_rt: std::sync::Arc::new(CameraRuntime::new()),`
			`capture_power: CapturePowerManager::new(),`
			`};`

			`with_var(`
			`"LESAVKA_HID_DIR",`
			`Some(dir.path().join("missing").to_string_lossy().to_string()),`
			`\|\| {`
			`let rt = tokio::runtime::Runtime::new().expect("runtime");`
			`let err = rt`
			`.block_on(async {`
			`handler.reset_usb(tonic::Request::new(Empty {})).await`
			`})`
			`.expect_err("reopen hid should fail after successful cycle");`
			`assert_eq!(err.code(), tonic::Code::Internal);`
			`},`
			`);`
			`},`
			`);`
			`},`
			`);`
			`}`
test(gate): reach 95 percent per-file coverage 2026-04-13 02:52:32 -03:00			`}`