#include "scrcpy.h" #include #include #include #include #include #include #ifdef _WIN32 // not needed here, but winsock2.h must never be included AFTER windows.h # include # include #endif #include "audio_player.h" #include "controller.h" #include "decoder.h" #include "delay_buffer.h" #include "demuxer.h" #include "events.h" #include "file_pusher.h" #include "keyboard_sdk.h" #include "mouse_sdk.h" #include "recorder.h" #include "screen.h" #include "server.h" #ifdef HAVE_USB # include "usb/aoa_hid.h" # include "usb/keyboard_aoa.h" # include "usb/mouse_aoa.h" # include "usb/usb.h" #endif #include "util/acksync.h" #include "util/log.h" #include "util/net.h" #include "util/rand.h" #include "util/timeout.h" #ifdef HAVE_V4L2 # include "v4l2_sink.h" #endif struct scrcpy { struct sc_server server; struct sc_screen screen; struct sc_audio_player audio_player; struct sc_demuxer video_demuxer; struct sc_demuxer audio_demuxer; struct sc_decoder video_decoder; struct sc_decoder audio_decoder; struct sc_recorder recorder; struct sc_delay_buffer display_buffer; #ifdef HAVE_V4L2 struct sc_v4l2_sink v4l2_sink; struct sc_delay_buffer v4l2_buffer; #endif struct sc_controller controller; struct sc_file_pusher file_pusher; #ifdef HAVE_USB struct sc_usb usb; struct sc_aoa aoa; // sequence/ack helper to synchronize clipboard and Ctrl+v via HID struct sc_acksync acksync; #endif union { struct sc_keyboard_sdk keyboard_sdk; #ifdef HAVE_USB struct sc_keyboard_aoa keyboard_aoa; #endif }; union { struct sc_mouse_sdk mouse_sdk; #ifdef HAVE_USB struct sc_mouse_aoa mouse_aoa; #endif }; struct sc_timeout timeout; }; static inline void push_event(uint32_t type, const char *name) { SDL_Event event; event.type = type; int ret = SDL_PushEvent(&event); if (ret < 0) { LOGE("Could not post %s event: %s", name, SDL_GetError()); // What could we do? } } #define PUSH_EVENT(TYPE) push_event(TYPE, # TYPE) #ifdef _WIN32 static BOOL WINAPI windows_ctrl_handler(DWORD ctrl_type) { if (ctrl_type == CTRL_C_EVENT) { PUSH_EVENT(SDL_QUIT); return TRUE; } return FALSE; } #endif // _WIN32 static void sdl_set_hints(const char *render_driver) { if (render_driver && !SDL_SetHint(SDL_HINT_RENDER_DRIVER, render_driver)) { LOGW("Could not set render driver"); } // Linear filtering if (!SDL_SetHint(SDL_HINT_RENDER_SCALE_QUALITY, "1")) { LOGW("Could not enable linear filtering"); } // Handle a click to gain focus as any other click if (!SDL_SetHint(SDL_HINT_MOUSE_FOCUS_CLICKTHROUGH, "1")) { LOGW("Could not enable mouse focus clickthrough"); } #ifdef SCRCPY_SDL_HAS_HINT_TOUCH_MOUSE_EVENTS // Disable synthetic mouse events from touch events // Touch events with id SDL_TOUCH_MOUSEID are ignored anyway, but it is // better not to generate them in the first place. if (!SDL_SetHint(SDL_HINT_TOUCH_MOUSE_EVENTS, "0")) { LOGW("Could not disable synthetic mouse events"); } #endif #ifdef SCRCPY_SDL_HAS_HINT_VIDEO_X11_NET_WM_BYPASS_COMPOSITOR // Disable compositor bypassing on X11 if (!SDL_SetHint(SDL_HINT_VIDEO_X11_NET_WM_BYPASS_COMPOSITOR, "0")) { LOGW("Could not disable X11 compositor bypass"); } #endif // Do not minimize on focus loss if (!SDL_SetHint(SDL_HINT_VIDEO_MINIMIZE_ON_FOCUS_LOSS, "0")) { LOGW("Could not disable minimize on focus loss"); } } static void sdl_configure(bool video_playback, bool disable_screensaver) { #ifdef _WIN32 // Clean up properly on Ctrl+C on Windows bool ok = SetConsoleCtrlHandler(windows_ctrl_handler, TRUE); if (!ok) { LOGW("Could not set Ctrl+C handler"); } #endif // _WIN32 if (!video_playback) { return; } if (disable_screensaver) { SDL_DisableScreenSaver(); } else { SDL_EnableScreenSaver(); } } static enum scrcpy_exit_code event_loop(struct scrcpy *s) { SDL_Event event; while (SDL_WaitEvent(&event)) { switch (event.type) { case SC_EVENT_DEVICE_DISCONNECTED: LOGW("Device disconnected"); return SCRCPY_EXIT_DISCONNECTED; case SC_EVENT_DEMUXER_ERROR: LOGE("Demuxer error"); return SCRCPY_EXIT_FAILURE; case SC_EVENT_RECORDER_ERROR: LOGE("Recorder error"); return SCRCPY_EXIT_FAILURE; case SC_EVENT_TIME_LIMIT_REACHED: LOGI("Time limit reached"); return SCRCPY_EXIT_SUCCESS; case SDL_QUIT: LOGD("User requested to quit"); return SCRCPY_EXIT_SUCCESS; default: if (!sc_screen_handle_event(&s->screen, &event)) { return SCRCPY_EXIT_FAILURE; } break; } } return SCRCPY_EXIT_FAILURE; } // Return true on success, false on error static bool await_for_server(bool *connected) { SDL_Event event; while (SDL_WaitEvent(&event)) { switch (event.type) { case SDL_QUIT: if (connected) { *connected = false; } return true; case SC_EVENT_SERVER_CONNECTION_FAILED: return false; case SC_EVENT_SERVER_CONNECTED: if (connected) { *connected = true; } return true; default: break; } } LOGE("SDL_WaitEvent() error: %s", SDL_GetError()); return false; } static void sc_recorder_on_ended(struct sc_recorder *recorder, bool success, void *userdata) { (void) recorder; (void) userdata; if (!success) { PUSH_EVENT(SC_EVENT_RECORDER_ERROR); } } static void sc_video_demuxer_on_ended(struct sc_demuxer *demuxer, enum sc_demuxer_status status, void *userdata) { (void) demuxer; (void) userdata; // The device may not decide to disable the video assert(status != SC_DEMUXER_STATUS_DISABLED); if (status == SC_DEMUXER_STATUS_EOS) { PUSH_EVENT(SC_EVENT_DEVICE_DISCONNECTED); } else { PUSH_EVENT(SC_EVENT_DEMUXER_ERROR); } } static void sc_audio_demuxer_on_ended(struct sc_demuxer *demuxer, enum sc_demuxer_status status, void *userdata) { (void) demuxer; const struct scrcpy_options *options = userdata; // Contrary to the video demuxer, keep mirroring if only the audio fails // (unless --require-audio is set). if (status == SC_DEMUXER_STATUS_EOS) { PUSH_EVENT(SC_EVENT_DEVICE_DISCONNECTED); } else if (status == SC_DEMUXER_STATUS_ERROR || (status == SC_DEMUXER_STATUS_DISABLED && options->require_audio)) { PUSH_EVENT(SC_EVENT_DEMUXER_ERROR); } } static void sc_server_on_connection_failed(struct sc_server *server, void *userdata) { (void) server; (void) userdata; PUSH_EVENT(SC_EVENT_SERVER_CONNECTION_FAILED); } static void sc_server_on_connected(struct sc_server *server, void *userdata) { (void) server; (void) userdata; PUSH_EVENT(SC_EVENT_SERVER_CONNECTED); } static void sc_server_on_disconnected(struct sc_server *server, void *userdata) { (void) server; (void) userdata; LOGD("Server disconnected"); // Do nothing, the disconnection will be handled by the "stream stopped" // event } static void sc_timeout_on_timeout(struct sc_timeout *timeout, void *userdata) { (void) timeout; (void) userdata; PUSH_EVENT(SC_EVENT_TIME_LIMIT_REACHED); } // Generate a scrcpy id to differentiate multiple running scrcpy instances static uint32_t scrcpy_generate_scid(void) { struct sc_rand rand; sc_rand_init(&rand); // Only use 31 bits to avoid issues with signed values on the Java-side return sc_rand_u32(&rand) & 0x7FFFFFFF; } enum scrcpy_exit_code scrcpy(struct scrcpy_options *options) { static struct scrcpy scrcpy; struct scrcpy *s = &scrcpy; // Minimal SDL initialization if (SDL_Init(SDL_INIT_EVENTS)) { LOGE("Could not initialize SDL: %s", SDL_GetError()); return SCRCPY_EXIT_FAILURE; } atexit(SDL_Quit); enum scrcpy_exit_code ret = SCRCPY_EXIT_FAILURE; bool server_started = false; bool file_pusher_initialized = false; bool recorder_initialized = false; bool recorder_started = false; #ifdef HAVE_V4L2 bool v4l2_sink_initialized = false; #endif bool video_demuxer_started = false; bool audio_demuxer_started = false; #ifdef HAVE_USB bool aoa_hid_initialized = false; bool keyboard_aoa_initialized = false; bool mouse_aoa_initialized = false; #endif bool controller_initialized = false; bool controller_started = false; bool screen_initialized = false; bool timeout_initialized = false; bool timeout_started = false; struct sc_acksync *acksync = NULL; uint32_t scid = scrcpy_generate_scid(); struct sc_server_params params = { .scid = scid, .req_serial = options->serial, .select_usb = options->select_usb, .select_tcpip = options->select_tcpip, .log_level = options->log_level, .video_codec = options->video_codec, .audio_codec = options->audio_codec, .video_source = options->video_source, .audio_source = options->audio_source, .camera_facing = options->camera_facing, .crop = options->crop, .port_range = options->port_range, .tunnel_host = options->tunnel_host, .tunnel_port = options->tunnel_port, .max_size = options->max_size, .video_bit_rate = options->video_bit_rate, .audio_bit_rate = options->audio_bit_rate, .max_fps = options->max_fps, .lock_video_orientation = options->lock_video_orientation, .control = options->control, .display_id = options->display_id, .video = options->video, .audio = options->audio, .show_touches = options->show_touches, .stay_awake = options->stay_awake, .video_codec_options = options->video_codec_options, .audio_codec_options = options->audio_codec_options, .video_encoder = options->video_encoder, .audio_encoder = options->audio_encoder, .camera_id = options->camera_id, .camera_size = options->camera_size, .camera_ar = options->camera_ar, .camera_fps = options->camera_fps, .force_adb_forward = options->force_adb_forward, .power_off_on_close = options->power_off_on_close, .clipboard_autosync = options->clipboard_autosync, .downsize_on_error = options->downsize_on_error, .tcpip = options->tcpip, .tcpip_dst = options->tcpip_dst, .cleanup = options->cleanup, .power_on = options->power_on, .kill_adb_on_close = options->kill_adb_on_close, .camera_high_speed = options->camera_high_speed, .list = options->list, }; static const struct sc_server_callbacks cbs = { .on_connection_failed = sc_server_on_connection_failed, .on_connected = sc_server_on_connected, .on_disconnected = sc_server_on_disconnected, }; if (!sc_server_init(&s->server, ¶ms, &cbs, NULL)) { return SCRCPY_EXIT_FAILURE; } if (!sc_server_start(&s->server)) { goto end; } server_started = true; if (options->list) { bool ok = await_for_server(NULL); ret = ok ? SCRCPY_EXIT_SUCCESS : SCRCPY_EXIT_FAILURE; goto end; } // playback implies capture assert(!options->video_playback || options->video); assert(!options->audio_playback || options->audio); if (options->video_playback) { sdl_set_hints(options->render_driver); } if (options->video_playback || (options->control && options->clipboard_autosync)) { // Initialize the video subsystem even if --no-video or // --no-video-playback is passed so that clipboard synchronization // still works. // if (SDL_Init(SDL_INIT_VIDEO)) { // If it fails, it is an error only if video playback is enabled if (options->video_playback) { LOGE("Could not initialize SDL video: %s", SDL_GetError()); goto end; } else { LOGW("Could not initialize SDL video: %s", SDL_GetError()); } } } if (options->audio_playback) { if (SDL_Init(SDL_INIT_AUDIO)) { LOGE("Could not initialize SDL audio: %s", SDL_GetError()); goto end; } } sdl_configure(options->video_playback, options->disable_screensaver); // Await for server without blocking Ctrl+C handling bool connected; if (!await_for_server(&connected)) { LOGE("Server connection failed"); goto end; } if (!connected) { // This is not an error, user requested to quit LOGD("User requested to quit"); ret = SCRCPY_EXIT_SUCCESS; goto end; } LOGD("Server connected"); // It is necessarily initialized here, since the device is connected struct sc_server_info *info = &s->server.info; const char *serial = s->server.serial; assert(serial); struct sc_file_pusher *fp = NULL; if (options->video_playback && options->control) { if (!sc_file_pusher_init(&s->file_pusher, serial, options->push_target)) { goto end; } fp = &s->file_pusher; file_pusher_initialized = true; } if (options->video) { static const struct sc_demuxer_callbacks video_demuxer_cbs = { .on_ended = sc_video_demuxer_on_ended, }; sc_demuxer_init(&s->video_demuxer, "video", s->server.video_socket, &video_demuxer_cbs, NULL); } if (options->audio) { static const struct sc_demuxer_callbacks audio_demuxer_cbs = { .on_ended = sc_audio_demuxer_on_ended, }; sc_demuxer_init(&s->audio_demuxer, "audio", s->server.audio_socket, &audio_demuxer_cbs, options); } bool needs_video_decoder = options->video_playback; bool needs_audio_decoder = options->audio_playback; #ifdef HAVE_V4L2 needs_video_decoder |= !!options->v4l2_device; #endif if (needs_video_decoder) { sc_decoder_init(&s->video_decoder, "video"); sc_packet_source_add_sink(&s->video_demuxer.packet_source, &s->video_decoder.packet_sink); } if (needs_audio_decoder) { sc_decoder_init(&s->audio_decoder, "audio"); sc_packet_source_add_sink(&s->audio_demuxer.packet_source, &s->audio_decoder.packet_sink); } if (options->record_filename) { static const struct sc_recorder_callbacks recorder_cbs = { .on_ended = sc_recorder_on_ended, }; if (!sc_recorder_init(&s->recorder, options->record_filename, options->record_format, options->video, options->audio, options->record_orientation, &recorder_cbs, NULL)) { goto end; } recorder_initialized = true; if (!sc_recorder_start(&s->recorder)) { goto end; } recorder_started = true; if (options->video) { sc_packet_source_add_sink(&s->video_demuxer.packet_source, &s->recorder.video_packet_sink); } if (options->audio) { sc_packet_source_add_sink(&s->audio_demuxer.packet_source, &s->recorder.audio_packet_sink); } } struct sc_controller *controller = NULL; struct sc_key_processor *kp = NULL; struct sc_mouse_processor *mp = NULL; if (options->control) { if (!sc_controller_init(&s->controller, s->server.control_socket)) { goto end; } controller_initialized = true; controller = &s->controller; #ifdef HAVE_USB bool use_keyboard_aoa = options->keyboard_input_mode == SC_KEYBOARD_INPUT_MODE_AOA; bool use_mouse_aoa = options->mouse_input_mode == SC_MOUSE_INPUT_MODE_AOA; if (use_keyboard_aoa || use_mouse_aoa) { bool ok = sc_acksync_init(&s->acksync); if (!ok) { goto end; } ok = sc_usb_init(&s->usb); if (!ok) { LOGE("Failed to initialize USB"); sc_acksync_destroy(&s->acksync); goto aoa_hid_end; } assert(serial); struct sc_usb_device usb_device; ok = sc_usb_select_device(&s->usb, serial, &usb_device); if (!ok) { sc_usb_destroy(&s->usb); goto aoa_hid_end; } LOGI("USB device: %s (%04" PRIx16 ":%04" PRIx16 ") %s %s", usb_device.serial, usb_device.vid, usb_device.pid, usb_device.manufacturer, usb_device.product); ok = sc_usb_connect(&s->usb, usb_device.device, NULL, NULL); sc_usb_device_destroy(&usb_device); if (!ok) { LOGE("Failed to connect to USB device %s", serial); sc_usb_destroy(&s->usb); sc_acksync_destroy(&s->acksync); goto aoa_hid_end; } ok = sc_aoa_init(&s->aoa, &s->usb, &s->acksync); if (!ok) { LOGE("Failed to enable HID over AOA"); sc_usb_disconnect(&s->usb); sc_usb_destroy(&s->usb); sc_acksync_destroy(&s->acksync); goto aoa_hid_end; } if (use_keyboard_aoa) { if (sc_keyboard_aoa_init(&s->keyboard_aoa, &s->aoa)) { keyboard_aoa_initialized = true; kp = &s->keyboard_aoa.key_processor; } else { LOGE("Could not initialize HID keyboard"); } } if (use_mouse_aoa) { if (sc_mouse_aoa_init(&s->mouse_aoa, &s->aoa)) { mouse_aoa_initialized = true; mp = &s->mouse_aoa.mouse_processor; } else { LOGE("Could not initialized HID mouse"); } } bool need_aoa = keyboard_aoa_initialized || mouse_aoa_initialized; if (!need_aoa || !sc_aoa_start(&s->aoa)) { sc_acksync_destroy(&s->acksync); sc_usb_disconnect(&s->usb); sc_usb_destroy(&s->usb); sc_aoa_destroy(&s->aoa); goto aoa_hid_end; } acksync = &s->acksync; aoa_hid_initialized = true; aoa_hid_end: if (!aoa_hid_initialized) { if (keyboard_aoa_initialized) { sc_keyboard_aoa_destroy(&s->keyboard_aoa); keyboard_aoa_initialized = false; } if (mouse_aoa_initialized) { sc_mouse_aoa_destroy(&s->mouse_aoa); mouse_aoa_initialized = false; } } if (use_keyboard_aoa && !keyboard_aoa_initialized) { LOGE("Fallback to --keyboard=sdk (--keyboard=aoa ignored)"); options->keyboard_input_mode = SC_KEYBOARD_INPUT_MODE_SDK; } if (use_mouse_aoa && !mouse_aoa_initialized) { LOGE("Fallback to --keyboard=sdk (--keyboard=aoa ignored)"); options->mouse_input_mode = SC_MOUSE_INPUT_MODE_SDK; } } #else assert(options->keyboard_input_mode != SC_KEYBOARD_INPUT_MODE_AOA); assert(options->mouse_input_mode != SC_MOUSE_INPUT_MODE_AOA); #endif // keyboard_input_mode may have been reset if HID mode failed if (options->keyboard_input_mode == SC_KEYBOARD_INPUT_MODE_SDK) { sc_keyboard_sdk_init(&s->keyboard_sdk, &s->controller, options->key_inject_mode, options->forward_key_repeat); kp = &s->keyboard_sdk.key_processor; } // mouse_input_mode may have been reset if HID mode failed if (options->mouse_input_mode == SC_MOUSE_INPUT_MODE_SDK) { sc_mouse_sdk_init(&s->mouse_sdk, &s->controller); mp = &s->mouse_sdk.mouse_processor; } sc_controller_set_acksync(&s->controller, acksync); if (!sc_controller_start(&s->controller)) { goto end; } controller_started = true; } // There is a controller if and only if control is enabled assert(options->control == !!controller); if (options->video_playback) { const char *window_title = options->window_title ? options->window_title : info->device_name; struct sc_screen_params screen_params = { .controller = controller, .fp = fp, .kp = kp, .mp = mp, .forward_all_clicks = options->forward_all_clicks, .legacy_paste = options->legacy_paste, .clipboard_autosync = options->clipboard_autosync, .shortcut_mods = &options->shortcut_mods, .window_title = window_title, .always_on_top = options->always_on_top, .window_x = options->window_x, .window_y = options->window_y, .window_width = options->window_width, .window_height = options->window_height, .window_borderless = options->window_borderless, .orientation = options->display_orientation, .mipmaps = options->mipmaps, .fullscreen = options->fullscreen, .start_fps_counter = options->start_fps_counter, }; struct sc_frame_source *src = &s->video_decoder.frame_source; if (options->display_buffer) { sc_delay_buffer_init(&s->display_buffer, options->display_buffer, true); sc_frame_source_add_sink(src, &s->display_buffer.frame_sink); src = &s->display_buffer.frame_source; } if (!sc_screen_init(&s->screen, &screen_params)) { goto end; } screen_initialized = true; sc_frame_source_add_sink(src, &s->screen.frame_sink); } if (options->audio_playback) { sc_audio_player_init(&s->audio_player, options->audio_buffer, options->audio_output_buffer); sc_frame_source_add_sink(&s->audio_decoder.frame_source, &s->audio_player.frame_sink); } #ifdef HAVE_V4L2 if (options->v4l2_device) { if (!sc_v4l2_sink_init(&s->v4l2_sink, options->v4l2_device)) { goto end; } struct sc_frame_source *src = &s->video_decoder.frame_source; if (options->v4l2_buffer) { sc_delay_buffer_init(&s->v4l2_buffer, options->v4l2_buffer, true); sc_frame_source_add_sink(src, &s->v4l2_buffer.frame_sink); src = &s->v4l2_buffer.frame_source; } sc_frame_source_add_sink(src, &s->v4l2_sink.frame_sink); v4l2_sink_initialized = true; } #endif // Now that the header values have been consumed, the socket(s) will // receive the stream(s). Start the demuxer(s). if (options->video) { if (!sc_demuxer_start(&s->video_demuxer)) { goto end; } video_demuxer_started = true; } if (options->audio) { if (!sc_demuxer_start(&s->audio_demuxer)) { goto end; } audio_demuxer_started = true; } // If the device screen is to be turned off, send the control message after // everything is set up if (options->control && options->turn_screen_off) { struct sc_control_msg msg; msg.type = SC_CONTROL_MSG_TYPE_SET_SCREEN_POWER_MODE; msg.set_screen_power_mode.mode = SC_SCREEN_POWER_MODE_OFF; if (!sc_controller_push_msg(&s->controller, &msg)) { LOGW("Could not request 'set screen power mode'"); } } if (options->time_limit) { bool ok = sc_timeout_init(&s->timeout); if (!ok) { goto end; } timeout_initialized = true; sc_tick deadline = sc_tick_now() + options->time_limit; static const struct sc_timeout_callbacks cbs = { .on_timeout = sc_timeout_on_timeout, }; ok = sc_timeout_start(&s->timeout, deadline, &cbs, NULL); if (!ok) { goto end; } timeout_started = true; } ret = event_loop(s); LOGD("quit..."); // Close the window immediately on closing, because screen_destroy() may // only be called once the video demuxer thread is joined (it may take time) sc_screen_hide_window(&s->screen); end: if (timeout_started) { sc_timeout_stop(&s->timeout); } // The demuxer is not stopped explicitly, because it will stop by itself on // end-of-stream #ifdef HAVE_USB if (aoa_hid_initialized) { if (keyboard_aoa_initialized) { sc_keyboard_aoa_destroy(&s->keyboard_aoa); } if (mouse_aoa_initialized) { sc_mouse_aoa_destroy(&s->mouse_aoa); } sc_aoa_stop(&s->aoa); sc_usb_stop(&s->usb); } if (acksync) { sc_acksync_destroy(acksync); } #endif if (controller_started) { sc_controller_stop(&s->controller); } if (file_pusher_initialized) { sc_file_pusher_stop(&s->file_pusher); } if (recorder_initialized) { sc_recorder_stop(&s->recorder); } if (screen_initialized) { sc_screen_interrupt(&s->screen); } if (server_started) { // shutdown the sockets and kill the server sc_server_stop(&s->server); } if (timeout_started) { sc_timeout_join(&s->timeout); } if (timeout_initialized) { sc_timeout_destroy(&s->timeout); } // now that the sockets are shutdown, the demuxer and controller are // interrupted, we can join them if (video_demuxer_started) { sc_demuxer_join(&s->video_demuxer); } if (audio_demuxer_started) { sc_demuxer_join(&s->audio_demuxer); } #ifdef HAVE_V4L2 if (v4l2_sink_initialized) { sc_v4l2_sink_destroy(&s->v4l2_sink); } #endif #ifdef HAVE_USB if (aoa_hid_initialized) { sc_aoa_join(&s->aoa); sc_aoa_destroy(&s->aoa); sc_usb_join(&s->usb); sc_usb_disconnect(&s->usb); sc_usb_destroy(&s->usb); } #endif // Destroy the screen only after the video demuxer is guaranteed to be // finished, because otherwise the screen could receive new frames after // destruction if (screen_initialized) { sc_screen_join(&s->screen); sc_screen_destroy(&s->screen); } if (controller_started) { sc_controller_join(&s->controller); } if (controller_initialized) { sc_controller_destroy(&s->controller); } if (recorder_started) { sc_recorder_join(&s->recorder); } if (recorder_initialized) { sc_recorder_destroy(&s->recorder); } if (file_pusher_initialized) { sc_file_pusher_join(&s->file_pusher); sc_file_pusher_destroy(&s->file_pusher); } if (server_started) { sc_server_join(&s->server); } sc_server_destroy(&s->server); return ret; }