"""Handle outputting raw frigate frames""" import logging import multiprocessing as mp import os import shutil import signal import threading from typing import Optional from wsgiref.simple_server import make_server from setproctitle import setproctitle from ws4py.server.wsgirefserver import ( WebSocketWSGIHandler, WebSocketWSGIRequestHandler, WSGIServer, ) from ws4py.server.wsgiutils import WebSocketWSGIApplication from frigate.comms.detections_updater import DetectionSubscriber, DetectionTypeEnum from frigate.comms.ws import WebSocket from frigate.config import FrigateConfig from frigate.const import CACHE_DIR, CLIPS_DIR from frigate.output.birdseye import Birdseye from frigate.output.camera import JsmpegCamera from frigate.output.preview import PreviewRecorder from frigate.util.image import SharedMemoryFrameManager logger = logging.getLogger(__name__) def output_frames( config: FrigateConfig, ): threading.current_thread().name = "output" setproctitle("frigate.output") stop_event = mp.Event() def receiveSignal(signalNumber, frame): stop_event.set() signal.signal(signal.SIGTERM, receiveSignal) signal.signal(signal.SIGINT, receiveSignal) frame_manager = SharedMemoryFrameManager() # start a websocket server on 8082 WebSocketWSGIHandler.http_version = "1.1" websocket_server = make_server( "127.0.0.1", 8082, server_class=WSGIServer, handler_class=WebSocketWSGIRequestHandler, app=WebSocketWSGIApplication(handler_cls=WebSocket), ) websocket_server.initialize_websockets_manager() websocket_thread = threading.Thread(target=websocket_server.serve_forever) detection_subscriber = DetectionSubscriber(DetectionTypeEnum.video) jsmpeg_cameras: dict[str, JsmpegCamera] = {} birdseye: Optional[Birdseye] = None preview_recorders: dict[str, PreviewRecorder] = {} preview_write_times: dict[str, float] = {} failed_frame_requests: dict[str, int] = {} move_preview_frames("cache") for camera, cam_config in config.cameras.items(): if not cam_config.enabled: continue jsmpeg_cameras[camera] = JsmpegCamera(cam_config, stop_event, websocket_server) preview_recorders[camera] = PreviewRecorder(cam_config) preview_write_times[camera] = 0 if config.birdseye.enabled: birdseye = Birdseye(config, stop_event, websocket_server) websocket_thread.start() while not stop_event.is_set(): (topic, data) = detection_subscriber.check_for_update(timeout=1) if not topic: continue ( camera, frame_time, current_tracked_objects, motion_boxes, regions, ) = data frame_id = f"{camera}{frame_time}" frame = frame_manager.get(frame_id, config.cameras[camera].frame_shape_yuv) if frame is None: logger.debug(f"Failed to get frame {frame_id} from SHM") failed_frame_requests[camera] = failed_frame_requests.get(camera, 0) + 1 if failed_frame_requests[camera] > config.cameras[camera].detect.fps: logger.warning( f"Failed to retrieve many frames for {camera} from SHM, consider increasing SHM size if this continues." ) continue else: failed_frame_requests[camera] = 0 # send camera frame to ffmpeg process if websockets are connected if any( ws.environ["PATH_INFO"].endswith(camera) for ws in websocket_server.manager ): # write to the converter for the camera if clients are listening to the specific camera jsmpeg_cameras[camera].write_frame(frame.tobytes()) # send output data to birdseye if websocket is connected or restreaming if config.birdseye.enabled and ( config.birdseye.restream or any( ws.environ["PATH_INFO"].endswith("birdseye") for ws in websocket_server.manager ) ): birdseye.write_data( camera, current_tracked_objects, motion_boxes, frame_time, frame, ) # send frames for low fps recording generated_preview = preview_recorders[camera].write_data( current_tracked_objects, motion_boxes, frame_time, frame ) preview_write_times[camera] = frame_time # if another camera generated a preview, # check for any cameras that are currently offline # and need to generate a preview if generated_preview: for camera, time in preview_write_times.copy().items(): if time != 0 and frame_time - time > 10: preview_recorders[camera].flag_offline(frame_time) preview_write_times[camera] = frame_time frame_manager.close(frame_id) move_preview_frames("clips") while True: (topic, data) = detection_subscriber.check_for_update(timeout=0) if not topic: break ( camera, frame_time, current_tracked_objects, motion_boxes, regions, ) = data frame_id = f"{camera}{frame_time}" frame = frame_manager.get(frame_id, config.cameras[camera].frame_shape_yuv) frame_manager.close(frame_id) detection_subscriber.stop() for jsmpeg in jsmpeg_cameras.values(): jsmpeg.stop() for preview in preview_recorders.values(): preview.stop() if birdseye is not None: birdseye.stop() websocket_server.manager.close_all() websocket_server.manager.stop() websocket_server.manager.join() websocket_server.shutdown() websocket_thread.join() logger.info("exiting output process...") def move_preview_frames(loc: str): preview_holdover = os.path.join(CLIPS_DIR, "preview_restart_cache") preview_cache = os.path.join(CACHE_DIR, "preview_frames") try: if loc == "clips": shutil.move(preview_cache, preview_holdover) elif loc == "cache": if not os.path.exists(preview_holdover): return shutil.move(preview_holdover, preview_cache) except shutil.Error: logger.error("Failed to restore preview cache.")