import json import socket import time import picamera from enum import Enum from redis import Redis from threading import Thread from platypush.backend import Backend class CameraPiBackend(Backend): class CameraAction(Enum): START_RECORDING = 'START_RECORDING' STOP_RECORDING = 'STOP_RECORDING' TAKE_PICTURE = 'TAKE_PICTURE' def __eq__(self, other): return self.value == other def __init__(self, listen_port, x_resolution=640, y_resolution=480, redis_queue='platypush_mq_camera', start_recording_on_startup=True, framerate=24, hflip=False, vflip=False, sharpness=0, contrast=0, brightness=50, video_stabilization=False, ISO=0, exposure_compensation=0, exposure_mode='auto', meter_mode='average', awb_mode='auto', image_effect='none', color_effects=None, rotation=0, crop=(0.0, 0.0, 1.0, 1.0), **kwargs): """ See https://www.raspberrypi.org/documentation/usage/camera/python/README.md for a detailed reference about the Pi camera options """ super().__init__(**kwargs) self.listen_port = listen_port self.server_socket = socket.socket() self.server_socket.bind(('0.0.0.0', self.listen_port)) self.server_socket.listen(0) self.camera = picamera.PiCamera() self.camera.resolution = (x_resolution, y_resolution) self.camera.framerate = framerate self.camera.hflip = hflip self.camera.vflip = vflip self.camera.sharpness = sharpness self.camera.contrast = contrast self.camera.brightness = brightness self.camera.video_stabilization = video_stabilization self.camera.ISO = ISO self.camera.exposure_compensation = exposure_compensation self.camera.exposure_mode = exposure_mode self.camera.meter_mode = meter_mode self.camera.awb_mode = awb_mode self.camera.image_effect = image_effect self.camera.color_effects = color_effects self.camera.rotation = rotation self.camera.crop = crop self.start_recording_on_startup = start_recording_on_startup self.redis = Redis() self.redis_queue = redis_queue self._recording_thread = None if self.start_recording_on_startup: self.send_camera_action(self.CameraAction.START_RECORDING) self.logger.info('Initialized Pi camera backend') def send_camera_action(self, action, **kwargs): action = { 'action': action.value, **kwargs } self.redis.rpush(self.redis_queue, json.dumps(action)) def take_picture(self, image_file): self.logger.info('Capturing camera snapshot to {}'.format(image_file)) self.camera.capture(image_file) self.logger.info('Captured camera snapshot to {}'.format(image_file)) def start_recording(self, video_file=None, format='h264'): def recording_thread(): if video_file: self.camera.start_recording(videofile, format=format) while True: self.camera.wait_recording(60) else: connection = self.server_socket.accept()[0].makefile('wb') self.logger.info('Accepted client connection on port {}'. format(self.listen_port)) try: self.camera.start_recording(connection, format=format) while True: self.camera.wait_recording(60) except ConnectionError: self.logger.info('Client closed connection') try: self.stop_recording() connection.close() except: pass self.send_camera_action(self.CameraAction.START_RECORDING) self._recording_thread = None if self._recording_thread: self._recording_thread.join() self.logger.info('Starting camera recording') self._recording_thread = Thread(target=recording_thread) self._recording_thread.start() def stop_recording(self): self.logger.info('Stopping camera recording') try: self.camera.stop_recording() except: self.logger.info('No recording currently in progress') def run(self): super().run() while not self.should_stop(): msg = json.loads(self.redis.blpop(self.redis_queue)[1].decode()) if msg.get('action') == self.CameraAction.START_RECORDING: self.start_recording() elif msg.get('action') == self.CameraAction.STOP_RECORDING: self.stop_recording() elif msg.get('action') == self.CameraAction.TAKE_PICTURE: self.take_picture(image_file=msg.get('image_file')) # vim:sw=4:ts=4:et: