import datetime import logging import multiprocessing as mp import os import queue import signal import threading from abc import ABC, abstractmethod from typing import Dict import numpy as np from pycoral.adapters import detect import tflite_runtime.interpreter as tflite from setproctitle import setproctitle from tflite_runtime.interpreter import load_delegate from frigate.util import EventsPerSecond, SharedMemoryFrameManager, listen logger = logging.getLogger(__name__) def load_labels(path, encoding="utf-8"): """Loads labels from file (with or without index numbers). Args: path: path to label file. encoding: label file encoding. Returns: Dictionary mapping indices to labels. """ with open(path, "r", encoding=encoding) as f: lines = f.readlines() if not lines: return {} if lines[0].split(" ", maxsplit=1)[0].isdigit(): pairs = [line.split(" ", maxsplit=1) for line in lines] return {int(index): label.strip() for index, label in pairs} else: return {index: line.strip() for index, line in enumerate(lines)} class ObjectDetector(ABC): @abstractmethod def detect(self, tensor_input, threshold=0.4): pass class LocalObjectDetector(ObjectDetector): def __init__(self, tf_device=None, num_threads=3, labels=None): self.fps = EventsPerSecond() if labels is None: self.labels = {} else: self.labels = load_labels(labels) device_config = {"device": "usb"} if not tf_device is None: device_config = {"device": tf_device} edge_tpu_delegate = None if tf_device != "cpu": try: logger.info(f"Attempting to load TPU as {device_config['device']}") edge_tpu_delegate = load_delegate("libedgetpu.so.1.0", device_config) logger.info("TPU found") self.interpreter = tflite.Interpreter( model_path="/edgetpu_model.tflite", experimental_delegates=[edge_tpu_delegate], ) except ValueError: logger.info("No EdgeTPU detected.") raise else: self.interpreter = tflite.Interpreter( model_path="/cpu_model.tflite", num_threads=num_threads ) self.interpreter.allocate_tensors() self.tensor_input_details = self.interpreter.get_input_details() self.tensor_output_details = self.interpreter.get_output_details() def detect(self, tensor_input, threshold=0.4): detections = [] raw_detections = self.detect_raw(tensor_input) for d in raw_detections: if d[1] < threshold: break detections.append( (self.labels[int(d[0])], float(d[1]), (d[2], d[3], d[4], d[5])) ) self.fps.update() return detections def detect_raw(self, tensor_input): self.interpreter.set_tensor(self.tensor_input_details[0]["index"], tensor_input) self.interpreter.invoke() objects = detect.get_objects(self.interpreter, 0.4) detections = np.zeros((20, 6), np.float32) for i, obj in enumerate(objects): if i == 20: break detections[i] = [ obj.id, obj.score, obj.bbox.ymin, obj.bbox.xmin, obj.bbox.ymax, obj.bbox.xmax, ] return detections def run_detector( name: str, detection_queue: mp.Queue, out_events: Dict[str, mp.Event], avg_speed, start, model_shape, tf_device, num_threads, ): threading.current_thread().name = f"detector:{name}" logger = logging.getLogger(f"detector.{name}") logger.info(f"Starting detection process: {os.getpid()}") setproctitle(f"frigate.detector.{name}") listen() stop_event = mp.Event() def receiveSignal(signalNumber, frame): stop_event.set() signal.signal(signal.SIGTERM, receiveSignal) signal.signal(signal.SIGINT, receiveSignal) frame_manager = SharedMemoryFrameManager() object_detector = LocalObjectDetector(tf_device=tf_device, num_threads=num_threads) outputs = {} for name in out_events.keys(): out_shm = mp.shared_memory.SharedMemory(name=f"out-{name}", create=False) out_np = np.ndarray((20, 6), dtype=np.float32, buffer=out_shm.buf) outputs[name] = {"shm": out_shm, "np": out_np} while not stop_event.is_set(): try: connection_id = detection_queue.get(timeout=5) except queue.Empty: continue input_frame = frame_manager.get( connection_id, (1, model_shape[0], model_shape[1], 3) ) if input_frame is None: continue # detect and send the output start.value = datetime.datetime.now().timestamp() detections = object_detector.detect_raw(input_frame) duration = datetime.datetime.now().timestamp() - start.value outputs[connection_id]["np"][:] = detections[:] out_events[connection_id].set() start.value = 0.0 avg_speed.value = (avg_speed.value * 9 + duration) / 10 class EdgeTPUProcess: def __init__( self, name, detection_queue, out_events, model_shape, tf_device=None, num_threads=3, ): self.name = name self.out_events = out_events self.detection_queue = detection_queue self.avg_inference_speed = mp.Value("d", 0.01) self.detection_start = mp.Value("d", 0.0) self.detect_process = None self.model_shape = model_shape self.tf_device = tf_device self.num_threads = num_threads self.start_or_restart() def stop(self): self.detect_process.terminate() logging.info("Waiting for detection process to exit gracefully...") self.detect_process.join(timeout=30) if self.detect_process.exitcode is None: logging.info("Detection process didnt exit. Force killing...") self.detect_process.kill() self.detect_process.join() def start_or_restart(self): self.detection_start.value = 0.0 if (not self.detect_process is None) and self.detect_process.is_alive(): self.stop() self.detect_process = mp.Process( target=run_detector, name=f"detector:{self.name}", args=( self.name, self.detection_queue, self.out_events, self.avg_inference_speed, self.detection_start, self.model_shape, self.tf_device, self.num_threads, ), ) self.detect_process.daemon = True self.detect_process.start() class RemoteObjectDetector: def __init__(self, name, labels, detection_queue, event, model_shape): self.labels = labels self.name = name self.fps = EventsPerSecond() self.detection_queue = detection_queue self.event = event self.shm = mp.shared_memory.SharedMemory(name=self.name, create=False) self.np_shm = np.ndarray( (1, model_shape[0], model_shape[1], 3), dtype=np.uint8, buffer=self.shm.buf ) self.out_shm = mp.shared_memory.SharedMemory( name=f"out-{self.name}", create=False ) self.out_np_shm = np.ndarray((20, 6), dtype=np.float32, buffer=self.out_shm.buf) def detect(self, tensor_input, threshold=0.4): detections = [] # copy input to shared memory self.np_shm[:] = tensor_input[:] self.event.clear() self.detection_queue.put(self.name) result = self.event.wait(timeout=10.0) # if it timed out if result is None: return detections for d in self.out_np_shm: if d[1] < threshold: break detections.append( (self.labels[int(d[0])], float(d[1]), (d[2], d[3], d[4], d[5])) ) self.fps.update() return detections def cleanup(self): self.shm.unlink() self.out_shm.unlink()