blakeblackshear.frigate/frigate/http.py

import datetime
import logging
import os
import time
from functools import reduce

import cv2
import numpy as np
from flask import (Blueprint, Flask, Response, current_app, jsonify,
                   make_response, request)
from peewee import SqliteDatabase, operator, fn
from playhouse.shortcuts import model_to_dict

from frigate.models import Event

bp = Blueprint('frigate', __name__)

def create_app(frigate_config, database: SqliteDatabase, camera_metrics, detectors, detected_frames_processor):
    app = Flask(__name__)
    log = logging.getLogger('werkzeug')
    log.setLevel(logging.INFO)

    @app.before_request
    def _db_connect():
        database.connect()

    @app.teardown_request
    def _db_close(exc):
        if not database.is_closed():
            database.close()

    app.frigate_config = frigate_config
    app.camera_metrics = camera_metrics
    app.detectors = detectors
    app.detected_frames_processor = detected_frames_processor
    
    app.register_blueprint(bp)

    return app

@bp.route('/')
def is_healthy():
    return "Frigate is running. Alive and healthy!"

@bp.route('/events/summary')
def events_summary():
    groups = (
        Event
            .select(
                Event.camera, 
                Event.label, 
                fn.strftime('%Y-%m-%d', fn.datetime(Event.start_time, 'unixepoch', 'localtime')).alias('day'), 
                fn.COUNT(Event.id).alias('count')
            )
            .group_by(
                Event.camera, 
                Event.label, 
                fn.strftime('%Y-%m-%d', fn.datetime(Event.start_time, 'unixepoch', 'localtime'))
            )
        )

    return jsonify([e for e in groups.dicts()])

@bp.route('/events')
def events():
    limit = request.args.get('limit', 100)
    camera = request.args.get('camera')
    label = request.args.get('label')
    zone = request.args.get('zone')
    after = request.args.get('after', type=int)
    before = request.args.get('before', type=int)

    clauses = []
    
    if camera:
        clauses.append((Event.camera == camera))
    
    if label:
        clauses.append((Event.label == label))
    
    if zone:
        clauses.append((Event.zones.cast('text') % f"*\"{zone}\"*"))
    
    if after:
        clauses.append((Event.start_time >= after))
    
    if before:
        clauses.append((Event.start_time <= before))

    if len(clauses) == 0:
        clauses.append((1 == 1))

    events =    (Event.select()
                .where(reduce(operator.and_, clauses))
                .order_by(Event.start_time.desc())
                .limit(limit))

    return jsonify([model_to_dict(e) for e in events])

@bp.route('/config')
def config():
    return jsonify(current_app.frigate_config.to_dict())

@bp.route('/stats')
def stats():
    camera_metrics = current_app.camera_metrics
    stats = {}

    total_detection_fps = 0

    for name, camera_stats in camera_metrics.items():
        total_detection_fps += camera_stats['detection_fps'].value
        stats[name] = {
            'camera_fps': round(camera_stats['camera_fps'].value, 2),
            'process_fps': round(camera_stats['process_fps'].value, 2),
            'skipped_fps': round(camera_stats['skipped_fps'].value, 2),
            'detection_fps': round(camera_stats['detection_fps'].value, 2),
            'pid': camera_stats['process'].pid,
            'capture_pid': camera_stats['capture_process'].pid
        }
    
    stats['detectors'] = {}
    for name, detector in current_app.detectors.items():
        stats['detectors'][name] = {
            'inference_speed': round(detector.avg_inference_speed.value*1000, 2),
            'detection_start': detector.detection_start.value,
            'pid': detector.detect_process.pid
        }
    stats['detection_fps'] = round(total_detection_fps, 2)

    return jsonify(stats)

@bp.route('/<camera_name>/<label>/best.jpg')
def best(camera_name, label):
    if camera_name in current_app.frigate_config.cameras:
        best_object = current_app.detected_frames_processor.get_best(camera_name, label)
        best_frame = best_object.get('frame')
        if best_frame is None:
            best_frame = np.zeros((720,1280,3), np.uint8)
        else:
            best_frame = cv2.cvtColor(best_frame, cv2.COLOR_YUV2BGR_I420)
        
        crop = bool(request.args.get('crop', 0, type=int))
        if crop:
            region = best_object.get('region', [0,0,300,300])
            best_frame = best_frame[region[1]:region[3], region[0]:region[2]]
        
        height = int(request.args.get('h', str(best_frame.shape[0])))
        width = int(height*best_frame.shape[1]/best_frame.shape[0])

        best_frame = cv2.resize(best_frame, dsize=(width, height), interpolation=cv2.INTER_AREA)
        ret, jpg = cv2.imencode('.jpg', best_frame)
        response = make_response(jpg.tobytes())
        response.headers['Content-Type'] = 'image/jpg'
        return response
    else:
        return "Camera named {} not found".format(camera_name), 404

@bp.route('/<camera_name>')
def mjpeg_feed(camera_name):
    fps = int(request.args.get('fps', '3'))
    height = int(request.args.get('h', '360'))
    if camera_name in current_app.frigate_config.cameras:
        # return a multipart response
        return Response(imagestream(current_app.detected_frames_processor, camera_name, fps, height),
                        mimetype='multipart/x-mixed-replace; boundary=frame')
    else:
        return "Camera named {} not found".format(camera_name), 404

@bp.route('/<camera_name>/latest.jpg')
def latest_frame(camera_name):
    if camera_name in current_app.frigate_config.cameras:
        # max out at specified FPS
        frame = current_app.detected_frames_processor.get_current_frame(camera_name)
        if frame is None:
            frame = np.zeros((720,1280,3), np.uint8)

        height = int(request.args.get('h', str(frame.shape[0])))
        width = int(height*frame.shape[1]/frame.shape[0])

        frame = cv2.resize(frame, dsize=(width, height), interpolation=cv2.INTER_AREA)

        ret, jpg = cv2.imencode('.jpg', frame)
        response = make_response(jpg.tobytes())
        response.headers['Content-Type'] = 'image/jpg'
        return response
    else:
        return "Camera named {} not found".format(camera_name), 404
        
def imagestream(detected_frames_processor, camera_name, fps, height):
    while True:
        # max out at specified FPS
        time.sleep(1/fps)
        frame = detected_frames_processor.get_current_frame(camera_name, draw=True)
        if frame is None:
            frame = np.zeros((height,int(height*16/9),3), np.uint8)

        width = int(height*frame.shape[1]/frame.shape[0])
        frame = cv2.resize(frame, dsize=(width, height), interpolation=cv2.INTER_LINEAR)

        ret, jpg = cv2.imencode('.jpg', frame)
        yield (b'--frame\r\n'
            b'Content-Type: image/jpeg\r\n\r\n' + jpg.tobytes() + b'\r\n\r\n')