from __future__ import annotations import base64 import dataclasses import datetime import json import logging import os from typing import Any, Dict, List, Optional, Tuple, Union import matplotlib.pyplot as plt import numpy as np import voluptuous as vol import yaml from frigate.const import BASE_DIR, RECORD_DIR, CLIPS_DIR, CACHE_DIR from frigate.util import create_mask logger = logging.getLogger(__name__) # TODO: Identify what the default format to display timestamps is DEFAULT_TIME_FORMAT = "%m/%d/%Y %H:%M:%S" # German Style: # DEFAULT_TIME_FORMAT = "%d.%m.%Y %H:%M:%S" DEFAULT_TRACKED_OBJECTS = ["person"] DEFAULT_RGB_COLOR = {"red": 255, "green": 255, "blue": 255} DEFAULT_DETECTORS = {"coral": {"type": "edgetpu", "device": "usb"}} DETECTORS_SCHEMA = vol.Schema( { vol.Required(str): { vol.Required("type", default="edgetpu"): vol.In(["cpu", "edgetpu"]), vol.Optional("device", default="usb"): str, vol.Optional("num_threads", default=3): int, } } ) @dataclasses.dataclass(frozen=True) class DetectorConfig: type: str device: str num_threads: int @classmethod def build(cls, config) -> DetectorConfig: return DetectorConfig(config["type"], config["device"], config["num_threads"]) def to_dict(self) -> Dict[str, Any]: return dataclasses.asdict(self) MQTT_SCHEMA = vol.Schema( { vol.Required("host"): str, vol.Optional("port", default=1883): int, vol.Optional("topic_prefix", default="frigate"): str, vol.Optional("client_id", default="frigate"): str, vol.Optional("stats_interval", default=60): int, vol.Inclusive("user", "auth"): str, vol.Inclusive("password", "auth"): str, vol.Optional("tls_ca_certs"): str, vol.Optional("tls_client_cert"): str, vol.Optional("tls_client_key"): str, vol.Optional("tls_insecure"): bool, } ) @dataclasses.dataclass(frozen=True) class MqttConfig: host: str port: int topic_prefix: str client_id: str stats_interval: int user: Optional[str] password: Optional[str] tls_ca_certs: Optional[str] tls_client_cert: Optional[str] tls_client_key: Optional[str] tls_insecure: Optional[bool] @classmethod def build(cls, config) -> MqttConfig: return MqttConfig( config["host"], config["port"], config["topic_prefix"], config["client_id"], config["stats_interval"], config.get("user"), config.get("password"), config.get("tls_ca_certs"), config.get("tls_client_cert"), config.get("tls_client_key"), config.get("tls_insecure"), ) def to_dict(self) -> Dict[str, Any]: return dataclasses.asdict(self) RETAIN_SCHEMA = vol.Schema( {vol.Required("default", default=10): int, "objects": {str: int}} ) @dataclasses.dataclass(frozen=True) class RetainConfig: default: int objects: Dict[str, int] @classmethod def build(cls, config, global_config={}) -> RetainConfig: return RetainConfig( config.get("default", global_config.get("default")), config.get("objects", global_config.get("objects", {})), ) def to_dict(self) -> Dict[str, Any]: return dataclasses.asdict(self) CLIPS_SCHEMA = vol.Schema( { vol.Optional("max_seconds", default=300): int, vol.Optional("retain", default={}): RETAIN_SCHEMA, } ) @dataclasses.dataclass(frozen=True) class ClipsConfig: max_seconds: int retain: RetainConfig @classmethod def build(cls, config) -> ClipsConfig: return ClipsConfig( config["max_seconds"], RetainConfig.build(config["retain"]), ) def to_dict(self) -> Dict[str, Any]: return { "max_seconds": self.max_seconds, "retain": self.retain.to_dict(), } MOTION_SCHEMA = vol.Schema( { "mask": vol.Any(str, [str]), "threshold": vol.Range(min=1, max=255), "contour_area": int, "delta_alpha": float, "frame_alpha": float, "frame_height": int, } ) @dataclasses.dataclass(frozen=True) class MotionConfig: raw_mask: Union[str, List[str]] mask: np.ndarray threshold: int contour_area: int delta_alpha: float frame_alpha: float frame_height: int @classmethod def build(cls, config, global_config, frame_shape) -> MotionConfig: raw_mask = config.get("mask") if raw_mask: mask = create_mask(frame_shape, raw_mask) else: mask = np.zeros(frame_shape, np.uint8) mask[:] = 255 return MotionConfig( raw_mask, mask, config.get("threshold", global_config.get("threshold", 25)), config.get("contour_area", global_config.get("contour_area", 100)), config.get("delta_alpha", global_config.get("delta_alpha", 0.2)), config.get("frame_alpha", global_config.get("frame_alpha", 0.2)), config.get( "frame_height", global_config.get("frame_height", frame_shape[0] // 6) ), ) def to_dict(self) -> Dict[str, Any]: return { "mask": self.raw_mask, "threshold": self.threshold, "contour_area": self.contour_area, "delta_alpha": self.delta_alpha, "frame_alpha": self.frame_alpha, "frame_height": self.frame_height, } GLOBAL_DETECT_SCHEMA = vol.Schema({"max_disappeared": int}) DETECT_SCHEMA = GLOBAL_DETECT_SCHEMA.extend( {vol.Optional("enabled", default=True): bool} ) @dataclasses.dataclass class DetectConfig: enabled: bool max_disappeared: int @classmethod def build(cls, config, global_config, camera_fps) -> DetectConfig: return DetectConfig( config["enabled"], config.get( "max_disappeared", global_config.get("max_disappeared", camera_fps * 5) ), ) def to_dict(self) -> Dict[str, Any]: return { "enabled": self.enabled, "max_disappeared": self.max_disappeared, } ZONE_FILTER_SCHEMA = vol.Schema( { str: { "min_area": int, "max_area": int, "threshold": float, } } ) FILTER_SCHEMA = ZONE_FILTER_SCHEMA.extend( { str: { "min_score": float, "mask": vol.Any(str, [str]), } } ) @dataclasses.dataclass(frozen=True) class FilterConfig: min_area: int max_area: int threshold: float min_score: float mask: Optional[np.ndarray] raw_mask: Union[str, List[str]] @classmethod def build( cls, config, global_config={}, global_mask=None, frame_shape=None ) -> FilterConfig: raw_mask = [] if global_mask: if isinstance(global_mask, list): raw_mask += global_mask elif isinstance(global_mask, str): raw_mask += [global_mask] config_mask = config.get("mask") if config_mask: if isinstance(config_mask, list): raw_mask += config_mask elif isinstance(config_mask, str): raw_mask += [config_mask] mask = create_mask(frame_shape, raw_mask) if raw_mask else None return FilterConfig( min_area=config.get("min_area", global_config.get("min_area", 0)), max_area=config.get("max_area", global_config.get("max_area", 24000000)), threshold=config.get("threshold", global_config.get("threshold", 0.7)), min_score=config.get("min_score", global_config.get("min_score", 0.5)), mask=mask, raw_mask=raw_mask, ) def to_dict(self) -> Dict[str, Any]: return { "min_area": self.min_area, "max_area": self.max_area, "threshold": self.threshold, "min_score": self.min_score, "mask": self.raw_mask, } ZONE_SCHEMA = { str: { vol.Required("coordinates"): vol.Any(str, [str]), vol.Optional("filters", default={}): ZONE_FILTER_SCHEMA, } } @dataclasses.dataclass(frozen=True) class ZoneConfig: filters: Dict[str, FilterConfig] coordinates: Union[str, List[str]] contour: np.ndarray color: Tuple[int, int, int] @classmethod def build(cls, config, color: Tuple[int, int, int]) -> ZoneConfig: coordinates = config["coordinates"] if isinstance(coordinates, list): contour = np.array( [[int(p.split(",")[0]), int(p.split(",")[1])] for p in coordinates] ) elif isinstance(coordinates, str): points = coordinates.split(",") contour = np.array( [[int(points[i]), int(points[i + 1])] for i in range(0, len(points), 2)] ) else: contour = np.array([]) return ZoneConfig( {name: FilterConfig.build(c) for name, c in config["filters"].items()}, coordinates, contour, color=color, ) def to_dict(self) -> Dict[str, Any]: return { "filters": {k: f.to_dict() for k, f in self.filters.items()}, "coordinates": self.coordinates, } def filters_for_all_tracked_objects(object_config): for tracked_object in object_config.get("track", DEFAULT_TRACKED_OBJECTS): if not "filters" in object_config: object_config["filters"] = {} if not tracked_object in object_config["filters"]: object_config["filters"][tracked_object] = {} return object_config OBJECTS_SCHEMA = vol.Schema( vol.All( filters_for_all_tracked_objects, { "track": [str], "mask": vol.Any(str, [str]), vol.Optional("filters", default={}): FILTER_SCHEMA, }, ) ) @dataclasses.dataclass(frozen=True) class ObjectConfig: track: List[str] filters: Dict[str, FilterConfig] raw_mask: Optional[Union[str, List[str]]] @classmethod def build(cls, config, global_config, frame_shape) -> ObjectConfig: track = config.get("track", global_config.get("track", DEFAULT_TRACKED_OBJECTS)) raw_mask = config.get("mask") return ObjectConfig( track, { name: FilterConfig.build( config["filters"].get(name, {}), global_config["filters"].get(name, {}), raw_mask, frame_shape, ) for name in track }, raw_mask, ) def to_dict(self) -> Dict[str, Any]: return { "track": self.track, "mask": self.raw_mask, "filters": {k: f.to_dict() for k, f in self.filters.items()}, } BIRDSEYE_SCHEMA = vol.Schema( { vol.Optional("enabled", default=True): bool, vol.Optional("width", default=1280): int, vol.Optional("height", default=720): int, vol.Optional("quality", default=8): vol.Range(min=1, max=31), vol.Optional("mode", default="objects"): vol.In( ["objects", "motion", "continuous"] ), } ) @dataclasses.dataclass(frozen=True) class BirdseyeConfig: enabled: bool width: int height: int quality: int mode: str @classmethod def build(cls, config) -> BirdseyeConfig: return BirdseyeConfig( config["enabled"], config["width"], config["height"], config["quality"], config["mode"], ) def to_dict(self) -> Dict[str, Any]: return dataclasses.asdict(self) FFMPEG_GLOBAL_ARGS_DEFAULT = ["-hide_banner", "-loglevel", "warning"] FFMPEG_INPUT_ARGS_DEFAULT = [ "-avoid_negative_ts", "make_zero", "-fflags", "+genpts+discardcorrupt", "-rtsp_transport", "tcp", "-stimeout", "5000000", "-use_wallclock_as_timestamps", "1", ] DETECT_FFMPEG_OUTPUT_ARGS_DEFAULT = ["-f", "rawvideo", "-pix_fmt", "yuv420p"] RTMP_FFMPEG_OUTPUT_ARGS_DEFAULT = ["-c", "copy", "-f", "flv"] SAVE_CLIPS_FFMPEG_OUTPUT_ARGS_DEFAULT = [ "-f", "segment", "-segment_time", "10", "-segment_format", "mp4", "-reset_timestamps", "1", "-strftime", "1", "-c", "copy", "-an", ] RECORD_FFMPEG_OUTPUT_ARGS_DEFAULT = [ "-f", "segment", "-segment_time", "60", "-segment_format", "mp4", "-reset_timestamps", "1", "-strftime", "1", "-c", "copy", "-an", ] GLOBAL_FFMPEG_SCHEMA = vol.Schema( { vol.Optional("global_args", default=FFMPEG_GLOBAL_ARGS_DEFAULT): vol.Any( str, [str] ), vol.Optional("hwaccel_args", default=[]): vol.Any(str, [str]), vol.Optional("input_args", default=FFMPEG_INPUT_ARGS_DEFAULT): vol.Any( str, [str] ), vol.Optional("output_args", default={}): { vol.Optional("detect", default=DETECT_FFMPEG_OUTPUT_ARGS_DEFAULT): vol.Any( str, [str] ), vol.Optional("record", default=RECORD_FFMPEG_OUTPUT_ARGS_DEFAULT): vol.Any( str, [str] ), vol.Optional( "clips", default=SAVE_CLIPS_FFMPEG_OUTPUT_ARGS_DEFAULT ): vol.Any(str, [str]), vol.Optional("rtmp", default=RTMP_FFMPEG_OUTPUT_ARGS_DEFAULT): vol.Any( str, [str] ), }, } ) def each_role_used_once(inputs): roles = [role for i in inputs for role in i["roles"]] roles_set = set(roles) if len(roles) > len(roles_set): raise ValueError return inputs def detect_is_required(inputs): roles = [role for i in inputs for role in i["roles"]] if not "detect" in roles: raise ValueError return inputs CAMERA_FFMPEG_SCHEMA = vol.Schema( { vol.Required("inputs"): vol.All( [ { vol.Required("path"): str, vol.Required("roles"): ["detect", "clips", "record", "rtmp"], "global_args": vol.Any(str, [str]), "hwaccel_args": vol.Any(str, [str]), "input_args": vol.Any(str, [str]), } ], vol.Msg(each_role_used_once, msg="Each input role may only be used once"), vol.Msg(detect_is_required, msg="The detect role is required"), ), "global_args": vol.Any(str, [str]), "hwaccel_args": vol.Any(str, [str]), "input_args": vol.Any(str, [str]), "output_args": { vol.Optional("detect", default=DETECT_FFMPEG_OUTPUT_ARGS_DEFAULT): vol.Any( str, [str] ), vol.Optional("record", default=RECORD_FFMPEG_OUTPUT_ARGS_DEFAULT): vol.Any( str, [str] ), vol.Optional( "clips", default=SAVE_CLIPS_FFMPEG_OUTPUT_ARGS_DEFAULT ): vol.Any(str, [str]), vol.Optional("rtmp", default=RTMP_FFMPEG_OUTPUT_ARGS_DEFAULT): vol.Any( str, [str] ), }, } ) @dataclasses.dataclass(frozen=True) class CameraFfmpegConfig: inputs: List[CameraInput] output_args: Dict[str, List[str]] @classmethod def build(cls, config, global_config): output_args = config.get("output_args", global_config["output_args"]) output_args = { k: v if isinstance(v, list) else v.split(" ") for k, v in output_args.items() } return CameraFfmpegConfig( [CameraInput.build(i, config, global_config) for i in config["inputs"]], output_args, ) @dataclasses.dataclass(frozen=True) class CameraInput: path: str roles: List[str] global_args: List[str] hwaccel_args: List[str] input_args: List[str] @classmethod def build(cls, ffmpeg_input, camera_config, global_config) -> CameraInput: return CameraInput( ffmpeg_input["path"], ffmpeg_input["roles"], CameraInput._extract_args( "global_args", ffmpeg_input, camera_config, global_config ), CameraInput._extract_args( "hwaccel_args", ffmpeg_input, camera_config, global_config ), CameraInput._extract_args( "input_args", ffmpeg_input, camera_config, global_config ), ) @staticmethod def _extract_args(name, ffmpeg_input, camera_config, global_config): args = ffmpeg_input.get(name, camera_config.get(name, global_config[name])) return args if isinstance(args, list) else args.split(" ") def ensure_zones_and_cameras_have_different_names(cameras): zones = [zone for camera in cameras.values() for zone in camera["zones"].keys()] for zone in zones: if zone in cameras.keys(): raise ValueError return cameras def ensure_timeformat_is_legit(format_string): datetime.datetime.now().strftime(format_string) return format_string RGB_COLOR_SCHEMA = vol.Schema( { vol.Required("red"): vol.Range(min=0, max=255), vol.Required("green"): vol.Range(min=0, max=255), vol.Required("blue"): vol.Range(min=0, max=255), } ) CAMERAS_SCHEMA = vol.Schema( vol.All( { str: { vol.Required("ffmpeg"): CAMERA_FFMPEG_SCHEMA, vol.Required("height"): int, vol.Required("width"): int, "fps": int, vol.Optional("best_image_timeout", default=60): int, vol.Optional("zones", default={}): ZONE_SCHEMA, vol.Optional("clips", default={}): { vol.Optional("enabled", default=False): bool, vol.Optional("pre_capture", default=5): int, vol.Optional("post_capture", default=5): int, vol.Optional("required_zones", default=[]): [str], "objects": [str], vol.Optional("retain", default={}): RETAIN_SCHEMA, }, vol.Optional("record", default={}): { "enabled": bool, "retain_days": int, }, vol.Optional("rtmp", default={}): { vol.Required("enabled", default=True): bool, }, vol.Optional("live", default={}): { "height": int, vol.Optional("quality", default=8): vol.Range(min=1, max=31), }, vol.Optional("snapshots", default={}): { vol.Optional("enabled", default=False): bool, vol.Optional("clean_copy", default=True): bool, vol.Optional("timestamp", default=False): bool, vol.Optional("bounding_box", default=False): bool, vol.Optional("crop", default=False): bool, vol.Optional("required_zones", default=[]): [str], "height": int, vol.Optional("retain", default={}): RETAIN_SCHEMA, }, vol.Optional("mqtt", default={}): { vol.Optional("enabled", default=True): bool, vol.Optional("timestamp", default=True): bool, vol.Optional("bounding_box", default=True): bool, vol.Optional("crop", default=True): bool, vol.Optional("height", default=270): int, vol.Optional("required_zones", default=[]): [str], }, vol.Optional("objects", default={}): OBJECTS_SCHEMA, vol.Optional("motion", default={}): MOTION_SCHEMA, vol.Optional("detect", default={}): DETECT_SCHEMA, vol.Optional("timestamp_style", default={}): { vol.Optional("position", default="tl"): vol.In( ["tl", "tr", "bl", "br"] ), vol.Optional( "format", default=DEFAULT_TIME_FORMAT ): ensure_timeformat_is_legit, vol.Optional("color", default=DEFAULT_RGB_COLOR): RGB_COLOR_SCHEMA, vol.Optional("scale", default=1.0): float, vol.Optional("thickness", default=2): int, vol.Optional("effect", default=None): vol.In( [None, "solid", "shadow"] ), }, } }, vol.Msg( ensure_zones_and_cameras_have_different_names, msg="Zones cannot share names with cameras", ), ) ) @dataclasses.dataclass class CameraSnapshotsConfig: enabled: bool clean_copy: bool timestamp: bool bounding_box: bool crop: bool required_zones: List[str] height: Optional[int] retain: RetainConfig @classmethod def build(cls, config, global_config) -> CameraSnapshotsConfig: return CameraSnapshotsConfig( enabled=config["enabled"], clean_copy=config["clean_copy"], timestamp=config["timestamp"], bounding_box=config["bounding_box"], crop=config["crop"], required_zones=config["required_zones"], height=config.get("height"), retain=RetainConfig.build( config["retain"], global_config["snapshots"]["retain"] ), ) def to_dict(self) -> Dict[str, Any]: return { "enabled": self.enabled, "clean_copy": self.clean_copy, "timestamp": self.timestamp, "bounding_box": self.bounding_box, "crop": self.crop, "height": self.height, "retain": self.retain.to_dict(), "required_zones": self.required_zones, } @dataclasses.dataclass class CameraMqttConfig: enabled: bool timestamp: bool bounding_box: bool crop: bool height: int required_zones: List[str] @classmethod def build(cls, config) -> CameraMqttConfig: return CameraMqttConfig( config["enabled"], config["timestamp"], config["bounding_box"], config["crop"], config.get("height"), config["required_zones"], ) def to_dict(self) -> Dict[str, Any]: return dataclasses.asdict(self) @dataclasses.dataclass class TimestampStyleConfig: position: str format: str color: Tuple[int, int, int] scale: float thickness: int effect: str @classmethod def build(cls, config) -> TimestampStyleConfig: return TimestampStyleConfig( config["position"], config["format"], (config["color"]["red"], config["color"]["green"], config["color"]["blue"]), config["scale"], config["thickness"], config["effect"], ) def to_dict(self) -> Dict[str, Any]: return dataclasses.asdict(self) @dataclasses.dataclass class CameraClipsConfig: enabled: bool pre_capture: int post_capture: int required_zones: List[str] objects: Optional[List[str]] retain: RetainConfig @classmethod def build(cls, config, global_config) -> CameraClipsConfig: return CameraClipsConfig( enabled=config["enabled"], pre_capture=config["pre_capture"], post_capture=config["post_capture"], required_zones=config["required_zones"], objects=config.get("objects"), retain=RetainConfig.build( config["retain"], global_config["clips"]["retain"], ), ) def to_dict(self) -> Dict[str, Any]: return { "enabled": self.enabled, "pre_capture": self.pre_capture, "post_capture": self.post_capture, "objects": self.objects, "retain": self.retain.to_dict(), "required_zones": self.required_zones, } @dataclasses.dataclass class CameraRtmpConfig: enabled: bool @classmethod def build(cls, config) -> CameraRtmpConfig: return CameraRtmpConfig(config["enabled"]) def to_dict(self) -> Dict[str, Any]: return dataclasses.asdict(self) @dataclasses.dataclass class CameraLiveConfig: height: int width: int quality: int @classmethod def build(cls, config, camera_height, camera_width) -> CameraRtmpConfig: if "height" in config and config["height"] <= camera_height: height = config["height"] width = int(height * (camera_width / camera_height)) else: height = camera_height width = camera_width return CameraLiveConfig(height, width, config["quality"]) def to_dict(self) -> Dict[str, Any]: return dataclasses.asdict(self) @dataclasses.dataclass(frozen=True) class CameraConfig: name: str ffmpeg: CameraFfmpegConfig height: int width: int fps: Optional[int] best_image_timeout: int zones: Dict[str, ZoneConfig] clips: CameraClipsConfig record: RecordConfig rtmp: CameraRtmpConfig live: CameraLiveConfig snapshots: CameraSnapshotsConfig mqtt: CameraMqttConfig objects: ObjectConfig motion: MotionConfig detect: DetectConfig timestamp_style: TimestampStyleConfig @property def frame_shape(self) -> Tuple[int, int]: return self.height, self.width @property def frame_shape_yuv(self) -> Tuple[int, int]: return self.height * 3 // 2, self.width @property def ffmpeg_cmds(self) -> List[Dict[str, List[str]]]: ffmpeg_cmds = [] for ffmpeg_input in self.ffmpeg.inputs: ffmpeg_cmd = self._get_ffmpeg_cmd(ffmpeg_input) if ffmpeg_cmd is None: continue ffmpeg_cmds.append({"roles": ffmpeg_input.roles, "cmd": ffmpeg_cmd}) return ffmpeg_cmds @classmethod def build(cls, name, config, global_config) -> CameraConfig: colors = plt.cm.get_cmap("tab10", len(config["zones"])) zones = { name: ZoneConfig.build(z, tuple(round(255 * c) for c in colors(idx)[:3])) for idx, (name, z) in enumerate(config["zones"].items()) } frame_shape = config["height"], config["width"] return CameraConfig( name=name, ffmpeg=CameraFfmpegConfig.build(config["ffmpeg"], global_config["ffmpeg"]), height=config["height"], width=config["width"], fps=config.get("fps"), best_image_timeout=config["best_image_timeout"], zones=zones, clips=CameraClipsConfig.build(config["clips"], global_config), record=RecordConfig.build(config["record"], global_config["record"]), rtmp=CameraRtmpConfig.build(config["rtmp"]), live=CameraLiveConfig.build( config["live"], config["height"], config["width"] ), snapshots=CameraSnapshotsConfig.build(config["snapshots"], global_config), mqtt=CameraMqttConfig.build(config["mqtt"]), objects=ObjectConfig.build( config.get("objects", {}), global_config["objects"], frame_shape ), motion=MotionConfig.build( config["motion"], global_config["motion"], frame_shape ), detect=DetectConfig.build( config["detect"], global_config["detect"], config.get("fps", 5) ), timestamp_style=TimestampStyleConfig.build(config["timestamp_style"]), ) def _get_ffmpeg_cmd(self, ffmpeg_input): ffmpeg_output_args = [] if "detect" in ffmpeg_input.roles: ffmpeg_output_args = ( self.ffmpeg.output_args["detect"] + ffmpeg_output_args + ["pipe:"] ) if self.fps: ffmpeg_output_args = ["-r", str(self.fps)] + ffmpeg_output_args if "rtmp" in ffmpeg_input.roles and self.rtmp.enabled: ffmpeg_output_args = ( self.ffmpeg.output_args["rtmp"] + [f"rtmp://127.0.0.1/live/{self.name}"] + ffmpeg_output_args ) if "clips" in ffmpeg_input.roles: ffmpeg_output_args = ( self.ffmpeg.output_args["clips"] + [f"{os.path.join(CACHE_DIR, self.name)}-%Y%m%d%H%M%S.mp4"] + ffmpeg_output_args ) if "record" in ffmpeg_input.roles and self.record.enabled: ffmpeg_output_args = ( self.ffmpeg.output_args["record"] + [f"{os.path.join(RECORD_DIR, self.name)}-%Y%m%d%H%M%S.mp4"] + ffmpeg_output_args ) # if there arent any outputs enabled for this input if len(ffmpeg_output_args) == 0: return None cmd = ( ["ffmpeg"] + ffmpeg_input.global_args + ffmpeg_input.hwaccel_args + ffmpeg_input.input_args + ["-i", ffmpeg_input.path] + ffmpeg_output_args ) return [part for part in cmd if part != ""] def to_dict(self) -> Dict[str, Any]: return { "name": self.name, "height": self.height, "width": self.width, "fps": self.fps, "best_image_timeout": self.best_image_timeout, "zones": {k: z.to_dict() for k, z in self.zones.items()}, "clips": self.clips.to_dict(), "record": self.record.to_dict(), "rtmp": self.rtmp.to_dict(), "snapshots": self.snapshots.to_dict(), "mqtt": self.mqtt.to_dict(), "objects": self.objects.to_dict(), "motion": self.motion.to_dict(), "detect": self.detect.to_dict(), "frame_shape": self.frame_shape, "ffmpeg_cmds": [ {"roles": c["roles"], "cmd": " ".join(c["cmd"])} for c in self.ffmpeg_cmds ], "timestamp_style": self.timestamp_style.to_dict(), } FRIGATE_CONFIG_SCHEMA = vol.Schema( { vol.Optional("database", default={}): { vol.Optional("path", default=os.path.join(BASE_DIR, "frigate.db")): str }, vol.Optional("model", default={"width": 320, "height": 320}): { vol.Required("width"): int, vol.Required("height"): int, }, vol.Optional("detectors", default=DEFAULT_DETECTORS): DETECTORS_SCHEMA, "mqtt": MQTT_SCHEMA, vol.Optional("logger", default={}): { vol.Optional("default", default="info"): vol.In( ["info", "debug", "warning", "error", "critical"] ), vol.Optional("logs", default={}): { str: vol.In(["info", "debug", "warning", "error", "critical"]) }, }, vol.Optional("snapshots", default={}): { vol.Optional("retain", default={}): RETAIN_SCHEMA }, vol.Optional("clips", default={}): CLIPS_SCHEMA, vol.Optional("record", default={}): { vol.Optional("enabled", default=False): bool, vol.Optional("retain_days", default=30): int, }, vol.Optional("ffmpeg", default={}): GLOBAL_FFMPEG_SCHEMA, vol.Optional("objects", default={}): OBJECTS_SCHEMA, vol.Optional("motion", default={}): MOTION_SCHEMA, vol.Optional("detect", default={}): GLOBAL_DETECT_SCHEMA, vol.Optional("birdseye", default={}): BIRDSEYE_SCHEMA, vol.Required("cameras", default={}): CAMERAS_SCHEMA, vol.Optional("environment_vars", default={}): {str: str}, } ) @dataclasses.dataclass(frozen=True) class DatabaseConfig: path: str @classmethod def build(cls, config) -> DatabaseConfig: return DatabaseConfig(config["path"]) def to_dict(self) -> Dict[str, Any]: return dataclasses.asdict(self) @dataclasses.dataclass(frozen=True) class ModelConfig: width: int height: int @classmethod def build(cls, config) -> ModelConfig: return ModelConfig(config["width"], config["height"]) def to_dict(self) -> Dict[str, Any]: return dataclasses.asdict(self) @dataclasses.dataclass(frozen=True) class LoggerConfig: default: str logs: Dict[str, str] @classmethod def build(cls, config) -> LoggerConfig: return LoggerConfig( config["default"].upper(), {k: v.upper() for k, v in config["logs"].items()}, ) def to_dict(self) -> Dict[str, Any]: return dataclasses.asdict(self) @dataclasses.dataclass(frozen=True) class SnapshotsConfig: retain: RetainConfig @classmethod def build(cls, config) -> SnapshotsConfig: return SnapshotsConfig(RetainConfig.build(config["retain"])) def to_dict(self) -> Dict[str, Any]: return {"retain": self.retain.to_dict()} @dataclasses.dataclass class RecordConfig: enabled: bool retain_days: int @classmethod def build(cls, config, global_config) -> RecordConfig: return RecordConfig( config.get("enabled", global_config["enabled"]), config.get("retain_days", global_config["retain_days"]), ) def to_dict(self) -> Dict[str, Any]: return dataclasses.asdict(self) class FrigateConfig: def __init__(self, config_file=None, config=None) -> None: if config is None and config_file is None: raise ValueError("config or config_file must be defined") elif not config_file is None: config = self._load_file(config_file) config = FRIGATE_CONFIG_SCHEMA(config) config = self._sub_env_vars(config) self._database = DatabaseConfig.build(config["database"]) self._model = ModelConfig.build(config["model"]) self._detectors = { name: DetectorConfig.build(d) for name, d in config["detectors"].items() } self._mqtt = MqttConfig.build(config["mqtt"]) self._clips = ClipsConfig.build(config["clips"]) self._snapshots = SnapshotsConfig.build(config["snapshots"]) self._birdseye = BirdseyeConfig.build(config["birdseye"]) self._cameras = { name: CameraConfig.build(name, c, config) for name, c in config["cameras"].items() } self._logger = LoggerConfig.build(config["logger"]) self._environment_vars = config["environment_vars"] def _sub_env_vars(self, config): frigate_env_vars = { k: v for k, v in os.environ.items() if k.startswith("FRIGATE_") } if "password" in config["mqtt"]: config["mqtt"]["password"] = config["mqtt"]["password"].format( **frigate_env_vars ) for camera in config["cameras"].values(): for i in camera["ffmpeg"]["inputs"]: i["path"] = i["path"].format(**frigate_env_vars) return config def _load_file(self, config_file): with open(config_file) as f: raw_config = f.read() if config_file.endswith(".yml"): config = yaml.safe_load(raw_config) elif config_file.endswith(".json"): config = json.loads(raw_config) return config def to_dict(self) -> Dict[str, Any]: return { "database": self.database.to_dict(), "model": self.model.to_dict(), "detectors": {k: d.to_dict() for k, d in self.detectors.items()}, "mqtt": self.mqtt.to_dict(), "clips": self.clips.to_dict(), "snapshots": self.snapshots.to_dict(), "birdseye": self.birdseye.to_dict(), "cameras": {k: c.to_dict() for k, c in self.cameras.items()}, "logger": self.logger.to_dict(), "environment_vars": self._environment_vars, } @property def database(self) -> DatabaseConfig: return self._database @property def model(self) -> ModelConfig: return self._model @property def detectors(self) -> Dict[str, DetectorConfig]: return self._detectors @property def logger(self) -> LoggerConfig: return self._logger @property def mqtt(self) -> MqttConfig: return self._mqtt @property def clips(self) -> ClipsConfig: return self._clips @property def snapshots(self) -> SnapshotsConfig: return self._snapshots @property def birdseye(self) -> BirdseyeConfig: return self._birdseye @property def cameras(self) -> Dict[str, CameraConfig]: return self._cameras @property def environment_vars(self): return self._environment_vars