blakeblackshear.frigate/frigate/review/maintainer.py
Nicolas Mowen 002fdeae67
SHM tweaks (#15274)
* Use env var to control max number of frames

* Handle type

* Fix frame_name not being sent

* Formatting
2024-12-01 10:39:35 -06:00

646 lines
24 KiB
Python

"""Maintain review segments in db."""
import json
import logging
import os
import random
import string
import sys
import threading
from enum import Enum
from multiprocessing.synchronize import Event as MpEvent
from pathlib import Path
from typing import Optional
import cv2
import numpy as np
from frigate.comms.config_updater import ConfigSubscriber
from frigate.comms.detections_updater import DetectionSubscriber, DetectionTypeEnum
from frigate.comms.inter_process import InterProcessRequestor
from frigate.config import CameraConfig, FrigateConfig
from frigate.const import (
CLEAR_ONGOING_REVIEW_SEGMENTS,
CLIPS_DIR,
UPSERT_REVIEW_SEGMENT,
)
from frigate.events.external import ManualEventState
from frigate.models import ReviewSegment
from frigate.object_processing import TrackedObject
from frigate.util.image import SharedMemoryFrameManager, calculate_16_9_crop
logger = logging.getLogger(__name__)
THUMB_HEIGHT = 180
THUMB_WIDTH = 320
THRESHOLD_ALERT_ACTIVITY = 120
THRESHOLD_DETECTION_ACTIVITY = 30
class SeverityEnum(str, Enum):
alert = "alert"
detection = "detection"
class PendingReviewSegment:
def __init__(
self,
camera: str,
frame_time: float,
severity: SeverityEnum,
detections: dict[str, str],
sub_labels: dict[str, str],
zones: list[str],
audio: set[str],
):
rand_id = "".join(random.choices(string.ascii_lowercase + string.digits, k=6))
self.id = f"{frame_time}-{rand_id}"
self.camera = camera
self.start_time = frame_time
self.severity = severity
self.detections = detections
self.sub_labels = sub_labels
self.zones = zones
self.audio = audio
self.last_update = frame_time
# thumbnail
self._frame = np.zeros((THUMB_HEIGHT * 3 // 2, THUMB_WIDTH), np.uint8)
self.has_frame = False
self.frame_active_count = 0
self.frame_path = os.path.join(
CLIPS_DIR, f"review/thumb-{self.camera}-{self.id}.webp"
)
def update_frame(
self, camera_config: CameraConfig, frame, objects: list[TrackedObject]
):
min_x = camera_config.frame_shape[1]
min_y = camera_config.frame_shape[0]
max_x = 0
max_y = 0
# find bounds for all boxes
for o in objects:
min_x = min(o["box"][0], min_x)
min_y = min(o["box"][1], min_y)
max_x = max(o["box"][2], max_x)
max_y = max(o["box"][3], max_y)
region = calculate_16_9_crop(
camera_config.frame_shape, min_x, min_y, max_x, max_y
)
# could not find suitable 16:9 region
if not region:
return
self.frame_active_count = len(objects)
color_frame = cv2.cvtColor(frame, cv2.COLOR_YUV2BGR_I420)
color_frame = color_frame[region[1] : region[3], region[0] : region[2]]
width = int(THUMB_HEIGHT * color_frame.shape[1] / color_frame.shape[0])
self._frame = cv2.resize(
color_frame, dsize=(width, THUMB_HEIGHT), interpolation=cv2.INTER_AREA
)
if self._frame is not None:
self.has_frame = True
cv2.imwrite(
self.frame_path, self._frame, [int(cv2.IMWRITE_WEBP_QUALITY), 60]
)
def save_full_frame(self, camera_config: CameraConfig, frame):
color_frame = cv2.cvtColor(frame, cv2.COLOR_YUV2BGR_I420)
width = int(THUMB_HEIGHT * color_frame.shape[1] / color_frame.shape[0])
self._frame = cv2.resize(
color_frame, dsize=(width, THUMB_HEIGHT), interpolation=cv2.INTER_AREA
)
if self._frame is not None:
self.has_frame = True
cv2.imwrite(
self.frame_path, self._frame, [int(cv2.IMWRITE_WEBP_QUALITY), 60]
)
def get_data(self, ended: bool) -> dict:
return {
ReviewSegment.id.name: self.id,
ReviewSegment.camera.name: self.camera,
ReviewSegment.start_time.name: self.start_time,
ReviewSegment.end_time.name: self.last_update if ended else None,
ReviewSegment.severity.name: self.severity.value,
ReviewSegment.thumb_path.name: self.frame_path,
ReviewSegment.data.name: {
"detections": list(set(self.detections.keys())),
"objects": list(set(self.detections.values())),
"sub_labels": list(self.sub_labels.values()),
"zones": self.zones,
"audio": list(self.audio),
},
}.copy()
class ReviewSegmentMaintainer(threading.Thread):
"""Maintain review segments."""
def __init__(self, config: FrigateConfig, stop_event: MpEvent):
super().__init__(name="review_segment_maintainer")
self.config = config
self.active_review_segments: dict[str, Optional[PendingReviewSegment]] = {}
self.frame_manager = SharedMemoryFrameManager()
# create communication for review segments
self.requestor = InterProcessRequestor()
self.config_subscriber = ConfigSubscriber("config/record/")
self.detection_subscriber = DetectionSubscriber(DetectionTypeEnum.all)
# manual events
self.indefinite_events: dict[str, dict[str, any]] = {}
# ensure dirs
Path(os.path.join(CLIPS_DIR, "review")).mkdir(exist_ok=True)
self.stop_event = stop_event
# clear ongoing review segments from last instance
self.requestor.send_data(CLEAR_ONGOING_REVIEW_SEGMENTS, "")
def _publish_segment_start(
self,
segment: PendingReviewSegment,
) -> None:
"""New segment."""
new_data = segment.get_data(ended=False)
self.requestor.send_data(UPSERT_REVIEW_SEGMENT, new_data)
start_data = {k: v for k, v in new_data.items()}
self.requestor.send_data(
"reviews",
json.dumps(
{
"type": "new",
"before": start_data,
"after": start_data,
}
),
)
def _publish_segment_update(
self,
segment: PendingReviewSegment,
camera_config: CameraConfig,
frame,
objects: list[TrackedObject],
prev_data: dict[str, any],
) -> None:
"""Update segment."""
if frame is not None:
segment.update_frame(camera_config, frame, objects)
new_data = segment.get_data(ended=False)
self.requestor.send_data(UPSERT_REVIEW_SEGMENT, new_data)
self.requestor.send_data(
"reviews",
json.dumps(
{
"type": "update",
"before": {k: v for k, v in prev_data.items()},
"after": {k: v for k, v in new_data.items()},
}
),
)
def _publish_segment_end(
self,
segment: PendingReviewSegment,
prev_data: dict[str, any],
) -> None:
"""End segment."""
final_data = segment.get_data(ended=True)
self.requestor.send_data(UPSERT_REVIEW_SEGMENT, final_data)
self.requestor.send_data(
"reviews",
json.dumps(
{
"type": "end",
"before": {k: v for k, v in prev_data.items()},
"after": {k: v for k, v in final_data.items()},
}
),
)
self.active_review_segments[segment.camera] = None
def update_existing_segment(
self,
segment: PendingReviewSegment,
frame_name: str,
frame_time: float,
objects: list[TrackedObject],
) -> None:
"""Validate if existing review segment should continue."""
camera_config = self.config.cameras[segment.camera]
# get active objects + objects loitering in loitering zones
active_objects = get_active_objects(
frame_time, camera_config, objects
) + get_loitering_objects(frame_time, camera_config, objects)
prev_data = segment.get_data(False)
has_activity = False
if len(active_objects) > 0:
has_activity = True
should_update = False
if frame_time > segment.last_update:
segment.last_update = frame_time
for object in active_objects:
if not object["sub_label"]:
segment.detections[object["id"]] = object["label"]
elif object["sub_label"][0] in self.config.model.all_attributes:
segment.detections[object["id"]] = object["sub_label"][0]
else:
segment.detections[object["id"]] = f'{object["label"]}-verified'
segment.sub_labels[object["id"]] = object["sub_label"][0]
# if object is alert label
# and has entered required zones or required zones is not set
# mark this review as alert
if (
segment.severity != SeverityEnum.alert
and object["label"] in camera_config.review.alerts.labels
and (
not camera_config.review.alerts.required_zones
or (
len(object["current_zones"]) > 0
and set(object["current_zones"])
& set(camera_config.review.alerts.required_zones)
)
)
):
segment.severity = SeverityEnum.alert
should_update = True
# keep zones up to date
if len(object["current_zones"]) > 0:
for zone in object["current_zones"]:
if zone not in segment.zones:
segment.zones.append(zone)
if len(active_objects) > segment.frame_active_count:
should_update = True
if should_update:
try:
yuv_frame = self.frame_manager.get(
frame_name, camera_config.frame_shape_yuv
)
if yuv_frame is None:
logger.debug(f"Failed to get frame {frame_name} from SHM")
return
self._publish_segment_update(
segment, camera_config, yuv_frame, active_objects, prev_data
)
self.frame_manager.close(frame_name)
except FileNotFoundError:
return
if not has_activity:
if not segment.has_frame:
try:
yuv_frame = self.frame_manager.get(
frame_name, camera_config.frame_shape_yuv
)
if yuv_frame is None:
logger.debug(f"Failed to get frame {frame_name} from SHM")
return
segment.save_full_frame(camera_config, yuv_frame)
self.frame_manager.close(frame_name)
self._publish_segment_update(
segment, camera_config, None, [], prev_data
)
except FileNotFoundError:
return
if segment.severity == SeverityEnum.alert and frame_time > (
segment.last_update + THRESHOLD_ALERT_ACTIVITY
):
self._publish_segment_end(segment, prev_data)
elif frame_time > (segment.last_update + THRESHOLD_DETECTION_ACTIVITY):
self._publish_segment_end(segment, prev_data)
def check_if_new_segment(
self,
camera: str,
frame_name: str,
frame_time: float,
objects: list[TrackedObject],
) -> None:
"""Check if a new review segment should be created."""
camera_config = self.config.cameras[camera]
active_objects = get_active_objects(frame_time, camera_config, objects)
if len(active_objects) > 0:
detections: dict[str, str] = {}
sub_labels: dict[str, str] = {}
zones: list[str] = []
severity = None
for object in active_objects:
if not object["sub_label"]:
detections[object["id"]] = object["label"]
elif object["sub_label"][0] in self.config.model.all_attributes:
detections[object["id"]] = object["sub_label"][0]
else:
detections[object["id"]] = f'{object["label"]}-verified'
sub_labels[object["id"]] = object["sub_label"][0]
# if object is alert label
# and has entered required zones or required zones is not set
# mark this review as alert
if (
severity != SeverityEnum.alert
and object["label"] in camera_config.review.alerts.labels
and (
not camera_config.review.alerts.required_zones
or (
len(object["current_zones"]) > 0
and set(object["current_zones"])
& set(camera_config.review.alerts.required_zones)
)
)
):
severity = SeverityEnum.alert
# if object is detection label
# and review is not already a detection or alert
# and has entered required zones or required zones is not set
# mark this review as alert
if (
not severity
and (
camera_config.review.detections.labels is None
or object["label"] in (camera_config.review.detections.labels)
)
and (
not camera_config.review.detections.required_zones
or (
len(object["current_zones"]) > 0
and set(object["current_zones"])
& set(camera_config.review.detections.required_zones)
)
)
):
severity = SeverityEnum.detection
for zone in object["current_zones"]:
if zone not in zones:
zones.append(zone)
if severity:
self.active_review_segments[camera] = PendingReviewSegment(
camera,
frame_time,
severity,
detections,
sub_labels=sub_labels,
audio=set(),
zones=zones,
)
try:
yuv_frame = self.frame_manager.get(
frame_name, camera_config.frame_shape_yuv
)
if yuv_frame is None:
logger.debug(f"Failed to get frame {frame_name} from SHM")
return
self.active_review_segments[camera].update_frame(
camera_config, yuv_frame, active_objects
)
self.frame_manager.close(frame_name)
self._publish_segment_start(self.active_review_segments[camera])
except FileNotFoundError:
return
def run(self) -> None:
while not self.stop_event.is_set():
# check if there is an updated config
while True:
(
updated_topic,
updated_record_config,
) = self.config_subscriber.check_for_update()
if not updated_topic:
break
camera_name = updated_topic.rpartition("/")[-1]
self.config.cameras[camera_name].record = updated_record_config
(topic, data) = self.detection_subscriber.check_for_update(timeout=1)
if not topic:
continue
if topic == DetectionTypeEnum.video:
(
camera,
frame_name,
frame_time,
current_tracked_objects,
_,
_,
) = data
elif topic == DetectionTypeEnum.audio:
(
camera,
frame_time,
_,
audio_detections,
) = data
elif topic == DetectionTypeEnum.api:
(
camera,
frame_time,
manual_info,
) = data
if camera not in self.indefinite_events:
self.indefinite_events[camera] = {}
current_segment = self.active_review_segments.get(camera)
if not self.config.cameras[camera].record.enabled:
if current_segment:
self.update_existing_segment(
current_segment, frame_name, frame_time, []
)
continue
if current_segment is not None:
if topic == DetectionTypeEnum.video:
self.update_existing_segment(
current_segment,
frame_name,
frame_time,
current_tracked_objects,
)
elif topic == DetectionTypeEnum.audio and len(audio_detections) > 0:
camera_config = self.config.cameras[camera]
if frame_time > current_segment.last_update:
current_segment.last_update = frame_time
for audio in audio_detections:
if audio in camera_config.review.alerts.labels:
current_segment.audio.add(audio)
current_segment.severity = SeverityEnum.alert
elif (
camera_config.review.detections.labels is None
or audio in camera_config.review.detections.labels
):
current_segment.audio.add(audio)
elif topic == DetectionTypeEnum.api:
if manual_info["state"] == ManualEventState.complete:
current_segment.detections[manual_info["event_id"]] = (
manual_info["label"]
)
current_segment.severity = SeverityEnum.alert
current_segment.last_update = manual_info["end_time"]
elif manual_info["state"] == ManualEventState.start:
self.indefinite_events[camera][manual_info["event_id"]] = (
manual_info["label"]
)
current_segment.detections[manual_info["event_id"]] = (
manual_info["label"]
)
current_segment.severity = SeverityEnum.alert
# temporarily make it so this event can not end
current_segment.last_update = sys.maxsize
elif manual_info["state"] == ManualEventState.end:
event_id = manual_info["event_id"]
if event_id in self.indefinite_events[camera]:
self.indefinite_events[camera].pop(event_id)
current_segment.last_update = manual_info["end_time"]
else:
logger.error(
f"Event with ID {event_id} has a set duration and can not be ended manually."
)
else:
if topic == DetectionTypeEnum.video:
self.check_if_new_segment(
camera,
frame_name,
frame_time,
current_tracked_objects,
)
elif topic == DetectionTypeEnum.audio and len(audio_detections) > 0:
severity = None
camera_config = self.config.cameras[camera]
detections = set()
for audio in audio_detections:
if audio in camera_config.review.alerts.labels:
detections.add(audio)
severity = SeverityEnum.alert
elif (
camera_config.review.detections.labels is None
or audio in camera_config.review.detections.labels
):
detections.add(audio)
if not severity:
severity = SeverityEnum.detection
if severity:
self.active_review_segments[camera] = PendingReviewSegment(
camera,
frame_time,
severity,
{},
{},
[],
detections,
)
elif topic == DetectionTypeEnum.api:
self.active_review_segments[camera] = PendingReviewSegment(
camera,
frame_time,
SeverityEnum.alert,
{manual_info["event_id"]: manual_info["label"]},
{},
[],
set(),
)
if manual_info["state"] == ManualEventState.start:
self.indefinite_events[camera][manual_info["event_id"]] = (
manual_info["label"]
)
# temporarily make it so this event can not end
self.active_review_segments[camera].last_update = sys.maxsize
elif manual_info["state"] == ManualEventState.complete:
self.active_review_segments[camera].last_update = manual_info[
"end_time"
]
self.config_subscriber.stop()
self.requestor.stop()
self.detection_subscriber.stop()
logger.info("Exiting review maintainer...")
def get_active_objects(
frame_time: float, camera_config: CameraConfig, all_objects: list[TrackedObject]
) -> list[TrackedObject]:
"""get active objects for detection."""
return [
o
for o in all_objects
if o["motionless_count"]
< camera_config.detect.stationary.threshold # no stationary objects
and o["position_changes"] > 0 # object must have moved at least once
and o["frame_time"] == frame_time # object must be detected in this frame
and not o["false_positive"] # object must not be a false positive
and (
o["label"] in camera_config.review.alerts.labels
or (
camera_config.review.detections.labels is None
or o["label"] in camera_config.review.detections.labels
)
) # object must be in the alerts or detections label list
]
def get_loitering_objects(
frame_time: float, camera_config: CameraConfig, all_objects: list[TrackedObject]
) -> list[TrackedObject]:
"""get loitering objects for detection."""
return [
o
for o in all_objects
if o["pending_loitering"] # object must be pending loitering
and o["position_changes"] > 0 # object must have moved at least once
and o["frame_time"] == frame_time # object must be detected in this frame
and not o["false_positive"] # object must not be a false positive
and (
o["label"] in camera_config.review.alerts.labels
or (
camera_config.review.detections.labels is None
or o["label"] in camera_config.review.detections.labels
)
) # object must be in the alerts or detections label list
]