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blakeblackshear.frigate/frigate/object_processing.py
Nicolas Mowen 3788df5bc6
Implement config migration and restructure config for new review format (#10961) 
* Update reference config to reflect new config

* Migrate 0.13 config to match 0.14 config style

* Overwrite existing config

* Adjust config schema to remove events required zones and include reviews

* Update object config to check correct required zones config

* Refactor reviews to remove motion and only create review segments in expected circumstances

* Cleanup

* Formatting

* Fix update ordering

* Update pydantic

* Remove rtmp references as part of migration

* Catch file not found for alert frame
2024-04-13 06:08:20 -06:00

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import base64
import datetime
import json
import logging
import os
import queue
import threading
from collections import Counter, defaultdict
from multiprocessing.synchronize import Event as MpEvent
from statistics import median
from typing import Callable
import cv2
import numpy as np
from frigate.comms.detections_updater import DetectionPublisher, DetectionTypeEnum
from frigate.comms.dispatcher import Dispatcher
from frigate.comms.events_updater import EventEndSubscriber, EventUpdatePublisher
from frigate.config import (
CameraConfig,
FrigateConfig,
MqttConfig,
RecordConfig,
SnapshotsConfig,
ZoomingModeEnum,
)
from frigate.const import CLIPS_DIR
from frigate.events.types import EventStateEnum, EventTypeEnum
from frigate.ptz.autotrack import PtzAutoTrackerThread
from frigate.util.image import (
SharedMemoryFrameManager,
area,
calculate_region,
draw_box_with_label,
draw_timestamp,
is_label_printable,
)
logger = logging.getLogger(__name__)
def on_edge(box, frame_shape):
if (
box[0] == 0
or box[1] == 0
or box[2] == frame_shape[1] - 1
or box[3] == frame_shape[0] - 1
):
return True
def has_better_attr(current_thumb, new_obj, attr_label) -> bool:
max_new_attr = max(
[0]
+ [area(a["box"]) for a in new_obj["attributes"] if a["label"] == attr_label]
)
max_current_attr = max(
[0]
+ [
area(a["box"])
for a in current_thumb["attributes"]
if a["label"] == attr_label
]
)
# if the thumb has a higher scoring attr
return max_new_attr > max_current_attr
def is_better_thumbnail(label, current_thumb, new_obj, frame_shape) -> bool:
# larger is better
# cutoff images are less ideal, but they should also be smaller?
# better scores are obviously better too
# check face on person
if label == "person":
if has_better_attr(current_thumb, new_obj, "face"):
return True
# if the current thumb has a face attr, dont update unless it gets better
if any([a["label"] == "face" for a in current_thumb["attributes"]]):
return False
# check license_plate on car
if label == "car":
if has_better_attr(current_thumb, new_obj, "license_plate"):
return True
# if the current thumb has a license_plate attr, dont update unless it gets better
if any([a["label"] == "license_plate" for a in current_thumb["attributes"]]):
return False
# if the new_thumb is on an edge, and the current thumb is not
if on_edge(new_obj["box"], frame_shape) and not on_edge(
current_thumb["box"], frame_shape
):
return False
# if the score is better by more than 5%
if new_obj["score"] > current_thumb["score"] + 0.05:
return True
# if the area is 10% larger
if new_obj["area"] > current_thumb["area"] * 1.1:
return True
return False
class TrackedObject:
def __init__(
self, camera, colormap, camera_config: CameraConfig, frame_cache, obj_data
):
# set the score history then remove as it is not part of object state
self.score_history = obj_data["score_history"]
del obj_data["score_history"]
self.obj_data = obj_data
self.camera = camera
self.colormap = colormap
self.camera_config = camera_config
self.frame_cache = frame_cache
self.zone_presence: dict[str, int] = {}
self.zone_loitering: dict[str, int] = {}
self.current_zones = []
self.entered_zones = []
self.attributes = defaultdict(float)
self.false_positive = True
self.has_clip = False
self.has_snapshot = False
self.top_score = self.computed_score = 0.0
self.thumbnail_data = None
self.last_updated = 0
self.last_published = 0
self.frame = None
self.previous = self.to_dict()
def _is_false_positive(self):
# once a true positive, always a true positive
if not self.false_positive:
return False
threshold = self.camera_config.objects.filters[self.obj_data["label"]].threshold
return self.computed_score < threshold
def compute_score(self):
"""get median of scores for object."""
return median(self.score_history)
def update(self, current_frame_time, obj_data):
thumb_update = False
significant_change = False
autotracker_update = False
# if the object is not in the current frame, add a 0.0 to the score history
if obj_data["frame_time"] != current_frame_time:
self.score_history.append(0.0)
else:
self.score_history.append(obj_data["score"])
# only keep the last 10 scores
if len(self.score_history) > 10:
self.score_history = self.score_history[-10:]
# calculate if this is a false positive
self.computed_score = self.compute_score()
if self.computed_score > self.top_score:
self.top_score = self.computed_score
self.false_positive = self._is_false_positive()
if not self.false_positive:
# determine if this frame is a better thumbnail
if self.thumbnail_data is None or is_better_thumbnail(
self.obj_data["label"],
self.thumbnail_data,
obj_data,
self.camera_config.frame_shape,
):
self.thumbnail_data = {
"frame_time": current_frame_time,
"box": obj_data["box"],
"area": obj_data["area"],
"region": obj_data["region"],
"score": obj_data["score"],
"attributes": obj_data["attributes"],
}
thumb_update = True
# check zones
current_zones = []
bottom_center = (obj_data["centroid"][0], obj_data["box"][3])
# check each zone
for name, zone in self.camera_config.zones.items():
# if the zone is not for this object type, skip
if len(zone.objects) > 0 and obj_data["label"] not in zone.objects:
continue
contour = zone.contour
zone_score = self.zone_presence.get(name, 0) + 1
# check if the object is in the zone
if cv2.pointPolygonTest(contour, bottom_center, False) >= 0:
# if the object passed the filters once, dont apply again
if name in self.current_zones or not zone_filtered(self, zone.filters):
# an object is only considered present in a zone if it has a zone inertia of 3+
if zone_score >= zone.inertia:
loitering_score = self.zone_loitering.get(name, 0) + 1
# loitering time is configured as seconds, convert to count of frames
if loitering_score >= (
self.camera_config.zones[name].loitering_time
* self.camera_config.detect.fps
):
current_zones.append(name)
if name not in self.entered_zones:
self.entered_zones.append(name)
else:
self.zone_loitering[name] = loitering_score
else:
self.zone_presence[name] = zone_score
else:
# once an object has a zone inertia of 3+ it is not checked anymore
if 0 < zone_score < zone.inertia:
self.zone_presence[name] = zone_score - 1
# maintain attributes
for attr in obj_data["attributes"]:
if self.attributes[attr["label"]] < attr["score"]:
self.attributes[attr["label"]] = attr["score"]
# populate the sub_label for car with highest scoring logo
if self.obj_data["label"] == "car":
recognized_logos = {
k: self.attributes[k]
for k in ["ups", "fedex", "amazon"]
if k in self.attributes
}
if len(recognized_logos) > 0:
max_logo = max(recognized_logos, key=recognized_logos.get)
self.obj_data["sub_label"] = (max_logo, recognized_logos[max_logo])
# check for significant change
if not self.false_positive:
# if the zones changed, signal an update
if set(self.current_zones) != set(current_zones):
significant_change = True
# if the position changed, signal an update
if self.obj_data["position_changes"] != obj_data["position_changes"]:
significant_change = True
if self.obj_data["attributes"] != obj_data["attributes"]:
significant_change = True
# if the motionless_count reaches the stationary threshold
if (
self.obj_data["motionless_count"]
== self.camera_config.detect.stationary.threshold
):
significant_change = True
# update at least once per minute
if self.obj_data["frame_time"] - self.previous["frame_time"] > 60:
significant_change = True
# update autotrack at most 3 objects per second
if self.obj_data["frame_time"] - self.previous["frame_time"] >= (1 / 3):
autotracker_update = True
self.obj_data.update(obj_data)
self.current_zones = current_zones
return (thumb_update, significant_change, autotracker_update)
def to_dict(self, include_thumbnail: bool = False):
event = {
"id": self.obj_data["id"],
"camera": self.camera,
"frame_time": self.obj_data["frame_time"],
"snapshot": self.thumbnail_data,
"label": self.obj_data["label"],
"sub_label": self.obj_data.get("sub_label"),
"top_score": self.top_score,
"false_positive": self.false_positive,
"start_time": self.obj_data["start_time"],
"end_time": self.obj_data.get("end_time", None),
"score": self.obj_data["score"],
"box": self.obj_data["box"],
"area": self.obj_data["area"],
"ratio": self.obj_data["ratio"],
"region": self.obj_data["region"],
"stationary": self.obj_data["motionless_count"]
> self.camera_config.detect.stationary.threshold,
"motionless_count": self.obj_data["motionless_count"],
"position_changes": self.obj_data["position_changes"],
"current_zones": self.current_zones.copy(),
"entered_zones": self.entered_zones.copy(),
"has_clip": self.has_clip,
"has_snapshot": self.has_snapshot,
"attributes": self.attributes,
"current_attributes": self.obj_data["attributes"],
}
if include_thumbnail:
event["thumbnail"] = base64.b64encode(self.get_thumbnail()).decode("utf-8")
return event
def get_thumbnail(self):
if (
self.thumbnail_data is None
or self.thumbnail_data["frame_time"] not in self.frame_cache
):
ret, jpg = cv2.imencode(".jpg", np.zeros((175, 175, 3), np.uint8))
jpg_bytes = self.get_jpg_bytes(
timestamp=False, bounding_box=False, crop=True, height=175
)
if jpg_bytes:
return jpg_bytes
else:
ret, jpg = cv2.imencode(".jpg", np.zeros((175, 175, 3), np.uint8))
return jpg.tobytes()
def get_clean_png(self):
if self.thumbnail_data is None:
return None
try:
best_frame = cv2.cvtColor(
self.frame_cache[self.thumbnail_data["frame_time"]],
cv2.COLOR_YUV2BGR_I420,
)
except KeyError:
logger.warning(
f"Unable to create clean png because frame {self.thumbnail_data['frame_time']} is not in the cache"
)
return None
ret, png = cv2.imencode(".png", best_frame)
if ret:
return png.tobytes()
else:
return None
def get_jpg_bytes(
self, timestamp=False, bounding_box=False, crop=False, height=None, quality=70
):
if self.thumbnail_data is None:
return None
try:
best_frame = cv2.cvtColor(
self.frame_cache[self.thumbnail_data["frame_time"]],
cv2.COLOR_YUV2BGR_I420,
)
except KeyError:
logger.warning(
f"Unable to create jpg because frame {self.thumbnail_data['frame_time']} is not in the cache"
)
return None
if bounding_box:
thickness = 2
color = self.colormap[self.obj_data["label"]]
# draw the bounding boxes on the frame
box = self.thumbnail_data["box"]
draw_box_with_label(
best_frame,
box[0],
box[1],
box[2],
box[3],
self.obj_data["label"],
f"{int(self.thumbnail_data['score']*100)}% {int(self.thumbnail_data['area'])}",
thickness=thickness,
color=color,
)
# draw any attributes
for attribute in self.thumbnail_data["attributes"]:
box = attribute["box"]
draw_box_with_label(
best_frame,
box[0],
box[1],
box[2],
box[3],
attribute["label"],
f"{attribute['score']:.0%}",
thickness=thickness,
color=color,
)
if crop:
box = self.thumbnail_data["box"]
box_size = 300
region = calculate_region(
best_frame.shape,
box[0],
box[1],
box[2],
box[3],
box_size,
multiplier=1.1,
)
best_frame = best_frame[region[1] : region[3], region[0] : region[2]]
if height:
width = int(height * best_frame.shape[1] / best_frame.shape[0])
best_frame = cv2.resize(
best_frame, dsize=(width, height), interpolation=cv2.INTER_AREA
)
if timestamp:
color = self.camera_config.timestamp_style.color
draw_timestamp(
best_frame,
self.thumbnail_data["frame_time"],
self.camera_config.timestamp_style.format,
font_effect=self.camera_config.timestamp_style.effect,
font_thickness=self.camera_config.timestamp_style.thickness,
font_color=(color.blue, color.green, color.red),
position=self.camera_config.timestamp_style.position,
)
ret, jpg = cv2.imencode(
".jpg", best_frame, [int(cv2.IMWRITE_JPEG_QUALITY), quality]
)
if ret:
return jpg.tobytes()
else:
return None
def zone_filtered(obj: TrackedObject, object_config):
object_name = obj.obj_data["label"]
if object_name in object_config:
obj_settings = object_config[object_name]
# if the min area is larger than the
# detected object, don't add it to detected objects
if obj_settings.min_area > obj.obj_data["area"]:
return True
# if the detected object is larger than the
# max area, don't add it to detected objects
if obj_settings.max_area < obj.obj_data["area"]:
return True
# if the score is lower than the threshold, skip
if obj_settings.threshold > obj.computed_score:
return True
# if the object is not proportionally wide enough
if obj_settings.min_ratio > obj.obj_data["ratio"]:
return True
# if the object is proportionally too wide
if obj_settings.max_ratio < obj.obj_data["ratio"]:
return True
return False
# Maintains the state of a camera
class CameraState:
def __init__(
self,
name,
config: FrigateConfig,
frame_manager: SharedMemoryFrameManager,
ptz_autotracker_thread: PtzAutoTrackerThread,
):
self.name = name
self.config = config
self.camera_config = config.cameras[name]
self.frame_manager = frame_manager
self.best_objects: dict[str, TrackedObject] = {}
self.object_counts = defaultdict(int)
self.tracked_objects: dict[str, TrackedObject] = {}
self.frame_cache = {}
self.zone_objects = defaultdict(list)
self._current_frame = np.zeros(self.camera_config.frame_shape_yuv, np.uint8)
self.current_frame_lock = threading.Lock()
self.current_frame_time = 0.0
self.motion_boxes = []
self.regions = []
self.previous_frame_id = None
self.callbacks = defaultdict(list)
self.ptz_autotracker_thread = ptz_autotracker_thread
def get_current_frame(self, draw_options={}):
with self.current_frame_lock:
frame_copy = np.copy(self._current_frame)
frame_time = self.current_frame_time
tracked_objects = {k: v.to_dict() for k, v in self.tracked_objects.items()}
motion_boxes = self.motion_boxes.copy()
regions = self.regions.copy()
frame_copy = cv2.cvtColor(frame_copy, cv2.COLOR_YUV2BGR_I420)
# draw on the frame
if draw_options.get("bounding_boxes"):
# draw the bounding boxes on the frame
for obj in tracked_objects.values():
if obj["frame_time"] == frame_time:
if obj["stationary"]:
color = (220, 220, 220)
thickness = 1
else:
thickness = 2
color = self.config.model.colormap[obj["label"]]
else:
thickness = 1
color = (255, 0, 0)
# draw thicker box around ptz autotracked object
if (
self.camera_config.onvif.autotracking.enabled
and self.ptz_autotracker_thread.ptz_autotracker.autotracker_init[
self.name
]
and self.ptz_autotracker_thread.ptz_autotracker.tracked_object[
self.name
]
is not None
and obj["id"]
== self.ptz_autotracker_thread.ptz_autotracker.tracked_object[
self.name
].obj_data["id"]
and obj["frame_time"] == frame_time
):
thickness = 5
color = self.config.model.colormap[obj["label"]]
# debug autotracking zooming - show the zoom factor box
if (
self.camera_config.onvif.autotracking.zooming
!= ZoomingModeEnum.disabled
):
max_target_box = self.ptz_autotracker_thread.ptz_autotracker.tracked_object_metrics[
self.name
]["max_target_box"]
side_length = max_target_box * (
max(
self.camera_config.detect.width,
self.camera_config.detect.height,
)
)
centroid_x = (obj["box"][0] + obj["box"][2]) // 2
centroid_y = (obj["box"][1] + obj["box"][3]) // 2
top_left = (
int(centroid_x - side_length // 2),
int(centroid_y - side_length // 2),
)
bottom_right = (
int(centroid_x + side_length // 2),
int(centroid_y + side_length // 2),
)
cv2.rectangle(
frame_copy,
top_left,
bottom_right,
(255, 255, 0),
2,
)
# draw the bounding boxes on the frame
box = obj["box"]
text = (
obj["label"]
if (
not obj.get("sub_label")
or not is_label_printable(obj["sub_label"][0])
)
else obj["sub_label"][0]
)
draw_box_with_label(
frame_copy,
box[0],
box[1],
box[2],
box[3],
text,
f"{obj['score']:.0%} {int(obj['area'])}",
thickness=thickness,
color=color,
)
# draw any attributes
for attribute in obj["current_attributes"]:
box = attribute["box"]
draw_box_with_label(
frame_copy,
box[0],
box[1],
box[2],
box[3],
attribute["label"],
f"{attribute['score']:.0%}",
thickness=thickness,
color=color,
)
if draw_options.get("regions"):
for region in regions:
cv2.rectangle(
frame_copy,
(region[0], region[1]),
(region[2], region[3]),
(0, 255, 0),
2,
)
if draw_options.get("zones"):
for name, zone in self.camera_config.zones.items():
thickness = (
8
if any(
name in obj["current_zones"] for obj in tracked_objects.values()
)
else 2
)
cv2.drawContours(frame_copy, [zone.contour], -1, zone.color, thickness)
if draw_options.get("mask"):
mask_overlay = np.where(self.camera_config.motion.mask == [0])
frame_copy[mask_overlay] = [0, 0, 0]
if draw_options.get("motion_boxes"):
for m_box in motion_boxes:
cv2.rectangle(
frame_copy,
(m_box[0], m_box[1]),
(m_box[2], m_box[3]),
(0, 0, 255),
2,
)
if draw_options.get("timestamp"):
color = self.camera_config.timestamp_style.color
draw_timestamp(
frame_copy,
frame_time,
self.camera_config.timestamp_style.format,
font_effect=self.camera_config.timestamp_style.effect,
font_thickness=self.camera_config.timestamp_style.thickness,
font_color=(color.blue, color.green, color.red),
position=self.camera_config.timestamp_style.position,
)
return frame_copy
def finished(self, obj_id):
del self.tracked_objects[obj_id]
def on(self, event_type: str, callback: Callable[[dict], None]):
self.callbacks[event_type].append(callback)
def update(self, frame_time, current_detections, motion_boxes, regions):
# get the new frame
frame_id = f"{self.name}{frame_time}"
current_frame = self.frame_manager.get(
frame_id, self.camera_config.frame_shape_yuv
)
tracked_objects = self.tracked_objects.copy()
current_ids = set(current_detections.keys())
previous_ids = set(tracked_objects.keys())
removed_ids = previous_ids.difference(current_ids)
new_ids = current_ids.difference(previous_ids)
updated_ids = current_ids.intersection(previous_ids)
for id in new_ids:
new_obj = tracked_objects[id] = TrackedObject(
self.name,
self.config.model.colormap,
self.camera_config,
self.frame_cache,
current_detections[id],
)
# call event handlers
for c in self.callbacks["start"]:
c(self.name, new_obj, frame_time)
for id in updated_ids:
updated_obj = tracked_objects[id]
thumb_update, significant_update, autotracker_update = updated_obj.update(
frame_time, current_detections[id]
)
if autotracker_update or significant_update:
for c in self.callbacks["autotrack"]:
c(self.name, updated_obj, frame_time)
if thumb_update:
# ensure this frame is stored in the cache
if (
updated_obj.thumbnail_data["frame_time"] == frame_time
and frame_time not in self.frame_cache
):
self.frame_cache[frame_time] = np.copy(current_frame)
updated_obj.last_updated = frame_time
# if it has been more than 5 seconds since the last thumb update
# and the last update is greater than the last publish or
# the object has changed significantly
if (
frame_time - updated_obj.last_published > 5
and updated_obj.last_updated > updated_obj.last_published
) or significant_update:
# call event handlers
for c in self.callbacks["update"]:
c(self.name, updated_obj, frame_time)
updated_obj.last_published = frame_time
for id in removed_ids:
# publish events to mqtt
removed_obj = tracked_objects[id]
if "end_time" not in removed_obj.obj_data:
removed_obj.obj_data["end_time"] = frame_time
for c in self.callbacks["end"]:
c(self.name, removed_obj, frame_time)
# TODO: can i switch to looking this up and only changing when an event ends?
# maintain best objects
for obj in tracked_objects.values():
object_type = obj.obj_data["label"]
# if the object's thumbnail is not from the current frame
if obj.false_positive or obj.thumbnail_data["frame_time"] != frame_time:
continue
if object_type in self.best_objects:
current_best = self.best_objects[object_type]
now = datetime.datetime.now().timestamp()
# if the object is a higher score than the current best score
# or the current object is older than desired, use the new object
if (
is_better_thumbnail(
object_type,
current_best.thumbnail_data,
obj.thumbnail_data,
self.camera_config.frame_shape,
)
or (now - current_best.thumbnail_data["frame_time"])
> self.camera_config.best_image_timeout
):
self.best_objects[object_type] = obj
for c in self.callbacks["snapshot"]:
c(self.name, self.best_objects[object_type], frame_time)
else:
self.best_objects[object_type] = obj
for c in self.callbacks["snapshot"]:
c(self.name, self.best_objects[object_type], frame_time)
# update overall camera state for each object type
obj_counter = Counter(
obj.obj_data["label"]
for obj in tracked_objects.values()
if not obj.false_positive
)
# keep track of all labels detected for this camera
total_label_count = 0
# report on detected objects
for obj_name, count in obj_counter.items():
total_label_count += count
if count != self.object_counts[obj_name]:
self.object_counts[obj_name] = count
for c in self.callbacks["object_status"]:
c(self.name, obj_name, count)
# publish for all labels detected for this camera
if total_label_count != self.object_counts.get("all"):
self.object_counts["all"] = total_label_count
for c in self.callbacks["object_status"]:
c(self.name, "all", total_label_count)
# expire any objects that are >0 and no longer detected
expired_objects = [
obj_name
for obj_name, count in self.object_counts.items()
if count > 0 and obj_name not in obj_counter
]
for obj_name in expired_objects:
# Ignore the artificial all label
if obj_name == "all":
continue
self.object_counts[obj_name] = 0
for c in self.callbacks["object_status"]:
c(self.name, obj_name, 0)
for c in self.callbacks["snapshot"]:
c(self.name, self.best_objects[obj_name], frame_time)
# cleanup thumbnail frame cache
current_thumb_frames = {
obj.thumbnail_data["frame_time"]
for obj in tracked_objects.values()
if not obj.false_positive
}
current_best_frames = {
obj.thumbnail_data["frame_time"] for obj in self.best_objects.values()
}
thumb_frames_to_delete = [
t
for t in self.frame_cache.keys()
if t not in current_thumb_frames and t not in current_best_frames
]
for t in thumb_frames_to_delete:
del self.frame_cache[t]
with self.current_frame_lock:
self.tracked_objects = tracked_objects
self.current_frame_time = frame_time
self.motion_boxes = motion_boxes
self.regions = regions
self._current_frame = current_frame
if self.previous_frame_id is not None:
self.frame_manager.close(self.previous_frame_id)
self.previous_frame_id = frame_id
class TrackedObjectProcessor(threading.Thread):
def __init__(
self,
config: FrigateConfig,
dispatcher: Dispatcher,
tracked_objects_queue,
ptz_autotracker_thread,
stop_event,
):
threading.Thread.__init__(self)
self.name = "detected_frames_processor"
self.config = config
self.dispatcher = dispatcher
self.tracked_objects_queue = tracked_objects_queue
self.stop_event: MpEvent = stop_event
self.camera_states: dict[str, CameraState] = {}
self.frame_manager = SharedMemoryFrameManager()
self.last_motion_detected: dict[str, float] = {}
self.ptz_autotracker_thread = ptz_autotracker_thread
self.detection_publisher = DetectionPublisher(DetectionTypeEnum.video)
self.event_sender = EventUpdatePublisher()
self.event_end_subscriber = EventEndSubscriber()
def start(camera, obj: TrackedObject, current_frame_time):
self.event_sender.publish(
(
EventTypeEnum.tracked_object,
EventStateEnum.start,
camera,
obj.to_dict(),
)
)
def update(camera, obj: TrackedObject, current_frame_time):
obj.has_snapshot = self.should_save_snapshot(camera, obj)
obj.has_clip = self.should_retain_recording(camera, obj)
after = obj.to_dict()
message = {
"before": obj.previous,
"after": after,
"type": "new" if obj.previous["false_positive"] else "update",
}
self.dispatcher.publish("events", json.dumps(message), retain=False)
obj.previous = after
self.event_sender.publish(
(
EventTypeEnum.tracked_object,
EventStateEnum.update,
camera,
obj.to_dict(include_thumbnail=True),
)
)
def autotrack(camera, obj: TrackedObject, current_frame_time):
self.ptz_autotracker_thread.ptz_autotracker.autotrack_object(camera, obj)
def end(camera, obj: TrackedObject, current_frame_time):
# populate has_snapshot
obj.has_snapshot = self.should_save_snapshot(camera, obj)
obj.has_clip = self.should_retain_recording(camera, obj)
# write the snapshot to disk
if obj.has_snapshot:
snapshot_config: SnapshotsConfig = self.config.cameras[camera].snapshots
jpg_bytes = obj.get_jpg_bytes(
timestamp=snapshot_config.timestamp,
bounding_box=snapshot_config.bounding_box,
crop=snapshot_config.crop,
height=snapshot_config.height,
quality=snapshot_config.quality,
)
if jpg_bytes is None:
logger.warning(f"Unable to save snapshot for {obj.obj_data['id']}.")
else:
with open(
os.path.join(CLIPS_DIR, f"{camera}-{obj.obj_data['id']}.jpg"),
"wb",
) as j:
j.write(jpg_bytes)
# write clean snapshot if enabled
if snapshot_config.clean_copy:
png_bytes = obj.get_clean_png()
if png_bytes is None:
logger.warning(
f"Unable to save clean snapshot for {obj.obj_data['id']}."
)
else:
with open(
os.path.join(
CLIPS_DIR,
f"{camera}-{obj.obj_data['id']}-clean.png",
),
"wb",
) as p:
p.write(png_bytes)
if not obj.false_positive:
message = {
"before": obj.previous,
"after": obj.to_dict(),
"type": "end",
}
self.dispatcher.publish("events", json.dumps(message), retain=False)
self.ptz_autotracker_thread.ptz_autotracker.end_object(camera, obj)
self.event_sender.publish(
(
EventTypeEnum.tracked_object,
EventStateEnum.end,
camera,
obj.to_dict(include_thumbnail=True),
)
)
def snapshot(camera, obj: TrackedObject, current_frame_time):
mqtt_config: MqttConfig = self.config.cameras[camera].mqtt
if mqtt_config.enabled and self.should_mqtt_snapshot(camera, obj):
jpg_bytes = obj.get_jpg_bytes(
timestamp=mqtt_config.timestamp,
bounding_box=mqtt_config.bounding_box,
crop=mqtt_config.crop,
height=mqtt_config.height,
quality=mqtt_config.quality,
)
if jpg_bytes is None:
logger.warning(
f"Unable to send mqtt snapshot for {obj.obj_data['id']}."
)
else:
self.dispatcher.publish(
f"{camera}/{obj.obj_data['label']}/snapshot",
jpg_bytes,
retain=True,
)
def object_status(camera, object_name, status):
self.dispatcher.publish(f"{camera}/{object_name}", status, retain=False)
for camera in self.config.cameras.keys():
camera_state = CameraState(
camera, self.config, self.frame_manager, self.ptz_autotracker_thread
)
camera_state.on("start", start)
camera_state.on("autotrack", autotrack)
camera_state.on("update", update)
camera_state.on("end", end)
camera_state.on("snapshot", snapshot)
camera_state.on("object_status", object_status)
self.camera_states[camera] = camera_state
# {
# 'zone_name': {
# 'person': {
# 'camera_1': 2,
# 'camera_2': 1
# }
# }
# }
self.zone_data = defaultdict(lambda: defaultdict(dict))
def should_save_snapshot(self, camera, obj: TrackedObject):
if obj.false_positive:
return False
snapshot_config: SnapshotsConfig = self.config.cameras[camera].snapshots
if not snapshot_config.enabled:
return False
# object never changed position
if obj.obj_data["position_changes"] == 0:
return False
# if there are required zones and there is no overlap
required_zones = snapshot_config.required_zones
if len(required_zones) > 0 and not set(obj.entered_zones) & set(required_zones):
logger.debug(
f"Not creating snapshot for {obj.obj_data['id']} because it did not enter required zones"
)
return False
return True
def should_retain_recording(self, camera: str, obj: TrackedObject):
if obj.false_positive:
return False
record_config: RecordConfig = self.config.cameras[camera].record
# Recording is disabled
if not record_config.enabled:
return False
# object never changed position
if obj.obj_data["position_changes"] == 0:
return False
# If there are required zones and there is no overlap
review_config = self.config.cameras[camera].review
required_zones = (
review_config.alerts.required_zones
+ review_config.detections.required_zones
)
if len(required_zones) > 0 and not set(obj.entered_zones) & set(required_zones):
logger.debug(
f"Not creating clip for {obj.obj_data['id']} because it did not enter required zones"
)
return False
# If the required objects are not present
if (
record_config.events.objects is not None
and obj.obj_data["label"] not in record_config.events.objects
):
logger.debug(
f"Not creating clip for {obj.obj_data['id']} because it did not contain required objects"
)
return False
return True
def should_mqtt_snapshot(self, camera, obj: TrackedObject):
# object never changed position
if obj.obj_data["position_changes"] == 0:
return False
# if there are required zones and there is no overlap
required_zones = self.config.cameras[camera].mqtt.required_zones
if len(required_zones) > 0 and not set(obj.entered_zones) & set(required_zones):
logger.debug(
f"Not sending mqtt for {obj.obj_data['id']} because it did not enter required zones"
)
return False
return True
def update_mqtt_motion(self, camera, frame_time, motion_boxes):
# publish if motion is currently being detected
if motion_boxes:
# only send ON if motion isn't already active
if self.last_motion_detected.get(camera, 0) == 0:
self.dispatcher.publish(
f"{camera}/motion",
"ON",
retain=False,
)
# always updated latest motion
self.last_motion_detected[camera] = frame_time
elif self.last_motion_detected.get(camera, 0) > 0:
mqtt_delay = self.config.cameras[camera].motion.mqtt_off_delay
# If no motion, make sure the off_delay has passed
if frame_time - self.last_motion_detected.get(camera, 0) >= mqtt_delay:
self.dispatcher.publish(
f"{camera}/motion",
"OFF",
retain=False,
)
# reset the last_motion so redundant `off` commands aren't sent
self.last_motion_detected[camera] = 0
def get_best(self, camera, label):
# TODO: need a lock here
camera_state = self.camera_states[camera]
if label in camera_state.best_objects:
best_obj = camera_state.best_objects[label]
best = best_obj.thumbnail_data.copy()
best["frame"] = camera_state.frame_cache.get(
best_obj.thumbnail_data["frame_time"]
)
return best
else:
return {}
def get_current_frame(self, camera, draw_options={}):
if camera == "birdseye":
return self.frame_manager.get(
"birdseye",
(self.config.birdseye.height * 3 // 2, self.config.birdseye.width),
)
return self.camera_states[camera].get_current_frame(draw_options)
def get_current_frame_time(self, camera) -> int:
"""Returns the latest frame time for a given camera."""
return self.camera_states[camera].current_frame_time
def run(self):
while not self.stop_event.is_set():
try:
(
camera,
frame_time,
current_tracked_objects,
motion_boxes,
regions,
) = self.tracked_objects_queue.get(True, 1)
except queue.Empty:
continue
camera_state = self.camera_states[camera]
camera_state.update(
frame_time, current_tracked_objects, motion_boxes, regions
)
self.update_mqtt_motion(camera, frame_time, motion_boxes)
tracked_objects = [
o.to_dict() for o in camera_state.tracked_objects.values()
]
# publish info on this frame
self.detection_publisher.send_data(
(
camera,
frame_time,
tracked_objects,
motion_boxes,
regions,
)
)
# update zone counts for each label
# for each zone in the current camera
for zone in self.config.cameras[camera].zones.keys():
# count labels for the camera in the zone
obj_counter = Counter(
obj.obj_data["label"]
for obj in camera_state.tracked_objects.values()
if zone in obj.current_zones and not obj.false_positive
)
total_label_count = 0
# update counts and publish status
for label in set(self.zone_data[zone].keys()) | set(obj_counter.keys()):
# Ignore the artificial all label
if label == "all":
continue
# if we have previously published a count for this zone/label
zone_label = self.zone_data[zone][label]
if camera in zone_label:
current_count = sum(zone_label.values())
zone_label[camera] = (
obj_counter[label] if label in obj_counter else 0
)
new_count = sum(zone_label.values())
if new_count != current_count:
self.dispatcher.publish(
f"{zone}/{label}",
new_count,
retain=False,
)
# Set the count for the /zone/all topic.
total_label_count += new_count
# if this is a new zone/label combo for this camera
else:
if label in obj_counter:
zone_label[camera] = obj_counter[label]
self.dispatcher.publish(
f"{zone}/{label}",
obj_counter[label],
retain=False,
)
# Set the count for the /zone/all topic.
total_label_count += obj_counter[label]
# if we have previously published a count for this zone all labels
zone_label = self.zone_data[zone]["all"]
if camera in zone_label:
current_count = sum(zone_label.values())
zone_label[camera] = total_label_count
new_count = sum(zone_label.values())
if new_count != current_count:
self.dispatcher.publish(
f"{zone}/all",
new_count,
retain=False,
)
# if this is a new zone all label for this camera
else:
zone_label[camera] = total_label_count
self.dispatcher.publish(
f"{zone}/all",
total_label_count,
retain=False,
)
# cleanup event finished queue
while not self.stop_event.is_set():
update = self.event_end_subscriber.check_for_update(timeout=0.01)
if not update:
break
event_id, camera = update
self.camera_states[camera].finished(event_id)
self.detection_publisher.stop()
self.event_sender.stop()
self.event_end_subscriber.stop()
logger.info("Exiting object processor...")
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