mirror of
https://github.com/blakeblackshear/frigate.git
synced 2024-12-23 19:11:14 +01:00
9df5927ac5
* zoom in/out in search for lost objects * predicted box should not be empty * clean up and update zoom logic * only zoom if enabled * more cleanup * check for valid velocity when zooming * only try absolute zoom in if obj area has changed * zoom logic * don't enqueue lost object zoom if already at limit * don't disable motion boxes during ptz moves * velocity threshold based on move coefficients * fix area zoom logic * disable debug zoom * don't process objects if ptz moving * recalc with exponent * change exponent * remove lost object zooming * increase distance threshold for stationary object * increase distance threshold constant * only zoom out if nonzero * camera name in all debug logging * add camera name to debug logging * camera variable name consistency * update calibration behavior and docs * docs and better zooming * more sensible target values * docs wording * fix velocity threshold variable * zooming tweaks and remove iou for current objects * debug and docs * get valid velocity * include zero * additional debug statements * add zoom hysteresis * zoom on initial move if relative * only update target box if we actually zoom * merge dev * use getattr instead of get * increase distance threshold * reverse logic * get_camera_status after preset move to store zoom * final tweaks and docs * use constants and catch possible debug exception * adjust zoom factor exponent * don't run motion estimation when calling preset * adjust dimension threshold * use numpy for velocity estimate calcs * more numpy conversion * fix numpy shapes * numpy zeros dimension * more zoom out conditions * fix velocity bug * ensure init has been called in debug view * ensure onvif init if enabling by mqtt * change default hysteresis values * recalc relative zoom value * zoom out value * try to zoom when object isn't moving * try zoom when tracked object is not moving * don't try to zoom every time * negate zoom out condition when needed * hysteresis constants for absolute zooming * update zoom conditions * don't recalc target box on zoom only * zoom out if above area threshold * don't print zooming debug for stationary obj * revamp zooming to use area moving average * zooming tweaks and expose property * limit zoom with max target box * use calibration to determine zoom levels * zoom logic fix * docs * add tapo c200 camera * fix initial absolute zoom * small zoom logic fix * better invalid velocity checks * fix test * really fix test this time
604 lines
23 KiB
Python
604 lines
23 KiB
Python
"""Configure and control camera via onvif."""
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import logging
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import site
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from enum import Enum
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import numpy
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from onvif import ONVIFCamera, ONVIFError
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from frigate.config import FrigateConfig, ZoomingModeEnum
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from frigate.types import PTZMetricsTypes
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from frigate.util.builtin import find_by_key
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logger = logging.getLogger(__name__)
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class OnvifCommandEnum(str, Enum):
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"""Holds all possible move commands"""
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init = "init"
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move_down = "move_down"
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move_left = "move_left"
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move_right = "move_right"
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move_up = "move_up"
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preset = "preset"
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stop = "stop"
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zoom_in = "zoom_in"
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zoom_out = "zoom_out"
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class OnvifController:
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def __init__(
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self, config: FrigateConfig, ptz_metrics: dict[str, PTZMetricsTypes]
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) -> None:
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self.cams: dict[str, ONVIFCamera] = {}
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self.config = config
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self.ptz_metrics = ptz_metrics
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for cam_name, cam in config.cameras.items():
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if not cam.enabled:
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continue
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if cam.onvif.host:
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try:
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self.cams[cam_name] = {
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"onvif": ONVIFCamera(
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cam.onvif.host,
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cam.onvif.port,
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cam.onvif.user,
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cam.onvif.password,
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wsdl_dir=site.getsitepackages()[0].replace(
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"dist-packages", "site-packages"
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)
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+ "/wsdl",
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),
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"init": False,
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"active": False,
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"features": [],
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"presets": {},
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}
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except ONVIFError as e:
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logger.error(f"Onvif connection to {cam.name} failed: {e}")
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def _init_onvif(self, camera_name: str) -> bool:
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onvif: ONVIFCamera = self.cams[camera_name]["onvif"]
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# create init services
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media = onvif.create_media_service()
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try:
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profile = media.GetProfiles()[0]
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except ONVIFError as e:
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logger.error(f"Unable to connect to camera: {camera_name}: {e}")
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return False
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ptz = onvif.create_ptz_service()
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request = ptz.create_type("GetConfigurations")
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configs = ptz.GetConfigurations(request)[0]
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logger.debug(f"Onvif configs for {camera_name}: {configs}")
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request = ptz.create_type("GetConfigurationOptions")
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request.ConfigurationToken = profile.PTZConfiguration.token
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ptz_config = ptz.GetConfigurationOptions(request)
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logger.debug(f"Onvif config for {camera_name}: {ptz_config}")
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service_capabilities_request = ptz.create_type("GetServiceCapabilities")
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self.cams[camera_name][
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"service_capabilities_request"
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] = service_capabilities_request
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fov_space_id = next(
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(
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i
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for i, space in enumerate(
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ptz_config.Spaces.RelativePanTiltTranslationSpace
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)
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if "TranslationSpaceFov" in space["URI"]
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),
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None,
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)
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# status request for autotracking and filling ptz-parameters
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status_request = ptz.create_type("GetStatus")
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status_request.ProfileToken = profile.token
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self.cams[camera_name]["status_request"] = status_request
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try:
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status = ptz.GetStatus(status_request)
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logger.debug(f"Onvif status config for {camera_name}: {status}")
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except Exception as e:
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logger.warning(f"Unable to get status from camera: {camera_name}: {e}")
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status = None
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# autoracking relative panning/tilting needs a relative zoom value set to 0
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# if camera supports relative movement
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if self.config.cameras[camera_name].onvif.autotracking.zooming:
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zoom_space_id = next(
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(
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i
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for i, space in enumerate(
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ptz_config.Spaces.RelativeZoomTranslationSpace
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)
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if "TranslationGenericSpace" in space["URI"]
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),
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None,
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)
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# setup continuous moving request
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move_request = ptz.create_type("ContinuousMove")
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move_request.ProfileToken = profile.token
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self.cams[camera_name]["move_request"] = move_request
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# setup relative moving request for autotracking
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move_request = ptz.create_type("RelativeMove")
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move_request.ProfileToken = profile.token
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if move_request.Translation is None and fov_space_id is not None:
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move_request.Translation = status.Position
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move_request.Translation.PanTilt.space = ptz_config["Spaces"][
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"RelativePanTiltTranslationSpace"
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][fov_space_id]["URI"]
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# try setting relative zoom translation space
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try:
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if (
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self.config.cameras[camera_name].onvif.autotracking.zooming
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== ZoomingModeEnum.relative
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):
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if zoom_space_id is not None:
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move_request.Translation.Zoom.space = ptz_config["Spaces"][
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"RelativeZoomTranslationSpace"
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][0]["URI"]
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except Exception:
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if (
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self.config.cameras[camera_name].onvif.autotracking.zooming
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== ZoomingModeEnum.relative
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):
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self.config.cameras[
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camera_name
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].onvif.autotracking.zooming = ZoomingModeEnum.disabled
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logger.warning(
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f"Disabling autotracking zooming for {camera_name}: Relative zoom not supported"
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)
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if move_request.Speed is None:
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move_request.Speed = status.Position if status else None
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self.cams[camera_name]["relative_move_request"] = move_request
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# setup absolute moving request for autotracking zooming
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move_request = ptz.create_type("AbsoluteMove")
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move_request.ProfileToken = profile.token
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self.cams[camera_name]["absolute_move_request"] = move_request
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# setup existing presets
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try:
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presets: list[dict] = ptz.GetPresets({"ProfileToken": profile.token})
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except ONVIFError as e:
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logger.warning(f"Unable to get presets from camera: {camera_name}: {e}")
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presets = []
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for preset in presets:
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self.cams[camera_name]["presets"][
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(getattr(preset, "Name") or f"preset {preset['token']}").lower()
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] = preset["token"]
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# get list of supported features
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ptz_config = ptz.GetConfigurationOptions(request)
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supported_features = []
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if ptz_config.Spaces and ptz_config.Spaces.ContinuousPanTiltVelocitySpace:
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supported_features.append("pt")
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if ptz_config.Spaces and ptz_config.Spaces.ContinuousZoomVelocitySpace:
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supported_features.append("zoom")
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if ptz_config.Spaces and ptz_config.Spaces.RelativePanTiltTranslationSpace:
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supported_features.append("pt-r")
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if ptz_config.Spaces and ptz_config.Spaces.RelativeZoomTranslationSpace:
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supported_features.append("zoom-r")
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try:
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# get camera's zoom limits from onvif config
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self.cams[camera_name][
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"relative_zoom_range"
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] = ptz_config.Spaces.RelativeZoomTranslationSpace[0]
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except Exception:
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if (
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self.config.cameras[camera_name].onvif.autotracking.zooming
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== ZoomingModeEnum.relative
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):
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self.config.cameras[camera_name].onvif.autotracking.zooming = False
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logger.warning(
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f"Disabling autotracking zooming for {camera_name}: Relative zoom not supported"
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)
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if ptz_config.Spaces and ptz_config.Spaces.AbsoluteZoomPositionSpace:
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supported_features.append("zoom-a")
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try:
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# get camera's zoom limits from onvif config
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self.cams[camera_name][
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"absolute_zoom_range"
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] = ptz_config.Spaces.AbsoluteZoomPositionSpace[0]
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self.cams[camera_name]["zoom_limits"] = configs.ZoomLimits
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except Exception:
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if self.config.cameras[camera_name].onvif.autotracking.zooming:
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self.config.cameras[camera_name].onvif.autotracking.zooming = False
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logger.warning(
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f"Disabling autotracking zooming for {camera_name}: Absolute zoom not supported"
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)
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# set relative pan/tilt space for autotracker
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if fov_space_id is not None:
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supported_features.append("pt-r-fov")
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self.cams[camera_name][
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"relative_fov_range"
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] = ptz_config.Spaces.RelativePanTiltTranslationSpace[fov_space_id]
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self.cams[camera_name]["features"] = supported_features
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self.cams[camera_name]["init"] = True
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return True
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def _stop(self, camera_name: str) -> None:
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onvif: ONVIFCamera = self.cams[camera_name]["onvif"]
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move_request = self.cams[camera_name]["move_request"]
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onvif.get_service("ptz").Stop(
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{
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"ProfileToken": move_request.ProfileToken,
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"PanTilt": True,
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"Zoom": True,
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}
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)
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self.cams[camera_name]["active"] = False
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def _move(self, camera_name: str, command: OnvifCommandEnum) -> None:
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if self.cams[camera_name]["active"]:
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logger.warning(
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f"{camera_name} is already performing an action, stopping..."
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)
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self._stop(camera_name)
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self.cams[camera_name]["active"] = True
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onvif: ONVIFCamera = self.cams[camera_name]["onvif"]
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move_request = self.cams[camera_name]["move_request"]
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if command == OnvifCommandEnum.move_left:
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move_request.Velocity = {"PanTilt": {"x": -0.5, "y": 0}}
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elif command == OnvifCommandEnum.move_right:
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move_request.Velocity = {"PanTilt": {"x": 0.5, "y": 0}}
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elif command == OnvifCommandEnum.move_up:
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move_request.Velocity = {
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"PanTilt": {
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"x": 0,
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"y": 0.5,
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}
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}
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elif command == OnvifCommandEnum.move_down:
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move_request.Velocity = {
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"PanTilt": {
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"x": 0,
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"y": -0.5,
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}
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}
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onvif.get_service("ptz").ContinuousMove(move_request)
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def _move_relative(self, camera_name: str, pan, tilt, zoom, speed) -> None:
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if "pt-r-fov" not in self.cams[camera_name]["features"]:
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logger.error(f"{camera_name} does not support ONVIF RelativeMove (FOV).")
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return
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logger.debug(
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f"{camera_name} called RelativeMove: pan: {pan} tilt: {tilt} zoom: {zoom}"
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)
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if self.cams[camera_name]["active"]:
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logger.warning(
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f"{camera_name} is already performing an action, not moving..."
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)
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return
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self.cams[camera_name]["active"] = True
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self.ptz_metrics[camera_name]["ptz_stopped"].clear()
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logger.debug(
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f"{camera_name}: PTZ start time: {self.ptz_metrics[camera_name]['ptz_frame_time'].value}"
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)
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self.ptz_metrics[camera_name]["ptz_start_time"].value = self.ptz_metrics[
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camera_name
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]["ptz_frame_time"].value
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self.ptz_metrics[camera_name]["ptz_stop_time"].value = 0
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onvif: ONVIFCamera = self.cams[camera_name]["onvif"]
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move_request = self.cams[camera_name]["relative_move_request"]
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# function takes in -1 to 1 for pan and tilt, interpolate to the values of the camera.
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# The onvif spec says this can report as +INF and -INF, so this may need to be modified
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pan = numpy.interp(
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pan,
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[-1, 1],
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[
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self.cams[camera_name]["relative_fov_range"]["XRange"]["Min"],
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self.cams[camera_name]["relative_fov_range"]["XRange"]["Max"],
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],
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)
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tilt = numpy.interp(
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tilt,
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[-1, 1],
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[
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self.cams[camera_name]["relative_fov_range"]["YRange"]["Min"],
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self.cams[camera_name]["relative_fov_range"]["YRange"]["Max"],
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],
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)
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move_request.Speed = {
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"PanTilt": {
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"x": speed,
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"y": speed,
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},
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}
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move_request.Translation.PanTilt.x = pan
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move_request.Translation.PanTilt.y = tilt
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if "zoom-r" in self.cams[camera_name]["features"]:
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move_request.Speed = {
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"PanTilt": {
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"x": speed,
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"y": speed,
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},
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"Zoom": {"x": speed},
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}
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move_request.Translation.Zoom.x = zoom
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onvif.get_service("ptz").RelativeMove(move_request)
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# reset after the move request
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move_request.Translation.PanTilt.x = 0
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move_request.Translation.PanTilt.y = 0
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if "zoom-r" in self.cams[camera_name]["features"]:
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move_request.Translation.Zoom.x = 0
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self.cams[camera_name]["active"] = False
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def _move_to_preset(self, camera_name: str, preset: str) -> None:
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if preset not in self.cams[camera_name]["presets"]:
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logger.error(f"{preset} is not a valid preset for {camera_name}")
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return
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self.cams[camera_name]["active"] = True
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self.ptz_metrics[camera_name]["ptz_stopped"].clear()
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self.ptz_metrics[camera_name]["ptz_start_time"].value = 0
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self.ptz_metrics[camera_name]["ptz_stop_time"].value = 0
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move_request = self.cams[camera_name]["move_request"]
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onvif: ONVIFCamera = self.cams[camera_name]["onvif"]
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preset_token = self.cams[camera_name]["presets"][preset]
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onvif.get_service("ptz").GotoPreset(
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{
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"ProfileToken": move_request.ProfileToken,
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"PresetToken": preset_token,
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}
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)
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self.cams[camera_name]["active"] = False
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def _zoom(self, camera_name: str, command: OnvifCommandEnum) -> None:
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if self.cams[camera_name]["active"]:
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logger.warning(
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f"{camera_name} is already performing an action, stopping..."
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)
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self._stop(camera_name)
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self.cams[camera_name]["active"] = True
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onvif: ONVIFCamera = self.cams[camera_name]["onvif"]
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move_request = self.cams[camera_name]["move_request"]
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if command == OnvifCommandEnum.zoom_in:
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move_request.Velocity = {"Zoom": {"x": 0.5}}
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elif command == OnvifCommandEnum.zoom_out:
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move_request.Velocity = {"Zoom": {"x": -0.5}}
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onvif.get_service("ptz").ContinuousMove(move_request)
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def _zoom_absolute(self, camera_name: str, zoom, speed) -> None:
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if "zoom-a" not in self.cams[camera_name]["features"]:
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logger.error(f"{camera_name} does not support ONVIF AbsoluteMove zooming.")
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return
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logger.debug(f"{camera_name} called AbsoluteMove: zoom: {zoom}")
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if self.cams[camera_name]["active"]:
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logger.warning(
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f"{camera_name} is already performing an action, not moving..."
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)
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return
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self.cams[camera_name]["active"] = True
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self.ptz_metrics[camera_name]["ptz_stopped"].clear()
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logger.debug(
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f"{camera_name}: PTZ start time: {self.ptz_metrics[camera_name]['ptz_frame_time'].value}"
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)
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self.ptz_metrics[camera_name]["ptz_start_time"].value = self.ptz_metrics[
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camera_name
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]["ptz_frame_time"].value
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self.ptz_metrics[camera_name]["ptz_stop_time"].value = 0
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onvif: ONVIFCamera = self.cams[camera_name]["onvif"]
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move_request = self.cams[camera_name]["absolute_move_request"]
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# function takes in 0 to 1 for zoom, interpolate to the values of the camera.
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zoom = numpy.interp(
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zoom,
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[0, 1],
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[
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self.cams[camera_name]["absolute_zoom_range"]["XRange"]["Min"],
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self.cams[camera_name]["absolute_zoom_range"]["XRange"]["Max"],
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],
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)
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move_request.Speed = {"Zoom": speed}
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move_request.Position = {"Zoom": zoom}
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logger.debug(f"{camera_name}: Absolute zoom: {zoom}")
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onvif.get_service("ptz").AbsoluteMove(move_request)
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self.cams[camera_name]["active"] = False
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def handle_command(
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self, camera_name: str, command: OnvifCommandEnum, param: str = ""
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) -> None:
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if camera_name not in self.cams.keys():
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logger.error(f"Onvif is not setup for {camera_name}")
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|
return
|
|
|
|
if not self.cams[camera_name]["init"]:
|
|
if not self._init_onvif(camera_name):
|
|
return
|
|
|
|
if command == OnvifCommandEnum.init:
|
|
# already init
|
|
return
|
|
elif command == OnvifCommandEnum.stop:
|
|
self._stop(camera_name)
|
|
elif command == OnvifCommandEnum.preset:
|
|
self._move_to_preset(camera_name, param)
|
|
elif (
|
|
command == OnvifCommandEnum.zoom_in or command == OnvifCommandEnum.zoom_out
|
|
):
|
|
self._zoom(camera_name, command)
|
|
else:
|
|
self._move(camera_name, command)
|
|
|
|
def get_camera_info(self, camera_name: str) -> dict[str, any]:
|
|
if camera_name not in self.cams.keys():
|
|
logger.error(f"Onvif is not setup for {camera_name}")
|
|
return {}
|
|
|
|
if not self.cams[camera_name]["init"]:
|
|
self._init_onvif(camera_name)
|
|
|
|
return {
|
|
"name": camera_name,
|
|
"features": self.cams[camera_name]["features"],
|
|
"presets": list(self.cams[camera_name]["presets"].keys()),
|
|
}
|
|
|
|
def get_service_capabilities(self, camera_name: str) -> None:
|
|
if camera_name not in self.cams.keys():
|
|
logger.error(f"Onvif is not setup for {camera_name}")
|
|
return {}
|
|
|
|
if not self.cams[camera_name]["init"]:
|
|
self._init_onvif(camera_name)
|
|
|
|
onvif: ONVIFCamera = self.cams[camera_name]["onvif"]
|
|
service_capabilities_request = self.cams[camera_name][
|
|
"service_capabilities_request"
|
|
]
|
|
service_capabilities = onvif.get_service("ptz").GetServiceCapabilities(
|
|
service_capabilities_request
|
|
)
|
|
|
|
logger.debug(
|
|
f"Onvif service capabilities for {camera_name}: {service_capabilities}"
|
|
)
|
|
|
|
# MoveStatus is required for autotracking - should return "true" if supported
|
|
return find_by_key(vars(service_capabilities), "MoveStatus")
|
|
|
|
def get_camera_status(self, camera_name: str) -> None:
|
|
if camera_name not in self.cams.keys():
|
|
logger.error(f"Onvif is not setup for {camera_name}")
|
|
return {}
|
|
|
|
if not self.cams[camera_name]["init"]:
|
|
self._init_onvif(camera_name)
|
|
|
|
onvif: ONVIFCamera = self.cams[camera_name]["onvif"]
|
|
status_request = self.cams[camera_name]["status_request"]
|
|
try:
|
|
status = onvif.get_service("ptz").GetStatus(status_request)
|
|
except Exception:
|
|
pass # We're unsupported, that'll be reported in the next check.
|
|
|
|
# there doesn't seem to be an onvif standard with this optional parameter
|
|
# some cameras can report MoveStatus with or without PanTilt or Zoom attributes
|
|
pan_tilt_status = getattr(status.MoveStatus, "PanTilt", None)
|
|
zoom_status = getattr(status.MoveStatus, "Zoom", None)
|
|
|
|
# if it's not an attribute, see if MoveStatus even exists in the status result
|
|
if pan_tilt_status is None:
|
|
pan_tilt_status = getattr(status, "MoveStatus", None)
|
|
|
|
# we're unsupported
|
|
if pan_tilt_status is None or pan_tilt_status.lower() not in [
|
|
"idle",
|
|
"moving",
|
|
]:
|
|
logger.error(
|
|
f"Camera {camera_name} does not support the ONVIF GetStatus method. Autotracking will not function correctly and must be disabled in your config."
|
|
)
|
|
return
|
|
|
|
if pan_tilt_status.lower() == "idle" and (
|
|
zoom_status is None or zoom_status.lower() == "idle"
|
|
):
|
|
self.cams[camera_name]["active"] = False
|
|
if not self.ptz_metrics[camera_name]["ptz_stopped"].is_set():
|
|
self.ptz_metrics[camera_name]["ptz_stopped"].set()
|
|
|
|
logger.debug(
|
|
f"{camera_name}: PTZ stop time: {self.ptz_metrics[camera_name]['ptz_frame_time'].value}"
|
|
)
|
|
|
|
self.ptz_metrics[camera_name]["ptz_stop_time"].value = self.ptz_metrics[
|
|
camera_name
|
|
]["ptz_frame_time"].value
|
|
else:
|
|
self.cams[camera_name]["active"] = True
|
|
if self.ptz_metrics[camera_name]["ptz_stopped"].is_set():
|
|
self.ptz_metrics[camera_name]["ptz_stopped"].clear()
|
|
|
|
logger.debug(
|
|
f"{camera_name}: PTZ start time: {self.ptz_metrics[camera_name]['ptz_frame_time'].value}"
|
|
)
|
|
|
|
self.ptz_metrics[camera_name][
|
|
"ptz_start_time"
|
|
].value = self.ptz_metrics[camera_name]["ptz_frame_time"].value
|
|
self.ptz_metrics[camera_name]["ptz_stop_time"].value = 0
|
|
|
|
if (
|
|
self.config.cameras[camera_name].onvif.autotracking.zooming
|
|
!= ZoomingModeEnum.disabled
|
|
):
|
|
# store absolute zoom level as 0 to 1 interpolated from the values of the camera
|
|
self.ptz_metrics[camera_name]["ptz_zoom_level"].value = numpy.interp(
|
|
round(status.Position.Zoom.x, 2),
|
|
[0, 1],
|
|
[
|
|
self.cams[camera_name]["absolute_zoom_range"]["XRange"]["Min"],
|
|
self.cams[camera_name]["absolute_zoom_range"]["XRange"]["Max"],
|
|
],
|
|
)
|
|
logger.debug(
|
|
f'{camera_name}: Camera zoom level: {self.ptz_metrics[camera_name]["ptz_zoom_level"].value}'
|
|
)
|
|
|
|
# some hikvision cams won't update MoveStatus, so warn if it hasn't changed
|
|
if (
|
|
not self.ptz_metrics[camera_name]["ptz_stopped"].is_set()
|
|
and not self.ptz_metrics[camera_name]["ptz_reset"].is_set()
|
|
and self.ptz_metrics[camera_name]["ptz_start_time"].value != 0
|
|
and self.ptz_metrics[camera_name]["ptz_frame_time"].value
|
|
> (self.ptz_metrics[camera_name]["ptz_start_time"].value + 10)
|
|
and self.ptz_metrics[camera_name]["ptz_stop_time"].value == 0
|
|
):
|
|
logger.debug(
|
|
f'Start time: {self.ptz_metrics[camera_name]["ptz_start_time"].value}, Stop time: {self.ptz_metrics[camera_name]["ptz_stop_time"].value}, Frame time: {self.ptz_metrics[camera_name]["ptz_frame_time"].value}'
|
|
)
|
|
# set the stop time so we don't come back into this again and spam the logs
|
|
self.ptz_metrics[camera_name]["ptz_stop_time"].value = self.ptz_metrics[
|
|
camera_name
|
|
]["ptz_frame_time"].value
|
|
logger.warning(f"Camera {camera_name} is still in ONVIF 'MOVING' status.")
|