301 lines
12 KiB
Python
301 lines
12 KiB
Python
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import asyncio
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import logging
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import sys
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from typing import Dict, List, Literal, NamedTuple, Optional
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from uuid import UUID
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from .util import assert_mta
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if sys.version_info >= (3, 12):
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from winrt.windows.devices.bluetooth.advertisement import (
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BluetoothLEAdvertisementReceivedEventArgs,
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BluetoothLEAdvertisementType,
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BluetoothLEAdvertisementWatcher,
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BluetoothLEAdvertisementWatcherStatus,
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BluetoothLEScanningMode,
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)
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else:
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from bleak_winrt.windows.devices.bluetooth.advertisement import (
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BluetoothLEAdvertisementReceivedEventArgs,
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BluetoothLEAdvertisementType,
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BluetoothLEAdvertisementWatcher,
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BluetoothLEAdvertisementWatcherStatus,
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BluetoothLEScanningMode,
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)
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from ...assigned_numbers import AdvertisementDataType
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from ...exc import BleakError
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from ...uuids import normalize_uuid_str
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from ..scanner import AdvertisementData, AdvertisementDataCallback, BaseBleakScanner
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logger = logging.getLogger(__name__)
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def _format_bdaddr(a: int) -> str:
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return ":".join(f"{x:02X}" for x in a.to_bytes(6, byteorder="big"))
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def _format_event_args(e: BluetoothLEAdvertisementReceivedEventArgs) -> str:
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try:
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return f"{_format_bdaddr(e.bluetooth_address)}: {e.advertisement.local_name}"
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except Exception:
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return _format_bdaddr(e.bluetooth_address)
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class _RawAdvData(NamedTuple):
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"""
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Platform-specific advertisement data.
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Windows does not combine advertising data with type SCAN_RSP with other
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advertising data like other platforms, so se have to do it ourselves.
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"""
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adv: Optional[BluetoothLEAdvertisementReceivedEventArgs]
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"""
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The advertisement data received from the BluetoothLEAdvertisementWatcher.Received event.
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"""
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scan: Optional[BluetoothLEAdvertisementReceivedEventArgs]
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"""
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The scan response for the same device as *adv*.
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"""
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class BleakScannerWinRT(BaseBleakScanner):
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"""The native Windows Bleak BLE Scanner.
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Implemented using `Python/WinRT <https://github.com/Microsoft/xlang/tree/master/src/package/pywinrt/projection/>`_.
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Args:
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detection_callback:
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Optional function that will be called each time a device is
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discovered or advertising data has changed.
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service_uuids:
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Optional list of service UUIDs to filter on. Only advertisements
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containing this advertising data will be received.
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scanning_mode:
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Set to ``"passive"`` to avoid the ``"active"`` scanning mode.
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"""
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def __init__(
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self,
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detection_callback: Optional[AdvertisementDataCallback],
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service_uuids: Optional[List[str]],
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scanning_mode: Literal["active", "passive"],
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**kwargs,
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):
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super(BleakScannerWinRT, self).__init__(detection_callback, service_uuids)
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self.watcher: Optional[BluetoothLEAdvertisementWatcher] = None
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self._advertisement_pairs: Dict[int, _RawAdvData] = {}
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self._stopped_event = None
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# case insensitivity is for backwards compatibility on Windows only
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if scanning_mode.lower() == "passive":
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self._scanning_mode = BluetoothLEScanningMode.PASSIVE
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else:
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self._scanning_mode = BluetoothLEScanningMode.ACTIVE
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# Unfortunately, due to the way Windows handles filtering, we can't
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# make use of the service_uuids filter here. If we did we would only
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# get the advertisement data or the scan data, but not both, so would
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# miss out on other essential data. Advanced users can pass their own
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# filters though if they want to.
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self._signal_strength_filter = kwargs.get("SignalStrengthFilter", None)
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self._advertisement_filter = kwargs.get("AdvertisementFilter", None)
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self._received_token = None
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self._stopped_token = None
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def _received_handler(
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self,
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sender: BluetoothLEAdvertisementWatcher,
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event_args: BluetoothLEAdvertisementReceivedEventArgs,
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):
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"""Callback for AdvertisementWatcher.Received"""
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# TODO: Cannot check for if sender == self.watcher in winrt?
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logger.debug("Received %s.", _format_event_args(event_args))
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# REVISIT: if scanning filters with BluetoothSignalStrengthFilter.OutOfRangeTimeout
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# are in place, an RSSI of -127 means that the device has gone out of range and should
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# be removed from the list of seen devices instead of processing the advertisement data.
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# https://learn.microsoft.com/en-us/uwp/api/windows.devices.bluetooth.bluetoothsignalstrengthfilter.outofrangetimeout
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bdaddr = _format_bdaddr(event_args.bluetooth_address)
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# Unlike other platforms, Windows does not combine advertising data for
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# us (regular advertisement + scan response) so we have to do it manually.
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# get the previous advertising data/scan response pair or start a new one
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raw_data = self._advertisement_pairs.get(bdaddr, _RawAdvData(None, None))
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# update the advertising data depending on the advertising data type
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if event_args.advertisement_type == BluetoothLEAdvertisementType.SCAN_RESPONSE:
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raw_data = _RawAdvData(raw_data.adv, event_args)
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else:
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raw_data = _RawAdvData(event_args, raw_data.scan)
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self._advertisement_pairs[bdaddr] = raw_data
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uuids = []
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mfg_data = {}
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service_data = {}
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local_name = None
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tx_power = None
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for args in filter(lambda d: d is not None, raw_data):
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for u in args.advertisement.service_uuids:
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uuids.append(str(u))
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for m in args.advertisement.manufacturer_data:
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mfg_data[m.company_id] = bytes(m.data)
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# local name is empty string rather than None if not present
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if args.advertisement.local_name:
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local_name = args.advertisement.local_name
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try:
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if args.transmit_power_level_in_d_bm is not None:
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tx_power = args.transmit_power_level_in_d_bm
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except AttributeError:
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# the transmit_power_level_in_d_bm property was introduce in
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# Windows build 19041 so we have a fallback for older versions
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for section in args.advertisement.get_sections_by_type(
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AdvertisementDataType.TX_POWER_LEVEL
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):
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tx_power = bytes(section.data)[0]
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# Decode service data
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for section in args.advertisement.get_sections_by_type(
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AdvertisementDataType.SERVICE_DATA_UUID16
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):
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data = bytes(section.data)
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service_data[normalize_uuid_str(f"{data[1]:02x}{data[0]:02x}")] = data[
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2:
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]
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for section in args.advertisement.get_sections_by_type(
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AdvertisementDataType.SERVICE_DATA_UUID32
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):
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data = bytes(section.data)
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service_data[
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normalize_uuid_str(
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f"{data[3]:02x}{data[2]:02x}{data[1]:02x}{data[0]:02x}"
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)
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] = data[4:]
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for section in args.advertisement.get_sections_by_type(
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AdvertisementDataType.SERVICE_DATA_UUID128
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):
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data = bytes(section.data)
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service_data[str(UUID(bytes=bytes(data[15::-1])))] = data[16:]
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if not self.is_allowed_uuid(uuids):
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return
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# Use the BLEDevice to populate all the fields for the advertisement data to return
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advertisement_data = AdvertisementData(
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local_name=local_name,
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manufacturer_data=mfg_data,
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service_data=service_data,
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service_uuids=uuids,
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tx_power=tx_power,
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rssi=event_args.raw_signal_strength_in_d_bm,
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platform_data=(sender, raw_data),
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)
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device = self.create_or_update_device(
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bdaddr, local_name, raw_data, advertisement_data
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)
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self.call_detection_callbacks(device, advertisement_data)
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def _stopped_handler(self, sender, e):
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logger.debug(
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"%s devices found. Watcher status: %r.",
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len(self.seen_devices),
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sender.status,
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)
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self._stopped_event.set()
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async def start(self) -> None:
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if self.watcher:
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raise BleakError("Scanner already started")
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# Callbacks for WinRT async methods will never happen in STA mode if
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# there is nothing pumping a Windows message loop.
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await assert_mta()
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# start with fresh list of discovered devices
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self.seen_devices = {}
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self._advertisement_pairs.clear()
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self.watcher = BluetoothLEAdvertisementWatcher()
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self.watcher.scanning_mode = self._scanning_mode
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event_loop = asyncio.get_running_loop()
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self._stopped_event = asyncio.Event()
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self._received_token = self.watcher.add_received(
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lambda s, e: event_loop.call_soon_threadsafe(self._received_handler, s, e)
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)
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self._stopped_token = self.watcher.add_stopped(
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lambda s, e: event_loop.call_soon_threadsafe(self._stopped_handler, s, e)
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)
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if self._signal_strength_filter is not None:
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self.watcher.signal_strength_filter = self._signal_strength_filter
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if self._advertisement_filter is not None:
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self.watcher.advertisement_filter = self._advertisement_filter
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self.watcher.start()
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# no events for status changes, so we have to poll :-(
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while self.watcher.status == BluetoothLEAdvertisementWatcherStatus.CREATED:
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await asyncio.sleep(0.01)
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if self.watcher.status == BluetoothLEAdvertisementWatcherStatus.ABORTED:
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raise BleakError("Failed to start scanner. Is Bluetooth turned on?")
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if self.watcher.status != BluetoothLEAdvertisementWatcherStatus.STARTED:
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raise BleakError(f"Unexpected watcher status: {self.watcher.status.name}")
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async def stop(self) -> None:
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self.watcher.stop()
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if self.watcher.status == BluetoothLEAdvertisementWatcherStatus.STOPPING:
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await self._stopped_event.wait()
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else:
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logger.debug(
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"skipping waiting for stop because status is %r",
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self.watcher.status,
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)
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try:
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self.watcher.remove_received(self._received_token)
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self.watcher.remove_stopped(self._stopped_token)
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except Exception as e:
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logger.debug("Could not remove event handlers: %s", e)
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self._stopped_token = None
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self._received_token = None
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self.watcher = None
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def set_scanning_filter(self, **kwargs) -> None:
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"""Set a scanning filter for the BleakScanner.
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Keyword Args:
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SignalStrengthFilter (``Windows.Devices.Bluetooth.BluetoothSignalStrengthFilter``): A
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BluetoothSignalStrengthFilter object used for configuration of Bluetooth
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LE advertisement filtering that uses signal strength-based filtering.
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AdvertisementFilter (Windows.Devices.Bluetooth.Advertisement.BluetoothLEAdvertisementFilter): A
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BluetoothLEAdvertisementFilter object used for configuration of Bluetooth LE
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advertisement filtering that uses payload section-based filtering.
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"""
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if "SignalStrengthFilter" in kwargs:
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# TODO: Handle SignalStrengthFilter parameters
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self._signal_strength_filter = kwargs["SignalStrengthFilter"]
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if "AdvertisementFilter" in kwargs:
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# TODO: Handle AdvertisementFilter parameters
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self._advertisement_filter = kwargs["AdvertisementFilter"]
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