# Copyright 2021-2022 Google LLC # # Licensed under the Apache License, Version 2.0 (the "License"); # you may not use this file except in compliance with the License. # You may obtain a copy of the License at # # https://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. # ----------------------------------------------------------------------------- # Imports # ----------------------------------------------------------------------------- import asyncio import contextlib import sys import os import logging import json import websockets import functools from typing import Optional from bumble import rfcomm from bumble import hci from bumble.device import Device, Connection from bumble.transport import open_transport_or_link from bumble import hfp from bumble.hfp import HfProtocol ws: Optional[websockets.WebSocketServerProtocol] = None hf_protocol: Optional[HfProtocol] = None # ----------------------------------------------------------------------------- def on_dlc(dlc: rfcomm.DLC, configuration: hfp.HfConfiguration): print('*** DLC connected', dlc) global hf_protocol hf_protocol = HfProtocol(dlc, configuration) asyncio.create_task(hf_protocol.run()) def on_sco_request(connection: Connection, link_type: int, protocol: HfProtocol): if connection == protocol.dlc.multiplexer.l2cap_channel.connection: if link_type == hci.HCI_Connection_Complete_Event.SCO_LINK_TYPE: esco_parameters = hfp.ESCO_PARAMETERS[ hfp.DefaultCodecParameters.SCO_CVSD_D1 ] elif protocol.active_codec == hfp.AudioCodec.MSBC: esco_parameters = hfp.ESCO_PARAMETERS[ hfp.DefaultCodecParameters.ESCO_MSBC_T2 ] elif protocol.active_codec == hfp.AudioCodec.CVSD: esco_parameters = hfp.ESCO_PARAMETERS[ hfp.DefaultCodecParameters.ESCO_CVSD_S4 ] connection.abort_on( 'disconnection', connection.device.send_command( hci.HCI_Enhanced_Accept_Synchronous_Connection_Request_Command( bd_addr=connection.peer_address, **esco_parameters.asdict() ) ), ) handler = functools.partial(on_sco_request, protocol=hf_protocol) dlc.multiplexer.l2cap_channel.connection.device.on('sco_request', handler) dlc.multiplexer.l2cap_channel.once( 'close', lambda: dlc.multiplexer.l2cap_channel.connection.device.remove_listener( 'sco_request', handler ), ) def on_ag_indicator(indicator): global ws if ws: asyncio.create_task(ws.send(str(indicator))) hf_protocol.on('ag_indicator', on_ag_indicator) # ----------------------------------------------------------------------------- async def main() -> None: if len(sys.argv) < 3: print('Usage: run_classic_hfp.py

') print('example: run_classic_hfp.py classic2.json usb:04b4:f901') return print('<<< connecting to HCI...') async with await open_transport_or_link(sys.argv[2]) as hci_transport: print('<<< connected') # Hands-Free profile configuration. # TODO: load configuration from file. configuration = hfp.HfConfiguration( supported_hf_features=[ hfp.HfFeature.THREE_WAY_CALLING, hfp.HfFeature.REMOTE_VOLUME_CONTROL, hfp.HfFeature.ENHANCED_CALL_STATUS, hfp.HfFeature.ENHANCED_CALL_CONTROL, hfp.HfFeature.CODEC_NEGOTIATION, hfp.HfFeature.HF_INDICATORS, hfp.HfFeature.ESCO_S4_SETTINGS_SUPPORTED, ], supported_hf_indicators=[ hfp.HfIndicator.BATTERY_LEVEL, ], supported_audio_codecs=[ hfp.AudioCodec.CVSD, hfp.AudioCodec.MSBC, ], ) # Create a device device = Device.from_config_file_with_hci( sys.argv[1], hci_transport.source, hci_transport.sink ) device.classic_enabled = True # Create and register a server rfcomm_server = rfcomm.Server(device) # Listen for incoming DLC connections channel_number = rfcomm_server.listen(lambda dlc: on_dlc(dlc, configuration)) print(f'### Listening for connection on channel {channel_number}') # Advertise the HFP RFComm channel in the SDP device.sdp_service_records = { 0x00010001: hfp.make_hf_sdp_records( 0x00010001, channel_number, configuration ) } # Let's go! await device.power_on() # Start being discoverable and connectable await device.set_discoverable(True) await device.set_connectable(True) # Start the UI websocket server to offer a few buttons and input boxes async def serve(websocket: websockets.WebSocketServerProtocol, _path): global ws ws = websocket async for message in websocket: with contextlib.suppress(websockets.exceptions.ConnectionClosedOK): print('Received: ', str(message)) parsed = json.loads(message) message_type = parsed['type'] if message_type == 'at_command': if hf_protocol is not None: response = str( await hf_protocol.execute_command( parsed['command'], response_type=hfp.AtResponseType.MULTIPLE, ) ) await websocket.send(response) elif message_type == 'query_call': if hf_protocol: response = str(await hf_protocol.query_current_calls()) await websocket.send(response) await websockets.serve(serve, 'localhost', 8989) await hci_transport.source.wait_for_termination() # ----------------------------------------------------------------------------- logging.basicConfig(level=os.environ.get('BUMBLE_LOGLEVEL', 'DEBUG').upper()) asyncio.run(main())