# 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 sys import os import logging from colors import color from bumble.device import Device from bumble.transport import open_transport_or_link from bumble.core import BT_BR_EDR_TRANSPORT from bumble.avdtp import ( find_avdtp_service_with_connection, AVDTP_AUDIO_MEDIA_TYPE, MediaCodecCapabilities, MediaPacketPump, Protocol, Listener ) from bumble.a2dp import ( SBC_JOINT_STEREO_CHANNEL_MODE, SBC_LOUDNESS_ALLOCATION_METHOD, make_audio_source_service_sdp_records, A2DP_SBC_CODEC_TYPE, SbcMediaCodecInformation, SbcPacketSource ) # ----------------------------------------------------------------------------- def sdp_records(): service_record_handle = 0x00010001 return { service_record_handle: make_audio_source_service_sdp_records(service_record_handle) } # ----------------------------------------------------------------------------- def codec_capabilities(): # NOTE: this shouldn't be hardcoded, but should be inferred from the input file instead return MediaCodecCapabilities( media_type = AVDTP_AUDIO_MEDIA_TYPE, media_codec_type = A2DP_SBC_CODEC_TYPE, media_codec_information = SbcMediaCodecInformation.from_discrete_values( sampling_frequency = 44100, channel_mode = SBC_JOINT_STEREO_CHANNEL_MODE, block_length = 16, subbands = 8, allocation_method = SBC_LOUDNESS_ALLOCATION_METHOD, minimum_bitpool_value = 2, maximum_bitpool_value = 53 ) ) # ----------------------------------------------------------------------------- def on_avdtp_connection(read_function, protocol): packet_source = SbcPacketSource(read_function, protocol.l2cap_channel.mtu, codec_capabilities()) packet_pump = MediaPacketPump(packet_source.packets) protocol.add_source(packet_source.codec_capabilities, packet_pump) # ----------------------------------------------------------------------------- async def stream_packets(read_function, protocol): # Discover all endpoints on the remote device endpoints = await protocol.discover_remote_endpoints() for endpoint in endpoints: print('@@@', endpoint) # Select a sink sink = protocol.find_remote_sink_by_codec(AVDTP_AUDIO_MEDIA_TYPE, A2DP_SBC_CODEC_TYPE) if sink is None: print(color('!!! no SBC sink found', 'red')) return print(f'### Selected sink: {sink.seid}') # Stream the packets packet_source = SbcPacketSource(read_function, protocol.l2cap_channel.mtu, codec_capabilities()) packet_pump = MediaPacketPump(packet_source.packets) source = protocol.add_source(packet_source.codec_capabilities, packet_pump) stream = await protocol.create_stream(source, sink) await stream.start() await asyncio.sleep(5) await stream.stop() await asyncio.sleep(5) await stream.start() await asyncio.sleep(5) await stream.stop() await stream.close() # ----------------------------------------------------------------------------- async def main(): if len(sys.argv) < 4: print('Usage: run_a2dp_source.py

[]') print('example: run_a2dp_source.py classic1.json usb:0 test.sbc E1:CA:72:48:C4:E8') return print('<<< connecting to HCI...') async with await open_transport_or_link(sys.argv[2]) as (hci_source, hci_sink): print('<<< connected') # Create a device device = Device.from_config_file_with_hci(sys.argv[1], hci_source, hci_sink) device.classic_enabled = True # Setup the SDP to expose the SRC service device.sdp_service_records = sdp_records() # Start await device.power_on() with open(sys.argv[3], 'rb') as sbc_file: # NOTE: this should be using asyncio file reading, but blocking reads are good enough for testing async def read(byte_count): return sbc_file.read(byte_count) if len(sys.argv) > 4: # Connect to a peer target_address = sys.argv[4] print(f'=== Connecting to {target_address}...') connection = await device.connect(target_address, transport=BT_BR_EDR_TRANSPORT) print(f'=== Connected to {connection.peer_address}!') # Request authentication print('*** Authenticating...') await connection.authenticate() print('*** Authenticated') # Enable encryption print('*** Enabling encryption...') await connection.encrypt() print('*** Encryption on') # Look for an A2DP service avdtp_version = await find_avdtp_service_with_connection(device, connection) if not avdtp_version: print(color('!!! no A2DP service found')) return # Create a client to interact with the remote device protocol = await Protocol.connect(connection, avdtp_version) # Start streaming await stream_packets(read, protocol) else: # Create a listener to wait for AVDTP connections listener = Listener(Listener.create_registrar(device), version=(1, 2)) listener.on('connection', lambda protocol: on_avdtp_connection(read, protocol)) # Become connectable and wait for a connection await device.set_discoverable(True) await device.set_connectable(True) await hci_source.wait_for_termination() # ----------------------------------------------------------------------------- logging.basicConfig(level = os.environ.get('BUMBLE_LOGLEVEL', 'DEBUG').upper()) asyncio.run(main())