examples/run_a2dp_sink.py - platform/external/python/bumble - Git at Google

 # 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 bumble.device import Device
 from bumble.transport import open_transport_or_link
 from bumble.core import BT_BR_EDR_TRANSPORT
 from bumble.avdtp import (
     AVDTP_AUDIO_MEDIA_TYPE,
     Protocol,
     Listener,
     MediaCodecCapabilities,
 )
 from bumble.a2dp import (
     make_audio_sink_service_sdp_records,
     A2DP_SBC_CODEC_TYPE,
     SBC_MONO_CHANNEL_MODE,
     SBC_DUAL_CHANNEL_MODE,
     SBC_SNR_ALLOCATION_METHOD,
     SBC_LOUDNESS_ALLOCATION_METHOD,
     SBC_STEREO_CHANNEL_MODE,
     SBC_JOINT_STEREO_CHANNEL_MODE,
     SbcMediaCodecInformation,
 )

 Context = {'output': None}


 # -----------------------------------------------------------------------------
 def sdp_records():
     service_record_handle = 0x00010001
     return {
         service_record_handle: make_audio_sink_service_sdp_records(
             service_record_handle
         )
     }


 # -----------------------------------------------------------------------------
 def codec_capabilities():
     # NOTE: this shouldn't be hardcoded, but passed on the command line instead
     return MediaCodecCapabilities(
         media_type=AVDTP_AUDIO_MEDIA_TYPE,
         media_codec_type=A2DP_SBC_CODEC_TYPE,
         media_codec_information=SbcMediaCodecInformation.from_lists(
             sampling_frequencies=[48000, 44100, 32000, 16000],
             channel_modes=[
                 SBC_MONO_CHANNEL_MODE,
                 SBC_DUAL_CHANNEL_MODE,
                 SBC_STEREO_CHANNEL_MODE,
                 SBC_JOINT_STEREO_CHANNEL_MODE,
             ],
             block_lengths=[4, 8, 12, 16],
             subbands=[4, 8],
             allocation_methods=[
                 SBC_LOUDNESS_ALLOCATION_METHOD,
                 SBC_SNR_ALLOCATION_METHOD,
             ],
             minimum_bitpool_value=2,
             maximum_bitpool_value=53,
         ),
     )


 # -----------------------------------------------------------------------------
 def on_avdtp_connection(server):
     # Add a sink endpoint to the server
     sink = server.add_sink(codec_capabilities())
     sink.on('rtp_packet', on_rtp_packet)


 # -----------------------------------------------------------------------------
 def on_rtp_packet(packet):
     header = packet.payload[0]
     fragmented = header >> 7
     # start = (header >> 6) & 0x01
     # last = (header >> 5) & 0x01
     number_of_frames = header & 0x0F

     if fragmented:
         print(f'RTP: fragment {number_of_frames}')
     else:
         print(f'RTP: {number_of_frames} frames')

     Context['output'].write(packet.payload[1:])


 # -----------------------------------------------------------------------------
 async def main():
     if len(sys.argv) < 4:
         print(
             'Usage: run_a2dp_sink.py <device-config> <transport-spec> <sbc-file> '
             '[<bt-addr>]'
         )
         print('example: run_a2dp_sink.py classic1.json usb:0 output.sbc')
         return

     print('<<< connecting to HCI...')
     async with await open_transport_or_link(sys.argv[2]) as (hci_source, hci_sink):
         print('<<< connected')

         with open(sys.argv[3], 'wb') as sbc_file:
             Context['output'] = sbc_file

             # 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 sink service
             device.sdp_service_records = sdp_records()

             # Start the controller
             await device.power_on()

             # Create a listener to wait for AVDTP connections
             listener = Listener(Listener.create_registrar(device))
             listener.on('connection', on_avdtp_connection)

             if len(sys.argv) >= 5:
                 # Connect to the source
                 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')

                 server = await Protocol.connect(connection)
                 listener.set_server(connection, server)
                 sink = server.add_sink(codec_capabilities())
                 sink.on('rtp_packet', on_rtp_packet)
             else:
                 # Start being discoverable and connectable
                 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())
	# 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 bumble.device import Device
	from bumble.transport import open_transport_or_link
	from bumble.core import BT_BR_EDR_TRANSPORT
	from bumble.avdtp import (
	AVDTP_AUDIO_MEDIA_TYPE,
	Protocol,
	Listener,
	MediaCodecCapabilities,
	)
	from bumble.a2dp import (
	make_audio_sink_service_sdp_records,
	A2DP_SBC_CODEC_TYPE,
	SBC_MONO_CHANNEL_MODE,
	SBC_DUAL_CHANNEL_MODE,
	SBC_SNR_ALLOCATION_METHOD,
	SBC_LOUDNESS_ALLOCATION_METHOD,
	SBC_STEREO_CHANNEL_MODE,
	SBC_JOINT_STEREO_CHANNEL_MODE,
	SbcMediaCodecInformation,
	)

	Context = {'output': None}


	# -----------------------------------------------------------------------------
	def sdp_records():
	service_record_handle = 0x00010001
	return {
	service_record_handle: make_audio_sink_service_sdp_records(
	service_record_handle
	)
	}


	# -----------------------------------------------------------------------------
	def codec_capabilities():
	# NOTE: this shouldn't be hardcoded, but passed on the command line instead
	return MediaCodecCapabilities(
	media_type=AVDTP_AUDIO_MEDIA_TYPE,
	media_codec_type=A2DP_SBC_CODEC_TYPE,
	media_codec_information=SbcMediaCodecInformation.from_lists(
	sampling_frequencies=[48000, 44100, 32000, 16000],
	channel_modes=[
	SBC_MONO_CHANNEL_MODE,
	SBC_DUAL_CHANNEL_MODE,
	SBC_STEREO_CHANNEL_MODE,
	SBC_JOINT_STEREO_CHANNEL_MODE,
	],
	block_lengths=[4, 8, 12, 16],
	subbands=[4, 8],
	allocation_methods=[
	SBC_LOUDNESS_ALLOCATION_METHOD,
	SBC_SNR_ALLOCATION_METHOD,
	],
	minimum_bitpool_value=2,
	maximum_bitpool_value=53,
	),
	)


	# -----------------------------------------------------------------------------
	def on_avdtp_connection(server):
	# Add a sink endpoint to the server
	sink = server.add_sink(codec_capabilities())
	sink.on('rtp_packet', on_rtp_packet)


	# -----------------------------------------------------------------------------
	def on_rtp_packet(packet):
	header = packet.payload[0]
	fragmented = header >> 7
	# start = (header >> 6) & 0x01
	# last = (header >> 5) & 0x01
	number_of_frames = header & 0x0F

	if fragmented:
	print(f'RTP: fragment {number_of_frames}')
	else:
	print(f'RTP: {number_of_frames} frames')

	Context['output'].write(packet.payload[1:])


	# -----------------------------------------------------------------------------
	async def main():
	if len(sys.argv) < 4:
	print(
	'Usage: run_a2dp_sink.py <device-config> <transport-spec> <sbc-file> '
	'[<bt-addr>]'
	)
	print('example: run_a2dp_sink.py classic1.json usb:0 output.sbc')
	return

	print('<<< connecting to HCI...')
	async with await open_transport_or_link(sys.argv[2]) as (hci_source, hci_sink):
	print('<<< connected')

	with open(sys.argv[3], 'wb') as sbc_file:
	Context['output'] = sbc_file

	# 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 sink service
	device.sdp_service_records = sdp_records()

	# Start the controller
	await device.power_on()

	# Create a listener to wait for AVDTP connections
	listener = Listener(Listener.create_registrar(device))
	listener.on('connection', on_avdtp_connection)

	if len(sys.argv) >= 5:
	# Connect to the source
	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')

	server = await Protocol.connect(connection)
	listener.set_server(connection, server)
	sink = server.add_sink(codec_capabilities())
	sink.on('rtp_packet', on_rtp_packet)
	else:
	# Start being discoverable and connectable
	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())