# 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 functools import logging import os from unittest import mock import pytest from bumble import gatt, hci, utils from bumble.core import PhysicalTransport from bumble.device import ( Advertisement, AdvertisingEventProperties, AdvertisingParameters, CigParameters, CisLink, Connection, Device, PeriodicAdvertisingParameters, ) from bumble.hci import ( HCI_ACCEPT_CONNECTION_REQUEST_COMMAND, HCI_COMMAND_STATUS_PENDING, HCI_CONNECTION_FAILED_TO_BE_ESTABLISHED_ERROR, HCI_CREATE_CONNECTION_COMMAND, HCI_SUCCESS, Address, HCI_Command_Status_Event, HCI_Connection_Complete_Event, HCI_Connection_Request_Event, HCI_Error, HCI_Packet, OwnAddressType, Role, ) from bumble.host import DataPacketQueue, Host from .test_utils import TwoDevices, async_barrier # ----------------------------------------------------------------------------- # Constants # ----------------------------------------------------------------------------- _TIMEOUT = 0.1 # ----------------------------------------------------------------------------- # Logging # ----------------------------------------------------------------------------- logger = logging.getLogger(__name__) # ----------------------------------------------------------------------------- class Sink: def __init__(self, flow): self.flow = flow next(self.flow) def on_packet(self, packet): self.flow.send(packet) # ----------------------------------------------------------------------------- @pytest.mark.asyncio async def test_device_connect_parallel(): d0 = Device(host=Host(None, None)) d1 = Device(host=Host(None, None)) d2 = Device(host=Host(None, None)) def _send(packet): pass d0.host.acl_packet_queue = DataPacketQueue(0, 0, _send) d1.host.acl_packet_queue = DataPacketQueue(0, 0, _send) d2.host.acl_packet_queue = DataPacketQueue(0, 0, _send) # enable classic d0.classic_enabled = True d1.classic_enabled = True d2.classic_enabled = True # set public addresses d0.public_address = Address( 'F0:F1:F2:F3:F4:F5', address_type=Address.PUBLIC_DEVICE_ADDRESS ) d1.public_address = Address( 'F5:F4:F3:F2:F1:F0', address_type=Address.PUBLIC_DEVICE_ADDRESS ) d2.public_address = Address( 'F5:F4:F3:F3:F4:F5', address_type=Address.PUBLIC_DEVICE_ADDRESS ) def d0_flow(): packet = HCI_Packet.from_bytes((yield)) assert packet.name == 'HCI_CREATE_CONNECTION_COMMAND' assert packet.bd_addr == d1.public_address d0.host.on_hci_packet( HCI_Command_Status_Event( status=HCI_COMMAND_STATUS_PENDING, num_hci_command_packets=1, command_opcode=HCI_CREATE_CONNECTION_COMMAND, ) ) d1.host.on_hci_packet( HCI_Connection_Request_Event( bd_addr=d0.public_address, class_of_device=0, link_type=HCI_Connection_Complete_Event.LinkType.ACL, ) ) packet = HCI_Packet.from_bytes((yield)) assert packet.name == 'HCI_CREATE_CONNECTION_COMMAND' assert packet.bd_addr == d2.public_address d0.host.on_hci_packet( HCI_Command_Status_Event( status=HCI_COMMAND_STATUS_PENDING, num_hci_command_packets=1, command_opcode=HCI_CREATE_CONNECTION_COMMAND, ) ) d2.host.on_hci_packet( HCI_Connection_Request_Event( bd_addr=d0.public_address, class_of_device=0, link_type=HCI_Connection_Complete_Event.LinkType.ACL, ) ) assert (yield) is None def d1_flow(): packet = HCI_Packet.from_bytes((yield)) assert packet.name == 'HCI_ACCEPT_CONNECTION_REQUEST_COMMAND' d1.host.on_hci_packet( HCI_Command_Status_Event( status=HCI_COMMAND_STATUS_PENDING, num_hci_command_packets=1, command_opcode=HCI_ACCEPT_CONNECTION_REQUEST_COMMAND, ) ) d1.host.on_hci_packet( HCI_Connection_Complete_Event( status=HCI_SUCCESS, connection_handle=0x100, bd_addr=d0.public_address, link_type=HCI_Connection_Complete_Event.LinkType.ACL, encryption_enabled=True, ) ) d0.host.on_hci_packet( HCI_Connection_Complete_Event( status=HCI_SUCCESS, connection_handle=0x100, bd_addr=d1.public_address, link_type=HCI_Connection_Complete_Event.LinkType.ACL, encryption_enabled=True, ) ) assert (yield) is None def d2_flow(): packet = HCI_Packet.from_bytes((yield)) assert packet.name == 'HCI_ACCEPT_CONNECTION_REQUEST_COMMAND' d2.host.on_hci_packet( HCI_Command_Status_Event( status=HCI_COMMAND_STATUS_PENDING, num_hci_command_packets=1, command_opcode=HCI_ACCEPT_CONNECTION_REQUEST_COMMAND, ) ) d2.host.on_hci_packet( HCI_Connection_Complete_Event( status=HCI_SUCCESS, connection_handle=0x101, bd_addr=d0.public_address, link_type=HCI_Connection_Complete_Event.LinkType.ACL, encryption_enabled=True, ) ) d0.host.on_hci_packet( HCI_Connection_Complete_Event( status=HCI_SUCCESS, connection_handle=0x101, bd_addr=d2.public_address, link_type=HCI_Connection_Complete_Event.LinkType.ACL, encryption_enabled=True, ) ) assert (yield) is None d0.host.set_packet_sink(Sink(d0_flow())) d1.host.set_packet_sink(Sink(d1_flow())) d2.host.set_packet_sink(Sink(d2_flow())) d1_accept_task = asyncio.create_task(d1.accept(peer_address=d0.public_address)) d2_accept_task = asyncio.create_task(d2.accept()) # Ensure that the accept tasks have started. await async_barrier() [c01, c02, a10, a20] = await asyncio.gather( *[ asyncio.create_task( d0.connect(d1.public_address, transport=PhysicalTransport.BR_EDR) ), asyncio.create_task( d0.connect(d2.public_address, transport=PhysicalTransport.BR_EDR) ), d1_accept_task, d2_accept_task, ] ) assert isinstance(c01, Connection) assert isinstance(c02, Connection) assert isinstance(a10, Connection) assert isinstance(a20, Connection) assert c01.handle == a10.handle and c01.handle == 0x100 assert c02.handle == a20.handle and c02.handle == 0x101 # ----------------------------------------------------------------------------- @pytest.mark.asyncio async def test_flush(): d0 = Device(host=Host(None, None)) task = utils.cancel_on_event(d0, 'flush', asyncio.sleep(10000)) await d0.host.flush() try: await task assert False except asyncio.CancelledError: pass # ----------------------------------------------------------------------------- @pytest.mark.asyncio async def test_legacy_advertising(): device = TwoDevices()[0] await device.power_on() # Start advertising await device.start_advertising() assert device.is_advertising # Stop advertising await device.stop_advertising() assert not device.is_advertising # ----------------------------------------------------------------------------- @pytest.mark.parametrize( 'auto_restart,', (True, False), ) @pytest.mark.asyncio async def test_legacy_advertising_disconnection(auto_restart): devices = TwoDevices() for controller in devices.controllers: controller.le_features |= hci.LeFeatureMask.LE_EXTENDED_ADVERTISING for dev in devices: await dev.power_on() await devices[0].start_advertising( auto_restart=auto_restart, advertising_interval_min=1.0 ) connection = await devices[1].connect(devices[0].random_address) await connection.disconnect() await async_barrier() await async_barrier() if auto_restart: assert devices[0].legacy_advertising_set started = asyncio.Event() if not devices[0].is_advertising: devices[0].legacy_advertising_set.once('start', started.set) await asyncio.wait_for(started.wait(), _TIMEOUT) assert devices[0].is_advertising else: assert not devices[0].is_advertising # ----------------------------------------------------------------------------- @pytest.mark.asyncio async def test_le_multiple_connects(): devices = TwoDevices() for controller in devices.controllers: controller.le_features |= hci.LeFeatureMask.LE_EXTENDED_ADVERTISING for dev in devices: await dev.power_on() await devices[0].start_advertising(auto_restart=True, advertising_interval_min=1.0) connection = await devices[1].connect(devices[0].random_address) await connection.disconnect() await async_barrier() await async_barrier() # a second connection attempt is working connection = await devices[1].connect(devices[0].random_address) await connection.disconnect() # ----------------------------------------------------------------------------- @pytest.mark.asyncio async def test_advertising_and_scanning(): devices = TwoDevices() for dev in devices: await dev.power_on() # Start scanning advertisements = asyncio.Queue[Advertisement]() devices[1].on(devices[1].EVENT_ADVERTISEMENT, advertisements.put_nowait) await devices[1].start_scanning() # Start advertising advertising_set = await devices[0].create_advertising_set(advertising_data=b'123') assert devices[0].extended_advertising_sets assert advertising_set.enabled advertisement = await asyncio.wait_for(advertisements.get(), _TIMEOUT) assert advertisement.data_bytes == b'123' # Stop advertising await advertising_set.stop() assert not advertising_set.enabled # ----------------------------------------------------------------------------- @pytest.mark.parametrize( 'own_address_type,', (OwnAddressType.PUBLIC, OwnAddressType.RANDOM), ) @pytest.mark.asyncio async def test_extended_advertising_connection(own_address_type): devices = TwoDevices() for dev in devices: await dev.power_on() advertising_set = await devices[0].create_advertising_set( advertising_parameters=AdvertisingParameters( own_address_type=own_address_type, primary_advertising_interval_min=1.0 ) ) await asyncio.wait_for( devices[1].connect(advertising_set.random_address or devices[0].public_address), _TIMEOUT, ) await async_barrier() # Advertising set should be terminated after connected. assert not advertising_set.enabled if own_address_type == OwnAddressType.PUBLIC: assert ( devices[0].lookup_connection(0x0001).self_address == devices[0].public_address ) else: assert ( devices[0].lookup_connection(0x0001).self_address == devices[0].random_address ) await async_barrier() # ----------------------------------------------------------------------------- @pytest.mark.parametrize( 'own_address_type,', (OwnAddressType.PUBLIC, OwnAddressType.RANDOM), ) @pytest.mark.asyncio async def test_extended_advertising_connection_out_of_order(own_address_type): devices = TwoDevices() device = devices[0] devices.controllers[0].le_features |= hci.LeFeatureMask.LE_EXTENDED_ADVERTISING await device.power_on() advertising_set = await device.create_advertising_set( advertising_parameters=AdvertisingParameters(own_address_type=own_address_type) ) device.on_advertising_set_termination( HCI_SUCCESS, advertising_set.advertising_handle, 0x0001, 0, ) device.on_le_connection( 0x0001, Address('F0:F1:F2:F3:F4:F5'), None, None, Role.PERIPHERAL, 0, 0, 0, ) if own_address_type == OwnAddressType.PUBLIC: assert device.lookup_connection(0x0001).self_address == device.public_address else: assert device.lookup_connection(0x0001).self_address == device.random_address await async_barrier() # ----------------------------------------------------------------------------- @pytest.mark.asyncio async def test_periodic_advertising(): device = TwoDevices()[0] await device.power_on() # Start advertising advertising_set = await device.create_advertising_set( advertising_parameters=AdvertisingParameters( advertising_event_properties=AdvertisingEventProperties( is_connectable=False ) ), advertising_data=b'123', periodic_advertising_parameters=PeriodicAdvertisingParameters(), periodic_advertising_data=b'abc', ) assert device.extended_advertising_sets assert advertising_set.enabled assert not advertising_set.periodic_enabled await advertising_set.start_periodic() assert advertising_set.periodic_enabled await advertising_set.stop_periodic() assert not advertising_set.periodic_enabled # ----------------------------------------------------------------------------- @pytest.mark.asyncio async def test_get_remote_le_features(): devices = TwoDevices() await devices.setup_connection() assert ( await devices.connections[0].get_remote_le_features() ) == devices.controllers[1].le_features # ----------------------------------------------------------------------------- @pytest.mark.asyncio async def test_get_remote_le_features_failed(): devices = TwoDevices() await devices.setup_connection() def on_hci_le_read_remote_features_complete_event(event): devices[0].host.emit( 'le_remote_features_failure', event.connection_handle, HCI_CONNECTION_FAILED_TO_BE_ESTABLISHED_ERROR, ) devices[0].host.on_hci_le_read_remote_features_complete_event = ( on_hci_le_read_remote_features_complete_event ) with pytest.raises(HCI_Error): await asyncio.wait_for( devices.connections[0].get_remote_le_features(), _TIMEOUT ) # ----------------------------------------------------------------------------- @pytest.mark.asyncio async def test_cis(): devices = TwoDevices() await devices.setup_connection() peripheral_cis_futures = {} def on_cis_request(cis_link: CisLink): cis_link.acl_connection.cancel_on_disconnection( devices[1].accept_cis_request(cis_link), ) peripheral_cis_futures[cis_link.handle] = ( asyncio.get_running_loop().create_future() ) devices[1].on('cis_request', on_cis_request) devices[1].on( 'cis_establishment', lambda cis_link: peripheral_cis_futures[cis_link.handle].set_result(None), ) cis_handles = await devices[0].setup_cig( CigParameters( cig_id=1, cis_parameters=[ CigParameters.CisParameters(cis_id=2), CigParameters.CisParameters(cis_id=3), ], sdu_interval_c_to_p=0, sdu_interval_p_to_c=0, ), ) assert len(cis_handles) == 2 cis_links = await devices[0].create_cis( [ (cis_handles[0], devices.connections[0]), (cis_handles[1], devices.connections[0]), ] ) await asyncio.gather(*peripheral_cis_futures.values()) assert len(cis_links) == 2 await cis_links[0].disconnect() await cis_links[1].disconnect() # ----------------------------------------------------------------------------- @pytest.mark.asyncio async def test_cis_setup_failure(): devices = TwoDevices() await devices.setup_connection() cis_requests = asyncio.Queue() def on_cis_request(cis_link: CisLink): cis_requests.put_nowait(cis_link) devices[1].on('cis_request', on_cis_request) cis_handles = await devices[0].setup_cig( CigParameters( cig_id=1, cis_parameters=[ CigParameters.CisParameters(cis_id=2), ], sdu_interval_c_to_p=0, sdu_interval_p_to_c=0, ), ) assert len(cis_handles) == 1 cis_create_task = asyncio.create_task( devices[0].create_cis( [ (cis_handles[0], devices.connections[0]), ] ) ) def on_hci_le_cis_established_event(host, event): host.emit( 'cis_establishment_failure', event.connection_handle, HCI_CONNECTION_FAILED_TO_BE_ESTABLISHED_ERROR, ) for device in devices: device.host.on_hci_le_cis_established_event = functools.partial( on_hci_le_cis_established_event, device.host ) cis_request = await asyncio.wait_for(cis_requests.get(), _TIMEOUT) with pytest.raises(HCI_Error): await asyncio.wait_for(devices[1].accept_cis_request(cis_request), _TIMEOUT) with pytest.raises(HCI_Error): await asyncio.wait_for(cis_create_task, _TIMEOUT) # ----------------------------------------------------------------------------- @pytest.mark.asyncio async def test_enter_and_exit_sniff_mode(): devices = TwoDevices() await devices.setup_connection() q = asyncio.Queue() def on_mode_change(): q.put_nowait(lambda: None) devices.connections[0].on(Connection.EVENT_MODE_CHANGE, on_mode_change) await devices[0].send_command( hci.HCI_Sniff_Mode_Command( connection_handle=devices.connections[0].handle, sniff_max_interval=2, sniff_min_interval=2, sniff_attempt=2, sniff_timeout=2, ), ) await asyncio.wait_for(q.get(), _TIMEOUT) assert devices.connections[0].classic_mode == hci.HCI_Mode_Change_Event.Mode.SNIFF assert devices.connections[0].classic_interval == 2 await devices[0].send_command( hci.HCI_Exit_Sniff_Mode_Command(connection_handle=devices.connections[0].handle) ) await asyncio.wait_for(q.get(), _TIMEOUT) assert devices.connections[0].classic_mode == hci.HCI_Mode_Change_Event.Mode.ACTIVE assert devices.connections[0].classic_interval == 2 # ----------------------------------------------------------------------------- @pytest.mark.asyncio async def test_le_request_subrate(): devices = TwoDevices() await devices.setup_connection() q = asyncio.Queue() def on_le_subrate_change(): q.put_nowait(lambda: None) devices.connections[0].on( Connection.EVENT_CONNECTION_PARAMETERS_UPDATE, on_le_subrate_change ) await devices[0].send_command( hci.HCI_LE_Subrate_Request_Command( connection_handle=devices.connections[0].handle, subrate_min=2, subrate_max=2, max_latency=2, continuation_number=1, supervision_timeout=2, ) ) await asyncio.wait_for(q.get(), _TIMEOUT) assert devices.connections[0].parameters.subrate_factor == 2 assert devices.connections[0].parameters.peripheral_latency == 2 assert devices.connections[0].parameters.continuation_number == 1 assert devices.connections[0].parameters.supervision_timeout == 20 # ----------------------------------------------------------------------------- @pytest.mark.asyncio async def test_power_on_default_static_address_should_not_be_any(): devices = TwoDevices() devices[0].static_address = devices[0].random_address = Address.ANY_RANDOM await devices[0].power_on() assert devices[0].static_address != Address.ANY_RANDOM # ----------------------------------------------------------------------------- def test_gatt_services_with_gas_and_gatt(): device = Device(host=Host(None, None)) # there should be 2 service, 5 chars, and 1 descriptors, therefore 13 attributes assert len(device.gatt_server.attributes) == 13 assert device.gatt_server.attributes[0].uuid == gatt.GATT_GENERIC_ACCESS_SERVICE assert ( device.gatt_server.attributes[1].type == gatt.GATT_CHARACTERISTIC_ATTRIBUTE_TYPE ) assert device.gatt_server.attributes[2].uuid == gatt.GATT_DEVICE_NAME_CHARACTERISTIC assert ( device.gatt_server.attributes[3].type == gatt.GATT_CHARACTERISTIC_ATTRIBUTE_TYPE ) assert device.gatt_server.attributes[4].uuid == gatt.GATT_APPEARANCE_CHARACTERISTIC assert device.gatt_server.attributes[5].uuid == gatt.GATT_GENERIC_ATTRIBUTE_SERVICE assert ( device.gatt_server.attributes[6].type == gatt.GATT_CHARACTERISTIC_ATTRIBUTE_TYPE ) assert ( device.gatt_server.attributes[7].uuid == gatt.GATT_SERVICE_CHANGED_CHARACTERISTIC ) assert ( device.gatt_server.attributes[8].type == gatt.GATT_CLIENT_CHARACTERISTIC_CONFIGURATION_DESCRIPTOR ) assert ( device.gatt_server.attributes[9].type == gatt.GATT_CHARACTERISTIC_ATTRIBUTE_TYPE ) assert ( device.gatt_server.attributes[10].uuid == gatt.GATT_CLIENT_SUPPORTED_FEATURES_CHARACTERISTIC ) assert ( device.gatt_server.attributes[11].type == gatt.GATT_CHARACTERISTIC_ATTRIBUTE_TYPE ) assert ( device.gatt_server.attributes[12].uuid == gatt.GATT_DATABASE_HASH_CHARACTERISTIC ) # ----------------------------------------------------------------------------- @pytest.mark.asyncio async def test_inquiry_result(): d = (await TwoDevices.create_with_connection())[0] m = mock.Mock() d.on(d.EVENT_INQUIRY_RESULT, m) d.host.on_packet( bytes( hci.HCI_Extended_Inquiry_Result_Event( num_responses=1, bd_addr=hci.Address("00:11:22:33:44:55/P"), page_scan_repetition_mode=2, reserved=0, class_of_device=3, clock_offset=4, rssi=5, extended_inquiry_response=b"6789", ) ) ) m.assert_called_with(hci.Address("00:11:22:33:44:55/P"), 3, mock.ANY, 5) # ----------------------------------------------------------------------------- @pytest.mark.asyncio async def test_extended_inquiry_result(): d = (await TwoDevices.create_with_connection())[0] m = mock.Mock() d.on(d.EVENT_INQUIRY_RESULT, m) d.host.on_packet( bytes( hci.HCI_Extended_Inquiry_Result_Event( num_responses=1, bd_addr=hci.Address("00:11:22:33:44:55/P"), page_scan_repetition_mode=2, reserved=0, class_of_device=3, clock_offset=4, rssi=5, extended_inquiry_response=b"6789", ) ) ) m.assert_called_with(hci.Address("00:11:22:33:44:55/P"), 3, mock.ANY, 5) # ----------------------------------------------------------------------------- @pytest.mark.asyncio async def test_inquiry_result_with_rssi(): d = (await TwoDevices.create_with_connection())[0] m = mock.Mock() d.on(d.EVENT_INQUIRY_RESULT, m) d.host.on_packet( bytes( hci.HCI_Inquiry_Result_With_RSSI_Event( bd_addr=[hci.Address("00:11:22:33:44:55/P")], page_scan_repetition_mode=[2], reserved=[0], class_of_device=[3], clock_offset=[4], rssi=[5], ) ) ) m.assert_called_with(hci.Address("00:11:22:33:44:55/P"), 3, mock.ANY, 5) # ----------------------------------------------------------------------------- @pytest.mark.parametrize( "roles", ( (hci.Role.PERIPHERAL, hci.Role.CENTRAL), (hci.Role.CENTRAL, hci.Role.PERIPHERAL), ), ) @pytest.mark.asyncio async def test_accept_classic_connection(roles: tuple[hci.Role, hci.Role]): devices = TwoDevices() devices[0].classic_enabled = True devices[1].classic_enabled = True await devices[0].power_on() await devices[1].power_on() accept_task = asyncio.create_task(devices[1].accept(role=roles[1])) await devices[0].connect( devices[1].public_address, transport=PhysicalTransport.BR_EDR ) await accept_task assert devices.connections[0] assert devices.connections[0].role == roles[0] assert devices.connections[1] assert devices.connections[1].role == roles[1] # ----------------------------------------------------------------------------- @pytest.mark.asyncio async def test_remote_name_request(): devices = TwoDevices() devices[0].classic_enabled = True devices[1].classic_enabled = True expected_name = devices[1].name = "An Awesome Name" await devices[0].power_on() await devices[1].power_on() actual_name = await devices[0].request_remote_name(devices[1].public_address) assert actual_name == expected_name # ----------------------------------------------------------------------------- @pytest.mark.asyncio async def test_get_remote_classic_features(): devices = TwoDevices() devices[0].classic_enabled = True devices[1].classic_enabled = True await devices[0].power_on() await devices[1].power_on() connection = await devices[0].connect_classic(devices[1].public_address) assert ( await asyncio.wait_for(connection.get_remote_classic_features(), _TIMEOUT) == devices.controllers[1].lmp_features ) # ----------------------------------------------------------------------------- async def run_test_device(): await test_device_connect_parallel() await test_flush() await test_gatt_services_with_gas_and_gatt() # ----------------------------------------------------------------------------- if __name__ == '__main__': logging.basicConfig(level=os.environ.get('BUMBLE_LOGLEVEL', 'INFO').upper()) asyncio.run(run_test_device())