tests/device_test.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 logging
 import os
 from types import LambdaType
 import pytest

 from bumble.core import BT_BR_EDR_TRANSPORT
 from bumble.device import Connection, Device
 from bumble.host import Host
 from bumble.hci import (
     HCI_ACCEPT_CONNECTION_REQUEST_COMMAND, HCI_COMMAND_STATUS_PENDING, HCI_CREATE_CONNECTION_COMMAND, HCI_SUCCESS,
     Address, HCI_Command_Complete_Event, HCI_Command_Status_Event, HCI_Connection_Complete_Event, HCI_Connection_Request_Event, HCI_Packet
 )


 # -----------------------------------------------------------------------------
 # 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))

     # 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.ACL_LINK_TYPE
         ))

         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.ACL_LINK_TYPE
         ))

         assert (yield) == 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_Complete_Event(
             num_hci_command_packets = 1,
             command_opcode          = HCI_ACCEPT_CONNECTION_REQUEST_COMMAND,
             return_parameters       = b"\x00"
         ))

         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.ACL_LINK_TYPE,
             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.ACL_LINK_TYPE,
             encryption_enabled = True,
         ))

         assert (yield) == 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_Complete_Event(
             num_hci_command_packets = 1,
             command_opcode          = HCI_ACCEPT_CONNECTION_REQUEST_COMMAND,
             return_parameters       = b"\x00"
         ))

         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.ACL_LINK_TYPE,
             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.ACL_LINK_TYPE,
             encryption_enabled = True,
         ))

         assert (yield) == 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()))

     [c01, c02, a10, a20, a01] = await asyncio.gather(*[
         asyncio.create_task(d0.connect(d1.public_address, transport=BT_BR_EDR_TRANSPORT)),
         asyncio.create_task(d0.connect(d2.public_address, transport=BT_BR_EDR_TRANSPORT)),
         asyncio.create_task(d1.accept(peer_address=d0.public_address)),
         asyncio.create_task(d2.accept()),
         asyncio.create_task(d0.accept(peer_address=d1.public_address)),
     ])

     assert type(c01) == Connection
     assert type(c02) == Connection
     assert type(a10) == Connection
     assert type(a20) == Connection
     assert type(a01) == Connection

     assert c01.handle == a10.handle and c01.handle == 0x100
     assert c02.handle == a20.handle and c02.handle == 0x101
     assert a01 == c01


 # -----------------------------------------------------------------------------
 async def run_test_device():
     await test_device_connect_parallel()


 # -----------------------------------------------------------------------------
 if __name__ == '__main__':
     logging.basicConfig(level = os.environ.get('BUMBLE_LOGLEVEL', 'INFO').upper())
     asyncio.run(run_test_device())
	# 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 logging
	import os
	from types import LambdaType
	import pytest

	from bumble.core import BT_BR_EDR_TRANSPORT
	from bumble.device import Connection, Device
	from bumble.host import Host
	from bumble.hci import (
	HCI_ACCEPT_CONNECTION_REQUEST_COMMAND, HCI_COMMAND_STATUS_PENDING, HCI_CREATE_CONNECTION_COMMAND, HCI_SUCCESS,
	Address, HCI_Command_Complete_Event, HCI_Command_Status_Event, HCI_Connection_Complete_Event, HCI_Connection_Request_Event, HCI_Packet
	)


	# -----------------------------------------------------------------------------
	# 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))

	# 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.ACL_LINK_TYPE
	))

	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.ACL_LINK_TYPE
	))

	assert (yield) == 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_Complete_Event(
	num_hci_command_packets = 1,
	command_opcode = HCI_ACCEPT_CONNECTION_REQUEST_COMMAND,
	return_parameters = b"\x00"
	))

	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.ACL_LINK_TYPE,
	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.ACL_LINK_TYPE,
	encryption_enabled = True,
	))

	assert (yield) == 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_Complete_Event(
	num_hci_command_packets = 1,
	command_opcode = HCI_ACCEPT_CONNECTION_REQUEST_COMMAND,
	return_parameters = b"\x00"
	))

	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.ACL_LINK_TYPE,
	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.ACL_LINK_TYPE,
	encryption_enabled = True,
	))

	assert (yield) == 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()))

	[c01, c02, a10, a20, a01] = await asyncio.gather(*[
	asyncio.create_task(d0.connect(d1.public_address, transport=BT_BR_EDR_TRANSPORT)),
	asyncio.create_task(d0.connect(d2.public_address, transport=BT_BR_EDR_TRANSPORT)),
	asyncio.create_task(d1.accept(peer_address=d0.public_address)),
	asyncio.create_task(d2.accept()),
	asyncio.create_task(d0.accept(peer_address=d1.public_address)),
	])

	assert type(c01) == Connection
	assert type(c02) == Connection
	assert type(a10) == Connection
	assert type(a20) == Connection
	assert type(a01) == Connection

	assert c01.handle == a10.handle and c01.handle == 0x100
	assert c02.handle == a20.handle and c02.handle == 0x101
	assert a01 == c01


	# -----------------------------------------------------------------------------
	async def run_test_device():
	await test_device_connect_parallel()


	# -----------------------------------------------------------------------------
	if __name__ == '__main__':
	logging.basicConfig(level = os.environ.get('BUMBLE_LOGLEVEL', 'INFO').upper())
	asyncio.run(run_test_device())