#/usr/bin/env python3.4 # # Copyright (C) 2016 The Android Open Source Project # # 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 # # http://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. """ Test script to execute Bluetooth basic functionality test cases. This test was designed to be run in a shield box. """ import threading import time from queue import Empty from acts.test_decorators import test_tracker_info from acts.test_utils.bt.BluetoothBaseTest import BluetoothBaseTest from acts.test_utils.bt.bt_test_utils import clear_bonded_devices from acts.test_utils.bt.bt_test_utils import kill_bluetooth_process from acts.test_utils.bt.bt_test_utils import orchestrate_rfcomm_connection from acts.test_utils.bt.bt_test_utils import reset_bluetooth from acts.test_utils.bt.bt_test_utils import setup_multiple_devices_for_bt_test from acts.test_utils.bt.bt_test_utils import take_btsnoop_logs from acts.test_utils.bt.bt_test_utils import write_read_verify_data from acts.test_utils.bt.bt_test_utils import verify_server_and_client_connected from acts.test_utils.bt.BtEnum import RfcommUuid class RfcommTest(BluetoothBaseTest): default_timeout = 10 rf_client_th = 0 scan_discovery_time = 5 message = ( "Space: the final frontier. These are the voyages of " "the starship Enterprise. Its continuing mission: to explore " "strange new worlds, to seek out new life and new civilizations," " to boldly go where no man has gone before.") def __init__(self, controllers): BluetoothBaseTest.__init__(self, controllers) self.client_ad = self.android_devices[0] self.server_ad = self.android_devices[1] def setup_class(self): return setup_multiple_devices_for_bt_test(self.android_devices) def setup_test(self): for a in self.android_devices: if not clear_bonded_devices(a): return False for a in self.android_devices: a.ed.clear_all_events() return True def teardown_test(self): self.client_ad.droid.bluetoothRfcommCloseClientSocket() self.server_ad.droid.bluetoothRfcommCloseServerSocket() return True def on_fail(self, test_name, begin_time): take_btsnoop_logs(self.android_devices, self, test_name) reset_bluetooth(self.android_devices) def teardown_test(self): if verify_server_and_client_connected( self.client_ad, self.server_ad, log=False): self.client_ad.droid.bluetoothRfcommStop() self.server_ad.droid.bluetoothRfcommStop() def _test_rfcomm_connection_with_uuid(self, uuid): if not orchestrate_rfcomm_connection( self.client_ad, self.server_ad, uuid=uuid): return False self.client_ad.droid.bluetoothRfcommStop() self.server_ad.droid.bluetoothRfcommStop() return True @BluetoothBaseTest.bt_test_wrap @test_tracker_info(uuid='f0bd466f-9a59-4612-8b75-ae4f691eef77') def test_rfcomm_connection(self): """Test Bluetooth RFCOMM connection Test RFCOMM though establishing a basic connection. Steps: 1. Get the mac address of the server device. 2. Establish an RFCOMM connection from the client to the server AD. 3. Verify that the RFCOMM connection is active from both the client and server. Expected Result: RFCOMM connection is established then disconnected succcessfully. Returns: Pass if True Fail if False TAGS: Classic, RFCOMM Priority: 1 """ return self._test_rfcomm_connection_with_uuid(None) @BluetoothBaseTest.bt_test_wrap @test_tracker_info(uuid='240e106a-efd0-4795-8baa-9c0ea88b8b25') def test_rfcomm_connection_write_ascii(self): """Test Bluetooth RFCOMM writing and reading ascii data Test RFCOMM though establishing a connection. Steps: 1. Get the mac address of the server device. 2. Establish an RFCOMM connection from the client to the server AD. 3. Verify that the RFCOMM connection is active from both the client and server. 4. Write data from the client and read received data from the server. 5. Verify data matches from client and server 6. Disconnect the RFCOMM connection. Expected Result: RFCOMM connection is established then disconnected succcessfully. Returns: Pass if True Fail if False TAGS: Classic, RFCOMM Priority: 1 """ if not orchestrate_rfcomm_connection(self.client_ad, self.server_ad): return False if not write_read_verify_data(self.client_ad, self.server_ad, self.message, False): return False if not verify_server_and_client_connected(self.client_ad, self.server_ad): return False self.client_ad.droid.bluetoothRfcommStop() self.server_ad.droid.bluetoothRfcommStop() return True @BluetoothBaseTest.bt_test_wrap @test_tracker_info(uuid='c6ebf4aa-1ccb-415f-98c2-cbffb067d1ea') def test_rfcomm_write_binary(self): """Test Bluetooth RFCOMM writing and reading binary data Test profile though establishing an RFCOMM connection. Steps: 1. Get the mac address of the server device. 2. Establish an RFCOMM connection from the client to the server AD. 3. Verify that the RFCOMM connection is active from both the client and server. 4. Write data from the client and read received data from the server. 5. Verify data matches from client and server 6. Disconnect the RFCOMM connection. Expected Result: RFCOMM connection is established then disconnected succcessfully. Returns: Pass if True Fail if False TAGS: Classic, RFCOMM Priority: 1 """ if not orchestrate_rfcomm_connection(self.client_ad, self.server_ad): return False binary_message = "11010101" if not write_read_verify_data(self.client_ad, self.server_ad, binary_message, True): return False if not verify_server_and_client_connected(self.client_ad, self.server_ad): return False self.client_ad.droid.bluetoothRfcommStop() self.server_ad.droid.bluetoothRfcommStop() return True @BluetoothBaseTest.bt_test_wrap @test_tracker_info(uuid='2b36d71e-102b-469e-b064-e0da8cefdbfe') def test_rfcomm_accept_timeout(self): """Test Bluetooth RFCOMM accept socket timeout Verify that RFCOMM connections are unsuccessful if the socket timeout is exceeded. Steps: 1. Get the mac address of the server device. 2. Establish an RFCOMM connection from the client to the server AD. 3. Verify that the RFCOMM connection is active from both the client and server. Expected Result: RFCOMM connection is established then disconnected succcessfully. Returns: Pass if True Fail if False TAGS: Classic, RFCOMM Priority: 1 """ # Socket timeout set to 999ms short_socket_timeout = 999 # Wait time in seconds before attempting a connection wait_time_before_connect_attempt = 1 self.server_ad.droid.bluetoothStartPairingHelper() self.client_ad.droid.bluetoothStartPairingHelper() self.server_ad.droid.bluetoothRfcommBeginAcceptThread( RfcommUuid.DEFAULT_UUID.value, short_socket_timeout) time.sleep(wait_time_before_connect_attempt) # Try to connect self.client_ad.droid.bluetoothRfcommBeginConnectThread( self.server_ad.droid.bluetoothGetLocalAddress()) # Give the connection time to fail #time.sleep(self.default_timeout) time.sleep(2) if verify_server_and_client_connected(self.client_ad, self.server_ad): return False self.log.info("No active connections found as expected") # AcceptThread has finished, kill hanging ConnectThread self.client_ad.droid.bluetoothRfcommKillConnThread() reset_bluetooth(self.android_devices) return True @BluetoothBaseTest.bt_test_wrap @test_tracker_info(uuid='88c70db6-651e-4d43-ab0c-c9f584094fb2') def test_rfcomm_connection_base_uuid(self): """Test Bluetooth RFCOMM connection using BASE uuid Test RFCOMM though establishing a basic connection. Steps: 1. Get the mac address of the server device. 2. Establish an RFCOMM connection from the client to the server AD. 3. Verify that the RFCOMM connection is active from both the client and server. Expected Result: RFCOMM connection is established then disconnected succcessfully. Returns: Pass if True Fail if False TAGS: Classic, RFCOMM Priority: 3 """ return self._test_rfcomm_connection_with_uuid( RfcommUuid.BASE_UUID.value) @BluetoothBaseTest.bt_test_wrap @test_tracker_info(uuid='42c8d861-48b3-423b-ae8c-df140ebaad9d') def test_rfcomm_connection_sdp_uuid(self): """Test Bluetooth RFCOMM connection using SDP uuid Test RFCOMM though establishing a basic connection. Steps: 1. Get the mac address of the server device. 2. Establish an RFCOMM connection from the client to the server AD. 3. Verify that the RFCOMM connection is active from both the client and server. Expected Result: RFCOMM connection is established then disconnected succcessfully. Returns: Pass if True Fail if False TAGS: Classic, RFCOMM Priority: 3 """ return self._test_rfcomm_connection_with_uuid(RfcommUuid.SDP.value) @BluetoothBaseTest.bt_test_wrap @test_tracker_info(uuid='97cc310d-4096-481e-940f-abe6811784f3') def test_rfcomm_connection_udp_uuid(self): """Test Bluetooth RFCOMM connection using UDP uuid Test RFCOMM though establishing a basic connection. Steps: 1. Get the mac address of the server device. 2. Establish an RFCOMM connection from the client to the server AD. 3. Verify that the RFCOMM connection is active from both the client and server. Expected Result: RFCOMM connection is established then disconnected succcessfully. Returns: Pass if True Fail if False TAGS: Classic, RFCOMM Priority: 3 """ return self._test_rfcomm_connection_with_uuid(RfcommUuid.UDP.value) @BluetoothBaseTest.bt_test_wrap @test_tracker_info(uuid='5998a0cf-fc05-433a-abd8-c52717ea755c') def test_rfcomm_connection_rfcomm_uuid(self): """Test Bluetooth RFCOMM connection using RFCOMM uuid Test RFCOMM though establishing a basic connection. Steps: 1. Get the mac address of the server device. 2. Establish an RFCOMM connection from the client to the server AD. 3. Verify that the RFCOMM connection is active from both the client and server. Expected Result: RFCOMM connection is established then disconnected succcessfully. Returns: Pass if True Fail if False TAGS: Classic, RFCOMM Priority: 3 """ return self._test_rfcomm_connection_with_uuid(RfcommUuid.RFCOMM.value) @BluetoothBaseTest.bt_test_wrap @test_tracker_info(uuid='e3c05357-99ec-4819-86e4-1363e3359317') def test_rfcomm_connection_tcp_uuid(self): """Test Bluetooth RFCOMM connection using TCP uuid Test RFCOMM though establishing a basic connection. Steps: 1. Get the mac address of the server device. 2. Establish an RFCOMM connection from the client to the server AD. 3. Verify that the RFCOMM connection is active from both the client and server. Expected Result: RFCOMM connection is established then disconnected succcessfully. Returns: Pass if True Fail if False TAGS: Classic, RFCOMM Priority: 3 """ return self._test_rfcomm_connection_with_uuid(RfcommUuid.TCP.value) @BluetoothBaseTest.bt_test_wrap @test_tracker_info(uuid='7304f8dc-f568-4489-9926-0b940ba7a45b') def test_rfcomm_connection_tcs_bin_uuid(self): """Test Bluetooth RFCOMM connection using TCS_BIN uuid Test RFCOMM though establishing a basic connection. Steps: 1. Get the mac address of the server device. 2. Establish an RFCOMM connection from the client to the server AD. 3. Verify that the RFCOMM connection is active from both the client and server. Expected Result: RFCOMM connection is established then disconnected succcessfully. Returns: Pass if True Fail if False TAGS: Classic, RFCOMM Priority: 3 """ return self._test_rfcomm_connection_with_uuid(RfcommUuid.TCS_BIN.value) @BluetoothBaseTest.bt_test_wrap @test_tracker_info(uuid='ea1cfc32-d3f0-4420-a8e5-793c6ddf5820') def test_rfcomm_connection_tcs_at_uuid(self): """Test Bluetooth RFCOMM connection using TCS_AT uuid Test RFCOMM though establishing a basic connection. Steps: 1. Get the mac address of the server device. 2. Establish an RFCOMM connection from the client to the server AD. 3. Verify that the RFCOMM connection is active from both the client and server. Expected Result: RFCOMM connection is established then disconnected succcessfully. Returns: Pass if True Fail if False TAGS: Classic, RFCOMM Priority: 3 """ return self._test_rfcomm_connection_with_uuid(RfcommUuid.TCS_AT.value) @BluetoothBaseTest.bt_test_wrap @test_tracker_info(uuid='5b0d5608-38a5-48f7-b3e5-dc52a4a681dd') def test_rfcomm_connection_att_uuid(self): """Test Bluetooth RFCOMM connection using ATT uuid Test RFCOMM though establishing a basic connection. Steps: 1. Get the mac address of the server device. 2. Establish an RFCOMM connection from the client to the server AD. 3. Verify that the RFCOMM connection is active from both the client and server. Expected Result: RFCOMM connection is established then disconnected succcessfully. Returns: Pass if True Fail if False TAGS: Classic, RFCOMM Priority: 3 """ return self._test_rfcomm_connection_with_uuid(RfcommUuid.ATT.value) @BluetoothBaseTest.bt_test_wrap @test_tracker_info(uuid='e81f37ba-e914-4eb1-b144-b079f91c6734') def test_rfcomm_connection_obex_uuid(self): """Test Bluetooth RFCOMM connection using OBEX uuid Test RFCOMM though establishing a basic connection. Steps: 1. Get the mac address of the server device. 2. Establish an RFCOMM connection from the client to the server AD. 3. Verify that the RFCOMM connection is active from both the client and server. Expected Result: RFCOMM connection is established then disconnected succcessfully. Returns: Pass if True Fail if False TAGS: Classic, RFCOMM Priority: 3 """ return self._test_rfcomm_connection_with_uuid(RfcommUuid.OBEX.value) @BluetoothBaseTest.bt_test_wrap @test_tracker_info(uuid='5edd766f-17fb-459c-985e-9c21afe1b104') def test_rfcomm_connection_ip_uuid(self): """Test Bluetooth RFCOMM connection using IP uuid Test RFCOMM though establishing a basic connection. Steps: 1. Get the mac address of the server device. 2. Establish an RFCOMM connection from the client to the server AD. 3. Verify that the RFCOMM connection is active from both the client and server. Expected Result: RFCOMM connection is established then disconnected succcessfully. Returns: Pass if True Fail if False TAGS: Classic, RFCOMM Priority: 3 """ return self._test_rfcomm_connection_with_uuid(RfcommUuid.IP.value) @BluetoothBaseTest.bt_test_wrap @test_tracker_info(uuid='7a429cca-bc65-4344-8fa5-13ca0d49a351') def test_rfcomm_connection_ftp_uuid(self): """Test Bluetooth RFCOMM connection using FTP uuid Test RFCOMM though establishing a basic connection. Steps: 1. Get the mac address of the server device. 2. Establish an RFCOMM connection from the client to the server AD. 3. Verify that the RFCOMM connection is active from both the client and server. Expected Result: RFCOMM connection is established then disconnected succcessfully. Returns: Pass if True Fail if False TAGS: Classic, RFCOMM Priority: 3 """ return self._test_rfcomm_connection_with_uuid(RfcommUuid.FTP.value) @BluetoothBaseTest.bt_test_wrap @test_tracker_info(uuid='a8ecdd7b-8529-4e0b-ad18-0d0cf61f4b02') def test_rfcomm_connection_http_uuid(self): """Test Bluetooth RFCOMM connection using HTTP uuid Test RFCOMM though establishing a basic connection. Steps: 1. Get the mac address of the server device. 2. Establish an RFCOMM connection from the client to the server AD. 3. Verify that the RFCOMM connection is active from both the client and server. Expected Result: RFCOMM connection is established then disconnected succcessfully. Returns: Pass if True Fail if False TAGS: Classic, RFCOMM Priority: 3 """ return self._test_rfcomm_connection_with_uuid(RfcommUuid.HTTP.value) @BluetoothBaseTest.bt_test_wrap @test_tracker_info(uuid='816569e6-6189-45b5-95c3-ea27b69698ff') def test_rfcomm_connection_wsp_uuid(self): """Test Bluetooth RFCOMM connection using WSP uuid Test RFCOMM though establishing a basic connection. Steps: 1. Get the mac address of the server device. 2. Establish an RFCOMM connection from the client to the server AD. 3. Verify that the RFCOMM connection is active from both the client and server. Expected Result: RFCOMM connection is established then disconnected succcessfully. Returns: Pass if True Fail if False TAGS: Classic, RFCOMM Priority: 3 """ return self._test_rfcomm_connection_with_uuid(RfcommUuid.WSP.value) @BluetoothBaseTest.bt_test_wrap @test_tracker_info(uuid='cd5e8c87-4df9-4f1d-ae0b-b47f84c75e44') def test_rfcomm_connection_bnep_uuid(self): """Test Bluetooth RFCOMM connection using BNEP uuid Test RFCOMM though establishing a basic connection. Steps: 1. Get the mac address of the server device. 2. Establish an RFCOMM connection from the client to the server AD. 3. Verify that the RFCOMM connection is active from both the client and server. Expected Result: RFCOMM connection is established then disconnected succcessfully. Returns: Pass if True Fail if False TAGS: Classic, RFCOMM Priority: 3 """ return self._test_rfcomm_connection_with_uuid(RfcommUuid.BNEP.value) @BluetoothBaseTest.bt_test_wrap @test_tracker_info(uuid='fda073d3-d856-438b-b208-61cce67689dd') def test_rfcomm_connection_upnp_uuid(self): """Test Bluetooth RFCOMM connection using UPNP uuid Test RFCOMM though establishing a basic connection. Steps: 1. Get the mac address of the server device. 2. Establish an RFCOMM connection from the client to the server AD. 3. Verify that the RFCOMM connection is active from both the client and server. Expected Result: RFCOMM connection is established then disconnected succcessfully. Returns: Pass if True Fail if False TAGS: Classic, RFCOMM Priority: 3 """ return self._test_rfcomm_connection_with_uuid(RfcommUuid.UPNP.value) @BluetoothBaseTest.bt_test_wrap @test_tracker_info(uuid='0ab329bb-ef61-4574-a5c1-440fb45938ff') def test_rfcomm_connection_hidp_uuid(self): """Test Bluetooth RFCOMM connection using HIDP uuid Test RFCOMM though establishing a basic connection. Steps: 1. Get the mac address of the server device. 2. Establish an RFCOMM connection from the client to the server AD. 3. Verify that the RFCOMM connection is active from both the client and server. Expected Result: RFCOMM connection is established then disconnected succcessfully. Returns: Pass if True Fail if False TAGS: Classic, RFCOMM Priority: 3 """ return self._test_rfcomm_connection_with_uuid(RfcommUuid.HIDP.value) @BluetoothBaseTest.bt_test_wrap @test_tracker_info(uuid='5b1d8c64-4f92-4a22-b61b-28b1a1086b39') def test_rfcomm_connection_hardcopy_control_channel_uuid(self): """Test Bluetooth RFCOMM connection using HARDCOPY_CONTROL_CHANNEL uuid Test RFCOMM though establishing a basic connection. Steps: 1. Get the mac address of the server device. 2. Establish an RFCOMM connection from the client to the server AD. 3. Verify that the RFCOMM connection is active from both the client and server. Expected Result: RFCOMM connection is established then disconnected succcessfully. Returns: Pass if True Fail if False TAGS: Classic, RFCOMM Priority: 3 """ return self._test_rfcomm_connection_with_uuid( RfcommUuid.HARDCOPY_CONTROL_CHANNEL.value) @BluetoothBaseTest.bt_test_wrap @test_tracker_info(uuid='1ae6ca34-87ab-48ad-8da8-98c997538af4') def test_rfcomm_connection_hardcopy_data_channel_uuid(self): """Test Bluetooth RFCOMM connection using HARDCOPY_DATA_CHANNEL uuid Test RFCOMM though establishing a basic connection. Steps: 1. Get the mac address of the server device. 2. Establish an RFCOMM connection from the client to the server AD. 3. Verify that the RFCOMM connection is active from both the client and server. Expected Result: RFCOMM connection is established then disconnected succcessfully. Returns: Pass if True Fail if False TAGS: Classic, RFCOMM Priority: 3 """ return self._test_rfcomm_connection_with_uuid( RfcommUuid.HARDCOPY_DATA_CHANNEL.value) @BluetoothBaseTest.bt_test_wrap @test_tracker_info(uuid='d18ed311-a533-4306-944a-6f0f95eac141') def test_rfcomm_connection_hardcopy_notification_uuid(self): """Test Bluetooth RFCOMM connection using HARDCOPY_NOTIFICATION uuid Test RFCOMM though establishing a basic connection. Steps: 1. Get the mac address of the server device. 2. Establish an RFCOMM connection from the client to the server AD. 3. Verify that the RFCOMM connection is active from both the client and server. Expected Result: RFCOMM connection is established then disconnected succcessfully. Returns: Pass if True Fail if False TAGS: Classic, RFCOMM Priority: 3 """ return self._test_rfcomm_connection_with_uuid( RfcommUuid.HARDCOPY_NOTIFICATION.value) @BluetoothBaseTest.bt_test_wrap @test_tracker_info(uuid='ab0af819-7d26-451d-8275-1119ee3c8df8') def test_rfcomm_connection_avctp_uuid(self): """Test Bluetooth RFCOMM connection using AVCTP uuid Test RFCOMM though establishing a basic connection. Steps: 1. Get the mac address of the server device. 2. Establish an RFCOMM connection from the client to the server AD. 3. Verify that the RFCOMM connection is active from both the client and server. Expected Result: RFCOMM connection is established then disconnected succcessfully. Returns: Pass if True Fail if False TAGS: Classic, RFCOMM Priority: 3 """ return self._test_rfcomm_connection_with_uuid(RfcommUuid.AVCTP.value) @BluetoothBaseTest.bt_test_wrap @test_tracker_info(uuid='124b545e-e842-433d-b541-9710a139c8fb') def test_rfcomm_connection_avdtp_uuid(self): """Test Bluetooth RFCOMM connection using AVDTP uuid Test RFCOMM though establishing a basic connection. Steps: 1. Get the mac address of the server device. 2. Establish an RFCOMM connection from the client to the server AD. 3. Verify that the RFCOMM connection is active from both the client and server. Expected Result: RFCOMM connection is established then disconnected succcessfully. Returns: Pass if True Fail if False TAGS: Classic, RFCOMM Priority: 3 """ return self._test_rfcomm_connection_with_uuid(RfcommUuid.AVDTP.value) @BluetoothBaseTest.bt_test_wrap @test_tracker_info(uuid='aea354b9-2ba5-4d7e-90a9-b637cb2fd48c') def test_rfcomm_connection_cmtp_uuid(self): """Test Bluetooth RFCOMM connection using CMTP uuid Test RFCOMM though establishing a basic connection. Steps: 1. Get the mac address of the server device. 2. Establish an RFCOMM connection from the client to the server AD. 3. Verify that the RFCOMM connection is active from both the client and server. Expected Result: RFCOMM connection is established then disconnected succcessfully. Returns: Pass if True Fail if False TAGS: Classic, RFCOMM Priority: 3 """ return self._test_rfcomm_connection_with_uuid(RfcommUuid.CMTP.value) @BluetoothBaseTest.bt_test_wrap @test_tracker_info(uuid='b547b8d9-6453-41af-959f-8bc0d9a6c89a') def test_rfcomm_connection_mcap_control_channel_uuid(self): """Test Bluetooth RFCOMM connection using MCAP_CONTROL_CHANNEL uuid Test RFCOMM though establishing a basic connection. Steps: 1. Get the mac address of the server device. 2. Establish an RFCOMM connection from the client to the server AD. 3. Verify that the RFCOMM connection is active from both the client and server. Expected Result: RFCOMM connection is established then disconnected succcessfully. Returns: Pass if True Fail if False TAGS: Classic, RFCOMM Priority: 3 """ return self._test_rfcomm_connection_with_uuid( RfcommUuid.MCAP_CONTROL_CHANNEL.value) @BluetoothBaseTest.bt_test_wrap @test_tracker_info(uuid='ba3ab84c-bc61-442c-944c-af4fbca157f1') def test_rfcomm_connection_mcap_data_channel_uuid(self): """Test Bluetooth RFCOMM connection using MCAP_DATA_CHANNEL uuid Test RFCOMM though establishing a basic connection. Steps: 1. Get the mac address of the server device. 2. Establish an RFCOMM connection from the client to the server AD. 3. Verify that the RFCOMM connection is active from both the client and server. Expected Result: RFCOMM connection is established then disconnected succcessfully. Returns: Pass if True Fail if False TAGS: Classic, RFCOMM Priority: 3 """ return self._test_rfcomm_connection_with_uuid( RfcommUuid.MCAP_DATA_CHANNEL.value) @BluetoothBaseTest.bt_test_wrap @test_tracker_info(uuid='d6c7523d-9247-480e-8154-edd51ae1be50') def test_rfcomm_connection_l2cap_uuid(self): """Test Bluetooth RFCOMM connection using L2CAP uuid Test RFCOMM though establishing a basic connection. Steps: 1. Get the mac address of the server device. 2. Establish an RFCOMM connection from the client to the server AD. 3. Verify that the RFCOMM connection is active from both the client and server. Expected Result: RFCOMM connection is established then disconnected succcessfully. Returns: Pass if True Fail if False TAGS: Classic, RFCOMM Priority: 3 """ return self._test_rfcomm_connection_with_uuid(RfcommUuid.L2CAP.value)