# Lint as: python2, python3 # Copyright 2019 The Chromium OS Authors. All rights reserved. # Use of this source code is governed by a BSD-style license that can be # found in the LICENSE file. """A Batch of Bluetooth stand alone health tests""" from __future__ import absolute_import from __future__ import division from __future__ import print_function import logging from autotest_lib.server.cros.bluetooth.bluetooth_adapter_quick_tests import ( BluetoothAdapterQuickTests) from autotest_lib.server.cros.bluetooth import bluetooth_dbus_api_tests from autotest_lib.server.cros.bluetooth import bluetooth_default_state_test from autotest_lib.server.cros.bluetooth import bluetooth_valid_address_test from six.moves import range class bluetooth_AdapterSAHealth(BluetoothAdapterQuickTests, bluetooth_default_state_test.bluetooth_Health_DefaultStateTest, bluetooth_valid_address_test.bluetooth_Health_ValidAddressTest, bluetooth_dbus_api_tests.BluetoothDBusAPITests): """A Batch of Bluetooth stand alone health tests. This test is written as a batch of tests in order to reduce test time, since auto-test ramp up time is costy. The batch is using BluetoothAdapterQuickTests wrapper methods to start and end a test and a batch of tests. This class can be called to run the entire test batch or to run a specific test only """ test_wrapper = BluetoothAdapterQuickTests.quick_test_test_decorator batch_wrapper = BluetoothAdapterQuickTests.quick_test_batch_decorator @test_wrapper('Stand Alone basic test') def sa_basic_test(self): """Set of basic stand alone test""" # The bluetoothd must be running in the beginning. self.test_bluetoothd_running() # It is possible that the adapter is not powered on yet. # Power it on anyway and verify that it is actually powered on. self.test_power_on_adapter() # Verify that the adapter could be powered off and powered on, # and that it is in the correct working state. self.test_power_off_adapter() self.test_power_on_adapter() self.test_adapter_work_state() # Verify that the bluetoothd could be simply stopped and then # be started again, and that it is in the correct working state. self.test_stop_bluetoothd() self.test_start_bluetoothd() self.test_adapter_work_state() # Verify that the adapter could be reset off and on which includes # removing all cached information. self.test_reset_off_adapter() self.test_reset_on_adapter() self.test_adapter_work_state() # Verify that the adapter supports basic profiles. self.test_UUIDs() # Verify that the adapter could start and stop discovery. self.test_start_discovery() self.test_stop_discovery() self.test_start_discovery() # Verify that the adapter could set both discoverable and # non-discoverable successfully. self.test_discoverable() self.test_nondiscoverable() self.test_discoverable() # Verify that the adapter could set pairable and non-pairable. self.test_pairable() self.test_nonpairable() self.test_pairable() @test_wrapper('Adapter suspend resume test') def sa_adapter_suspend_resume_test(self): """Test dapter power states is perserved through suspend resume.""" def adapter_on_SR_test(): """Test Case: Power on - SR""" self.test_power_on_adapter() self.test_bluetoothd_running() self.suspend_resume() self.test_bluetoothd_running() self.test_adapter_work_state() self.test_power_on_adapter() def adapter_off_SR_test(): """Test Case: Power off - SR""" self.test_power_off_adapter() self.test_bluetoothd_running() self.suspend_resume() self.test_power_off_adapter() self.test_bluetoothd_running() adapter_on_SR_test() adapter_off_SR_test() @test_wrapper('Adapter present test') def sa_adapter_present_test(self): """Verify that the client has a Bluetooth adapter.""" # Reset the adapter (if any) to the powered off state. self.test_reset_off_adapter() # Verify that there is an adapter. This will only return True if both # the kernel and bluetooth daemon see the adapter. self.test_has_adapter() @test_wrapper('Adapter reboot test') def sa_adapter_reboot_test(self): """Verify that adapter power setting persist over reboot Test whether power setting persist after a reboot and whether adapter can be turned on after reboot """ def test_case_adapter_on_reboot(): """Test Case: Power on - reboot""" self.test_power_on_adapter() self.test_bluetoothd_running() self.reboot() self.test_bluetoothd_running() self.test_adapter_work_state() def test_case_adapter_off_reboot(): """Test Case: Power on - reboot""" self.test_power_off_adapter() self.test_bluetoothd_running() self.reboot() self.test_has_adapter() self.test_is_powered_off() self.test_power_on_adapter() self.test_bluetoothd_running() NUM_ITERATIONS = 3 for i in range(NUM_ITERATIONS): logging.debug('Starting reboot test loop number #%d', i) test_case_adapter_on_reboot() test_case_adapter_off_reboot() # TODO(b/145302986): Silencing known firmware issue with AC7260 (WP2) @test_wrapper('Adapter DiscoverableTimeout test', skip_chipsets=['Intel-AC7260']) def sa_adapter_discoverable_timeout_test(self): """Verify that DiscoverableTimout Property works.""" result = self.test_discoverable_timeout(timeout_values=[0, 7, 15]) logging.info("Result is %s", result) @test_wrapper('Adapter PairableTimeout test') def sa_adapter_pairable_timeout_test(self): """Verify that PairableTimout Property works.""" result = self.test_pairable_timeout(timeout_values=[0, 7, 15]) logging.info("Result is %s", result) @test_wrapper('Default state test') def sa_default_state_test(self): """Verify that the Bluetooth adapter has correct state.""" self.default_state_test() @test_wrapper('Valid address test') def sa_valid_address_test(self): """Verify that the client Bluetooth adapter has a valid address.""" self.valid_address_test() @test_wrapper('Valid adapter ID test') def sa_valid_id_test(self): """Verify that the adapter has a correctly-formatted ID""" self.test_check_valid_adapter_id() @test_wrapper('Valid adapter alias test') def sa_valid_alias_test(self): """Verify that the adapter has a correctly-formatted alias""" self.test_check_valid_alias() @test_wrapper('DBUS API tests') def sa_dbus_api_tests(self): """ Verify that the Bluetooth DBus API calls work.""" self.test_dbus_start_discovery_success() self.test_dbus_start_discovery_fail_discovery_in_progress() self.test_dbus_start_discovery_fail_power_off() self.test_dbus_stop_discovery_success() self.test_dbus_stop_discovery_fail_discovery_not_in_progress() self.test_dbus_stop_discovery_fail_power_off() self.test_dbus_get_supported_capabilities_success() self.test_dbus_get_supported_capabilities_success_power_off() @test_wrapper('EIR Max Alias Size test') def sa_eir_max_name_size_test(self): """ Verify that the non-default max eir name size is used """ EIR_80_char_name = ('1234567890123456789012345678901234567890' '1234567890123456789012345678901234567890') self.test_set_adapter_alias(EIR_80_char_name) @batch_wrapper('Stand Alone Health') def sa_health_batch_run(self, num_iterations=1, test_name=None): """Run the stand alone health test batch or a specific given test. The wrapper of this method is implemented in batch_decorator. Using the decorator a test batch method can implement the only its core tests invocations and let the decorator handle the wrapper, which is taking care for whether to run a specific test or the batch as a whole, and running the batch in iterations @param num_iterations: how many interations to run @param test_name: specifc test to run otherwise None to run the whole batch """ self.sa_basic_test() self.sa_adapter_suspend_resume_test() self.sa_adapter_present_test() # self.sa_adapter_reboot_test() disabled since the test is not stable self.sa_adapter_discoverable_timeout_test() self.sa_default_state_test() self.sa_valid_address_test() self.sa_dbus_api_tests() def run_once(self, host, num_iterations=1, test_name=None, flag='Quick Health'): """Run the batch of Bluetooth stand health tests @param host: the DUT, usually a chromebook @param num_iterations: the number of rounds to execute the test """ # Initialize and run the test batch or the requested specific test self.quick_test_init(host, use_btpeer=False, flag=flag, start_browser=False) self.sa_health_batch_run(num_iterations, test_name) self.quick_test_cleanup()