Google Git
Sign in
cos / mirrors / cros / chromiumos / third_party / autotest / refs/heads/stabilize-13597.66.B / . / server / cros / bluetooth / bluetooth_default_state_test.py
blob: cfe5cc143268774f4071945457f01bf92cb5bfef [file] [log] [blame]
# Copyright (c) 2013 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.
from __future__ import absolute_import
import logging
import time
import common
from autotest_lib.client.common_lib import error
from autotest_lib.client.common_lib.cros.bluetooth import bluetooth_socket
from autotest_lib.server.cros.bluetooth import bluetooth_adapter_tests
DEVICE_ADDRESS = '01:02:03:04:05:06'
ADDRESS_TYPE = 0
class bluetooth_Health_DefaultStateTest(
bluetooth_adapter_tests.BluetoothAdapterTests):
"""
This class implements the default state test
and all the helper functions it needs.
"""
version = 1
def compare_property(self, bluez_property, mgmt_setting, current_settings):
""" Compare bluez property value and Kernel property
@param bluez_property : Bluez property to be compared
@param mgmt_setting : Bit mask of management setting
@param current_settings : Current kernel settings
@return : True if bluez property and the current settings agree """
cur_kernel_value = 1 if mgmt_setting & current_settings else 0
return bluez_property == cur_kernel_value
def default_state_test(self):
"""Test Default state of Bluetooth adapter after power cycling."""
# Reset the adapter to the powered off state.
self.test_reset_off_adapter()
# Kernel default state depends on whether the kernel supports the
# BR/EDR Allowlist. When this is supported the 'connectable' setting
# remains unset and instead page scan is managed by the kernel based
# on whether or not a BR/EDR device is in the allowlist.
( commands, events ) = self.read_supported_commands()
supports_add_device = bluetooth_socket.MGMT_OP_ADD_DEVICE in commands
# Read the initial state of the adapter. Verify that it is powered down.
( address, bluetooth_version, manufacturer_id,
supported_settings, current_settings, class_of_device,
name, short_name ) = self.read_info()
self.log_settings('Initial state', current_settings)
if current_settings & bluetooth_socket.MGMT_SETTING_POWERED:
raise error.TestFail('Bluetooth adapter is powered')
# The other kernel settings (connectable, pairable, etc.) reflect the
# initial state before the bluetooth daemon adjusts them - we're ok
# with them being on or off during that brief period.
#
# Verify that the Bluetooth Daemon sees that it is also powered down,
# non-discoverable and not discovering devices.
bluez_properties = self.get_adapter_properties()
if bluez_properties['Powered']:
raise error.TestFail('Bluetooth daemon Powered property does not '
'match kernel while powered off')
if not self.compare_property(bluez_properties['Discoverable'],
bluetooth_socket.MGMT_SETTING_DISCOVERABLE,
current_settings):
raise error.TestFail('Bluetooth daemon Discoverable property '
'does not match kernel while powered off')
if bluez_properties['Discovering']:
raise error.TestFail('Bluetooth daemon believes adapter is '
'discovering while powered off')
# Compare with the raw HCI state of the adapter as well, this should
# be just not "UP", otherwise something deeply screwy is happening.
flags = self.get_dev_info()[3]
self.log_flags('Initial state', flags)
if flags & bluetooth_socket.HCI_UP:
raise error.TestFail('HCI UP flag does not match kernel while '
'powered off')
# Power on the adapter, then read the state again. Verify that it is
# powered up, pairable, but not discoverable.
self.test_power_on_adapter()
current_settings = self.read_info()[4]
self.log_settings("Powered up", current_settings)
if not current_settings & bluetooth_socket.MGMT_SETTING_POWERED:
raise error.TestFail('Bluetooth adapter is not powered')
# If the kernel does not supports the BR/EDR allowlist, the adapter
# should be generically connectable;
# if it doesn't, then it depends on previous settings.
if not supports_add_device:
if not current_settings & bluetooth_socket.MGMT_SETTING_CONNECTABLE:
raise error.TestFail('Bluetooth adapter is not connectable '
'though kernel does not support '
'BR/EDR allowlist')
# Verify that the Bluetooth Daemon sees the same state as the kernel
# and that it's not discovering.
bluez_properties = self.get_adapter_properties()
if not bluez_properties['Powered']:
raise error.TestFail('Bluetooth daemon Powered property does not '
'match kernel while powered on')
if not self.compare_property(bluez_properties['Pairable'],
bluetooth_socket.MGMT_SETTING_PAIRABLE,
current_settings):
raise error.TestFail('Bluetooth daemon Pairable property does not '
'match kernel while powered on')
if not self.compare_property(bluez_properties['Discoverable'],
bluetooth_socket.MGMT_SETTING_DISCOVERABLE,
current_settings):
raise error.TestFail('Bluetooth daemon Discoverable property '
'does not match kernel while powered on')
if bluez_properties['Discovering']:
raise error.TestFail('Bluetooth daemon believes adapter is '
'discovering while powered on')
# Compare with the raw HCI state of the adapter while powered up as
# well.
flags = self.get_dev_info()[3]
self.log_flags('Powered up', flags)
if not flags & bluetooth_socket.HCI_UP:
raise error.TestFail('HCI UP flag does not match kernel while '
'powered on')
if not flags & bluetooth_socket.HCI_RUNNING:
raise error.TestFail('HCI RUNNING flag does not match kernel while '
'powered on')
if bool(flags & bluetooth_socket.HCI_ISCAN) != \
bool(bluez_properties['Discoverable']):
raise error.TestFail('HCI ISCAN flag does not match kernel while '
'powered on')
if flags & bluetooth_socket.HCI_INQUIRY:
raise error.TestFail('HCI INQUIRY flag does not match kernel while '
'powered on')
# If the kernel does not supports the BR/EDR allowlist, the adapter
# should generically connectable, so should it should be in PSCAN
# mode. This matches the management API "connectable" setting so far.
if not supports_add_device:
if not flags & bluetooth_socket.HCI_PSCAN:
raise error.TestFail('HCI PSCAN flag not set though kernel'
'does not supports BR/EDR allowlist')
# Now we can examine the differences. Try adding and removing a device
# from the kernel BR/EDR allowlist. The management API "connectable"
# setting should remain off, but we should be able to see the PSCAN
# flag come and go.
if supports_add_device:
# If PSCAN is currently on then device is CONNECTABLE
# or a previous add device which was not removed.
# Turn on and off DISCOVERABLE to turn off CONNECTABLE and
# PSCAN
if flags & bluetooth_socket.HCI_PSCAN:
if not (current_settings &
bluetooth_socket.MGMT_SETTING_CONNECTABLE):
raise error.TestFail('PSCAN on but device not CONNECTABLE')
logging.debug('Toggle Discoverable to turn off CONNECTABLE')
self.test_discoverable()
self.test_nondiscoverable()
current_settings = self.read_info()[4]
flags = self.get_dev_info()[3]
self.log_flags('Discoverability Toggled', flags)
if flags & bluetooth_socket.HCI_PSCAN:
raise error.TestFail('PSCAN on after toggling DISCOVERABLE')
previous_settings = current_settings
previous_flags = flags
self.add_device(DEVICE_ADDRESS, ADDRESS_TYPE, 1)
# Wait for a few seconds before reading the settings
time.sleep(3)
current_settings = self.read_info()[4]
self.log_settings("After add device",
current_settings)
flags = self.get_dev_info()[3]
self.log_flags('After add device', flags)
if current_settings != previous_settings:
self.log_settings("previous settings", previous_settings)
self.log_settings("current settings", current_settings)
raise error.TestFail(
'Bluetooth adapter settings changed after add device')
if not flags & bluetooth_socket.HCI_PSCAN:
raise error.TestFail('HCI PSCAN flag not set after add device')
# Remove the device again, and make sure the PSCAN flag goes away.
self.remove_device(DEVICE_ADDRESS, ADDRESS_TYPE)
# PSCAN is still enabled for a few seconds after remove device
# on older devices. Wait for few second before reading the settigs
time.sleep(3)
current_settings = self.read_info()[4]
self.log_settings("After remove device", current_settings)
flags = self.get_dev_info()[3]
self.log_flags('After remove device', flags)
if current_settings != previous_settings:
raise error.TestFail(
'Bluetooth adapter settings changed after remove device')
if flags & bluetooth_socket.HCI_PSCAN:
raise error.TestFail('HCI PSCAN flag set after remove device')
# Finally power off the adapter again, and verify that the adapter has
# returned to powered down.
self.test_power_off_adapter()
current_settings = self.read_info()[4]
self.log_settings("After power down", current_settings)
if current_settings & bluetooth_socket.MGMT_SETTING_POWERED:
raise error.TestFail('Bluetooth adapter is powered after power off')
# Verify that the Bluetooth Daemon sees the same state as the kernel.
bluez_properties = self.get_adapter_properties()
if bluez_properties['Powered']:
raise error.TestFail('Bluetooth daemon Powered property does not '
'match kernel after power off')
if not self.compare_property(bluez_properties['Discoverable'],
bluetooth_socket.MGMT_SETTING_DISCOVERABLE,
current_settings):
raise error.TestFail('Bluetooth daemon Discoverable property '
'does not match kernel after off')
if bluez_properties['Discovering']:
raise error.TestFail('Bluetooth daemon believes adapter is '
'discovering after power off')
# And one last comparison with the raw HCI state of the adapter.
flags = self.get_dev_info()[3]
self.log_flags('After power down', flags)
if flags & bluetooth_socket.HCI_UP:
raise error.TestFail('HCI UP flag does not match kernel after '
'power off')