def run_once(self, test): """Run the test. @param test string - Set by the client test control file """ client_proxy = wifi_proxy.WifiProxy() if test is not 'all': logging.info('Running an individual control file.') self._to_wifi(client_proxy) for service_test in constants.NETWORK_SERVICES_TESTS: if service_test.testname == test: self._connect_and_assert(service_test.testname, service_test.ssid, service_test.user) self._to_ethernet(client_proxy) return for service_test in constants.NETWORK_SERVICES_TESTS: logging.info('==== Running current test %s ====', service_test.testname) self._to_wifi(client_proxy) self._connect_and_assert(service_test.testname, service_test.ssid, service_test.user) self._to_ethernet(client_proxy) # Ensure DUT returns to normal service state self._to_ethernet(client_proxy)
def initialize(self, percent_initial_charge_min=None, check_network=True, loop_time=3600, loop_count=1, should_scroll='true', should_scroll_up='true', scroll_loop='false', scroll_interval_ms='10000', scroll_by_pixels='600', test_low_batt_p=3, verbose=True, force_wifi=False, wifi_ap='', wifi_sec='none', wifi_pw='', wifi_timeout=60, tasks='', volume_level=10, mic_gain=10, low_batt_margin_p=2, ac_ok=False, log_mem_bandwidth=False, gaia_login=None, force_discharge=False, pdash_note=''): """ percent_initial_charge_min: min battery charge at start of test check_network: check that Ethernet interface is not running loop_time: length of time to run the test for in each loop loop_count: number of times to loop the test for should_scroll: should the extension scroll pages should_scroll_up: should scroll in up direction scroll_loop: continue scrolling indefinitely scroll_interval_ms: how often to scoll scroll_by_pixels: number of pixels to scroll each time test_low_batt_p: percent battery at which test should stop verbose: add more logging information force_wifi: should we force to test to run on wifi wifi_ap: the name (ssid) of the wifi access point wifi_sec: the type of security for the wifi ap wifi_pw: password for the wifi ap wifi_timeout: The timeout for wifi configuration volume_level: percent audio volume level mic_gain: percent audio microphone gain level low_batt_margin_p: percent low battery margin to be added to sys_low_batt_p to guarantee test completes prior to powerd shutdown ac_ok: boolean to allow running on AC log_mem_bandwidth: boolean to log memory bandwidth during the test gaia_login: whether real GAIA login should be attempted. If 'None' (default) then boolean is determined from URL. force_discharge: boolean of whether to tell ec to discharge battery even when the charger is plugged in. pdash_note: note of the current run to send to power dashboard. """ self._backlight = None self._services = None self._browser = None self._loop_time = loop_time self._loop_count = loop_count self._mseconds = self._loop_time * 1000 self._verbose = verbose self._sys_low_batt_p = 0. self._sys_low_batt_s = 0. self._test_low_batt_p = test_low_batt_p self._should_scroll = should_scroll self._should_scroll_up = should_scroll_up self._scroll_loop = scroll_loop self._scroll_interval_ms = scroll_interval_ms self._scroll_by_pixels = scroll_by_pixels self._tmp_keyvals = {} self._power_status = None self._force_wifi = force_wifi self._testServer = None self._tasks = tasks.replace(' ','') self._backchannel = None self._shill_proxy = None self._volume_level = volume_level self._mic_gain = mic_gain self._ac_ok = ac_ok self._log_mem_bandwidth = log_mem_bandwidth self._wait_time = 60 self._stats = collections.defaultdict(list) self._force_discharge = force_discharge self._pdash_note = pdash_note if not power_utils.has_battery(): if ac_ok and (power_utils.has_powercap_support() or power_utils.has_rapl_support()): logging.info("Device has no battery but has powercap data.") else: rsp = "Skipping test for device without battery and powercap." raise error.TestNAError(rsp) self._power_status = power_status.get_status() self._tmp_keyvals['b_on_ac'] = self._power_status.on_ac() self._gaia_login = gaia_login if gaia_login is None: self._gaia_login = power_load_util.use_gaia_login() self._username = power_load_util.get_username() self._password = power_load_util.get_password() if not ac_ok: self._power_status.assert_battery_state(percent_initial_charge_min) if force_discharge: if not power_utils.charge_control_by_ectool(False): raise error.TestError('Could not run battery force discharge.') # If force wifi enabled, convert eth0 to backchannel and connect to the # specified WiFi AP. if self._force_wifi: sec_config = None # TODO(dbasehore): Fix this when we get a better way of figuring out # the wifi security configuration. if wifi_sec == 'rsn' or wifi_sec == 'wpa': sec_config = xmlrpc_security_types.WPAConfig( psk=wifi_pw, wpa_mode=xmlrpc_security_types.WPAConfig.MODE_PURE_WPA2, wpa2_ciphers= [xmlrpc_security_types.WPAConfig.CIPHER_CCMP]) wifi_config = xmlrpc_datatypes.AssociationParameters( ssid=wifi_ap, security_config=sec_config, configuration_timeout=wifi_timeout) # If backchannel is already running, don't run it again. self._backchannel = backchannel.Backchannel() if not self._backchannel.setup(): raise error.TestError('Could not setup Backchannel network.') self._shill_proxy = wifi_proxy.WifiProxy() self._shill_proxy.remove_all_wifi_entries() for i in xrange(1,4): raw_output = self._shill_proxy.connect_to_wifi_network( wifi_config.ssid, wifi_config.security, wifi_config.security_parameters, wifi_config.save_credentials, station_type=wifi_config.station_type, hidden_network=wifi_config.is_hidden, discovery_timeout_seconds= wifi_config.discovery_timeout, association_timeout_seconds= wifi_config.association_timeout, configuration_timeout_seconds= wifi_config.configuration_timeout * i) result = xmlrpc_datatypes.AssociationResult. \ from_dbus_proxy_output(raw_output) if result.success: break logging.warn('wifi connect: disc:%d assoc:%d config:%d fail:%s', result.discovery_time, result.association_time, result.configuration_time, result.failure_reason) else: raise error.TestError('Could not connect to WiFi network.') else: # Find all wired ethernet interfaces. ifaces = [ iface for iface in interface.get_interfaces() if (not iface.is_wifi_device() and iface.name.startswith('eth')) ] logging.debug(str([iface.name for iface in ifaces])) for iface in ifaces: if check_network and iface.is_lower_up: raise error.TestError('Ethernet interface is active. ' + 'Please remove Ethernet cable') # record the max backlight level self._backlight = power_utils.Backlight() self._tmp_keyvals['level_backlight_max'] = \ self._backlight.get_max_level() self._services = service_stopper.ServiceStopper( service_stopper.ServiceStopper.POWER_DRAW_SERVICES) self._services.stop_services() self._detachable_handler = power_utils.BaseActivitySimulator() # fix up file perms for the power test extension so that chrome # can access it os.system('chmod -R 755 %s' % self.bindir) # setup a HTTP Server to listen for status updates from the power # test extension self._testServer = httpd.HTTPListener(8001, docroot=self.bindir) self._testServer.run() # initialize various interesting power related stats self._statomatic = power_status.StatoMatic() self._power_status.refresh() self._sys_low_batt_p = float(utils.system_output( 'check_powerd_config --low_battery_shutdown_percent')) self._sys_low_batt_s = int(utils.system_output( 'check_powerd_config --low_battery_shutdown_time')) if self._sys_low_batt_p and self._sys_low_batt_s: raise error.TestError( "Low battery percent and seconds are non-zero.") min_low_batt_p = min(self._sys_low_batt_p + low_batt_margin_p, 100) if self._sys_low_batt_p and (min_low_batt_p > self._test_low_batt_p): logging.warning("test low battery threshold is below system " + "low battery requirement. Setting to %f", min_low_batt_p) self._test_low_batt_p = min_low_batt_p if self._power_status.battery: self._ah_charge_start = self._power_status.battery[0].charge_now self._wh_energy_start = self._power_status.battery[0].energy
def __init__(self): self._wifi_proxy = wifi_proxy.WifiProxy() self._tpm_store = tpm_store.TPMStore()
def initialize(self, percent_initial_charge_min=None, check_network=True, loop_time=3600, loop_count=1, should_scroll='true', should_scroll_up='true', scroll_loop='false', scroll_interval_ms='10000', scroll_by_pixels='600', test_low_batt_p=3, verbose=True, force_wifi=False, wifi_ap='', wifi_sec='none', wifi_pw='', wifi_timeout=60, tasks='', kblight_percent=10, volume_level=10, mic_gain=10, low_batt_margin_p=2, ac_ok=False, log_mem_bandwidth=False): """ percent_initial_charge_min: min battery charge at start of test check_network: check that Ethernet interface is not running loop_time: length of time to run the test for in each loop loop_count: number of times to loop the test for should_scroll: should the extension scroll pages should_scroll_up: should scroll in up direction scroll_loop: continue scrolling indefinitely scroll_interval_ms: how often to scoll scroll_by_pixels: number of pixels to scroll each time test_low_batt_p: percent battery at which test should stop verbose: add more logging information force_wifi: should we force to test to run on wifi wifi_ap: the name (ssid) of the wifi access point wifi_sec: the type of security for the wifi ap wifi_pw: password for the wifi ap wifi_timeout: The timeout for wifi configuration kblight_percent: percent brightness of keyboard backlight volume_level: percent audio volume level mic_gain: percent audio microphone gain level low_batt_margin_p: percent low battery margin to be added to sys_low_batt_p to guarantee test completes prior to powerd shutdown ac_ok: boolean to allow running on AC log_mem_bandwidth: boolean to log memory bandwidth during the test """ self._backlight = None self._services = None self._browser = None self._loop_time = loop_time self._loop_count = loop_count self._mseconds = self._loop_time * 1000 self._verbose = verbose self._sys_low_batt_p = 0. self._sys_low_batt_s = 0. self._test_low_batt_p = test_low_batt_p self._should_scroll = should_scroll self._should_scroll_up = should_scroll_up self._scroll_loop = scroll_loop self._scroll_interval_ms = scroll_interval_ms self._scroll_by_pixels = scroll_by_pixels self._tmp_keyvals = {} self._power_status = power_status.get_status() self._tmp_keyvals['b_on_ac'] = self._power_status.on_ac() self._force_wifi = force_wifi self._testServer = None self._tasks = tasks.replace(' ', '') self._backchannel = None self._shill_proxy = None self._kblight_percent = kblight_percent self._volume_level = volume_level self._mic_gain = mic_gain self._ac_ok = ac_ok self._log_mem_bandwidth = log_mem_bandwidth self._wait_time = 60 self._stats = collections.defaultdict(list) with tempfile.NamedTemporaryFile() as pltp: file_utils.download_file(self._pltp_url, pltp.name) self._password = pltp.read().rstrip() if not ac_ok: self._power_status.assert_battery_state(percent_initial_charge_min) # If force wifi enabled, convert eth0 to backchannel and connect to the # specified WiFi AP. if self._force_wifi: sec_config = None # TODO(dbasehore): Fix this when we get a better way of figuring out # the wifi security configuration. if wifi_sec == 'rsn' or wifi_sec == 'wpa': sec_config = xmlrpc_security_types.WPAConfig( psk=wifi_pw, wpa_mode=xmlrpc_security_types.WPAConfig.MODE_PURE_WPA2, wpa2_ciphers=[xmlrpc_security_types.WPAConfig.CIPHER_CCMP]) wifi_config = xmlrpc_datatypes.AssociationParameters( ssid=wifi_ap, security_config=sec_config, configuration_timeout=wifi_timeout) # If backchannel is already running, don't run it again. self._backchannel = backchannel.Backchannel() if not self._backchannel.setup(): raise error.TestError('Could not setup Backchannel network.') self._shill_proxy = wifi_proxy.WifiProxy() self._shill_proxy.remove_all_wifi_entries() for i in xrange(1, 4): raw_output = self._shill_proxy.connect_to_wifi_network( wifi_config.ssid, wifi_config.security, wifi_config.security_parameters, wifi_config.save_credentials, station_type=wifi_config.station_type, hidden_network=wifi_config.is_hidden, discovery_timeout_seconds=wifi_config.discovery_timeout, association_timeout_seconds=wifi_config. association_timeout, configuration_timeout_seconds=wifi_config. configuration_timeout * i) result = xmlrpc_datatypes.AssociationResult. \ from_dbus_proxy_output(raw_output) if result.success: break logging.warn( 'wifi connect: disc:%d assoc:%d config:%d fail:%s', result.discovery_time, result.association_time, result.configuration_time, result.failure_reason) else: raise error.TestError('Could not connect to WiFi network.') else: # Find all wired ethernet interfaces. # TODO: combine this with code in network_DisableInterface, in a # common library somewhere. ifaces = [ nic.strip() for nic in os.listdir('/sys/class/net/') if ((not os.path.exists('/sys/class/net/' + nic + '/phy80211')) and nic.find('eth') != -1) ] logging.debug(str(ifaces)) for iface in ifaces: if check_network and self._is_network_iface_running(iface): raise error.TestError('Ethernet interface is active. ' + 'Please remove Ethernet cable') # record the max backlight level self._backlight = power_utils.Backlight() self._tmp_keyvals['level_backlight_max'] = \ self._backlight.get_max_level() self._services = service_stopper.ServiceStopper( service_stopper.ServiceStopper.POWER_DRAW_SERVICES) self._services.stop_services() # fix up file perms for the power test extension so that chrome # can access it os.system('chmod -R 755 %s' % self.bindir) # setup a HTTP Server to listen for status updates from the power # test extension self._testServer = httpd.HTTPListener(8001, docroot=self.bindir) self._testServer.run() # initialize various interesting power related stats self._statomatic = power_status.StatoMatic() self._power_status.refresh() (self._sys_low_batt_p, self._sys_low_batt_s) = \ self._get_sys_low_batt_values() min_low_batt_p = min(self._sys_low_batt_p + low_batt_margin_p, 100) if self._sys_low_batt_p and (min_low_batt_p > self._test_low_batt_p): logging.warning( "test low battery threshold is below system " + "low battery requirement. Setting to %f", min_low_batt_p) self._test_low_batt_p = min_low_batt_p self._ah_charge_start = self._power_status.battery[0].charge_now self._wh_energy_start = self._power_status.battery[0].energy