#!/usr/bin/python3 # upower integration test suite # # Run in built tree to test local built binaries, or from anywhere else to test # system installed binaries. # # Copyright: (C) 2011 Martin Pitt # # This program is free software; you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation; either version 2 of the License, or # (at your option) any later version. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. import os import sys import dbus import tempfile import subprocess import unittest import time try: import gi from gi.repository import GLib from gi.repository import Gio gi.require_version('UPowerGlib', '1.0') from gi.repository import UPowerGlib except ImportError as e: sys.stderr.write('Skipping tests, PyGobject not available for Python 3, or missing GI typelibs: %s\n' % str(e)) sys.exit(0) try: gi.require_version('UMockdev', '1.0') from gi.repository import UMockdev except ImportError: sys.stderr.write('Skipping tests, umockdev not available (https://launchpad.net/umockdev/)\n') sys.exit(0) try: import dbusmock except ImportError: sys.stderr.write('Skipping tests, python-dbusmock not available (http://pypi.python.org/pypi/python-dbusmock).\n') sys.exit(0) UP = 'org.freedesktop.UPower' UP_DEVICE = 'org.freedesktop.UPower.Device' UP_DISPLAY_OBJECT_PATH = '/org/freedesktop/UPower/devices/DisplayDevice' DEVICE_IFACE = 'org.bluez.Device1' BATTERY_IFACE = 'org.bluez.Battery1' (UP_DEVICE_STATE_UNKNOWN, UP_DEVICE_STATE_CHARGING, UP_DEVICE_STATE_DISCHARGING, UP_DEVICE_STATE_EMPTY, UP_DEVICE_STATE_FULLY_CHARGED, UP_DEVICE_STATE_PENDING_CHARGE, UP_DEVICE_STATE_PENDING_DISCHARGE) = (0, 1, 2, 3, 4, 5, 6) (UP_DEVICE_LEVEL_UNKNOWN, UP_DEVICE_LEVEL_NONE, UP_DEVICE_LEVEL_DISCHARGING, UP_DEVICE_LEVEL_LOW, UP_DEVICE_LEVEL_CRITICAL, UP_DEVICE_LEVEL_ACTION, UP_DEVICE_LEVEL_NORMAL, UP_DEVICE_LEVEL_HIGH, UP_DEVICE_LEVEL_FULL) = (0, 1, 2, 3, 4, 5, 6, 7, 8) (UP_DEVICE_KIND_UNKNOWN, UP_DEVICE_KIND_LINE_POWER, UP_DEVICE_KIND_BATTERY, UP_DEVICE_KIND_UPS, UP_DEVICE_KIND_MONITOR, UP_DEVICE_KIND_MOUSE, UP_DEVICE_KIND_KEYBOARD, UP_DEVICE_KIND_PDA, UP_DEVICE_KIND_PHONE, UP_DEVICE_KIND_MEDIA_PLAYER, UP_DEVICE_KIND_TABLET, UP_DEVICE_KIND_COMPUTER) = (0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11) class Tests(dbusmock.DBusTestCase): @classmethod def setUpClass(cls): # run from local build tree if we are in one, otherwise use system instance builddir = os.getenv('top_builddir', '.') if os.access(os.path.join(builddir, 'src', 'upowerd'), os.X_OK): cls.daemon_path = os.path.join(builddir, 'src', 'upowerd') print('Testing binaries from local build tree') cls.local_daemon = True elif os.environ.get('UNDER_JHBUILD', False): jhbuild_prefix = os.environ['JHBUILD_PREFIX'] cls.daemon_path = os.path.join(jhbuild_prefix, 'libexec', 'upowerd') print('Testing binaries from JHBuild') cls.local_daemon = False else: print('Testing installed system binaries') cls.daemon_path = None with open('/usr/share/dbus-1/system-services/org.freedesktop.UPower.service') as f: for line in f: if line.startswith('Exec='): cls.daemon_path = line.split('=', 1)[1].strip() break assert cls.daemon_path, 'could not determine daemon path from D-BUS .service file' cls.local_daemon = False # fail on CRITICALs on client side GLib.log_set_always_fatal(GLib.LogLevelFlags.LEVEL_WARNING | GLib.LogLevelFlags.LEVEL_ERROR | GLib.LogLevelFlags.LEVEL_CRITICAL) # set up a fake system D-BUS cls.test_bus = Gio.TestDBus.new(Gio.TestDBusFlags.NONE) cls.test_bus.up() try: del os.environ['DBUS_SESSION_BUS_ADDRESS'] except KeyError: pass os.environ['DBUS_SYSTEM_BUS_ADDRESS'] = cls.test_bus.get_bus_address() cls.dbus = Gio.bus_get_sync(Gio.BusType.SYSTEM, None) cls.dbus_con = cls.get_dbus(True) @classmethod def tearDownClass(cls): cls.test_bus.down() dbusmock.DBusTestCase.tearDownClass() def setUp(self): '''Set up a local umockdev testbed. The testbed is initially empty. ''' self.testbed = UMockdev.Testbed.new() self.proxy = None self.log = None self.daemon = None self.logind = None def tearDown(self): del self.testbed self.stop_daemon() if self.logind: self.logind.stdout.close() self.logind.terminate() self.logind.wait() try: if self.bluez: self.bluez.stdout.close() self.bluez.terminate() self.bluez.wait() except: pass # on failures, print daemon log errors = [x[1] for x in self._outcome.errors if x[1]] if errors and self.log: with open(self.log.name) as f: sys.stderr.write('\n-------------- daemon log: ----------------\n') sys.stderr.write(f.read()) sys.stderr.write('------------------------------\n') # # Daemon control and D-BUS I/O # def start_daemon(self, cfgfile=None): '''Start daemon and create DBus proxy. Do this after adding the devices you want to test with. At the moment this only works with coldplugging, as we do not currently have a way to inject simulated uevents. When done, this sets self.proxy a the Gio.DBusProxy for upowerd. ''' env = os.environ.copy() if cfgfile is not None: env['UPOWER_CONF_FILE_NAME'] = cfgfile env['G_DEBUG'] = 'fatal-criticals' # note: Python doesn't propagate the setenv from Testbed.new(), so we # have to do that ourselves env['UMOCKDEV_DIR'] = self.testbed.get_root_dir() self.log = tempfile.NamedTemporaryFile() if os.getenv('VALGRIND') != None: if self.local_daemon: daemon_path = ['libtool', '--mode=execute', 'valgrind', self.daemon_path, '-v'] else: daemon_path = ['valgrind', self.daemon_path, '-v'] else: daemon_path = [self.daemon_path, '-v'] self.daemon = subprocess.Popen(daemon_path, env=env, stdout=self.log, stderr=subprocess.STDOUT) # wait until the daemon gets online timeout = 100 while timeout > 0: time.sleep(0.1) timeout -= 1 try: self.get_dbus_property('DaemonVersion') break except GLib.GError: pass else: self.fail('daemon did not start in 10 seconds') self.proxy = Gio.DBusProxy.new_sync( self.dbus, Gio.DBusProxyFlags.DO_NOT_AUTO_START, None, UP, '/org/freedesktop/UPower', UP, None) self.assertEqual(self.daemon.poll(), None, 'daemon crashed') def stop_daemon(self): '''Stop the daemon if it is running.''' if self.daemon: try: self.daemon.kill() except OSError: pass self.daemon.wait() self.daemon = None self.proxy = None def get_dbus_property(self, name): '''Get property value from daemon D-Bus interface.''' proxy = Gio.DBusProxy.new_sync( self.dbus, Gio.DBusProxyFlags.DO_NOT_AUTO_START, None, UP, '/org/freedesktop/UPower', 'org.freedesktop.DBus.Properties', None) return proxy.Get('(ss)', UP, name) def get_dbus_display_property(self, name): '''Get property value from display device D-Bus interface.''' proxy = Gio.DBusProxy.new_sync( self.dbus, Gio.DBusProxyFlags.DO_NOT_AUTO_START, None, UP, UP_DISPLAY_OBJECT_PATH, 'org.freedesktop.DBus.Properties', None) return proxy.Get('(ss)', UP + '.Device', name) def get_dbus_dev_property(self, device, name): '''Get property value from an upower device D-Bus path.''' proxy = Gio.DBusProxy.new_sync( self.dbus, Gio.DBusProxyFlags.DO_NOT_AUTO_START, None, UP, device, 'org.freedesktop.DBus.Properties', None) return proxy.Get('(ss)', UP + '.Device', name) def start_logind(self, parameters=None): self.logind, self.logind_obj = self.spawn_server_template('logind', parameters or {}, stdout=subprocess.PIPE) def start_bluez(self, parameters=None): self.bluez, self.bluez_obj = self.spawn_server_template('bluez5', parameters or {}, stdout=subprocess.PIPE) def have_text_in_log(self, text): return self.count_text_in_log(text) > 0 def count_text_in_log(self, text): with open(self.log.name) as f: return f.read().count(text) def assertEventually(self, condition, message=None, timeout=50): '''Assert that condition function eventually returns True. Timeout is in deciseconds, defaulting to 50 (5 seconds). message is printed on failure. ''' while timeout >= 0: context = GLib.MainContext.default() while context.iteration(False): pass if condition(): break timeout -= 1 time.sleep(0.1) else: self.fail(message or 'timed out waiting for ' + str(condition)) # # Actual test cases # def test_daemon_version(self): '''DaemonVersion property''' self.start_daemon() self.assertEqual(self.proxy.EnumerateDevices(), []) self.assertRegex(self.get_dbus_property('DaemonVersion'), '^[0-9.]+$') # without any devices we should assume AC self.assertEqual(self.get_dbus_property('OnBattery'), False) self.assertEqual(self.get_dbus_display_property('WarningLevel'), UP_DEVICE_LEVEL_NONE) self.stop_daemon() def test_no_devices(self): '''no devices''' # without any devices we should assume AC self.start_daemon() self.assertEqual(self.get_dbus_property('OnBattery'), False) self.assertEqual(self.get_dbus_display_property('WarningLevel'), UP_DEVICE_LEVEL_NONE) self.stop_daemon() def test_props_online_ac(self): '''properties with online AC''' ac = self.testbed.add_device('power_supply', 'AC', None, ['type', 'Mains', 'online', '1'], []) self.start_daemon() devs = self.proxy.EnumerateDevices() self.assertEqual(len(devs), 1) ac_up = devs[0] self.assertTrue('line_power_AC' in ac_up) self.assertEqual(self.get_dbus_property('OnBattery'), False) self.assertEqual(self.get_dbus_display_property('WarningLevel'), UP_DEVICE_LEVEL_NONE) self.assertEqual(self.get_dbus_dev_property(ac_up, 'PowerSupply'), True) self.assertEqual(self.get_dbus_dev_property(ac_up, 'Type'), 1) self.assertEqual(self.get_dbus_dev_property(ac_up, 'Online'), True) self.assertEqual(self.get_dbus_dev_property(ac_up, 'NativePath'), 'AC') self.stop_daemon() def test_props_offline_ac(self): '''properties with offline AC''' ac = self.testbed.add_device('power_supply', 'AC', None, ['type', 'Mains', 'online', '0'], []) self.start_daemon() devs = self.proxy.EnumerateDevices() self.assertEqual(len(devs), 1) # we don't have any known online power device now, but still no battery self.assertEqual(self.get_dbus_property('OnBattery'), False) self.assertEqual(self.get_dbus_display_property('WarningLevel'), UP_DEVICE_LEVEL_NONE) self.assertEqual(self.get_dbus_dev_property(devs[0], 'Online'), False) self.stop_daemon() def test_macbook_uevent(self): '''MacBooks sent uevent 5 seconds before battery updates''' ac = self.testbed.add_device('power_supply', 'AC', None, ['type', 'Mains', 'online', '0'], []) bat0 = self.testbed.add_device('power_supply', 'BAT0', None, ['type', 'Battery', 'present', '1', 'status', 'Discharging', 'energy_full', '60000000', 'energy_full_design', '80000000', 'energy_now', '48000000', 'voltage_now', '12000000'], []) self.testbed.add_device('virtual', 'virtual/dmi', None, ['id/product_name', 'MacBookAir7,2'], []) self.start_daemon() devs = self.proxy.EnumerateDevices() self.assertEqual(len(devs), 2) if 'BAT' in devs[0] == ac_up: (bat0_up, ac_up) = devs else: (ac_up, bat0_up) = devs self.assertEqual(self.get_dbus_dev_property(bat0_up, 'State'), UP_DEVICE_STATE_DISCHARGING) self.testbed.set_attribute(ac, 'online', '1') self.testbed.uevent(ac, 'change') self.assertEqual(self.get_dbus_dev_property(bat0_up, 'State'), UP_DEVICE_STATE_DISCHARGING) time.sleep(3) self.testbed.set_attribute(bat0, 'status', 'Charging') time.sleep(1) self.assertEqual(self.get_dbus_dev_property(bat0_up, 'State'), UP_DEVICE_STATE_CHARGING) def test_battery_ac(self): '''properties with dynamic battery/AC''' # offline AC + discharging battery ac = self.testbed.add_device('power_supply', 'AC', None, ['type', 'Mains', 'online', '0'], []) bat0 = self.testbed.add_device('power_supply', 'BAT0', None, ['type', 'Battery', 'present', '1', 'status', 'Discharging', 'energy_full', '60000000', 'energy_full_design', '80000000', 'energy_now', '48000000', 'voltage_now', '12000000'], []) self.start_daemon() devs = self.proxy.EnumerateDevices() self.assertEqual(len(devs), 2) if 'BAT' in devs[0] == ac_up: (bat0_up, ac_up) = devs else: (ac_up, bat0_up) = devs # we don't have any known online power device now, but still no battery self.assertEqual(self.get_dbus_property('OnBattery'), True) self.assertEqual(self.get_dbus_display_property('WarningLevel'), UP_DEVICE_LEVEL_NONE) self.assertEqual(self.get_dbus_dev_property(bat0_up, 'IsPresent'), True) self.assertEqual(self.get_dbus_dev_property(bat0_up, 'State'), UP_DEVICE_STATE_DISCHARGING) self.assertEqual(self.get_dbus_dev_property(bat0_up, 'Percentage'), 80.0) self.assertEqual(self.get_dbus_dev_property(bat0_up, 'Energy'), 48.0) self.assertEqual(self.get_dbus_dev_property(bat0_up, 'EnergyFull'), 60.0) self.assertEqual(self.get_dbus_dev_property(bat0_up, 'EnergyFullDesign'), 80.0) self.assertEqual(self.get_dbus_dev_property(bat0_up, 'Voltage'), 12.0) self.assertEqual(self.get_dbus_dev_property(bat0_up, 'NativePath'), 'BAT0') self.stop_daemon() # offline AC + discharging low battery self.testbed.set_attribute(bat0, 'energy_now', '1500000') self.start_daemon() self.assertEqual(self.get_dbus_property('OnBattery'), True) self.assertEqual(self.get_dbus_display_property('WarningLevel'), UP_DEVICE_LEVEL_CRITICAL) self.assertEqual(self.get_dbus_dev_property(bat0_up, 'IsPresent'), True) self.assertEqual(self.get_dbus_dev_property(bat0_up, 'State'), UP_DEVICE_STATE_DISCHARGING) self.assertEqual(self.get_dbus_dev_property(bat0_up, 'Percentage'), 2.5) self.assertEqual(self.get_dbus_dev_property(bat0_up, 'PowerSupply'), True) self.assertEqual(self.get_dbus_dev_property(bat0_up, 'Type'), 2) self.stop_daemon() # now connect AC again self.testbed.set_attribute(ac, 'online', '1') self.start_daemon() devs = self.proxy.EnumerateDevices() self.assertEqual(len(devs), 2) # we don't have any known online power device now, but still no battery self.assertEqual(self.get_dbus_property('OnBattery'), False) self.assertEqual(self.get_dbus_display_property('WarningLevel'), UP_DEVICE_LEVEL_NONE) self.assertEqual(self.get_dbus_dev_property(ac_up, 'Online'), True) self.stop_daemon() def test_multiple_batteries(self): '''Multiple batteries''' # one well charged, one low bat0 = self.testbed.add_device('power_supply', 'BAT0', None, ['type', 'Battery', 'present', '1', 'status', 'Discharging', 'energy_full', '60000000', 'energy_full_design', '80000000', 'energy_now', '48000000', 'voltage_now', '12000000'], []) self.testbed.add_device('power_supply', 'BAT1', None, ['type', 'Battery', 'present', '1', 'status', 'Discharging', 'energy_full', '60000000', 'energy_full_design', '80000000', 'energy_now', '1500000', 'voltage_now', '12000000'], []) self.start_daemon() devs = self.proxy.EnumerateDevices() self.assertEqual(len(devs), 2) # as we have one which is well-charged, the summary state is "not low # battery" self.assertEqual(self.get_dbus_property('OnBattery'), True) self.assertEqual(self.get_dbus_display_property('WarningLevel'), UP_DEVICE_LEVEL_NONE) self.stop_daemon() # now set both to low self.testbed.set_attribute(bat0, 'energy_now', '1500000') self.start_daemon() self.assertEqual(self.get_dbus_property('OnBattery'), True) self.assertEqual(self.get_dbus_display_property('WarningLevel'), UP_DEVICE_LEVEL_CRITICAL) self.stop_daemon() def test_unknown_battery_status_no_ac(self): '''Unknown battery charge status, no AC''' self.testbed.add_device('power_supply', 'BAT0', None, ['type', 'Battery', 'present', '1', 'status', 'unknown', 'energy_full', '60000000', 'energy_full_design', '80000000', 'energy_now', '48000000', 'voltage_now', '12000000'], []) # with no other power sources, the OnBattery value here is really # arbitrary, so don't test it. The only thing we know for sure is that # we aren't on low battery self.start_daemon() self.assertEqual(self.get_dbus_display_property('WarningLevel'), UP_DEVICE_LEVEL_NONE) self.stop_daemon() def test_unknown_battery_status_with_ac(self): '''Unknown battery charge status, with AC''' self.testbed.add_device('power_supply', 'BAT0', None, ['type', 'Battery', 'present', '1', 'status', 'unknown', 'energy_full', '60000000', 'energy_full_design', '80000000', 'energy_now', '48000000', 'voltage_now', '12000000'], []) ac = self.testbed.add_device('power_supply', 'AC', None, ['type', 'Mains', 'online', '0'], []) self.start_daemon() self.assertEqual(self.get_dbus_property('OnBattery'), True) self.assertEqual(self.get_dbus_display_property('WarningLevel'), UP_DEVICE_LEVEL_NONE) self.stop_daemon() self.testbed.set_attribute(ac, 'online', '1') self.start_daemon() self.assertEqual(self.get_dbus_property('OnBattery'), False) self.assertEqual(self.get_dbus_display_property('WarningLevel'), UP_DEVICE_LEVEL_NONE) self.stop_daemon() def test_display_pending_charge_one_battery(self): '''One battery pending-charge''' self.testbed.add_device('power_supply', 'BAT0', None, ['type', 'Battery', 'present', '1', 'status', 'Not charging', 'charge_full', '10500000', 'charge_full_design', '11000000', 'capacity', '40', 'voltage_now', '12000000'], []) self.start_daemon() devs = self.proxy.EnumerateDevices() self.assertEqual(len(devs), 1) self.assertEqual(self.get_dbus_display_property('State'), UP_DEVICE_STATE_PENDING_CHARGE) self.stop_daemon() def test_display_pending_charge_other_battery_discharging(self): '''One battery pending-charge and another one discharging''' self.testbed.add_device('power_supply', 'BAT0', None, ['type', 'Battery', 'present', '1', 'status', 'Not charging', 'charge_full', '10500000', 'charge_full_design', '11000000', 'capacity', '40', 'voltage_now', '12000000'], []) self.testbed.add_device('power_supply', 'BAT1', None, ['type', 'Battery', 'present', '1', 'status', 'Discharging', 'charge_full', '10500000', 'charge_full_design', '11000000', 'capacity', '40', 'voltage_now', '12000000'], []) self.start_daemon() devs = self.proxy.EnumerateDevices() self.assertEqual(len(devs), 2) self.assertEqual(self.get_dbus_display_property('State'), UP_DEVICE_STATE_DISCHARGING) self.stop_daemon() def test_display_pending_charge_other_battery_charging(self): '''One battery pending-charge and another one charging''' self.testbed.add_device('power_supply', 'BAT0', None, ['type', 'Battery', 'present', '1', 'status', 'Not charging', 'charge_full', '10500000', 'charge_full_design', '11000000', 'capacity', '40', 'voltage_now', '12000000'], []) self.testbed.add_device('power_supply', 'BAT1', None, ['type', 'Battery', 'present', '1', 'status', 'Charging', 'charge_full', '10500000', 'charge_full_design', '11000000', 'capacity', '40', 'voltage_now', '12000000'], []) self.start_daemon() devs = self.proxy.EnumerateDevices() self.assertEqual(len(devs), 2) self.assertEqual(self.get_dbus_display_property('State'), UP_DEVICE_STATE_CHARGING) self.stop_daemon() def test_battery_charge(self): '''battery which reports charge instead of energy energy_* is in uWh, while charge_* is in uAh. ''' self.testbed.add_device('power_supply', 'BAT0', None, ['type', 'Battery', 'present', '1', 'status', 'Discharging', 'charge_full', '10500000', 'charge_full_design', '11000000', 'charge_now', '7875000', 'current_now', '787000', 'voltage_now', '12000000'], []) self.start_daemon() devs = self.proxy.EnumerateDevices() self.assertEqual(len(devs), 1) bat0_up = devs[0] self.assertEqual(self.get_dbus_property('OnBattery'), True) self.assertEqual(self.get_dbus_display_property('WarningLevel'), UP_DEVICE_LEVEL_NONE) self.assertEqual(self.get_dbus_dev_property(bat0_up, 'IsPresent'), True) self.assertEqual(self.get_dbus_dev_property(bat0_up, 'State'), UP_DEVICE_STATE_DISCHARGING) self.assertEqual(self.get_dbus_dev_property(bat0_up, 'Percentage'), 75.0) self.assertEqual(self.get_dbus_dev_property(bat0_up, 'Energy'), 94.5) self.assertEqual(self.get_dbus_dev_property(bat0_up, 'EnergyFull'), 126.0) self.assertEqual(self.get_dbus_dev_property(bat0_up, 'EnergyFullDesign'), 132.0) self.assertEqual(self.get_dbus_dev_property(bat0_up, 'Voltage'), 12.0) self.assertEqual(self.get_dbus_dev_property(bat0_up, 'Temperature'), 0.0) self.stop_daemon() def test_battery_energy_charge_mixed(self): '''battery which reports current energy, but full charge''' self.testbed.add_device('power_supply', 'BAT0', None, ['type', 'Battery', 'present', '1', 'status', 'Discharging', 'charge_full', '10500000', 'charge_full_design', '11000000', 'energy_now', '50400000', 'voltage_now', '12000000'], []) self.start_daemon() devs = self.proxy.EnumerateDevices() self.assertEqual(len(devs), 1) bat0_up = devs[0] self.assertEqual(self.get_dbus_property('OnBattery'), True) self.assertEqual(self.get_dbus_display_property('WarningLevel'), UP_DEVICE_LEVEL_NONE) self.assertEqual(self.get_dbus_dev_property(bat0_up, 'IsPresent'), True) self.assertEqual(self.get_dbus_dev_property(bat0_up, 'State'), UP_DEVICE_STATE_DISCHARGING) self.assertEqual(self.get_dbus_dev_property(bat0_up, 'Energy'), 50.4) self.assertEqual(self.get_dbus_dev_property(bat0_up, 'EnergyFull'), 126.0) self.assertEqual(self.get_dbus_dev_property(bat0_up, 'EnergyFullDesign'), 132.0) self.assertEqual(self.get_dbus_dev_property(bat0_up, 'Voltage'), 12.0) self.assertEqual(self.get_dbus_dev_property(bat0_up, 'Percentage'), 40.0) self.stop_daemon() def test_battery_capacity_and_charge(self): '''battery which reports capacity and charge_full''' self.testbed.add_device('power_supply', 'BAT0', None, ['type', 'Battery', 'present', '1', 'status', 'Discharging', 'charge_full', '10500000', 'charge_full_design', '11000000', 'capacity', '40', 'voltage_now', '12000000'], []) self.start_daemon() devs = self.proxy.EnumerateDevices() self.assertEqual(len(devs), 1) bat0_up = devs[0] self.assertEqual(self.get_dbus_dev_property(bat0_up, 'Percentage'), 40.0) self.assertEqual(self.get_dbus_dev_property(bat0_up, 'IsPresent'), True) self.assertEqual(self.get_dbus_dev_property(bat0_up, 'State'), UP_DEVICE_STATE_DISCHARGING) self.assertEqual(self.get_dbus_dev_property(bat0_up, 'Energy'), 50.4) self.assertEqual(self.get_dbus_dev_property(bat0_up, 'EnergyFull'), 126.0) self.assertEqual(self.get_dbus_dev_property(bat0_up, 'EnergyFullDesign'), 132.0) self.assertEqual(self.get_dbus_dev_property(bat0_up, 'Voltage'), 12.0) self.assertEqual(self.get_dbus_dev_property(bat0_up, 'PowerSupply'), True) self.assertEqual(self.get_dbus_dev_property(bat0_up, 'Type'), 2) self.assertEqual(self.get_dbus_property('OnBattery'), True) self.assertEqual(self.get_dbus_display_property('WarningLevel'), UP_DEVICE_LEVEL_NONE) self.stop_daemon() def test_battery_overfull(self): '''battery which reports a > 100% percentage for a full battery''' self.testbed.add_device('power_supply', 'BAT0', None, ['type', 'Battery', 'present', '1', 'status', 'Full', 'capacity_level', 'Normal\n', 'current_now', '1000', 'charge_now', '11000000', 'charge_full', '10000000', 'charge_full_design', '11000000', 'capacity', '110', 'voltage_now', '12000000'], []) self.start_daemon() devs = self.proxy.EnumerateDevices() self.assertEqual(len(devs), 1) bat0_up = devs[0] # should clamp percentage self.assertEqual(self.get_dbus_dev_property(bat0_up, 'Percentage'), 100.0) self.assertEqual(self.get_dbus_dev_property(bat0_up, 'IsPresent'), True) self.assertEqual(self.get_dbus_dev_property(bat0_up, 'State'), UP_DEVICE_STATE_FULLY_CHARGED) self.assertEqual(self.get_dbus_dev_property(bat0_up, 'Energy'), 132.0) # should adjust EnergyFull to reality, not what the battery claims self.assertEqual(self.get_dbus_dev_property(bat0_up, 'EnergyFull'), 132.0) self.assertEqual(self.get_dbus_dev_property(bat0_up, 'EnergyFullDesign'), 132.0) self.assertEqual(self.get_dbus_dev_property(bat0_up, 'Voltage'), 12.0) self.assertEqual(self.get_dbus_dev_property(bat0_up, 'PowerSupply'), True) self.assertEqual(self.get_dbus_dev_property(bat0_up, 'Type'), 2) # capacity_level is unused because a 'capacity' attribute is present and used instead self.assertEqual(self.get_dbus_dev_property(bat0_up, 'BatteryLevel'), UP_DEVICE_LEVEL_NONE) self.stop_daemon() def test_battery_temperature(self): '''battery which reports temperature''' self.testbed.add_device('power_supply', 'BAT0', None, ['type', 'Battery', 'present', '1', 'status', 'Discharging', 'temp', '254', 'energy_full', '60000000', 'energy_full_design', '80000000', 'energy_now', '1500000', 'voltage_now', '12000000'], []) self.start_daemon() devs = self.proxy.EnumerateDevices() self.assertEqual(len(devs), 1) bat0_up = devs[0] self.assertEqual(self.get_dbus_dev_property(bat0_up, 'Temperature'), 25.4) self.assertEqual(self.get_dbus_dev_property(bat0_up, 'Percentage'), 2.5) self.assertEqual(self.get_dbus_dev_property(bat0_up, 'Energy'), 1.5) self.assertEqual(self.get_dbus_property('OnBattery'), True) self.assertEqual(self.get_dbus_display_property('WarningLevel'), UP_DEVICE_LEVEL_CRITICAL) self.stop_daemon() def test_battery_broken_name(self): '''Battery with funky kernel name''' self.testbed.add_device('power_supply', 'bq24735@5-0009', None, ['type', 'Battery', 'present', '1', 'status', 'unknown', 'energy_full', '60000000', 'energy_full_design', '80000000', 'energy_now', '48000000', 'voltage_now', '12000000'], []) self.start_daemon() self.assertEqual(self.get_dbus_display_property('IsPresent'), True) self.stop_daemon() def test_ups_no_ac(self): '''UPS properties without AC''' # add a charging UPS ups0 = self.testbed.add_device('usb', 'hiddev0', None, [], ['DEVNAME', 'null', 'UPOWER_VENDOR', 'APC', 'UPOWER_BATTERY_TYPE', 'ups', 'UPOWER_FAKE_DEVICE', '1', 'UPOWER_FAKE_HID_CHARGING', '1', 'UPOWER_FAKE_HID_PERCENTAGE', '70']) self.start_daemon() devs = self.proxy.EnumerateDevices() self.assertEqual(len(devs), 1) ups0_up = devs[0] self.assertEqual(self.get_dbus_dev_property(ups0_up, 'Vendor'), 'APC') self.assertEqual(self.get_dbus_dev_property(ups0_up, 'IsPresent'), True) self.assertEqual(self.get_dbus_dev_property(ups0_up, 'Percentage'), 70.0) self.assertEqual(self.get_dbus_dev_property(ups0_up, 'State'), UP_DEVICE_STATE_CHARGING) self.assertEqual(self.get_dbus_dev_property(ups0_up, 'PowerSupply'), True) self.assertEqual(self.get_dbus_dev_property(ups0_up, 'Type'), 3) self.assertEqual(self.get_dbus_property('OnBattery'), False) self.assertEqual(self.get_dbus_display_property('WarningLevel'), UP_DEVICE_LEVEL_NONE) self.stop_daemon() # now switch to discharging UPS self.testbed.set_property(ups0, 'UPOWER_FAKE_HID_CHARGING', '0') self.start_daemon() devs = self.proxy.EnumerateDevices() self.assertEqual(len(devs), 1) self.assertEqual(devs[0], ups0_up) self.assertEqual(self.get_dbus_dev_property(ups0_up, 'IsPresent'), True) self.assertEqual(self.get_dbus_dev_property(ups0_up, 'Percentage'), 70.0) self.assertEqual(self.get_dbus_dev_property(ups0_up, 'State'), UP_DEVICE_STATE_DISCHARGING) self.assertEqual(self.get_dbus_property('OnBattery'), True) self.assertEqual(self.get_dbus_display_property('WarningLevel'), UP_DEVICE_LEVEL_DISCHARGING) self.stop_daemon() # low UPS charge self.testbed.set_property(ups0, 'UPOWER_FAKE_HID_PERCENTAGE', '2') self.start_daemon() self.assertEqual(self.get_dbus_dev_property(ups0_up, 'Percentage'), 2.0) self.assertEqual(self.get_dbus_dev_property(ups0_up, 'State'), UP_DEVICE_STATE_DISCHARGING) self.assertEqual(self.get_dbus_property('OnBattery'), True) self.assertEqual(self.get_dbus_display_property('WarningLevel'), UP_DEVICE_LEVEL_ACTION) self.stop_daemon() def test_ups_offline_ac(self): '''UPS properties with offline AC''' # add low charge UPS ups0 = self.testbed.add_device('usb', 'hiddev0', None, [], ['DEVNAME', 'null', 'UPOWER_VENDOR', 'APC', 'UPOWER_BATTERY_TYPE', 'ups', 'UPOWER_FAKE_DEVICE', '1', 'UPOWER_FAKE_HID_CHARGING', '0', 'UPOWER_FAKE_HID_PERCENTAGE', '2']) # add an offline AC, should still be on battery ac = self.testbed.add_device('power_supply', 'AC', None, ['type', 'Mains', 'online', '0'], []) self.start_daemon() devs = self.proxy.EnumerateDevices() if 'AC' in devs[0]: ups0_up = devs[1] else: ups0_up = devs[0] self.assertEqual(len(devs), 2) self.assertEqual(self.get_dbus_dev_property(ups0_up, 'Percentage'), 2.0) self.assertEqual(self.get_dbus_dev_property(ups0_up, 'State'), UP_DEVICE_STATE_DISCHARGING) self.assertEqual(self.get_dbus_property('OnBattery'), True) self.assertEqual(self.get_dbus_display_property('WarningLevel'), UP_DEVICE_LEVEL_ACTION) self.stop_daemon() # now plug in the AC, should switch to OnBattery=False self.testbed.set_attribute(ac, 'online', '1') self.start_daemon() self.assertEqual(self.get_dbus_property('OnBattery'), False) # FIXME this is completely wrong # The AC status doesn't change anything, the AC is what powers the UPS # and the UPS powers the desktop # # A plugged in UPS is always the one supplying the computer self.assertEqual(self.get_dbus_display_property('WarningLevel'), UP_DEVICE_LEVEL_ACTION) self.stop_daemon() def test_refresh_after_sleep(self): '''sleep/wake cycle to check we properly refresh the batteries''' bat0 = self.testbed.add_device('power_supply', 'BAT0', None, ['type', 'Battery', 'present', '1', 'status', 'Discharging', 'energy_full', '60000000', 'energy_full_design', '80000000', 'energy_now', '48000000', 'voltage_now', '12000000'], []) self.start_logind() self.start_daemon() self.logind_obj.EmitSignal('', 'PrepareForSleep', 'b', [True]) self.assertEventually(lambda: self.have_text_in_log("Poll paused"), timeout=10) # simulate some battery drain during sleep for which we then # can check after we 'woke up' self.testbed.set_attribute(bat0, 'energy_now', '40000000') self.logind_obj.EmitSignal('', 'PrepareForSleep', 'b', [False]) self.assertEventually(lambda: self.have_text_in_log("Poll resumed"), timeout=10) devs = self.proxy.EnumerateDevices() self.assertEqual(len(devs), 1) bat0_up = devs[0] self.assertEqual(self.get_dbus_dev_property(bat0_up, 'Energy'), 40.0) self.stop_daemon() def test_critical_action_is_taken_repeatedly(self): '''check that critical action works repeatedly (eg. after resume)''' bat0 = self.testbed.add_device('power_supply', 'BAT0', None, ['type', 'Battery', 'present', '1', 'status', 'Discharging', 'energy_full', '60000000', 'energy_full_design', '80000000', 'energy_now', '50000000', 'voltage_now', '12000000'], []) config = tempfile.NamedTemporaryFile(delete=False, mode='w') config.write("[UPower]\n") config.write("UsePercentageForPolicy=true\n") config.write("PercentageAction=5\n") config.write("CriticalPowerAction=Hibernate\n") config.close() self.start_logind() self.start_daemon(cfgfile=config.name) devs = self.proxy.EnumerateDevices() self.assertEqual(len(devs), 1) bat0_up = devs[0] # simulate that battery has 1% (less than PercentageAction) self.testbed.set_attribute(bat0, 'energy_now', '600000') self.testbed.uevent(bat0, 'change') time.sleep(0.5) self.assertEqual(self.get_dbus_display_property('WarningLevel'), UP_DEVICE_LEVEL_ACTION) time.sleep(20.5) # wait for UP_DAEMON_ACTION_DELAY self.assertEqual(self.count_text_in_log("About to call logind method Hibernate"), 1) # simulate that battery was charged to 100% during sleep self.testbed.set_attribute(bat0, 'energy_now', '60000000') self.testbed.uevent(bat0, 'change') time.sleep(0.5) self.assertEqual(self.get_dbus_display_property('WarningLevel'), UP_DEVICE_LEVEL_NONE) # simulate that battery was drained to 1% again self.testbed.set_attribute(bat0, 'energy_now', '600000') self.testbed.uevent(bat0, 'change') time.sleep(0.5) self.assertEqual(self.get_dbus_display_property('WarningLevel'), UP_DEVICE_LEVEL_ACTION) time.sleep(20.5) # wait for UP_DAEMON_ACTION_DELAY self.assertEqual(self.count_text_in_log("About to call logind method Hibernate"), 2) self.stop_daemon() os.unlink(config.name) def test_no_poll_batteries(self): ''' setting NoPollBatteries option should disable polling''' self.testbed.add_device('power_supply', 'BAT0', None, ['type', 'Battery', 'present', '1', 'status', 'Discharging', 'energy_full', '60000000', 'energy_full_design', '80000000', 'energy_now', '48000000', 'voltage_now', '12000000'], []) config = tempfile.NamedTemporaryFile(delete=False, mode='w') config.write("[UPower]\n") config.write("NoPollBatteries=true\n") config.close() self.start_logind() self.start_daemon(cfgfile=config.name) devs = self.proxy.EnumerateDevices() self.assertEqual(len(devs), 1) self.logind_obj.EmitSignal('', 'PrepareForSleep', 'b', [True]) self.assertEventually(lambda: self.have_text_in_log("Polling will be paused"), timeout=10) self.logind_obj.EmitSignal('', 'PrepareForSleep', 'b', [False]) self.assertEventually(lambda: self.have_text_in_log("Polling will be resumed"), timeout=10) self.stop_daemon() # Now make sure we don't have any actual polling setup for the battery self.assertFalse(self.have_text_in_log("Setup poll for")) self.assertFalse(self.have_text_in_log("Poll paused for")) self.assertFalse(self.have_text_in_log("Poll resumed for")) os.unlink(config.name) def test_vendor_strings(self): '''manufacturer/model_name/serial_number with valid and invalid strings''' bat0 = self.testbed.add_device('power_supply', 'BAT0', None, ['type', 'Battery', 'present', '1', 'status', 'Discharging', 'energy_full', '60000000', 'energy_full_design', '80000000', 'energy_now', '1500000', 'voltage_now', '12000000', # valid ASCII string 'serial_number', '123ABC', # valid UTF-8 string 'manufacturer', '⍾ Batt Inc. ☢'], []) # string with invalid chars self.testbed.set_attribute_binary(bat0, 'model_name', b'AB\xFFC12\x013') self.start_daemon() devs = self.proxy.EnumerateDevices() self.assertEqual(len(devs), 1) bat0_up = devs[0] self.assertEqual(self.get_dbus_dev_property(bat0_up, 'Serial'), '123ABC') self.assertEqual(self.get_dbus_dev_property(bat0_up, 'Vendor'), '⍾ Batt Inc. ☢') self.assertEqual(self.get_dbus_dev_property(bat0_up, 'Model'), 'ABC123') self.assertEqual(self.get_dbus_dev_property(bat0_up, 'Energy'), 1.5) self.stop_daemon() def _add_bt_mouse(self): '''Add a bluetooth mouse to testbed''' self.testbed.add_device('bluetooth', 'usb1/bluetooth/hci0/hci0:01', None, [], []) self.testbed.add_device( 'input', 'usb1/bluetooth/hci0/hci0:01/input2/mouse3', None, [], ['DEVNAME', 'input/mouse3', 'ID_INPUT_MOUSE', '1']) mousebat0 = self.testbed.add_device( 'power_supply', 'usb1/bluetooth/hci0/hci0:01/1/power_supply/hid-00:11:22:33:44:55-battery', None, ['type', 'Battery', 'scope', 'Device', 'present', '1', 'online', '1', 'status', 'Discharging', 'capacity', '30', 'model_name', 'Fancy BT mouse'], []) return mousebat0 def test_bluetooth_mouse(self): '''bluetooth mouse battery''' self._add_bt_mouse() self.start_daemon() devs = self.proxy.EnumerateDevices() self.assertEqual(len(devs), 1) mousebat0_up = devs[0] self.assertEqual(self.get_dbus_dev_property(mousebat0_up, 'Model'), 'Fancy BT mouse') self.assertEqual(self.get_dbus_dev_property(mousebat0_up, 'Percentage'), 30) self.assertEqual(self.get_dbus_dev_property(mousebat0_up, 'PowerSupply'), False) self.assertEqual(self.get_dbus_dev_property(mousebat0_up, 'Type'), UP_DEVICE_KIND_MOUSE) self.assertEqual(self.get_dbus_property('OnBattery'), False) self.assertEqual(self.get_dbus_display_property('WarningLevel'), UP_DEVICE_LEVEL_NONE) self.stop_daemon() def test_bluetooth_mouse_reconnect(self): '''bluetooth mouse powerdown/reconnect''' mb = self._add_bt_mouse() self.start_daemon() devs_before = self.proxy.EnumerateDevices() self.assertEqual(len(devs_before), 1) self.testbed.uevent(mb, 'remove') time.sleep(1) self.assertEqual(self.proxy.EnumerateDevices(), []) self.testbed.uevent(mb, 'add') time.sleep(0.5) devs_after = self.proxy.EnumerateDevices() self.assertEqual(devs_before, devs_after) # second add, which should be treated as change self.testbed.uevent(mb, 'add') time.sleep(0.5) devs_after = self.proxy.EnumerateDevices() self.assertEqual(devs_before, devs_after) # with BT devices, original devices don't get removed on powerdown, but # on wakeup we'll get a new one which ought to replace the previous; # emulate that kernel bug os.unlink(os.path.join(self.testbed.get_sys_dir(), 'class', 'power_supply', 'hid-00:11:22:33:44:55-battery')) mb1 = self.testbed.add_device( 'power_supply', 'usb1/bluetooth/hci0/hci0:01/2/power_supply/hid-00:11:22:33:44:55-battery', None, ['type', 'Battery', 'scope', 'Device', 'present', '1', 'online', '1', 'status', 'Discharging', 'capacity', '30', 'model_name', 'Fancy BT mouse'], []) self.testbed.uevent(mb1, 'add') time.sleep(0.5) devs_after = self.proxy.EnumerateDevices() self.assertEqual(devs_before, devs_after) mb1_up = devs_after[0] self.assertEqual(self.get_dbus_dev_property(mb1_up, 'Model'), 'Fancy BT mouse') self.assertEqual(self.get_dbus_dev_property(mb1_up, 'Percentage'), 30) self.assertEqual(self.get_dbus_dev_property(mb1_up, 'PowerSupply'), False) self.stop_daemon() def test_hidpp_mouse(self): '''HID++ mouse battery''' dev = self.testbed.add_device('hid', '/devices/pci0000:00/0000:00:14.0/usb3/3-10/3-10:1.2/0003:046D:C52B.0009/0003:046D:4101.000A', None, [], []) parent = dev self.testbed.add_device( 'input', '/devices/pci0000:00/0000:00:14.0/usb3/3-10/3-10:1.2/0003:046D:C52B.0009/0003:046D:4101.000A/input/input22', parent, [], ['DEVNAME', 'input/mouse3', 'ID_INPUT_MOUSE', '1']) self.testbed.add_device( 'power_supply', '/devices/pci0000:00/0000:00:14.0/usb3/3-10/3-10:1.2/0003:046D:C52B.0009/0003:046D:4101.000A/power_supply/hidpp_battery_3', parent, ['type', 'Battery', 'scope', 'Device', 'present', '1', 'online', '1', 'status', 'Discharging', 'capacity', '30', 'serial_number', '123456', 'model_name', 'Fancy Logitech mouse'], []) self.start_daemon() devs = self.proxy.EnumerateDevices() self.assertEqual(len(devs), 1) mousebat0_up = devs[0] self.assertEqual(self.get_dbus_dev_property(mousebat0_up, 'Model'), 'Fancy Logitech mouse') self.assertEqual(self.get_dbus_dev_property(mousebat0_up, 'Percentage'), 30) self.assertEqual(self.get_dbus_dev_property(mousebat0_up, 'PowerSupply'), False) self.assertEqual(self.get_dbus_dev_property(mousebat0_up, 'Type'), UP_DEVICE_KIND_MOUSE) self.assertEqual(self.get_dbus_dev_property(mousebat0_up, 'Serial'), '123456') self.assertEqual(self.get_dbus_property('OnBattery'), False) self.assertEqual(self.get_dbus_display_property('WarningLevel'), UP_DEVICE_LEVEL_NONE) self.stop_daemon() def test_usb_joypad(self): '''DualShock 4 joypad connected via USB''' dev = self.testbed.add_device('usb', '/devices/pci0000:00/0000:00:14.0/usb3/3-9', None, [], []) parent = dev self.testbed.add_device( 'input', '/devices/pci0000:00/0000:00:14.0/usb3/3-9/3-9:1.3/0003:054C:09CC.0007/input/input51', parent, ['name', 'Sony Interactive Entertainment Wireless Controller', 'uniq', 'ff:ff:ff:ff:ff:ff'], ['ID_INPUT', '1', 'ID_INPUT_JOYSTICK', '1']) dev = self.testbed.add_device( 'power_supply', '/devices/pci0000:00/0000:00:14.0/usb3/3-9/3-9:1.3/0003:054C:09CC.0007/power_supply/sony_controller_battery_ff:ff:ff:ff:ff:ff', parent, ['type', 'Battery', 'scope', 'Device', 'present', '1', 'status', 'Charging', 'capacity', '20',], []) self.start_daemon() devs = self.proxy.EnumerateDevices() self.assertEqual(len(devs), 1) joypadbat0_up = devs[0] self.assertEqual(self.get_dbus_dev_property(joypadbat0_up, 'Model'), 'Sony Interactive Entertainment Wireless Controller') self.assertEqual(self.get_dbus_dev_property(joypadbat0_up, 'Serial'), 'ff:ff:ff:ff:ff:ff') self.assertEqual(self.get_dbus_dev_property(joypadbat0_up, 'PowerSupply'), False) # 12 == gaming input self.assertEqual(self.get_dbus_dev_property(joypadbat0_up, 'Type'), 12) self.assertEqual(self.get_dbus_property('OnBattery'), False) self.assertEqual(self.get_dbus_display_property('WarningLevel'), UP_DEVICE_LEVEL_NONE) def test_hidpp_touchpad(self): '''HID++ touchpad battery with 5 capacity levels''' dev = self.testbed.add_device('hid', '/devices/pci0000:00/0000:00:14.0/usb3/3-10/3-10:1.2/0003:046D:C52B.0009/0003:046D:4101.000A', None, [], []) parent = dev self.testbed.add_device( 'input', '/devices/pci0000:00/0000:00:14.0/usb3/3-10/3-10:1.2/0003:046D:C52B.0009/0003:046D:4101.000A/input/input22', parent, [], ['DEVNAME', 'input/mouse3', 'ID_INPUT_TOUCHPAD', '1']) dev = self.testbed.add_device( 'power_supply', '/devices/pci0000:00/0000:00:14.0/usb3/3-10/3-10:1.2/0003:046D:C52B.0009/0003:046D:4101.000A/power_supply/hidpp_battery_3', parent, ['type', 'Battery', 'scope', 'Device', 'present', '1', 'online', '1', 'status', 'Discharging', 'capacity_level', 'Full\n', 'serial_number', '123456', 'model_name', 'Logitech T650'], []) self.start_daemon() devs = self.proxy.EnumerateDevices() self.assertEqual(len(devs), 1) mousebat0_up = devs[0] self.assertEqual(self.get_dbus_dev_property(mousebat0_up, 'Model'), 'Logitech T650') self.assertEqual(self.get_dbus_dev_property(mousebat0_up, 'PowerSupply'), False) # 5 == mouse self.assertEqual(self.get_dbus_dev_property(mousebat0_up, 'Type'), 5) self.assertEqual(self.get_dbus_dev_property(mousebat0_up, 'Serial'), '123456') self.assertEqual(self.get_dbus_property('OnBattery'), False) self.assertEqual(self.get_dbus_display_property('WarningLevel'), UP_DEVICE_LEVEL_NONE) # Now test all the levels self.assertEqual(self.get_dbus_dev_property(mousebat0_up, 'Percentage'), 100) self.assertEqual(self.get_dbus_dev_property(mousebat0_up, 'BatteryLevel'), UP_DEVICE_LEVEL_FULL) self.testbed.set_attribute(dev, 'capacity_level', 'Critical\n') self.testbed.uevent(dev, 'change') time.sleep(0.5) self.assertEqual(self.get_dbus_dev_property(mousebat0_up, 'Percentage'), 5) self.assertEqual(self.get_dbus_dev_property(mousebat0_up, 'BatteryLevel'), UP_DEVICE_LEVEL_CRITICAL) self.assertEqual(self.get_dbus_dev_property(mousebat0_up, 'WarningLevel'), UP_DEVICE_LEVEL_CRITICAL) self.testbed.set_attribute(dev, 'capacity_level', 'Low\n') self.testbed.uevent(dev, 'change') time.sleep(0.5) self.assertEqual(self.get_dbus_dev_property(mousebat0_up, 'Percentage'), 10) self.assertEqual(self.get_dbus_dev_property(mousebat0_up, 'BatteryLevel'), UP_DEVICE_LEVEL_LOW) self.assertEqual(self.get_dbus_dev_property(mousebat0_up, 'WarningLevel'), UP_DEVICE_LEVEL_LOW) self.testbed.set_attribute(dev, 'capacity_level', 'High\n') self.testbed.uevent(dev, 'change') time.sleep(0.5) self.assertEqual(self.get_dbus_dev_property(mousebat0_up, 'Percentage'), 70) self.assertEqual(self.get_dbus_dev_property(mousebat0_up, 'BatteryLevel'), UP_DEVICE_LEVEL_HIGH) self.testbed.set_attribute(dev, 'capacity_level', 'Normal\n') self.testbed.uevent(dev, 'change') time.sleep(0.5) self.assertEqual(self.get_dbus_dev_property(mousebat0_up, 'Percentage'), 55) self.assertEqual(self.get_dbus_dev_property(mousebat0_up, 'BatteryLevel'), UP_DEVICE_LEVEL_NORMAL) self.testbed.set_attribute(dev, 'capacity_level', 'Unknown\n') self.testbed.set_attribute(dev, 'status', 'Charging\n') self.testbed.uevent(dev, 'change') time.sleep(0.5) self.assertEqual(self.get_dbus_dev_property(mousebat0_up, 'Percentage'), 50.0) self.assertEqual(self.get_dbus_dev_property(mousebat0_up, 'BatteryLevel'), UP_DEVICE_LEVEL_UNKNOWN) self.assertEqual(self.get_dbus_dev_property(mousebat0_up, 'State'), UP_DEVICE_STATE_CHARGING) self.assertEqual(self.get_dbus_dev_property(mousebat0_up, 'IconName'), 'battery-good-charging-symbolic') self.testbed.set_attribute(dev, 'capacity_level', 'Full\n') self.testbed.set_attribute(dev, 'status', 'Full\n') self.testbed.uevent(dev, 'change') time.sleep(0.5) self.assertEqual(self.get_dbus_dev_property(mousebat0_up, 'Percentage'), 100) self.assertEqual(self.get_dbus_dev_property(mousebat0_up, 'BatteryLevel'), UP_DEVICE_LEVEL_FULL) self.assertEqual(self.get_dbus_dev_property(mousebat0_up, 'State'), UP_DEVICE_STATE_FULLY_CHARGED) self.assertEqual(self.get_dbus_dev_property(mousebat0_up, 'IconName'), 'battery-full-charged-symbolic') self.stop_daemon() def test_bluetooth_hid_mouse(self): '''bluetooth HID mouse battery''' dev = self.testbed.add_device( 'bluetooth', '/devices/pci0000:00/0000:00:14.0/usb2/2-7/2-7:1.0/bluetooth/hci0', None, [], []) parent = dev dev = self.testbed.add_device( 'bluetooth', 'hci0:256', parent, [], ['DEVTYPE', 'link']) parent = dev dev = self.testbed.add_device( 'hid', '0005:046D:B00D.0002', parent, [], ['HID_NAME', 'Fancy BT Mouse']) parent = dev self.testbed.add_device( 'power_supply', 'power_supply/hid-00:1f:20:96:33:47-battery', parent, ['type', 'Battery', 'scope', 'Device', 'present', '1', 'online', '1', 'status', 'Discharging', 'capacity', '30', 'model_name', 'Fancy BT mouse'], []) dev = self.testbed.add_device( 'input', 'input/input22', parent, [], ['ID_INPUT_MOUSE', '1']) parent = dev self.testbed.add_device( 'input', 'mouse1', parent, [], ['ID_INPUT_MOUSE', '1']) self.start_daemon() devs = self.proxy.EnumerateDevices() self.assertEqual(len(devs), 1) mousebat0_up = devs[0] self.assertEqual(self.get_dbus_dev_property(mousebat0_up, 'Model'), 'Fancy BT mouse') self.assertEqual(self.get_dbus_dev_property(mousebat0_up, 'Percentage'), 30) self.assertEqual(self.get_dbus_dev_property(mousebat0_up, 'PowerSupply'), False) self.assertEqual(self.get_dbus_dev_property(mousebat0_up, 'Type'), UP_DEVICE_KIND_MOUSE) self.assertEqual(self.get_dbus_property('OnBattery'), False) self.assertEqual(self.get_dbus_display_property('WarningLevel'), UP_DEVICE_LEVEL_NONE) self.stop_daemon() def test_virtual_unparented_device(self): '''Unparented virtual input device''' dev = self.testbed.add_device( 'input', 'virtual/input/input18', None, [], []) acpi = self.testbed.add_device('acpi', 'PNP0C0A:00', None, [], []) bat0 = self.testbed.add_device('power_supply', 'BAT0', acpi, ['type', 'Battery', 'present', '1', 'status', 'Discharging', 'energy_full', '60000000', 'energy_full_design', '80000000', 'energy_now', '48000000', 'voltage_now', '12000000'], []) # Generated a critical in older versions of upower self.start_daemon() devs = self.proxy.EnumerateDevices() self.stop_daemon() def test_bluetooth_hid_mouse_no_legacy_subdevice(self): '''bluetooth HID mouse battery''' dev = self.testbed.add_device( 'bluetooth', '/devices/pci0000:00/0000:00:14.0/usb2/2-7/2-7:1.0/bluetooth/hci0', None, [], []) parent = dev dev = self.testbed.add_device( 'bluetooth', 'hci0:256', parent, [], ['DEVTYPE', 'link']) parent = dev dev = self.testbed.add_device( 'hid', '0005:046D:B00D.0002', parent, [], ['HID_NAME', 'Fancy BT Mouse']) parent = dev self.testbed.add_device( 'power_supply', 'power_supply/hid-00:1f:20:96:33:47-battery', parent, ['type', 'Battery', 'scope', 'Device', 'present', '1', 'online', '1', 'status', 'Discharging', 'capacity', '30', 'model_name', 'Fancy BT mouse'], []) self.testbed.add_device( 'input', 'input/input22', parent, [], ['ID_INPUT_MOUSE', '1']) self.start_daemon() devs = self.proxy.EnumerateDevices() self.assertEqual(len(devs), 1) mousebat0_up = devs[0] self.assertEqual(self.get_dbus_dev_property(mousebat0_up, 'Model'), 'Fancy BT mouse') self.assertEqual(self.get_dbus_dev_property(mousebat0_up, 'Percentage'), 30) self.assertEqual(self.get_dbus_dev_property(mousebat0_up, 'PowerSupply'), False) self.assertEqual(self.get_dbus_dev_property(mousebat0_up, 'Type'), UP_DEVICE_KIND_MOUSE) self.assertEqual(self.get_dbus_property('OnBattery'), False) self.assertEqual(self.get_dbus_display_property('WarningLevel'), UP_DEVICE_LEVEL_NONE) self.stop_daemon() def test_bluetooth_keyboard(self): '''bluetooth keyboard battery''' dev = self.testbed.add_device('bluetooth', 'usb2/bluetooth/hci0/hci0:1', None, [], []) parent = dev self.testbed.add_device( 'input', 'input3/event4', parent, [], ['DEVNAME', 'input/event4', 'ID_INPUT_KEYBOARD', '1']) self.testbed.add_device( 'power_supply', 'power_supply/hid-00:22:33:44:55:66-battery', parent, ['type', 'Battery', 'scope', 'Device', 'present', '1', 'online', '1', 'status', 'Discharging', 'capacity', '40', 'model_name', 'Monster Typist'], []) self.start_daemon() devs = self.proxy.EnumerateDevices() self.assertEqual(len(devs), 1) kbdbat0_up = devs[0] self.assertEqual(self.get_dbus_dev_property(kbdbat0_up, 'Model'), 'Monster Typist') self.assertEqual(self.get_dbus_dev_property(kbdbat0_up, 'Percentage'), 40) self.assertEqual(self.get_dbus_dev_property(kbdbat0_up, 'PowerSupply'), False) self.assertEqual(self.get_dbus_dev_property(kbdbat0_up, 'Type'), UP_DEVICE_KIND_KEYBOARD) self.assertEqual(self.get_dbus_property('OnBattery'), False) self.assertEqual(self.get_dbus_display_property('WarningLevel'), UP_DEVICE_LEVEL_NONE) self.stop_daemon() def test_bluetooth_le_mouse(self): '''Bluetooth LE mouse''' self.start_bluez() # Add an adapter to both bluez and udev adapter_name = 'hci0' path = self.bluez_obj.AddAdapter(adapter_name, 'my-computer') self.assertEqual(path, '/org/bluez/' + adapter_name) dev = self.testbed.add_device('bluetooth', 'usb2/bluetooth/hci0/hci0:1', None, [], []) # Add a device to both bluez and udev address = '11:22:33:44:55:66' alias = 'Arc Touch Mouse SE' path = self.bluez_obj.AddDevice(adapter_name, address, alias) device = self.dbus_con.get_object('org.bluez', path) device.AddProperties(DEVICE_IFACE, { 'Appearance': dbus.UInt16(0x03c2, variant_level=1) }) properties = { 'Percentage': dbus.Byte(99, variant_level=1), } device.AddProperties(BATTERY_IFACE, properties) parent = dev self.testbed.add_device( 'input', 'input3/event4', parent, [], ['DEVNAME', 'input/event4', 'ID_INPUT_MOUSE', '1']) self.start_daemon() # process = subprocess.Popen(['gdbus', 'introspect', '--system', '--dest', 'org.bluez', '--object-path', '/org/bluez/hci0/dev_11_22_33_44_55_66']) # Wait for UPower to process the new device time.sleep(0.5) devs = self.proxy.EnumerateDevices() self.assertEqual(len(devs), 1) mouse_bat0_up = devs[0] self.assertEqual(self.get_dbus_dev_property(mouse_bat0_up, 'Model'), 'Arc Touch Mouse SE') self.assertEqual(self.get_dbus_dev_property(mouse_bat0_up, 'Percentage'), 99) self.assertEqual(self.get_dbus_dev_property(mouse_bat0_up, 'PowerSupply'), False) self.assertEqual(self.get_dbus_dev_property(mouse_bat0_up, 'Type'), UP_DEVICE_KIND_MOUSE) self.stop_daemon() # # libupower-glib tests (through introspection) # def test_lib_daemon_properties(self): '''library GI: daemon properties''' self.start_logind(parameters={'CanHybridSleep': 'yes'}) self.start_daemon() client = UPowerGlib.Client.new() self.assertRegex(client.get_daemon_version(), '^[0-9.]+$') self.assertIn(client.get_lid_is_present(), [False, True]) self.assertIn(client.get_lid_is_closed(), [False, True]) self.assertEqual(client.get_on_battery(), False) self.assertEqual(client.get_critical_action(), 'HybridSleep') self.stop_daemon() # # Helper methods # @classmethod def _props_to_str(cls, properties): '''Convert a properties dictionary to uevent text representation.''' prop_str = '' if properties: for k, v in properties.items(): prop_str += '%s=%s\n' % (k, v) return prop_str if __name__ == '__main__': # run ourselves under umockdev if 'umockdev' not in os.environ.get('LD_PRELOAD', ''): os.execvp('umockdev-wrapper', ['umockdev-wrapper'] + sys.argv) unittest.main()