client/site_tests/cellular_ActivateLTE/cellular_ActivateLTE.py - mirrors/cros/chromiumos/third_party/autotest - Git at Google

 # 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.

 import dbus
 import logging
 import os
 import time

 from autotest_lib.client.bin import test
 from autotest_lib.client.bin import utils
 from autotest_lib.client.common_lib import error
 from autotest_lib.client.cros.cellular import mm1_constants
 from autotest_lib.client.cros.cellular import test_environment
 from autotest_lib.client.cros.networking import pm_proxy

 I_ACTIVATION_TEST = 'Interface.LTEActivationTest'
 TEST_MODEMS_MODULE_PATH = os.path.join(os.path.dirname(__file__), 'files',
                                        'modems.py')

 LONG_TIMEOUT = 20
 SHORT_TIMEOUT = 10

 class ActivationTest(object):
     """
     Super class that implements setup code that is common to the individual
     tests.

     """
     def __init__(self, test):
         self.test = test


     def Cleanup(self):
         """
         Makes the modem look like it has been activated to satisfy the test
         end condition.

         """
         # Set the MDN to a non-zero value, so that shill removes the ICCID from
         # activating_iccid_store.profile. This way, individual test runs won't
         # interfere with each other.
         modem = self.test.pseudomm.wait_for_modem(timeout_seconds=LONG_TIMEOUT)
         modem.iface_properties.Set(mm1_constants.I_MODEM,
                                    'OwnNumbers',
                                    ['1111111111'])
         # Put the modem in the unknown subscription state so that the mdn value is
         # used to remove the iccid entry
         self.test.pseudomm.iface_testing.SetSubscriptionState(
                 mm1_constants.MM_MODEM_3GPP_SUBSCRIPTION_STATE_UNKNOWN,
                 mm1_constants.MM_MODEM_3GPP_SUBSCRIPTION_STATE_UNKNOWN)
         time.sleep(5)
         self.test.CheckServiceActivationState('activated')


     def Run(self):
         """
         Configures the pseudomodem to run with the test modem, runs the test
         and cleans up.

         """
         self.RunTest()
         self.Cleanup()


     def TestModemClass(self):
         """ Returns the name of the custom modem to use for this test. """
         raise NotImplementedError()


     def RunTest(self):
         """
         Runs the body of the test. Should be implemented by the subclass.

         """
         raise NotImplementedError()


 class ActivationResetTest(ActivationTest):
     """
     This test verifies that the modem resets after online payment.

     """
     def TestModemClass(self):
         return 'TestModem'


     def RunTest(self):
         # Service should appear as 'not-activated'.
         self.test.CheckServiceActivationState('not-activated')
         self.test.CheckResetCalled(False)

         # Call 'CompleteActivation' on the device. The service will become
         # 'activating' and the modem should reset immediately.
         # Not checking for the intermediate 'activating' state because it makes
         # the test too fragile
         service = self.test.FindCellularService()
         service.CompleteCellularActivation()
         time.sleep(SHORT_TIMEOUT)
         self.test.CheckResetCalled(True)


 class ActivationCompleteTest(ActivationTest):
     """
     This test verifies that the service eventually becomes 'activated' in the
     case of a post-payment registration and the modem finally registers
     to a network after a reset.

     """
     def TestModemClass(self):
         return 'ResetRequiredForActivationModem'


     def RunTest(self):
         # Service should appear as 'not-activated'.
         self.test.CheckServiceActivationState('not-activated')
         self.test.CheckResetCalled(False)

         # Call 'CompleteActivation' on the device. The service will become
         # 'activating' and the modem should reset immediately.
         # Not checking for the intermediate 'activating' state because it makes
         # the test too fragile
         service = self.test.FindCellularService()
         service.CompleteCellularActivation()
         time.sleep(SHORT_TIMEOUT)
         self.test.CheckResetCalled(True)

         # The service should register and be marked as 'activated'.
         self.test.CheckServiceActivationState('activated')


 class ActivationDueToMdnTest(ActivationTest):
     """
     This test verifies that a valid MDN should cause the service to get marked
     as 'activated' when the modem is in unknown subscription state.

     """
     def TestModemClass(self):
         return 'TestModem'


     def RunTest(self):
         # Service should appear as 'not-activated'.
         self.test.CheckServiceActivationState('not-activated')

         # Update the MDN. The service should get marked as activated.
         modem = self.test.pseudomm.get_modem()
         modem.iface_properties.Set(mm1_constants.I_MODEM,
                                    'OwnNumbers',
                                    ['1111111111'])
         # Put the modem in the unknown subscription state so that the mdn value is
         # used to determine the service activation status.
         self.test.pseudomm.iface_testing.SetSubscriptionState(
                 mm1_constants.MM_MODEM_3GPP_SUBSCRIPTION_STATE_UNKNOWN,
                 mm1_constants.MM_MODEM_3GPP_SUBSCRIPTION_STATE_UNKNOWN)
         time.sleep(SHORT_TIMEOUT)
         self.test.CheckServiceActivationState('activated')


 class cellular_ActivateLTE(test.test):
     """
     After an online payment to activate a network, shill keeps track of service
     activation by monitoring changes to network registration and MDN updates
     combined with a modem reset. The test checks that the
     Cellular.ActivationState property of the service has the correct value
     associated with it by simulating possible scenarios using the pseudo modem
     manager.

     """
     version = 1

     def GetModemState(self):
         """Returns the current ModemManager modem state."""
         modem = self.pseudomm.get_modem()
         props = modem.properties(mm1_constants.I_MODEM)
         return props['State']


     def SetResetCalled(self, value):
         """
         Sets the value of the "ResetCalled" property of the current
         modem.

         @param value: Value to set in the property.

         """
         modem = self.pseudomm.get_modem()
         if modem is None:
             return
         modem.iface_properties.Set(
                 I_ACTIVATION_TEST,
                 'ResetCalled',
                 dbus.types.Boolean(value))


     def GetResetCalled(self, modem):
         """
         Returns the current value of the "ResetCalled" property of the current
         modem.

         @param modem: Modem proxy to send the query to.

         """
         return modem.properties(I_ACTIVATION_TEST)['ResetCalled']


     def _CheckResetCalledHelper(self, expected_value):
         modem = self.pseudomm.get_modem()
         if modem is None:
             return False
         try:
             return self.GetResetCalled(modem) == expected_value
         except dbus.exceptions.DBusException as e:
             name = e.get_dbus_name()
             if (name == mm1_constants.DBUS_UNKNOWN_METHOD or
                 name == mm1_constants.DBUS_UNKNOWN_OBJECT):
                 return False
             raise e


     def CheckResetCalled(self, expected_value):
         """
         Checks that the ResetCalled property on the modem matches the expect
         value.

         @param expected_value: The expected value of ResetCalled.

         """
         utils.poll_for_condition(
             lambda: self._CheckResetCalledHelper(expected_value),
             exception=error.TestFail("\"ResetCalled\" did not match: " +
                                      str(expected_value)),
             timeout=LONG_TIMEOUT)


     def EnsureModemStateReached(self, expected_state, timeout):
         """
         Asserts that the underlying modem state becomes |expected_state| within
         |timeout|.

         @param expected_state: The expected modem state.
         @param timeout: Timeout in which the condition should be met.

         """
         utils.poll_for_condition(
                 lambda: self.GetModemState() == expected_state,
                 exception=error.TestFail(
                         'Modem failed to reach state ' +
                         mm1_constants.ModemStateToString(expected_state)),
                 timeout=timeout)


     def CheckServiceActivationState(self, expected_state):
         """
         Asserts that the service activation state matches |expected_state|
         within SHORT_TIMEOUT.

         @param expected_state: The expected service activation state.

         """
         logging.info('Checking for service activation state: %s',
                      expected_state)
         service = self.FindCellularService()
         success, state, duration = self.test_env.shill.wait_for_property_in(
             service,
             'Cellular.ActivationState',
             [expected_state],
             SHORT_TIMEOUT)
         if not success and state != expected_state:
             raise error.TestError(
                 'Service activation state should be \'%s\', but it is \'%s\'.'
                 % (expected_state, state))


     def FindCellularService(self, check_not_none=True):
         """
         Returns the current cellular service.

         @param check_not_none: If True, an error will be raised if no service
                 was found.

         """
         if check_not_none:
             utils.poll_for_condition(
                     lambda: (self.test_env.shill.find_cellular_service_object()
                              is not None),
                     exception=error.TestError(
                             'Could not find cellular service within timeout.'),
                     timeout=LONG_TIMEOUT);

         service = self.test_env.shill.find_cellular_service_object()

         # Check once more, to make sure it's valid.
         if check_not_none and not service:
             raise error.TestError('Could not find cellular service.')
         return service


     def FindCellularDevice(self):
         """Returns the current cellular device."""
         device = self.test_env.shill.find_cellular_device_object()
         if not device:
             raise error.TestError('Could not find cellular device.')
         return device


     def ResetCellularDevice(self):
         """
         Resets all modems, guaranteeing that the operation succeeds and doesn't
         fail due to race conditions in pseudomodem start-up and test execution.

         """
         self.EnsureModemStateReached(
                 mm1_constants.MM_MODEM_STATE_ENABLED, SHORT_TIMEOUT)
         self.test_env.shill.reset_modem(self.FindCellularDevice())
         self.EnsureModemStateReached(
                 mm1_constants.MM_MODEM_STATE_ENABLED, SHORT_TIMEOUT)


     def run_once(self):
         tests = [
             ActivationResetTest(self),
             ActivationCompleteTest(self),
             ActivationDueToMdnTest(self),
         ]

         for test in tests:
             self.test_env = test_environment.CellularPseudoMMTestEnvironment(
                     pseudomm_args = ({'family' : '3GPP',
                                       'test-module' : TEST_MODEMS_MODULE_PATH,
                                       'test-modem-class' : test.TestModemClass(),
                                       'test-sim-class' : 'TestSIM'},))
             with self.test_env:
                 self.pseudomm = pm_proxy.PseudoMMProxy.get_proxy()
                 # Set the reset flag to False explicitly before each test
                 # sequence starts to ignore the reset as a part of the test init
                 self.SetResetCalled(False)
                 test.Run()
	# 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.

	import dbus
	import logging
	import os
	import time

	from autotest_lib.client.bin import test
	from autotest_lib.client.bin import utils
	from autotest_lib.client.common_lib import error
	from autotest_lib.client.cros.cellular import mm1_constants
	from autotest_lib.client.cros.cellular import test_environment
	from autotest_lib.client.cros.networking import pm_proxy

	I_ACTIVATION_TEST = 'Interface.LTEActivationTest'
	TEST_MODEMS_MODULE_PATH = os.path.join(os.path.dirname(__file__), 'files',
	'modems.py')

	LONG_TIMEOUT = 20
	SHORT_TIMEOUT = 10

	class ActivationTest(object):
	"""
	Super class that implements setup code that is common to the individual
	tests.

	"""
	def __init__(self, test):
	self.test = test


	def Cleanup(self):
	"""
	Makes the modem look like it has been activated to satisfy the test
	end condition.

	"""
	# Set the MDN to a non-zero value, so that shill removes the ICCID from
	# activating_iccid_store.profile. This way, individual test runs won't
	# interfere with each other.
	modem = self.test.pseudomm.wait_for_modem(timeout_seconds=LONG_TIMEOUT)
	modem.iface_properties.Set(mm1_constants.I_MODEM,
	'OwnNumbers',
	['1111111111'])
	# Put the modem in the unknown subscription state so that the mdn value is
	# used to remove the iccid entry
	self.test.pseudomm.iface_testing.SetSubscriptionState(
	mm1_constants.MM_MODEM_3GPP_SUBSCRIPTION_STATE_UNKNOWN,
	mm1_constants.MM_MODEM_3GPP_SUBSCRIPTION_STATE_UNKNOWN)
	time.sleep(5)
	self.test.CheckServiceActivationState('activated')


	def Run(self):
	"""
	Configures the pseudomodem to run with the test modem, runs the test
	and cleans up.

	"""
	self.RunTest()
	self.Cleanup()


	def TestModemClass(self):
	""" Returns the name of the custom modem to use for this test. """
	raise NotImplementedError()


	def RunTest(self):
	"""
	Runs the body of the test. Should be implemented by the subclass.

	"""
	raise NotImplementedError()


	class ActivationResetTest(ActivationTest):
	"""
	This test verifies that the modem resets after online payment.

	"""
	def TestModemClass(self):
	return 'TestModem'


	def RunTest(self):
	# Service should appear as 'not-activated'.
	self.test.CheckServiceActivationState('not-activated')
	self.test.CheckResetCalled(False)

	# Call 'CompleteActivation' on the device. The service will become
	# 'activating' and the modem should reset immediately.
	# Not checking for the intermediate 'activating' state because it makes
	# the test too fragile
	service = self.test.FindCellularService()
	service.CompleteCellularActivation()
	time.sleep(SHORT_TIMEOUT)
	self.test.CheckResetCalled(True)


	class ActivationCompleteTest(ActivationTest):
	"""
	This test verifies that the service eventually becomes 'activated' in the
	case of a post-payment registration and the modem finally registers
	to a network after a reset.

	"""
	def TestModemClass(self):
	return 'ResetRequiredForActivationModem'


	def RunTest(self):
	# Service should appear as 'not-activated'.
	self.test.CheckServiceActivationState('not-activated')
	self.test.CheckResetCalled(False)

	# Call 'CompleteActivation' on the device. The service will become
	# 'activating' and the modem should reset immediately.
	# Not checking for the intermediate 'activating' state because it makes
	# the test too fragile
	service = self.test.FindCellularService()
	service.CompleteCellularActivation()
	time.sleep(SHORT_TIMEOUT)
	self.test.CheckResetCalled(True)

	# The service should register and be marked as 'activated'.
	self.test.CheckServiceActivationState('activated')


	class ActivationDueToMdnTest(ActivationTest):
	"""
	This test verifies that a valid MDN should cause the service to get marked
	as 'activated' when the modem is in unknown subscription state.

	"""
	def TestModemClass(self):
	return 'TestModem'


	def RunTest(self):
	# Service should appear as 'not-activated'.
	self.test.CheckServiceActivationState('not-activated')

	# Update the MDN. The service should get marked as activated.
	modem = self.test.pseudomm.get_modem()
	modem.iface_properties.Set(mm1_constants.I_MODEM,
	'OwnNumbers',
	['1111111111'])
	# Put the modem in the unknown subscription state so that the mdn value is
	# used to determine the service activation status.
	self.test.pseudomm.iface_testing.SetSubscriptionState(
	mm1_constants.MM_MODEM_3GPP_SUBSCRIPTION_STATE_UNKNOWN,
	mm1_constants.MM_MODEM_3GPP_SUBSCRIPTION_STATE_UNKNOWN)
	time.sleep(SHORT_TIMEOUT)
	self.test.CheckServiceActivationState('activated')


	class cellular_ActivateLTE(test.test):
	"""
	After an online payment to activate a network, shill keeps track of service
	activation by monitoring changes to network registration and MDN updates
	combined with a modem reset. The test checks that the
	Cellular.ActivationState property of the service has the correct value
	associated with it by simulating possible scenarios using the pseudo modem
	manager.

	"""
	version = 1

	def GetModemState(self):
	"""Returns the current ModemManager modem state."""
	modem = self.pseudomm.get_modem()
	props = modem.properties(mm1_constants.I_MODEM)
	return props['State']


	def SetResetCalled(self, value):
	"""
	Sets the value of the "ResetCalled" property of the current
	modem.

	@param value: Value to set in the property.

	"""
	modem = self.pseudomm.get_modem()
	if modem is None:
	return
	modem.iface_properties.Set(
	I_ACTIVATION_TEST,
	'ResetCalled',
	dbus.types.Boolean(value))


	def GetResetCalled(self, modem):
	"""
	Returns the current value of the "ResetCalled" property of the current
	modem.

	@param modem: Modem proxy to send the query to.

	"""
	return modem.properties(I_ACTIVATION_TEST)['ResetCalled']


	def _CheckResetCalledHelper(self, expected_value):
	modem = self.pseudomm.get_modem()
	if modem is None:
	return False
	try:
	return self.GetResetCalled(modem) == expected_value
	except dbus.exceptions.DBusException as e:
	name = e.get_dbus_name()
	if (name == mm1_constants.DBUS_UNKNOWN_METHOD or
	name == mm1_constants.DBUS_UNKNOWN_OBJECT):
	return False
	raise e


	def CheckResetCalled(self, expected_value):
	"""
	Checks that the ResetCalled property on the modem matches the expect
	value.

	@param expected_value: The expected value of ResetCalled.

	"""
	utils.poll_for_condition(
	lambda: self._CheckResetCalledHelper(expected_value),
	exception=error.TestFail("\"ResetCalled\" did not match: " +
	str(expected_value)),
	timeout=LONG_TIMEOUT)


	def EnsureModemStateReached(self, expected_state, timeout):
	"""
	Asserts that the underlying modem state becomes \|expected_state\| within
	\|timeout\|.

	@param expected_state: The expected modem state.
	@param timeout: Timeout in which the condition should be met.

	"""
	utils.poll_for_condition(
	lambda: self.GetModemState() == expected_state,
	exception=error.TestFail(
	'Modem failed to reach state ' +
	mm1_constants.ModemStateToString(expected_state)),
	timeout=timeout)


	def CheckServiceActivationState(self, expected_state):
	"""
	Asserts that the service activation state matches \|expected_state\|
	within SHORT_TIMEOUT.

	@param expected_state: The expected service activation state.

	"""
	logging.info('Checking for service activation state: %s',
	expected_state)
	service = self.FindCellularService()
	success, state, duration = self.test_env.shill.wait_for_property_in(
	service,
	'Cellular.ActivationState',
	[expected_state],
	SHORT_TIMEOUT)
	if not success and state != expected_state:
	raise error.TestError(
	'Service activation state should be \'%s\', but it is \'%s\'.'
	% (expected_state, state))


	def FindCellularService(self, check_not_none=True):
	"""
	Returns the current cellular service.

	@param check_not_none: If True, an error will be raised if no service
	was found.

	"""
	if check_not_none:
	utils.poll_for_condition(
	lambda: (self.test_env.shill.find_cellular_service_object()
	is not None),
	exception=error.TestError(
	'Could not find cellular service within timeout.'),
	timeout=LONG_TIMEOUT);

	service = self.test_env.shill.find_cellular_service_object()

	# Check once more, to make sure it's valid.
	if check_not_none and not service:
	raise error.TestError('Could not find cellular service.')
	return service


	def FindCellularDevice(self):
	"""Returns the current cellular device."""
	device = self.test_env.shill.find_cellular_device_object()
	if not device:
	raise error.TestError('Could not find cellular device.')
	return device


	def ResetCellularDevice(self):
	"""
	Resets all modems, guaranteeing that the operation succeeds and doesn't
	fail due to race conditions in pseudomodem start-up and test execution.

	"""
	self.EnsureModemStateReached(
	mm1_constants.MM_MODEM_STATE_ENABLED, SHORT_TIMEOUT)
	self.test_env.shill.reset_modem(self.FindCellularDevice())
	self.EnsureModemStateReached(
	mm1_constants.MM_MODEM_STATE_ENABLED, SHORT_TIMEOUT)


	def run_once(self):
	tests = [
	ActivationResetTest(self),
	ActivationCompleteTest(self),
	ActivationDueToMdnTest(self),
	]

	for test in tests:
	self.test_env = test_environment.CellularPseudoMMTestEnvironment(
	pseudomm_args = ({'family' : '3GPP',
	'test-module' : TEST_MODEMS_MODULE_PATH,
	'test-modem-class' : test.TestModemClass(),
	'test-sim-class' : 'TestSIM'},))
	with self.test_env:
	self.pseudomm = pm_proxy.PseudoMMProxy.get_proxy()
	# Set the reset flag to False explicitly before each test
	# sequence starts to ignore the reset as a part of the test init
	self.SetResetCalled(False)
	test.Run()