acts_tests/acts_contrib/test_utils/tel/GFTInOutBaseTest.py - platform/tools/test/connectivity - Git at Google

 #!/usr/bin/env python3
 #
 #   Copyright 2021 - The Android Open Source Project
 #
 #   Licensed under the Apache License, Version 2.0 (the "License");
 #   you may not use this file except in compliance with the License.
 #   You may obtain a copy of the License at
 #
 #       http://www.apache.org/licenses/LICENSE-2.0
 #
 #   Unless required by applicable law or agreed to in writing, software
 #   distributed under the License is distributed on an "AS IS" BASIS,
 #   WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 #   See the License for the specific language governing permissions and
 #   limitations under the License.

 import time
 from acts import asserts
 from acts.test_decorators import test_info
 from acts.test_decorators import test_tracker_info
 from acts.logger import epoch_to_log_line_timestamp
 from acts.utils import get_current_epoch_time
 from acts.libs.utils.multithread import multithread_func
 from acts.base_test import BaseTestClass
 from acts_contrib.test_utils.tel.TelephonyBaseTest import TelephonyBaseTest
 from acts_contrib.test_utils.tel.tel_logging_utils import get_screen_shot_log
 from acts_contrib.test_utils.tel.tel_logging_utils import get_screen_shot_logs
 from acts_contrib.test_utils.tel.tel_logging_utils import log_screen_shot
 from acts_contrib.test_utils.tel.tel_test_utils import get_service_state_by_adb
 from acts_contrib.test_utils.tel.tel_voice_utils import hangup_call
 from acts_contrib.test_utils.tel.tel_voice_utils import is_phone_in_call
 from acts_contrib.test_utils.tel.gft_inout_utils import mo_voice_call
 from acts_contrib.test_utils.tel.gft_inout_utils import get_voice_call_type
 from acts_contrib.test_utils.tel.gft_inout_utils import verify_data_connection
 from acts_contrib.test_utils.tel.gft_inout_utils import check_network_service
 from acts_contrib.test_utils.tel.gft_inout_defines import NO_SERVICE_POWER_LEVEL
 from acts_contrib.test_utils.tel.gft_inout_defines import IN_SERVICE_POWER_LEVEL
 from acts_contrib.test_utils.tel.gft_inout_defines import NO_SERVICE_AREA
 from acts_contrib.test_utils.tel.gft_inout_defines import IN_SERVICE_AREA
 from acts_contrib.test_utils.tel.gft_inout_defines import WIFI_AREA
 from acts_contrib.test_utils.tel.gft_inout_defines import NO_WIFI_AREA
 from acts_contrib.test_utils.tel.gft_inout_defines import NO_SERVICE_TIME
 from acts_contrib.test_utils.tel.gft_inout_defines import WAIT_FOR_SERVICE_TIME
 CELLULAR_PORT = 0
 WIFI_PORT = 1
 UNKNOWN = "UNKNOWN"


 class GFTInOutBaseTest(TelephonyBaseTest):
     def __init__(self, controllers):
         TelephonyBaseTest.__init__(self, controllers)
         self.my_error_msg = ""

     def setup_test(self):
         TelephonyBaseTest.setup_test(self)
         self.user_params["telephony_auto_rerun"] = 0
         self.my_error_msg = ""

     def teardown_test(self):
         TelephonyBaseTest.teardown_test(self)
         begin_time = get_current_epoch_time()
         for ad in self.android_devices:
             hangup_call(self.log, ad)
         get_screen_shot_logs(self.android_devices)
         for ad in self.android_devices:
             ad.adb.shell("rm -rf /sdcard/Pictures/screenvideo_*", ignore_status=True)

     def check_network(self):
         """check service state of network
         Returns:
             return True if android_devices are in service else return false
         """
         for ad in self.android_devices:
             network_type_voice = ad.droid.telephonyGetCurrentVoiceNetworkType()
             network_type_data = ad.droid.telephonyGetCurrentDataNetworkType()
             data_state = ad.droid.telephonyGetDataConnectionState()
             service_state = get_service_state_by_adb(ad.log,ad)
             wifi_info = ad.droid.wifiGetConnectionInfo()
             sim_state = ad.droid.telephonyGetSimState()
             if ad.droid.wifiCheckState():
                 if wifi_info["supplicant_state"] == "completed":
                     ad.log.info("Wifi is connected=%s" %(wifi_info["SSID"]))
                 else:
                     ad.log.info("wifi_info =%s" %(wifi_info))
             else:
                 ad.log.info("Wifi state is down.")
             ad.log.info("data_state=%s" %(data_state))
             ad.log.info("sim_state=%s" %(sim_state))
             ad.log.info("networkType_voice=%s" %(network_type_voice))
             ad.log.info("network_type_data=%s" %(network_type_data))
             ad.log.info("service_state=%s" %(service_state))
             if network_type_voice == UNKNOWN:
                 return False
         return True

     def adjust_cellular_signal(self, power, adjust_gradually=False):
         """Sets the attenuation value of cellular port
         Args:
              power: power level for attenuator to be set
         Returns:
             return True if ceullular port is set
         """
         if self.user_params.get("Attenuator"):
             if 'adjust_gradually' in self.user_params:
                 adjust_gradually = self.user_params.get('adjust_gradually')
             if adjust_gradually:
                 self.log.info("adjust cellular signal gradually to mini-circuits to %s" %(power))
                 self.adjust_atten_slowly(10, NO_SERVICE_AREA)
             else:
                 self.log.info("adjust cellular signal set mini-circuits to %s" %(power))
                 self.attenuators[CELLULAR_PORT].set_atten(power)
             return True
         else:
             self.log.info("Attenuator is set to False in config file")
             return False

     def adjust_wifi_signal(self, power, adjust_gradually=False):
         """Sets the attenuation value of wifi port
         Args:
              power: power level for attenuator to be set
         Returns:
             return True if wifi port is set
         """
         if self.user_params.get("Attenuator"):
             if 'adjust_gradually' in self.user_params:
                 adjust_gradually = self.user_params.get('adjust_gradually')
             if adjust_gradually:
                 self.log.info("adjust wifi signal set mini-circuits to %s" %(power))
                 self.adjust_atten_slowly(10, NO_SERVICE_AREA)
             else:
                 self.log.info("adjust wifi signal and set mini-circuits to %s" %(power))
                 self.attenuators[WIFI_PORT].set_atten(power)
                 self.attenuators[2].set_atten(power)
                 self.attenuators[3].set_atten(power)
         else:
             self.log.info("Attenuator is set to False in config file")
             return False
         return True

     def adjust_attens(self, power):
         """Sets the attenuation value of all attenuators in the group
         Args:
              power: power level for attenuator to be set
         Returns:
             return True if all ports are set
         """
         if self.user_params.get("Attenuator"):
             self.log.info("set attenuator ports to %s" %(power))
             self.attenuators[0].set_atten(power)
             self.attenuators[1].set_atten(power)
             self.attenuators[2].set_atten(power)
             self.attenuators[3].set_atten(power)
         else:
             self.log.info("Attenuator is set to False in config file")
             return False
         return True

     def adjust_atten(self, port , power):
         """Sets the attenuation value of given port
         Args:
             port: port of attenuator
             power: power level for attenuator to be set
         Returns:
             return True if given port is set
         """
         if self.user_params.get("Attenuator"):
             self.log.info("set attenuator port=%s to %s" %(port, power))
             self.attenuators[port].set_atten(power)
         else:
             self.log.info("Attenuator is set to False in config file")
             return False
         return True

     def adjust_atten_slowly(self, adjust_level, move_to, step=9 , step_time=5):
         """adjust attenuator slowly
         Args:
             adjust_level: adjust power level for each cycle
             move_to: no service area, in service area, wifi area
             step: adjust attenuator how many time
             step_time: wait for how many sec for each loop
         Returns:
             return True if given port is set
         """
         if move_to == NO_SERVICE_AREA:
             self.log.info("Move UE from coverage area to no/poor service area")
             power_level = IN_SERVICE_POWER_LEVEL
             for x in range (step):
                 power_level += adjust_level
                 self.log.info("adjust power level = %s" %power_level)
                 self.adjust_cellular_signal(power_level)
                 time.sleep(step_time)
                 self.log.info("wait device to be in no service state")
                 self.check_network()
         elif move_to == IN_SERVICE_AREA:
             # Move UE to service area
             self.log.info("Move UE to service area")
             power_level = NO_SERVICE_POWER_LEVEL
             for x in range (step):
                 power_level -= adjust_level
                 self.log.info("adjust power level = %s" %power_level)
                 self.adjust_cellular_signal(power_level)
                 time.sleep(step_time)
                 self.log.info("wait device to be in service state")
                 self.check_network()
         elif move_to == WIFI_AREA:
             self.log.info("Move UE to good wifi area")
             power_level = IN_SERVICE_POWER_LEVEL
             for x in range (step):
                 power_level += adjust_level
                 self.log.info("adjust power level = %s" %power_level)
                 self.adjust_wifi_signal(power_level)
                 time.sleep(step_time)
                 self.log.info("wait device to connected to wifi")
                 self.check_network()
         elif move_to == NO_WIFI_AREA:
             self.log.info("Move UE to poor/no wifi area")
             power_level = NO_SERVICE_POWER_LEVEL
             for x in range (step):
                 power_level -= adjust_level
                 self.log.info("adjust power level = %s" %power_level)
                 self.adjust_wifi_signal(power_level)
                 time.sleep(step_time)
                 self.log.info("wait device to disconnected from wifi")
                 self.check_network()
         return True

     def verify_device_status(self, ad, call_type=None, end_call=True,
         talk_time=30, verify_data=True, verify_voice=True, retry=True, data_retries=2):
         """verfiy device status includes network service, data connection and voice call
         Args:
             ad: android device
             call_type: WFC call, VOLTE call. CSFB call, voice call
             end_call: hangup call after voice call flag
             talk_time: in call duration in sec
             verify_data: flag to check data connection
             verify_voice: flag to check voice
         Returns:
             return True if pass
         """
         test_result = True
         tasks = [(check_network_service, (ad, )) for ad in self.android_devices]
         if not multithread_func(self.log, tasks):
             log_screen_shot(ad, "check_network_service_fail")
             ad.log.info("check_network_service_fail")
             test_result = False
         if retry:
             if call_type:
                 tasks = [(mo_voice_call, (self.log, ad, call_type, end_call, talk_time, 3))
                     for ad in self.android_devices]
                 test_result = multithread_func(self.log, tasks)
         elif verify_data and test_result:
             tasks = [(verify_data_connection, (ad, data_retries ))
                 for ad in self.android_devices]
             if not multithread_func(self.log, tasks):
                 log_screen_shot(ad, "verify_data_connection_fail")
                 ad.log.info("verify_data_connection_fail")
                 test_result = False
         elif verify_voice and test_result:
             if call_type:
                 tasks = [(mo_voice_call, (self.log, ad, call_type, end_call, talk_time))
                     for ad in self.android_devices]
             if not multithread_func(self.log, tasks):
                 log_screen_shot(ad, "verify_voice_call_fail")
                 ad.log.info("verify_voice_call_fail")
                 test_result = False
         return test_result


     def _on_failure(self, error_msg="", assert_on_fail=True, test_result=False):
         """ operation on fail

         Args:
             error_msg: error message to be written to log

         """
         if assert_on_fail:
             asserts.assert_true(False, "assert_on_fail: %s."
                 %(error_msg),extras={"failure_cause": error_msg})
         for ad in self.android_devices:
             log_screen_shot(ad, error_msg)
         self.log.info(error_msg)
	#!/usr/bin/env python3
	#
	# Copyright 2021 - The Android Open Source Project
	#
	# Licensed under the Apache License, Version 2.0 (the "License");
	# you may not use this file except in compliance with the License.
	# You may obtain a copy of the License at
	#
	# http://www.apache.org/licenses/LICENSE-2.0
	#
	# Unless required by applicable law or agreed to in writing, software
	# distributed under the License is distributed on an "AS IS" BASIS,
	# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	# See the License for the specific language governing permissions and
	# limitations under the License.

	import time
	from acts import asserts
	from acts.test_decorators import test_info
	from acts.test_decorators import test_tracker_info
	from acts.logger import epoch_to_log_line_timestamp
	from acts.utils import get_current_epoch_time
	from acts.libs.utils.multithread import multithread_func
	from acts.base_test import BaseTestClass
	from acts_contrib.test_utils.tel.TelephonyBaseTest import TelephonyBaseTest
	from acts_contrib.test_utils.tel.tel_logging_utils import get_screen_shot_log
	from acts_contrib.test_utils.tel.tel_logging_utils import get_screen_shot_logs
	from acts_contrib.test_utils.tel.tel_logging_utils import log_screen_shot
	from acts_contrib.test_utils.tel.tel_test_utils import get_service_state_by_adb
	from acts_contrib.test_utils.tel.tel_voice_utils import hangup_call
	from acts_contrib.test_utils.tel.tel_voice_utils import is_phone_in_call
	from acts_contrib.test_utils.tel.gft_inout_utils import mo_voice_call
	from acts_contrib.test_utils.tel.gft_inout_utils import get_voice_call_type
	from acts_contrib.test_utils.tel.gft_inout_utils import verify_data_connection
	from acts_contrib.test_utils.tel.gft_inout_utils import check_network_service
	from acts_contrib.test_utils.tel.gft_inout_defines import NO_SERVICE_POWER_LEVEL
	from acts_contrib.test_utils.tel.gft_inout_defines import IN_SERVICE_POWER_LEVEL
	from acts_contrib.test_utils.tel.gft_inout_defines import NO_SERVICE_AREA
	from acts_contrib.test_utils.tel.gft_inout_defines import IN_SERVICE_AREA
	from acts_contrib.test_utils.tel.gft_inout_defines import WIFI_AREA
	from acts_contrib.test_utils.tel.gft_inout_defines import NO_WIFI_AREA
	from acts_contrib.test_utils.tel.gft_inout_defines import NO_SERVICE_TIME
	from acts_contrib.test_utils.tel.gft_inout_defines import WAIT_FOR_SERVICE_TIME
	CELLULAR_PORT = 0
	WIFI_PORT = 1
	UNKNOWN = "UNKNOWN"


	class GFTInOutBaseTest(TelephonyBaseTest):
	def __init__(self, controllers):
	TelephonyBaseTest.__init__(self, controllers)
	self.my_error_msg = ""

	def setup_test(self):
	TelephonyBaseTest.setup_test(self)
	self.user_params["telephony_auto_rerun"] = 0
	self.my_error_msg = ""

	def teardown_test(self):
	TelephonyBaseTest.teardown_test(self)
	begin_time = get_current_epoch_time()
	for ad in self.android_devices:
	hangup_call(self.log, ad)
	get_screen_shot_logs(self.android_devices)
	for ad in self.android_devices:
	ad.adb.shell("rm -rf /sdcard/Pictures/screenvideo_*", ignore_status=True)

	def check_network(self):
	"""check service state of network
	Returns:
	return True if android_devices are in service else return false
	"""
	for ad in self.android_devices:
	network_type_voice = ad.droid.telephonyGetCurrentVoiceNetworkType()
	network_type_data = ad.droid.telephonyGetCurrentDataNetworkType()
	data_state = ad.droid.telephonyGetDataConnectionState()
	service_state = get_service_state_by_adb(ad.log,ad)
	wifi_info = ad.droid.wifiGetConnectionInfo()
	sim_state = ad.droid.telephonyGetSimState()
	if ad.droid.wifiCheckState():
	if wifi_info["supplicant_state"] == "completed":
	ad.log.info("Wifi is connected=%s" %(wifi_info["SSID"]))
	else:
	ad.log.info("wifi_info =%s" %(wifi_info))
	else:
	ad.log.info("Wifi state is down.")
	ad.log.info("data_state=%s" %(data_state))
	ad.log.info("sim_state=%s" %(sim_state))
	ad.log.info("networkType_voice=%s" %(network_type_voice))
	ad.log.info("network_type_data=%s" %(network_type_data))
	ad.log.info("service_state=%s" %(service_state))
	if network_type_voice == UNKNOWN:
	return False
	return True

	def adjust_cellular_signal(self, power, adjust_gradually=False):
	"""Sets the attenuation value of cellular port
	Args:
	power: power level for attenuator to be set
	Returns:
	return True if ceullular port is set
	"""
	if self.user_params.get("Attenuator"):
	if 'adjust_gradually' in self.user_params:
	adjust_gradually = self.user_params.get('adjust_gradually')
	if adjust_gradually:
	self.log.info("adjust cellular signal gradually to mini-circuits to %s" %(power))
	self.adjust_atten_slowly(10, NO_SERVICE_AREA)
	else:
	self.log.info("adjust cellular signal set mini-circuits to %s" %(power))
	self.attenuators[CELLULAR_PORT].set_atten(power)
	return True
	else:
	self.log.info("Attenuator is set to False in config file")
	return False

	def adjust_wifi_signal(self, power, adjust_gradually=False):
	"""Sets the attenuation value of wifi port
	Args:
	power: power level for attenuator to be set
	Returns:
	return True if wifi port is set
	"""
	if self.user_params.get("Attenuator"):
	if 'adjust_gradually' in self.user_params:
	adjust_gradually = self.user_params.get('adjust_gradually')
	if adjust_gradually:
	self.log.info("adjust wifi signal set mini-circuits to %s" %(power))
	self.adjust_atten_slowly(10, NO_SERVICE_AREA)
	else:
	self.log.info("adjust wifi signal and set mini-circuits to %s" %(power))
	self.attenuators[WIFI_PORT].set_atten(power)
	self.attenuators[2].set_atten(power)
	self.attenuators[3].set_atten(power)
	else:
	self.log.info("Attenuator is set to False in config file")
	return False
	return True

	def adjust_attens(self, power):
	"""Sets the attenuation value of all attenuators in the group
	Args:
	power: power level for attenuator to be set
	Returns:
	return True if all ports are set
	"""
	if self.user_params.get("Attenuator"):
	self.log.info("set attenuator ports to %s" %(power))
	self.attenuators[0].set_atten(power)
	self.attenuators[1].set_atten(power)
	self.attenuators[2].set_atten(power)
	self.attenuators[3].set_atten(power)
	else:
	self.log.info("Attenuator is set to False in config file")
	return False
	return True

	def adjust_atten(self, port , power):
	"""Sets the attenuation value of given port
	Args:
	port: port of attenuator
	power: power level for attenuator to be set
	Returns:
	return True if given port is set
	"""
	if self.user_params.get("Attenuator"):
	self.log.info("set attenuator port=%s to %s" %(port, power))
	self.attenuators[port].set_atten(power)
	else:
	self.log.info("Attenuator is set to False in config file")
	return False
	return True

	def adjust_atten_slowly(self, adjust_level, move_to, step=9 , step_time=5):
	"""adjust attenuator slowly
	Args:
	adjust_level: adjust power level for each cycle
	move_to: no service area, in service area, wifi area
	step: adjust attenuator how many time
	step_time: wait for how many sec for each loop
	Returns:
	return True if given port is set
	"""
	if move_to == NO_SERVICE_AREA:
	self.log.info("Move UE from coverage area to no/poor service area")
	power_level = IN_SERVICE_POWER_LEVEL
	for x in range (step):
	power_level += adjust_level
	self.log.info("adjust power level = %s" %power_level)
	self.adjust_cellular_signal(power_level)
	time.sleep(step_time)
	self.log.info("wait device to be in no service state")
	self.check_network()
	elif move_to == IN_SERVICE_AREA:
	# Move UE to service area
	self.log.info("Move UE to service area")
	power_level = NO_SERVICE_POWER_LEVEL
	for x in range (step):
	power_level -= adjust_level
	self.log.info("adjust power level = %s" %power_level)
	self.adjust_cellular_signal(power_level)
	time.sleep(step_time)
	self.log.info("wait device to be in service state")
	self.check_network()
	elif move_to == WIFI_AREA:
	self.log.info("Move UE to good wifi area")
	power_level = IN_SERVICE_POWER_LEVEL
	for x in range (step):
	power_level += adjust_level
	self.log.info("adjust power level = %s" %power_level)
	self.adjust_wifi_signal(power_level)
	time.sleep(step_time)
	self.log.info("wait device to connected to wifi")
	self.check_network()
	elif move_to == NO_WIFI_AREA:
	self.log.info("Move UE to poor/no wifi area")
	power_level = NO_SERVICE_POWER_LEVEL
	for x in range (step):
	power_level -= adjust_level
	self.log.info("adjust power level = %s" %power_level)
	self.adjust_wifi_signal(power_level)
	time.sleep(step_time)
	self.log.info("wait device to disconnected from wifi")
	self.check_network()
	return True

	def verify_device_status(self, ad, call_type=None, end_call=True,
	talk_time=30, verify_data=True, verify_voice=True, retry=True, data_retries=2):
	"""verfiy device status includes network service, data connection and voice call
	Args:
	ad: android device
	call_type: WFC call, VOLTE call. CSFB call, voice call
	end_call: hangup call after voice call flag
	talk_time: in call duration in sec
	verify_data: flag to check data connection
	verify_voice: flag to check voice
	Returns:
	return True if pass
	"""
	test_result = True
	tasks = [(check_network_service, (ad, )) for ad in self.android_devices]
	if not multithread_func(self.log, tasks):
	log_screen_shot(ad, "check_network_service_fail")
	ad.log.info("check_network_service_fail")
	test_result = False
	if retry:
	if call_type:
	tasks = [(mo_voice_call, (self.log, ad, call_type, end_call, talk_time, 3))
	for ad in self.android_devices]
	test_result = multithread_func(self.log, tasks)
	elif verify_data and test_result:
	tasks = [(verify_data_connection, (ad, data_retries ))
	for ad in self.android_devices]
	if not multithread_func(self.log, tasks):
	log_screen_shot(ad, "verify_data_connection_fail")
	ad.log.info("verify_data_connection_fail")
	test_result = False
	elif verify_voice and test_result:
	if call_type:
	tasks = [(mo_voice_call, (self.log, ad, call_type, end_call, talk_time))
	for ad in self.android_devices]
	if not multithread_func(self.log, tasks):
	log_screen_shot(ad, "verify_voice_call_fail")
	ad.log.info("verify_voice_call_fail")
	test_result = False
	return test_result


	def _on_failure(self, error_msg="", assert_on_fail=True, test_result=False):
	""" operation on fail

	Args:
	error_msg: error message to be written to log

	"""
	if assert_on_fail:
	asserts.assert_true(False, "assert_on_fail: %s."
	%(error_msg),extras={"failure_cause": error_msg})
	for ad in self.android_devices:
	log_screen_shot(ad, error_msg)
	self.log.info(error_msg)