acts_tests/tests/google/wifi/WifiCellCoexChannelAvoidTest.py - platform/tools/test/connectivity - Git at Google

 #!/usr/bin/env python3.4
 #
 #   Copyright 2016 - 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
 import json
 import pprint

 from acts import asserts
 from acts import utils
 from acts.keys import Config
 from acts.test_decorators import test_tracker_info
 from acts_contrib.test_utils.wifi import wifi_constants
 from acts_contrib.test_utils.wifi import wifi_test_utils as wutils
 from acts_contrib.test_utils.wifi.WifiBaseTest import WifiBaseTest
 from acts_contrib.test_utils.wifi.wifi_constants import\
     COEX_BAND, COEX_CHANNEL, COEX_POWER_CAP_DBM, KEY_COEX_UNSAFE_CHANNELS, KEY_COEX_RESTRICTIONS

 WifiEnums = wutils.WifiEnums
 WIFI_CONFIG_APBAND_2G = WifiEnums.WIFI_CONFIG_APBAND_2G
 WIFI_CONFIG_APBAND_5G = WifiEnums.WIFI_CONFIG_APBAND_5G
 WIFI_CONFIG_APBAND_AUTO = WifiEnums.WIFI_CONFIG_APBAND_AUTO
 WPA3_SAE_TRANSITION_SOFTAP = WifiEnums.SoftApSecurityType.WPA3_SAE_TRANSITION
 WPA3_SAE_SOFTAP = WifiEnums.SoftApSecurityType.WPA3_SAE
 WAIT_AFTER_REBOOT = 10

 BRIDGED_AP_LAUNCH_INTERVAL_5_SECONDS = 5


 class WifiCellCoexChannelAvoidTest(WifiBaseTest):
     def __init__(self, configs):
         super().__init__(configs)
         self.generate_test_list()

     def generate_test_list(self):
         """Generates a test list sorted with coex_unsafe_list_sap list.
             Test with a sorted list can reduce lots of time
             on switch radio and band start up.
         """
         sorted_list = sorted(self.user_params["coex_unsafe_list_sap"],
                              key=lambda radio: radio["band"])
         for test_item in sorted_list:
             self.init_test_case(self.coex_unsafechannel_avoidance, test_item)
         pprint.pprint("self.tests = {}".format(self.tests))

     def init_test_case(self, coex_unsafechannel_avoidance, test_item):
         """Generates a single test case from the given data.

         Args:
             coex_unsafechannel_avoidance: The base test case function to run.
             test_item: test case required info include ["uuid","coex_unsafe_case"]
         """
         test_name = test_item["coex_unsafe_case"]
         test_tracker_uuid = test_item["uuid"]
         if not test_name.startswith("test_"):
             test_name = "test_{}".format(test_name)
         test_case = test_tracker_info(uuid=test_tracker_uuid)(
             lambda: coex_unsafechannel_avoidance(test_item))
         setattr(self, test_name, test_case)
         self.tests.append(test_name)

     def setup_class(self):
         """It will setup the required dependencies from config file and configure
            the devices for softap mode testing.

         Returns:
             True if successfully configured the requirements for testing.
         """
         super().setup_class()
         self.dut = self.android_devices[0]
         self.dut_client = self.android_devices[1]
         req_params = [
             "dbs_supported_models", "sta_concurrency_supported_models",
             "wifi6_models", "coex_unsafe_list_sap"
         ]
         opt_param = ["reference_networks"]
         self.unpack_userparams(req_param_names=req_params,
                                opt_param_names=opt_param)
         if "AccessPoint" in self.user_params:
             self.legacy_configure_ap_and_start()
         elif "OpenWrtAP" in self.user_params:
             self.configure_openwrt_ap_and_start(wpa_network=True)
         self.wifi_network = self.reference_networks[0]["2g"]
         # Do a simple version of init - mainly just sync the time and enable
         # verbose logging.  This test will fail if the DUT has a sim and cell
         # data is disabled.  We would also like to test with phones in less
         # constrained states (or add variations where we specifically
         # constrain).
         utils.require_sl4a((self.dut, self.dut_client))
         utils.sync_device_time(self.dut)
         utils.sync_device_time(self.dut_client)
         # Enable verbose logging on the duts
         self.dut.droid.wifiEnableVerboseLogging(1)
         asserts.assert_equal(
             self.dut.droid.wifiGetVerboseLoggingLevel(), 1,
             "Failed to enable WiFi verbose logging on the softap dut.")
         self.dut_client.droid.wifiEnableVerboseLogging(1)
         asserts.assert_equal(
             self.dut_client.droid.wifiGetVerboseLoggingLevel(), 1,
             "Failed to enable WiFi verbose logging on the client dut.")
         wutils.wifi_toggle_state(self.dut, True)
         wutils.wifi_toggle_state(self.dut_client, True)
         self.AP_IFACE = 'wlan0'
         if self.dut.model in self.dbs_supported_models:
             self.AP_IFACE = 'wlan1'
         if self.dut.model in self.sta_concurrency_supported_models:
             self.AP_IFACE = 'wlan2'
         if len(self.android_devices) > 2:
             utils.sync_device_time(self.android_devices[2])
             self.android_devices[2].droid.wifiEnableVerboseLogging(1)
             asserts.assert_equal(
                 self.android_devices[2].droid.wifiGetVerboseLoggingLevel(), 1,
                 "Failed to enable WiFi verbose logging on the client dut.")
             self.dut_client_2 = self.android_devices[2]

     def teardown_class(self):
         super().teardown_class()
         for ad in self.android_devices:
             wutils.wifi_toggle_state(ad, True)
             wutils.reset_wifi(ad)
             time.sleep(WAIT_AFTER_REBOOT)
         if self.dut.droid.wifiIsApEnabled():
             wutils.stop_wifi_tethering(self.dut)
         if "AccessPoint" in self.user_params:
             del self.user_params["reference_networks"]
             del self.user_params["open_network"]

     def setup_test(self):
         super().setup_test()
         for ad in self.android_devices:
             wutils.wifi_toggle_state(ad, True)
         self.dut.reboot()
         time.sleep(WAIT_AFTER_REBOOT)

     def teardown_test(self):
         super().teardown_test()
         for ad in self.android_devices:
             wutils.wifi_toggle_state(ad, True)
         if self.dut.droid.wifiIsApEnabled():
             wutils.stop_wifi_tethering(self.dut)
         self.dut.log.debug("Toggling Airplane mode OFF.")
         asserts.assert_true(
             utils.force_airplane_mode(self.dut, False),
             "Can not turn off airplane mode: %s" % self.dut.serial)
         #reset coexcell setting
         self.dut.adb.shell('cmd wifi reset-coex-cell-channels')

     """ Helper Functions """

     def coex_unsafe_channel_key(self, unsafe_channel):
         if COEX_POWER_CAP_DBM in unsafe_channel:
             return (unsafe_channel[COEX_BAND], unsafe_channel[COEX_CHANNEL],
                     unsafe_channel[COEX_POWER_CAP_DBM])
         return (unsafe_channel[COEX_BAND], unsafe_channel[COEX_CHANNEL])

     def enable_softap(self, ad, band=None):
         """ Enable SoftAp of the DUT

         Returns:
             (freq1, freq2): Integer; a 2G frequency and a 5G frequency if DUT
                             support BridgedAp.
             freq: Integer; a frequency from SoftAp.
             None, bandwidth: Just a placeholder, won't be used.
         """
         # Enable SoftAp
         # Create SoftAp config.
         config = wutils.create_softap_config()
         # If DUT support BridgedAp, then two BridgedAp instances enabled.
         if self.dut.droid.wifiIsBridgedApConcurrencySupported():
             wutils.save_wifi_soft_ap_config(
                 ad,
                 config,
                 bands=[
                     WifiEnums.WIFI_CONFIG_SOFTAP_BAND_2G,
                     WifiEnums.WIFI_CONFIG_SOFTAP_BAND_2G_5G
                 ])
         # If DUT does not support BridgedAp, 2G OR 5G SoftAp enabled.
         else:
             if self.init_softap_band == BAND_2G:
                 band = WifiEnums.WIFI_CONFIG_SOFTAP_BAND_2G
             if self.init_softap_band == BAND_5G:
                 band = WifiEnums.WIFI_CONFIG_SOFTAP_BAND_5G
             wutils.save_wifi_soft_ap_config(ad, config, band=band)
         wutils.start_wifi_tethering_saved_config(ad)
         time.sleep(BRIDGED_AP_LAUNCH_INTERVAL_5_SECONDS)

         # if DUT support BridgedAp:
         if ad.droid.wifiIsBridgedApConcurrencySupported():
             callbackId = ad.droid.registerSoftApCallback()
             infos = wutils.get_current_softap_infos(ad, callbackId, True)
             ad.droid.unregisterSoftApCallback(callbackId)
             # if DUT BridgedAp has two instances, return two frequencies.
             if len(infos) == 2:
                 freq_1 = infos[0]["frequency"]
                 freq_2 = infos[1]["frequency"]
                 self.dut.log.info(
                     "DUT connected to AP on freq: {},{}, chan: {} ,{}".format(
                         freq_1, freq_2, WifiEnums.freq_to_channel[freq_1],
                         WifiEnums.freq_to_channel[freq_2]))
                 return freq_1, freq_2
             # if DUT BridgedAp has only one instances, return the frequency.
             elif len(infos) == 1:
                 freq = infos[0]["frequency"]
                 self.dut.log.info(
                     "DUT connected to AP on freq: {}, chan: {}".format(
                         freq, WifiEnums.freq_to_channel[freq]))
                 return freq
             else:
                 raise signals.TestFailure("There should be SoftAp instance.")
         # if DUT does not support BridgedAp:
         else:
             # Return SoftAp frequency.
             callbackId = ad.droid.registerSoftApCallback()
             freq, bandwidth = wutils.get_current_softap_info(
                 ad, callbackId, True)
             ad.log.info("SoftAp freq: {}".format(freq))
             ad.droid.unregisterSoftApCallback(callbackId)
             self.dut.log.info(
                 "DUT connected to AP on freq: {}, chan: {}".format(
                     freq, WifiEnums.freq_to_channel[freq]))
             return freq, bandwidth

     """ Tests Begin """

     def coex_unsafechannel_avoidance(self, test_item):
         self.radio = test_item["radio"]
         self.band = test_item["band"]
         self.cellchannels = test_item["setcoexcellchannels"]
         time.sleep(WAIT_AFTER_REBOOT)
         wutils.set_wifi_country_code(self.dut, country_code='US')
         asserts.skip_if(not self.dut.droid.isSdkAtLeastS(),
                         "Require SDK at least S to use wifi coex apis.")
         self.dut.ed.clear_all_events()
         #Listing the test coex setting from configuration
         self.dut.log.info(
             "DUT test cellcoex radio:{}, band:{}, channels setting:{}".format(
                 self.radio, self.band, self.cellchannels))
         self.dut.adb.shell('cmd wifi set-coex-cell-channels %s %s %s' %
                            (self.radio, self.band, self.cellchannels))
         self.dut.droid.wifiRegisterCoexCallback()
         try:
             # Wait for the immediate callback from registering and store the current values
             event = self.dut.ed.pop_event(
                 "WifiManagerCoexCallback#onCoexUnsafeChannelsChanged", 5)
         except queue.Empty:
             asserts.fail("Coex callback event not received after registering.")
         prev_unsafe_channels = sorted(json.loads(
             event["data"][KEY_COEX_UNSAFE_CHANNELS]),
                                       key=self.coex_unsafe_channel_key)
         prev_restrictions = sorted(
             json.loads(event["data"][KEY_COEX_RESTRICTIONS]))
         unsafe_channels = []
         for i in range(len(prev_unsafe_channels)):
             unsafe_channels.append(prev_unsafe_channels[i]['channel'])
         self.dut.log.info("DUT unsafe channels:{}".format(unsafe_channels))
         freq1, freq2 = self.enable_softap(self.dut)
         sapchan1, sapchan2 = WifiEnums.freq_to_channel[
             freq1], WifiEnums.freq_to_channel[freq2]
         if sapchan1 in unsafe_channels or sapchan2 in unsafe_channels:
             asserts.fail(
                 "devices hotspot's channel open on current unsafe channels " +
                 str(unsafe_channels))
         else:
             pass
         self.dut.droid.wifiUnregisterCoexCallback()
         self.dut.adb.shell('cmd wifi reset-coex-cell-channels')

     """ Tests End """


 if __name__ == "__main__":
     pass
	#!/usr/bin/env python3.4
	#
	# Copyright 2016 - 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
	import json
	import pprint

	from acts import asserts
	from acts import utils
	from acts.keys import Config
	from acts.test_decorators import test_tracker_info
	from acts_contrib.test_utils.wifi import wifi_constants
	from acts_contrib.test_utils.wifi import wifi_test_utils as wutils
	from acts_contrib.test_utils.wifi.WifiBaseTest import WifiBaseTest
	from acts_contrib.test_utils.wifi.wifi_constants import\
	COEX_BAND, COEX_CHANNEL, COEX_POWER_CAP_DBM, KEY_COEX_UNSAFE_CHANNELS, KEY_COEX_RESTRICTIONS

	WifiEnums = wutils.WifiEnums
	WIFI_CONFIG_APBAND_2G = WifiEnums.WIFI_CONFIG_APBAND_2G
	WIFI_CONFIG_APBAND_5G = WifiEnums.WIFI_CONFIG_APBAND_5G
	WIFI_CONFIG_APBAND_AUTO = WifiEnums.WIFI_CONFIG_APBAND_AUTO
	WPA3_SAE_TRANSITION_SOFTAP = WifiEnums.SoftApSecurityType.WPA3_SAE_TRANSITION
	WPA3_SAE_SOFTAP = WifiEnums.SoftApSecurityType.WPA3_SAE
	WAIT_AFTER_REBOOT = 10

	BRIDGED_AP_LAUNCH_INTERVAL_5_SECONDS = 5


	class WifiCellCoexChannelAvoidTest(WifiBaseTest):
	def __init__(self, configs):
	super().__init__(configs)
	self.generate_test_list()

	def generate_test_list(self):
	"""Generates a test list sorted with coex_unsafe_list_sap list.
	Test with a sorted list can reduce lots of time
	on switch radio and band start up.
	"""
	sorted_list = sorted(self.user_params["coex_unsafe_list_sap"],
	key=lambda radio: radio["band"])
	for test_item in sorted_list:
	self.init_test_case(self.coex_unsafechannel_avoidance, test_item)
	pprint.pprint("self.tests = {}".format(self.tests))

	def init_test_case(self, coex_unsafechannel_avoidance, test_item):
	"""Generates a single test case from the given data.

	Args:
	coex_unsafechannel_avoidance: The base test case function to run.
	test_item: test case required info include ["uuid","coex_unsafe_case"]
	"""
	test_name = test_item["coex_unsafe_case"]
	test_tracker_uuid = test_item["uuid"]
	if not test_name.startswith("test_"):
	test_name = "test_{}".format(test_name)
	test_case = test_tracker_info(uuid=test_tracker_uuid)(
	lambda: coex_unsafechannel_avoidance(test_item))
	setattr(self, test_name, test_case)
	self.tests.append(test_name)

	def setup_class(self):
	"""It will setup the required dependencies from config file and configure
	the devices for softap mode testing.

	Returns:
	True if successfully configured the requirements for testing.
	"""
	super().setup_class()
	self.dut = self.android_devices[0]
	self.dut_client = self.android_devices[1]
	req_params = [
	"dbs_supported_models", "sta_concurrency_supported_models",
	"wifi6_models", "coex_unsafe_list_sap"
	]
	opt_param = ["reference_networks"]
	self.unpack_userparams(req_param_names=req_params,
	opt_param_names=opt_param)
	if "AccessPoint" in self.user_params:
	self.legacy_configure_ap_and_start()
	elif "OpenWrtAP" in self.user_params:
	self.configure_openwrt_ap_and_start(wpa_network=True)
	self.wifi_network = self.reference_networks[0]["2g"]
	# Do a simple version of init - mainly just sync the time and enable
	# verbose logging. This test will fail if the DUT has a sim and cell
	# data is disabled. We would also like to test with phones in less
	# constrained states (or add variations where we specifically
	# constrain).
	utils.require_sl4a((self.dut, self.dut_client))
	utils.sync_device_time(self.dut)
	utils.sync_device_time(self.dut_client)
	# Enable verbose logging on the duts
	self.dut.droid.wifiEnableVerboseLogging(1)
	asserts.assert_equal(
	self.dut.droid.wifiGetVerboseLoggingLevel(), 1,
	"Failed to enable WiFi verbose logging on the softap dut.")
	self.dut_client.droid.wifiEnableVerboseLogging(1)
	asserts.assert_equal(
	self.dut_client.droid.wifiGetVerboseLoggingLevel(), 1,
	"Failed to enable WiFi verbose logging on the client dut.")
	wutils.wifi_toggle_state(self.dut, True)
	wutils.wifi_toggle_state(self.dut_client, True)
	self.AP_IFACE = 'wlan0'
	if self.dut.model in self.dbs_supported_models:
	self.AP_IFACE = 'wlan1'
	if self.dut.model in self.sta_concurrency_supported_models:
	self.AP_IFACE = 'wlan2'
	if len(self.android_devices) > 2:
	utils.sync_device_time(self.android_devices[2])
	self.android_devices[2].droid.wifiEnableVerboseLogging(1)
	asserts.assert_equal(
	self.android_devices[2].droid.wifiGetVerboseLoggingLevel(), 1,
	"Failed to enable WiFi verbose logging on the client dut.")
	self.dut_client_2 = self.android_devices[2]

	def teardown_class(self):
	super().teardown_class()
	for ad in self.android_devices:
	wutils.wifi_toggle_state(ad, True)
	wutils.reset_wifi(ad)
	time.sleep(WAIT_AFTER_REBOOT)
	if self.dut.droid.wifiIsApEnabled():
	wutils.stop_wifi_tethering(self.dut)
	if "AccessPoint" in self.user_params:
	del self.user_params["reference_networks"]
	del self.user_params["open_network"]

	def setup_test(self):
	super().setup_test()
	for ad in self.android_devices:
	wutils.wifi_toggle_state(ad, True)
	self.dut.reboot()
	time.sleep(WAIT_AFTER_REBOOT)

	def teardown_test(self):
	super().teardown_test()
	for ad in self.android_devices:
	wutils.wifi_toggle_state(ad, True)
	if self.dut.droid.wifiIsApEnabled():
	wutils.stop_wifi_tethering(self.dut)
	self.dut.log.debug("Toggling Airplane mode OFF.")
	asserts.assert_true(
	utils.force_airplane_mode(self.dut, False),
	"Can not turn off airplane mode: %s" % self.dut.serial)
	#reset coexcell setting
	self.dut.adb.shell('cmd wifi reset-coex-cell-channels')

	""" Helper Functions """

	def coex_unsafe_channel_key(self, unsafe_channel):
	if COEX_POWER_CAP_DBM in unsafe_channel:
	return (unsafe_channel[COEX_BAND], unsafe_channel[COEX_CHANNEL],
	unsafe_channel[COEX_POWER_CAP_DBM])
	return (unsafe_channel[COEX_BAND], unsafe_channel[COEX_CHANNEL])

	def enable_softap(self, ad, band=None):
	""" Enable SoftAp of the DUT

	Returns:
	(freq1, freq2): Integer; a 2G frequency and a 5G frequency if DUT
	support BridgedAp.
	freq: Integer; a frequency from SoftAp.
	None, bandwidth: Just a placeholder, won't be used.
	"""
	# Enable SoftAp
	# Create SoftAp config.
	config = wutils.create_softap_config()
	# If DUT support BridgedAp, then two BridgedAp instances enabled.
	if self.dut.droid.wifiIsBridgedApConcurrencySupported():
	wutils.save_wifi_soft_ap_config(
	ad,
	config,
	bands=[
	WifiEnums.WIFI_CONFIG_SOFTAP_BAND_2G,
	WifiEnums.WIFI_CONFIG_SOFTAP_BAND_2G_5G
	])
	# If DUT does not support BridgedAp, 2G OR 5G SoftAp enabled.
	else:
	if self.init_softap_band == BAND_2G:
	band = WifiEnums.WIFI_CONFIG_SOFTAP_BAND_2G
	if self.init_softap_band == BAND_5G:
	band = WifiEnums.WIFI_CONFIG_SOFTAP_BAND_5G
	wutils.save_wifi_soft_ap_config(ad, config, band=band)
	wutils.start_wifi_tethering_saved_config(ad)
	time.sleep(BRIDGED_AP_LAUNCH_INTERVAL_5_SECONDS)

	# if DUT support BridgedAp:
	if ad.droid.wifiIsBridgedApConcurrencySupported():
	callbackId = ad.droid.registerSoftApCallback()
	infos = wutils.get_current_softap_infos(ad, callbackId, True)
	ad.droid.unregisterSoftApCallback(callbackId)
	# if DUT BridgedAp has two instances, return two frequencies.
	if len(infos) == 2:
	freq_1 = infos[0]["frequency"]
	freq_2 = infos[1]["frequency"]
	self.dut.log.info(
	"DUT connected to AP on freq: {},{}, chan: {} ,{}".format(
	freq_1, freq_2, WifiEnums.freq_to_channel[freq_1],
	WifiEnums.freq_to_channel[freq_2]))
	return freq_1, freq_2
	# if DUT BridgedAp has only one instances, return the frequency.
	elif len(infos) == 1:
	freq = infos[0]["frequency"]
	self.dut.log.info(
	"DUT connected to AP on freq: {}, chan: {}".format(
	freq, WifiEnums.freq_to_channel[freq]))
	return freq
	else:
	raise signals.TestFailure("There should be SoftAp instance.")
	# if DUT does not support BridgedAp:
	else:
	# Return SoftAp frequency.
	callbackId = ad.droid.registerSoftApCallback()
	freq, bandwidth = wutils.get_current_softap_info(
	ad, callbackId, True)
	ad.log.info("SoftAp freq: {}".format(freq))
	ad.droid.unregisterSoftApCallback(callbackId)
	self.dut.log.info(
	"DUT connected to AP on freq: {}, chan: {}".format(
	freq, WifiEnums.freq_to_channel[freq]))
	return freq, bandwidth

	""" Tests Begin """

	def coex_unsafechannel_avoidance(self, test_item):
	self.radio = test_item["radio"]
	self.band = test_item["band"]
	self.cellchannels = test_item["setcoexcellchannels"]
	time.sleep(WAIT_AFTER_REBOOT)
	wutils.set_wifi_country_code(self.dut, country_code='US')
	asserts.skip_if(not self.dut.droid.isSdkAtLeastS(),
	"Require SDK at least S to use wifi coex apis.")
	self.dut.ed.clear_all_events()
	#Listing the test coex setting from configuration
	self.dut.log.info(
	"DUT test cellcoex radio:{}, band:{}, channels setting:{}".format(
	self.radio, self.band, self.cellchannels))
	self.dut.adb.shell('cmd wifi set-coex-cell-channels %s %s %s' %
	(self.radio, self.band, self.cellchannels))
	self.dut.droid.wifiRegisterCoexCallback()
	try:
	# Wait for the immediate callback from registering and store the current values
	event = self.dut.ed.pop_event(
	"WifiManagerCoexCallback#onCoexUnsafeChannelsChanged", 5)
	except queue.Empty:
	asserts.fail("Coex callback event not received after registering.")
	prev_unsafe_channels = sorted(json.loads(
	event["data"][KEY_COEX_UNSAFE_CHANNELS]),
	key=self.coex_unsafe_channel_key)
	prev_restrictions = sorted(
	json.loads(event["data"][KEY_COEX_RESTRICTIONS]))
	unsafe_channels = []
	for i in range(len(prev_unsafe_channels)):
	unsafe_channels.append(prev_unsafe_channels[i]['channel'])
	self.dut.log.info("DUT unsafe channels:{}".format(unsafe_channels))
	freq1, freq2 = self.enable_softap(self.dut)
	sapchan1, sapchan2 = WifiEnums.freq_to_channel[
	freq1], WifiEnums.freq_to_channel[freq2]
	if sapchan1 in unsafe_channels or sapchan2 in unsafe_channels:
	asserts.fail(
	"devices hotspot's channel open on current unsafe channels " +
	str(unsafe_channels))
	else:
	pass
	self.dut.droid.wifiUnregisterCoexCallback()
	self.dut.adb.shell('cmd wifi reset-coex-cell-channels')

	""" Tests End """


	if __name__ == "__main__":
	pass