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gerrit-public.fairphone.software / platform / tools / test / connectivity / d30d39852b75b9906f556cd2ad679a8fc20b6850 / . / acts / tests / google / wifi / WifiTeleCoexTest.py
blob: 6d5fef8708d0aa65123ec8e423c8175580f7bc6d [file] [log] [blame]
#!/usr/bin/env python3.4
import queue
import time
import acts.base_test
import acts.test_utils.wifi.wifi_test_utils as wifi_utils
import acts.test_utils.tel.tel_test_utils as tele_utils
import acts.utils
from acts import asserts
from acts import signals
from acts.test_decorators import test_tracker_info
from acts.test_utils.tel.TelephonyBaseTest import TelephonyBaseTest
from acts.test_utils.tel.tel_voice_utils import phone_setup_voice_general
from acts.test_utils.tel.tel_voice_utils import two_phone_call_short_seq
WifiEnums = wifi_utils.WifiEnums
ATTENUATORS = "attenuators"
WIFI_SSID = "wifi_network_ssid"
WIFI_PWD = "wifi_network_pass"
STRESS_COUNT = "stress_iteration"
class WifiTeleCoexTest(TelephonyBaseTest):
"""Tests for WiFi, Celular Co-existance."""
def setup_class(self):
TelephonyBaseTest.setup_class(self)
self.dut = self.android_devices[0]
wifi_utils.wifi_test_device_init(self.dut)
# Set attenuation to 0 on all channels.
if getattr(self, ATTENUATORS, []):
for a in self.attenuators:
a.set_atten(0)
self.ads = self.android_devices
self.dut = self.android_devices[0]
self.wifi_network_ssid = self.user_params.get(WIFI_SSID)
self.wifi_network_pass = self.user_params.get(WIFI_PWD)
self.network = { WifiEnums.SSID_KEY : self.wifi_network_ssid,
WifiEnums.PWD_KEY : self.wifi_network_pass
}
self.stress_count = self.user_params.get(STRESS_COUNT)
def setup_test(self):
wifi_utils.wifi_toggle_state(self.dut, True)
def teardown_test(self):
wifi_utils.reset_wifi(self.dut)
"""Helper Functions"""
def connect_to_wifi(self, ad, network):
"""Connection logic for open and psk wifi networks.
Args:
ad: Android device object.
network: A JSON dict of the WiFi network configuration.
"""
ad.ed.clear_all_events()
wifi_utils.start_wifi_connection_scan(ad)
scan_results = ad.droid.wifiGetScanResults()
wifi_utils.assert_network_in_list({WifiEnums.SSID_KEY:
self.wifi_network_ssid}, scan_results)
wifi_utils.wifi_connect(ad, network)
self.log.debug("Connected to %s network on %s device" % (
network[WifiEnums.SSID_KEY], ad.serial))
def stress_toggle_wifi(self, stress_count):
"""Toggle WiFi in a loop.
Args:
stress_count: Number of times to toggle WiFi OFF and ON.
"""
for count in range(stress_count):
self.log.debug("stress_toggle_wifi: Iteration %d" % count)
wifi_utils.toggle_wifi_off_and_on(self.dut)
if not self.dut.droid.wifiGetisWifiEnabled():
raise signals.TestFailure("WiFi did not turn on after toggling it"
" %d times" % self.stress_count)
def stress_toggle_airplane(self, stress_count):
"""Toggle Airplane mode in a loop.
Args:
stress_count: Number of times to toggle Airplane mode OFF and ON.
"""
for count in range(stress_count):
self.log.debug("stress_toggle_airplane: Iteration %d" % count)
wifi_utils.toggle_airplane_mode_on_and_off(self.dut)
if not self.dut.droid.wifiGetisWifiEnabled():
raise signals.TestFailure("WiFi did not turn on after toggling it"
" %d times" % self.stress_count)
def stress_toggle_airplane_and_wifi(self, stress_count):
"""Toggle Airplane and WiFi modes in a loop.
Args:
stress_count: Number of times to perform Airplane mode ON, WiFi ON,
Airplane mode OFF, in a sequence.
"""
for count in range(stress_count):
self.log.debug("stress_toggle_airplane_and_wifi: Iteration %d" % count)
self.log.debug("Toggling Airplane mode ON")
asserts.assert_true(
acts.utils.force_airplane_mode(self.dut, True),
"Can not turn on airplane mode on: %s" % self.dut.serial)
# Sleep for atleast 500ms so that, call to enable wifi is not deferred.
time.sleep(1)
self.log.debug("Toggling wifi ON")
wifi_utils.wifi_toggle_state(self.dut, True)
# Sleep for 1s before getting new WiFi state.
time.sleep(1)
if not self.dut.droid.wifiGetisWifiEnabled():
raise signals.TestFailure("WiFi did not turn on after turning ON"
" Airplane mode")
asserts.assert_true(
acts.utils.force_airplane_mode(self.dut, False),
"Can not turn on airplane mode on: %s" % self.dut.serial)
if not self.dut.droid.wifiGetisWifiEnabled():
raise signals.TestFailure("WiFi did not turn on after toggling it"
" %d times" % self.stress_count)
def setup_cellular_voice_calling(self):
"""Setup phone for voice general calling and make sure phone is
attached to voice."""
# Make sure Phone A and B are attached to voice network.
for ad in self.ads:
if not phone_setup_voice_general(self.log, ad):
raise signals.TestFailure("Phone failed to setup for voice"
" calling serial:%s" % ad.serial)
self.log.debug("Finished setting up phones for voice calling")
def validate_cellular_and_wifi(self):
"""Validate WiFi, make some cellular calls.
Steps:
1. Check if device is still connected to the WiFi network.
2. If WiFi looks good, check if deivce is attached to voice.
3. Make a short sequence voice call between Phone A and B.
"""
# Sleep for 30s before getting new WiFi state.
time.sleep(30)
wifi_info = self.dut.droid.wifiGetConnectionInfo()
if wifi_info[WifiEnums.SSID_KEY] != self.wifi_network_ssid:
raise signals.TestFailure("Phone failed to connect to %s network on"
" %s" % (self.wifi_network_ssid,
self.dut.serial))
# Make short call sequence between Phone A and Phone B.
two_phone_call_short_seq(self.log, self.ads[0], None, None, self.ads[1],
None, None)
"""Tests"""
@test_tracker_info(uuid="8b9b6fb9-964b-43e7-b75f-675774ee346f")
@TelephonyBaseTest.tel_test_wrap
def test_toggle_wifi_call(self):
"""Test to toggle WiFi and then perform WiFi connection and
cellular calls.
Steps:
1. Attach device to voice subscription network.
2. Connect to a WiFi network.
3. Toggle WiFi OFF and ON.
4. Verify device auto-connects to the WiFi network.
5. Verify device is attached to voice network.
6. Make short sequence voice calls.
"""
self.setup_cellular_voice_calling()
self.connect_to_wifi(self.dut, self.network)
wifi_utils.toggle_wifi_off_and_on(self.dut)
self.validate_cellular_and_wifi()
return True
@test_tracker_info(uuid="caf22447-6354-4a2e-99e5-0ff235fc8f20")
@TelephonyBaseTest.tel_test_wrap
def test_toggle_airplane_call(self):
"""Test to toggle Airplane mode and perform WiFi connection and
cellular calls.
Steps:
1. Attach device to voice subscription network.
2. Connect to a WiFi network.
3. Toggle Airplane mode OFF and ON.
4. Verify device auto-connects to the WiFi network.
5. Verify device is attached to voice network.
6. Make short sequence voice calls.
"""
self.setup_cellular_voice_calling()
self.connect_to_wifi(self.dut, self.network)
wifi_utils.toggle_airplane_mode_on_and_off(self.dut)
self.validate_cellular_and_wifi()
return True
@test_tracker_info(uuid="dd888b35-f820-409a-89af-4b0f6551e4d6")
@TelephonyBaseTest.tel_test_wrap
def test_toggle_airplane_and_wifi_call(self):
"""Test to toggle WiFi in a loop and perform WiFi connection and
cellular calls.
Steps:
1. Attach device to voice subscription network.
2. Connect to a WiFi network.
3. Toggle Airplane mode ON.
4. Turn WiFi ON.
5. Toggle Airplane mode OFF.
3. Verify device auto-connects to the WiFi network.
4. Verify device is attached to voice network.
5. Make short sequence voice calls.
"""
self.setup_cellular_voice_calling()
self.connect_to_wifi(self.dut, self.network)
self.stress_toggle_airplane_and_wifi(1)
self.validate_cellular_and_wifi()
return True
@test_tracker_info(uuid="15db5b7e-827e-4bc8-8e77-7fcce343a323")
@TelephonyBaseTest.tel_test_wrap
def test_stress_toggle_wifi_call(self):
"""Stress test to toggle WiFi in a loop, then perform WiFi connection
and cellular calls.
Steps:
1. Attach device to voice subscription network.
2. Connect to a WiFi network.
3. Toggle WiFi OFF and ON in a loop.
4. Verify device auto-connects to the WiFi network.
5. Verify device is attached to voice network.
6. Make short sequence voice calls.
"""
self.setup_cellular_voice_calling()
self.connect_to_wifi(self.dut, self.network)
self.stress_toggle_wifi(self.stress_count)
self.validate_cellular_and_wifi()
return True
@test_tracker_info(uuid="80a2f1bf-5e41-453a-9b8e-be3b41d4d313")
@TelephonyBaseTest.tel_test_wrap
def test_stress_toggle_airplane_call(self):
"""Stress test to toggle Airplane mode in a loop, then perform WiFi and
cellular calls.
Steps:
1. Attach device to voice subscription network.
2. Connect to a WiFi network.
3. Toggle Airplane mode OFF and ON in a loop.
4. Verify device auto-connects to the WiFi network.
5. Verify device is attached to voice network.
6. Make short sequence voice calls.
"""
self.setup_cellular_voice_calling()
self.connect_to_wifi(self.dut, self.network)
self.stress_toggle_airplane(self.stress_count)
self.validate_cellular_and_wifi()
return True
@test_tracker_info(uuid="b88ad3e7-6462-4280-ad57-22d0ac91fdd8")
@TelephonyBaseTest.tel_test_wrap
def test_stress_toggle_airplane_and_wifi_call(self):
"""Stress test to toggle Airplane and WiFi mode in a loop, then perform
WiFi connection and cellular calls.
Steps:
1. Attach device to voice subscription network.
2. Connect to a WiFi network.
3. Toggle Airplane mode ON.
4. Turn WiFi ON.
5. Toggle Airplane mode OFF.
6. Repeat 3, 4 & 5, in a loop.
7. Verify device auto-connects to the WiFi network.
8. Verify device is attached to voice network.
9. Make short sequence voice calls.
"""
self.setup_cellular_voice_calling()
self.connect_to_wifi(self.dut, self.network)
self.stress_toggle_airplane_and_wifi(self.stress_count)
self.validate_cellular_and_wifi()
return True