def check_condition(self):
# Unlock device
ui_steps.wake_up_device(serial=self.serial)()
ui_steps.unlock_device(serial=self.serial)()
# Check if the app is NOT displayed in normal mode
ui_steps.find_app_from_allapps(serial=self.serial,
view_to_find={"text": self.app_to_find},
presence=False)()
return True
def do(self):
ui_steps.open_users_settings(serial=self.serial)()
ui_steps.click_button(
serial=self.serial,
view_to_find={"text": "Not set up"},
view_to_check={"textContains": "Set up user now?"})()
ui_steps.click_button(serial=self.serial,
view_to_find={"text": "SET UP NOW"})()
time.sleep(10)
ui_steps.wake_up_device(serial=self.serial)()
ui_steps.unlock_device(serial=self.serial)()
self.step_data = True
def do(self):
# Enable auto time date
ui_steps.enable_disable_auto_time_date(serial=self.serial,
enable=True)()
# Get the value of the DUT date via adb shell
output = self.adb_connection.parse_cmd_output(cmd="date").strip()
self.first_date = datetime.datetime.strptime(output, adb_shell_date_format)
# Close Settings from recent apps
ui_steps.close_app_from_recent(serial=self.serial,
view_to_find={"text": "Settings"})()
# Disable auto time date
ui_steps.enable_disable_auto_time_date(serial=self.serial,
enable=False)()
# Power off device
relay_steps.power_off_device(serial=self.serial,
except_charging=True,
relay_type=relay_type,
relay_port=relay_port,
power_port=power_port)()
# keep the device off for 2 minutes
for i in range(0, dut_time_off, 10):
print "DUT SLEEPING FOR {} SECONDS".format(dut_time_off-i)
time.sleep(10)
# Power on device
relay_steps.power_on_device(serial=self.serial,
relay_type=relay_type,
relay_port=relay_port,
power_port=power_port)()
adb_steps.wait_for_ui(serial=self.serial)()
# Get the value of the DUT date via adb shell
output = self.adb_connection.parse_cmd_output(cmd="date").strip()
self.second_date = datetime.datetime.strptime(output, adb_shell_date_format)
# Enable auto time and date
ui_steps.wake_up_device(serial=self.serial)()
ui_steps.unlock_device(serial=self.serial)()
ui_steps.enable_disable_auto_time_date(serial=self.serial,
enable=True)()
# Close Settings from recent apps
ui_steps.close_app_from_recent(serial=self.serial,
view_to_find={"text": "Settings"})()
def connect_to_ap(serial, condition, mode='bg', security='none',
dut_security=None, ddwrt_ap_name='ddwrt',
ddwrt_ap_pass='******', encryption=None, iteration=1,
q=None):
for _ in range(0, iteration):
# configure ap
ap_steps.setup(mode, security, encryption=encryption,
wifi_password=ddwrt_ap_pass, new_ssid=ddwrt_ap_name,
serial=serial)()
# turn display on, if turned off
ui_steps.wake_up_device(serial=serial)()
# ensure the device is unlocked
ui_steps.unlock_device(serial=serial, pin=wifi_defaults.wifi['pin'])()
# go to home screen
ui_steps.press_home(serial=serial)()
# make sure there are no saved networks
wifi_generic_steps.clear_saved_networks(serial=serial)()
# add the Wi-Fi network
wifi_generic_steps.add_network(ssid=ddwrt_ap_name,
security=dut_security,
password=ddwrt_ap_pass, serial=serial)()
# wait until the device connects to a wifi network
wifi_generic_steps.wait_until_connected(serial=serial)()
# check we are connected to the correct network.
wifi_generic_steps.check_connection_info(serial=serial,
SSID=ddwrt_ap_name,
state='CONNECTED/CONNECTED')()
# check connection
obj = wifi_generic_steps.ping_gateway(serial=serial)
obj()
if 'passed' in obj.resolution.lower():
return True if q is None else q.put(['Pass'])
else:
return False if q is None else q.put(['Success'])
ip_address = os.popen(
'ifconfig eth1 | grep "inet\ addr" | cut -d: -f2 | cut -d" " -f1')
ip = ip_address.read()
ip_split_01 = ip[:3]
ip_split_02 = ipv4_class[:3]
if ip_split_01 == ip_split_02:
print 'IP Successfully assigned'
else:
print 'IP Change unsuccessful'
# turn display on, if turned off
ui_steps.wake_up_device(serial=serial)()
# ensure the device is unlocked
ui_steps.unlock_device(serial=serial, pin=wifi_defaults.wifi['pin'])()
# go to home screen
ui_steps.press_home(serial=serial)()
# make sure there are no saved networks
wifi_generic_steps.clear_saved_networks(serial=serial)()
# add the Wi-Fi network
wifi_generic_steps.add_network(
ssid=ddwrt_ap_name if str(new_ssid).lower() == "none" else new_ssid,
security=dut_security,
password=ddwrt_ap_pass,
identity=radius_identity,
EAP_method=EAP_method,
phase_2_auth=phase_2_auth,
import time
from testlib.scripts.android.ui import ui_steps
from testlib.scripts.wireless.wifi import wifi_steps
from testlib.utils.defaults import wifi_defaults
from testlib.base.base_utils import parse_args
'''initialization '''
args = parse_args()
script_params = args["script_args"]
''' test start '''
# turn display on, if turned off
ui_steps.wake_up_device(serial=args["serial"])()
# ensure the device is unlocked
ui_steps.unlock_device(serial=args["serial"], pin=wifi_defaults.wifi['pin'])()
# go to home screen
ui_steps.press_home(serial=args["serial"])()
# make sure there are no saved networks
wifi_steps.clear_saved_networks(serial=args["serial"])()
# add the Wi-Fi network
wifi_steps.add_network(ssid=script_params["ap_name"],
security=script_params["dut_security"],
password=script_params["passphrase"],
serial=args["serial"])()
# Introduce sleep so that the Authentication failure happens and the device state moves to Disconnect
time.sleep(15)
power_port = args["power_port"]
v_up_port = args["v_up_port"]
v_down_port = args["v_down_port"]
# Test start #
try:
relay_steps.reboot_main_os(serial=serial,
relay_type=relay_type,
relay_port=relay_port,
power_port=power_port,
v_down_port=v_down_port,
v_up_port=v_up_port,
wait_ui=True)()
ui_steps.wake_up_device(serial=serial)()
ui_steps.unlock_device(serial=serial)()
# Reboot into fastboot #
adb_steps.reboot(command="fastboot", serial=serial)()
# Check the vars
fastboot_steps.check_all_vars(serial=serial)()
except:
raise
finally:
relay_steps.reboot_main_os(serial=serial,
relay_type=relay_type,
relay_port=relay_port,
power_port=power_port,
v_down_port=v_down_port,
v_up_port=v_up_port,
reset_rds = args["reset_rds"]
else:
reset_rds = False
##### start Ada Radio ####
radio.start_radio(" -n " + str(radio_name) + " -f " + str(frequency) +
" --TA " + ta + " --PI " + str(pi) + " --PTY " + str(pty))
##### test start #####
# turn display on, if turned off
ui_steps.wake_up_device(serial=serial)()
# ensure the device is unlocked
ui_steps.unlock_device(pin=wifi_defaults.wifi['pin'], serial=serial)()
# clear logcat
logcat_steps.clear_logcat(serial=serial)()
# start the FM Radio app
radio_steps.start_fmradio(serial=serial,
frequency=frequency,
rds="ON",
ta="ON",
af="ON",
wait_time=10)()
# check the Radio Data System (RDS) data is supported
logcat_steps.grep_for(serial=serial,
grep_for_text="radio_hw: PS: " + radio_name,
