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iwd
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iwd/autotests/test2AP/twoNetworksTest.py

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#!/usr/bin/python3
#built-in python libraries
import unittest
from gi.repository import GLib
import dbus
import dbus.service
import dbus.mainloop.glib
import time
import threading
import logging
from subprocess import Popen
import sys
import os
sys.path.append('../utility') #needed to import all the utlilty modules
import utility
def getSecondNetworkToConnect(objectList, firstNetworkName):
logger.debug(sys._getframe().f_code.co_name)
for path in objectList:
if utility.IWD_DEVICE_INTERFACE not in objectList[path]:
continue
for path2 in objectList:
if not path2.startswith(path) or \
utility.IWD_NETWORK_INTERFACE not in objectList[path2]:
continue
network = objectList[path2][utility.IWD_NETWORK_INTERFACE]
for key in network.keys():
if key in ["Name"]:
# skip the first connected network
if (network[key] == firstNetworkName):
continue
return path2
return ""
class TestTwoNetworks(unittest.TestCase):
# connect to network A. disconnect from network A.
# connect to network B. disconnect from network B.
def connectToNetwork(self, networkToConnect):
# start simpleAgent
proc = Popen([sys.executable, '../utility/simpleAgent.py'])
time.sleep(2)
network = dbus.Interface(bus.get_object(utility.IWD_SERVICE,
networkToConnect),
utility.IWD_NETWORK_INTERFACE)
status = utility.connect(networkToConnect, self, mainloop, bus)
if status == False:
#terminate proc
proc.terminate()
return
connectedNetworkName = utility.getCurrentlyConnectedNetworkName()
logger.info("Currently connected to: %s", connectedNetworkName)
self.assertIn(connectedNetworkName, networkListToMatch)
# remove the network we just matched from the list
networkListToMatch.remove(connectedNetworkName)
# wait 2 seconds before initiating disconnect
time.sleep(2)
# retrieve the deviceId form networkToConnect. This will be used
# for checking if we are disconnecting from the right device later.
deviceIdIndex = networkToConnect.rfind("/", 0,
len(networkToConnect))
deviceIdOfConnectedNetwork = networkToConnect[0:deviceIdIndex]
deviceIdToDisconnect = utility.getCurrentlyConnectedDevice()
logger.info("Disconnecting from: %s", deviceIdToDisconnect)
self.assertEqual(deviceIdToDisconnect, deviceIdOfConnectedNetwork)
utility.disconnect(deviceIdToDisconnect, mainloop, bus)
#terminate proc
proc.terminate()
return connectedNetworkName
def doConnectDisconnectTwoNetworks(self):
objectList = utility.getObjectList(bus)
networkToConnect = utility.getNetworkToConnectTo(objectList)
# check if networkToConnect is not null. If yes, restart program
# so that the network list is updated. Alternatively, we can scan
# for networks.
if (networkToConnect == ""):
time.sleep(2)
logger.debug("RESTART PROGRAM")
os.execl(sys.executable, sys.executable, * sys.argv)
self.assertNotEqual(networkToConnect, "")
# connect to 1st network
connectedNetworkName = self.connectToNetwork(networkToConnect)
# connect to the 2nd network
secondNetworkToConnect = getSecondNetworkToConnect(objectList,
connectedNetworkName)
connectedNetwork = self.connectToNetwork(secondNetworkToConnect)
def test_twoNetworks(self):
logger.info(sys._getframe().f_code.co_name)
while (True):
if bus.name_has_owner(utility.IWD_SERVICE) == True:
break
self.doConnectDisconnectTwoNetworks()
@classmethod
def setUpClass(cls):
global logger, bus, mainloop, networkListToMatch
utility.initLogger()
logger = logging.getLogger(__name__)
mainloop = GLib.MainLoop()
dbus.mainloop.glib.DBusGMainLoop(set_as_default=True)
bus = dbus.SystemBus()
# we should connect to these networks - in any order
networkListToMatch = ["IntelWIFI", "PersonalWIFI"]
@classmethod
def tearDown(self):
mainloop.quit()
if __name__ == '__main__':
unittest.main(exit=True)
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