Esempio n. 1
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    def test_setup_expert(self):
        """
        This UnitTest executes the wca_setup_expert-function with the given config-file.
        It sets the values of all the  from WebInterface of the Router.
        """
        # Create router
        router = Router(1, "vlan1", 21, "10.223.254.254", 16, "192.168.1.1",
                        24, "root", "root", 1)
        router.model = "TP-LINK TL-WR841N/ND v9"
        router.mac = "e8:de:27:b7:7c:e2"
        router.mode = Mode.configuration
        assert isinstance(router, Router)
        # Config
        config = ConfigManager().get_web_interface_dict()[0]
        self.assertEqual(len(config), 30, "Wrong size of the Config-Directory")
        # Create NetworkCrtl
        network_ctrl = NetworkCtrl(router, 'eth0')
        assert isinstance(network_ctrl, NetworkCtrl)

        try:
            web_config_assist = RouterWebConfiguration(router,
                                                       config,
                                                       wizard=True)
            web_config_assist.start()
            web_config_assist.join()
        except Exception as e:
            Logger().error(str(e))
        finally:
            assert router.mode == Mode.normal
            network_ctrl.exit()
    def test_setup_expert(self):
        """
        This UnitTest executes the wca_setup_expert-function with the given config-file.
        It sets the values of all the  from WebInterface of the Router.
        """
        # Create router
        router = Router(1, "vlan1", 21, "10.223.254.254", 16, "192.168.1.1", 24, "root", "root", 1)
        router.model = "TP-LINK TL-WR841N/ND v9"
        router.mac = "e8:de:27:b7:7c:e2"
        router.mode = Mode.configuration
        assert isinstance(router, Router)
        # Config
        config = ConfigManager().get_web_interface_dict()[0]
        self.assertEqual(len(config), 30, "Wrong size of the Config-Directory")
        # Create NetworkCrtl
        network_ctrl = NetworkCtrl(router, 'eth0')
        assert isinstance(network_ctrl, NetworkCtrl)

        try:
            web_config_assist = RouterWebConfiguration(router, config, wizard=True)
            web_config_assist.start()
            web_config_assist.join()
        except Exception as e:
            Logger().error(str(e))
        finally:
            assert router.mode == Mode.normal
            network_ctrl.exit()
Esempio n. 3
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 def __init__(self, power_strip: Ubnt, on_or_off: bool, port: int):
     Thread.__init__(self)
     self.power_strip = power_strip
     self.on_or_off = on_or_off
     self.port = port
     self.network_ctrl = NetworkCtrl(self.power_strip)
     self.daemon = True
Esempio n. 4
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 def __init__(self, router: Router):
     """
     :param router: Router-Obj
     """
     Thread.__init__(self)
     self.router = router
     self.network_ctrl = NetworkCtrl(self.router)
     self.daemon = True
 def run(self):
     """
     Copies the firmware image onto the Router, proves if the firmware is in the right file(/tmp/<firmware_name>.bin)
     and does a Sysupgrade.
     """
     network_ctrl = NetworkCtrl(self.router)
     try:
         network_ctrl.connect_with_remote_system()
     except Exception as e:
         logging.warning("%s[-] Couldn't sysupgrade the Router(" + str(self.router.id) + ")",
                         LoggerSetup.get_log_deep(2))
         logging.warning(str(e))
         return
     network_ctrl.remote_system_wget(self.router.firmware.file, '/tmp/', self.web_server_ip)
     # sysupgrade -n <firmware_name> // -n verwirft die letzte firmware
     arg = '-n' if self.n else ''
     if not self.debug:
         logging.debug("%sSysupgrade (this will force a TimeoutError)...", LoggerSetup.get_log_deep(2))
         try:
             network_ctrl.send_command('sysupgrade ' + arg + ' ' + '/tmp/' + self.router.firmware.name)
         except TimeoutError:
             try:
                 Dhclient.update_ip(self.router.vlan_iface_name)
                 self._success_handling()
             except FileExistsError:
                 self._success_handling()
                 pass
             except Exception:
                 self._execption_hanling()
         except Exception:
             self._execption_hanling()
     network_ctrl.exit()
 def run(self):
     """
     Copies the firmware image onto the Router, proves if the firmware is in the right file(/tmp/<firmware_name>.bin)
     and does a Sysupgrade.
     :return:
     """
     network_ctrl = NetworkCtrl(self.router)
     try:
         network_ctrl.connect_with_remote_system()
     except Exception as e:
         logging.warning("[-] Couldn't sysupgrade the Router(" + str(self.router.id) + ")")
         logging.warning(str(e))
         return
     network_ctrl.remote_system_wget(self.router.firmware.file, '/tmp/', self.web_server_ip)
     # sysupgrade -n <firmware_name> // -n verwirft die letzte firmware
     arg = '-n' if self.n else ''
     if not self.debug:
         logging.debug("sysupgrade ...")
         try:
             network_ctrl.send_command('sysupgrade ' + arg + ' ' + '/tmp/' + self.router.firmware.name)
         except TimeoutError:
             logging.info("%s[+] Router was set into normal mode", LoggerSetup.get_log_deep(2))
             self.router.mode = Mode.configuration
             if Dhclient.update_ip(self.router.vlan_iface_name) == 1:
                 self.router.mode = Mode.unknown
                 logging.error("%s[-] Something went wrong. Use command 'online -r " + str(self.router.id) + "'",
                               LoggerSetup.get_log_deep(2))
         except Exception as e:
             self.router.mode = Mode.unknown
             logging.error("[-] Something went wrong. Use command 'online -r " + str(self.router.id) + "'")
             logging.error(str(e))
     network_ctrl.exit()
 def test_router_wget(self):
     # Create router
     router = Router(1, "vlan1", 21, "10.223.254.254", 16, "192.168.1.1",
                     24, "root", "root", 1)
     router.model = "TP-LINK TL-WR841N/ND v9"
     router.mac = "e8:de:27:b7:7c:e2"
     # Has to be matched with the current mode (normal, configuration)
     router.mode = Mode.configuration
     assert isinstance(router, Router)
     # Create NetworkCrtl
     network_ctrl = NetworkCtrl(router, 'eth0')
     assert isinstance(network_ctrl, NetworkCtrl)
     self.assertRaises(Exception, network_ctrl.connect_with_remote_system())
     # Create test file 'test_wget.txt'
     path = os.path.dirname(__file__)
     file = open(path + '/test_wget.txt', 'w+')
     # The Router downloads this file via wget from the raspberryPi
     network_ctrl.remote_system_wget(path + '/test_wget.txt', '/tmp/')
     # Tests if the file has successful downloaded
     output = network_ctrl.send_command(
         "test -f '/tmp/test_wget.txt' && echo True")
     self.assertEqual(output, "['True\\n']")
     # Test
     output = network_ctrl.send_command(
         "rm '/tmp/test_wget.txt' && echo True")
     self.assertEqual(output, "['True\\n']")
     file.close()
     network_ctrl.exit()
 def test_connection(self):
     # Create router
     router = Router(1, "vlan1", 21, "10.223.254.254", 16, "192.168.1.1", 24, "root", "root", 1)
     router.model = "TP-LINK TL-WR841N/ND v9"
     router.mac = "e8:de:27:b7:7c:e2"
     # Has to be matched with the current mode (normal, configuration)
     router.mode = Mode.configuration
     assert isinstance(router, Router)
     # Create NetworkCrtl
     network_ctrl = NetworkCtrl(router, 'eth0')
     assert isinstance(network_ctrl, NetworkCtrl)
     # network_ctrl.connect_with_router()
     network_ctrl.exit()
Esempio n. 9
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 def test_connection(self):
     """
     Test:
         1. Google or FreiFunk is reachable via a Ping
     """
     logging.debug("%sTest: Existence of an Internet-Connection",
                   LoggerSetup.get_log_deep(1))
     assert self.remote_system.mode == Mode.normal
     logging.debug("%s[" + u"\u2714" + "] Correct Mode",
                   LoggerSetup.get_log_deep(2))
     network_ctrl = NetworkCtrl(self.remote_system)
     network_ctrl.connect_with_remote_system()
     ping_result1 = network_ctrl.send_command(
         "ping -c 5 8.8.8.8 | grep received")
     ping_result2 = network_ctrl.send_command(
         "ping -c 5 freifunk.net | grep received")
     self.assertTrue(
         self._ping_successful(ping_result1[0])
         or self._ping_successful(ping_result2[0]),
         "No Internet-Connection")
     logging.debug(
         "%s[" + u"\u2714" +
         "] At least one Ping was successful => An Internet-Connection exist",
         LoggerSetup.get_log_deep(2))
     network_ctrl.exit()
 def test_connection(self):
     # Create router
     router = Router(1, "vlan1", 21, "10.223.254.254", 16, "192.168.1.1",
                     24, "root", "root", 1)
     router.model = "TP-LINK TL-WR841N/ND v9"
     router.mac = "e8:de:27:b7:7c:e2"
     # Has to be matched with the current mode (normal, configuration)
     router.mode = Mode.configuration
     assert isinstance(router, Router)
     # Create NetworkCrtl
     network_ctrl = NetworkCtrl(router, 'eth0')
     assert isinstance(network_ctrl, NetworkCtrl)
     # network_ctrl.connect_with_router()
     network_ctrl.exit()
Esempio n. 11
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 def test_router_wget(self):
     # Create router
     router = Router(1, "vlan1", 21, "10.223.254.254", 16, "192.168.1.1", 24, "root", "root", 1)
     router.model = "TP-LINK TL-WR841N/ND v9"
     router.mac = "e8:de:27:b7:7c:e2"
     # Has to be matched with the current mode (normal, configuration)
     router.mode = Mode.configuration
     assert isinstance(router, Router)
     # Create NetworkCrtl
     network_ctrl = NetworkCtrl(router, 'eth0')
     assert isinstance(network_ctrl, NetworkCtrl)
     self.assertRaises(Exception, network_ctrl.connect_with_remote_system())
     # Create test file 'test_wget.txt'
     path = os.path.dirname(__file__)
     file = open(path + '/test_wget.txt', 'w+')
     # The Router downloads this file via wget from the raspberryPi
     network_ctrl.remote_system_wget(path + '/test_wget.txt', '/tmp/')
     # Tests if the file has successful downloaded
     output = network_ctrl.send_command("test -f '/tmp/test_wget.txt' && echo True")
     self.assertEqual(output, "['True\\n']")
     # Test
     output = network_ctrl.send_command("rm '/tmp/test_wget.txt' && echo True")
     self.assertEqual(output, "['True\\n']")
     file.close()
     network_ctrl.exit()
 def run(self):
     """
     Instantiate a NetworkCtrl, proves if the firmware is on the Router(/tmp/<firmware_name>.bin)
     and does a Sysupgrade.
     :return:
     """
     network_ctrl = NetworkCtrl(self.router, 'eth0')
     network_ctrl.connect_with_remote_system()
     network_ctrl.remote_system_wget(self.router.firmware.file, '/tmp/')
     # sysupgrade -n <firmware_name> // -n verwirft die letzte firmware
     arg = '-n' if self.n else ''
     network_ctrl.send_command('sysupgrade ' + arg + ' ' + '/tmp/' +
                               self.router.firmware.name)
     network_ctrl.exit()
 def __init__(self, router: Router, power_strip: Ubnt, on_or_off: bool, port: int):
     """
     :param router: Affected Router-Obj
     :param power_strip: Affected Powerstrip-Obj
     :param on_or_off: 'True' for on, 'False' for off
     :param port: ID of the powerstrip pot
     """
     Thread.__init__(self)
     self.router = router
     self.power_strip = power_strip
     self.on_or_off = on_or_off
     self.port = port
     self.network_ctrl = NetworkCtrl(self.power_strip)
     self.daemon = True
Esempio n. 14
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 def test_send_command(self):
     # Create router
     router = Router(1, "vlan1", 21, "10.223.254.254", 16, "192.168.1.1", 24, "root", "root", 1)
     router.model = "TP-LINK TL-WR841N/ND v9"
     router.mac = "e8:de:27:b7:7c:e2"
     # Has to be matched with the current mode (normal, configuration)
     router.mode = Mode.configuration
     assert isinstance(router, Router)
     # Create NetworkCrtl
     network_ctrl = NetworkCtrl(router, 'eth0')
     assert isinstance(network_ctrl, NetworkCtrl)
     # Test if the command 'uname' could be send via ssh
     self.assertRaises(Exception, network_ctrl.connect_with_remote_system())
     output = network_ctrl.send_command("uname")
     self.assertEqual(output, "['Linux\\n']")
     network_ctrl.exit()
Esempio n. 15
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    def __init__(self, vlan_iface_name: str, vlan_iface_id: int, ip: str,
                 ip_mask: int, usr_name: str, usr_password: str):

        # Static IP of Ubiquiti mPower 6
        self.ip = "192.168.1.20"
        self.ip = ip

        self.vlan_iface_id = None
        self.vlan_iface_id = vlan_iface_id

        self.vlan_iface_name = None
        self.vlan_iface_name = vlan_iface_name

        self.ip_mask = None
        self.ip_mask = ip_mask

        # Default Ubiquiti username
        self.usr_name = "ubnt"
        self.usr_name = usr_name

        # Default Ubiquiti password
        self.usr_password = "******"
        self.usr_password = usr_password

        global network_ctrl
        network_ctrl = NetworkCtrl(self)
Esempio n. 16
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 def __init__(self, power_strip: Ubnt, on_or_off: bool, port: int):
     Thread.__init__(self)
     self.power_strip = power_strip
     self.on_or_off = on_or_off
     self.port = port
     self.network_ctrl = NetworkCtrl(self.power_strip)
     self.daemon = True
 def run(self):
     """
     Instantiate a NetworkCtrl, proves if the firmware is on the Router(/tmp/<firmware_name>.bin)
     and does a Sysupgrade.
     :return:
     """
     network_ctrl = NetworkCtrl(self.router, 'eth0')
     network_ctrl.connect_with_remote_system()
     network_ctrl.remote_system_wget(self.router.firmware.file, '/tmp/')
     # sysupgrade -n <firmware_name> // -n verwirft die letzte firmware
     arg = '-n' if self.n else ''
     network_ctrl.send_command('sysupgrade ' + arg + ' ' + '/tmp/' + self.router.firmware.name)
     network_ctrl.exit()
Esempio n. 18
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 def __init__(self, router: Router):
     """
     :param router: Router-Obj
     """
     Thread.__init__(self)
     self.router = router
     self.network_ctrl = NetworkCtrl(self.router)
     self.daemon = True
Esempio n. 19
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 def run(self):
     """
     Instantiate a NetworkCtrl and setup the webinterface of the Router
     """
     Logger().info("Sysupdate Firmware for Router(" + str(self.router.id) +
                   ") ...")
     network_ctrl = NetworkCtrl(self.router, 'eth0')
     network_ctrl.wca_setup_expert(self.webinterface_config)
     network_ctrl.wca_setup_wizard(self.webinterface_config)
     network_ctrl.exit()
 def setUpClass(cls):
     cls.router = cls._create_router()
     # NVAssisten
     cls.nv_assist = NVAssistent("eth0")
     cls.nv_assist.create_namespace_vlan(cls.router)
     # Set netns for the current process
     netns.setns(cls.router.namespace_name)
     # Create NetworkCrtl
     cls.network_ctrl = NetworkCtrl(cls.router)
     assert isinstance(cls.network_ctrl, NetworkCtrl)
 def run(self):
     """
     Instantiate a NetworkCtrl and setup the webinterface of the Router
     """
     Logger().info("Sysupdate Firmware for Router(" + str(self.router.id) + ") ...")
     network_ctrl = NetworkCtrl(self.router, 'eth0')
     network_ctrl.wca_setup_expert(self.webinterface_config)
     network_ctrl.wca_setup_wizard(self.webinterface_config)
     network_ctrl.exit()
    def test_setup_expert(self):
        """
        This UnitTest executes the wca_setup_expert-function with the given config-file.
        It sets the values of all the  from WebInterface of the Router.
        """
        # Create router
        router = Router(1, "vlan1", 21, "10.223.254.254", 16, "192.168.1.1", 24, "root", "root", 1)
        router.model = "TP-LINK TL-WR841N/ND v9"
        router.mac = "e8:de:27:b7:7c:e2"
        router.mode = Mode.configuration
        assert isinstance(router, Router)
        # Config
        config = ConfigManager().get_web_interface_dict()[0]
        self.assertEqual(len(config), 30, "Wrong size of the Config-Directory")
        # Create NetworkCrtl
        network_ctrl = NetworkCtrl(router, "eth0")
        assert isinstance(network_ctrl, NetworkCtrl)

        self.assertRaises(Exception, network_ctrl.wca_setup_expert(config))

        network_ctrl.exit()
    def run(self):
        """
        Runs new thread and gets the information from the router via ssh

        :return:
        """
        network_ctrl = NetworkCtrl(self.router, 'eth0')
        network_ctrl.connect_with_remote_system()
        # Model
        self.router.model = network_ctrl.send_command(
            'cat /proc/cpuinfo | grep machine').split(":")[1][:-4]
        # MAC
        self.router.mac = network_ctrl.send_command(
            'uci show network.client.macaddr').split('=')[1][:-4]
        # SSID
        self.router.ssid = network_ctrl.send_command(
            'uci show wireless.client_radio0.ssid').split('=')[1][:-4]
        network_ctrl.exit()
    def test_setup_expert(self):
        """
        This UnitTest executes the wca_setup_expert-function with the given config-file.
        It sets the values of all the  from WebInterface of the Router.
        """
        # Create router
        router = Router(1, "vlan1", 21, "10.223.254.254", 16, "192.168.1.1",
                        24, "root", "root", 1)
        router.model = "TP-LINK TL-WR841N/ND v9"
        router.mac = "e8:de:27:b7:7c:e2"
        router.mode = Mode.configuration
        assert isinstance(router, Router)
        # Config
        config = ConfigManager().get_web_interface_dict()[0]
        self.assertEqual(len(config), 30, "Wrong size of the Config-Directory")
        # Create NetworkCrtl
        network_ctrl = NetworkCtrl(router, 'eth0')
        assert isinstance(network_ctrl, NetworkCtrl)

        self.assertRaises(Exception, network_ctrl.wca_setup_expert(config))

        network_ctrl.exit()
Esempio n. 25
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 def run(self):
     """
     Copies the firmware image onto the Router, proves if the firmware is in the right file(/tmp/<firmware_name>.bin)
     and does a Sysupgrade.
     :return:
     """
     network_ctrl = NetworkCtrl(self.router)
     try:
         network_ctrl.connect_with_remote_system()
     except Exception as e:
         logging.warning("[-] Couldn't sysupgrade the Router(" +
                         str(self.router.id) + ")")
         logging.warning(str(e))
         return
     network_ctrl.remote_system_wget(self.router.firmware.file, '/tmp/',
                                     self.web_server_ip)
     # sysupgrade -n <firmware_name> // -n verwirft die letzte firmware
     arg = '-n' if self.n else ''
     if not self.debug:
         logging.debug("sysupgrade ...")
         try:
             network_ctrl.send_command('sysupgrade ' + arg + ' ' + '/tmp/' +
                                       self.router.firmware.name)
         except TimeoutError:
             logging.info("%s[+] Router was set into normal mode",
                          LoggerSetup.get_log_deep(2))
             self.router.mode = Mode.configuration
             if Dhclient.update_ip(self.router.vlan_iface_name) == 1:
                 self.router.mode = Mode.unknown
                 logging.error(
                     "%s[-] Something went wrong. Use command 'online -r " +
                     str(self.router.id) + "'", LoggerSetup.get_log_deep(2))
         except Exception as e:
             self.router.mode = Mode.unknown
             logging.error(
                 "[-] Something went wrong. Use command 'online -r " +
                 str(self.router.id) + "'")
             logging.error(str(e))
     network_ctrl.exit()
Esempio n. 26
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 def run(self):
     """
     Copies the firmware image onto the Router, proves if the firmware is in the right file(/tmp/<firmware_name>.bin)
     and does a Sysupgrade.
     """
     network_ctrl = NetworkCtrl(self.router)
     try:
         network_ctrl.connect_with_remote_system()
     except Exception as e:
         logging.warning(
             "%s[-] Couldn't sysupgrade the Router(" + str(self.router.id) +
             ")", LoggerSetup.get_log_deep(2))
         logging.warning(str(e))
         return
     network_ctrl.remote_system_wget(self.router.firmware.file, '/tmp/',
                                     self.web_server_ip)
     # sysupgrade -n <firmware_name> // -n verwirft die letzte firmware
     arg = '-n' if self.n else ''
     if not self.debug:
         logging.debug("%sSysupgrade (this will force a TimeoutError)...",
                       LoggerSetup.get_log_deep(2))
         try:
             network_ctrl.send_command('sysupgrade ' + arg + ' ' + '/tmp/' +
                                       self.router.firmware.name)
         except TimeoutError:
             try:
                 Dhclient.update_ip(self.router.vlan_iface_name)
                 self._success_handling()
             except FileExistsError:
                 self._success_handling()
                 pass
             except Exception:
                 self._execption_hanling()
         except Exception:
             self._execption_hanling()
     network_ctrl.exit()
Esempio n. 27
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    def test_power(self):
        ps = self.create_powerstrip()
        global network_ctrl
        network_ctrl = NetworkCtrl(ps)
        # Port
        port = 1
        q = Queue()
        p = Process(target=self._power_off, args=(ps, q, port))
        p.start()
        print("Turn off the power...")
        p.join()

        p2 = Process(target=self._power_on, args=(ps, q, port))
        p2.start()
        print("Turn on the power...")
        p2.join()
    def run(self):
        """
        Runs new thread and gets the information from the router via ssh

        :return:
        """
        network_ctrl = NetworkCtrl(self.router, 'eth0')
        network_ctrl.connect_with_remote_system()
        # Model
        self.router.model = network_ctrl.send_command(
            'cat /proc/cpuinfo | grep machine').split(":")[1][:-4]
        # MAC
        self.router.mac = network_ctrl.send_command(
            'uci show network.client.macaddr').split('=')[1][:-4]
        # SSID
        self.router.ssid = network_ctrl.send_command(
            'uci show wireless.client_radio0.ssid').split('=')[1][:-4]
        network_ctrl.exit()
 def test_connection(self):
     """
     Test:
         1. Google or FreiFunk is reachable via a Ping
     """
     logging.debug("%sTest: Existence of an Internet-Connection", LoggerSetup.get_log_deep(1))
     assert self.remote_system.mode == Mode.normal
     logging.debug("%s[" + u"\u2714" + "] Correct Mode", LoggerSetup.get_log_deep(2))
     network_ctrl = NetworkCtrl(self.remote_system)
     network_ctrl.connect_with_remote_system()
     ping_result1 = network_ctrl.send_command("ping -c 5 8.8.8.8 | grep received")
     ping_result2 = network_ctrl.send_command("ping -c 5 freifunk.net | grep received")
     self.assertTrue(self._ping_successful(ping_result1[0]) or self._ping_successful(ping_result2[0]),
                     "No Internet-Connection")
     logging.debug("%s[" + u"\u2714" + "] At least one Ping was successful => An Internet-Connection exist",
                   LoggerSetup.get_log_deep(2))
     network_ctrl.exit()
 def test_send_command(self):
     # Create router
     router = Router(1, "vlan1", 21, "10.223.254.254", 16, "192.168.1.1",
                     24, "root", "root", 1)
     router.model = "TP-LINK TL-WR841N/ND v9"
     router.mac = "e8:de:27:b7:7c:e2"
     # Has to be matched with the current mode (normal, configuration)
     router.mode = Mode.configuration
     assert isinstance(router, Router)
     # Create NetworkCrtl
     network_ctrl = NetworkCtrl(router, 'eth0')
     assert isinstance(network_ctrl, NetworkCtrl)
     # Test if the command 'uname' could be send via ssh
     self.assertRaises(Exception, network_ctrl.connect_with_remote_system())
     output = network_ctrl.send_command("uname")
     self.assertEqual(output, "['Linux\\n']")
     network_ctrl.exit()
Esempio n. 31
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class PowerStripControl(Thread):
    def __init__(self, power_strip: Ubnt, on_or_off: bool, port: int):
        Thread.__init__(self)
        self.power_strip = power_strip
        self.on_or_off = on_or_off
        self.port = port
        self.network_ctrl = NetworkCtrl(self.power_strip)
        self.daemon = True

    def run(self):
        """
        Runs new thread
        """
        self.network_ctrl.connect_with_remote_system()
        cmd = self.create_command(self.on_or_off, self.port)
        self.network_ctrl.send_command(cmd)

        check = self._port_status(self.port)
        result = self.network_ctrl.send_command(check)
        result = result[0]
        if self.on_or_off:
            if result == "1":
                logging.info("[+] Successfully switched on port " +
                             str(self.port))
            else:
                logging.info("[-] Error switching on port " + str(self.port))
        else:
            if result == "0":
                logging.info("[+] Successfully switched off port " +
                             str(self.port))
            else:
                logging.info("[-] Error switching off port " + str(self.port))

        self.network_ctrl.exit()

    def create_command(self, on_or_off: bool, port: int):
        return self.power_strip.create_command(port, on_or_off)

    def _port_status(self, port: int):
        return self.power_strip.port_status(port)
Esempio n. 32
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class PowerStripControl(Thread):

    def __init__(self, power_strip: Ubnt, on_or_off: bool, port: int):
        Thread.__init__(self)
        self.power_strip = power_strip
        self.on_or_off = on_or_off
        self.port = port
        self.network_ctrl = NetworkCtrl(self.power_strip)
        self.daemon = True

    def run(self):
        """
        Runs new thread
        """
        self.network_ctrl.connect_with_remote_system()
        cmd = self.create_command(self.on_or_off, self.port)
        self.network_ctrl.send_command(cmd)

        check = self._port_status(self.port)
        result = self.network_ctrl.send_command(check)
        result = result[0]
        if self.on_or_off:
            if result == "1":
                logging.info("[+] Successfully switched on port " + str(self.port))
            else:
                logging.info("[-] Error switching on port " + str(self.port))
        else:
            if result == "0":
                logging.info("[+] Successfully switched off port " + str(self.port))
            else:
                logging.info("[-] Error switching off port " + str(self.port))

        self.network_ctrl.exit()

    def create_command(self, on_or_off: bool, port: int):
        return self.power_strip.create_command(port, on_or_off)

    def _port_status(self, port: int):
        return self.power_strip.port_status(port)
Esempio n. 33
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    def run(self):
        """
        Runs new thread and trys to send a command via ssh to reboot the Router.
        """
        network_ctrl = NetworkCtrl(self.router, 'eth0')
        network_ctrl.connect_with_remote_system()
        if self.configmode:
            if self.router.mode == Mode.configuration:
                Logger().info("[+] Router is already in configuration mode", 2)
                network_ctrl.exit()
                return
            try:
                network_ctrl.send_command(
                    "uci set 'gluon-setup-mode.@setup_mode[0].enabled=1'")
                network_ctrl.send_command("uci commit")
                network_ctrl.send_command("reboot")
                self.router.mode = Mode.configuration
            except Exception as e:
                Logger().warning(
                    "[-] Couldn't set Router into configuration mode", 2)
                Logger().error(str(e), 2)
            Logger().info("[+] Router was set into configuration mode", 2)
        else:
            if self.router.mode == Mode.normal:
                Logger().info("[+] Router is already in normal mode", 2)
                network_ctrl.exit()
                return
            try:
                network_ctrl.send_command("reboot")
                self.router.mode = Mode.normal
                Logger().info("[+] Router was set into normal mode", 2)
            except Exception as e:
                Logger().warning("[-] Couldn't set Router into normal mode", 2)
                Logger().error(str(e), 2)

        network_ctrl.exit()
Esempio n. 34
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class RouterInfo(Thread):
    """
    This class gets the following information via SSH:
        1. RouterModel
        2. MAC-Address
        3. SSID
        4. NetworkInterfaces
        5. CPU-Processes-Information
        6. Memory-Information
        7. Sockets
    """ ""

    def __init__(self, router: Router):
        Thread.__init__(self)
        self.router = router
        self.network_ctrl = NetworkCtrl(self.router)
        self.daemon = True

    def run(self):
        """
        Runs new thread and gets the information from the Router via ssh
        """
        logging.info(
            "%sUpdate the Infos of the Router(" + str(self.router.id) +
            ") ...", LoggerSetup.get_log_deep(1))
        try:
            self.network_ctrl.connect_with_remote_system()

            # Model
            self.router.model = self._get_router_model()
            # MAC
            self.router.mac = self._get_router_mac()
            # SSID
            self.router.ssid = self._get_router_ssid()
            # NetworkInterfaces
            self.router.interfaces = self._get_router_network_interfaces()
            # CPUProcesses
            self.router.cpu_processes = self._get_router_cpu_process()
            # RAM
            self.router.ram = self._get_router_mem_ram()
            # Sockets
            self.router.sockets = self._get_router_sockets()
            logging.debug("%s[+] Infos updated", LoggerSetup.get_log_deep(2))
        except Exception as e:
            logging.warning("%s[-] Couldn't update all Infos",
                            LoggerSetup.get_log_deep(2))
            logging.error(str(e))
            for tb in traceback.format_tb(sys.exc_info()[2]):
                logging.error("%s" + tb, LoggerSetup.get_log_deep(3))
        finally:
            self.network_ctrl.exit()

    def _get_router_model(self) -> str:
        """
        :return: the Model of the given Router object
        """
        return self.network_ctrl.send_command(
            'cat /proc/cpuinfo | grep machine')[0].split(":")[1][1:-1]

    def _get_router_mac(self) -> str:
        """
        :return: the MAC of the given Router object
        """
        return self.network_ctrl.send_command(
            'uci show network.client.macaddr')[0].split('=')[1][:-1]

    def _get_router_ssid(self):
        """
        :return: the SSID of the given Router object
        """
        return self.network_ctrl.send_command(
            'uci show wireless.client_radio0.ssid')[0].split('=')[1][:-1]

    def _get_router_network_interfaces(self) -> Dict:
        """
        :return: the network interfaces of the given Router object
        """
        interfaces = dict()
        # Get all network interfaces
        raw_iface_lst = self.network_ctrl.send_command(
            "ip a | grep '^[0-9]*:*:'")
        iface_names_lst = list()
        iface_id_lst = list()

        # Get only the wifi interfaces
        raw_wifi_inface_name_lst = self.network_ctrl.send_command(
            "iw dev | grep Interface")
        wifi_iface_name_lst = list()
        for raw_wifi_iface_name in raw_wifi_inface_name_lst:
            wifi_iface_name_lst.append(
                raw_wifi_iface_name.split("Interface ")[1].replace("\n", ""))

        # transform a line tmp:
        # '2: enp0s25: <NO-CARRIER,BROADCAST,MULTICAST,UP> mtu 1500 qdisc fq_codel state DOWN group default qlen 1000'
        # into '2'; 'enp0s25' and lists it.
        for raw_iface in raw_iface_lst:
            # Iface Id
            iface_id = int(raw_iface.split(":")[0])
            if iface_id_lst.count(iface_id) == 0:
                iface_id_lst.append(iface_id)

            # Iface Name
            iface_name = raw_iface.split(":")[1].replace(" ", "")
            if "@" in iface_name:
                iface_name = iface_name.split("@")[0]
            if iface_names_lst.count(iface_name) == 0:
                iface_names_lst.append(iface_name)

        # Take the information of the interfaces separately
        for i, iface_id in enumerate(iface_id_lst):
            iface_name = iface_names_lst[i]
            interface = NetworkInterface(iface_id, iface_name)
            raw_iface_info_lst = self.network_ctrl.send_command(
                "ip addr show " + iface_name)
            for raw_iface_info in raw_iface_info_lst:
                # Status
                raw_status = raw_iface_info.split("state")
                if len(raw_status) > 1:
                    status = raw_status[1].split(" ")[1]
                    # Status: UP | DOWN | UNKNOWN
                    if status == "UP":
                        interface.status = Status.up
                    elif status == "DOWN":
                        interface.status = Status.down
                    else:
                        interface.status = Status.unknown

                # MAC
                raw_mac = raw_iface_info.split("link/ether")
                if len(raw_mac) > 1:
                    raw_mac = raw_mac[1].split()
                    interface.mac = raw_mac[0]

                # IP Address
                raw_ip = raw_iface_info.split("inet")
                if len(raw_ip) > 1:
                    raw_ip = raw_ip[1].split(" ")[1].split("/")
                    interface.add_ip_address(raw_ip[0], int(raw_ip[1]))

                # Wifi information
                if wifi_iface_name_lst.count(iface_name) != 0:
                    interface.wifi_information = self.__get_wifi_information(
                        iface_name)
            interfaces[iface_name] = interface
        return interfaces

    def __get_wifi_information(self, iface_name: str) -> WifiInformation:
        """
        If the given interface name belongs to an wifi interface, there are some more infomations.

        :param iface_name: Name of the network interface
        :return: WifiInformation
        """
        wifi_information = WifiInformation()
        raw_wifi_info_lst = self.network_ctrl.send_command("iw dev")
        right_iface = False

        for raw_wifi_info in raw_wifi_info_lst:
            raw_wifi_info = raw_wifi_info.replace("\n", "")
            if "Interface" in raw_wifi_info:
                right_iface = True if iface_name in raw_wifi_info else False
            elif right_iface:
                if "wdev" in raw_wifi_info:
                    wifi_information.wdev = raw_wifi_info.split(" ")[1]
                elif "ssid" in raw_wifi_info:
                    wifi_information.ssid = raw_wifi_info.split(" ")[1]
                elif "type" in raw_wifi_info:
                    wifi_information.type = raw_wifi_info.split(" ")[1]
                elif "channel" in raw_wifi_info:
                    wifi_information.channel = int(raw_wifi_info.split(" ")[1])
                    wifi_information.channel_width = int(
                        raw_wifi_info.split(" ")[5])
                    wifi_information.channel_center1 = int(
                        raw_wifi_info.split(" ")[8])
        return wifi_information

    def _get_router_cpu_process(self) -> List:
        """
        :return: The cpu processes of the given Router object
        """
        cpu_processes = list()
        raw_cpu_process_lst = self.network_ctrl.send_command("top -n 1")
        # A line looks like:
        # 1051  1020 root     R     1388   5%   9% firefox
        for cpu_process_info_line in raw_cpu_process_lst[4:]:
            cpu_process_info_lst = cpu_process_info_line.split()

            if len(cpu_process_info_lst) > 7:
                # Get the infos
                pid = int(cpu_process_info_lst[0])
                user = cpu_process_info_lst[2]
                mem = float(cpu_process_info_lst[5].replace("%", ""))
                cpu = float(cpu_process_info_lst[6].replace("%", ""))
                command = ""
                for i in range(7, len(cpu_process_info_lst)):
                    command += cpu_process_info_lst[i]
                cpu_process = CPUProcess(pid, user, mem, cpu, command)
                cpu_processes.append(cpu_process)
        return cpu_processes

    def _get_router_mem_ram(self) -> RAM:
        """
        :return: The RAM of the given Router.
        """
        ram = None
        raw_mem_lst = self.network_ctrl.send_command("free -m")[1:]
        for ram_info_line in raw_mem_lst:
            if "Mem" in ram_info_line:
                # Split and remove the spaces
                ram_info_lst = ram_info_line.split()
                # Get the infos
                total = int(ram_info_lst[1])
                used = int(ram_info_lst[2])
                free = int(ram_info_lst[3])
                shared = int(ram_info_lst[4])
                buffers = int(ram_info_lst[5])
                ram = RAM(total, used, free, shared, buffers)
        return ram

    def _get_router_sockets(self) -> List:
        """
        :return: The Sockets of the Router.
        """
        socket_lst = list()
        raw_socket_lst = self.network_ctrl.send_command("netstat -taupn")[2:]
        for raw_socket in raw_socket_lst:
            # raw_socket looks like:
            # tcp        0     32 192.168.1.1:22          192.168.1.239:51891     ESTABLISHED 1067/dropbear
            raw_socket = raw_socket.split()
            socket = InternetSocket()
            socket.protocol = raw_socket[0]
            raw_local_address = raw_socket[3].split(":")
            socket.local_address = raw_local_address[0] if len(
                raw_local_address) == 2 else "::"
            socket.local_port = raw_local_address[-1]
            raw_foreign_address = raw_socket[4].split(":")
            socket.foreign_address = raw_foreign_address[0] if len(
                raw_foreign_address) == 2 else "::"
            socket.foreign_port = raw_foreign_address[-1]
            raw_process = "-1/error"
            if raw_socket[0] == "tcp":
                socket.state = raw_socket[5]
                raw_process = raw_socket[6].split("/")
            elif raw_socket[0] == "udp":
                raw_process = raw_socket[5].split("/")
            socket.pid = int(raw_process[0])
            socket.program_name = raw_process[1]
            socket_lst.append(socket)
        return socket_lst
Esempio n. 35
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 def __init__(self, router: Router):
     Thread.__init__(self)
     self.router = router
     self.network_ctrl = NetworkCtrl(self.router)
     self.daemon = True
    def run(self):
        """
        Runs new thread and trys to send a command via ssh to reboot the Router.
        """
        network_ctrl = NetworkCtrl(self.router, "eth0")
        network_ctrl.connect_with_remote_system()
        if self.configmode:
            if self.router.mode == Mode.configuration:
                Logger().info("[+] Router is already in configuration mode", 2)
                network_ctrl.exit()
                return
            try:
                network_ctrl.send_command("uci set 'gluon-setup-mode.@setup_mode[0].enabled=1'")
                network_ctrl.send_command("uci commit")
                network_ctrl.send_command("reboot")
                self.router.mode = Mode.configuration
            except Exception as e:
                Logger().warning("[-] Couldn't set Router into configuration mode", 2)
                Logger().error(str(e), 2)
            Logger().info("[+] Router was set into configuration mode", 2)
        else:
            if self.router.mode == Mode.normal:
                Logger().info("[+] Router is already in normal mode", 2)
                network_ctrl.exit()
                return
            try:
                network_ctrl.send_command("reboot")
                self.router.mode = Mode.normal
                Logger().info("[+] Router was set into normal mode", 2)
            except Exception as e:
                Logger().warning("[-] Couldn't set Router into normal mode", 2)
                Logger().error(str(e), 2)

        network_ctrl.exit()
class PowerStripControl(Thread):
    """
    This class controls the power strip. It can switch the power on a port.
    It also checks if the power was actually turned on/off.
    """""

    def __init__(self, router: Router, power_strip: Ubnt, on_or_off: bool, port: int):
        """
        :param router: Affected Router-Obj
        :param power_strip: Affected Powerstrip-Obj
        :param on_or_off: 'True' for on, 'False' for off
        :param port: ID of the powerstrip pot
        """
        Thread.__init__(self)
        self.router = router
        self.power_strip = power_strip
        self.on_or_off = on_or_off
        self.port = port
        self.network_ctrl = NetworkCtrl(self.power_strip)
        self.daemon = True

    def run(self):
        """
        Sets the power on the port to on/off. Also checks if the power is truly on/off.
        """
        self.network_ctrl.connect_with_remote_system()
        cmd = self.create_command(self.on_or_off, self.port)
        self.network_ctrl.send_command(cmd)

        check = self._port_status(self.port)
        result = self.network_ctrl.send_command(check)
        result = result[0]
        if self.on_or_off:
            if result == "1":
                self.router.mode = Mode.normal
                logging.info("[+] Successfully switched on port " + str(self.port))
            else:
                self.router.mode = Mode.unknown
                logging.info("[-] Error switching on port " + str(self.port))
        else:
            if result == "0":
                self.router.mode = Mode.off
                logging.info("[+] Successfully switched off port " + str(self.port))
            else:
                self.router.mode = Mode.unknown
                logging.info("[-] Error switching off port " + str(self.port))

        self.network_ctrl.exit()

    def create_command(self, on_or_off: bool, port: int):
        """
        Creates the command to turn the power on the given port on or off.

        :param on_or_off: 'True' for on, 'False' for off
        :param port: ID of the port
        :return: Command as a str to control the power on the port given
        """
        return self.power_strip.create_command(port, on_or_off)

    def _port_status(self, port: int):
        return self.power_strip.port_status(port)
Esempio n. 38
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class RouterInfo(Thread):
    """
    The RouterInfo collects in a new Thread informations about the Routers.
    This class gets the following information via SSH:
        1. RouterModel
        2. MAC-Address
        3. Network-Interfaces
        4. CPU-Processes-Information
        5. Memory-Information
        6. Sockets
        7. UCI-Configurations
        8. Bat-Originators
    """""

    def __init__(self, router: Router):
        """
        :param router: Router-Obj
        """
        Thread.__init__(self)
        self.router = router
        self.network_ctrl = NetworkCtrl(self.router)
        self.daemon = True

    def run(self):
        """
        Runs new thread and gets the information from the Router via ssh.
        """
        logging.info("%sUpdate the Infos of the Router(" + str(self.router.id) + ") ...", LoggerSetup.get_log_deep(1))
        try:
            self.network_ctrl.connect_with_remote_system()

            # Model
            self.router.model = self._get_router_model()
            # MAC
            self.router.mac = self._get_router_mac()
            # NetworkInterfaces
            self.router.network_interfaces = self._get_router_network_interfaces()
            # CPUProcesses
            self.router.cpu_processes = self._get_router_cpu_process()
            # RAM
            self.router.ram = self._get_router_mem_ram()
            # Sockets
            self.router.sockets = self._get_router_sockets()
            # UCI
            self.router.uci = self._get_router_uci()
            # Bat Originators
            self.router.bat_originators = self._get_bat_originator()
            logging.info("%s[+] Infos updated", LoggerSetup.get_log_deep(2))
        except Exception as e:
            logging.error("%s[-] Couldn't update all Infos", LoggerSetup.get_log_deep(2))
            logging.error(str(e))
            for tb in traceback.format_tb(sys.exc_info()[2]):
                logging.error("%s" + tb, LoggerSetup.get_log_deep(3))
        finally:
            self.network_ctrl.exit()

    def _get_router_model(self) -> str:
        """
        :return: the Model of the given Router object
        """
        return self.network_ctrl.send_command('cat /proc/cpuinfo | grep machine')[0].split(":")[1][1:-1]

    def _get_router_mac(self) -> str:
        """
        :return: the MAC of the given Router object
        """
        return self.network_ctrl.send_command('uci show network.client.macaddr')[0].split('=')[1][:-1]

    def _get_router_ssid(self):
        """
        :return: the SSID of the given Router object
        """
        return self.network_ctrl.send_command('uci show wireless.client_radio0.ssid')[0].split('=')[1][:-1]

    def _get_router_network_interfaces(self) -> Dict:
        """
        :return: the network interfaces of the given Router object
        """
        interfaces = dict()
        # Get all network interfaces
        raw_iface_lst = self.network_ctrl.send_command("ip a | grep '^[0-9]*:*:'")
        iface_names_lst = list()
        iface_id_lst = list()

        # Get only the wifi interfaces
        raw_wifi_inface_name_lst = self.network_ctrl.send_command("iw dev | grep Interface")
        wifi_iface_name_lst = list()
        for raw_wifi_iface_name in raw_wifi_inface_name_lst:
            wifi_iface_name_lst.append(raw_wifi_iface_name.split("Interface ")[1].replace("\n", ""))

        # transform a line tmp:
        # '2: enp0s25: <NO-CARRIER,BROADCAST,MULTICAST,UP> mtu 1500 qdisc fq_codel state DOWN group default qlen 1000'
        # into '2'; 'enp0s25' and lists it.
        for raw_iface in raw_iface_lst:
            # Iface Id
            iface_id = int(raw_iface.split(":")[0])
            if iface_id_lst.count(iface_id) == 0:
                iface_id_lst.append(iface_id)

            # Iface Name
            iface_name = raw_iface.split(":")[1].replace(" ", "")
            if "@" in iface_name:
                iface_name = iface_name.split("@")[0]
            if iface_names_lst.count(iface_name) == 0:
                iface_names_lst.append(iface_name)

        # Take the information of the interfaces separately
        for i, iface_id in enumerate(iface_id_lst):
            iface_name = iface_names_lst[i]
            interface = NetworkInterface(iface_id, iface_name)
            raw_iface_info_lst = self.network_ctrl.send_command("ip addr show " + iface_name)
            for raw_iface_info in raw_iface_info_lst:
                # Status
                raw_status = raw_iface_info.split("state")
                if len(raw_status) > 1:
                    status = raw_status[1].split(" ")[1]
                    # Status: UP | DOWN | UNKNOWN
                    if status == "UP":
                        interface.status = Status.up
                    elif status == "DOWN":
                        interface.status = Status.down
                    else:
                        interface.status = Status.unknown

                # MAC
                raw_mac = raw_iface_info.split("link/ether")
                if len(raw_mac) > 1:
                    raw_mac = raw_mac[1].split()
                    interface.mac = raw_mac[0]

                # IP Address
                raw_ip = raw_iface_info.split("inet")
                if len(raw_ip) > 1:
                    raw_ip = raw_ip[1].split(" ")[1].split("/")
                    interface.add_ip_address(raw_ip[0], int(raw_ip[1]))

                # Wifi information
                if wifi_iface_name_lst.count(iface_name) != 0:
                    interface.wifi_information = self.__get_wifi_information(iface_name)
            interfaces[iface_name] = interface
        return interfaces

    def __get_wifi_information(self, iface_name: str) -> WifiInformation:
        """
        If the given interface name belongs to an wifi interface, there are some more infomations.

        :param iface_name: Name of the network interface
        :return: WifiInformation
        """
        wifi_information = WifiInformation()
        raw_wifi_info_lst = self.network_ctrl.send_command("iw dev")
        right_iface = False

        for raw_wifi_info in raw_wifi_info_lst:
            raw_wifi_info = raw_wifi_info.replace("\n", "")
            if "Interface" in raw_wifi_info:
                right_iface = True if iface_name in raw_wifi_info else False
            elif right_iface:
                if "wdev" in raw_wifi_info:
                    wifi_information.wdev = raw_wifi_info.split(" ")[1]
                elif "ssid" in raw_wifi_info:
                    wifi_information.ssid = raw_wifi_info.split(" ")[1]
                elif "type" in raw_wifi_info:
                    wifi_information.type = raw_wifi_info.split(" ")[1]
                elif "channel" in raw_wifi_info:
                    wifi_information.channel = int(raw_wifi_info.split(" ")[1])
                    wifi_information.channel_width = int(raw_wifi_info.split(" ")[5])
                    wifi_information.channel_center1 = int(raw_wifi_info.split(" ")[8])
        return wifi_information

    def _get_router_cpu_process(self) -> List:
        """
        :return: The cpu processes of the given Router object
        """
        cpu_processes = list()
        raw_cpu_process_lst = self.network_ctrl.send_command("top -n 1")
        # A line looks like:
        # 1051  1020 root     R     1388   5%   9% firefox
        for cpu_process_info_line in raw_cpu_process_lst[4:]:
            cpu_process_info_lst = cpu_process_info_line.split()

            if len(cpu_process_info_lst) > 7:
                # Get the infos
                pid = int(cpu_process_info_lst[0])
                user = cpu_process_info_lst[2]
                mem = float(cpu_process_info_lst[5].replace("%", ""))
                cpu = float(cpu_process_info_lst[6].replace("%", ""))
                command = ""
                for i in range(7, len(cpu_process_info_lst)):
                    command += cpu_process_info_lst[i]
                cpu_process = CPUProcess(pid, user, mem, cpu, command)
                cpu_processes.append(cpu_process)
        return cpu_processes

    def _get_router_mem_ram(self) -> RAM:
        """
        :return: The RAM of the given Router.
        """
        ram = None
        raw_mem_lst = self.network_ctrl.send_command("free -m")[1:]
        for ram_info_line in raw_mem_lst:
            if "Mem" in ram_info_line:
                # Split and remove the spaces
                ram_info_lst = ram_info_line.split()
                # Get the infos
                total = int(ram_info_lst[1])
                used = int(ram_info_lst[2])
                free = int(ram_info_lst[3])
                shared = int(ram_info_lst[4])
                buffers = int(ram_info_lst[5])
                ram = RAM(total, used, free, shared, buffers)
        return ram

    def _get_router_sockets(self) -> List:
        """
        :return: The Sockets of the Router.
        """
        socket_lst = list()
        raw_socket_lst = self.network_ctrl.send_command("netstat -taupn")[2:]
        for raw_socket in raw_socket_lst:
            # raw_socket looks like:
            # tcp        0     32 192.168.1.1:22          192.168.1.239:51891     ESTABLISHED 1067/dropbear
            raw_socket = raw_socket.split()
            socket = InternetSocket()
            socket.protocol = raw_socket[0]
            raw_local_address = raw_socket[3].split(":")
            socket.local_address = raw_local_address[0] if len(raw_local_address) == 2 else "::"
            socket.local_port = raw_local_address[-1]
            raw_foreign_address = raw_socket[4].split(":")
            socket.foreign_address = raw_foreign_address[0] if len(raw_foreign_address) == 2 else "::"
            socket.foreign_port = raw_foreign_address[-1]
            raw_process = "-1/error"
            if raw_socket[0] == "tcp":
                socket.state = raw_socket[5]
                raw_process = raw_socket[6].split("/")
            elif raw_socket[0] == "udp":
                raw_process = raw_socket[5].split("/")
            socket.pid = int(raw_process[0])
            socket.program_name = raw_process[1]
            socket_lst.append(socket)
        return socket_lst

    def _get_router_uci(self):
        """
        :return: All values of the UCI of a Router.
        """
        uci_dict = dict()
        raw_uci_lst = self.network_ctrl.send_command("uci show")
        for uci_info in raw_uci_lst:
            key, value = uci_info.split("=")
            uci_dict[key] = value.replace("\n", "")
        return uci_dict

    def _get_bat_originator(self):
        """
        :return: All reachable mesh-nodes(bat_originators) of a Router.
        """
        bat_originators = list()
        raw_bat_originator_lst = self.network_ctrl.send_command("batctl o")[2:]
        for raw_bat_originator in raw_bat_originator_lst:
            raw_bat_originator = raw_bat_originator.replace("( ", "(").replace("[ ", "").split()
            # raw_bat_originator: ['f6:f6:6d:85:d4:ae', '0.840s', '(52)', '32:b8:c3:e7:6f:f0', 'mesh0]:',
            # '02:2a:1a:cc:72:ae', '(3)', '32:b8:c3:e7:96:b0', '(26)', '32:b8:c3:e7:6f:f0', '(52)']
            mac = raw_bat_originator[0]
            tmp = raw_bat_originator[1].replace("s", "")
            last_seen = float(tmp)
            next_hop = raw_bat_originator[3]
            outgoing_iface = raw_bat_originator[4].replace("]:", "")
            potential_next_hops = list()
            for raw_potential_next_hop in raw_bat_originator[5:]:
                if ":" in raw_potential_next_hop:
                    potential_next_hops.append(raw_potential_next_hop)
            bat_originator = BatOriginator(mac, last_seen, next_hop, outgoing_iface, potential_next_hops)
            bat_originators.append(bat_originator)
        return bat_originators
Esempio n. 39
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 def run(self):
     """
     Runs new thread and trys to send a command via ssh to reboot the Router.
     """
     logging.info("%sReboot the Router(" + str(self.router.id) + ") ...",
                  LoggerSetup.get_log_deep(1))
     network_ctrl = NetworkCtrl(self.router)
     try:
         network_ctrl.connect_with_remote_system()
     except Exception as e:
         logging.warning("[-] Couldn't reboot Router(" +
                         str(self.router.id) + ")")
         logging.warning(str(e))
         network_ctrl.exit()
         return
     if self.configmode:
         if self.router.mode == Mode.configuration:
             logging.info("%s[+] Router is already in configuration mode",
                          LoggerSetup.get_log_deep(2))
             network_ctrl.exit()
             return
         try:
             network_ctrl.send_command(
                 "uci set 'gluon-setup-mode.@setup_mode[0].enabled=1'")
             network_ctrl.send_command("uci commit")
             network_ctrl.send_command("reboot")
             logging.info("Wait until Router rebooted (45sec) ...")
             time.sleep(45)
             if Dhclient.update_ip(self.router.vlan_iface_name) == 0:
                 self.router.mode = Mode.configuration
                 logging.info(
                     "%s[+] Router was set into configuration mode",
                     LoggerSetup.get_log_deep(2))
             else:
                 network_ctrl.exit()
                 raise Exception
         except Exception as e:
             logging.warning(
                 "%s[-] Couldn't set Router into configuration mode",
                 LoggerSetup.get_log_deep(2))
             logging.error("%s" + str(e), LoggerSetup.get_log_deep(2))
     else:
         if self.router.mode == Mode.normal:
             logging.info("%s[+] Router is already in normal mode",
                          LoggerSetup.get_log_deep(2))
             network_ctrl.exit()
             return
         try:
             network_ctrl.send_command("reboot")
             logging.info("Wait until Router rebooted (45sec) ...")
             time.sleep(45)
             if Dhclient.update_ip(self.router.vlan_iface_name) == 0:
                 self.router.mode = Mode.normal
                 logging.info("%s+] Router was set into normal mode",
                              LoggerSetup.get_log_deep(2))
             else:
                 network_ctrl.exit()
                 raise Exception
         except Exception as e:
             logging.warning("%s[-] Couldn't set Router into normal mode",
                             LoggerSetup.get_log_deep(2))
             logging.error("%s" + str(e), LoggerSetup.get_log_deep(2))
     network_ctrl.exit()
Esempio n. 40
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 def run(self):
     """
     Runs new thread and trys to send a command via ssh to reboot the Router.
     """
     logging.info("%sReboot the Router(" + str(self.router.id) + ") ...", LoggerSetup.get_log_deep(1))
     network_ctrl = NetworkCtrl(self.router)
     try:
         network_ctrl.connect_with_remote_system()
     except Exception as e:
         logging.error("%s[-] Couldn't reboot Router(" + str(self.router.id) + ")", LoggerSetup.get_log_deep(2))
         logging.error("%s" + str(e), LoggerSetup.get_log_deep(2))
         network_ctrl.exit()
         return
     # Reboot Router into configuration-mode
     if self.configmode:
         if self.router.mode == Mode.configuration:
             logging.info("%s[+] Router is already in " + str(Mode.configuration), LoggerSetup.get_log_deep(2))
             network_ctrl.exit()
             return
         try:
             network_ctrl.send_command("uci set 'gluon-setup-mode.@setup_mode[0].enabled=1'")
             network_ctrl.send_command("uci commit")
             network_ctrl.send_command("reboot")
             logging.info("%sWait until Router rebooted (60sec) ...", LoggerSetup.get_log_deep(2))
             time.sleep(60)
             Dhclient.update_ip(self.router.vlan_iface_name)
             self._success_handling()
         except FileExistsError:
             self._success_handling()
             pass
         except Exception as e:
             self._execption_hanling()
     # Reboot Router into normal-mode
     else:
         if self.router.mode == Mode.normal:
             logging.info("%s[+] Router is already in " + str(Mode.normal), LoggerSetup.get_log_deep(2))
             network_ctrl.exit()
             return
         try:
             network_ctrl.send_command("reboot")
             logging.info("%sWait until Router rebooted (90sec) ...", LoggerSetup.get_log_deep(2))
             time.sleep(90)
             Dhclient.update_ip(self.router.vlan_iface_name)
             self._success_handling()
         except FileExistsError:
             self._success_handling()
             pass
         except Exception as e:
             self._execption_hanling()
     network_ctrl.exit()
Esempio n. 41
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 def __init__(self, router: Router):
     Thread.__init__(self)
     self.router = router
     self.network_ctrl = NetworkCtrl(self.router, 'eth0')
     self.daemon = True
Esempio n. 42
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class RouterInfo(Thread):
    """
    The RouterInfo collects in a new Thread informations about the Routers
    """""

    def __init__(self, router: Router):
        Thread.__init__(self)
        self.router = router
        self.network_ctrl = NetworkCtrl(self.router, 'eth0')
        self.daemon = True

    def run(self):
        """
        Runs new thread and gets the information from the router via ssh
        :return:
        """
        Logger().info("Update the Infos of the Router(" + str(self.router.id) + ") ...", 1)
        self.network_ctrl.connect_with_remote_system()
        try:
            # Model
            self.router.model = self._get_router_model()
            # MAC
            self.router.mac = self._get_router_mac()
            # SSID
            self.router.ssid = self._get_router_ssid()
            # NetworkInterfaces
            self.router.interfaces = self._get_router_network_interfaces()
            # CPUProcesses
            self.router.cpu_processes = self._get_router_cpu_process()
            # RAM
            self.router.ram = self._get_router_mem_ram()
            Logger().debug("[+] Infos updated")
        except Exception as e:
            Logger().warning("[-] Couldn't update all Infos")
            Logger().error(str(e))

    def join(self):
        self.network_ctrl.exit()
        Thread.join(self)

    def _get_router_model(self) -> str:
        """
        :return: the Model of the given Router object
        """
        return self.network_ctrl.send_command('cat /proc/cpuinfo | grep machine').split(":")[1][:-4]

    def _get_router_mac(self) -> str:
        """
        :return: the MAC of the given Router object
        """
        return self.network_ctrl.send_command('uci show network.client.macaddr').split('=')[1][:-4]

    def _get_router_ssid(self):
        """
        :return: the SSID of the given Router object
        """
        return self.network_ctrl.send_command('uci show wireless.client_radio0.ssid').split('=')[1][:-4]

    def _get_router_network_interfaces(self) -> Dict:
        """
        :return: the network interfaces of the given Router object
        """
        interfaces = dict()
        raw_iface_names = self.network_ctrl.send_command("ip a | grep '^[0-9]*:*:'").split("\\n'")[0:-1]
        iface_names = list()

        # transform a line tmp:
        # '2: enp0s25: <NO-CARRIER,BROADCAST,MULTICAST,UP> mtu 1500 qdisc fq_codel state DOWN group default qlen 1000'
        # into 'enp0s25' and lists it.
        for raw_iface_name in raw_iface_names:
            iface_name = raw_iface_name.split(":")[1].replace(" ", "")
            if "@" in iface_name:
                iface_name = iface_name.split("@")[0]
            if iface_names.count(iface_name) == 0:
                iface_names.append(iface_name)

        for iface_name in iface_names:
            interface = NetworkInterface(iface_name)

            # MAC
            raw_iface_infos = self.network_ctrl.send_command("ip addr show " + iface_name + " | grep 'link/ether'")
            raw_iface_infos = raw_iface_infos.replace("[", "").replace("]", "").replace("'", "")
            if len(raw_iface_infos) > 0:
                raw_mac = raw_iface_infos.split(" ")
                i = raw_mac.count("")
                for i in range(0, i):
                    raw_mac.remove("")
                interface.mac = raw_mac[1]

            # Status
            raw_iface_infos = self.network_ctrl.send_command("ip addr show " + iface_name + " | grep " + iface_name)
            raw_iface_infos = raw_iface_infos.replace("[", "").replace("]", "").replace("'", "")
            raw_status = raw_iface_infos.split("state")
            if len(raw_status) > 1:
                status = raw_status[1].split(" ")[1]
                # Status: UP | DOWN | UNKNOWN
                if status == "UP":
                    interface.status = Status.up
                elif status == "DOWN":
                    interface.status = Status.down
                else:
                    interface.status = Status.unknown

            # IPv4 addresses
            raw_iface_infos = self.network_ctrl.send_command("ip addr show " + iface_name + " | grep 'inet '")
            raw_iface_infos = raw_iface_infos.replace("[", "").replace("]", "").replace("'", "")
            if len(raw_iface_infos) > 0:
                inet_lst = raw_iface_infos.split("\\n")
                for inet in inet_lst:
                    if not ("inet" in inet):
                        continue
                    ip = inet.split("/")[0].split("inet ")[1]
                    ip_mask = int(inet.split("/")[1].split(" ")[0])
                    interface.ipv4_lst.append(IPv4(ip, ip_mask))

            # IPv6 addresses
            raw_iface_infos = self.network_ctrl.send_command("ip addr show " + iface_name + " | grep 'inet6 '")
            raw_iface_infos = raw_iface_infos.replace("[", "").replace("]", "").replace("'", "")
            if len(raw_iface_infos) > 0:
                inet_lst = raw_iface_infos.split("\\n")
                for inet in inet_lst:
                    if not ("inet6" in inet):
                        continue
                    ip = inet.split("/")[0].split("inet6 ")[1]
                    ip_prefix_len = int(inet.split("/")[1].split(" ")[0])
                    interface.ipv6_lst.append(IPv6(ip, ip_prefix_len))
            interfaces[iface_name] = interface
        return interfaces

    def _get_router_cpu_process(self) -> List:
        """
        :return: the cpu processes of the given Router object
        """
        cpu_processes = list()
        raw_cpu_process_info = self.network_ctrl.send_command("top -n 1")
        raw_cpu_process_info = raw_cpu_process_info.replace("[", "").replace("]", "").replace("'", "")
        raw_cpu_process_info = raw_cpu_process_info.replace(",", "").replace("%", "")
        raw_cpu_process_info = raw_cpu_process_info.split("\\n")
        # A line looks like:
        # 1051  1020 root     R     1388   5%   9% firefox
        for cpu_process_info_line in raw_cpu_process_info[4:]:

            # Split and remove the spaces
            cpu_process_info_lst = cpu_process_info_line.split(" ")
            i = cpu_process_info_lst.count("")
            for i in range(0, i):
                cpu_process_info_lst.remove("")

            if len(cpu_process_info_lst) > 7:
                # Get the infos
                pid = int(cpu_process_info_lst[0])
                user = cpu_process_info_lst[2]
                mem = float(cpu_process_info_lst[5])
                cpu = float(cpu_process_info_lst[6])
                command = ""
                for i in range(7, len(cpu_process_info_lst)):
                    command += cpu_process_info_lst[i]
                cpu_process = CPUProcess(pid, user, mem, cpu, command)
                cpu_processes.append(cpu_process)
        return cpu_processes

    def _get_router_mem_ram(self) -> RAM:
        """
        :return: the RAM of the given Router.
        """
        ram = None
        raw_mem_infos = self.network_ctrl.send_command("free -m")
        raw_mem_infos = raw_mem_infos.replace("[", "").replace("]", "").replace("'", "").replace(",", "")
        raw_mem_infos = raw_mem_infos.split("\\n")
        for ram_info_line in raw_mem_infos:
            if "Mem" in ram_info_line:
                # Split and remove the spaces
                ram_info_lst = ram_info_line.split(" ")
                i = ram_info_lst.count("")
                for i in range(0, i):
                    ram_info_lst.remove("")
                # Get the infos
                total = int(ram_info_lst[1])
                used = int(ram_info_lst[2])
                free = int(ram_info_lst[3])
                shared = int(ram_info_lst[4])
                buffers = int(ram_info_lst[5])
                ram = RAM(total, used, free, shared, buffers)
        return ram