Example #1
0
def device_state_change(*args, **kwargs):
    global __devices
    global __network_status

    msg = kwargs['d_member']
    path = kwargs['d_path']
    device = NetworkManager.Device(path)
    newState = NetworkManager.const('device_state', args[0])

    try:
        if device.DeviceType == NetworkManager.NM_DEVICE_TYPE_ETHERNET:
            connectionType = "Ethernet"
        elif device.DeviceType == NetworkManager.NM_DEVICE_TYPE_WIFI:
            connectionType = "Wifi"
    except:
        # D-Bus likely doesn't know about the device any longer,
        # this is typically a removable Wifi stick
        path = kwargs['d_path']
        if path in __devices:
            connectionType = __devices[path]["type"]

    if newState == "activated":
        path = kwargs['d_path']
        __devices[path] = {"type": connectionType, "active": True}
        if connectionType == "Ethernet":
            __network_status.ethernet = True
        if connectionType == "Wifi":
            __network_status.wifi = True
        send_unsent_batch()
    else:
        if connectionType == "Ethernet":
            __network_status.ethernet = False
        if connectionType == "Wifi":
            __network_status.wifi = False
Example #2
0
def parse_flags(prefix='', *flags):
    if isinstance(flags, int):
        flags = [flags]
    flags = list(set(flags))

    flag_list = []
    for flag in flags:
        # parse single number, e.g. 0x02
        try:
            flag_list.append(NetworkManager.const(prefix, flag))
        except ValueError:
            if flag is None:
                continue
        else:
            continue

        # parse multiple bits, e.g. 0b01010010
        bit = 0
        while flag:
            if flag & 0b1:
                try:
                    flag_list.append(NetworkManager.const(prefix, 1 << bit))
                except ValueError:
                    pass
            flag >>= 1
            bit += 1
    return [flag for flag in set(flag_list)]
Example #3
0
def attacker_mode(victim_ip):
    arp_thread = threading.Thread(target=listen_data)
    arp_thread.daemon = True
    arp_thread.start()

    response_arp = NetworkManager.SecureArp()
    packet = ARP(op=ARP.is_at,
                 hwsrc=MY_MAC,
                 psrc=victim_ip,
                 hwdst='cc:cc:cc:cc:cc:cc',
                 pdst="192.168.1.64")
    response_arp.pkt = packet
    response_arp.sig = response_arp.sig_size * "A"

    print("Sending Malicious ARP Update:")
    response_arp.pkt.show()

    sock = NetworkManager.Socket('192.168.1.64',
                                 NetworkManager.ARP_PORT,
                                 server=False)
    sock.send_message(response_arp.serialize(),
                      ('192.168.1.64', NetworkManager.ARP_PORT))

    # NetworkManager.broadcast_packet(response_arp.serialize(), NetworkManager.ARP_PORT)
    while True:
        pass
    '''
def printable_active_connection():
    if not len(NetworkManager.NetworkManager.ActiveConnections):
        return "off"

    printable = ""
    firstDevice = NetworkManager.NetworkManager.ActiveConnections[0].Devices[0]

    if firstDevice.Ip4Config:
        return "{} {} {}".format(NetworkManager.const("device_type", firstDevice.DeviceType), firstDevice.Interface, firstDevice.Ip4Config.Addresses[0][0])
    else:
        return "{} {} obtaining ipv4...".format(NetworkManager.const("device_type", firstDevice.DeviceType), firstDevice.Interface)
Example #5
0
    def monitorActivatingConnection(self, new_state, old_state, reason):
        logger.info('Activating State Change %s -> %s' %
                    (NetworkManager.const('device_state', old_state),
                     NetworkManager.const('device_state', new_state)))
        if self._activatingConnection:
            if new_state == NetworkManager.NM_DEVICE_STATE_ACTIVATED:
                if self._monitorActivatingListener:
                    self._monitorActivatingListener.remove()
                    self._monitorActivatingListener = None

                d = self.getActiveConnectionDevice()
                ap = d.SpecificDevice().ActiveAccessPoint
                eventManager.fire(
                    Events.INTERNET_CONNECTING_STATUS, {
                        'status': 'connected',
                        'info': {
                            'signal': ord(ap.Strength),
                            'name': ap.Ssid,
                            'ip': d.Ip4Address
                        }
                    })

                self._activatingConnection = None
                self._setOnline(True)

            elif new_state in [
                    NetworkManager.NM_DEVICE_STATE_FAILED,
                    NetworkManager.NM_DEVICE_STATE_UNKNOWN
            ]:
                logger.warn(
                    'Connection reached state %s, reason: %s' %
                    (NetworkManager.const('device_state', new_state),
                     NetworkManager.const('device_state_reason', reason)))
                eventManager.fire(
                    Events.INTERNET_CONNECTING_STATUS, {
                        'status':
                        'failed',
                        'reason':
                        NetworkManager.const('device_state_reason', reason)
                    })
                # we should probably remove the connection
                self._activatingConnection.Delete()

            elif new_state == NetworkManager.NM_DEVICE_STATE_DISCONNECTED:
                if self._monitorActivatingListener:
                    self._monitorActivatingListener.remove()
                    self._monitorActivatingListener = None

                eventManager.fire(Events.INTERNET_CONNECTING_STATUS,
                                  {'status': 'disconnected'})

                self._activatingConnection = None
                self._setOnline(False)
Example #6
0
	def monitorActivatingConnection(self, new_state, old_state, reason):
		logger.info('Activating State Change %s -> %s' % (NetworkManager.const('device_state', old_state),NetworkManager.const('device_state', new_state)))
		if self._activatingConnection:
			if new_state == NetworkManager.NM_DEVICE_STATE_ACTIVATED:
				if self._monitorActivatingListener:
					self._monitorActivatingListener.remove()
					self._monitorActivatingListener = None

				d = self.getActiveConnectionDevice()
				if d.DeviceType == NetworkManager.NM_DEVICE_TYPE_ETHERNET:
					eventManager.fire(Events.INTERNET_CONNECTING_STATUS, {
						'status': 'connected', 
						'info': {
							'type': 'ethernet',
							'ip': d.Ip4Address
						}
					})					
				else:
					ap = d.SpecificDevice().ActiveAccessPoint
					eventManager.fire(Events.INTERNET_CONNECTING_STATUS, {
						'status': 'connected', 
						'info': {
							'type': 'wifi',
							'signal': ap.Strength,
							'name': ap.Ssid,
							'ip': d.Ip4Address
						}
					})

				self._activatingConnection = None
				self._setOnline(True)

			elif new_state in [NetworkManager.NM_DEVICE_STATE_FAILED, NetworkManager.NM_DEVICE_STATE_UNKNOWN]:
				logger.warn('Connection reached state %s, reason: %s' % (NetworkManager.const('device_state', new_state), NetworkManager.const('device_state_reason', reason) ) )
				eventManager.fire(Events.INTERNET_CONNECTING_STATUS, {'status': 'failed', 'reason': NetworkManager.const('device_state_reason', reason)})
				# we should probably remove the connection
				self._activatingConnection.Delete()

			elif new_state == NetworkManager.NM_DEVICE_STATE_DISCONNECTED:
				if self._monitorActivatingListener:
					self._monitorActivatingListener.remove()
					self._monitorActivatingListener = None

				eventManager.fire(Events.INTERNET_CONNECTING_STATUS, {'status': 'disconnected'})

				self._activatingConnection = None

				#check the global connection status before setting it to false
				if NetworkManager.NetworkManager.state() != NetworkManager.NM_STATE_CONNECTED_GLOBAL:
					self._setOnline(False)
Example #7
0
 def _on_state_changed(self, nm, state, **kwargs):
     logger.info("State changed to %d: %s" %
                 (state, NetworkManager.const('STATE', state)))
     if state >= NetworkManager.NM_STATE_CONNECTED_GLOBAL:
         self._switch_to_normal_mode()
     elif state <= NetworkManager.NM_STATE_DISCONNECTED:
         self._switch_to_provisioning_mode()
Example #8
0
	def GetInfo(self):
		print "-"*50
		print "Network manager info:"
		print("%-30s %s" % ("Version:", NetworkManager.NetworkManager.Version))
		print("%-30s %s" % ("Hostname:", NetworkManager.Settings.Hostname))
		print("%-30s %s" % ("Networking enabled:", NetworkManager.NetworkManager.NetworkingEnabled))
		print("%-30s %s" % ("Overall state:", NetworkManager.const('state', NetworkManager.NetworkManager.State)))
		print "\nAvailable connections:"
		print("%-30s %s" % ("Name", "Type"))
		for conn in NetworkManager.Settings.ListConnections():
			settings = conn.GetSettings()['connection']
			if settings['type'] == 'gsm':
				print("%-30s %s" % (settings['id'], settings['type']))
		print "\nActive connections:"
		print("%-30s %-20s %-10s %s" % ("Name", "Type", "Default", "Devices"))
		active_gsm = False
		for conn in NetworkManager.NetworkManager.ActiveConnections:
			settings = conn.Connection.GetSettings()['connection']
			if settings['type'] == 'gsm':
				print("%-30s %-20s %-10s %s" % (settings['id'], settings['type'], conn.Default, ", ".join([x.Interface for x in conn.Devices])))
				active_gsm = True
		if active_gsm == False:
			print "No gsm connections are active!"
				
		print "-"*50
Example #9
0
def ca_mode():

    FILEPATH = "DHCP/state.txt"

    if not os.path.isfile(FILEPATH):
        initialize_keys()
    else:
        print "File exists"

    # Key manager
    key_manager = create_key_manager()

    monitor = FileMonitor(time.time(), FILEPATH, key_manager)

    server_thread = threading.Thread(target=monitor.monitor)
    # Dont exit the server thread when the main thread terminates
    server_thread.daemon = True
    server_thread.start()
    ca_sock = NetworkManager.Socket(CA_IP, NetworkManager.CA_PORT, server=True)

    my_ip = netifaces.ifaddresses(
        get_interface())[netifaces.AF_INET][0]['addr']
    # Read keys from file and initialize keys object - (pub,priv)
    keys = read_keys(my_ip)

    while True:
        query_size, addr = ca_sock.udp_recv_message(INT_SIZE, wait=True)
        if query_size:
            print("[*] Received update from host", str(addr[0]))
            monitor.mutex.acquire()
            ca_handle_query(monitor.manager, query_size, ca_sock,
                            keys)  # handles query and kills conn
            monitor.mutex.release()
Example #10
0
def shutdown():
    global state
    state = NetworkState.SHUTTING_DOWN

    netManager = NetworkManager.NetworkManager()
    netManager.turnOff()
    netManager.join()

    state = NetworkState.SHUT_DOWN
Example #11
0
def initialise():
    global state
    if state != NetworkState.UNINITIALISED:
        GeneralLogger().logger.warn(
            f'Network API already initialised, can\'t initialise now. [State={state}]'
        )
    else:
        state = NetworkState.INITIALISING
        networkManager = NetworkManager.NetworkManager()
        networkManager.initialise()
Example #12
0
    def setUp(self):
        self.test_dir = os.path.join(FreeCAD.getHomePath(), "Mod",
                                     "AddonManager", "AddonManagerTest",
                                     "data")
        self.last_result = None

        url = "https://api.github.com/zen"
        NetworkManager.InitializeNetworkManager()
        result = NetworkManager.AM_NETWORK_MANAGER.blocking_get(url)
        if result is None:
            self.skipTest("No active internet connection detected")
Example #13
0
 def generate_network_manager(self, selected, stock_nr, rank):
     network_manager = nm.NetworkManager(self, selected, stock_nr,
                                         self.run_nr, self.rf_rate,
                                         self.soft_label,
                                         self.soft_label_percent)
     stock_result = network_manager.build_networks(
         number_of_networks=self.number_of_networks,
         epochs=self.epochs,
         rank=rank)
     self.add_to_stock_results(stock_result, network_manager)
     return stock_result
Example #14
0
	def globalStateChanged(self, state):
		#uncomment for debugging only
		logger.info('Network Global State Changed, new(%s)' % NetworkManager.const('state', state))
		if state == NetworkManager.NM_STATE_CONNECTED_GLOBAL:
			self._setOnline(True)

		elif self._justActivatedConnection and state == NetworkManager.NM_STATE_CONNECTED_LOCAL:
			#local is a transition state when we have just activated a connection, so do nothing
			self._justActivatedConnection = False

		elif state != NetworkManager.NM_STATE_CONNECTING:
			self._setOnline(False)
Example #15
0
    def setUp(self):
        """Set up the test"""
        self.test_dir = os.path.join(FreeCAD.getHomePath(), "Mod",
                                     "AddonManager", "AddonManagerTest",
                                     "data")

        self.saved_mod_directory = Addon.mod_directory
        self.saved_cache_directory = Addon.cache_directory
        Addon.mod_directory = os.path.join(tempfile.gettempdir(),
                                           "FreeCADTesting", "Mod")
        Addon.cache_directory = os.path.join(tempfile.gettempdir(),
                                             "FreeCADTesting", "Cache")

        os.makedirs(Addon.mod_directory, mode=0o777, exist_ok=True)
        os.makedirs(Addon.cache_directory, mode=0o777, exist_ok=True)

        url = "https://api.github.com/zen"
        NetworkManager.InitializeNetworkManager()
        result = NetworkManager.AM_NETWORK_MANAGER.blocking_get(url)
        if result is None:
            self.skipTest("No active internet connection detected")

        self.macro_counter = 0
        self.workbench_counter = 0
        self.prefpack_counter = 0
        self.addon_from_cache_counter = 0
        self.macro_from_cache_counter = 0

        self.package_cache = {}
        self.macro_cache = []

        self.package_cache_filename = os.path.join(Addon.cache_directory,
                                                   "packages.json")
        self.macro_cache_filename = os.path.join(Addon.cache_directory,
                                                 "macros.json")

        if not TestWorkersInstallation.addon_list:
            self._create_addon_list()

        # Workbench: use the FreeCAD-Help workbench for testing purposes
        self.help_addon = None
        for addon in self.addon_list:
            if addon.name == "Help":
                self.help_addon = addon
                break
        if not self.help_addon:
            print("Unable to locate the FreeCAD-Help addon to test with")
            self.skipTest("No active internet connection detected")

        # Store the user's preference for whether git is enabled or disabled
        pref = FreeCAD.ParamGet("User parameter:BaseApp/Preferences/Addons")
        self.saved_git_disabled_status = pref.GetBool("disableGit", False)
Example #16
0
    def globalStateChanged(self, state):
        #uncomment for debugging only
        logger.info('Network Global State Changed, new(%s)' %
                    NetworkManager.const('state', state))
        if state == NetworkManager.NM_STATE_CONNECTED_GLOBAL:
            self._setOnline(True)

        elif self._justActivatedConnection and state == NetworkManager.NM_STATE_CONNECTED_LOCAL:
            #local is a transition state when we have just activated a connection, so do nothing
            self._justActivatedConnection = False

        elif state != NetworkManager.NM_STATE_CONNECTING:
            self._setOnline(False)
Example #17
0
def fetch_station_index_pages(station_sources):
    parsed_sources = []
    for station_source in station_sources:
        list_of_stations_html = NetworkManager.fetch(WIKI_LINK, station_source)
        source_type = None
        if "dockland" in station_source.lower():
            source_type = "dockland"
        if "underground" in station_source.lower():
            source_type = "underground"

        parsed_sources.append((BeautifulSoup(list_of_stations_html,
                                             'html.parser'), source_type))

    return parsed_sources
Example #18
0
def check_state(device, timeout=60):
    """Continue querying network status and printing new values to console.
    Return when network is ready.
    """
    time_delta = 0.01
    state_last = -1

    time_0 = time.time()
    try:
        while True:
            state, reason = device.StateReason
            if state != state_last:
                state_last = state
                time_0 = time.time()

                state_str = NM.const('device_state', state)
                reason_str = NM.const('device_state_reason', reason)

                if reason:
                    msg = '{}  [{}]'.format(state_str, reason_str)
                else:
                    msg = '{}'.format(NM.const('device_state', state))

                print(msg)

                if state_str == 'activated':
                    print('connected: {}'.format(current_connection()))

                    return

            time.sleep(time_delta)
            if time.time() - time_0 > timeout:
                return

    except KeyboardInterrupt:
        return
Example #19
0
    def run(self):
        self._stopped = False
        self._loop = GLib.MainLoop()

        self._propertiesListener = NetworkManager.NetworkManager.connect_to_signal(
            'PropertiesChanged', self.propertiesChanged)
        self._stateChangeListener = NetworkManager.NetworkManager.connect_to_signal(
            'StateChanged', self.globalStateChanged)
        self._devicePropertiesListener = None
        self._monitorActivatingListener = None

        connectionState = NetworkManager.NetworkManager.State
        logger.info('Network Manager reports state: *[%s]*' %
                    NetworkManager.const('state', connectionState))
        if connectionState == NetworkManager.NM_STATE_CONNECTED_GLOBAL:
            self._setOnline(True)

        #d = self.getActiveConnectionDevice()
        #if d:
        #	self._devicePropertiesListener = d.Dhcp4Config.connect_to_signal('PropertiesChanged', self.activeDeviceConfigChanged)
        #	self._currentIpv4Address = d.Ip4Address
        #	self._activeDevice = d
        #	self._online = True
        #	logger.info('Active Connection found at %s (%s)' % (d.IpInterface, d.Ip4Address))

        while not self._stopped:
            try:
                self._loop.run()

            except KeyboardInterrupt:
                #kill the main process too
                from octoprint import astrobox
                astrobox.stop()

            except DBusException as e:
                #GObject.idle_add(
                # logger.error, 'Exception during NetworkManagerEvents: %s' % e)
                logger.error('Exception during NetworkManagerEvents: %s' % e)

            finally:
                self.stop()
Example #20
0
def get_public_key(sock, ip):
    ca_sock = NetworkManager.Socket(CA_IP, NetworkManager.CA_PORT)
    nonce = str(uuid.uuid4())
    debug("Generated nonce for CA: " + nonce)
    query = {QUERY_TYPE: GET_QUERY_TYPE, IP_QUERY: ip, NONCE: nonce}

    ca_sock.send_message(struct.pack("!I", len(query)),
                         (CA_IP, NetworkManager.CA_PORT))
    ca_sock.send_message(str(query), (CA_IP, NetworkManager.CA_PORT))
    data, addr = ca_sock.udp_recv_message(INT_SIZE, wait=True)
    query_size = int(struct.unpack("!I", data)[0])

    data, addr = ca_sock.udp_recv_message(query_size, wait=True)
    debug("Received " + str(len(data)) + " bytes")
    ca_keys = read_keys(CA_IP)

    sig = data[:SIG_SIZE]
    public_key = data[SIG_SIZE:]
    if not validate_sig(nonce, sig, ca_keys.publicKey.exportKey('DER')):
        return None
    debug("Validated Sig from CA")
    return public_key
Example #21
0
	def run(self):
		self._stopped = False
		self._loop = GLib.MainLoop()

		self._propertiesListener = NetworkManager.NetworkManager.connect_to_signal('PropertiesChanged', self.propertiesChanged)
		self._stateChangeListener = NetworkManager.NetworkManager.connect_to_signal('StateChanged', self.globalStateChanged)
		self._devicePropertiesListener = None
		self._monitorActivatingListener = None

		connectionState = NetworkManager.NetworkManager.State
		logger.info('Network Manager reports state: *[%s]*' % NetworkManager.const('state', connectionState))
		if connectionState == NetworkManager.NM_STATE_CONNECTED_GLOBAL:
			self._setOnline(True)

		#d = self.getActiveConnectionDevice()
		#if d:
		#	self._devicePropertiesListener = d.Dhcp4Config.connect_to_signal('PropertiesChanged', self.activeDeviceConfigChanged)
		#	self._currentIpv4Address = d.Ip4Address
		#	self._activeDevice = d
		#	self._online = True
		#	logger.info('Active Connection found at %s (%s)' % (d.IpInterface, d.Ip4Address))

		while not self._stopped:
			try:
				self._loop.run()

			except KeyboardInterrupt:
				#kill the main process too
				from octoprint import astrobox
				astrobox.stop()

			except DBusException as e:
				#GObject.idle_add(logger.error, 'Exception during NetworkManagerEvents: %s' % e)
				logger.error('Exception during NetworkManagerEvents: %s' % e)

			finally:
				self.stop()
Example #22
0
def PingLoggerThread():

    pingTime = time.time() + GlobalVals.PING_INTERVAL
    timeToPing = False

    while True:

        with GlobalVals.BREAK_PING_THREAD_MUTEX:
            if GlobalVals.BREAK_PING_THREAD:
                break

        currentTime = time.time()

        if currentTime >= pingTime:
            timeToPing = True
        else:
            time.sleep(0.2)
            continue

        if timeToPing:

            # change values
            timeToPing = False
            pingTime = time.time() + GlobalVals.PING_INTERVAL
            pingStrings = []

            # get list of system IDs
            systemList = NetworkManager.RequestSystemsList()
            if len(systemList) == 0:
                continue

            # get ping for each system
            for x in systemList:
                ping = NetworkManager.PingTarget(x)
                reportTime = int(time.time())
                if ping == -1:
                    pingStrings.append("Time: " + str(reportTime) +
                                       ", System " + str(x) +
                                       ", ERROR: Invalid system ID.\n")
                elif ping == -2:
                    pingStrings.append("Time: " + str(reportTime) +
                                       ", System " + str(x) +
                                       ", ERROR: Ping timed out.\n")
                else:
                    pingStrings.append("Time: " + str(reportTime) +
                                       ", System " + str(x) + ", Ping: " +
                                       str(ping) + "\n")

            # Open log file
            try:
                fileObj = open(GlobalVals.PING_LOG_FILE, "a")
            except Exception as e:
                print("Ping Logger: Error opening file. Now breaking thread.")
                print("Ping Logger: Exception: " + str(e.__class__))
                with GlobalVals.BREAK_PING_THREAD_MUTEX:
                    GlobalVals.BREAK_PING_THREAD = True
                break

            # Write to log file
            try:
                for x in pingStrings:
                    fileObj.write(x)
            except Exception as e:
                print(
                    "Ping Logger: Error writting to file. Now breaking thread."
                )
                print("Ping Logger: Exception: " + str(e.__class__))
                with GlobalVals.BREAK_PING_THREAD_MUTEX:
                    GlobalVals.BREAK_PING_THREAD = True
                break
            finally:
                fileObj.close()
Example #23
0
    else:
        lockFile.lock()
    try:

        FPSCounter = FPS()
        FPSCounter.start()

        cam = cv2.VideoCapture(0)
        cam.set(3, 640)
        cam.set(4, 480)
        # cam.set(cv2.cv.CV_CAP_PROP_BRIGHTNESS, brightness)
        # cam.set(cv2.cv.CV_CAP_PROP_SATURATION, saturation)
        # cam.set(cv2.cv.CV_CAP_PROP_EXPOSURE, exposure) # not working on the old camera

        visionManager = VisionManager(LB, UB, MBR, cam, KH, KW, FL, [RH, RW, RL], TH, CUW, CUWD, HAX, HAY)
        networkManager = NetworkManager(JAVA_IP, 8080)

        ###################
        # The code itself #
        ###################

        while True:

            visionManager.updateImage()
            visionManager.updateTowerScales()
            visionManager.updateRobotScales()
            FPSCounter.update()

            if visionManager.isObjectDetected:  # if an object was detected

                ######################
Example #24
0
File: nm.py Project: rayman18/wydev
	i: 255(t)
	o: 312()

nname: 255
n 255(func_name.startswith('magic'))[for func_name, func in locals().items():
]:
	i: 239(for)
	o: 279(t), 312(f)

nname: 239
n 239(None)[]:
	i: 98(loop)
	o: 255(for), 316(AF)

nname: 98
n 98(None)[NM = NetworkManager()
ipshell = IPShellEmbed()
def _get_device_by_name(dev_name):
	devs = NM.get_devices()
	d = filter((lambda dev: dev.get_name() == dev_name), devs)
	if d == []:
		raise NameError('No such interface (%s)' % dev_name)
	return d[0]

def _get_network_by_name(dev, essid):
	nets = dev.get_networks()
	n = filter((lambda net: net.get_name() == essid), nets)
	if n == []:
		raise NameError('No such ESSID (%s)' % net_name)
	return n[0]
Example #25
0
def EKFLoggerSocket():

    # set up socket
    while True:
        try:
            socket_logger = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
            socket_logger.connect(
                (GlobalVals.HOST, GlobalVals.EKF_LOGGER_SOCKET))
            socket_logger.settimeout(GlobalVals.EKF_LOGGER_SOCKET_TIMEOUT)

        except Exception as e:
            if e.args[1] == 'Connection refused':
                print('Retry connecting to EKF....')
                time.sleep(1)
                continue
            else:
                print("Exception: " + str(e.__class__))
                print(
                    "There was an error starting the EKFlogger socket. This thread will now stop."
                )
                with GlobalVals.BREAK_EKF_LOGGER_THREAD_MUTEX:
                    GlobalVals.BREAK_EKF_LOGGER_THREAD = True
                return
        break
    print('Connected to EKF!!!')
    # intialize variables
    bufferRead = 1024
    breakMainThread = False
    while True:

        # if flag is set break the thread
        with GlobalVals.BREAK_EKF_LOGGER_THREAD_MUTEX:
            if GlobalVals.BREAK_EKF_LOGGER_THREAD:
                break

        # read the socket
        while True:
            try:
                data_bytes = socket_logger.recv(bufferRead)
                # print("EKF socket received")
                break
            except Exception as e:
                if e.args[0] == 'timed out':
                    print("EKFLoggerSocket() Receive timed out. Retrying...")
                    time.sleep(0.1)
                    continue
                else:
                    print("EKFLoggerSocket(): Receive Connection error.")
                    breakMainThread = True
                    break

        if breakMainThread:
            break
        # print("EKF socket received2")
        # if there is nothing in the socket then it has timed out
        if len(data_bytes) == 0:
            continue

        data_str = data_bytes.decode('utf-8')
        # print("EKF socket received3")
        # print(data_str)
        # print('---')
        string_list = extract_str_btw_curly_brackets(data_str)

        if len(string_list) > 0:
            ekf_list = []

            for string in string_list:
                received, ekf_i = stringToEKF(string)
                if received:
                    ekf_list.append(ekf_i)

            idx = 0
            # with GlobalVals.EKF_UPDATE_MUTEX:
            while idx < len(ekf_list):
                ekf_update(ekf_list[idx])
                idx += 1

            ekf = copy.deepcopy(GlobalVals.EKF_ALL)

            EKF_Data = CustMes.MESSAGE_EKF()
            EKF_Data.Longitude = ekf.lon
            EKF_Data.Latitude = ekf.lat
            EKF_Data.Altitude = ekf.alt
            EKF_Data.Epoch = ekf.epoch
            EKF_Data.SystemID = ekf.sysID
            EKF_Data.PosX = ekf.posX
            EKF_Data.PosY = ekf.posY
            EKF_Data.P00 = ekf.p00
            EKF_Data.P01 = ekf.p01
            EKF_Data.P10 = ekf.p10
            EKF_Data.P11 = ekf.p11

            # add data to the gps buffer
            # with GlobalVals.EKF_DATA_BUFFER_MUTEX:
            #     GlobalVals.EKF_DATA_BUFFER.append(EKF_Data)

            # set the flag for the data
            # with GlobalVals.RECIEVED_EKF_LOCAL_DATA_MUTEX:
            #     GlobalVals.RECIEVED_EKF_LOCAL_DATA = True

            # send GPS data to other balloons
            EKF_Packet = CustMes.MESSAGE_FRAME()
            EKF_Packet.SystemID = GlobalVals.SYSTEM_ID
            EKF_Packet.MessageID = 5
            EKF_Packet.TargetID = 0
            EKF_Packet.Payload = EKF_Data.data_to_bytes()
            NetworkManager.sendPacket(EKF_Packet)
            # print(EKF_Data.Longitude)
            # print("***************************")

        # pause a little bit so the mutexes are not getting called all the time
        time.sleep(1)

    socket_logger.close()
    return
Example #26
0
def RSSI_AllocationDistributor():
    # print("RSSI ALLOCATION DISTRIBUTOR 1")
    Distro_Socket = [None]*len(GlobalVals.RSSI_ALLOCATION_DISTRO_SOCKET)
    Distro_Connection = [None]*len(GlobalVals.RSSI_ALLOCATION_DISTRO_SOCKET)
    for i in range(len(GlobalVals.RSSI_ALLOCATION_DISTRO_SOCKET)):
        # start socket 

        Distro_Socket[i] = socket.socket(socket.AF_INET, socket.SOCK_STREAM)  
        Distro_Socket[i].setsockopt(socket.SOL_SOCKET, socket.SO_REUSEADDR,1) 
        Distro_Socket[i].bind((GlobalVals.HOST, GlobalVals.RSSI_ALLOCATION_DISTRO_SOCKET[i]))
        Distro_Socket[i].settimeout(GlobalVals.RSSI_LOGGER_SOCKET_TIMEOUT)
        

        # Wait for connection on the distro socket 
        try:
            Distro_Socket[i].listen(1) 
            Distro_Connection[i], addr = Distro_Socket[i].accept()  
            Distro_Connection[i].settimeout(GlobalVals.RSSI_LOGGER_SOCKET_TIMEOUT) 
            print("RSSI Allocation Logger[",i,"] Connected to ", addr)                                            
        except Exception as e:
            print("Exception: " + str(e.__class__))
            print("Error in the RSSI_Allocation Distributor[",i,"] logger socket. Now closing thread.")
            with GlobalVals.BREAK_RSSI_ALLOCATION_DISTRO_THREAD_MUTEX:
                GlobalVals.BREAK_RSSI_ALLOCATION_DISTRO_THREAD = True
            return 0
    
    breakThread = False
    nextPair = 1
    while True:    
        # print("RSSI ALLOCATION DISTRIBUTOR 2")
        if breakThread:
            break

        with GlobalVals.BREAK_RSSI_ALLOCATION_DISTRO_THREAD_MUTEX:
            if GlobalVals.BREAK_RSSI_ALLOCATION_DISTRO_THREAD:
                break
        
            # print("RSSI ALLOCATION DISTRIBUTOR 3")

        if GlobalVals.SYSTEM_ID == 1:
            with GlobalVals.NEXT_PAIR_MUTEX:
                nextPair = GlobalVals.NEXT_PAIR
        else:
            with GlobalVals.RSSI_DATA_ALLOCATION_BUFFER_MUTEX:
                if len(GlobalVals.RSSI_DATA_ALLOCATION_BUFFER) > 0:
                    RSSI_DataAllocation = GlobalVals.RSSI_DATA_ALLOCATION_BUFFER.pop(0)
                    nextPair = RSSI_DataAllocation

        messageStr = "{'pair': " + str(nextPair) +";}"
        messageStr_bytes = messageStr.encode('utf-8')

            # print("Send Pair Num to RFD900")

        # print('Allocated pair: '+messageStr)
        # send the message 
        for i in range(len(GlobalVals.RSSI_ALLOCATION_DISTRO_SOCKET)):
            try:
                Distro_Connection[i].sendall(messageStr_bytes)
            except Exception as e:
                print("Exception: " + str(e.__class__))
                print("Error when sending to RSSI Allocation Distro_Connection[",i,"]. Now closing thread.")
                breakThread = True
                time.sleep(1)
                break

        # Send via RFD900 network
        if GlobalVals.SYSTEM_ID == 1:
            RSSI_Allocation = CustMes.MESSAGE_RSSI_ALLOCATION()
            RSSI_Allocation.Pair = GlobalVals.NEXT_PAIR


            RSSI_AllocationPacket = CustMes.MESSAGE_FRAME()
            RSSI_AllocationPacket.SystemID = GlobalVals.SYSTEM_ID
            RSSI_AllocationPacket.MessageID = 8
            RSSI_AllocationPacket.TargetID = 0
            RSSI_AllocationPacket.Payload = RSSI_Allocation.data_to_bytes()
            NetworkManager.sendPacket(RSSI_AllocationPacket)
            # print("sending RSSI ALLOCATOR (pair: ",RSSI_Allocation.Pair,") from 1...")
        time.sleep(0.5)
    # while True:
    #     print("Closing RSSI Allocation Distro !!!!!!!!!")
    #     time.sleep(0.5)
    for i in range(GlobalVals.N_RSSI_NODE_PUBLISH):
        Distro_Connection[i].close()
Example #27
0
def RSSI_LoggerSocket(host,port,index):

    # set up socket
    while True:
        try:
            socket_logger = socket.socket(socket.AF_INET, socket.SOCK_STREAM)    
            socket_logger.connect((host,port))
            socket_logger.settimeout(GlobalVals.RSSI_LOGGER_SOCKET_TIMEOUT)
            
        except Exception as e:
            if e.args[1] == 'Connection refused':
                print('Retry connecting to RSSI....')
                time.sleep(1)
                continue
            else:
                print("Exception: " + str(e.__class__))
                print("There was an error starting the RSSI Logger socket. This thread will now stop.")
                with GlobalVals.BREAK_RSSI_LOGGER_THREAD_MUTEX[index]:
                    GlobalVals.BREAK_RSSI_LOGGER_THREAD[index] = True
                return 
        break
    print('Connected to RSSI[',index,'], Port: ',port,'!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!')
    # intialize variables 
    bufferRead = 1024
    breakMainThread = False
    while True:
        
        # if flag is set break the thread 
        with GlobalVals.BREAK_RSSI_LOGGER_THREAD_MUTEX[index]:
            if GlobalVals.BREAK_RSSI_LOGGER_THREAD[index]:
                break

        # read the socket 
        while True:
            try:
                data_bytes = socket_logger.recv(bufferRead)
                # print("data received[",index,"]")
                break
            except Exception as e:
                if e.args[0] == 'timed out':
                    print("RSSI_LoggerSocket Receive Time Out for Index [",index,"]. Retrying ...")
                    time.sleep(0.1)
                    continue
                else:
                    print("RSSI_LoggerSocket Connection error.")
                    breakMainThread = True
                    break
        if breakMainThread:
            break
        # if there is nothing in the socket then it has timed out 
        if len(data_bytes) == 0:
            continue

        data_str = data_bytes.decode('utf-8')
        
        string_list = extract_str_btw_curly_brackets(data_str)
        
        if len(string_list) > 0:
            # print("len string: ", len(string_list))
            rssi_list = []
            for string in string_list:
                received, rssi_i = stringToRSSI(string)
                if received:
                    rssi_list.append(rssi_i)

            idx = 0
            # print("check lenstring 1")
            with GlobalVals.RSSI_UPDATE_MUTEX[index]:
                while idx < len(rssi_list):
                    # print("len rssi_list: ",len(rssi_list), "idx: ",idx)
                    rssi_update(rssi_list[idx])
                    idx += 1
                
            # with GlobalVals.RSSI_UPDATE_MUTEX[index]:
                rssi_i = copy.deepcopy(GlobalVals.RSSI_ALL)
                # print(rssi_i)
            # print("check lenstring 2")
            RSSI_Data = CustMes.MESSAGE_RSSI()
            RSSI_Data.FilteredRSSI = rssi_i.rssi_filtered
            RSSI_Data.Distance = rssi_i.distance
            RSSI_Data.Epoch = rssi_i.epoch
            RSSI_Data.SystemID = GlobalVals.SYSTEM_ID
            RSSI_Data.TargetPayloadID = int(findTargetPayloadID(index))
            # print("check lenstring 3")
            # add data to the gps buffer 
            with GlobalVals.RSSI_DATA_BUFFER_MUTEX:
                GlobalVals.RSSI_DATA_BUFFER.append(RSSI_Data)
            # print("check lenstring 4")
            # # set the flag for the data 
            with GlobalVals.RECIEVED_RSSI_LOCAL_DATA_MUTEX: # 2 nodes?
                GlobalVals.RECIEVED_RSSI_LOCAL_DATA = True
            # print("check lenstring 5")
            with GlobalVals.RSSI_ALLOCATION_MUTEX:
                # print("UPDATE RSSI ALLOCATION MATRIX LOCALLYYYY")
                # print(GlobalVals.RSSI_ALLOCATION)
                GlobalVals.RSSI_ALLOCATION[GlobalVals.SYSTEM_ID-1][RSSI_Data.TargetPayloadID-1] = True
            # print("check lenstring 6")
            # send GPS data to other balloons 
            RSSI_Packet = CustMes.MESSAGE_FRAME()
            RSSI_Packet.SystemID = GlobalVals.SYSTEM_ID
            RSSI_Packet.MessageID = 7
            RSSI_Packet.TargetID = 0
            RSSI_Packet.Payload = RSSI_Data.data_to_bytes()
            NetworkManager.sendPacket(RSSI_Packet)
            # print(RSSI_Data)
            # print(RSSI_Packet.Payload)
            print("SENDING RSSI TO RFD900: "+", RSSI Distance:" + str(RSSI_Data.Distance) + ", Filtered RSSI: " + str(RSSI_Data.FilteredRSSI) + ", TargetPayloadID: " + str(RSSI_Data.TargetPayloadID) + ", SysID: " + str(RSSI_Data.SystemID))
            # print("check lenstring 5")
            # print(index)
            # print(RSSI_Data)
            # print("***************************")

        # pause a little bit so the mutexes are not getting called all the time 
        time.sleep(0.1)  

    # while True:
    #     print("RSSI TO RFD900 SOCKET CLOSE!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!")
    #     time.sleep(0.5)
    socket_logger.close()
    return 
Example #28
0
def GPSLoggerSocket():

    # set up socket
    try:
        socket_logger = socket.socket(socket.AF_INET, socket.SOCK_STREAM)    
        socket_logger.connect((GlobalVals.HOST, GlobalVals.GPS_LOGGER_SOCKET))
        socket_logger.settimeout(GlobalVals.GPS_LOGGER_SOCKET_TIMEOUT)
    except Exception as e:
        print("Exception: " + str(e.__class__))
        print("There was an error starting the GPSLoggerSocket logger socket. This thread will now stop.")
        print("GPS_PORT: ",GlobalVals.GPS_LOGGER_SOCKET)
        print("GPS_TIMEOUT: ",GlobalVals.GPS_LOGGER_SOCKET_TIMEOUT )
        with GlobalVals.BREAK_GPS_LOGGER_THREAD_MUTEX:
            GlobalVals.BREAK_GPS_LOGGER_THREAD = True
        return 

    # intialize variables 
    synced = False
    syncA = False
    syncB = False
    bufferRead = 1
    breakMainThread = False
    while True:
        
        # if flag is set break the thread 
        with GlobalVals.BREAK_GPS_LOGGER_THREAD_MUTEX:
            if GlobalVals.BREAK_GPS_LOGGER_THREAD:
                break

        # reset buffer read when not synced 
        if not synced:
            bufferRead = 1

        # read the socket 
        while True:
            try:
                data_bytes = socket_logger.recv(bufferRead)
                break
            except Exception as e:
                if e.args[0] == 'timed out':
                    print("GPSLoggerSocket receive timed out. Retrying ...")
                    time.sleep(0.1)
                    continue
                else:
                    print("GPSLoggerSocket: Receive Connection error.")
                    breakMainThread = True
                    break
        
        if breakMainThread:
            break
            
        # if there is nothing in the socket then it has timed out 
        if len(data_bytes) == 0:
            continue
        
        # for the sync bytes (0xAA 0x55)
        if not synced:
            if data_bytes[0] == 0xAA and not syncA:
                syncA = True
                bufferRead = 1
                continue
            elif data_bytes[0] == 0x55 and syncA:
                syncB = True
                bufferRead = 32
            else:
                syncA = False
                syncB = False
                bufferRead = 1
                continue 
            
            # if both bytes have been found in order then the socket buffer is synced 
            if syncA and syncB:
                synced = True
                syncA = False
                syncB = False
                continue 
        
        # once it is scyned read the rest of the data 
        if synced and bufferRead == 32:

            # convert payload values back to double
            LongitudeTuple = struct.unpack('!d',data_bytes[0:8])
            LatitudeTuple = struct.unpack('!d',data_bytes[8:16])
            AltitudeTuple = struct.unpack('!d',data_bytes[16:24])
            GPSTimeTuple = struct.unpack('!d',data_bytes[24:32])

            # store converted values 
            Longitude = LongitudeTuple[0]
            Latitude = LatitudeTuple[0]
            Altitude = AltitudeTuple[0]
            GPSTime = GPSTimeTuple[0]

            # Debug message 
            #print(str(GPSTime) + "," + str(Longitude) + "," + str(Latitude) + "," + str(Altitude) + "\n")  

            # use GPS message payload to store value 
            GPSData = CustMes.MESSAGE_GPS()
            GPSData.Longitude = Longitude
            GPSData.Latitude = Latitude
            GPSData.Altitude = Altitude
            GPSData.GPSTime = GPSTime
            GPSData.SystemID = GlobalVals.SYSTEM_ID

            # add data to the gps buffer 
            with GlobalVals.GPS_DATA_BUFFER_MUTEX:
                GlobalVals.GPS_DATA_BUFFER.append(GPSData)
            
            # set the flag for the data 
            with GlobalVals.RECIEVED_GPS_LOCAL_DATA_MUTEX:
                GlobalVals.RECIEVED_GPS_LOCAL_DATA = True

            # send GPS data to other balloons 
            GPSPacket = CustMes.MESSAGE_FRAME()
            GPSPacket.SystemID = GlobalVals.SYSTEM_ID
            GPSPacket.MessageID = 2
            GPSPacket.TargetID = 0
            GPSPacket.Payload = GPSData.data_to_bytes()
            NetworkManager.sendPacket(GPSPacket)
            # print("SEND GPS TO RFD900!!!!!!")
            # reset 
            synced = False

        # pause a little bit so the mutexes are not getting called all the time 
        time.sleep(0.01)  

    socket_logger.close()
    return 
Example #29
0
    if lockFile.is_locked():
        raise ValueError("Lock File Locked!")
    else:
        lockFile.lock()

    args = parse_arguments()

    try:
        vision_manager = VisionManager()
    except ValueError, ex:
        logger.error("Failed initializing VisionManager: %s", ex.message)
        raise

    if args.enable_network:
        try:
            network_manager = NetworkManager(args.host, args.port)
        except Exception, ex:
            logger.error("Unhandled Exception:\n" + traceback.format_exc())
            raise
    else:
        network_manager = None

    FPSCounter = FPS()
    FPSCounter.start()

    try:
        read_frames = 0  # the number of frames read so far

        while True:
            if args.dump_image and (read_frames % 30 == 0):
                save_frame_path = "current.png"
 def initialize(self):
     self.__device=NetworkManager.const('device_type', 2)
     self._status=NetworkManager.const('state', 40)
     self._dospeed, self._upspeed = self.speed_test()
Example #31
0
def main():

    recievedPackets = False
    sendTime = int(time.time() + 1)

    # this loop will wait for packets and then process them
    while True:

        curTime = int(time.time())

        # send dummy GPS data once a second
        if curTime >= sendTime:

            sendTime = curTime + 1
            GPSpacket = CustMes.MESSAGE_FRAME()
            GPSdata = CustMes.MESSAGE_GPS()

            # set up GPS packet
            GPSpacket.MessageID = 0x02
            GPSpacket.TargetID = 0
            GPSpacket.SystemID = GlobalVals.SYSTEM_ID

            # load dummy GPS data
            GPSdata.Longitude = 77.77
            GPSdata.Latitude = 88.88
            GPSdata.Altitude = 99.99
            GPSdata.GPSTime = 100.01

            # send dummy GPS packet
            GPSpacket.Payload = GPSdata.data_to_bytes()
            NetworkManager.sendPacket(GPSpacket)

        # check if packets have been recived
        with GlobalVals.RECIEVED_PACKETS_MUTEX:
            if GlobalVals.RECIEVED_PACKETS:
                recievedPackets = True

        # if no packets have been recived then sleep and loop
        if not recievedPackets:
            continue
        else:
            recievedPackets = False

        # go through all the packets in the buffer
        with GlobalVals.PACKET_BUFFER_IN_MUTEX:
            while len(GlobalVals.PACKET_BUFFER_IN) > 0:

                recievedPacket = GlobalVals.PACKET_BUFFER_IN.pop(0)

                # if the packet is a ping
                if recievedPacket.MessageID == 1:
                    NetworkManager.PingRespond(recievedPacket.SystemID,
                                               recievedPacket.Timestamp)

                # if the packet is a GPS data packet
                if recievedPacket.MessageID == 2:

                    # get the GPS data
                    recData = CustMes.MESSAGE_GPS()
                    error = recData.bytes_to_data(recievedPacket.Payload)
                    if error != 0:
                        print("Dummy Radio 1: GPS data error " + str(error) +
                              ".\n")
                        continue

                    print("GPS Data from " + str(recievedPacket.SystemID) +
                          ":")
                    print("Lon:" + str(recData.Longitude) + ", Lat:" +
                          str(recData.Latitude) + ", Alt:" +
                          str(recData.Altitude) + ", Time:" +
                          str(recData.GPSTime) + "\n")

                    continue

                # if the packet is string message
                if recievedPacket.MessageID == 3:

                    # get the string
                    StrData = CustMes.MESSAGE_STR()
                    error = StrData.bytes_to_data(recievedPacket.Payload)
                    if error != 0:
                        print("Dummy Radio 2: Message error " + str(error) +
                              ".\n")
                        continue

                    # print string
                    print(StrData.MessageStr)

                    continue
Example #32
0
    if lockFile.is_locked():
        raise ValueError("Lock File Locked!")
    else:
        lockFile.lock()

    args = parse_arguments()
	
    try:
        vision_manager = VisionManager()
    except ValueError, ex:
        logger.error("Failed initializing VisionManager: %s", ex.message)
        raise
	
    if args.enable_network:
        try:
            network_manager = NetworkManager(args.host, args.port)
        except Exception, ex:
            logger.error("Unhandled Exception:\n" + traceback.format_exc())
            raise
    else:
        network_manager = None

    FPSCounter = FPS()
    FPSCounter.start()

    try:
        read_frames = 0  # the number of frames read so far

        while True:
            if args.dump_image and (read_frames % 30 == 0):
                save_frame_path = "current.png"
Example #33
0
    def monitorActivatingConnection(self, new_state, old_state, reason):
        logger.info('Activating State Change %s -> %s' %
                    (NetworkManager.const('device_state', old_state),
                     NetworkManager.const('device_state', new_state)))
        if self._activatingConnection:
            if new_state == NetworkManager.NM_DEVICE_STATE_ACTIVATED:
                if self._monitorActivatingListener:
                    self._monitorActivatingListener.remove()
                    self._monitorActivatingListener = None

                d = self.getActiveConnectionDevice()
                if d.DeviceType == NetworkManager.NM_DEVICE_TYPE_ETHERNET:
                    eventManager.fire(
                        Events.INTERNET_CONNECTING_STATUS, {
                            'status': 'connected',
                            'info': {
                                'type': 'ethernet',
                                'ip': d.Ip4Address
                            }
                        })
                else:
                    ap = d.SpecificDevice().ActiveAccessPoint
                    eventManager.fire(
                        Events.INTERNET_CONNECTING_STATUS, {
                            'status': 'connected',
                            'info': {
                                'type': 'wifi',
                                'signal': ap.Strength,
                                'name': ap.Ssid,
                                'ip': d.Ip4Address
                            }
                        })

                self._activatingConnection = None
                self._justActivatedConnection = True
                self._setOnline(True)

            elif new_state in [
                    NetworkManager.NM_DEVICE_STATE_FAILED,
                    NetworkManager.NM_DEVICE_STATE_UNKNOWN
            ]:
                logger.warn(
                    'Connection reached state %s, reason: %s' %
                    (NetworkManager.const('device_state', new_state),
                     NetworkManager.const('device_state_reason', reason)))

                #It has reached and end state.
                self._activatingConnection = None
                if self._monitorActivatingListener:
                    self._monitorActivatingListener.remove()
                    self._monitorActivatingListener = None

                eventManager.fire(
                    Events.INTERNET_CONNECTING_STATUS, {
                        'status':
                        'failed',
                        'reason':
                        NetworkManager.const('device_state_reason', reason)
                    })

            elif new_state == NetworkManager.NM_DEVICE_STATE_DISCONNECTED:
                if self._monitorActivatingListener:
                    self._monitorActivatingListener.remove()
                    self._monitorActivatingListener = None

                eventManager.fire(Events.INTERNET_CONNECTING_STATUS,
                                  {'status': 'disconnected'})

                self._activatingConnection = None
Example #34
0
def statechange(nm, interface, signal, state):
    out("State changed to %s" % NetworkManager.const('STATE', state))
Example #35
0
    if wireless_device is not None:
        # Get the currently active VPN connection.
        # If you're running some kind of weird, three active VPNs scenario, then...
        # Change this code to work in your use-case.
        active = NetworkManager.NetworkManager.ActiveConnections
        for a in active:
            if "vpn" in a.Type:
                current_vpn = a

        # Choose a random one to connect to. We use the far more secure random method, with a larger seed,
        # to try and prevent the random generation from being a predictable pattern (well, to try to make
        # it far less predictable with our sample, at least).
        rand = random.SystemRandom(os.urandom(99999999))
        random_int = rand.randint(0, (vpns.__len__() - 1))
        random_vpn = vpns.__getitem__(random_int)
        new_connection = NetworkManager.Connection(random_vpn)

        # Validate that we have a current VPN connection to disconnect from before we do.
        if current_vpn is not None:

            # Disconnect the old & busted.
            NetworkManager.NetworkManager.DeactivateConnection(current_vpn)

            # To prevent collision in NetworkManager, we allow background clean-up before reconnecting.
            time.sleep(10)

        # Connect the new hotness.
        print("Connecting to: {}".format(random_vpn))
        NetworkManager.NetworkManager.ActivateConnection(new_connection, wireless_device, "/")

    # No wireless interfaces were found, so let's abort.
def __device_class_patch(typ):
    try:
        return NM.device_class_orig(typ)
    except KeyError:
        return NM.Generic
Example #37
0
 def __init__(self):
     self.running = True
     self.waitingQueue = deque()
     self.networkManager = NetworkManager(self)
     self.battles = []
Example #38
0
def main():

    recievedPackets = False
    # sendTime = int(time.time() + 1)

    # this loop will wait for packets and then process them
    while True:

        # check if packets have been recived
        with GlobalVals.RECIEVED_PACKETS_MUTEX:
            if GlobalVals.RECIEVED_PACKETS:
                recievedPackets = True

        # if no packets have been recived then sleep and loop
        if not recievedPackets:
            time.sleep(0.1)
            continue
        else:
            recievedPackets = False

        # go through all the packets in the buffer
        recievedPacket = CustMes.MESSAGE_FRAME()
        with GlobalVals.PACKET_BUFFER_IN_MUTEX:
            while len(GlobalVals.PACKET_BUFFER_IN) > 0:

                recievedPacket = GlobalVals.PACKET_BUFFER_IN.pop(0)

                # if the packet is a ping
                if recievedPacket.MessageID == 1:
                    NetworkManager.PingRespond(recievedPacket.SystemID,
                                               recievedPacket.Timestamp)

                # if the packet is a GPS data packet

                if recievedPacket.MessageID == 2:

                    # get the GPS data
                    GPSdata = CustMes.MESSAGE_GPS()
                    error = GPSdata.bytes_to_data(recievedPacket.Payload)
                    if error != 0:
                        print("Radio Network Main: GPS data error " +
                              str(error))
                        continue

                    # print("GPS Data from " + str(recievedPacket.SystemID) + ":")
                    # print("Lon:" + str(round(GPSdata.Longitude,3)) + ", Lat:" + str(round(GPSdata.Latitude,3)) + ", Alt:" + str(round(GPSdata.Altitude,2)) + ", Time:" + str(GPSdata.GPSTime) + "\n")

                    # set the system id for the GPS data
                    GPSdata.SystemID = recievedPacket.SystemID

                    if not GPSHandler.GPS_FormatCheck(GPSdata):
                        print(
                            "GPS message via RFD900 was broken. Discard it...")
                        continue

                    # print("GPS Data from " + str(recievedPacket.SystemID) + ":")
                    # print("Lon:" + str(round(GPSdata.Longitude,3)) + ", Lat:" + str(round(GPSdata.Latitude,3)) + ", Alt:" + str(round(GPSdata.Altitude,2)) + ", Time:" + str(GPSdata.GPSTime) + "\n")

                    # update GPS_Log
                    with GlobalVals.GPS_LOG_MUTEX:
                        update_GPS_Log(GPSdata)
                        distance = distanceMatrixCalculation(
                            GlobalVals.GPS_ALL, 0)
                    print(
                        "--------------------------------------------------------------------------------------------------"
                    )
                    print("GPS GPS GPS " + str(recievedPacket.SystemID) +
                          str(recievedPacket.SystemID) +
                          str(recievedPacket.SystemID) + ":" + " Lon:" +
                          str(round(GPSdata.Longitude, 3)) + ", Lat:" +
                          str(round(GPSdata.Latitude, 3)) + ", Alt:" +
                          str(round(GPSdata.Altitude, 1)) + ", Time:" +
                          str(round(GPSdata.GPSTime, 1)))
                    print('Distance from GPS [m]:\n', distance)

                    # put data into the buffer
                    # with GlobalVals.GPS_DATA_BUFFER_MUTEX:
                    #     GlobalVals.GPS_DATA_BUFFER.append(GPSdata)

                    # set the flags for the buffer
                    # with GlobalVals.RECIEVED_GPS_RADIO_DATA_MUTEX:
                    #     GlobalVals.RECIEVED_GPS_RADIO_DATA = True

                    continue

                # if the packet is string message
                if recievedPacket.MessageID == 3:

                    # get the string
                    StrData = CustMes.MESSAGE_STR()
                    error = StrData.bytes_to_data(recievedPacket.Payload)
                    if error != 0:
                        print("Packet error, packet will be discarded.\n")
                        continue

                    # print string
                    print(StrData.MessageStr)

                    continue

                # if the packet is an EKF GPS data packet
                if recievedPacket.MessageID == 5:

                    # get the GPS data
                    EKF_Data = CustMes.MESSAGE_EKF()
                    error = EKF_Data.bytes_to_data(recievedPacket.Payload)
                    if error != 0:
                        print("Radio Network Main: EKF data error " +
                              str(error))
                        continue

                    # set the system id for the GPS data
                    EKF_Data.SystemID = recievedPacket.SystemID

                    if not EKFHandler.EKF_FormatCheck(EKF_Data):
                        print(
                            "EKF message via RFD900 was broken. Discard it...")
                        continue

                    # update GPS_Log
                    with GlobalVals.EKF_LOG_MUTEX:
                        update_EKF_Log(EKF_Data)
                        distance = distanceEKF_MatrixCalculation(
                            GlobalVals.GPS_ALL,
                            0,
                        )

                    print(
                        "=================================================================================================="
                    )
                    print("EKF EKF EKF " + str(recievedPacket.SystemID) +
                          str(recievedPacket.SystemID) +
                          str(recievedPacket.SystemID) + ":" + " Lon:" +
                          str(round(EKF_Data.Longitude, 3)) + ", Lat:" +
                          str(round(EKF_Data.Latitude, 3)) + ", Alt:" +
                          str(round(EKF_Data.Altitude, 1)) + ", Time:" +
                          str(round(EKF_Data.Epoch, 1)))
                    print('Distance from EKF [m]:\n', distance)

                    continue

                # if the packet is an temperature data packet
                # Temperature
                if recievedPacket.MessageID == 6:

                    # get the RSSI data
                    temperatureData = CustMes.MESSAGE_TEMP()
                    error = temperatureData.bytes_to_data(
                        recievedPacket.Payload)
                    if error != 0:
                        print("Radio Network Main: temperature data error " +
                              str(error))
                        continue

                    # set the system id for the GPS data
                    temperatureData.SystemID = recievedPacket.SystemID

                    if not TemperatureHandler.temperatureFormatCheck(
                            temperatureData):
                        print(
                            "Temperature message via RFD900 was broken. Discard it..."
                        )
                        continue

                    tempur = TEMPERATURE(temperatureData.SystemID,
                                         temperatureData.Temperature,
                                         temperatureData.Epoch)
                    with GlobalVals.TEMPERATURE_UPDATE_MUTEX:
                        update_temperature(tempur)
                    # print(" Temperature Data from " + str(recievedPacket.SystemID) + ":" + "Temperature:" + str(round(temperatureData.Temperature,1)))

                # RSSI
                if recievedPacket.MessageID == 7:

                    # get the RSSI data
                    RSSI_Data = CustMes.MESSAGE_RSSI()
                    error = RSSI_Data.bytes_to_data(recievedPacket.Payload)
                    if error != 0:
                        print("Radio Network Main: RSSI data error " +
                              str(error))
                        continue

                    # set the system id for the GPS data
                    RSSI_Data.SystemID = recievedPacket.SystemID
                    # print(RSSI_Data.SystemID)
                    # print(RSSI_Data.TargetPayloadID)
                    # print(GlobalVals.RSSI_ALLOCATION)

                    # Check if the message was sent correctly via the RFD900
                    if not RSSI_Handler.RSSI_FormatCheck(RSSI_Data):
                        print(
                            "RSSI message via RFD900 was broken. Discard it..."
                        )
                        continue

                    print("RSSI Data from " + str(recievedPacket.SystemID) +
                          ": " + "RSSI Distance:" +
                          str(round(RSSI_Data.Distance, 1)) +
                          ", Filtered RSSI: " +
                          str(round(RSSI_Data.FilteredRSSI, 1)) +
                          ", TargetPayloadID: " +
                          str(RSSI_Data.TargetPayloadID) + ", Time: " +
                          str(RSSI_Data.Epoch) + ", SysID: " +
                          str(RSSI_Data.SystemID))

                    if GlobalVals.SYSTEM_ID == 1:
                        with GlobalVals.RSSI_ALLOCATION_MUTEX:
                            # print("UPDATE RSSI ALLOCATION FROM RADIO [",RSSI_Data.SystemID,"] !!!!")
                            # print(GlobalVals.RSSI_ALLOCATION)
                            GlobalVals.RSSI_ALLOCATION[RSSI_Data.SystemID - 1][
                                int(RSSI_Data.TargetPayloadID) - 1] = True
                            # print("check 32")
                            # print(GlobalVals.RSSI_ALLOCATION)
                            RSSI_Handler.getPairAllocation()

                    # put data into the buffer
                    with GlobalVals.RSSI_DATA_BUFFER_MUTEX:
                        GlobalVals.RSSI_DATA_BUFFER.append(RSSI_Data)

                    # set the flags for the buffer
                    with GlobalVals.RECIEVED_RSSI_RADIO_DATA_MUTEX:
                        GlobalVals.RECIEVED_RSSI_RADIO_DATA = True

                    continue

                if recievedPacket.MessageID == 8:

                    # get the RSSI data
                    RSSI_AllocationData = CustMes.MESSAGE_RSSI_ALLOCATION()
                    error = RSSI_AllocationData.bytes_to_data(
                        recievedPacket.Payload)
                    if error != 0:
                        print(
                            "Radio Network Main: RSSI Allocation data error " +
                            str(error))
                        continue

                    # set the system id for the GPS data
                    RSSI_AllocationData.SystemID = recievedPacket.SystemID

                    if not RSSI_Handler.RSSI_AllocationFormatCheck(
                            RSSI_AllocationData):
                        print(
                            "RSSI Allocation message via RFD900 was broken. Discard it..."
                        )
                        continue

                    print("RSSI Allocation Data from " +
                          str(recievedPacket.SystemID) + ":" + "Pair:" +
                          str(int(RSSI_AllocationData.Pair)))

                    # put data into the buffer
                    with GlobalVals.RSSI_DATA_ALLOCATION_BUFFER_MUTEX:
                        # if len(GlobalVals.RSSI_DATA_ALLOCATION_BUFFER)>5:
                        #     GlobalVals.RSSI_DATA_ALLOCATION_BUFFER.pop(0)
                        GlobalVals.RSSI_DATA_ALLOCATION_BUFFER.append(
                            int(RSSI_AllocationData.Pair))

                    # set the flags for the buffer
                    with GlobalVals.RECIEVED_RSSI_ALLOCATION_RADIO_DATA_MUTEX:
                        GlobalVals.RECIEVED_RSSI_ALLOCATION_RADIO_DATA = True

                    continue

        with GlobalVals.PACKET_STATS_LOG_MUTEX:
            packetStatsLogTmp = copy.deepcopy(GlobalVals.PACKET_STATS_LOG)

        with GlobalVals.PACKET_STATS_AWS_MUTEX:
            GlobalVals.PACKET_STATS_AWS = packetStatsLogTmp

        # if radio GPS data has been recived record it
        if GlobalVals.RECIEVED_GPS_RADIO_DATA:

            logString = ""
            with GlobalVals.GPS_DATA_BUFFER_MUTEX:
                while len(GlobalVals.GPS_DATA_BUFFER) > 0:

                    # get the GPS data
                    GPSData = GlobalVals.GPS_DATA_BUFFER.pop(0)
                    Longitude = GPSData.Longitude
                    Latitude = GPSData.Latitude
                    Altitude = GPSData.Altitude
                    GPSTime = int(GPSData.GPSTime)
                    SystemID = GPSData.SystemID

                    # create message string
                    logString = logString + str(GPSTime) + "," + str(
                        SystemID) + "," + str(Longitude) + "," + str(
                            Latitude) + "," + str(Altitude) + "\n"

            # write the log string to file
            try:
                fileObj = open(GlobalVals.GROUND_STATION_LOG_FILE, "a")
                fileObj.write(logString)
                fileObj.close()
            except Exception as e:
                print("Exception: " + str(e.__class__))
                print(e)
                print("Error using GPS data log file")
Example #39
0
    else:
        lockFile.lock()
    try:

        FPSCounter = FPS()
        FPSCounter.start()

        cam = cv2.VideoCapture(0)
        cam.set(3,640)
        cam.set(4,480)
        #cam.set(cv2.cv.CV_CAP_PROP_BRIGHTNESS, brightness)
        #cam.set(cv2.cv.CV_CAP_PROP_SATURATION, saturation)
        #cam.set(cv2.cv.CV_CAP_PROP_EXPOSURE, exposure) # not working on the old camera

        visionManager = VisionManager(LB, UB, MBR, cam, KH, KW, FL, [RH,RW,RL], TH, CUW, CUWD, HAX, HAY)
        networkManager = NetworkManager(JAVA_IP,8080)

        ###################
        # The code itself #
        ###################

        while True:

            visionManager.updateImage()
            visionManager.updateTowerScales()
            visionManager.updateRobotScales()
            FPSCounter.update()

            if visionManager.isObjectDetected: # if an object was detected

                ######################
Example #40
0
File: __main__.py Project: smcl/xnm
    pass #addConnection(container, "(ethernet)")

def setupModem(container, dev):
    for connection in dev.AvailableConnections:
        connId = connection.GetSettings()["connection"]["id"]
        connected = not dbusNull(dev.ActiveConnection) and dev.ActiveConnection.Id == connId
        addModemConnection(container, connId, connected, dev, connection)

def setupGenericDevice(container, dev):
    addConnection(container, "(generic)")

root = Tk()
root.wm_title("xnm")

for i, dev in enumerate(NetworkManager.NetworkManager.GetDevices()):
    deviceHeader = " %s (%s) " % (dev.Interface, NetworkManager.const("device_state", dev.State))
    ifLabel = LabelFrame(root, text=deviceHeader, bg=bgColor, fg=midColor, font=headFont)

    #ifToggle = Checkbutton(ifLabel, bg=bgColor, fg=midColor, font=bodyFont, bd=0, highlightthickness=0, compound=RIGHT, activebackground=fgColor, activeforeground=bgColor)
    #ifToggle.pack(fill="both")
    #if (NetworkManager.const("device_state", dev.State) == "disconnected"):
    #    ifToggle.config(text="Enable", command=lambda: enableDevice(dev))
    #else:
    #    ifToggle.config(text="Disable", command=lambda: disableDevice(dev))

    #ifDisconnect = Button(ifLabel, text="Disconnect", bg=bgColor, fg=midColor, font=bodyFont, bd=0, highlightthickness=0, compound=RIGHT, activebackground=fgColor, activeforeground=bgColor)
    #ifDisconnect.pack(fill="both")

    if (isinstance(dev.SpecificDevice(), NetworkManager.Wireless)):
	setupWifi(ifLabel, dev)
    elif (isinstance(dev.SpecificDevice(), NetworkManager.Wired)):