コード例 #1
0
 def __init__(self, bridge, host_eui64_hex, thread_exit_event, command_queue, event_queue, log_queue, watchdog_delegate):
     self.host_eui64_hex = host_eui64_hex
     self.commandProcessingEnabled = True
     self.eventProcessingEnabled = True
     self.logProcessingEnabled = True
     self.thread_exit_event = thread_exit_event
     self.command_queue = command_queue
     self.event_queue = event_queue
     self.log_queue = log_queue
     self.watchdog_delegate = watchdog_delegate
     self.current_json_message = None
     self.bridge = bridge
     self.networkUp = bridge.networkUp
     self.handshake_sent = False
     self.logger = Logger('cloud')
     self.command_logger = Logger('cloud.command')
     self.event_logger = Logger('cloud.event')
     self.logging_logger = Logger('cloud.logging')
     self.socket_logger = Logger('cloud.socket')
     self.resolver = simple_caching_resolver.SimpleCachingResolver()
     self.sm = statistics_monitor.StatisticsMonitor()
     self.event_sources = {}
     self.connection_failure_count = 0
     self.ip_pool = []
     self.last_connected_at = None
     self.ws = None
     socket.setdefaulttimeout(HTTP_SOCKET_TIMEOUT)
コード例 #2
0
class BergCloudSocketApi(Singleton):

    def __init__(self, bridge, host_eui64_hex, thread_exit_event, command_queue, event_queue, log_queue, watchdog_delegate):
        self.host_eui64_hex = host_eui64_hex
        self.commandProcessingEnabled = True
        self.eventProcessingEnabled = True
        self.logProcessingEnabled = True
        self.thread_exit_event = thread_exit_event
        self.command_queue = command_queue
        self.event_queue = event_queue
        self.log_queue = log_queue
        self.watchdog_delegate = watchdog_delegate
        self.current_json_message = None
        self.bridge = bridge
        self.networkUp = bridge.networkUp
        self.handshake_sent = False
        self.logger = Logger('cloud')
        self.command_logger = Logger('cloud.command')
        self.event_logger = Logger('cloud.event')
        self.logging_logger = Logger('cloud.logging')
        self.socket_logger = Logger('cloud.socket')
        self.resolver = simple_caching_resolver.SimpleCachingResolver()
        self.sm = statistics_monitor.StatisticsMonitor()
        self.event_sources = {}
        self.connection_failure_count = 0
        self.ip_pool = []
        self.last_connected_at = None
        self.ws = None
        socket.setdefaulttimeout(HTTP_SOCKET_TIMEOUT)



    def start(self):
        event_state = self.thread_exit_event.wait(THREAD_WAIT_TIMEOUT)
        while not event_state:
            if self.watchdog_delegate:
                self.watchdog_delegate.updateKey('socketThread')
            try:
                if self.ws == None or self.ws.connectionState == 'closed':
                    if len(self.ip_pool) == 0:
                        (ip_addresses, expiration_time,) = self.resolver.lookup(WS_HOSTNAME)
                        random.shuffle(ip_addresses)
                        self.logger.info('IP pool now %s with an expiry in %d seconds' % (ip_addresses, expiration_time - time.time()))
                        self.ip_pool = ip_addresses
                        self.connection_expiration_time = expiration_time
                    ip_address = self.ip_pool.pop()
                    if self.connect(ip_address):
                        self.last_connected_at = time.time()
                        self.current_ip_address = ip_address
                        self.socket_logger.debug('Resetting connection_failure_count')
                        self.connection_failure_count = 0
                        self.handshake_sent = False
                    elif len(self.ip_pool) == 0:
                        self.connection_failure_count += 1
                        self.socket_logger.debug("Incrementing connection_failure_count (now %d) as we're out of IPs" % self.connection_failure_count)
                    event_state = self.thread_exit_event.wait(5)
                elif time.time() > self.connection_expiration_time:
                    if self.currentIPIsValid():
                        self.logger.info('DNS timeout reached: Current IP address is still valid, not dropping')
                        self.connection_expiration_time += 3600
                    else:
                        self.logger.info("Closing websocket as we're over expiry time and DNS has changed")
                        self.ws.close()
                else:
                    self.sendPendingData()
            except:
                self.socket_logger.exception('Unhandled socket api exception:', sys.exc_info())
                self.connection_failure_count += 1
                self.handshake_sent = False
            event_state = self.thread_exit_event.wait(THREAD_WAIT_TIMEOUT)

        if self.ws != None:
            self.logger.warning('Closing websocket from bridge side')
            try:
                self.ws.close()
            finally:
                if self.ws._th.isAlive():
                    self.ws._th.join()
                self.ws = None



    def currentIPIsValid(self):
        current_ip_address = self.current_ip_address
        (resolved_ip_addresses, expiration_time,) = self.resolver.lookup(WS_HOSTNAME)
        return current_ip_address in resolved_ip_addresses



    def sendPendingData(self):
        if self.current_json_message != None:
            self.socket_logger.info('We have pending JSON data to send: %s' % self.current_json_message)
            if self.sendJson(self.current_json_message):
                self.current_json_message = None
            else:
                self.socket_logger.warning("Still can't send the current JSON")
                return 
        if not self.handshake_sent:
            self.onEstablishConnection()
        if self.eventProcessingEnabled:
            self.postFromEventQueue()
        if self.log_queue != None and self.logProcessingEnabled:
            self.postFromLogQueue()
        self.assess_active_devices()



    def endpoint(self):
        return '%s://%s:%s/' % (WS_SCHEME, WS_HOSTNAME, WS_PORT)



    def connect(self, ip_address):
        connect_success = False
        self.socket_logger.info('Creating websocket client')
        ssl_options = None
        ws_protocols = ['bergcloud-bridge-v1']
        if WS_SCHEME == 'https':
            proto = 'wss'
            ssl_options = {'keyfile': SSL_KEY,
             'certfile': SSL_CERT,
             'ca_certs': SSL_CA_PEM,
             'cert_reqs': ssl.CERT_REQUIRED}
        else:
            proto = 'ws'
        ws_uri = '%s://%s:%s/api/v1/connection' % (proto, ip_address, WS_PORT)
        try:
            if ssl_options == None:
                self.ws = BergCloudStreamingClient(ws_uri, protocols=ws_protocols, heartbeat_freq=5)
            else:
                self.ws = BergCloudStreamingClient(ws_uri, ssl_options=ssl_options, protocols=ws_protocols, heartbeat_freq=5)
            self.ws.daemon = False
            self.ws.set_command_queue(self.command_queue)
            self.ws.set_event_queue(self.event_queue)
            self.ws.set_host_eui64_hex(self.host_eui64_hex)
            self.socket_logger.debug('Connecting to %s' % ws_uri)
            self.ws.connect()
            connect_success = True
        except socket.error as e:
            if e.errno == errno.ECONNREFUSED:
                self.socket_logger.error('Socket connection refused')
            elif e.errno == errno.ETIMEDOUT:
                self.socket_logger.error('Socket connection timed out')
            elif e.errno == errno.EHOSTUNREACH:
                self.socket_logger.error('No route to host')
            else:
                self.socket_logger.error('Socket connection exception %s [%s]' % (e, str(e.errno)))
        except socket.timeout:
            self.socket_logger.error('Socket connection timed out')
        except:
            self.socket_logger.exception('Unexpected socket connect error:', sys.exc_info())
        if not connect_success:
            self.ws = None
        return connect_success



    def isConnected(self):
        if self.ws == None:
            return False
        else:
            return self.ws.connectionState == 'connected'



    def onEstablishConnection(self):
        if self.networkUp():
            self.socket_logger.info('Sending bridge power_on handshake')
            event = bridge_event.BridgeEvent(self.host_eui64_hex, {'name': 'power_on'})
            event.append_payload(self.bridge.system_environment)
            ver_info = version.Version()
            version_dict = {'firmware_version': ver_info.firmware_version,
             'mac_address': ver_info.mac_address,
             'ncp_version': ver_info.ncp_stack_version,
             'model': ver_info.model}
            event.append_payload(version_dict)
            event_json = event.to_json()
            self.logger.debug('Posting event JSON %s' % event_json)
            result = self.sendJson(event_json)
            if result:
                self.handshake_sent = True
                self.event_sources = {}



    def postFromEventQueue(self):
        try:
            event = self.event_queue.get(False)
            if isinstance(event, device_event.DeviceEvent) and event.device_address == None:
                self.logger.warning('Device Event has no device_address! Cannot post to cloud!')
                return 
            if isinstance(event, device_event.DeviceEvent):
                source_eui64_hex = byte_tuple.eui64ToHexString(event.device_address, False)
                self._register_active_device(source_eui64_hex)
                event.rssi_stats = self.sm.rssiStatsForEui64(source_eui64_hex)
            self.current_json_message = event.to_json()
            self.logger.info('Posting event JSON %s' % self.current_json_message)
            result = self.sendJson(self.current_json_message)
            if result:
                self.current_json_message = None
        except Queue.Empty:
            pass



    def postFromLogQueue(self):
        log_records = []
        try:
            while True:
                record = self.log_queue.get(False)
                clr = cloud_log_record.CloudLogRecord(record)
                log_records.append(clr)

        except Queue.Empty:
            if len(log_records) > 0:
                self.current_json_message = cloud_log_record.CloudLogRecord.to_json(log_records, self.host_eui64_hex)
                result = self.sendJson(self.current_json_message)
                if result:
                    self.current_json_message = None



    def sendJson(self, json):
        if self.ws == None:
            self.logger.error('No socket client to post with!')
            return False
        try:
            self.ws.send(json)
            return True
        except socket.error as e:
            if e.errno == errno.EPIPE:
                self.logger.error('Broken pipe. Re-stashing event and reconnecting')
                time.sleep(2)
            else:
                self.logger.error('Socket error %s' % e)
            self.ws.close()
            self.ws = None
            return False
        except:
            self.logger.exception('socket send exception', sys.exc_info())
            return False



    def assess_active_devices(self):
        current_time = time.time()
        nodes = []
        for eui64_hex in self.event_sources.keys():
            times = self.event_sources[eui64_hex]
            first_contact_time = times[0]
            last_contact_time = times[1]
            if current_time - last_contact_time < HEARTBEAT_TIMEOUT:
                nodes.append(eui64_hex)
            else:
                self._deregister_active_device(eui64_hex)

        if len(nodes) == 0:
            return None
        else:
            return nodes



    def active_device_uptime(self, eui64_hex):
        current_time = time.time()
        if self.event_sources.has_key(eui64_hex):
            return current_time - self.event_sources[eui64_hex][0]



    def _register_active_device(self, eui64_hex):
        current_time = time.time()
        if self.event_sources.has_key(eui64_hex):
            self.event_sources[eui64_hex][1] = current_time
        else:
            self.event_sources[eui64_hex] = [current_time, current_time]
            self.command_logger.info('Issuing device_connect for %s' % eui64_hex)
            event = bridge_event.BridgeEvent(self.host_eui64_hex, {'name': 'device_connect',
             'device_address': eui64_hex})
            self.event_queue.put(event, False)



    def _deregister_active_device(self, eui64_hex):
        if self.event_sources.has_key(eui64_hex):
            self.command_logger.info('Issuing device_disconnect for %s' % eui64_hex)
            event = bridge_event.BridgeEvent(self.host_eui64_hex, {'name': 'device_disconnect',
             'device_address': eui64_hex})
            self.event_queue.put(event, False)
            del self.event_sources[eui64_hex]
コード例 #3
0
 def __init__(self, *args, **kwargs):
     self.logger = Logger('cloud.socketclient')
     self.connectionState = 'connecting'
     super(BergCloudStreamingClient, self).__init__(*args, **kwargs)
コード例 #4
0
class BergCloudStreamingClient(WebSocketClient):

    def __init__(self, *args, **kwargs):
        self.logger = Logger('cloud.socketclient')
        self.connectionState = 'connecting'
        super(BergCloudStreamingClient, self).__init__(*args, **kwargs)



    def set_command_queue(self, queue):
        self.command_queue = queue



    def set_event_queue(self, queue):
        self.event_queue = queue



    def set_host_eui64_hex(self, value):
        self.host_eui64_hex = value



    def opened(self):
        self.sock.setsockopt(socket.SOL_SOCKET, socket.SO_KEEPALIVE, 1)
        self.sock.setsockopt(socket.IPPROTO_TCP, socket.TCP_KEEPIDLE, 3)
        self.sock.setsockopt(socket.IPPROTO_TCP, socket.TCP_KEEPINTVL, 3)
        self.sock.setsockopt(socket.IPPROTO_TCP, socket.TCP_KEEPCNT, 5)
        self.connectionState = 'connected'
        linux_hub.set_led_state('bergcloud', 'on', True)
        self.logger.info('Websocket open and connected')



    def closed(self, code, reason = None):
        self.connectionState = 'closed'
        linux_hub.set_led_state('bergcloud', 'off', True)
        self.logger.warning('Closed down websocket, code: %d, reason: %s' % (code, reason))



    def received_message(self, m):
        try:
            decoded_json_message = json.loads(str(m))
            self.process_command(decoded_json_message)
        except:
            self.logger.exception('Exception decoding JSON:', sys.exc_info())



    def process_command(self, response):
        if response.has_key('type'):
            command_type = response['type']
            if command_type == 'BridgeCommand':
                bc = bridge_command.BridgeCommand.from_json(response)
                self.logger.debug('Queueing %s' % bc)
                self.command_queue.put(bc, False)
            elif command_type == 'DeviceCommand':
                try:
                    dc = device_command.DeviceCommand.from_json(response)
                    dc.bridge_address = self.host_eui64_hex
                    self.logger.debug('Queueing %s' % dc)
                    self.command_queue.put(dc, False)
                except Queue.Full:
                    self.logger.warning('Ut oh, the command queue is full!')
                    dc.return_code = device_command.RSP_QUEUE_FULL
                    self.event_queue.put(dc, False)
                except:
                    self.logger.exception('Exception creating command:', sys.exc_info())
                    dc.return_code = 255
                    self.event_queue.put(dc, False)
            else:
                self.logger.error("Unknown command type '%s'" % command_type)
                return 
        else:
            self.logger.error('Required type key missing in command')
            return 
コード例 #5
0
from kivy.uix.button import Button
from kivy.uix.label import Label
from kivy.uix.textinput import TextInput
from kivy.uix.scrollview import ScrollView
from kivy.properties import StringProperty
import os, json, time
import pythoncom, pefile
import win32com.client
from config.config import Config
from config.api_config import ApiConfig
from customlogger import Logger
from config.config import Config
from MSMQCustom import MSMQCustom

config = Config()
logger = Logger(config)

#Window.clearcolor = (1, 1, 1, 1)
event_queue_name = config.get_event_queue_name()
msmqueue_event = MSMQCustom(event_queue_name)

config_queue_name = config.get_config_queue_name()
msmqueue_config = MSMQCustom(config_queue_name)


def empty_queue(self):
    if msmqueue_event.open_queue(1, 0):
        while msmqueue_event.peek(500):
            msg = msmqueue_event.recv_from_queue()
            if msg:
                continue
コード例 #6
0
ファイル: FriSpyController.py プロジェクト: 73J45/FriSpy
def main():

    #Initialize config     
    config = Config()
    if not config:
        print ("[x] Failed to load FriSpy configurations...")
        return

    #Initialize logger
    logger = Logger(config)
    if not logger:
        print ("[x] Failed to load FriSpy Logger...")
        return

    ContinueExecution = True
    ExecutionSampleCount = 2
    while (ContinueExecution and ExecutionSampleCount):
        # Initialize Config Queue to receieve configurations from GUI
        config_queue_name = config.get_config_queue_name()
        msmqueue_config = MSMQCustom(config_queue_name)
         
        if msmqueue_config.open_queue(1, 0):#MQ_RECEIVE_ACCESS

            msg = msmqueue_config.recv_from_queue()
            if msg:

                # Receive Sample Details from FriSpyGUI
                logger.log("info",str(msg))
                logger.log("info","Found new sample:")
                logger.log("info","Label: %s" % (msg.Label))
                logger.log("info","Body : %s" % (msg.Body))
                if msg.Label == "start":
                    #Load the configurations sent by GUI
                    gui_config = json.loads(msg.Body)
                    target_process = gui_config["filepath"]
                    config.set_save_api_watch_list_flag_status(gui_config["set_save_api_watch_list_flag_status"])
                    config.set_save_behavior_flag_status(gui_config["set_save_behavior_flag_status"])
                    config.set_capture_behavior_report_basic_flag(gui_config["set_capture_behavior_report_basic_flag"])
                    config.set_capture_behavior_report_complete_flag(gui_config["set_capture_behavior_report_complete_flag"])

                    start_frispy(config, logger, target_process)

                    ContinueExecution = False
            msmqueue_config.close_queue()
        else:
            logger.log("error","Config queue not found")

        ExecutionSampleCount = ExecutionSampleCount - 1
    return