Esempio n. 1
0
    def __init__(self, args):
        self.args = args
        # Test number to start from, 0 default
        self.MIN_RUN_NUMBER = 0
        # Test number to go to, -1 is unlimited
        self.MAX_RUN_NUMBER = -1
        # For seed loop, finite range to repeat
        self.SEED_LOOP = []
        # For dumpraw option, dump into log directory by default, else 'dumpraw'
        self.DUMPDIR = ""

        #Populate global arguments from parseargs
        self.fuzzerFilePath = args.prepped_fuzz
        self.host = args.target_host

        #Assign Lower/Upper bounds on test cases as needed
        if args.range:
            (self.MIN_RUN_NUMBER,
             self.MAX_RUN_NUMBER) = getRunNumbersFromArgs(args, args.range)
        elif args.loop:
            self.SEED_LOOP = validateNumberRange(args.loop, True)

        #Check for dependency binaries
        if not os.path.exists(RADAMSA):
            sys.exit("Could not find radamsa in %s... did you build it?" %
                     RADAMSA)

        #Logging options
        self.isReproduce = False
        self.logAll = False

        if args.quiet:
            self.isReproduce = True
        elif args.logAll:
            self.logAll = True

        self.outputDataFolderPath = os.path.join(
            "%s_%s" % (os.path.splitext(self.fuzzerFilePath)[0], "logs"),
            datetime.datetime.now().strftime("%Y-%m-%d,%H%M%S"))
        self.fuzzerFolder = os.path.abspath(
            os.path.dirname(self.fuzzerFilePath))

        ########## Declare variables for scoping, "None"s will be assigned below
        self.messageProcessor = None

        ###Here we read in the fuzzer file into a dictionary for easier variable propagation
        self.optionDict = {"unfuzzedBytes": {}, "message": []}

        self.fuzzerData = FuzzerData()
        print "Reading in fuzzer data from %s..." % (self.fuzzerFilePath)
        self.fuzzerData.readFromFile(self.fuzzerFilePath)

        #clumsden TODO - make this pretty, maybe add field to fuzzerData
        #clumsden - hacky way to start http fuzzer at a different seed
        if self.fuzzerData.port == 80 and self.fuzzerData.proto == "tcp":
            self.MIN_RUN_NUMBER = 58247530
        if self.fuzzerData.proto == "udp":  #clumsden, set udp fuzzer at different seed
            self.MIN_RUN_NUMBER = 13243441
        #clumsden end

        ######## Processor Setup ################
        # The processor just acts as a container #
        # class that will import custom versions #
        # messageProcessor/exceptionProessor/    #
        # monitor, if they are found in the      #
        # process_dir specified in the .fuzzer   #
        # file generated by fuzz_prep.py         #
        ##########################################

        # Assign options to variables, error on anything that's missing/invalid
        self.processorDirectory = self.fuzzerData.processorDirectory
        if self.processorDirectory == "default":
            # Default to fuzzer file folder
            self.processorDirectory = self.fuzzerFolder
        else:
            # Make sure fuzzer file path is prepended
            self.processorDirectory = os.path.join(self.fuzzerFolder,
                                                   self.processorDirectory)

        #Create class director, which import/overrides processors as appropriate
        self.procDirector = ProcDirector(self.processorDirectory)

        global global_monitor
        self.monitor = None
        ########## Launch child monitor thread
        ### monitor.task = spawned thread
        ### monitor.crashEvent = threading.Event()
        if wantGlobalMonitor == True and global_monitor == None:
            global_monitor = self.procDirector.startMonitor(
                self.host, self.fuzzerData.port)
            print global_monitor
            time.sleep(
                10
            )  #clumsden added so pid_watcher has time to connect to monitor

        #! make it so logging message does not appear if reproducing (i.e. -r x-y cmdline arg is set)
        self.logger = None

        if not self.isReproduce:
            print "Logging to %s" % (self.outputDataFolderPath)
            self.logger = Logger(self.outputDataFolderPath)

        if self.args.dumpraw:
            if not isReproduce:
                self.DUMPDIR = self.outputDataFolderPath
            else:
                self.DUMPDIR = "dumpraw"
                try:
                    os.mkdir("dumpraw")
                except:
                    print "Unable to create dumpraw dir"
                    pass

        self.exceptionProcessor = self.procDirector.exceptionProcessor()
        self.messageProcessor = self.procDirector.messageProcessor()

        ########## Begin fuzzing
        self.i = self.MIN_RUN_NUMBER - 1 if self.fuzzerData.shouldPerformTestRun else self.MIN_RUN_NUMBER
        self.failureCount = 0
        self.loop_len = len(self.SEED_LOOP)  # if --loop
Esempio n. 2
0
# monitor, if they are found in the      #
# process_dir specified in the .fuzzer   #
# file generated by fuzz_prep.py         #
##########################################

# Assign options to variables, error on anything that's missing/invalid
processorDirectory = fuzzerData.processorDirectory
if processorDirectory == "default":
    # Default to fuzzer file folder
    processorDirectory = fuzzerFolder
else:
    # Make sure fuzzer file path is prepended
    processorDirectory = os.path.join(fuzzerFolder, processorDirectory)

#Create class director, which import/overrides processors as appropriate
procDirector = ProcDirector(processorDirectory)

########## Launch child monitor thread
### monitor.task = spawned thread
### monitor.crashEvent = threading.Event()
monitor = procDirector.startMonitor(host, fuzzerData.port)

#! make it so logging message does not appear if reproducing (i.e. -r x-y cmdline arg is set)
logger = None

if not isReproduce:
    print "Logging to %s" % (outputDataFolderPath)
    logger = Logger(outputDataFolderPath)

if args.dumpraw:
    if not isReproduce:
Esempio n. 3
0
class MutinyFuzzer():
    def __init__(self, args):
        self.args = args
        # Test number to start from, 0 default
        self.MIN_RUN_NUMBER = 0
        # Test number to go to, -1 is unlimited
        self.MAX_RUN_NUMBER = -1
        # For seed loop, finite range to repeat
        self.SEED_LOOP = []
        # For dumpraw option, dump into log directory by default, else 'dumpraw'
        self.DUMPDIR = ""

        #Populate global arguments from parseargs
        self.fuzzerFilePath = args.prepped_fuzz
        self.host = args.target_host

        #Assign Lower/Upper bounds on test cases as needed
        if args.range:
            (self.MIN_RUN_NUMBER,
             self.MAX_RUN_NUMBER) = getRunNumbersFromArgs(args, args.range)
        elif args.loop:
            self.SEED_LOOP = validateNumberRange(args.loop, True)

        #Check for dependency binaries
        if not os.path.exists(RADAMSA):
            sys.exit("Could not find radamsa in %s... did you build it?" %
                     RADAMSA)

        #Logging options
        self.isReproduce = False
        self.logAll = False

        if args.quiet:
            self.isReproduce = True
        elif args.logAll:
            self.logAll = True

        self.outputDataFolderPath = os.path.join(
            "%s_%s" % (os.path.splitext(self.fuzzerFilePath)[0], "logs"),
            datetime.datetime.now().strftime("%Y-%m-%d,%H%M%S"))
        self.fuzzerFolder = os.path.abspath(
            os.path.dirname(self.fuzzerFilePath))

        ########## Declare variables for scoping, "None"s will be assigned below
        self.messageProcessor = None

        ###Here we read in the fuzzer file into a dictionary for easier variable propagation
        self.optionDict = {"unfuzzedBytes": {}, "message": []}

        self.fuzzerData = FuzzerData()
        print "Reading in fuzzer data from %s..." % (self.fuzzerFilePath)
        self.fuzzerData.readFromFile(self.fuzzerFilePath)

        #clumsden TODO - make this pretty, maybe add field to fuzzerData
        #clumsden - hacky way to start http fuzzer at a different seed
        if self.fuzzerData.port == 80 and self.fuzzerData.proto == "tcp":
            self.MIN_RUN_NUMBER = 58247530
        if self.fuzzerData.proto == "udp":  #clumsden, set udp fuzzer at different seed
            self.MIN_RUN_NUMBER = 13243441
        #clumsden end

        ######## Processor Setup ################
        # The processor just acts as a container #
        # class that will import custom versions #
        # messageProcessor/exceptionProessor/    #
        # monitor, if they are found in the      #
        # process_dir specified in the .fuzzer   #
        # file generated by fuzz_prep.py         #
        ##########################################

        # Assign options to variables, error on anything that's missing/invalid
        self.processorDirectory = self.fuzzerData.processorDirectory
        if self.processorDirectory == "default":
            # Default to fuzzer file folder
            self.processorDirectory = self.fuzzerFolder
        else:
            # Make sure fuzzer file path is prepended
            self.processorDirectory = os.path.join(self.fuzzerFolder,
                                                   self.processorDirectory)

        #Create class director, which import/overrides processors as appropriate
        self.procDirector = ProcDirector(self.processorDirectory)

        global global_monitor
        self.monitor = None
        ########## Launch child monitor thread
        ### monitor.task = spawned thread
        ### monitor.crashEvent = threading.Event()
        if wantGlobalMonitor == True and global_monitor == None:
            global_monitor = self.procDirector.startMonitor(
                self.host, self.fuzzerData.port)
            print global_monitor
            time.sleep(
                10
            )  #clumsden added so pid_watcher has time to connect to monitor

        #! make it so logging message does not appear if reproducing (i.e. -r x-y cmdline arg is set)
        self.logger = None

        if not self.isReproduce:
            print "Logging to %s" % (self.outputDataFolderPath)
            self.logger = Logger(self.outputDataFolderPath)

        if self.args.dumpraw:
            if not isReproduce:
                self.DUMPDIR = self.outputDataFolderPath
            else:
                self.DUMPDIR = "dumpraw"
                try:
                    os.mkdir("dumpraw")
                except:
                    print "Unable to create dumpraw dir"
                    pass

        self.exceptionProcessor = self.procDirector.exceptionProcessor()
        self.messageProcessor = self.procDirector.messageProcessor()

        ########## Begin fuzzing
        self.i = self.MIN_RUN_NUMBER - 1 if self.fuzzerData.shouldPerformTestRun else self.MIN_RUN_NUMBER
        self.failureCount = 0
        self.loop_len = len(self.SEED_LOOP)  # if --loop

    #will run one seed of the current instance of MutinyFuzzer
    def fuzz(self):
        args = self.args
        fuzzerData = self.fuzzerData
        host = self.host
        messageProcessor = self.messageProcessor

        retryRun = True
        while retryRun:
            retryRun = False
            lastMessageCollection = deepcopy(fuzzerData.messageCollection)
            wasCrashDetected = False
            print "\n** Sleeping for %.3f seconds **" % args.sleeptime
            time.sleep(args.sleeptime)

            try:
                try:
                    print "\n\n%s: " % (self.fuzzerFilePath)
                    if args.dumpraw:
                        print "Performing single raw dump case: %d" % args.dumpraw
                        self.performRun(fuzzerData,
                                        host,
                                        self.logger,
                                        messageProcessor,
                                        seed=args.dumpraw)
                    elif self.i == self.MIN_RUN_NUMBER - 1:
                        print "Performing test run without fuzzing..."
                        self.performRun(fuzzerData,
                                        host,
                                        self.logger,
                                        messageProcessor,
                                        seed=-1)
                    elif self.loop_len:
                        print "Fuzzing with seed %d" % (
                            self.SEED_LOOP[self.i % loop_len])
                        self.performRun(fuzzerData,
                                        host,
                                        self.logger,
                                        messageProcessor,
                                        seed=self.SEED_LOOP[self.i % loop_len])
                    else:
                        print "Fuzzing with seed %d" % (self.i)
                        self.performRun(fuzzerData,
                                        host,
                                        self.logger,
                                        messageProcessor,
                                        seed=self.i)
                    #if --quiet, (self.logger==None) => AttributeError
                    if self.logAll:
                        try:
                            self.logger.outputLog(self.i,
                                                  fuzzerData.messageCollection,
                                                  "LogAll ")
                        except AttributeError:
                            pass

                    #clumsden - so a crash detected by monitor is registered
                    if global_monitor.crashEvent.isSet():
                        raise Exception()
                    #clumsden end

                except Exception as e:
                    if global_monitor.crashEvent.isSet():
                        print "Crash event detected"
                        try:
                            self.logger.outputLog(self.i,
                                                  fuzzerData.messageCollection,
                                                  "Crash event detected")
                            exit(
                            )  #clumsden - have this commented out if you don't want to stop after a crash is detected
                        except AttributeError:
                            pass
                        global_monitor.crashEvent.clear()

                    elif self.logAll:
                        try:
                            self.logger.outputLog(self.i,
                                                  fuzzerData.messageCollection,
                                                  "LogAll ")
                        except AttributeError:
                            pass

                    if e.__class__ in MessageProcessorExceptions.all:
                        # If it's a MessageProcessorException, assume the MP raised it during the run
                        # Otherwise, let the MP know about the exception
                        raise e
                    else:
                        self.exceptionProcessor.processException(e)
                        # Will not get here if processException raises another exception
                        print "Exception ignored: %s" % (str(e))

            except LogCrashException as e:
                if self.failureCount == 0:
                    try:
                        print "MessageProcessor detected a crash"
                        self.logger.outputLog(self.i,
                                              fuzzerData.messageCollection,
                                              str(e))
                    except AttributeError:
                        pass

                if self.logAll:
                    try:
                        logger.outputLog(i, fuzzerData.messageCollection,
                                         "LogAll ")
                    except AttributeError:
                        pass

                self.failureCount = self.failureCount + 1
                wasCrashDetected = True

            except AbortCurrentRunException as e:
                # Give up on the run early, but continue to the next test
                # This means the run didn't produce anything meaningful according to the processor
                print "Run aborted: %s" % (str(e))

            except RetryCurrentRunException as e:
                # Same as AbortCurrentRun but retry the current test rather than skipping to next
                print "Retrying current run: %s" % (str(e))
                # Slightly sketchy - a continue *should* just go to the top of the while without changing i
                retryRun = True
                continue

            except LogAndHaltException as e:
                if self.logger:
                    self.logger.outputLog(self.i, fuzzerData.messageCollection,
                                          str(e))
                    print "Received LogAndHaltException, logging and halting"
                else:
                    print "Received LogAndHaltException, halting but not logging (quiet mode)"
                exit()

            except LogLastAndHaltException as e:
                if self.logger:
                    if self.i > self.MIN_RUN_NUMBER:
                        print "Received LogLastAndHaltException, logging last run and halting"
                        if self.MIN_RUN_NUMBER == self.MAX_RUN_NUMBER:
                            #in case only 1 case is run
                            self.logger.outputLastLog(self.i,
                                                      lastMessageCollection,
                                                      str(e))
                            print "Logged case %d" % self.i
                        else:
                            self.logger.outputLastLog(self.i - 1,
                                                      lastMessageCollection,
                                                      str(e))
                    else:
                        print "Received LogLastAndHaltException, skipping logging (due to last run being a test run) and halting"
                else:
                    print "Received LogLastAndHaltException, halting but not logging (quiet mode)"
                exit()

            except HaltException as e:
                print "Received HaltException halting"
                exit()

            if wasCrashDetected:
                if self.failureCount < fuzzerData.failureThreshold:
                    print "Failure %d of %d allowed for seed %d" % (
                        self.failureCount, fuzzerData.failureThreshold, self.i)
                    print "The test run didn't complete, continuing after %d seconds..." % (
                        fuzzerData.failureTimeout)
                    time.sleep(fuzzerData.failureTimeout)
                else:
                    print "Failed %d times, moving to next test." % (
                        self.failureCount)
                    self.failureCount = 0
                    self.i += 1
            else:
                self.i += 1

            # Stop if we have a maximum and have hit it
            if self.MAX_RUN_NUMBER >= 0 and self.i > self.MAX_RUN_NUMBER:
                exit()

            if args.dumpraw:
                exit()

    # Perform a fuzz run.
    # If seed is -1, don't perform fuzzing (test run)
    def performRun(self, fuzzerData, host, logger, messageProcessor, seed=-1):
        # Before doing anything, set up logger
        # Otherwise, if connection is refused, we'll log last, but it will be wrong
        if logger != None:
            logger.resetForNewRun()

        # We don't perform DNS resolution, but always automatically type "localhost"
        # ... really need to go ahead and add DNS resolution soon
        if host == "localhost":
            host = "127.0.0.1"

        # cheap testing for ipv6/ipv4/unix
        # don't think it's worth using regex for this, since the user
        # will have to actively go out of their way to subvert this.
        if "." in host:
            socket_family = socket.AF_INET
            addr = (host, fuzzerData.port)
        elif ":" in host:
            socket_family = socket.AF_INET6
            addr = (host, fuzzerData.port)
        else:
            socket_family = socket.AF_UNIX
            addr = (host)

        #just in case filename is like "./asdf" !=> AF_INET
        if "/" in host:
            socket_family = socket.AF_UNIX
            addr = (host)

        # Call messageprocessor preconnect callback if it exists
        try:
            messageProcessor.preConnect(seed, host, fuzzerData.port)
        except AttributeError:
            pass

        # for TCP/UDP/RAW support
        if fuzzerData.proto == "tcp":
            connection = socket.socket(socket_family, socket.SOCK_STREAM)
            # Don't connect yet, until after we do any binding below
        elif fuzzerData.proto == "tls":
            try:
                _create_unverified_https_context = ssl._create_unverified_context
            except AttributeError:
                # Legacy Python that doesn't verify HTTPS certificates by default
                pass
            else:
                # Handle target environment that doesn't support HTTPS verification
                ssl._create_default_https_context = _create_unverified_https_context
            tcpConnection = socket.socket(socket_family, socket.SOCK_STREAM)
            connection = ssl.wrap_socket(tcpConnection)
            # Don't connect yet, until after we do any binding below
        elif fuzzerData.proto == "udp":
            connection = socket.socket(socket_family, socket.SOCK_DGRAM)
        # PROTO = dictionary of assorted L3 proto => proto number
        # e.g. "icmp" => 1
        elif fuzzerData.proto in PROTO:
            connection = socket.socket(socket_family, socket.SOCK_RAW,
                                       PROTO[fuzzerData.proto])
            if fuzzerData.proto != "raw":
                connection.setsockopt(socket.IPPROTO_IP, socket.IP_HDRINCL, 0)
            addr = (host, 0)
            try:
                connection = socket.socket(socket_family, socket.SOCK_RAW,
                                           PROTO[fuzzerData.proto])
            except Exception as e:
                print e
                print "Unable to create raw socket, please verify that you have sudo access"
                sys.exit(0)
        elif fuzzerData.proto == "L2raw":
            connection = socket.socket(socket.AF_PACKET, socket.SOCK_RAW,
                                       0x0300)
            connection.bind(
                ('ens160',
                 0))  #clumsden TODO replace hardcoded iface for layer2 traffic
            #clumsden TODO - experimental branch has addr=(host,0)
        else:
            addr = (host, 0)
            try:
                #test if it's a valid number
                connection = socket.socket(socket_family, socket.SOCK_RAW,
                                           int(fuzzerData.proto))
                connection.setsockopt(socket.IPPROTO_IP, socket.IP_HDRINCL, 0)
            except Exception as e:
                print e
                print "Unable to create raw socket, please verify that you have sudo access"
                sys.exit(0)

        if fuzzerData.proto == "tcp" or fuzzerData.proto == "udp" or fuzzerData.proto == "tls":
            # Specifying source port or address is only supported for tcp and udp currently
            if fuzzerData.sourcePort != -1:
                # Only support right now for tcp or udp, but bind source port address to something
                # specific if requested
                if fuzzerData.sourceIP != "" or fuzzerData.sourceIP != "0.0.0.0":
                    connection.bind(
                        (fuzzerData.sourceIP, fuzzerData.sourcePort))
                else:
                    # User only specified a port, not an IP
                    connection.bind(('0.0.0.0', fuzzerData.sourcePort))
            elif fuzzerData.sourceIP != "" and fuzzerData.sourceIP != "0.0.0.0":
                # No port was specified, so 0 should auto-select
                connection.bind((fuzzerData.sourceIP, 0))
        if fuzzerData.proto == "tcp" or fuzzerData.proto == "tls":
            # Now that we've had a chance to bind as necessary, connect
            connection.connect(addr)

        i = 0
        for i in range(0, len(fuzzerData.messageCollection.messages)):
            message = fuzzerData.messageCollection.messages[i]

            # Go ahead and revert any fuzzing or messageprocessor changes before proceeding
            message.resetAlteredMessage()

            if message.isOutbound():
                # Primarily used for deciding how to handle preFuzz/preSend callbacks
                doesMessageHaveSubcomponents = len(message.subcomponents) > 1

                # Get original subcomponents for outbound callback only once
                originalSubcomponents = map(
                    lambda subcomponent: subcomponent.getOriginalByteArray(),
                    message.subcomponents)

                if doesMessageHaveSubcomponents:
                    # For message with subcomponents, call prefuzz on fuzzed subcomponents
                    for j in range(0, len(message.subcomponents)):
                        subcomponent = message.subcomponents[j]
                        # Note: we WANT to fetch subcomponents every time on purpose
                        # This way, if user alters subcomponent[0], it's reflected when
                        # we call the function for subcomponent[1], etc
                        actualSubcomponents = map(
                            lambda subcomponent: subcomponent.
                            getAlteredByteArray(), message.subcomponents)
                        prefuzz = messageProcessor.preFuzzSubcomponentProcess(
                            subcomponent.getAlteredByteArray(),
                            MessageProcessorExtraParams(
                                i, j, subcomponent.isFuzzed,
                                originalSubcomponents, actualSubcomponents))
                        subcomponent.setAlteredByteArray(prefuzz)
                else:
                    # If no subcomponents, call prefuzz on ENTIRE message
                    actualSubcomponents = map(
                        lambda subcomponent: subcomponent.getAlteredByteArray(
                        ), message.subcomponents)
                    prefuzz = messageProcessor.preFuzzProcess(
                        actualSubcomponents[0],
                        MessageProcessorExtraParams(i, -1, message.isFuzzed,
                                                    originalSubcomponents,
                                                    actualSubcomponents))
                    message.subcomponents[0].setAlteredByteArray(prefuzz)

                # Skip fuzzing for seed == -1
                if seed > -1:
                    # Now run the fuzzer for each fuzzed subcomponent
                    for subcomponent in message.subcomponents:
                        if subcomponent.isFuzzed:
                            radamsa = subprocess.Popen(
                                [RADAMSA, "--seed",
                                 str(seed)],
                                stdin=subprocess.PIPE,
                                stdout=subprocess.PIPE,
                                stderr=subprocess.PIPE)
                            byteArray = subcomponent.getAlteredByteArray()
                            (fuzzedByteArray,
                             error_output) = radamsa.communicate(
                                 input=byteArray)
                            fuzzedByteArray = bytearray(fuzzedByteArray)
                            subcomponent.setAlteredByteArray(fuzzedByteArray)

                # Fuzzing has now been done if this message is fuzzed
                # Always call preSend() regardless for subcomponents if there are any
                if doesMessageHaveSubcomponents:
                    for j in range(0, len(message.subcomponents)):
                        subcomponent = message.subcomponents[j]
                        # See preFuzz above - we ALWAYS regather this to catch any updates between
                        # callbacks from the user
                        actualSubcomponents = map(
                            lambda subcomponent: subcomponent.
                            getAlteredByteArray(), message.subcomponents)
                        presend = messageProcessor.preSendSubcomponentProcess(
                            subcomponent.getAlteredByteArray(),
                            MessageProcessorExtraParams(
                                i, j, subcomponent.isFuzzed,
                                originalSubcomponents, actualSubcomponents))
                        subcomponent.setAlteredByteArray(presend)

                # Always let the user make any final modifications pre-send, fuzzed or not
                actualSubcomponents = map(
                    lambda subcomponent: subcomponent.getAlteredByteArray(),
                    message.subcomponents)
                byteArrayToSend = messageProcessor.preSendProcess(
                    message.getAlteredMessage(),
                    MessageProcessorExtraParams(i, -1, message.isFuzzed,
                                                originalSubcomponents,
                                                actualSubcomponents))

                if self.args.dumpraw:
                    loc = os.path.join(
                        DUMPDIR,
                        "%d-outbound-seed-%d" % (i, self.args.dumpraw))
                    if message.isFuzzed:
                        loc += "-fuzzed"
                    with open(loc, "wb") as f:
                        f.write(repr(str(byteArrayToSend))[1:-1])

                self.sendPacket(connection, addr, byteArrayToSend)
            else:
                # Receiving packet from server
                messageByteArray = message.getAlteredMessage()
                data = self.receivePacket(connection, addr,
                                          len(messageByteArray))
                if data == messageByteArray:
                    print "\tReceived expected response"
                if logger != None:
                    logger.setReceivedMessageData(i, data)

                messageProcessor.postReceiveProcess(
                    data,
                    MessageProcessorExtraParams(i, -1, False,
                                                [messageByteArray], [data]))

                if self.args.dumpraw:
                    loc = os.path.join(
                        DUMPDIR, "%d-inbound-seed-%d" % (i, self.args.dumpraw))
                    with open(loc, "wb") as f:
                        f.write(repr(str(data))[1:-1])

            if logger != None:
                logger.setHighestMessageNumber(i)

            i += 1

        connection.close()

    def receivePacket(self, connection, addr, bytesToRead):
        readBufSize = 4096
        connection.settimeout(self.fuzzerData.receiveTimeout)

        if connection.type == socket.SOCK_STREAM or connection.type == socket.SOCK_DGRAM:
            response = bytearray(connection.recv(readBufSize))
        else:
            response = bytearray(connection.recvfrom(readBufSize, addr))

        if len(response) == 0:
            # If 0 bytes are recv'd, the server has closed the connection
            # per python documentation
            raise ConnectionClosedException("Server has closed the connection")
        if bytesToRead > readBufSize:
            # If we're trying to read > 4096, don't actually bother trying to guarantee we'll read 4096
            # Just keep reading in 4096 chunks until we should have read enough, and then return
            # whether or not it's as much data as expected
            i = readBufSize
            while i < bytesToRead:
                response += bytearray(connection.recv(readBufSize))
                i += readBufSize

        print "\tReceived %d bytes" % (len(response))
        if DEBUG_MODE:
            print "\tReceived: %s" % (response)
        return response

    # Takes a socket and outbound data packet (byteArray), sends it out.
    # If debug mode is enabled, we print out the raw bytes
    def sendPacket(self, connection, addr, outPacketData):
        connection.settimeout(self.fuzzerData.receiveTimeout)
        if connection.type == socket.SOCK_STREAM:
            connection.send(outPacketData)
        elif connection.type == socket.SOCK_RAW:  #for L2raw clumsden start
            connection.send(
                outPacketData
            )  # clumsden, ran into trouble with this later and needed sendto(outPacketData,addr)...what it was orginally?
        else:
            connection.sendto(outPacketData, addr)

        print "\tSent %d byte packet" % (len(outPacketData))
        if DEBUG_MODE:
            print "\tSent: %s" % (outPacketData)
            print "\tRaw Bytes: %s" % (
                Message.serializeByteArray(outPacketData))