Exemple #1
0
        /// <summary>
        /// Checks the first four bytes for the total Trace Length
        /// Stores the length in _POLLDATA object and Enqueues all bytes
        /// </summary>
        /// <param name="blok">the bytes that contain the Trace Length, plus possible overflow</param>
        /// <returns>-1 if less than four bytes have been received, otherwise the length of the trace data</returns>
        private long StoreTraceLength(byte[] newBlok)
        {
            byte[] blok;
            if (_POLLDATA.DataQ.Count == 1) //get the previous blok, should never be greater than 1
            {                               //Combine into 1 blok
                byte[] prevBlok = (byte[])_POLLDATA.DataQ.Dequeue();
                int    len      = prevBlok.Length + newBlok.Length;
                blok = new byte[len];
                int i = 0;
                for (i = 0; i < prevBlok.Length; i++)
                {
                    blok[i] = prevBlok[i];
                }
                for (i = prevBlok.Length; i < len; i++)
                {
                    blok[i] = newBlok[i];
                }
            }
            else
            {
                blok = newBlok;
            }

            long traceLen = -1;

            if (blok.Length >= 4)
            {
                traceLen = (long)SVSEUtility.GetUINT32(0, blok);
            }
            _POLLDATA.DataQ.Enqueue(blok);
            return(traceLen);
        }
Exemple #2
0
 private void CallbackOPENDATA(object state, bool timedOut)
 {
     if (_RESPONSE.Handle != null)
     {
         _RESPONSE.Handle.Unregister(null); _RESPONSE.Handle = null;
     }                                                                                            // Stop future execution of the callback method
     if (timedOut && OnError.GetInvocationList().Length > 0)
     {
         OnError(this, new Exception("OPENDATA: Timed Out."));
     }
     else
     {
         if (_RESPONSE.Text.StartsWith("GOOD") && _RESPONSE.Text.EndsWith("GOOD"))
         {
             // Try to connect to the data port
             int dataport = Convert.ToInt32(_RESPONSE.Text.Substring(4, 8), 16);
             var endpoint = SVSEUtility.CreateIPEndpoint(_socketComm.RemoteIPAddress.ToString(), dataport);
             _socketData.Connect(endpoint);
         }
         else if (_RESPONSE.Text.StartsWith("FAIL"))
         {
             if (OnError.GetInvocationList().Length > 0)
             {
                 OnError(this, new Exception("OPENDATA: " + _RESPONSE.Text));
             }
         }
     }
 }
Exemple #3
0
        public void Startup(string host, int port, string userId, string password)
        {
            _userId   = userId.Trim();
            _password = password.Trim();

            try
            {
                var endpoint = SVSEUtility.CreateIPEndpoint(host.Trim(), port, out _ipAddress);
                _socketComm.Connect(endpoint);
            }
            catch (Exception exc)
            {
                if (OnError.GetInvocationList().Length > 0)
                {
                    OnError(this, exc);
                }
            }
        }
Exemple #4
0
        /// <summary>
        /// Build a TCP/IP command to send to the server.
        /// </summary>
        private byte[] BuildTcpIpCommand(string text)
        {
            byte[] command = new ASCIIEncoding().GetBytes(text + "\n");

            byte[] flags = new byte[4] {
                0x54, 0x20, 0x20, 0x20
            };
            int length = flags.Length + command.Length;// + _consoleToken.Length

            byte[] lengthBE = System.BitConverter.GetBytes(SVSEUtility.SwapEndian((uint)length));
            byte[] data     = new byte[length + lengthBE.Length];
            int    offset   = 0;

            lengthBE.CopyTo(data, offset); offset += lengthBE.Length;
            flags.CopyTo(data, offset); offset    += flags.Length;
            command.CopyTo(data, offset);

            return(data);
        }
Exemple #5
0
        /// <summary>
        /// Read each packet
        /// </summary>
        /// <param name="data">All of the IP packets,
        /// this data contains a 12 byte header before each packet
        /// with a 4 byte length and a 8 byte store clock</param>
        /// <param name="offset">offset into the data of this packet</param>
        /// <returns>offset of next packet</returns>
        private int ReadNextPacket(int offset, byte[] data, out PcapIpPacket packet, bool writeDebug)
        {
            //RawDataConverter convert = new RawDataConverter();
            uint     len  = SVSEUtility.GetUINT32(offset, data);
            DateTime stck = SVSEUtility.GetDateTimeUTC(offset + 4, data);//8 byte STCK

            int offPack = offset + 12;
            //int verFromIpHeader = Convert.ToInt32(data[offPack]);
            ushort lenFromIpHeader = SVSEUtility.GetUINT16(offPack + 2, data);//2 bytes into the packet header

            packet = new PcapIpPacket();
            if (writeDebug)
            {
                Debug.WriteLine(                                                  //"[ " + verFromIpHeader.ToString() + " ]"
                    "packet offset = " + offPack.ToString("X").PadRight(8, '0') + //should be 69 for a IPv4 header
                    " : STCK(ss:us) = " + SVSEUtility.GetUINT64(offset + 4, data).ToString("X") + " = " + SVSEUtility.GetDateTimeUTC(offset + 4, data).ToString("MM-dd-yyyy HH:mm:ss:ffffff") +
                    " : Length = " + len.ToString().PadRight(5, ' ') + "...from IP header = " + lenFromIpHeader.ToString());
            }
            //if (verFromIpHeader == 69)//0x45 = IPv4 with a 40 byte IP header
            //{
            DateTime utcJan11970 = new DateTime(1970, 1, 1, 0, 0, 0).ToUniversalTime(); //UTC time on Jan 1, 1970 00:00:00
            TimeSpan tspan       = stck.Subtract(utcJan11970);                          //The timespan between Jan 1, 1970 00:00:00 and the capture
            uint     tsSeconds   = 0;                                                   //The number of seconds in the timespan
            uint     tsUseconds  = 0;                                                   //The usec offset

            if (tspan.TotalSeconds > 0)
            {                                                                  /* tsSeconds must be rounded down with Math.Floor */
                tsSeconds  = Convert.ToUInt32(Math.Floor(tspan.TotalSeconds)); //Total seconds since Jan 1, 1970 00:00:00
                tsUseconds = Convert.ToUInt32(tspan.Milliseconds * 1000);      //Usec offset
            }
            uint inclLength = len;                                             //# of bytes actually saved in file
            uint origLength = lenFromIpHeader;                                 //# of bytes in packet when it was captured, in case snaplen trims it

            /* Get the header and data */
            byte[] ipPack = new byte[inclLength];
            for (int i = 0; i < ipPack.Length; i++)
            {
                ipPack[i] = data[offPack + i];
            }
            packet = new PcapIpPacket(tsSeconds, tsUseconds, inclLength, origLength, ipPack);
            //}else if(writeDebug){Debug.Write("*ERROR not IPv4*");}
            return(offPack + Convert.ToInt32(len));
        }
Exemple #6
0
        public void Connect(EndPoint remoteEP)
        {
            RemoteIPEndpoint = (IPEndPoint)remoteEP;
            RemoteIPAddress  = RemoteIPEndpoint.Address;

            if (_socket != null)
            {
                _socket.Close();
            }
            _socket = SVSEUtility.CreateSocket();

            // Create the state object.
            StateObject state = new StateObject(_bufferSize);

            state.WorkSocket = _socket;

            // Connect to the remote endpoint.
            _socket.BeginConnect(remoteEP,
                                 new AsyncCallback(ConnectCallback), state);
            _connectDone.WaitOne();
        }