Example #1
0
        //To just read trace data from the FEB and work only in memory, returns true if able to parse, false if not
        public static bool ReadFeb(ref Mu2e_FEB_client feb, ref SpillData spill, out long lret)
        {
            source_name = feb.name;
            if (feb.TNETSocket.Available > 0)
            {
                byte[] junk = new byte[feb.TNETSocket.Available];
                feb.stream.Read(junk, 0, feb.TNETSocket.Available);
            }

            lret = 0;
            byte[] mem_buff;
            byte[] b           = PP.GetBytes("RDB 1\r\n"); //get the spill header (and 1 word) & reset read pointers
            byte[] hdr_buf     = new byte[18];
            long   spillwrdcnt = 0;                        //spill word count will be the total spill count for the FEB (which means BOTH FPGAs)

            feb.TNETSocket.Send(b);
            Thread.Sleep(10);
            if (feb.TNETSocket.Available > 0) //if we can snag the wordcount from the spill header, then we know how much we should be reading
            {
                feb.TNETSocket.Receive(hdr_buf);
                spillwrdcnt = (hdr_buf[0] * 256 * 256 * 256 + //spillwrdcnt is how many words there are for ALL fpgas in a given spill
                               hdr_buf[1] * 256 * 256 +
                               hdr_buf[2] * 256 +
                               hdr_buf[3]);

                mem_buff = new byte[spillwrdcnt * 2]; //each word = 2 bytes, we are going to allocate a buffer in memory to read the FEB data into that is the correct size.
                int bytesread = 0;
                int bytesleft = (int)spillwrdcnt * 2;
                try
                {
                    b = PP.GetBytes("RDB\r\n");
                    feb.TNETSocket.Send(b);
                    Thread.Sleep(10);

                    do
                    {
                        int bytes_now = feb.stream.Read(mem_buff, bytesread, feb.TNETSocket.Available);
                        bytesread += bytes_now;
                        bytesleft -= bytes_now;
                        Thread.Sleep(100);
                    } while (feb.stream.DataAvailable);

                    lret = bytesread;
                }
                catch (System.IO.IOException)
                {
                    feb.Close(); //IO exception thrown if socket was forcibly closed by FEB, so lets tell the C# FEB client it is closed
                } //something went wrong skip spill

                spill = new SpillData();
                bool parse_ok = spill.ParseInput(mem_buff);
                return(parse_ok);
            }
            else
            {
                return(false);
            }
        }
Example #2
0
        public static void ReadFeb(string BoardName, Socket s, out long l) //out List<byte> buf,
        {
            List <byte> buf;

            source_name = BoardName;
            PP.myMain.timer1.Enabled = false;
            byte[] b = new byte[5];
            b          = PP.GetBytes("rdb\r\n");
            time_start = DateTime.Now;
            l          = 0;

            s.Send(b);
            buf = new List <byte>();
            Thread.Sleep(100);
            //wait to get the first packet
            while (s.Available == 0)
            {
                Thread.Sleep(5);
            }
            Thread.Sleep(50);
            int old_available = 0;

            while (old_available < s.Available)
            {
                Thread.Sleep(20);
                PP.myRun.UpdateStatus("Started recieving " + old_available + " bytes");
                old_available = s.Available;
            }

            byte[] rec_buf = new byte[s.Available];
            int    ret_len = s.Receive(rec_buf);

            for (int i = 0; i < ret_len; i++)
            {
                buf.Add(rec_buf[i]);
                l++;
            }

            PP.myRun.UpdateStatus("Ended recieving " + buf.LongCount() + " bytes");
            Thread.Sleep(5);
            //spill word count is the first 4 bytes
            int   ind = 0;
            Int64 t   = 0;

            t = (Int64)(buf[0] * 256 * 256 * 256 + buf[1] * 256 * 256 + buf[2] * 256 + buf[3]);
            long     SpillWordCount = t * 2;
            long     RecWordCount   = buf.LongCount <byte>();
            DateTime start_rec      = DateTime.Now;
            TimeSpan MaxTimeSpan    = TimeSpan.FromSeconds(2);

            while (RecWordCount < SpillWordCount)
            {
                Thread.Sleep(2);
                if (DateTime.Now > start_rec.Add(MaxTimeSpan))
                {
                    //timeout
                    SpillWordCount = RecWordCount;
                }
                if (s.Available > 0)
                {
                    byte[] rec_buf2 = new byte[s.Available];
                    int    ret_len2 = s.Receive(rec_buf);

                    for (int i = 0; i < ret_len; i++)
                    {
                        buf.Add(rec_buf[i]);
                        l++;
                    }
                    RecWordCount = buf.LongCount <byte>();
                    DateTime so_far_time = DateTime.Now;
                    TimeSpan elapsed     = so_far_time.Subtract(start_rec);
                    Console.WriteLine("read... " + buf.LongCount <byte>().ToString() + " out of " + SpillWordCount.ToString() + " in " + elapsed.TotalMilliseconds + " ms");
                }
            }

            time_read_done = DateTime.Now;

            SpillData new_spill = new SpillData();

            new_spill.ParseInput(buf);
            PP.myRun.Spills.AddLast(new_spill);
            while (PP.myRun.Spills.Count > 3)
            {
                SpillData aSpill;
                aSpill = PP.myRun.Spills.First();
                if (aSpill.IsDisplayed == false)
                {
                    PP.myRun.Spills.Remove(aSpill);
                }
                else
                {
                    return;
                }
            }
            if (PP.myRun != null)
            {
                if (PP.myRun.sw != null)
                {
                    if (SaveEnabled)
                    {
                        Save(buf);
                    }
                }
            }
            AllDone = true;

            PP.myMain.timer1.Enabled = true;
        }
Example #3
0
        //To save trace data (from test beam spills) to file
        public static void ReadFeb(ref Mu2e_FEB_client feb, /*TcpClient feb_client Socket feb_socket,*/ out long lret) //out List<byte> buf,
        {
            lret = 0;
            //Socket feb_socket = feb.TNETSocket;
            //NetworkStream feb_stream = feb.stream;
            source_name = feb.name;
            //PP.myMain.SpillTimer.Enabled = false;
            //PP.myRun.ACTIVE = false; //Halt the status queries to the boards (single socket atm, so we cannot get data and status concurrently)
            if (feb.TNETSocket.Available > 0)
            {
                byte[] junk = new byte[feb.TNETSocket.Available];
                feb.stream.Read(junk, 0, feb.TNETSocket.Available);
            }

            time_start = DateTime.Now;
            byte[] mem_buff;
            byte[] b           = PP.GetBytes("RDB 1\r\n"); //get the spill header (and 1 word) & reset read pointers
            byte[] hdr_buf     = new byte[18];
            long   spillwrdcnt = 0;                        //spill word count will be the total spill count for the FEB (which means BOTH FPGAs)

            feb.TNETSocket.Send(b);
            Thread.Sleep(50);
            if (feb.TNETSocket.Available > 0) //if we can snag the wordcount from the spill header, then we know how much we should be reading
            {
                PP.myRun.READING = true;
                Console.WriteLine("+ READ");

                feb.TNETSocket.Receive(hdr_buf);

                spillwrdcnt = (hdr_buf[0] * 256 * 256 * 256 + //spillwrdcnt is how many words there are for ALL fpgas in a given spill
                               hdr_buf[1] * 256 * 256 +
                               hdr_buf[2] * 256 +
                               hdr_buf[3]);

                mem_buff = new byte[spillwrdcnt * 2]; //each word = 2 bytes, we are going to allocate a buffer in memory to read the FEB data into that is the correct size.
                int bytesread = 0;
                int bytesleft = (int)spillwrdcnt * 2;
                try
                {
                    b = PP.GetBytes("RDB\r\n");
                    feb.TNETSocket.Send(b);
                    Thread.Sleep(100);
                    int readattempts = 0;
                    do
                    {
                        int bytes_now = feb.stream.Read(mem_buff, bytesread, feb.TNETSocket.Available);
                        bytesread += bytes_now;
                        bytesleft -= bytes_now;
                        if (bytes_now == 0)
                        {
                            readattempts++;
                        }
                        else
                        {
                            readattempts = 0;
                        }
                        Console.WriteLine("  READ " + readattempts);
                        //Console.WriteLine(source_name + " got " + bytesread + " / " + spillwrdcnt * 2);
                        Thread.Sleep(100);
                    } while (feb.stream.DataAvailable || (bytesleft > 0 && readattempts < 3));

                    lret = bytesread;
                }
                catch (System.IO.IOException)
                {
                    PP.myRun.UpdateStatus(feb.name + " took too long to respond, continuing.");
                } //something went wrong skip spill

                TimeSpan elapsed = DateTime.Now.Subtract(time_start);
                PP.myRun.UpdateStatus(source_name + " read: " + bytesread.ToString() + " bytes out of " + (spillwrdcnt * 2).ToString() + " bytes in " + elapsed.TotalMilliseconds + " ms");

                time_read_done = DateTime.Now;

                PP.myRun.READING = false;
                Console.WriteLine("- READ");

                if (PP.myRun.validateParse)
                {
                    SpillData new_spill = new SpillData();
                    bool      parse_ok  = new_spill.ParseInput(mem_buff);
                    if (parse_ok)
                    {
                        if (PP.myRun != null)
                        {
                            if (PP.myRun.SaveAscii)
                            {
                                Thread save = new Thread(() => Save(new_spill));
                                save.Start();
                            }
                            else
                            {
                                string savename = feb.name;
                                Thread save     = new Thread(() => Save(mem_buff, savename)); //Spawn a thread that will take care of writing the data to file
                                save.Start();
                            }
                        }
                    }
                    else //if it fails to parse, don't bother trying to save the spill, but notify the user
                    {
                        System.Console.WriteLine(source_name + " failed to parse! Skipping save!"); //PP.myRun.UpdateStatus(source_name + " failed to parse! Skipping save!");
                    }
                }
                else
                {
                    if (PP.myRun != null)
                    {
                        if (PP.myRun.SaveAscii)
                        {
                            SpillData new_spill = new SpillData();
                            bool      parse_ok  = new_spill.ParseInput(mem_buff);
                            Thread    save      = new Thread(() => Save(new_spill));
                            save.Start();
                        }
                        else
                        {
                            string savename = feb.name;
                            Thread save     = new Thread(() => Save(mem_buff, savename)); //Spawn a thread that will take care of writing the data to file
                            save.Start();
                        }
                    }
                }
            }

            ////SpillData new_spill = new SpillData();
            ////bool parse_ok = new_spill.ParseInput(mem_buff/*sock_buf*/);
            //if (true)//(parse_ok)
            //{
            //    //PP.myRun.Spills.AddLast(new_spill);
            //    //if (PP.myRun.Spills.Count > 2)
            //    //{
            //    //    if (PP.myRun.Spills.First.Value.IsDisplayed) { PP.myRun.Spills.Remove(PP.myRun.Spills.First.Next); }
            //    //    else { PP.myRun.Spills.RemoveFirst(); }
            //    //}
            //}
            //else
            //{ }

            //PP.myMain.SpillTimer.Enabled = true;
        }
        public static void ReadFeb(string BoardName, Socket s, out long l) //out List<byte> buf,
        {
            source_name = BoardName;
            PP.myMain.timer1.Enabled = false;
            byte[] b = new byte[5];
            s.ReceiveTimeout = 500;
            if (s.Available > 0)
            {
                byte[] junk = new byte[s.Available];
                s.Receive(junk);
            }

            b          = PP.GetBytes("rdb\r\n");
            time_start = DateTime.Now;
            l          = 0;

            s.Send(b);
            Thread.Sleep(2);
            //wait to get the first packet
            while (s.Available == 0)
            {
                Thread.Sleep(2);
            }
            Thread.Sleep(10);
            int old_available = 0;

            byte[] rec_buf;
            byte[] mem_buf = new byte[5242879 * 8];
            int    mem_ind = 0;

            while (s.Available > old_available)
            {
                Thread.Sleep(20);
                old_available = s.Available;
                Thread.Sleep(20);
            }
            rec_buf = new byte[s.Available];


            int lret = s.Receive(rec_buf, rec_buf.Length, SocketFlags.None);

            int tint = (int)(rec_buf[4] * 256 * 256 * 256 + rec_buf[5] * 256 * 256 + rec_buf[6] * 256 + rec_buf[7]);

            PP.myRun.UpdateStatus("Got " + rec_buf.Length + " bytes, enough for " + ((rec_buf.Length - 16) / 4112) + " tirg => " + (tint * 0x808 * 2 + 16).ToString() + ")");
            Thread.Sleep(5);
            byte[] buf = new byte[lret];
            rec_buf.CopyTo(buf, 0);

            //PP.myRun.UpdateStatus("Ended recieving " + buf.LongCount() + " bytes");
            //Thread.Sleep(25);
            //spill word count is the first 4 bytes
            int   ind = 0;
            Int64 t   = 0;

            t = (Int64)(buf[0] * 256 * 256 * 256 + buf[1] * 256 * 256 + buf[2] * 256 + buf[3]);
            long     SpillWordCount = t * 2;
            long     RecWordCount   = buf.LongCount <byte>();
            DateTime start_rec      = DateTime.Now;
            TimeSpan MaxTimeSpan    = TimeSpan.FromSeconds(2);

            RecWordCount = buf.LongCount <byte>();
            DateTime so_far_time = DateTime.Now;
            TimeSpan elapsed     = so_far_time.Subtract(start_rec);

            Console.WriteLine("read... " + buf.LongCount <byte>().ToString() + " out of " + SpillWordCount.ToString() + " in " + elapsed.TotalMilliseconds + " ms");

            time_read_done = DateTime.Now;

            SpillData new_spill = new SpillData();
            bool      parse_ok  = new_spill.ParseInput(buf);

            if (parse_ok)
            {
                PP.myRun.Spills.AddLast(new_spill);
                if (PP.myRun.Spills.Count > 2)
                {
                    if (PP.myRun.Spills.First.Value.IsDisplayed)
                    {
                        PP.myRun.Spills.Remove(PP.myRun.Spills.First.Next);
                    }
                    else
                    {
                        PP.myRun.Spills.RemoveFirst();
                    }
                }
                if (PP.myRun != null)
                {
                    if (PP.myRun.sw != null)
                    {
                        if (SaveEnabled)
                        {
                            Save(buf);
                        }
                    }
                }
            }
            else
            {
            }
            AllDone = true;

            PP.myMain.timer1.Enabled = true;
        }