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I'm working on a SerialPort app and one very simple part of it is giving me issues. I simply want to read a constant stream of data from the port and write it out to a binary file as it comes in. The problem seems to be speed: my code has worked fine on my 9600 baud test device, but when carried over to the 115200bps live device, I seem to be losing data. What happens is after a variable period of time, I miss 1 byte which throws off the rest of the data. I've tried a few things:

private void serialPort1_DataReceived(object sender, SerialDataReceivedEventArgs e)
{
    bwLogger.Write((byte)serialPort1.ReadByte());
}

or

private void serialPort1_DataReceived(object sender, SerialDataReceivedEventArgs e)
{
    byte[] inc = new byte[serialPort1.BytesToRead];
    serialPort1.Read(inc, 0, inc.Length);

    bwLogger.Write(inc);
}

and a few variations. I can't use ReadLine() as I am working with a constant stream of data (right?). I've tried fiddling with the buffer size (both serialPort1.ReadBufferSize and the hardware FIFO buffer). Ideally, for usability purposes, I'd handle this on the software side and not make the user have to change Windows driver settings.

Any ideas?

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2  
This is why communications protocols have rules and checksums. You should be coding against a protocol that gives you the flexibility to detect such an event and recover from it. You may use timeouts to clear the buffers and re-send as necessary. You WILL lose data from time to time. Period. End of story. You need to get each end device to recover from such a situation gracefully (i.e. without "throwing off" the rest of the data). – San Jacinto Oct 20 '09 at 16:49
    
This is excellent advice. Due to the unique function of my specific device, I have the ability to linearly interpolate the data to fill in any missing or otherwise "bad" packets. In most communication situations, the handling of this type of event should most definitely be more robust by being developed against a proper protocol, as you mentioned. Good advice to anybody working in any form of communications. – Slim Oct 20 '09 at 19:49
    
My apologies. After re-reading, I understand that you are referring to hard real-time requirements and missing one means missing a chunk of data that will never come back. Please see an upcoming answer of mine regarding threading. Even though you've already accepted an answer, it might be worth looking into. – San Jacinto Oct 22 '09 at 18:36
up vote 3 down vote accepted

You might try enabling handshaking, using the Handshake property of the SerialPort object.

You'll have to set it on both the sender or receiver. however: if you're overflowing the receiver's UART's buffer (very small, 16 bytes IIRC), there's probably no other way. If you can't enable handshaking on the sender, you'll probably have to stay at 9600 or below.

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Seems to be the right idea. I messed around handshaking settings but always left it software controlled. Changing the driver settings to a hardware flow control seems to have solved the issue, at least on short tests. I'll have to run a 12+ hour test to see if it holds up, in which case I'll let you know and give you one of them checkmarks. Good call and something I should have looked into. – Slim Oct 20 '09 at 19:44
    
Hope it works out. :-) – XXXXX Oct 20 '09 at 20:18

If the problem seems to be that you can't process the data fast enough, what you could try would be to double-buffer your data.

1) Allow one thread to read the serial port into one buffer. This may involve copying data off the port into the buffer (i'm not intimately familiar with .NET).

2) When you are ready to handle the incoming data, (on a different thread) make your program read into the 2nd buffer, and while this is happening you should write the first buffer to disk.

3) When the first buffer is written to disk, swap it back to the serial port buffer, and write the 2nd buffer to disk. Repeat process, continually swapping the buffers.

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1  
After working around various issues that never actually solved my problem - it turns out I needed to implement a double buffer. I'm glad I revisited this question and even more so that you took the time to repost another great suggestion. Thanks! Thankfully, .NET took care of the everything by simply wrapping a BufferedStream around a standard FileStream (which has its own internal buffer). I guess I have a few more tests before I can absolutely confirm this, but this buffering logic seems to have flattened out a few little kinks. – Slim Oct 27 '09 at 19:27

I'd try the following:

  • Set the Buffer-Size to at least 230K Bytes
  • Set the Incoming Threshold to 16K, 32K or 65K
  • Write this fixed blocks of data to the file

I'm not sure if this might help, but it should at least take the pressure of the framework to fire the event that often.

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It didn't seem to help the issue, though logically I thought it would. Regardless, it is good advice that seems have to reduced my memory usage due to fewer raised events. Thanks. – Slim Oct 20 '09 at 19:41

Is your bwLogger a BinaryWriter class? You might try using it with a BufferedStream to make the disk I/O nonblocking.

Also, if your packets have a known ending character, you can set the SerialPort.NewLine property to enable you to use ReadLine/WriteLine, although I don't think that would make much of a performance difference.

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The machines I've been working with recently all send a stop code (in my case ASCII code 3 or 4). If you also have this feature, you can make use of ReadTo(string) off your SerialPort object.

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Unfortunately I don't have that luxury :\ Just a constant stream of binary data. The ReadTo method will definitely be applicable elsewhere in the utility. Thanks for the heads up. – Slim Oct 20 '09 at 19:42
  1. I would check the number of bytes read which is returned by the Read(Byte>[], Int32, Int32) method and make sure it matches what you expect.

  2. Make sure you are listening for SerialErrorReceivedEventHandler ErrorReceived events on the port object. An RXOver error would indicate your buffer is full.

  3. Check the thread safety on your output buffer. If the write to the output buffer is not thread safe, a second write may corrupt the first write.

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