Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I'm debugging some serial stuff, the significant part being the SerialDataReceivedEventHandler.

I am observing (via breakpoint and hover-over) that there are almost twice as many bytes to read as the buffer size itself. Like huh ?

This is the code

aUartSemaphoreThatTells.WhatTheUartBackgroundRxIsDoing = (int)aValueWhichIndicatesThat.theUARTisReceivingData;

SerialPort CurrentPort = (SerialPort)sender; //// Int routine gave is this in the arguments

int LastByteInUartBuffer = CurrentPort.ReadBufferSize;
int TheNumberOfBytes = CurrentPort.BytesToRead;
byte[] inputData = new byte[TheNumberOfBytes];
int RenameThisInt = CurrentPort.Read(inputData, 0, TheNumberOfBytes);                 //// This is a C# property method of ports

int Dest;
Dest = UartPlaceHolders.RxBufferLeader; //// Will index into buffer for Chief dispatch

Doing a little Mouse-Hover-Over tells me that..

  • LastByteInUartBuffer has 4096
  • TheNumberOfBytes has 8092
  • RenameThisInt has 8092
  • inputData has the right stuff

(I know what the data look like from the other side of the serial port because I generate them myself)

I read over these two pages on the MSDN site, ReadBufferSize, and BytesToRead

Anybody, please correct me. How can I get almost 8K of bytes out of a 4K buffer ?

share|improve this question

2 Answers 2

Notice this note on SerialPort.ReadBufferSize Property:

Because the ReadBufferSize property represents only the Windows-created buffer, it can return a smaller value than the BytesToRead property, which represents both the SerialPort buffer and the Windows-created buffer.

share|improve this answer
    
Details, oh boy. So then, what are those two buffers ? Are they contiguous ? Just how large can they grow ? I've already had one problem with too much data too fast; this could elucidate previously mysterious behavior even more. I don't suppose Microsoft has a page that explains where those buffers come into being, or how they grow. By the way, thanks for showing the whole world how smart I am by pointing out that I missed the second sentence on the page which (I thought) I read. I can't believe I missed that. Thanks anyway. Humility is a desirable character trait. –  User.1 Jan 8 '13 at 1:36
1  
Don't worry about misreading the documentation - it happens all the time. But why do you need to know the size of Windows internal buffer? Can't you just read what is available - or what you have room for in your intermediate buffer - which ever is smaller - and just iterate until there is no more? –  500 - Internal Server Error Jan 8 '13 at 1:41
    
@Internal Server Error, I'm sending out packs of 64 bytes, 256 times in a row, in one second. I have to deconstruct them, chop out the protocol overhead, change 24 bit signed ints into 32 bit signed ints, then pass them off to a class which will graph them onto a bunch of lines. In that context, the 4096 byte buffer was really doing me a favor; i.e., I could 0.25 seconds of data at a time; and it was almost going to solve my night mare for me. Now with the missing hundred bytes, well; so much for sensible code. –  User.1 Jan 8 '13 at 1:45
    
You need a data collection queue or something where you can assemble whole packets (whatever that means in your context) and pass them on to your other logic whenever you have a complete packet ready. –  500 - Internal Server Error Jan 8 '13 at 1:51
    
That's the current scheme in progress. Ugly, but I don't have a better idea. Oh well, we defined the protocol to include a length byte; and then of course it's 16 bits and backwards. I wish I could get paid by the hour for this; be better than practicing law. /Thanks a ton –  User.1 Jan 8 '13 at 1:53

The answer is actually in the documentation for ReadBufferSize:

The BytesToRead property can return a value larger than the ReadBufferSize property because the ReadBufferSize property represents only the Windows-created buffer while the BytesToRead property represents the SerialPort buffer in addition to the Windows-created buffer.

In this case, the "Windows created buffer" is the underlying driver memory, as opposed to memory allocated by the C# SerialPort object.

share|improve this answer
    
Thanks, now I know another secret. I couldn't help but notice that the other number was exactly one hundred bytes less than twice the size of the buffer. Since I just so happen to be sending out multiples of 64 bytes in each little packet, Grrr, that is really irksome. –  User.1 Jan 8 '13 at 1:41

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.