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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

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
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

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