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I am sending/receiving data over a serial line in Linux and I would like to find the delay between characters.

Modbus uses a 3.5 character delay to detect message frame boundaries. If there is more than a 1.5 character delay, the message frame is declared incomplete.

I'm writing a quick program in C which is basically

// setup newtio
tcsetattr(fd, TCSANOW, &newtio);
for(;;) {
    res = read(fs, buf, 1);
    if (res > 0) {
        // store time in milliseconds?
        //do stuff

Is there some way of measuring the time here? Or do I need to look at retrieving data from the serial line in a different way?

I've also tried hooking into SIGIO to get a signal whenever there is data but I seem to get data 8 bytes at a time.

(yes, I know there exist some modbus libraries but I want to use this in other applications)

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3 Answers 3

up vote 2 down vote accepted

MODbus is like a lot of old protocols and really hates modern hardware.

The reason you're getting 8 bytes at a time is : Your PC has a (at least) 16 byte serial FIFO on receive and transmit, in the hardware. Most are 64byte or bigger.

It is possible to tell the uart device to time out and issue a received interrupt after a number of char times.

The Trigger Level is adjustable, but the low-level driver sets it "smartly". try low-latency mode using setserial) You can fiddle with the code in the serial driver if you must. Google it (mature content warning) it is not pretty.

so the routine is as pseudocode

int actual=read (packet, timeout of 1.5 chars)

look at actual # of received bytes

if less than a packet, has issues, discard.

not great.

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The simple answer is... you cannot (not without writing you own serial driver)!

If you are writing a MODBUS master there is some hope: You can either detect the end of a slave response by waiting any amount of time (provided its longer than 3.5 chars) without receiving anything (select(2) can help you here), or by parsing the response on the fly, as you read it (the second method wastes much less time). You must also be careful to wait at least 3.5 characters-time before staring to transmit a new request, after receiving the response to the previous request. "At least" is operative here! Waiting more doesn't matter. Waiting less does.

If you a writing a MODBUS slave then you' re out of luck. You simply cannot do it reliably from userspace Linux. You have to write you own serial driver.

BTW, this is not Linux's fault. This is due to the unbelievable stupidity of MODBUS's framing method.

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+1 for the "unbelievable stupidity of MODBUS's framing method." –  leonbloy Jan 7 '11 at 0:51

I think you are going about this the wrong way. There is a built in mechanism for ensuring that characters come in all together.

Basically, you are going to want to use ioctl() and set the VMIN and VTIME parameters appropriately. In this case, it seems like you'd want VMIN (minimum number of characters in a packet) to be 0 and VTIME (minimum amount of time allowed between characters to be 15 (they are tenths of seconds).

Some really basic example code:

struct termio t;
t.c_cc[ VMIN ] = 0;
t.c_cc[ VTIME ] = 15;
if (ioctl( fd, TCSETAW, &t ) == -1)
    printf( msg, "ioctl(set) failed on port %s. Exiting...", yourPort);
    exit( 1 );

Do this before your open() but before your read(). Here's a couple of links that I've found wildly helpful:

Serial Programming Guide

Understanding VMIN and VMAX

I hope that at least helps/points you in the right direction even if it isn't a perfect answer for your question.

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VTIME is the max time to block after calling read() right? I was after some way of finding the timing of characters as they enter the UART. I imagine it could be possible that the 1.5 character timeout (at 9600 say) could have already passed before I call read(). –  Nick Sonneveld Nov 18 '09 at 1:39
That's what I thought too at first, but it's actually the time to wait between characters before returning. So in the VMIN=0, VTIME=15 scenario, it'll block at the read() forever until a character comes in. Then it will continue to block there until 1.5s elapses without a character. If it gets another characters, the 1.5s starts over. -- Starting to sound more and more like this isn't quite your problem though, just sounded similar to a problem I had recently. –  Morinar Nov 18 '09 at 17:30

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