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I'm using embedded linux on ARM processor.

My program does serial data redirection from one to another uart port (from ttyS1 to ttyS0). Actually there is bidirectional channel with 9600 baud rate, but to ttyS1 program sends a few symbols (user input).

Program opens ttyS1 with standard flags & setup raw mode. When I receive few data program can manage it. But when ttyS1 receives many symbols the program can't manage with them. And I see data missing in application buffer. I tried to hack kernel and changed uart rx FIFO trigger level to 1 byte (thru FIFO Control Register). As result I received less data loss.

See my code clippings below =>

....

/* Open ttyS1 */
fd = open("/dev/ttyS1", O_RDWR | O_NOCTTY | O_NDELAY);
if (fd == -1) {
    /* Could not open the ttyS1 */
    SYS_LOG_ERR("unable to open /dev/ttyS1");
    return RET_FAILURE;
}
else 
{
    /* Setup ttyS1 flags */
    fcntl(fd, F_SETFL, 0);
}

/* Setup ttyS1 params */
if (tcgetattr(fd, &oldtio) < 0) {
    SYS_LOG_ERR("ttyS1 params get error");
    return RET_FAILURE;
}
newtio = oldtio;
cfmakeraw(&newtio);
cfsetospeed(&newtio, B9600);
cfsetispeed(&newtio, B9600);
if(tcsetattr(fd, TCSAFLUSH, &newtio) < 0)
{
    SYS_LOG_ERR("ttyS1 params set error");
    return RET_FAILURE;
}

.....

char msg[32];
int len;

/* Read incoming data */
if ((len = read(fd, msg, (sizeof(msg)-1))) < 0)
{
    SYS_LOG_ERR("read from second uart failed");
}
else
{
    /* Data redirection */
    ....
}

1) Has anybody ever encountered this issue? Should I change kernel driver or my application?

2) Are there any methods to speed up a program response to the ttyS1 interrupt?

3) Is there a tool for changing RX FIFO trigger level from user space?

Please anybody help me on this, it's killing me ... any help is greatly appreciated.

share|improve this question
    
To avoid Rx overflow you could try (a) increase your buffer size, (b) employ HW flow control, (c) adjust the serial port attributes c_cc[VMIN] and c_cc[VTIME], (d) increase the nice level of your application. You should print out the variable errno when the read() fails. – sawdust Mar 15 '13 at 21:59
    
Thanks sawdust! :) – Bakir Mar 18 '13 at 6:48
    
Thank you sawdust! :) (a) what buffer do you mean? I already have 2 rx buffers in my application, I also see that they already have incoming data (with losses). I read somewhere, that kernel also has buffer for that. Is it true? (b) HW flow control assumes having RTS/CTS, but I have a nul-modem line without these signals (c) I tried to do so, but failed to get needed result (d) I increased nice level up to -20, but there was no progress! ... I think I would saw an error in syslog (SYS_LOG_ERR()), if read() had return it. – Bakir Mar 18 '13 at 8:41
    
(a) There's only 1 buffer in your code sample, char msg[32]; (c) What did you try? Why are you not using the working code I already provided in my answer to your other question? – sawdust Mar 18 '13 at 9:44
    
(a) char msg[32] buffer is a temporary buffer. I also have another accumulator buffers (mainly for debug purposes) where I copy symbols from msg[32]. I want to mention that maximum read symbols with read() function is 8 chars. (c) I tried following combinations: min=1, time=0; min=1, time=1; min=0, time=1; min=0, time=0. ... I have to look my previous question one more time, I forgot about it (, thanks. – Bakir Mar 18 '13 at 11:32

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