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I am trying to catch all output to stdout and record it to several logs and echo to the screen. I created a pty, connected slave end to stdout and started a thread reading master end. It worked mostly fine on several platforms for many years, but recently after a minor change I found that there was a delay on read on newer Linuxes and this spoils the idea. I tried on Red Hat and SUSE.

I extracted the code to a small file and played with it. I call poll() on reading side, and poll does not wake up for 1-5 ms after write on Linux with kernel 2.6.32. It fails on RHEL 6.0, 6.3, 6.4 and SLES 11.1. It works with kernels 2.6.8 (RHEL 4.6) and 2.6.18 (RHEL 5.5-5.8).

Delay exists with threads and processes. Delay does not depend on reading thread priority. I tried all possible settings of slave terminal, pure raw and cbreak and many combinations. I am fine to wait until data is transmitted but tcdrain() does nothing good. Global sync by calling sync() "helps" but it runs slower 100-500 times.

Here's my smaller program:

// g++ -o pty -g pty.cpp -lrt
#include <assert.h>
#include <errno.h>
#include <stdlib.h>
#include <stdio.h>
#include <stdarg.h>
#include <string.h>
#include <unistd.h>
#include <fcntl.h>
#include <termios.h>
#include <poll.h>
#include <pthread.h>
#include <semaphore.h>
#include <sys/time.h>
#include <sys/syscall.h>

pthread_mutex_t mtLog = PTHREAD_MUTEX_INITIALIZER;
sem_t semLogInit;

void NanoSleep (long ns) {
    timespec sleep = { 0, ns };
    int rc = nanosleep (&sleep, NULL);
    assert (rc == 0);
}

timeval GetTime () {
    timeval tm;
    gettimeofday (&tm, NULL);
    return tm;
}

// return relative time since time 0 in <1/unit> milliseconds
long GetDeltaMilliseconds (int unit = 10) {
    static timeval tm0 = GetTime ();
    timeval tm = GetTime ();
    return ((tm.tv_sec - tm0.tv_sec) * 1000000 + (tm.tv_usec - tm0.tv_usec)) / (1000 / unit);
}

void TranslateNewLines (const char *in, char *out) {
    char *p2 = out;
    for (const char *p1 = in; *p1; p1++)
        if (*p1 != '\n' || *(p1+1) == 0)
            *p2++ = *p1;
        else {
            *p2++ = '\\', 
            *p2++ = 'n';
        }
    if (*(p2-1) != '\n')
        *p2++ = '\n';
    *p2 = 0;
}

void lprintf (const char *fmt, ...) {
    FILE *f = stderr;
    pthread_mutex_lock (&mtLog);
#if defined(__NR_gettid)
    fprintf (f, "t = %ld: ", syscall(__NR_gettid));
#else
    fprintf (f, "t = %lx: ", (long)pthread_self());
#endif
    fprintf (f, "dt = %ld: ", GetDeltaMilliseconds());
    va_list ap;
    va_start (ap, fmt);
    const size_t maxbytes = 133;
    char buf1[maxbytes];
    char buf2[2*maxbytes+1];
    vsnprintf (buf1, maxbytes, fmt, ap);
    va_end (ap);
    TranslateNewLines (buf1, buf2);
    fprintf (f, "%s", buf2);
    fflush (f);
    pthread_mutex_unlock (&mtLog);
} // lprintf

void SystemError (const char *fmt, ...) {
    va_list ap;
    va_start (ap, fmt);
    vprintf (fmt, ap);
    va_end (ap);
    printf (": %s\n", strerror(errno));
    exit (1);
}

extern "C"
void *LogThread (void *arg) {
    sem_post (&semLogInit);
    int fds = (int)(long)arg;
    lprintf ("Log: fds = %d\n", fds);

    while (true) {
        pollfd pfd = { fds, POLLIN | POLLERR | POLLHUP, 0 };
        int n;

        lprintf ("Log: wait\n");
        do {
            n = poll (&pfd, 1, 500);
        } while (n < 0 && errno == EINTR);
        lprintf ("Log: wake: n = %d\n", n);

        if (n < 0)
            SystemError ("poll");
        if (n == 0)
            continue;

        if (pfd.revents & POLLIN) {
            const size_t BUFSIZE = 1024;
            char buf[BUFSIZE+1];
            ssize_t nn = read (fds, buf, BUFSIZE);
            if (nn == 0)
                break; // peer closed
            if (nn < 0)
                SystemError ("read");
            buf[nn] = 0;
            lprintf ("Log: size = %ld, buf = /%s/\n", (long)nn, buf);
        }
    }
    lprintf ("Log end\n");
    return NULL;
}

int SetRaw (int fd) {
    struct termios attr;
    int rc = tcgetattr (fd, &attr);
    assert (rc == 0);
    cfmakeraw (&attr);
    return tcsetattr (fd, TCSANOW, &attr);
}

int main (int argc, char *argv[])
{
    int fdm, fds;

    fdm = posix_openpt (O_RDWR);
    //const char *master = "/dev/ptmx";
    //fdm = open (master, O_RDWR);
    if (fdm < 0)
        SystemError("can't open master pty");

    if (grantpt(fdm) < 0)
        SystemError("!grantpt");
    if (unlockpt(fdm) < 0)
        SystemError("!unlockpt");
    const char *pts_name = ptsname (fdm);
    assert (pts_name != NULL);
    if ((fds = open(pts_name, O_RDWR)) < 0)
        SystemError("can't open slave pty");

    if (SetRaw(fds) < 0)
        SystemError("SetRaw failed");
    //PrintTermStatus ("after SetRaw", fds);

    bool use_process = argc > 1;
    pthread_t tid;
    if (use_process) {
        pid_t p = fork ();
        if (p == 0) {
            close (fdm);
            LogThread ((void*)fds);
            exit (0);
        }
        close (fds);
        NanoSleep (1000);
    }
    else {
        sem_init (&semLogInit, 0, 0);
        pthread_attr_t log_attr;
        pthread_attr_init (&log_attr);
        int rc = pthread_attr_setdetachstate (&log_attr, PTHREAD_CREATE_JOINABLE);
        assert (rc == 0);
#if 0
        rc = pthread_attr_setschedpolicy (&log_attr, SCHED_FIFO);
        assert (rc == 0);
        sched_param param; // modify priority only
        rc = pthread_attr_getschedparam (&log_attr, &param);
        assert (rc == 0);
        param.sched_priority = sched_get_priority_max (SCHED_FIFO);
        rc = pthread_attr_setschedparam (&log_attr, &param);
        assert (rc == 0);
#endif
        int rc2 = pthread_create (&tid, &log_attr, LogThread, (void*)fds);
        assert (rc2 == 0);
        while (sem_wait(&semLogInit) != 0)
            ;
    }
    lprintf ("Main: fdm = %d\n", fdm);

    const char *tests[] = {
        "test1 ",
        "test2 ",
        "test3\n",
        "prompt> ",
        "prompt> ",
        "source something\n",
        "prompt> \nprompt> source somethingelse\n"
    };

    for (size_t i = 0; i < sizeof(tests)/sizeof(tests[0]); i++) {
        lprintf ("writing [%d]: /%s/\n", i, tests[i]);
        ssize_t n = write (fdm, tests[i], strlen(tests[i]));
        assert (n == strlen(tests[i]));
        tcdrain (fdm);
        //sync();
        NanoSleep (100000);
    }
    lprintf ("end of write\n", fdm);
    NanoSleep (10000000);
    close (fdm);

    if (use_process)
        NanoSleep (10000);
    else
        pthread_join (tid, NULL);
} // main

Here's output from RH 5.8:

t = 32072: dt = 0: Log: fds = 4
t = 32072: dt = 0: Log: wait
t = 32056: dt = 0: Main: fdm = 3
t = 32056: dt = 0: writing [0]: /test1 /
t = 32072: dt = 1: Log: wake: n = 1
t = 32072: dt = 1: Log: size = 6, buf = /test1 /
t = 32072: dt = 1: Log: wait
t = 32056: dt = 7: writing [1]: /test2 /
t = 32072: dt = 8: Log: wake: n = 1
t = 32072: dt = 8: Log: size = 6, buf = /test2 /
t = 32072: dt = 8: Log: wait
t = 32056: dt = 17: writing [2]: /test3\n/
t = 32072: dt = 18: Log: wake: n = 1
t = 32072: dt = 18: Log: size = 6, buf = /test3\n/
t = 32072: dt = 18: Log: wait
t = 32056: dt = 27: writing [3]: /prompt> /
t = 32072: dt = 28: Log: wake: n = 1
t = 32072: dt = 28: Log: size = 8, buf = /prompt> /
t = 32072: dt = 28: Log: wait
t = 32056: dt = 37: writing [4]: /prompt> /
t = 32072: dt = 38: Log: wake: n = 1
t = 32072: dt = 38: Log: size = 8, buf = /prompt> /
t = 32072: dt = 38: Log: wait
t = 32056: dt = 47: writing [5]: /source something\n/
t = 32072: dt = 48: Log: wake: n = 1
t = 32072: dt = 48: Log: size = 17, buf = /source something\n/
t = 32072: dt = 48: Log: wait
t = 32056: dt = 57: writing [6]: /prompt> \nprompt> source somethingelse\n/
t = 32072: dt = 58: Log: wake: n = 1
t = 32072: dt = 59: Log: size = 38, buf = /prompt> \nprompt> source somethingelse\n/
t = 32072: dt = 60: Log: wait
t = 32056: dt = 67: end of write
t = 32072: dt = 178: Log: wake: n = 1
t = 32072: dt = 178: Log: wait
t = 32072: dt = 178: Log: wake: n = 1
t = 32072: dt = 178: Log end

Here's output from RH 6.4:

t = 7929: dt = 0: Log: fds = 4
t = 7929: dt = 0: Log: wait
t = 7928: dt = 0: Main: fdm = 3
t = 7928: dt = 0: writing [0]: /test1 /
t = 7928: dt = 2: writing [1]: /test2 /
t = 7928: dt = 4: writing [2]: /test3\n/
t = 7928: dt = 6: writing [3]: /prompt> /
t = 7928: dt = 7: writing [4]: /prompt> /
t = 7928: dt = 9: writing [5]: /source something\n/
t = 7928: dt = 11: writing [6]: /prompt> \nprompt> source somethingelse\n/
t = 7928: dt = 13: end of write
t = 7929: dt = 18: Log: wake: n = 1
t = 7929: dt = 18: Log: size = 89, buf = /test1 test2 test3\nprompt> prompt> source something\nprompt> \nprompt> source somethingelse\n/
t = 7929: dt = 18: Log: wait
t = 7929: dt = 114: Log: wake: n = 1
t = 7929: dt = 114: Log end

You can see that the behavior does not follow neither char discipline nor line. Delay before read end wakes is about 1ms. This all messes up the order of events recorded to logs. In canon mode reader thread reads by lines but with delay of 4ms on SUSE and 1ms on RH:

t = 8630: dt = 0: Log: fds = 4
t = 8630: dt = 0: Log: wait
t = 8629: dt = 0: Main: fdm = 3
t = 8629: dt = 0: writing [0]: /test1 /
t = 8629: dt = 2: writing [1]: /test2 /
t = 8629: dt = 4: writing [2]: /test3\n/
t = 8629: dt = 6: writing [3]: /prompt> /
t = 8629: dt = 7: writing [4]: /prompt> /
t = 8629: dt = 9: writing [5]: /source something\n/
t = 8629: dt = 11: writing [6]: /prompt> \nprompt> source somethingelse\n/
t = 8629: dt = 13: end of write
t = 8630: dt = 16: Log: wake: n = 1
t = 8630: dt = 16: Log: size = 18, buf = /test1 test2 test3\n/
t = 8630: dt = 16: Log: wait
t = 8630: dt = 16: Log: wake: n = 1
t = 8630: dt = 16: Log: size = 33, buf = /prompt> prompt> source something\n/
t = 8630: dt = 16: Log: wait
t = 8630: dt = 16: Log: wake: n = 1
t = 8630: dt = 16: Log: size = 9, buf = /prompt> \n/
t = 8630: dt = 17: Log: wait
t = 8630: dt = 17: Log: wake: n = 1
t = 8630: dt = 17: Log: size = 29, buf = /prompt> source somethingelse\n/
t = 8630: dt = 17: Log: wait
t = 8630: dt = 114: Log: wake: n = 1
t = 8630: dt = 114: Log end

What am I doing wrong? Is it a bug in Linux, in my code or the idea is wrong?

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