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I like to log a programs output 'on demand'. Eg. the output is logged to the terminal, but another process can hook on the current output at any time.

The classic way would be:

myprogram 2>&1 | tee /tmp/mylog

and on demand

tail /tmp/mylog

However, this would create a ever growing log file even if not used until the drive runs out of space. So my attempt was:

mkfifo /tmp/mylog
myprogram 2>&1 | tee /tmp/mylog

and on demand

cat /tmp/mylog

Now I can read /tmp/mylog at any time. However, any output blocks the program until the /tmp/mylog is read. I like the fifo to flush any incoming data not read back. How to do that?

share|improve this question
Well while there are several answers circumventing the non-blocking fifo problem for logging (using logrotate, screen etc.) that works quite well for most purposes the original problem seems not be solvable with simple bash magic. Thus maybe the right answer is 'it can't be done'. The bounty goes to the answer implementing the small missing tool. –  dronus Oct 4 '11 at 11:12

5 Answers 5

up vote 20 down vote accepted

Inspired by your question I've written a simple program that will let you do this:

$ myprogram 2>&1 | ftee /tmp/mylog

It behaves similarly to tee but clones the stdin to stdout and to a named pipe (a requirement for now) without blocking. This means that if you want to log this way it may happen that you're gonna lose your log data, but I guess it's acceptable in your scenario. The trick is to block SIGPIPE signal and to ignore error on writing to a broken fifo. This sample may be optimized in various ways of course, but so far, it does the job I guess.

/* ftee - clone stdin to stdout and to a named pipe 
(c) racic@stackoverflow
WTFPL Licence */

#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <sys/types.h>
#include <sys/stat.h>
#include <fcntl.h>
#include <errno.h>
#include <signal.h>
#include <unistd.h>

int main(int argc, char *argv[])
    int readfd, writefd;
    struct stat status;
    char *fifonam;
    char buffer[BUFSIZ];
    ssize_t bytes;

    signal(SIGPIPE, SIG_IGN);

        printf("Usage:\n someprog 2>&1 | %s FIFO\n FIFO - path to a"
            " named pipe, required argument\n", argv[0]);
    fifonam = argv[1];

    readfd = open(fifonam, O_RDONLY | O_NONBLOCK);
        perror("ftee: readfd: open()");

    if(-1==fstat(readfd, &status))
        perror("ftee: fstat");

        printf("ftee: %s in not a fifo!\n", fifonam);

    writefd = open(fifonam, O_WRONLY | O_NONBLOCK);
        perror("ftee: writefd: open()");


        bytes = read(STDIN_FILENO, buffer, sizeof(buffer));
        if (bytes < 0 && errno == EINTR)
        if (bytes <= 0)

        bytes = write(STDOUT_FILENO, buffer, bytes);
            perror("ftee: writing to stdout");
        bytes = write(writefd, buffer, bytes);
        if(-1==bytes);//Ignoring the errors

You can compile it with this standard command:

$ gcc ftee.c -o ftee

You can quickly verify it by running e.g.:

$ ping www.google.com | ftee /tmp/mylog

$ cat /tmp/mylog

Also note - this is no multiplexer. You can only have one process doing $ cat /tmp/mylog at a time.

share|improve this answer
Well that works as expected. Very good! If it turns out there is no bash-only solution, you've got the bounty. And we have to make your tool a GNU standard one shipping with every vanilla distribution... –  dronus Oct 2 '11 at 14:01
What are you trying to achieve is quite uncommon, this approach is applicable when , say, building an application. For most scenarios tail -f logfile.log works just fine. –  racic Oct 2 '11 at 16:13
I think it is quite useful for any unattendend long term running program that can generate a lot of dbeug output that isn't of any interest as long as there are no problems. Thinking of embedded devices for single purposes for example. A log file is not very useful if the system runs unattended for years. Maybe there is even a read only filesystem to protect the embedded functions against fs garbaging and power loss. So a logfile doesn't make sense. –  dronus Oct 4 '11 at 10:44
Well for embedded devices, I now solve it like my answer above by BusyBox, that works well. But I don't resticted my question to such systems, so this is a solution. A very nice tool! –  dronus Feb 25 '12 at 1:46
@racic: WOW!!! you really don't see much C these days. Id give you 10 points if I could, so I also +1'd your comment. –  TechZilla Dec 9 '12 at 19:17

However, this would create a ever growing log file even if not used until the drive runs out of space.

Why not periodically rotate the logs? There's even a program to do it for you logrotate.

There's also a system for generating log messages and doing different things with them according to type. It's called syslog.

You could even combine the two. Have your program generate syslog messages, configure syslog to place them in a file and use logrotate to ensure they don't fill the disk.

If it turned out that you were writing for a small embedded system and the program's output is heavy there are a variety of techniques you might consider.

  • Remote syslog: send the syslog messages to a syslog server on the network.
  • Use the severity levels availble in syslog to do different things with the messages. E.g. discard "INFO" but log and forward "ERR" or greater. E.g. to console
  • Use a signal handler in your program to reread configuration on HUP and vary log generation "on demand" this way.
  • Have your program listen on a unix socket and write messages down it when open. You could even implement and interactive console into your program this way.
  • Using a configuration file, provide granular control of logging output.
share|improve this answer
Well it is for a small embedded system and the programs output is heavy. So I like to just get the data if needed and not store anything or a very little without relying on regular running tools. –  dronus Sep 9 '11 at 11:18
I would like something working like 'dmesg', only storing a very limited amount of messages. –  dronus Sep 9 '11 at 11:19
On embedded devices, the universal binary BusyBox contains a ring buffered log, which can be filled by 'logger' and read by 'logread'. Works quite well. Caveats: Can only use one global log. –  dronus Sep 9 '11 at 20:39

BusyBox often used on embedded devices can create a ram buffered log by

syslogd -C

which can be filled by


and read by


Works quite well, but only provides one global log.

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If you can install screen on the embedded device then you can run 'myprogram' in it and detach it, and reattach it anytime you want to see the log. Something like:

$ screen -t sometitle myprogram
Hit Ctrl+A, then d to detach it.

Whenever you want to see the output, reattach it:

$ screen -DR sometitle
Hit Ctrl-A, then d to detach it again.

This way you won't have to worry about the program output using disk space at all.

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The problem with the given fifo approach is that the whole thing will hang when the pipe buffer is getting filled up and no reading process is taking place.

For the fifo approach to work I think you would have to implement a named pipe client-server model similar to the one mentioned in BASH: Best architecture for reading from two input streams (see slightly modified code below, sample code 2).

For a workaround you could also use a while ... read construct instead of teeing stdout to a named pipe by implementing a counting mechanism inside the while ... read loop that will overwrite the log file periodically by a specified number of lines. This would prevent an ever growing log file (sample code 1).

# sample code 1

# terminal window 1
rm -f /tmp/mylog
touch /tmp/mylog
while sleep 2; do date '+%Y-%m-%d_%H.%M.%S'; done 2>&1 | while IFS="" read -r line; do 
  #echo $lno
  if [[ $lno -eq 10 ]]; then
    printf '%s\n' "${array[@]}" > /tmp/mylog
    unset lno array
  printf '%s\n' "${line}"

# terminal window 2
tail -f /tmp/mylog


# sample code 2

# code taken from: 
# http://stackoverflow.com/questions/6702474/bash-best-architecture-for-reading-from-two-input-streams
# terminal window 1

# server
rm -f /tmp/to /tmp/from
mkfifo /tmp/to /tmp/from
while true; do 
  while IFS="" read -r -d $'\n' line; do 
    printf '%s\n' "${line}"
  done </tmp/to >/tmp/from &
  exec 3>/tmp/to
  exec 4</tmp/from
  trap "kill -TERM $bgpid; exit" 0 1 2 3 13 15
  wait "$bgpid"
  echo "restarting..."
) &
#kill -TERM $serverpid

# client
exec 3>/tmp/to;
exec 4</tmp/from;
while IFS="" read -r -d $'\n' <&4 line; do
  if [[ "${line:0:1}" == $'\177' ]]; then 
    printf 'line from stdin: %s\n' "${line:1}"  > /dev/null
    printf 'line from fifo: %s\n' "$line"       > /dev/null
done &
trap "kill -TERM $"'!; exit' 1 2 3 13 15
while IFS="" read -r -d $'\n' line; do
  # can we make it atomic?
  # sleep 0.5
  # dd if=/tmp/to iflag=nonblock of=/dev/null  # flush fifo
  printf '\177%s\n' "${line}"
done >&3
) &
# kill -TERM $!

# terminal window 2
# tests
echo hello > /tmp/to
yes 1 | nl > /tmp/to
yes 1 | nl | tee /tmp/to
while sleep 2; do date '+%Y-%m-%d_%H.%M.%S'; done 2>&1 | tee -a /tmp/to

# terminal window 3
cat /tmp/to | head -n 10
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