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I need to close stdout and stderr for one of my C program. How is it possible without exiting the program in execution?

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5  
Why do you want to close them? What do you hope to accomplish? –  Joseph Stine Feb 11 '11 at 19:11
2  
What do you expect to happen when you close them? –  karlphillip Feb 11 '11 at 19:12
2  
@Joseph He might want to put the process in background. In this case you're always better to close all standard file descriptors so that you won't end up having them invalidated. –  Peyman Feb 11 '11 at 21:52
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I just wanted to direct the stdout and stderr output to a log file instead of console. Sorry for answering late. I have got it working now. –  baltusaj Feb 17 '11 at 7:01

3 Answers 3

up vote 3 down vote accepted

What have you tried? Doesn't fclose work?

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Yeah. It worked thanks. :) –  baltusaj Feb 17 '11 at 6:58
    
@lhf so how to open it again ? –  onmyway133 Oct 4 '13 at 9:13
2  
@entropy, there is no way to open it again. –  lhf Oct 4 '13 at 11:56
    
you can reopen it using freopen("/dev/tty","w",stdout); This is often used if a call to execl fails. –  Jens Munk Jul 24 at 2:31

You can just:

fclose(stdout);
fclose(stderr);

For anybody wondering why you might want to do this, this is a fairly common task for a daemon/service process on Unix.

However you should be aware that closing a file descriptor may have unintended consequences:

  • When you open new files these now free descriptors will be used. So, for example, if you subsequently fopen that file descriptor (on Linux, at least) will replace fd 1, i.e. stdout. Any code that subsequently uses this will write to this file, which may not be what you intended.
  • See R..'s comments on file descriptors versus C library FILE* pointers. Specifically:
    • If you write to a closed fd under Linux, you'll get an error, but:
    • If you use a C library function that uses stdout or stderr (which are FILE* pointers (see their definition) then writing to these whilst FILE* is closed is undefined behaviour. This will likely crash your program in unexpected ways, not always at the point of the bug either. See undefined behaviour.
  • Your code isn't the only part affected. Any libraries you use, and any processes you launch which inherited these file descriptors as their standard descriptors are also affected.

The quick, one-line solution is to freopen() To say /dev/null, /dev/console under Linux/OSX or nul on Windows. Alternatively, you can use your platform-specific implementation to re-open the file descriptors/handles as required.

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2  
...the reason for doing it is to disassociate the process from the tty that started it (if it was started from a tty). –  William Pursell Feb 11 '11 at 19:27
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Closing them without opening a replacement (e.g. /dev/null) is a very bad idea and generally dangerous. –  R.. Feb 11 '11 at 19:29
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You got the reason wrong. Writing to a closed FILE (stdio stream) is UB, but writing to a closed file descriptor is just EBADF. In any case, the more important reason is that another part of the program or child process might later open an important file, which will get assigned the first unused file descriptor number. If fd 0, 1, or 2 is unused, the new file descriptor will take the place of stdin, stdout, or stderr, and could get clobbered by another part of the program (or child process) that uses any of these for their usual purposes... –  R.. Feb 11 '11 at 21:25
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use freopen("/dev/null", "r", stdin); , see man freopen() –  ydroneaud Feb 14 '11 at 13:40
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@NicholasWilson yes, I know. I addressed that issue at the time, however, to make it more explicit, I've re-written the answer to incorporate all of the above comments. –  Ninefingers May 15 '13 at 8:28

If you want to prevent your application from writing to the console, then:

#include <stdio.h>

int main()
{    
    fprintf(stdout, "stdout: msg1\n");
    fprintf(stderr, "stderr: msg1\n");
    fclose(stdout);

    fprintf(stdout, "stdout: msg2\n");  // Please read the note setion below
    fprintf(stderr, "stderr: msg2\n");
    fclose(stderr);

    fprintf(stdout, "stdout: msg3\n");
    fprintf(stderr, "stderr: msg3\n");
}

Outputs:

stdout: msg1
stderr: msg1
stderr: msg2

Note: any attempt to use a FILE pointer after the file is closed is erroneous. I'm doing it in this case just to illustrate what closing these file descriptors might do to your application.

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3  
This code has undefined behavior (using a FILE * after the file was closed). It could just as well crash or worse. –  R.. Feb 11 '11 at 19:30
    
@R That part of the code you mentioned is just to illustrate what the application does since the questioner didn't answered our comments about what he expected to happen after closing stdout/stderr. Since I added a warning in the answer about this, I'm not sure I still deserve the -1, but thanks anyway. –  karlphillip Feb 11 '11 at 19:56
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I removed the -1, but "will do" is still erroneous. Saying this is what it "might do" would be better, but either way you should note that the example code has undefined behavior and is an incorrect program. –  R.. Feb 11 '11 at 21:17

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