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$ time (exec -a foo echo hello)

It seems as though stderr (where time writes its output) leaks somewhere; obviously this is not what I intended.

My question could be phrased in generic terms as "why isn't the standard error stream written on the terminal when a subshell executes another program?".

A few notes:

  1. I need to use exec for its -a switch, which changes the zeroth argument of the process. I would appreciate an alternative to exec to do just this, but I don't know of any, and now this behavior got me curious.
  2. Of course, I need a subshell because I want my script to continue. Again, any alternative would be welcome. Is exec in a subshell even a good thing to do?
  3. time'ing a subshell in general works fine, so it really has to do with exec.

Could somebody point me in the right direction? I'm not sure where to begin in any of the reference materials, exec descriptions are pretty terse.

Update: Actually, I was just "lucky" with time here being the bash builtin. It doesn't parse at all with /usr/bin/time or with any other process:

$ env (exec -a foo echo hello)
bash: syntax error near unexpected token `exec'

Actually this makes sense, we can't pass a subshell as an argument. Any idea how to do this any other way?

Update: To summarize, we have four good answers here, all different, and potentially something lacking:

  1. Use actual filesystem links (hard or symbolic) that bash will use by default and time normally. Credits to hek2mgl.

    ln $(which echo) foo && time ./foo hello && rm foo

  2. fork for time using bash and exec using a bash subshell without special syntax.

    time bash -c 'exec -a foo echo hello'

  3. fork for time using bash but exec using a tiny wrapper.

    time launch -a foo echo hello

  4. fork and exec for time using bash with special syntax. Credits to sjnarv.

    time { (exec -a foo echo hello); }

I think that solution 1 has the less impact on time as the timer doesn't have to count the exec in the "proxy" program, but isn't very practical (many filesystem links) nor technically ideal. In all other cases, we actually exec two times: once to load the proxy program (subshell for 2 and 4, wrapper for 3), and once to load the actual program. This means that time will count the second exec. While it can be extremely cheap, exec actually does filesystem lookups which can be pretty slow (especially if it searches through PATH, either itself with exec*p or if the proxy process does).

So, the only clean way (as far as what the answers of this question covered) would be to patch bash to modify its time keyword so that it can exec while setting the zeroth argument to a non-zero value. It would probably look like time -a foo echo hello.

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3 Answers 3

up vote 1 down vote accepted

Time is based on the wait system call. From the time man page

Most information shown by time is derived from the wait3(2) system call.

This will only work if time is the father process of the command to be executed. But exec creates a completely new process.

As time requires fork() and wait() I would not attach too much attention on that zeroth argument of exec (what is useful, of course). Just create a symbolic link and then call it like:

time link_name > your.file 2>&1 &
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That makes sense, thanks. The problem with your suggestion though is that I can't use the -a switch of bash exec. I'm beginning to think that I'll have to write a C wrapper for this. –  tne Aug 20 '13 at 12:21
Why not? you can use -a –  hek2mgl Aug 20 '13 at 12:29
Well yes but then it would change time's zeroth argument instead of that of the command in question (I use echo here just as an example, obviously), which defeats the purpose of using exec to begin with. –  tne Aug 20 '13 at 12:31
Ok, understood. is it ok for you to have to output of the command in a file? –  hek2mgl Aug 20 '13 at 12:35
I guess I could output to a named pipe, although it'd be extra nice if it was a normal pipe (managed by bash). Also see my update to the question. –  tne Aug 20 '13 at 12:37

So, I ended up writing that tiny C wrapper, which I call launch:

#include <stdlib.h>
#include <unistd.h>

int main(const int argc, char *argv[])
    int opt;
    char *zeroth = NULL;

    while ((opt = getopt(argc, argv, "a:")) != -1)
        if (opt == 'a')
            zeroth = optarg;

    if (optind >= argc) abort();
    argv += optind;
    const char *const program = *argv;
    if (zeroth) *argv = zeroth;
    return execvp(program, argv);

I obviously simplified it to emphasize only what's essential. It essentially works just like exec -a, except that since it is not a builtin, the shell will fork normally to run the launch program as a separate process. There is thus no issue with time.

The test program in the following sample output is a simple program that only outputs its argument vector, one argument per line.

$ ./launch ./test hello world
$ ./launch -a foo ./test hello world
$ time ./launch -a foo ./test hello world

real    0m0.004s
user    0m0.001s
sys     0m0.002s
$ ./launch -a foo -- ./test -g hello -t world

The overhead should be minimal: just what's necessary to load the program, parse its single and optional argument, and manipulate the argument vector (which can be mostly reused for the next execvp call).

The only issue is that I don't know of a good way to signal that the wrapper failed (as opposed to the wrapped program) to the caller, which may happen if it was invoked with erroneous arguments. Since the caller probably expects the status code from the wrapped program and since there is no way to reliably reserve a few codes for the wrapper, I use abort which is a bit more rare, but it doesn't feel appropriate (nor does it make it all OK, the wrapped program may still abort itself, making it harder for the caller to diagnose what went wrong). But I digress, that's probably not interesting for the scope of this question.

Edit: just in case, the C compiler flags and feature test macros (gcc/glibc):

CFLAGS=-std=c11 -pedantic -Wall -D_XOPEN_SOURCE=700
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I see you made it :) I'm a little bit tired for today will have a closer look tomorrow.. –  hek2mgl Aug 20 '13 at 23:42

I don't think that the timer's output disappears. I think it (the timer) was running in the sub-shell overlaid by the exec.

Here's a different invocation. Perhaps this produces what you expected initially:

$ time { (exec -a foo echo hello); }

Which for me emits:


real    0m0.002s
user    0m0.000s
sys     0m0.001s
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Nice catch! Actually, time here is not an executable, nor is it a shell builtin - it's a shell keyword, which means it has special syntax, and in this case I think you're right in that the shell runs the timer in the subshell (which makes sense since it is the subshell process that retrieves status info for the child). I had no idea one could time a compound command this way; this has the effect of forcing the shell to time the subshell process (and not the child). Thanks! Note though that because of this, /usr/bin/time the executable wouldn't work with this method. –  tne Aug 21 '13 at 8:27
Regarding use of /usr/bin/time, right - that would syntactically be a simple command list in the shell's terms, so something without all them fancy braces and parentheses should work: /usr/bin/time bash -c 'exec -a foo echo hello' –  sjnarv Aug 21 '13 at 14:15

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