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I've found boilerplate flock(1) code which looks promising. Now I want to understand the components before blindly using it.

Seems like these functions are using the third form of flock

flock [-sxun] [-w timeout] fd

The third form is convenient inside shell scripts, and is usually used the following manner:

(
 flock -s 200 
 # ... commands executed under lock ... 
) 200>/var/lock/mylockfile

The piece I'm lost on (from the sample wrapper functions) is this notation

eval "exec $LOCKFD>\"$LOCKFILE\""

or in shorthand from the flock manpage

200>/var/lock/mylockfile

What does that accomplish?

I notice subsequent commands to flock passed a value other than the one in the initial redirect cause flock to complain

flock: 50: Bad file descriptor

It seems like flock is using the file descriptors as a map to know which file to operate on. In order for that to work though, those descriptors would have to still be around and associated with the file, right?

After the redirect is finished, and the lock file is created, isn't the file closed, and file descriptors associated with the open file vaporized? I thought file descriptors were only associated with open files.

What's going on here?

marked as duplicate by Jonathan Leffler bash Dec 9 '14 at 14:21

This question has been asked before and already has an answer. If those answers do not fully address your question, please ask a new question.

  • It's been at least 10 years since I took Unix & Linux programming in college so file descriptors are a bit vague to me now. Please bear with me! – quickshiftin Feb 10 '14 at 23:16
  • It redirects file descriptor #200 to that pathname. – bmargulies Feb 10 '14 at 23:20
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200>/var/lock/mylockfile

This creates a file /var/lock/mylockfile which can be written to via file descriptor 200 inside the sub-shell. The number 200 is an arbitrary one. Picking a high number reduces the chance of any of the commands inside the sub-shell "noticing" the extra file descriptor.

(Typically, file descriptors 0, 1, and 2 are used by stdin, stdout, and stderr, respectively. This number could have been as low as 3.)

flock -s 200

Then flock is used to lock the file via the previously created file descriptor. It needs write access to the file, which the > in 200> provided. Note that this happens after the redirection above.

  • So there's really no harm in calling 200>/var/lock/mylockfile from another process, since the call to flock -xn 200 will still bomb if that process wasn't also the one that acquired the lock initially? – quickshiftin Feb 10 '14 at 23:30
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    As long as you keep in mind that each process has its own file descriptors. Child processes inherit them, but unrelated processes do not share descriptors. 200 can refer to different files in different processes. I don't know if that answers your question? – John Kugelman Feb 10 '14 at 23:39
  • I'm a bit confused, so what happens if 200 is being used by the shell elsewhere. Also don't get why it doesn't it use 3-9, which are definitely not going to be used by bash unless you explicitly defined one elsewhere?. Or why not check /proc/self/fd before arbitrarily assigning one? – BroSlow Feb 10 '14 at 23:45
  • The only thing I'm still missing is, even though flock -xn 200 is called after 200>/var/lock/mylockfile, hasn't /var/lock/mylockfile been closed by then and thus file descriptor 200 no longer associated with the file in that process? So how would flock know 50 for example wasn't used to create the file to begin with. It seems to, with an error like flock: 50: Bad file descriptor. – quickshiftin Feb 10 '14 at 23:46
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    The 200> applies for everything inside the parentheses. /var/lock/mylockfile isn't closed until the entire sub-shell has finished. File descriptor 200 will still be open when flock runs, and since child processes inherit their parents' file descriptors, it too can write to fd 200. – John Kugelman Feb 11 '14 at 0:28

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