I use startx to start X which will evaluate my .xinitrc. In my .xinitrc I start my window manager using /usr/bin/mywm. Now, if I kill my WM (in order to f.e. test some other WM), X will terminate too because the .xinitrc script reached EOF. So I added this at the end of my .xinitrc:

while true; do sleep 10000; done

This way X won't terminate if I kill my WM. Now my question: how can I do an infinite sleep instead of looping sleep? Is there a command which will kinda like freeze the script?

Best regards


sleep infinity does exactly what it suggests and works without cat abuse.

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    Cool. Unfortunately my busybox does not understand. – not-a-user Aug 1 '14 at 15:38
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    As is the case for many commands, the sleep command included in BusyBox is a slimmed-down version with only the basic and most widely used functionality (sleep for a specified amount of full seconds), so if you need your script to work in environments where only BusyBox is available you'll have to use one of the other solutions (e.g. cat, as suggested by Michał). – Donarsson Aug 5 '14 at 18:09
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    BSD (or at least OS X) doesn't understand sleep infinity either, though it was a cool thing to learn about for Linux. However, while true; do sleep 86400; done ought to be an adequate substitute. – Ivan X Feb 1 '15 at 10:26
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    Nice solution promoting animal rights! – David Braun Jul 12 '15 at 21:49
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    Regarding this, I made some research I documented in a separate answer. To summarize: infinity is converted in C from "string" to a double. Then that double is truncated to the maximum values allowed timespec, which means a very large amount of seconds (architecture-dependant) but, in theory, finite. – jp48 Aug 19 '17 at 11:16

Maybe this seems ugly, but why not just run cat and let it wait for input forever?

  • That's probably the best way to do it. My answer was basically read nothing, but read will return if input is ready on the controlling tty, where cat would just keep swallowing input. +1 – Tim Post May 29 '10 at 13:33
  • I actually thought our solutions didn't differ much, but I don't know the guts of read. Thanks – Michał Trybus May 29 '10 at 13:35
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    Now that's nice, I would've never thought of using cat. I guess it won't swallow any CPU time either. Thanks a lot! – watain May 29 '10 at 13:38
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    This doesn't work if you don't have a hanging pipe from which to read. Please advise. – Matt Joiner Dec 2 '11 at 2:43
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    @Matt, maybe make a pipe and cat it? mkfifo pipe && cat pipe – Michał Trybus Dec 3 '11 at 22:33

tail does not block

As always: For everything there is an answer which is short, easy to understand, easy to follow and completely wrong. Here tail -f /dev/null falls into this category ;)

If you look at it with strace tail -f /dev/null you will notice, that this solution is far from blocking! It's probably even worse than the sleep solution in the question, as it uses (under Linux) precious resources like the inotify system. Also other processes which write to /dev/null make tail loop. (On my Ubuntu64 16.10 this adds several 10 syscalls per second on an already busy system.)

The question was for a blocking command

Unfortunately, there is no such thing ..

Read: I do not know any way to archive this with the shell directly.

Everything (even sleep infinity) can be interrupted by some signal. So if you want to be really sure it does not exceptionally return, it must run in a loop, like you already did for your sleep. Please note, that (on Linux) /bin/sleep apparently is capped at 24 days (have a look at strace sleep infinity), hence the best you can do probably is:

while :; do sleep 2073600; done

(Note that I believe sleep loops internally for higher values than 24 days, but this means: It is not blocking, it is very slowly looping. So why not move this loop to the outside?)

.. but you can come quite near with an unnamed fifo

You can create something which really blocks as long as there are no signals send to the process. Following uses bash 4, 2 PIDs and 1 fifo:

bash -c 'coproc { exec >&-; read; }; eval exec "${COPROC[0]}<&-"; wait'

You can check that this really blocks with strace if you like:

strace -ff bash -c '..see above..'

How this was constructed

read blocks if there is no input data (see some other answers). However, the tty (aka. stdin) usually is not a good source, as it is closed when the user logs out. Also it might steal some input from the tty. Not nice.

To make read block, we need to wait for something like a fifo which will never return anything. In bash 4 there is a command which can exactly provide us with such a fifo: coproc. If we also wait the blocking read (which is our coproc), we are done. Sadly this needs to keep open two PIDs and a fifo.

Variant with a named fifo

If you do not bother using a named fifo, you can do this as follows:

mkfifo "$HOME/.pause.fifo" 2>/dev/null; read <"$HOME/.pause.fifo"

Not using a loop on the read is a bit sloppy, but you can reuse this fifo as often as you like and make the reads terminat using touch "$HOME/.pause.fifo" (if there are more than a single read waiting, all are terminated at once).

Or use the Linux pause() syscall

For the infinite blocking there is a Linux kernel call, called pause(), which does what we want: Wait forever (until a signal arrives). However there is no userspace program for this (yet).


Create such a program is easy. Here is a snippet to create a very small Linux program called pause which pauses indefinitely (needs diet, gcc etc.):

printf '#include <unistd.h>\nint main(){for(;;)pause();}' > pause.c;
diet -Os cc pause.c -o pause;
strip -s pause;
ls -al pause


If you do not want to compile something yourself, but you have python installed, you can use this under Linux:

python -c 'while 1: import ctypes; ctypes.CDLL(None).pause()'

(Note: Use exec python -c ... to replace the current shell, this frees one PID. The solution can be improved with some IO redirection as well, freeing unused FDs. This is up to you.)

How this works (I think): ctypes.CDLL(None) loads the standard C library and runs the pause() function in it within some additional loop. Less efficient than the C version, but works.

My recommendation for you:

Stay at the looping sleep. It's easy to understand, very portable, and blocks most of the time.

  • 1
    pause() solution is great. Thanks! – takaomag Jan 20 '17 at 14:37
  • This should get the most votes. It's thorough and correct. – Mike S Mar 5 '17 at 15:09
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    How about trap : TERM INT; sleep infinity & wait? I've used it but don't understand it. – Andrew Mar 31 '17 at 22:33
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    @Andrew Normally you do not need the trap (which modifies the behavior of the shell to signals) nor the background (which allows the shell to intercept signals from the terminal, like Strg+C). So sleep infinity is enough (behaves like exec sleep infinity if it is the last statement. to see the difference use strace -ffDI4 bash -c 'YOURCODEHERE'). The looping sleep is better, because sleep can return in certain circumstances. For example you do not want X11 to shut down suddenly on a killall sleep, just because .xstartup ends in sleep infinity instead of a sleep loop. – Tino Apr 17 '17 at 18:37
  • May be a little obscure, but s6-pause is a userland command to run pause(), optionally ignoring various signals. – Patrick Aug 19 '17 at 2:17

TL;DR: sleep infinity actually sleeps the maximum time allowed, which is finite.

Wondering why this is not documented anywhere, I bothered to read the sources from GNU coreutils and I found it executes roughly what follows:

  1. Use strtod from C stdlib on the first argument to convert 'infinity' to the double precision. So, assuming IEEE 754 double precision the 64-bit positive infinity value is stored in the seconds variable.
  2. Invoke xnanosleep(seconds) (found in gnulib), this in turn invokes dtotimespec(seconds) (also in gnulib) to convert from double to struct timespec.
  3. struct timespec is just a pair of numbers: integer part (in seconds) and fractional part (in nanoseconds). Naïvely converting positive infinity to integer would result in undefined behaviour (see § from C standard), so instead it truncates to TYPE_MAXIMUM (time_t).
  4. The actual value of TYPE_MAXIMUM (time_t) is not set in the standard (even sizeof(time_t) isn't); so, for the sake of example let's pick x86-64 from a recent Linux kernel.

This is TIME_T_MAX in the Linux kernel, which is defined (time.h) as:

(time_t)((1UL << ((sizeof(time_t) << 3) - 1)) - 1)

Note that time_t is __kernel_time_t and time_t is long; the LP64 data model is used, so sizeof(long) is 8 (64 bits).

Which results in: TIME_T_MAX = 9223372036854775807.

That is: sleep infinite results in an actual sleep time of 9223372036854775807 seconds (10^11 years). And for 32-bit linux systems (sizeof(long) is 4 (32 bits)): 2147483647 seconds (68 years; see also year 2038 problem).

Edit: apparently the nanoseconds function called is not directly the syscall, but an OS-dependent wrapper (also defined in gnulib).

There's an extra step as a result: for some systems where HAVE_BUG_BIG_NANOSLEEP is true the sleep is truncated to 24 days and then called in a loop. This is the case for some (or all?) Linux distros. Note that this wrapper may be not used if a configure-time test succeeds (source).

In particular, that would be 24 * 24 * 60 * 60 = 2073600 seconds (plus 999999999 nanoseconds); but this is called in a loop in order to respect the specified total sleep time. Therefore the previous conclusions remain valid.

In conclusion, the resulting sleep time is not infinite but high enough for all practical purposes, even if the resulting actual time lapse is not portable; that depends on the OS and architecture.

To answer the original question, this is obviously good enough but if for some reason (a very resource-constrained system) you really want to avoid an useless extra countdown timer, I guess the most correct alternative is to use the cat method described in other answers.


sleep infinity looks most elegant, but sometimes it doesn't work for some reason. In that case, you can try other blocking commands such as cat, read, tail -f /dev/null, grep a etc.

  • 1
    tail -f /dev/null was also a working solution for me on a SaaS platform – schmunk Apr 13 '15 at 18:42
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    tail -f /dev/null also has the advantage of not consuming stdin. I have used it for that reason. – Sudo Bash Sep 29 '16 at 20:12
  • Those considering this option should read this answer to learn about the ramifications of this option. – Shadow Jan 30 '18 at 2:20

What about sending a SIGSTOP to itself?

This should pause the process until SIGCONT is received. Which is in your case: never.

kill -STOP "$$";
# grace time for signal delivery
sleep 60;
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    Signals are asynchronous. So the following can happen: a) shell calls kill b) kill tells kernel that shell shall receive signal STOP c) kill terminates and returns to shell d) shell continues (maybe terminates because script ends) e) kernel finally finds the time to deliver signal STOP to shell – not-a-user Aug 1 '14 at 15:50
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    @temple Great insight, didn't think about the asynchronous nature of signals. Thanks! – michuelnik Aug 6 '14 at 20:49

I recently had a need to do this. I came up with the following function that will allow bash to sleep forever without calling any external program:

    [[ -n "${_snore_fd:-}" ]] || exec {_snore_fd}<> <(:)
    read ${1:+-t "$1"} -u $_snore_fd || :

NOTE: I previously posted a version of this that would open and close the file descriptor each time, but I found that on some systems doing this hundreds of times a second would eventually lock up. Thus the new solution keeps the file descriptor between calls to the function. Bash will clean it up on exit anyway.

This can be called just like /bin/sleep, and it will sleep for the requested time. Called without parameters, it will hang forever.

snore 0.1  # sleeps for 0.1 seconds
snore 10   # sleeps for 10 seconds
snore      # sleeps forever

There's a writeup with excessive details on my blog here


Instead of killing the window manager, try running the new one with --replace or -replace if available.

  • 1
    If I use --replace I always get a warning like another window manager is already running. That doesn't make much sense to me tho. – watain May 29 '10 at 13:40
while :; do read; done

no waiting for child sleeping process.

  • This eats stdin if this still happens to be connected to the tty. If you run it with < /dev/null it busy-loops. It might be of some use in certain situations, so I do not downvote. – Tino Jan 14 '17 at 19:55
  • This is a very bad idea, it will just consume alllot of cpu. – Mohammed Noureldin Jan 18 '17 at 0:37

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