I'm working on a simple bash script daemon that uses Unix domain sockets. I have a loop like this:

while true
    rm /var/run/mysock.sock
    command=`nc -Ul /var/run/mysock.sock`
    echo $command > /tmp/command

I'm echoing the command out to /tmp/command just for debugging purposes.

Is this the best way to do this?

  • 2
    I don't know, what do you want to do with the socket?
    – nneonneo
    Aug 12, 2014 at 4:47
  • Use it to talk to the daemon from somewhere else. For example: echo "hello" | nc -U /var/run/mysock.sock Aug 12, 2014 at 4:48
  • You may want to change the > to >> so it actually logs more than just the most recent command, but other than that its just as good a method as any depending on how often it gets written to. Aug 12, 2014 at 5:18
  • Need a similar solution. Commenting here so I can get update if one is materialized. Mar 18, 2016 at 16:51

2 Answers 2


Looks like I'm late to the party. Anyway, here is my suggestion I employ successfully for one-shot messages with response:

INPUT=$(mktemp -u)
mkfifo -m 600 "$INPUT"
OUTPUT=$(mktemp -u)
mkfifo -m 600 "$OUTPUT"

(cat "$INPUT" | nc -U "$SKT_PATH" > "$OUTPUT") &

exec 4>"$INPUT"
exec 5<"$OUTPUT"

echo "$POST_LINE" >&4
read -u 5 -r RESPONSE;
echo "Response: '$RESPONSE'"

Here I use two FIFOs to talk to nc (1) and fetch it's response.

  • 1
    need to install netcat-openbsd to get -U option. In ubuntu sudo apt-get install netcat-openbsd Feb 22, 2018 at 20:55
  • 1
    What to do with $NCPID? Furthmore, where does $SKT_PATH come from. It has to be the path to the unix domain socket, but that is probably not clear for beginners.
    – doak
    Sep 14, 2019 at 12:06
  • 2
    Well $SKT_PATH is path to your socket. Regardless of where you will take it from. You can do anything you want with $NCPID in case you'll need something to do with a child (nc) process. It is not clear for beginners, but still the original poster is not a beginner if he asks about Unix domain sockets. Sep 17, 2019 at 12:26
  • 2
    Also, for maximum security we want to first mktemp -d and then do the pair of mktemp -u and mkfifo calls inside it. This adds a tiny bit of defense-in-depth: if we just create randomly named pipes, then any process with read permissions on their parent directory can see their names. (And /tmp tends to be world-readable.) By creating our own private securely randomly named temporary directory first, and then securely randomly named pipes inside that, we hide the pipe names to just processes running as our user, which adds one more challenge to any exploit running as another user.
    – mtraceur
    Oct 24, 2021 at 5:49
  • 1
    To be clear, besides the above critiques about subtle race condition and security concerns, I think this is a very good answer. I want to upvote this answer, and I would if at least the point about respecting mkfifo errors as a name collision was addressed.
    – mtraceur
    Oct 24, 2021 at 5:54

You can use a single file also to use bidirectional.

mkfifo communicate_pipe
exec 3<> communicate_pipe

cat communicate_pipe - | python socket.py  | while read line; do   
    cmd="./something.sh  '${line}' > communicate_pipe";
    eval $cmd;

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