How can I pipe initial input into process which will then be interactive?
I'd like to be able to inject an initial command into the launching of an interactive process, so that I can do something like this:
echo "initial command" | INSERT_MAGIC_HERE some_tool
tool> initial command
[result of initial command]
tool> [now I type an interactive command]
What doesn't work:
Just piping the initial command in doesn't work, as this results in stdin not being connected to the terminal
Writing to /dev/pts/[number] sends the output to the terminal, not input to the process as if it were from the terminal
What would but with disadvantages:
Make a command which forks a child, writes to its stdin and then forwards everything from its own stdin. Downside - terminal control things (like line vs character mode) won't work. Maybe I could 开发者_运维问答do something with proxying of pseudo terminals?
Make a modified version of xterm (I'm launching one for this task anyway) with a command line option to inject additional commands after encountering a desired prompt string. Ugly.
Make a modified version of the tool I'm trying to run so that it accepts an initial command on the command line. Breaks the standard installation.
(The tool of current interest, incidentally, is android's adb shell - I want to open an interactive shell on the phone, run a command automatically, and then have an interactive session)
You don't need to write a new tool to forward stdin
- one has already been written (cat
):
(echo "initial command" && cat) | some_tool
This does have the downside of connecting a pipe to some_tool
, not a terminal.
The accepted answer is simple and mostly good.
But it has a disadvantage: the programs gets a pipe as its input, not a terminal. This means that autocompletion will not work. In a lot of cases, this also disables pretty output, and I've heard some programs just refuse to work if stdin is not a terminal.
The following program solves the problem. It creates a pseudoterminal, spawns a program connected to this pseudoterminal. It first feeds extra input passed via commandline, and then feeds it input given by user via stdin.
For example, ptypipe "import this" python3
makes Python execute "import this" first, and then it drops you to interactive command prompt, with
working completion and other stuff.
Likewise, ptypipe "date" bash
runs Bash, which executes date
and then gives a shell to you. Again, with working completion, colourized prompt and so on.
#!/usr/bin/env python3
import sys
import os
import pty
import tty
import select
import subprocess
STDIN_FILENO = 0
STDOUT_FILENO = 1
STDERR_FILENO = 2
def _writen(fd, data):
while data:
n = os.write(fd, data)
data = data[n:]
def main_loop(master_fd, extra_input):
fds = [master_fd, STDIN_FILENO]
_writen(master_fd, extra_input)
while True:
rfds, _, _ = select.select(fds, [], [])
if master_fd in rfds:
data = os.read(master_fd, 1024)
if not data:
fds.remove(master_fd)
else:
os.write(STDOUT_FILENO, data)
if STDIN_FILENO in rfds:
data = os.read(STDIN_FILENO, 1024)
if not data:
fds.remove(STDIN_FILENO)
else:
_writen(master_fd, data)
def main():
extra_input = sys.argv[1]
interactive_command = sys.argv[2]
if hasattr(os, "fsencode"):
# convert them back to bytes
# http://bugs.python.org/issue8776
interactive_command = os.fsencode(interactive_command)
extra_input = os.fsencode(extra_input)
# add implicit newline
if extra_input and extra_input[-1] != b'\n':
extra_input += b'\n'
# replace LF with CR (shells like CR for some reason)
extra_input = extra_input.replace(b'\n', b'\r')
pid, master_fd = pty.fork()
if pid == 0:
os.execlp("sh", "/bin/sh", "-c", interactive_command)
try:
mode = tty.tcgetattr(STDIN_FILENO)
tty.setraw(STDIN_FILENO)
restore = True
except tty.error: # This is the same as termios.error
restore = False
try:
main_loop(master_fd, extra_input)
except OSError:
if restore:
tty.tcsetattr(0, tty.TCSAFLUSH, mode)
os.close(master_fd)
return os.waitpid(pid, 0)[1]
if __name__ == "__main__":
main()
(Note: I'm afraid this solution contains a possible deadlock. You may want to feed extra_input in small chunks to avoid it)
This is easy to do with the program "expect" which is intended to let you write scripts to interact with programs.
I tested this by writing an expect script bc.exp to launch the calculator "bc" and send it the command "obase=16" to put it into hexadecimal output mode, and then turn over control to me.
The script (in a file named bc.exp) is
spawn bc
send "obase=16\n"
interact {
\003 exit
}
One runs it with
expect bc.exp
The answer from @caf is a solid answer.
I thought I would expand on it here with a related option that works well for me.
My <initial command>
is actually a list of commands, and found within a text file. Therefore, I want to pipe this into the <some command>
and the connect to stdin
.
cat
handles this very well, it accepts -
to read from stdin
:
cat init_file - | some_command
This has the same limitation as discussed in cafs answer.
You can also (in some cases, when run from teminal) use tee
to write directly to terminal output. The name tee
refers to acting like a T, passing through stdin to stdout while also writing to a file (/dev/tty which is the terminal in this case).
echo "initial command" | tee /dev/tty | some_tool
https://unix.stackexchange.com/a/178754/89546
If you are running inside of tmux you can tell it to send the keys.
For example
$ stty -echo; tmux send-keys test; stty echo
will put test
into your terminal input. (stty prevents the keys to be seen on the terminal)
Or if you are using vi mode:
stty -echo
tmux send-keys escape 0
stty echo
read -p "rename: " -e -i 'old name' new_name
This will put escape and 0 into the input buffer to place the following readline into command mode and move the cursor to 0.
Maybe you could use a here document to pass your input to abd
. E. g. like this (using bc
to do a simple calculation as example).
[axe@gromp ~]$ bc <<END
> 3 + 4
> END
7
The bc
session remains open afterwards, so what is provided between the start and end markers (between "<<END" and "END") will be passed to the command.
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