ssh follows the
rsh tradition by using the user's shell program from the password file to execute commands.
This means that we can solve this without involving
ssh configuration in any way.
If you don't want the user to be able to have shell access, then simply replace that user's shell with a script. If you look in
/etc/passwd you will see that there is a field which assigns a shell command interpreter to each user. The script is used as the shell both for their interactive login
ssh user@host as well as for commands
ssh user@host command arg ....
Here is an example. I created a user
foo whose shell is a script. The script prints the message
my arguments are: followed by its arguments (each on a separate line and in angle brackets) and terminates. In the log in case, there are no arguments. Here is what happens:
webserver:~# ssh foo@localhost
Linux webserver [ snip ]
[ snip ]
my arguments are:
Connection to localhost closed.
If the user tries to run a command, it looks like this:
webserver:~# ssh foo@localhost cat /etc/passwd
my arguments are:
Our "shell" receives a
-c style invocation, with the entire command as one argument, just the same way that
/bin/sh would receive it.
So as you can see, what we can do now is develop the script further so that it recognizes the case when it has been invoked with a
-c argument, and then parses the string (say by pattern matching). Those strings which are allowed can be passed to the real shell by recursively invoking
/bin/bash -c <string>. The reject case can print an error message and terminate (including the case when
-c is missing).
You have to be careful how you write this. I recommend writing only positive matches which allow only very specific things, and disallow everything else.
Note: if you are
root, you can still log into this account by overriding the shell in the
su command, like this
su -s /bin/bash foo. (Substitute shell of choice.) Non-root cannot do this.
Here is an example script: restrict the user into only using
git access to repositories under
if [ $# -ne 2 ] || [ "$1" != "-c" ] ; then
echo interactive login not permitted
case "$2" in
"git-upload-pack '/git/"* | "git-receive-pack '/git/"* )
;; # continue execution
echo that command is not allowed
/bin/bash -c "$2"
Of course, we are trusting that these Git programs
git-receive-pack don't have holes or escape hatches that will give users access to the system.
That is inherent in this kind of restriction scheme. The user is authenticated to execute code in a certain security domain, and we are kludging in a restriction to limit that domain to a subdomain. For instance if you allow a user to run the
vim command on a specific file to edit it, the user can just get a shell with