Provided by: openssh-client_9.7p1-7ubuntu4_amd64 bug

NAME

     ssh-copy-id — use locally available keys to authorise logins on a remote machine

SYNOPSIS

     ssh-copy-id [-f] [-n] [-s] [-x] [-i [identity_file]] [-p port] [-o ssh_option]
                 [-t target_path] [user@]hostname
     ssh-copy-id -h | -?

DESCRIPTION

     ssh-copy-id is a script that uses ssh(1) to log into a remote machine (presumably using a
     login password, so password authentication should be enabled, unless you've done some clever
     use of multiple identities).  It assembles a list of one or more fingerprints (as described
     below) and tries to log in with each key, to see if any of them are already installed (of
     course, if you are not using ssh-agent(1) this may result in you being repeatedly prompted
     for pass-phrases).  It then assembles a list of those that failed to log in and, using
     ssh(1), enables logins with those keys on the remote server.  By default it adds the keys by
     appending them to the remote user's ~/.ssh/authorized_keys (creating the file, and
     directory, if necessary).  It is also capable of detecting if the remote system is a
     NetScreen, and using its ‘set ssh pka-dsa key ...’ command instead.

     The options are as follows:

     -i identity_file
             Use only the key(s) contained in identity_file (rather than looking for identities
             via ssh-add(1) or in the default_ID_file).  If the filename does not end in .pub
             this is added.  If the filename is omitted, the default_ID_file is used.

             Note that this can be used to ensure that the keys copied have the comment one
             prefers and/or extra options applied, by ensuring that the key file has these set as
             preferred before the copy is attempted.

     -f      Forced mode: doesn't check if the keys are present on the remote server.  This means
             that it does not need the private key.  Of course, this can result in more than one
             copy of the key being installed on the remote system.

     -n      do a dry-run.  Instead of installing keys on the remote system simply prints the
             key(s) that would have been installed.

     -s      SFTP mode: usually the public keys are installed by executing commands on the remote
             side.  With this option the user's ~/.ssh/authorized_keys file will be downloaded,
             modified locally and uploaded with sftp.  This option is useful if the server has
             restrictions on commands which can be used on the remote side.

     -t target_path
             the path on the target system where the keys should be added (defaults to
             ".ssh/authorized_keys")

     -p port, -o ssh_option
             These two options are simply passed through untouched, along with their argument, to
             allow one to set the port or other ssh(1) options, respectively.

             Rather than specifying these as command line options, it is often better to use
             (per-host) settings in ssh(1)'s configuration file: ssh_config(5).

     -x      This option is for debugging the ssh-copy-id script itself.  It sets the shell's -x
             flag, so that you can see the commands being run.

     -h, -?  Print Usage summary

     Default behaviour without -i, is to check if ‘ssh-add -L’ provides any output, and if so
     those keys are used.  Note that this results in the comment on the key being the filename
     that was given to ssh-add(1) when the key was loaded into your ssh-agent(1) rather than the
     comment contained in that file, which is a bit of a shame.  Otherwise, if ssh-add(1)
     provides no keys contents of the default_ID_file will be used.

     The default_ID_file is the most recent file that matches: ~/.ssh/id*.pub, (excluding those
     that match ~/.ssh/*-cert.pub) so if you create a key that is not the one you want
     ssh-copy-id to use, just use touch(1) on your preferred key's .pub file to reinstate it as
     the most recent.

EXAMPLES

     If you have already installed keys from one system on a lot of remote hosts, and you then
     create a new key, on a new client machine, say, it can be difficult to keep track of which
     systems on which you've installed the new key.  One way of dealing with this is to load both
     the new key and old key(s) into your ssh-agent(1).  Load the new key first, without the -c
     option, then load one or more old keys into the agent, possibly by ssh-ing to the client
     machine that has that old key, using the -A option to allow agent forwarding:

           user@newclient$ ssh-add
           user@newclient$ ssh -A old.client
           user@oldl$ ssh-add -c
           ... prompt for pass-phrase ...
           user@old$ logoff
           user@newclient$ ssh someserver

     now, if the new key is installed on the server, you'll be allowed in unprompted, whereas if
     you only have the old key(s) enabled, you'll be asked for confirmation, which is your cue to
     log back out and run

           user@newclient$ ssh-copy-id -i someserver

     The reason you might want to specify the -i option in this case is to ensure that the
     comment on the installed key is the one from the .pub file, rather than just the filename
     that was loaded into your agent.  It also ensures that only the id you intended is
     installed, rather than all the keys that you have in your ssh-agent(1).  Of course, you can
     specify another id, or use the contents of the ssh-agent(1) as you prefer.

     Having mentioned ssh-add(1)'s -c option, you might consider using this whenever using agent
     forwarding to avoid your key being hijacked, but it is much better to instead use ssh(1)'s
     ProxyCommand and -W option, to bounce through remote servers while always doing direct end-
     to-end authentication.  This way the middle hop(s) don't get access to your ssh-agent(1).  A
     web search for ‘ssh proxycommand nc’ should prove enlightening (NB the modern approach is to
     use the -W option, rather than nc(1)).

SEE ALSO

     ssh(1), ssh-agent(1), sshd(8)