Monkeysphere Server Administrator README
Note: This documentation is for Monkeysphere version 0.28 or later. If you are running a version prior to 0.28, we recommend that you upgrade.
As the administrator of an SSH server, you can take advantage of the Monkeysphere in two ways:
you can publish the host key of your machine to the Web of Trust (WoT) so that your users can automatically verify it, and
you can set up your machine to automatically identify connecting users by their presence in the OpenPGP Web of Trust.
These two pieces are independent: you can do one without the other.
Monkeysphere for host verification (monkeysphere-host)
Server host key publication
To begin, you must first import an ssh host key. This assumes that you have the ssh server installed, and that you have generated a host RSA key. Once that has been done, import the key:
# monkeysphere-host import-key /etc/ssh/ssh_host_rsa_key ssh://server.example.net
This will generate an OpenPGP certificate for the server. The primary
user ID for this certificate will be the ssh service URI for the host,
ssh://server.example.net). Remember that the name you provide
here should probably be a fully qualified domain name for the host in
order for your users to find it.
Now you can display information about the host key's certificate with the 'show-key' command:
# monkeysphere-host show-key
Once the host key's certificate has been generated, you'll probably want to publish it to the public keyservers which distribute the Web of Trust:
# monkeysphere-host publish-key
But anyone could publish a simple self-signed certificate to the WoT with any name attached. Your users should be able to tell that someone they know and trust with the machine (e.g. you, the administrator) has verified that this particular key is indeed the correct key. So your next step is to sign the host's key with your own OpenPGP key.
On your (the admin's) local machine retrieve the host key (it may take several minutes for the key to propagate across the keyserver network), and sign it:
$ gpg --search '=ssh://server.example.net' $ gpg --sign-key '=ssh://server.example.net'
Make sure you compare the fingerprint of the retrieved certificate with the output from the 'show-key' command above!
Next, find out your key's Key ID, which is a hexadecimal string like "ABCDEF19"
$ gpg --list-keys '=ssh://server.example.net'
which will output something like:
pub 2048R/ABCDEF19 2009-05-07 uid [ full ] ssh://server.example.net
Finally, publish your signatures back to the keyservers, so that your users can automatically verify your machine when they connect:
$ gpg --send-key ABCDEF19
See Signing a service key using OpenPGP for background information about signing host keys.
Monkeysphere for user authentication (monkeysphere-authentication)
A host can maintain ssh-style
authorized_keys files automatically
for its users with the Monkeysphere. This frees you (the
administrator) from the task of manually checking/placing SSH keys,
and enables users to do relatively painless key transitions, and to
quickly and universally revoke access if they find that their ssh key
has become compromised.
You simply tell the system what person (identified by her OpenPGP
User ID) should have access to an account, the Monkeysphere takes care
of generating the proper
authorized_keys file and keeping it
sshd reads the generated
Monkeysphere authorized_keys maintenance
For each user account on the server, the userids of people authorized to log into that account would be placed, one per line, in:
For example, this file could contain:
Joe User <email@example.com> Joe User at Work <firstname.lastname@example.org>
Provided that those exact strings are among the uids for which the user's gpg key is valid.
The server will use the Monkeysphere to look up matching OpenPGP
certificates, validate them, and generate an
To validate the OpenPGP certificates, the server needs to know who it can trust to correctly identify users. The individuals trusted to identify users like this are known in the Monkeysphere as "Identity Certifiers". One obvious choice is to trust you, the administrator, to be an Identity Certifier.
You will need to know your full 40 hex character gpg fingerprint. This can be learned by doing:
gpg --with-colons --fingerprint email@example.com
Replacing "firstname.lastname@example.org" with either your gpg key id, or your gpg uid. The output of this command is very long and difficult to read. Look for a line like:
The portion between the ":::::::::" and ":" is your 40 digit fingerprint.
With your OpenPGP 40-digit hex fingerprint replacing
run the following command on the server:
# monkeysphere-authentication add-identity-certifier $GPGFPR
You'll probably only set up Identity Certifiers when you set up the machine. After that, you'll only need to add or remove Identity Certifiers when the roster of admins on the machine changes, or when one of the admins switches OpenPGP keys.
Now that the server knows who to trust to identify users, the
Monkeysphere can generate ssh-style
authorized_keys quickly and
To update the Monkeysphere-generated
authorized_keys file for user
# monkeysphere-authentication update-users bob
To update the monkeysphere
authorized_keys file for all users on the
the system, run the same command with no arguments:
# monkeysphere-authentication update-users
You probably want to set up a regularly scheduled job (e.g. with cron) to do this automatically.
Update OpenSSH server AuthorizedKeysFile configuration
authorized_keys files is not quite enough, because
sshd needs to know where to find the generated keys.
With OpenSSH 5.9 or later, you can do this by adding an extra path to the
AuthorizedKeysFile directive in
AuthorizedKeysFile %h/.ssh/authorized_keys /var/lib/monkeysphere/authorized_keys/%u
Warning: When using the above configuration it is recommended to
MONKEYSPHERE_RAW_AUTHORIZED_KEYS environment variable
from its default value to
none (or put
/etc/monkeysphere/monkeysphere-authentication.conf), as this will
avoid unnecessary duplication of SSH keys.
Older version of OpenSSH (5.8 and earlier) do not support specifying multiple
AuthorizedKeysFile, so you need to comment out the existing one and
add the following line.
Warning: Be aware that with this change in configuration, only those users whose authorized keys files appear under the above path will be able to log in via ssh. This includes the root user if root has ssh access. Remember to run 'monkeysphere-authentication update-users' if you are unsure whether any users' authorized_keys files have been updated.
You'll need to restart
sshd to have your changes take effect. As
with any change to
sshd_config, if you're doing this remotely, be
sure to retain an existing session to the machine while you test your
changes so you don't get locked out if something went wrong.