X-Git-Url: https://codewiz.org/gitweb?a=blobdiff_plain;f=website%2Fgetting-started-admin.mdwn;h=aad4251740090a5fc025ef15fadb7bf79d2dcabe;hb=b959e0f646558328567c91b77d1ecee2c674099e;hp=9010132db7412b7f054ab2050a97aaccf66ec62c;hpb=e2614bf8edffed6f83a646db9514ebb00cfe4faf;p=monkeysphere.git diff --git a/website/getting-started-admin.mdwn b/website/getting-started-admin.mdwn index 9010132..aad4251 100644 --- a/website/getting-started-admin.mdwn +++ b/website/getting-started-admin.mdwn @@ -1,22 +1,19 @@ Monkeysphere Server Administrator README ======================================== + Note: This documentation is for Monkeysphere version 0.23 or later. + If you are running a version prior to 0.23, we recommend that you upgrade. + As the administrator of an SSH server, you can take advantage of the -monkeysphere in two ways: +Monkeysphere in two ways: 1. you can publish the host key of your machine to the Web of Trust -(WoT) so that your users can have it automatically verified, and +(WoT) so that your users can automatically verify it, and 2. you can set up your machine to automatically identify connecting users by their presence in the OpenPGP Web of Trust. -These things are not mutually required, and it is in fact possible to -do one without the other. However, it is highly recommend that you at -least do the first. Even if you decide that you do not want to use -the monkeysphere to authenticate users to your system, you should at -least the host key into the Web of Trust so that your users can be -sure they're connecting to the correct machine. - +These two pieces are independent: you can do one without the other. Monkeysphere for host verification (monkeysphere-host) ====================================================== @@ -28,35 +25,55 @@ 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 /etc/ssh/ssh\_host\_rsa\_key + # monkeysphere-host import-key /etc/ssh/ssh_host_rsa_key server.example.net -This will generate the key for server with the service URI -(`ssh://server.example.net`). You can output the new key information -with the 'show-key' command: +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, +(eg. `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 key has been imported, it needs to be publish to the Web of -Trust: +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 -The server admin should now sign the server key so that people in the -admin's web of trust can identify the server without manual host key -checking. On your (the admin's) local machine retrieve the host 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' -Now sign the server key: +Make sure you compare the fingerprint of the retrieved certificate +with the output from the 'show-key' command above! - $ gpg --sign-key '=ssh://server.example.net' +Next, find out your key's Key ID, which is a hexadecimal string like "ABCDEF19" + + $ gpg --list-keys '=ssh://server.example.net' -Make sure you compare the fingerprint of the retrieved with the one -output with the 'show-key' command above, to verify you are signing -the correct key. Finally, publish your signatures back to the -keyservers: +which will output something like: - $ gpg --send-key '=ssh://server.example.net' + 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 http://web.monkeysphere.info/signing-host-keys/ for more info signing host keys. @@ -64,33 +81,71 @@ signing host keys. Monkeysphere for user authentication (monkeysphere-authentication) ================================================================== -A host can maintain ssh `authorized_keys` files automatically for its -users with the Monkeysphere. These `authorized_keys` files can then -be used to enable users to use the monkeysphere to authenticate to -your machine using the OpenPGP web of trust. +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 +up-to-date, and `sshd` reads the generated `authorized_keys` files +directly. Monkeysphere authorized_keys maintenance ---------------------------------------- For each user account on the server, the userids of people authorized -to log into that account would be placed in: +to log into that account would be placed, one per line, in: ~/.monkeysphere/authorized_user_ids -However, in order for users to become authenticated, the server must -determine that the user IDs on their keys have "full" validity. This -means that the server must fully trust at least one person whose -signature on the connecting user's key would validate the relevant -user ID. The individuals trusted to identify users like this are -known in the Monkeysphere as "Identity Certifiers". In a simple -scenario, the host's administrator would be a trusted identity -certifer. If the admin's OpenPGP keyid is `$GPGID`, then on the -server run: +For example, this file could contain: + + Joe User + Joe User at Work + +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 `authorized_keys` file. - # monkeysphere-authentication add-identity-certifier $GPGID +To validate the OpenPGP certificates, the server needs to know who it +can trust to correctly identify users. The individuals trusted to +identify users like this are known in the Monkeysphere as "Identity +Certifiers". One obvious choice is to trust *you*, the administrator, +to be an Identity Certifier. -To update the monkeysphere `authorized_keys` file for user "bob" using -the current set of identity certifiers, run: +You will need to know your full 40 hex character gpg fingerprint. This can be learned by doing: + + gpg --with-colons --fingerprint user@example.org + +Replacing "user@example.org" with either your gpg key id, or your gpg uid. +The output of this command is very long and difficult to read. Look for a line like: + + fpr:::::::::D8E6414012D371BFC5AB8E2540D6B49E0E708ADF: + +The portion between the ":::::::::" and ":" is your 40 digit fingerprint. + +With your OpenPGP 40-digit hex fingerprint replacing `$GPGFPR`, then +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 +easily: + +To update the Monkeysphere-generated `authorized_keys` file for user +"bob", run: # monkeysphere-authentication update-users bob @@ -100,19 +155,28 @@ 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 take care of this automatically. +to do this automatically. Update OpenSSH server AuthorizedKeysFile configuration ------------------------------------------------------ -SSH must be configured to point to the monkeysphere generated -`authorized_keys` file. Add this line to `/etc/ssh/sshd_config` -(again, making sure that no other AuthorizedKeysFile directive is left -uncommented): +Generating the `authorized_keys` files is not quite enough, because +`sshd` needs to know where to find the generated keys. + + +You can do this by adding the following line to +`/etc/ssh/sshd_config`, commenting out any other `AuthorizedKeysFile` +directives. AuthorizedKeysFile /var/lib/monkeysphere/authorized_keys/%u +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`, be sure to retain an existing -session to the machine while you test your changes so you don't get -locked out. +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.