.. -*- mode: rst -*- .. _server-plugins-generators-sslca: ===== SSLCA ===== SSLCA is a generator plugin designed to handle creation of SSL private keys and certificates on request. Borrowing ideas from :ref:`server-plugins-generators-cfg-genshi` and the :ref:`server-plugins-generators-sshbase` plugin, SSLCA automates the generation of SSL certificates by allowing you to specify key and certificate definitions. Then, when a client requests a Path that contains such a definition within the SSLCA repository, the matching key/cert is generated, and stored in a hostfile in the repo so that subsequent requests do not result in repeated key/cert recreation. In the event that a new key or cert is needed, the offending hostfile can simply be removed from the repository, and the next time that host checks in, a new file will be created. If that file happens to be the key, any dependent certificates will also be regenerated. .. _getting-started: Getting started =============== In order to use SSLCA, you must first have at least one CA configured on your system. For details on setting up your own OpenSSL based CA, please see http://www.openssl.org/docs/apps/ca.html for details of the suggested directory layout and configuration directives. For SSLCA to work, the openssl.cnf (or other configuration file) for that CA must contain full (not relative) paths. #. Add SSLCA to the **plugins** line in ``/etc/bcfg2.conf`` and restart the server -- This enables the SSLCA plugin on the Bcfg2 server. #. Add a section to your ``/etc/bcfg2.conf`` called ``sslca_foo``, replacing foo with the name you wish to give your CA so you can reference it in certificate definitions. #. Under that section, add an entry for ``config`` that gives the location of the openssl configuration file for your CA. #. If necessary, add an entry for ``passphrase`` containing the passphrase for the CA's private key. We store this in ``/etc/bcfg2.conf`` as the permissions on that file should have it only readable by the bcfg2 user. If no passphrase entry exists, it is assumed that the private key is stored unencrypted. #. Optionally, Add an entry ``chaincert`` that points to the location of your ssl chaining certificate. This is used when preexisting certificate hostfiles are found, so that they can be validated and only regenerated if they no longer meet the specification. If you're using a self signing CA this would be the CA cert that you generated. If the chain cert is a root CA cert (e.g., if it is a self-signing CA), also add an entry ``root_ca = true``. If ``chaincert`` is omitted, certificate verification will not be performed. #. Once all this is done, you should have a section in your ``/etc/bcfg2.conf`` that looks similar to the following:: [sslca_default] config = /etc/pki/CA/openssl.cnf passphrase = youReallyThinkIdShareThis? chaincert = /etc/pki/CA/chaincert.crt root_ca = true #. You are now ready to create key and certificate definitions. For this example we'll assume you've added Path entries for the key, ``/etc/pki/tls/private/localhost.key``, and the certificate, ``/etc/pki/tls/certs/localhost.crt`` to a bundle or base. #. Defining a key or certificate is similar to defining a Cfg file. Under your Bcfg2's ``SSLCA/`` directory, create the directory structure to match the path to your key. In this case this would be something like ``/var/lib/bcfg2/SSLCA/etc/pki/tls/private/localhost.key``. #. Within that directory, create a `key.xml`_ file containing the following: .. code-block:: xml #. This will cause the generation of an 2048 bit RSA key when a client requests that Path. Alternatively you can specify ``dsa`` as the keytype, or a different number of bits. #. Similarly, create the matching directory structure for the certificate path, and a `cert.xml`_ containing the following: .. code-block:: xml #. When a client requests the cert path, a certificate will be generated using the key hostfile at the specified key location, using the CA matching the ca attribute. ie. ca="default" will match [sslca_default] in your ``/etc/bcfg2.conf`` .. _sslca-configuration: Configuration ============= bcfg2.conf ---------- ``bcfg2.conf`` contains miscellaneous configuration options for the SSLCA plugin. These are described in some detail above in `getting-started`_, but are also enumerated here as a reference. Any booleans in the config file accept the values "1", "yes", "true", and "on" for True, and "0", "no", "false", and "off" for False. Each directive below should appear at most once in each ``[sslca_]`` section. The following directives are understood: +--------------+------------------------------------------+---------+---------+ | Name | Description | Values | Default | +==============+==========================================+=========+=========+ | config | Path to the openssl config for the CA | String | None | +--------------+------------------------------------------+---------+---------+ | passphrase | Passphrase for the CA private key | String | None | +--------------+------------------------------------------+---------+---------+ | chaincert | Path to the SSL chaining certificate for | String | None | | | verification | | | +--------------+------------------------------------------+---------+---------+ | root_ca | Whether or not ```` is a root | Boolean | false | | | CA (as opposed to an intermediate cert) | | | +--------------+------------------------------------------+---------+---------+ Only ``config`` is required. cert.xml -------- .. xml:schema:: sslca-cert.xsd :linktotype: :inlinetypes: CertType Example ^^^^^^^ .. code-block:: xml test.example.com key.xml ------- .. xml:schema:: sslca-key.xsd :linktotype: :inlinetypes: KeyType Example ^^^^^^^ .. code-block:: xml Automated Bcfg2 SSL Authentication ================================== This section describes one possible scenario for automating ssl certificate generation and distribution for bcfg2 client/server communication using SSLCA. The process involves configuring a certificate authority (CA), generating the CA cert and key pair, configuring the bcfg2 SSLCA plugin and a Bundle to use the SSLCA generated certs to authenticate the bcfg2 client and server. OpenSSL CA ---------- If you already have a SSL CA available you can skip this section, otherwise you can easily build one on the server using openssl. The paths should be adjusted to suite your preferences. #. Prepare the directories and files:: mkdir -p /etc/pki/CA/newcerts mkdir /etc/pki/CA/crl echo '01' > /etc/pki/CA/serial touch /etc/pki/CA/index.txt touch /etc/pki/CA/crlnumber #. Edit the ``openssl.cnf`` config file, and in the **[ CA_default ]** section adjust the following parameters:: dir = /etc/pki # Where everything is kept certs = /etc/pki/CA/certs # Where the issued certs are kept database = /etc/pki/CA/index.txt # database index file. new_certs_dir = /etc/pki/CA/newcerts # default place for new certs. certificate = /etc/pki/CA/certs/bcfg2ca.crt # The CA certificate serial = /etc/pki/CA/serial # The current serial number crl_dir = /etc/pki/CA/crl # Where the issued crl are kept crlnumber = /etc/pki/CA/crlnumber # the current crl number crl = /etc/pki/CA/crl.pem # The current CRL private_key = /etc/pki/CA/private/bcfg2ca.key # The private key #. Create the CA root certificate and key pair. You'll be asked to supply a passphrase, and some organizational info. The most important bit is **Common Name** which you should set to be the hostname of your bcfg2 server that your clients will see when doing a reverse DNS query on it's ip address.:: openssl req -new -x509 -extensions v3_ca -keyout bcfg2ca.key \ -out bcfg2ca.crt -days 3650 #. Move the generated cert and key to the locations specified in ``openssl.cnf``:: mv bcfg2ca.key /etc/pki/CA/private/ mv bcfg2ca.crt /etc/pki/CA/certs/ Your self-signing CA is now ready to use. Bcfg2 ----- SSLCA ^^^^^ The SSLCA plugin was not designed specifically to manage bcfg2 client/server communication though it is certainly able to provide certificate generation and management services for that purpose. You'll need to configure the **SSLCA** plugin to serve the key, and certificate paths that we will define later in our client's ``bcfg2.conf`` file. The rest of these instructions will assume that you've configured the **SSLCA** plugin as described above and that the files ``SSLCA/etc/pki/tls/certs/bcfg2client.crt/cert.xml`` and ``SSLCA/etc/pki/tls/private/bcfg2client.key/key.xml`` represent the cert and key paths you want generated for SSL auth. Client Bundle ^^^^^^^^^^^^^ To automate the process of generating and distributing certs to the clients we need define at least the Cert and Key paths served by the SSLCA plugin, as well as the ca certificate path in a Bundle. For example: .. code-block:: xml Here's a more complete example bcfg2-client bundle: .. code-block:: xml In the above example we told Bcfg2 that it also needs to serve ``/etc/bcfg2.conf``. This is optional but convenient. The ``bcfg2.conf`` client config needs at least 5 parameters set for SSL auth. #. ``key`` : This is the host specific key that SSLCA will generate. #. ``certificate`` : This is the host specific cert that SSLCA will generate. #. ``ca`` : This is a copy of your CA certificate. Not generated by SSLCA. #. ``user`` : Usually set to fqdn of client. This *shouldn't* be required but is as of 1.3.0. See: http://trac.mcs.anl.gov/projects/bcfg2/ticket/1019 #. ``password`` : Set to arbitrary string when using certificate auth. This also *shouldn't* be required. See: http://trac.mcs.anl.gov/projects/bcfg2/ticket/1019 Here's what a functional **[communication]** section in a ``bcfg2.conf`` genshi template for clients might look like.:: [communication] protocol = xmlrpc/ssl {% if metadata.uuid != None %}\ user = ${metadata.uuid} {% end %}\ password = DUMMYPASSWORDFORCERTAUTH {% choose %}\ {% when 'rpm' in metadata.groups %}\ certificate = /etc/pki/tls/certs/bcfg2client.crt key = /etc/pki/tls/private/bcfg2client.key ca = /etc/pki/tls/certs/bcfg2ca.crt {% end %}\ {% when 'deb' in metadata.groups %}\ certificate = /etc/ssl/certs/bcfg2client.crt key = /etc/ssl/private/bcfg2client.key ca = /etc/ssl/certs/bcfg2ca.crt {% end %}\ {% end %}\ As a client will not be able to authenticate with certificates it does not yet possess we need to overcome the chicken and egg scenario the first time we try to connect such a client to the server. We can do so using password based auth to boot strap the client manually specifying all the relevant auth parameters like so:: bcfg2 -qv -S https://fqdn.of.bcfg2-server:6789 -u fqdn.of.client \ -x SUPER_SECRET_PASSWORD If all goes well the client should recieve a freshly generated key and cert and you should be able to run ``bcfg2`` again without specifying the connection parameters. If you do run into problems you may want to review :ref:`appendix-guides-authentication`. TODO ==== #. Add generation of pkcs12 format certs