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.. _prefix-origin-validation-using-rpki:

Prefix Origin Validation Using RPKI
===================================

Prefix Origin Validation allows BGP routers to verify if the origin AS of an IP
prefix is legitimate to announce this IP prefix. The required attestation
objects are stored in the Resource Public Key Infrastructure (:abbr:`RPKI`).
However, RPKI-enabled routers do not store cryptographic data itself but only
validation information. The validation of the cryptographic data (so called
Route Origin Authorization, or short :abbr:`ROA`, objects) will be performed by
trusted cache servers. The RPKI/RTR protocol defines a standard mechanism to
maintain the exchange of the prefix/origin AS mapping between the cache server
and routers. In combination with a  BGP Prefix Origin Validation scheme a
router is able to verify received BGP updates without suffering from
cryptographic complexity.

The RPKI/RTR protocol is defined in :rfc:`6810` and the validation scheme in
:rfc:`6811`. The current version of Prefix Origin Validation in FRR implements
both RFCs.

For a more detailed but still easy-to-read background, we suggest:

- [Securing-BGP]_
- [Resource-Certification]_

.. _features-of-the-current-implementation:

Features of the Current Implementation
--------------------------------------

In a nutshell, the current implementation provides the following features

- The BGP router can connect to one or more RPKI cache servers to receive
  validated prefix to origin AS mappings. Advanced failover can be implemented
  by server sockets with different preference values.
- If no connection to an RPKI cache server can be established after a
  pre-defined timeout, the router will process routes without prefix origin
  validation. It still will try to establish a connection to an RPKI cache
  server in the background.
- By default, enabling RPKI does not change best path selection. In particular,
  invalid prefixes will still be considered during best path selection.
  However, the router can be configured to ignore all invalid prefixes.
- Route maps can be configured to match a specific RPKI validation state. This
  allows the creation of local policies, which handle BGP routes based on the
  outcome of the Prefix Origin Validation.
- Updates from the RPKI cache servers are directly applied and path selection
  is updated accordingly. (Soft reconfiguration **must** be enabled for this
  to work).


.. _enabling-rpki:

Enabling RPKI
-------------

You must install ``frr-rpki-rtrlib`` additional package for RPKI support,
otherwise ``bgpd`` daemon won't startup.

.. clicmd:: rpki

   This command enables the RPKI configuration mode. Most commands that start
   with *rpki* can only be used in this mode.

   This command is available either in *configure node* for default *vrf* or
   in *vrf node* for specific *vrf*. When it is used in a telnet session,
   leaving of this mode cause rpki to be initialized.

   Executing this command alone does not activate prefix validation. You need
   to configure at least one reachable cache server. See section
   :ref:`configuring-rpki-rtr-cache-servers` for configuring a cache server.

Remember to add ``-M rpki`` to the variable ``bgpd_options`` in
:file:`/etc/frr/daemons` , like so::

   bgpd_options="   -A 127.0.0.1 -M rpki"

instead of the default setting::

   bgpd_options="   -A 127.0.0.1"

Otherwise you will encounter an error when trying to enter RPKI
configuration mode due to the ``rpki`` module not being loaded when the BGP
daemon is initialized.

Examples of the error::

   router(config)# debug rpki
   % [BGP] Unknown command: debug rpki

   router(config)# rpki
   % [BGP] Unknown command: rpki

   router(config-vrf)# rpki
   % [BGP] Unknown command: rpki

Note that the RPKI commands will be available in vtysh when running
``find rpki`` regardless of whether the module is loaded.

.. _configuring-rpki-rtr-cache-servers:

Configuring RPKI/RTR Cache Servers
----------------------------------

RPKI/RTR can be configured independently, either in configure node, or in *vrf*
sub context. If configured in configure node, the core *bgp* instance of default
*vrf* is impacted by the configuration.

Each RPKI/RTR context is mapped to a *vrf* and can be made up of a specific list
of cache-servers, and specific settings.

The following commands are available for independent of a specific cache server.

.. clicmd:: rpki polling_period (1-3600)

   Set the number of seconds the router waits until the router asks the cache
   again for updated data.

   The default value is 300 seconds.

.. clicmd:: rpki expire_interval (600-172800)

   Set the number of seconds the router waits until the router expires the cache.

   The default value is 7200 seconds.

.. clicmd:: rpki retry_interval (1-7200)

   Set the number of seconds the router waits until retrying to connect to the
   cache server.

   The default value is 600 seconds.

.. clicmd:: rpki cache (A.B.C.D|WORD) PORT [SSH_USERNAME] [SSH_PRIVKEY_PATH] [KNOWN_HOSTS_PATH] [source A.B.C.D] preference (1-255)


   Add a cache server to the socket. By default, the connection between router
   and cache server is based on plain TCP. Protecting the connection between
   router and cache server by SSH is optional. Deleting a socket removes the
   associated cache server and terminates the existing connection.

   A.B.C.D|WORD
      Address of the cache server.

   PORT
      Port number to connect to the cache server

   SSH_USERNAME
      SSH username to establish an SSH connection to the cache server.

   SSH_PRIVKEY_PATH
      Local path that includes the private key file of the router.

   KNOWN_HOSTS_PATH
      Local path that includes the known hosts file. The default value depends
      on the configuration of the operating system environment, usually
      :file:`~/.ssh/known_hosts`.

   source A.B.C.D
      Source address of the RPKI connection to access cache server.


.. _validating-bgp-updates:

Validating BGP Updates
----------------------

.. clicmd:: match rpki notfound|invalid|valid


    Create a clause for a route map to match prefixes with the specified RPKI
    state.

    In the following example, the router prefers valid routes over invalid
    prefixes because invalid routes have a lower local preference.

    .. code-block:: frr

       ! Allow for invalid routes in route selection process
       route bgp 65001
       !
       ! Set local preference of invalid prefixes to 10
       route-map rpki permit 10
        match rpki invalid
        set local-preference 10
       !
       ! Set local preference of valid prefixes to 500
       route-map rpki permit 500
        match rpki valid
        set local-preference 500

.. clicmd:: match rpki-extcommunity notfound|invalid|valid

   Create a clause for a route map to match prefixes with the specified RPKI
   state, that is derived from the Origin Validation State extended community
   attribute (OVS). OVS extended community is non-transitive and is exchanged
   only between iBGP peers.

.. _debugging:

Debugging
---------

.. clicmd:: debug rpki


   Enable or disable debugging output for RPKI.

.. _displaying-rpki:

Displaying RPKI
---------------

.. clicmd:: show rpki configuration [vrf NAME] [json]

   Display RPKI configuration state including timers values.

.. clicmd:: show rpki prefix <A.B.C.D/M|X:X::X:X/M> [(1-4294967295)] [vrf NAME] [json]

   Display validated prefixes received from the cache servers filtered
   by the specified prefix.

.. clicmd:: show rpki as-number ASN [vrf NAME] [json]

   Display validated prefixes received from the cache servers filtered
   by ASN.

.. clicmd:: show rpki prefix-table [vrf NAME] [json]

   Display all validated prefix to origin AS mappings/records which have been
   received from the cache servers and stored in the router. Based on this data,
   the router validates BGP Updates.

.. clicmd:: show rpki cache-server [vrf NAME] [json]

   Display all configured cache servers, whether active or not.

.. clicmd:: show rpki cache-connection [vrf NAME] [json]

   Display all cache connections, and show which is connected or not.

.. clicmd:: show bgp [vrf NAME] [afi] [safi] <A.B.C.D|A.B.C.D/M|X:X::X:X|X:X::X:X/M> rpki <valid|invalid|notfound>

   Display for the specified prefix or address the bgp paths that match the given rpki state.

.. clicmd:: show bgp [vrf NAME] [afi] [safi] rpki <valid|invalid|notfound>

   Display all prefixes that match the given rpki state.

RPKI Configuration Example
--------------------------

.. code-block:: frr

   hostname bgpd1
   password zebra
   ! log stdout
   debug bgp updates
   debug bgp keepalives
   debug rpki
   !
   vrf VRF1
    rpki
     rpki polling_period 1000
     rpki timeout 10
      ! SSH Example:
      rpki cache example.com 22 rtr-ssh ./ssh_key/id_rsa preference 1
      ! TCP Example:
      rpki cache rpki-validator.realmv6.org 8282 preference 2
      exit
    !
    exit-vrf
   !
   rpki
    rpki polling_period 1000
    rpki timeout 10
     ! SSH Example:
     rpki cache example.com source 198.51.100.223 22 rtr-ssh ./ssh_key/id_rsa preference 1
     ! TCP Example:
     rpki cache rpki-validator.realmv6.org 8282 preference 2
     exit
   !
   router bgp 65001
    bgp router-id 198.51.100.223
    neighbor 203.0.113.1 remote-as 65002
    neighbor 203.0.113.1 update-source 198.51.100.223
    address-family ipv4
     network 192.0.2.0/24
     neighbor 203.0.113.1 route-map rpki in
    exit-address-family
   !
    address-family ipv6
     neighbor 203.0.113.1 activate
     neighbor 203.0.113.1 route-map rpki in
    exit-address-family
   !
   router bgp 65001 vrf VRF1
    bgp router-id 198.51.100.223
    neighbor 203.0.113.1 remote-as 65002
    address-family ipv4
     network 192.0.2.0/24
     neighbor 203.0.113.1 route-map rpki in
    exit-address-family
   !
    address-family ipv6
     neighbor 203.0.113.1 activate
     neighbor 203.0.113.1 route-map rpki in
    exit-address-family
   !
   route-map rpki permit 10
    match rpki invalid
    set local-preference 10
   !
   route-map rpki permit 20
    match rpki notfound
    set local-preference 20
   !
   route-map rpki permit 30
    match rpki valid
    set local-preference 30
   !
   route-map rpki permit 40
   !

.. [Securing-BGP] Geoff Huston, Randy Bush: Securing BGP, In: The Internet Protocol Journal, Volume 14, No. 2, 2011. <https://www.cisco.com/c/dam/en_us/about/ac123/ac147/archived_issues/ipj_14-2/ipj_14-2.pdf>
.. [Resource-Certification] Geoff Huston: Resource Certification, In: The Internet Protocol Journal, Volume 12, No.1, 2009. <https://www.cisco.com/c/dam/en_us/about/ac123/ac147/archived_issues/ipj_12-1/ipj_12-1.pdf>