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authorNathan Skrzypczak <nathan.skrzypczak@gmail.com>2021-10-08 14:05:35 +0200
committerDave Wallace <dwallacelf@gmail.com>2021-10-13 23:22:20 +0000
commitf47122e07e1ecd0151902a3cabe46c60a99bee8e (patch)
tree0c28c0eca2cb17050d6f31fd8f0ca8f78299bf0d /src/plugins/srv6-am/am_plugin_doc.rst
parent1e4281223ab4d655b54496ae13fbdb68f867e351 (diff)
docs: convert plugins doc md->rst
Type: improvement Change-Id: I7e821cce1feae229e1be4baeed249b9cca658135 Signed-off-by: Nathan Skrzypczak <nathan.skrzypczak@gmail.com>
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+.. _srv6_am_plugin_doc:
+
+SRv6 masquerading
+=================
+
+SRv6 endpoint to SR-unaware appliance via masquerading (End.AM)
+---------------------------------------------------------------
+
+The masquerading proxy is an SR endpoint behavior for processing SRv6
+traffic on behalf of an SR-unaware SF. This proxy thus receives SR
+traffic that is formed of an IPv6 header and an SRH on top of an inner
+payload. The masquerading behavior is independent from the inner payload
+type. Hence, the inner payload can be of any type but it is usually
+expected to be a transport layer packet, such as TCP or UDP.
+
+A masquerading SR proxy segment is associated with the following
+mandatory parameters:
+
+- S-ADDR: Ethernet or IPv6 address of the SF
+- IFACE-OUT: Local interface for sending traffic towards the SF
+- IFACE-IN: Local interface receiving the traffic coming back from the
+ SF
+
+A masquerading SR proxy segment is thus defined for a specific SF and
+bound to a pair of directed interfaces or sub-interfaces on the proxy.
+As opposed to the static and dynamic SR proxies, a masquerading segment
+can be present at the same time in any number of SR SC policies and the
+same interfaces can be bound to multiple masquerading proxy segments.
+The only restriction is that a masquerading proxy segment cannot be the
+last segment in an SR SC policy.
+
+The first part of the masquerading behavior is triggered when the proxy
+node receives an IPv6 packet whose Destination Address matches a
+masquerading proxy segment. The proxy inspects the IPv6 extension
+headers and substitutes the Destination Address with the last segment in
+the SRH attached to the IPv6 header, which represents the final
+destination of the IPv6 packet. The packet is then sent out towards the
+SF.
+
+The SF receives an IPv6 packet whose source and destination addresses
+are respectively the original source and final destination. It does not
+attempt to inspect the SRH, as RFC8200 specifies that routing extension
+headers are not examined or processed by transit nodes. Instead, the SF
+simply forwards the packet based on its current Destination Address. In
+this scenario, we assume that the SF can only inspect, drop or perform
+limited changes to the packets. For example, Intrusion Detection
+Systems, Deep Packet Inspectors and non-NAT Firewalls are among the SFs
+that can be supported by a masquerading SR proxy.
+
+The second part of the masquerading behavior, also called de-
+masquerading, is an inbound policy attached to the proxy interface
+receiving the traffic returning from the SF, IFACE-IN. This policy
+inspects the incoming traffic and triggers a regular SRv6 endpoint
+processing (End) on any IPv6 packet that contains an SRH. This
+processing occurs before any lookup on the packet Destination Address is
+performed and it is sufficient to restore the right active segment as
+the Destination Address of the IPv6 packet.
+
+For more information, please see
+`draft-xuclad-spring-sr-service-chaining <https://datatracker.ietf.org/doc/draft-xuclad-spring-sr-service-chaining/>`__.
+
+CLI configuration
+~~~~~~~~~~~~~~~~~
+
+The following command instantiates a new End.AM segment that sends
+masqueraded traffic on interface ``IFACE-OUT`` towards an appliance at
+address ``S-ADDR`` and restores the active segment in the IPv6 header of
+the packets coming back on interface ``IFACE-IN``.
+
+::
+
+ sr localsid address SID behavior end.am nh S-ADDR oif IFACE-OUT iif IFACE-IN
+
+For example, the below command configures the SID ``1::A1`` with an
+End.AM function for sending traffic on interface
+``GigabitEthernet0/8/0`` to the appliance at address ``A1::``, and
+receiving it back on interface ``GigabitEthernet0/9/0``.
+
+::
+
+ sr localsid address 1::A1 behavior end.am nh A1:: oif GigabitEthernet0/8/0 iif GigabitEthernet0/9/0
+
+Pseudocode
+~~~~~~~~~~
+
+Masquerading
+^^^^^^^^^^^^
+
+Upon receiving a packet destined for S, where S is an IPv6 masquerading
+proxy segment, a node N processes it as follows.
+
+::
+
+ IF NH=SRH & SL > 0 THEN
+ Update the IPv6 DA with SRH[0]
+ Forward the packet on IFACE-OUT
+ ELSE
+ Drop the packet
+
+De-masquerading
+^^^^^^^^^^^^^^^
+
+Upon receiving a non-link-local IPv6 packet on IFACE-IN, a node N
+processes it as follows.
+
+::
+
+ IF NH=SRH & SL > 0 THEN
+ Decrement SL
+ Update the IPv6 DA with SRH[SL] ;; Ref1
+ Lookup DA in appropriate table and proceed accordingly
+
+**Ref1:** This pseudocode can be augmented to support the Penultimate
+Segment Popping (PSP) endpoint flavor. The exact pseudocode modification
+are provided in
+`draft-filsfils-spring-srv6-network-programming <https://datatracker.ietf.org/doc/draft-filsfils-spring-srv6-network-programming/>`__.