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authorFrancois Clad <fclad@cisco.com>2018-01-16 17:52:24 +0100
committerDamjan Marion <dmarion.lists@gmail.com>2018-01-19 20:34:48 +0000
commitba7992aa62523d014b55802463fb3357c7099b70 (patch)
tree59f9913c83bd7ab68feec9bab8778151a1b32cc4 /src/plugins/srv6-as/as_plugin_doc.md
parentb4cd4ff74b3493824f35e67a4128f459333fa50a (diff)
SRv6 static proxy plugin
Change-Id: Ia0654461d9fa36503323a8375997719c873d23b9 Signed-off-by: Francois Clad <fclad@cisco.com>
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+# SRv6 endpoint to SR-unaware appliance via static proxy (End.AS) {#srv6_as_plugin_doc}
+
+## Overview
+
+The static proxy is an SR endpoint behavior for processing SR-MPLS or SRv6
+encapsulated traffic on behalf of an SR-unaware service. This proxy thus
+receives SR traffic that is formed of an MPLS label stack or an IPv6 header on
+top of an inner packet, which can be Ethernet, IPv4 or IPv6.
+
+A static SR proxy segment is associated with the following mandatory parameters:
+
+- INNER-TYPE: Inner packet type
+- S-ADDR: Ethernet or IP address of the service (only for inner type IPv4 and
+ IPv6)
+- IFACE-OUT: Local interface for sending traffic towards the service
+- IFACE-IN: Local interface receiving the traffic coming back from the service
+- CACHE: SR information to be attached on the traffic coming back from the
+ service
+
+A static SR proxy segment is thus defined for a specific service, inner packet
+type and cached SR information. It is also bound to a pair of directed
+interfaces on the proxy. These may be both directions of a single interface, or
+opposite directions of two different interfaces. The latter is recommended in
+case the service is to be used as part of a bi-directional SR SC policy. If the
+proxy and the service both support 802.1Q, IFACE-OUT and IFACE-IN can also
+represent sub-interfaces.
+
+The first part of this behavior is triggered when the proxy node receives a
+packet whose active segment matches a segment associated with the static proxy
+behavior. It removes the SR information from the packet then sends it on a
+specific interface towards the associated service. This SR information
+corresponds to the full label stack for SR-MPLS or to the encapsulation IPv6
+header with any attached extension header in the case of SRv6.
+
+The second part is an inbound policy attached to the proxy interface receiving
+the traffic returning from the service, IFACE-IN. This policy attaches to the
+incoming traffic the cached SR information associated with the SR proxy segment.
+If the proxy segment uses the SR-MPLS data plane, CACHE contains a stack of
+labels to be pushed on top the packets. With the SRv6 data plane, CACHE is
+defined as a source address, an active segment and an optional SRH (tag,
+segments left, segment list and metadata). The proxy encapsulates the packets
+with an IPv6 header that has the source address, the active segment as
+destination address and the SRH as a routing extension header. After the SR
+information has been attached, the packets are forwarded according to the active
+segment, which is represented by the top MPLS label or the IPv6 Destination
+Address.
+
+In this scenario, there are no restrictions on the operations that can be
+performed by the service on the stream of packets. It may operate at all
+protocol layers, terminate transport layer connections, generate new packets and
+initiate transport layer connections. This behavior may also be used to
+integrate an IPv4-only service into an SRv6 policy. However, a static SR proxy
+segment can be used in only one service chain at a time. As opposed to most
+other segment types, a static SR proxy segment is bound to a unique list of
+segments, which represents a directed SR SC policy. This is due to the cached
+SR information being defined in the segment configuration. This limitation only
+prevents multiple segment lists from using the same static SR proxy segment at
+the same time, but a single segment list can be shared by any number of traffic
+flows. Besides, since the returning traffic from the service is re- classified
+based on the incoming interface, an interface can be used as receiving interface
+(IFACE-IN) only for a single SR proxy segment at a time. In the case of a
+bi-directional SR SC policy, a different SR proxy segment and receiving
+interface are required for the return direction.
+
+## SRv6 pseudocode
+
+### Static proxy for inner type Ethernet - End.AS2
+
+Upon receiving an IPv6 packet destined for S, where S is an End.AS2 SID, a node
+N does:
+
+```
+ 1. IF ENH == 59 THEN ;; Ref1
+ 2. Remove the (outer) IPv6 header and its extension headers
+ 3. Forward the exposed frame on IFACE-OUT
+ 4. ELSE
+ 5. Drop the packet
+```
+
+Ref1: 59 refers to "no next header" as defined by IANA allocation for Internet
+Protocol Numbers.
+
+Upon receiving on IFACE-IN an Ethernet frame with a destination address
+different than the interface address, a node N does:
+
+```
+ 1. IF CACHE.SRH THEN ;; Ref2
+ 2. Push CACHE.SRH on top of the existing Ethernet header
+ 3. Set NH value of the pushed SRH to 59
+ 4. Push outer IPv6 header with SA, DA and traffic class from CACHE
+ 5. Set outer payload length and flow label
+ 6. Set NH value to 43 if an SRH was added, or 59 otherwise
+ 7. Lookup outer DA in appropriate table and proceed accordingly
+```
+
+Ref2: CACHE.SRH represents the SRH defined in CACHE, if any, for the static SR
+proxy segment associated with IFACE-IN.
+
+The receiving interface must be configured in promiscuous mode in order to
+accept those Ethernet frames.
+
+### Static proxy for inner type IPv4 - End.AS4
+
+Upon receiving an IPv6 packet destined for S, where S is an End.AS4 SID, a node
+N does:
+
+```
+ 1. IF ENH == 4 THEN ;; Ref1
+ 2. Remove the (outer) IPv6 header and its extension headers
+ 3. Forward the exposed packet on IFACE-OUT towards S-ADDR
+ 4. ELSE
+ 5. Drop the packet
+```
+
+Ref1: 4 refers to IPv4 encapsulation as defined by IANA allocation for Internet
+Protocol Numbers.
+
+Upon receiving a non link-local IPv4 packet on IFACE-IN, a node N does:
+
+```
+ 1. IF CACHE.SRH THEN ;; Ref2
+ 2. Push CACHE.SRH on top of the existing IPv4 header
+ 3. Set NH value of the pushed SRH to 4
+ 4. Push outer IPv6 header with SA, DA and traffic class from CACHE
+ 5. Set outer payload length and flow label
+ 6. Set NH value to 43 if an SRH was added, or 4 otherwise
+ 7. Decrement inner TTL and update checksum
+ 8. Lookup outer DA in appropriate table and proceed accordingly
+```
+
+Ref2: CACHE.SRH represents the SRH defined in CACHE, if any, for the static SR
+proxy segment associated with IFACE-IN.
+
+### Static proxy for inner type IPv6 - End.AS6
+
+Upon receiving an IPv6 packet destined for S, where S is an End.AS6 SID, a node
+N does:
+
+```
+ 1. IF ENH == 41 THEN ;; Ref1
+ 2. Remove the (outer) IPv6 header and its extension headers
+ 3. Forward the exposed packet on IFACE-OUT towards S-ADDR
+ 4. ELSE
+ 5. Drop the packet
+```
+
+Ref1: 41 refers to IPv6 encapsulation as defined by IANA allocation for Internet
+Protocol Numbers.
+
+Upon receiving a non-link-local IPv6 packet on IFACE-IN, a node N does:
+
+```
+ 1. IF CACHE.SRH THEN ;; Ref2
+ 2. Push CACHE.SRH on top of the existing IPv6 header
+ 3. Set NH value of the pushed SRH to 41
+ 4. Push outer IPv6 header with SA, DA and traffic class from CACHE
+ 5. Set outer payload length and flow label
+ 6. Set NH value to 43 if an SRH was added, or 41 otherwise
+ 7. Decrement inner Hop Limit
+ 8. Lookup outer DA in appropriate table and proceed accordingly
+```
+
+Ref2: CACHE.SRH represents the SRH defined in CACHE, if any, for the static SR
+proxy segment associated with IFACE-IN.
+