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author | Neale Ranns <nranns@cisco.com> | 2016-10-08 13:03:40 +0100 |
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committer | Dave Barach <openvpp@barachs.net> | 2016-10-14 13:50:39 +0000 |
commit | b80c536e34b610ca77cd84448754e4bd9c46cf68 (patch) | |
tree | d7a868cdd657a3a54ff9eef76bfe3e7e4678e6d3 /vlib | |
parent | 3ae1a91430a341cd9ca96023e4fb619efe7cac7e (diff) |
FIB2.0: Adjacency complete pull model (VPP-487)
Change the adjacency completion model to pull not push.
A complete adjacency has a rewirte string, an incomplete one does not. the re-write string for a peer comes either from a discovery protocol (i.e. ARP/ND) or can be directly derived from the link type (i.e. GRE tunnels). Which method it is, is interface type specific.
For each packet type sent on a link to a peer there is a corresponding adjacency. For example, if there is a peer 10.0.0.1 on Eth0 and we need to send to it IPv4 and MPLS packets, there will be two adjacencies; one for the IPv4 and one for the MPLS packets. The adjacencies are thus distinguished by the packets the carry, this is known as the adjacency's 'link-type'. It is not an L3 packet type, since the adjacency can have a link type of Ethernet (for L2 over GRE).
The discovery protocols are not aware of all the link types required - only the FIB is. the FIB will create adjacencies as and when they are required, and it is thus then desirable to 'pull' from the discovery protocol the re-write required. The alternative (that we have now) is that the discovery protocol pushes (i.e. creates) adjacencies for each link type - this creates more adjacencies than we need.
To pull, FIB now requests from the interface-type to 'complete' the adjacency. The interface can then delegate to the discovery protocol (on ethernet links) or directly build the re-write (i.e on GRE).
Change-Id: I61451789ae03f26b1012d8d6524007b769b6c6ee
Signed-off-by: Neale Ranns <nranns@cisco.com>
Diffstat (limited to 'vlib')
0 files changed, 0 insertions, 0 deletions