The conventional routing logic described above operates using one of possibly many routing tables that the FB9000 can support simultaneously. Routing tables are numbered, with the default being routing table 0 (zero).
The various ways to add routes allow the routing table to be specified, and so allow completely independent routing for different routing tables. The default table (table zero) is used when optional routing-table specification attributes or CLI command parameters are omitted.
Each interface
is logically in a routing table and traffic arriving on it is processed based on the routes in that routing table.
Tunnels like FB105 and L2TP allow the wrapped tunnel packets to work on one routing table and the tunnel payload packets to be on another.
Routing tables can be very useful when working with tunnels of any sort - placing the wrappers in one routing table, allowing DHCP clients and so on, without taking over the default route for all traffic. The payload can then be in the normal routing table 0.