D-Link DES-3350SR User Manual - page 110
D-Link DES-3350SR Standalone Layer 3 Switch
100
Figure 9 - 12. RIP Interface Settings - Edit window
Refer to the table below for a description of the available parameters for RIP interface settings.
The following RIP settings can be applied to each IP interface:
Parameters Description
Interface Name
The name of the IP interface on which
RIP is to be setup. This interface must be
previously configured on the Switch.
IP Address
The IP address corresponding to the
Interface Name showing in the field
above.
TX Mode
Toggle among Disabled, V1 Only, V1
Compatible, and V2 Only. This entry
specifies which version of the RIP
protocol will be used to transmit RIP
packets.
Disabled prevents the
transmission of RIP packets.
RX Mode
Toggle among Disabled, V1 Only, V2
Only, and V1 or V2. This entry specifies
which version of the RIP protocol will be
used to interpret received RIP packets.
Disabled prevents the reception of RIP
packets.
Authentication
Toggle between Disabled and Enabled to
specify that routers on the network
should us the Password above to
authenticate router table exchanges.
Password
A password to be used to authenticate
communication between routers on the
network.
State
Toggle between Disabled and Enabled to
disable or enable this RIP interface on
the switch.
Click Apply to implement changes made.
OSPF
The Open Shortest Path First (OSPF) routing protocol uses a link-state algorithm to determine routes to network destinations. A
“link” is an interface on a router and the “state” is a description of that interface and its relationship to neighboring routers. The
state contains information such as the IP address, subnet mask, type of network the interface is attached to, other routers attached to
the network, etc. The collection of link-states is then collected in a link-state database that is maintained by routers running OSPF.
OSPF specifies how routers will communicate to maintain their link-state database and defines several concepts about the topology
of networks that use OSPF. To limit the extent of link-state update traffic between routers, OSPF defines the concept of Area. All
routers within an area share the exact same link-state database, and a change to this database on one router triggers an update to the
link-state database of all other routers in that area. Routers that have interfaces connected to more than one area are called Border