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NESCOT CATC 1
Routing and Routing Protocols
CCNA 2 v3 – Module 6
NESCOT CATC 2
Introducing Routing
1. Dynamic routing - information is learned from other routers, and routing protocols adjust routes automatically.
2. Static routing - network administrator configures information about remote networks manually. They are used to reduce overhead and for security.
Because of the extra administrative requirements, static routing does not have the scalability of dynamic routing.
In most networks static routes are often used in conjunction with a dynamic routing protocol.
In order to forward packets correctly, routers must learn the direction to remote networks.
Two types of routing:
NESCOT CATC 3
Routing and Routed Protocols
Routing Protocols allow the routers to communicate with other routers to update and maintain tables.
Examples:
RIP, IGRP, EIGRP and OSPF
Routed Protocols provide enough information in their network layer address to allow packets to be forwarded from one host to another host based on the addressing scheme.
Examples:
IP, IPX, AppleTalk
NESCOT CATC 4
Routing Protocols – Path DeterminationRouting consists of two basic mechanisms:
1. Path Determination
Router uses the routing table to determine the best path.
2. Switching (forwarding)
Accept a packet on one interface and forward it to a second interface
Routing protocols create and maintain routing tables:
Simplified routing table.
The Default router entry sends packets for any other destinations out S1.
NESCOT CATC 5
This command sets a default route on a router:
Router(config)#
Static RoutesStatic routes between networks are manually configured by an administrator.
Static routes are added with the following command:
Router(config)# ip route 192.168.2.0 255.255.255.0 E0
ip route 0.0.0.0 0.0.0.0 192.168.1.1
Network Address Subnet Mask Gateway
Static routes out interfaces have an administrative distance of 0.
Static routes to next hop addresses have administrative distance of 1.
You can specify a non-default administrative distance for a static route:
Router(config)# ip route 0.0.0.0 0.0.0.0 192.168.1.1 130
Do the 2 e-Labs of 6.1.2
NESCOT CATC 6
Configuring Static Routes
Step 1 Determine all desired prefixes, masks, and addresses. The address can be either a local interface or a next hop address that leads to the desired destination.
Step 2 Enter global configuration mode. Step 3 Type the ip route command with a prefix and mask
followed by the corresponding address from Step 1. The administrative distance is optional.
Step 4 Repeat Step 3 for all the destination networks that were defined in Step 1.
Step 5 Exit global configuration mode.
NESCOT CATC 7
Configuring Static Routes: An Example
or 172.16.2.1
or 172.16.4.2
Do 6.1.3 e-Lab
Do 6.1.5 e-Lab
NESCOT CATC 8
Configuring Default Route Forwarding
Default routes are used to route packets with destinations that do not match any of the other routes in the routing table.
NESCOT CATC 9
Dynamic Routing – Distance Vector and Link-State
The success of dynamic routing depends on two basic router functions:
1. Maintenance of a routing table
2. Timely distribution of knowledge, in the form of routing updates, to other routers.
Dynamic routing relies on the routing protocol.Routing Protocols can be Distant Vector or Link-State.Hybrid protocols (like EIGRP) contain some elements of both.
Different routing protocols use different metrics to determine the best route to a network.
Administrative Distances are used to rate the trustworthiness of the various routing protocols.
NESCOT CATC 10
Distance Vector Routing Protocols
RIP is a distance vector routing protocol: Uses hop count as its metric Each router the packet goes through is 1 hop
1 2
A B2 31
Router(config)#
Configuration Example:
router ripRouter(config-router)# network 172.16.0.0
The distance-vector routing algorithm passes complete routing tables to neighbor routers.
The neighbor routers combine the received routing table with their own routing tables.
NESCOT CATC 11
Link State Routing ProtocolsLink-state routing algorithms (Shortest Path First algorithms), maintain a complex database of topology information.
Link-state routing uses:
Link-state routing requires more memory and processing power than distance vector, and bandwidth requirements are often higher as well.OSPF is the most commonly used Link-State Protocol.
Link-state advertisements (LSAs)
A topological database
The SPF algorithm, and the resulting SPF tree
A routing table of paths and ports to each network
NESCOT CATC 12
Distance Vector or Link State?1. Also known as Bellman-Ford algorithms2. Flood routing information to all routers 3. Requests routing information from directly connected neighbors4. Complete view of the internetwork topology 5. Decisions based upon information provided by neighbors 6. Use fewer system resources7. When a network link changes state LSA are flooded through network8. Less errors, but they use more system resources9. Calculate the shortest path to all known sites on the network 10. Small update packets contain only changes 11. Slower convergence12. OSPF and IS-IS13. Do not scale well to larger systems. 14. Because they converge more quickly less prone to routing loops 15. Event-triggered updates, so convergence is fast16. Based on finding the number of hops and direction to a link 17. Passes copies of complete routing table on a periodic basis18. Each router simply inform its neighbors of its routing table19. RIP and IGRP20. more reliable, easier to debug, and less bandwidth-intensive
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LS
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NESCOT CATC 13
Routing Protocols
Protocol Features
Distance vector, hop count metric, maximum 15 hops, broadcasts updates every 30 secs.
Cisco proprietary distance vector, bandwidth / load / delay / reliability composite metric, broadcast updates every 90 secs.
Cisco proprietary, enhanced distance vector (hybrid), load balancing, uses DUAL to calculate shortest path.
Routing updates are triggered by topology changes.
Link-state, open standard, Uses SPF algorithm. Routing updates are sent as topology changes occur.
Distance vector exterior routing protocol, used between ISPs, used to route traffic between ASs.
RIP
IGRP
EIGRP
OSPF
BGP
NESCOT CATC 14
Autonomous SystemsAS is a collection of networks under a common administration and sharing a common routing strategy. ARIN, ISP, or an administrator assigns the 16 bit AS number.IGRP, EIGRP and BGP require assignment of a unique AS number.
AS 10
AS 20
Each AS has its own set of rules and policies.The AS number uniquely distinguish it from other ASs around the world.
ASs divide the global internetwork into smaller, more manageable networks.
NESCOT CATC 15
EGP and IGP1. _______________________ are designed for use in networks
whose parts are under the control of a single organization. 2. Exterior routing protocol is designed for use between different
networks that are under the control of ___________________. 3. ______ are typically used between ISPs or between a
company and an ISP. 4. EGPs require the following: A list of _________________ with which to exchange updates. A list of _________ to advertise as directly reachable. The ____________________ number of the local router. 5. An exterior routing protocol must isolate ____.
IGP IGPEGP
Interior Gateway Protocols
different organizationsEGP
neighbor routersnetworks
autonomous systemASs