* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project
Download Chapter08
Network tap wikipedia , lookup
Piggybacking (Internet access) wikipedia , lookup
Zero-configuration networking wikipedia , lookup
List of wireless community networks by region wikipedia , lookup
Computer network wikipedia , lookup
Multiprotocol Label Switching wikipedia , lookup
Recursive InterNetwork Architecture (RINA) wikipedia , lookup
Airborne Networking wikipedia , lookup
Wake-on-LAN wikipedia , lookup
Cracking of wireless networks wikipedia , lookup
Sybex CCNA 640-802 Chapter 8: IP Routing Instructor & Todd Lammle Chapter 8 Objectives • Understanding IP routing • Static routing • Dynamic routing – – – – RIP RIPv2 OSPF EIGRP • Verifying routing • Router Security 2 What is Routing? To route a router need to know: – Remote Networks – Neighbor Routers – All Possible routes to remote network – The absolute best route to all remote networks – Maintain and verify the routing information D C B A What is Routing? To route a router need to know: – Remote Networks – Neighbor Routers – All Possible routes to remote network – The absolute best route to all remote networks – Maintain and verify the routing information D C B A Basic Path Selection What interface will the router send out a packet if it has destination address of 10.10.10.10? Simple IP Routing >ping 172.16.20.2 Routing/PDU Example: Host A Web browses to the HTTP Server…. 1. The destination address of a frame will be the _______________________ 2. The destination IP address of a packet will be the IP address of the________________________________ 3. The destination port number in a segment header will have a value of __ Static Routes Stub Network 172.16.1.0 172.16.2.0 SO AA 172.16.3.1 SO 172.16.3.2 B B Routes must be unidirectional Static Route Configuration ip route remote network [mask] {address|interface} [distance] [permanent] Router(config)#ip route remote_network mask next_hop Static Route Example Stub Network 172.16.2.0 172.16.1.0 SO SO A 172.16.3.1 172.16.3.2 B B ip route 172.16.1.0 255.255.255.0 172.16.3.2 or ip route 172.16.1.0 255.255.255.0 s0 Default Routes Stub Network 172.16.1.0 172.16.2.0 SO SO A 172.16.3.1 172.16.3.2 B B ip route 0.0.0.0 0.0.0.0 172.16.3.1 ip classless Routing vs. Routed • Routing protocols are used between routers to: – Determine the path of a packet through a network – Maintain routing tables – Examples? • Routed protocols are: – Assigned to an interface – Once the path is determined by the Routing protocol, determines method of delivery – Examples? Routing Protocols IGPs: RIP, IGRP EGPs: BGP Autonomous System 1 Autonomous System 2 • An autonomous system is a collection of networks under a common administrative domain. • IGPs operate within an autonomous system. • EGPs connect different autonomous systems. Classful Routing Overview Classful routing protocols do not include the subnet mask with the route advertisement. – Within the same network, consistency of the subnet masks is assumed. – Summary routes are exchanged between foreign networks. – Examples of classful routing protocols: • RIP Version 1 (RIPv1) • IGRP Classless Routing Overview Classless routing protocols include the subnet mask with the route advertisement. – Classless routing protocols support variable-length subnet masking (VLSM). – Summary routes can be manually controlled within the network. – Examples of classless routing protocols: • • • • RIP Version 2 (RIPv2) EIGRP OSPF IS-IS Administrative Distance Router B Router A RIP Administrative Distance=120 IGRP Administrative Distance=100 Router C Default Administrative Distance • • • • • • Directly Connected: 0 Static Route: 1 RIP: 120 IGRP: 100 EIGRP: 90 OSPF: 110 Router D Distance Vector Distance—How far Vector—In which direction D Routing Table C B A Routing Table Routing Table Routing Table Distance vector algorithms do not allow a router to know the exact topology of an internetwork. All routers just broadcast their entire routing table out all active interfaces on periodic time intervals Discovering Routes Discovering Routes Routing Loops Router Loop Prevention • • • • Maximum Hop Count Split Horizon Route Poisoning Holddowns RIP Overview 64kbps T1 T1 T1 – – – – Hop count metric selects the path, 16 is unreachable Full route table broadcast every 30 seconds Load balance maximum of 6 equal cost paths (default = 4) RIPv2 supports VLSM and Discontiguous networks RIP Routing Configuration Router(config)#router rip Router(config-router)#network network-number* 10.3.5.0 172.16.10.0 192.168.10.0 router RIP router RIP network 172.16.0.0 network 10.0.0.0 network 172.16.0.0 network 192.168.10.0 *Network is a classful network address. Every device on network uses the same subnet mask RIP Version 2 • Allows the use of variable length subnet masks (VLSM) by sending subnet mask information with each route update • Distance Vector – same AD, and timers. • Easy configuration, just add the command “version 2” under the router rip configuration router rip network 10.0.0.0 version 2 Discontiguous Addressing • Two networks of the same classful networks are separated by a different network address 192.168.10.0/24 192.168.10.0/24 10.1.1.0/24 – RIPv1 and IGRP do not advertise subnet masks, and therefore cannot support discontiguous subnets. – OSPF, EIGRP, and RIPv2 can advertise subnet masks, and therefore can support discontiguous subnets. Passive Interface Maybe you don’t want to send RIP updates out your router interface connected to the Internet. Use the passive-interface command: Router(config)#router rip Router(config-router)#passiveinterface serial0 Internet X S0 Updates Gateway This allows a router to receive route updates on an interface, but not send updates via that interface Verifying RIP Router#show ip protocols Router#show ip route Router#debug ip rip Router#undebug all (un all) Summary – Open your books and go through all the written labs and the review questions. – Review the answers in class. 28