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Download CCNA 1 Module 10 Routing Fundamentals and Subnets
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Transcript
CCNA 1 Chapter 8 Routing Fundamentals and Subnets By Joe Parisien Copyright 2003 www.ciscopress.com Objectives • Routed protocol • IP routing protocols • The mechanics of subnetting Copyright 2003 www.ciscopress.com Routed Protocols Versus Routing Protocols Routing protocols determine the path that routed protocols follow to their destinations. Copyright 2003 www.ciscopress.com Characteristics of a Routable Protocol Copyright 2003 www.ciscopress.com IP as a Routed Protocol • IP is a connectionless, unreliable, best-effort delivery protocol. • As information flows down the layers of the OSI model; the data is processed at each layer. • IP accepts whatever data is passed down to it from the upper layers. Copyright 2003 www.ciscopress.com Packet Propagation Each router provides its services to support upper-layer functions. Copyright 2003 www.ciscopress.com Connectionless Network Services Copyright 2003 www.ciscopress.com Connection-Oriented Network Services A connection is established between the sender and the recipient before any data is transferred. Copyright 2003 www.ciscopress.com Anatomy of an IP Packet • • • • • • • • • • • • • • • Version IP header length (HLEN) Type-of-service Total length Identification Flags Fragment offset Time-to-live Protocol Header checksum Source address Destination address Options Padding Data Copyright 2003 www.ciscopress.com Routing Protocols Copyright 2003 www.ciscopress.com Router Overview Copyright 2003 www.ciscopress.com Layer 3 Addresses Copyright 2003 www.ciscopress.com Routing Versus Switching • This distinction is routing and switching use different information in the process of moving data from source to destination. Copyright 2003 www.ciscopress.com Routed Versus Routing • A routed protocol: – Includes any network protocol suite that provides enough information in its network layer address to allow a router to forward it to the next device and ultimately to its destination. – Defines the format and use of the fields within a packet. • A routing protocol: – Provides processes for sharing route information. – Allows routers to communicate with other routers to update and maintain the routing tables. Copyright 2003 www.ciscopress.com Path Determination • Path determination enables a router to compare the destination address to the available routes in its routing table, and to select the best path. Copyright 2003 www.ciscopress.com Routing Tables • Routers keep track of the following: – Protocol type – Destination/next-hop associations – Routing metric – Outbound interfaces Copyright 2003 www.ciscopress.com Routing Algorithms and Metrics • Routing protocols have one or more of the following design goals: – Optimization – Simplicity and low overhead – Robustness and stability – Flexibility – Rapid convergence • Metrics most commonly used by routing protocols include the following: – Bandwidth – Delay – Load – Reliability – Hop count – Ticks Copyright 2003 www.ciscopress.com – Cost RIP and IGRP Copyright 2003 www.ciscopress.com IGP and EGP • IGPs route data within an autonomous system. • EGPs route data between autonomous systems. Copyright 2003 www.ciscopress.com Link State and Distance Vector • Examples of distance-vector protocols: – Routing Information Protocol (RIP) – Interior Gateway Routing Protocol (IGRP) – Enhanced IGRP (EIGRP) • Examples of link-state protocols: – Open Shortest Path First (OSPF) – Intermediate System-to-Intermediate System (IS-IS) Copyright 2003 www.ciscopress.com Routing Protocols • • • • • • • Copyright 2003 RIP RIP v2 IGRP EIGRP OSPF IS-IS BGP www.ciscopress.com Mechanics of Subnetting Copyright 2003 www.ciscopress.com Classes of Network IP Addresses Copyright 2003 www.ciscopress.com Subnetworks To create a subnet address, a network administrator borrows bits from the original host portion and designates them as the subnet field. Copyright 2003 www.ciscopress.com Subnetworks Copyright 2003 www.ciscopress.com Subnet Mask • Determines which part of an IP address is the network field and which part is the host field. • Follow these steps to determine the subnet mask: 1. Express the subnetwork IP address in binary form. 2. Replace the network and subnet portion of the address with all 1s. 3. Replace the host portion of the address with all 0s. 4. Convert the binary expression back to dotted-decimal notation. Copyright 2003 www.ciscopress.com Subnet Mask Subnet mask in decimal = 255.255.240.0 Copyright 2003 www.ciscopress.com Subnet Addresses Copyright 2003 www.ciscopress.com Determining Subnet Mask Size Class B address with 8 bits borrowed for the subnet 130.5.2.144 (8 bits borrowed for subnetting) routes to subnet 130.5.2.0 rather than just to network 130.5.0.0. Copyright 2003 www.ciscopress.com Determining Subnet Mask Size Class C address 197.15.22.131 with a subnet mask of 255.255.255.224 (3 bits borrowed) 11000101 00001111 00010110 100 Network Field SN 00011 Host Field The address 197.15.22.131 would be on the subnet 197.15.22.128. Copyright 2003 www.ciscopress.com Subnetting Example with AND Operation Copyright 2003 www.ciscopress.com
