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CCNA 2 Module 6

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Title: CCNA 2 Module 6


1
CCNA 2 Module 6
  • Routing and Routing Protocols

2
Routing
  • Routing is moving data from one network to
    another based on the Layer 3 address.
  • Routers look at the destination address in the
    layer 3 header and forward the data out the
    appropriate interface.
  • Network numbers and their associated interfaces
    are kept in the routers routing table.

3
Different Types of Routes
  • There are basically three types of routes
  • Static Routes
  • Dynamic Routes
  • Default Routes

4
Static Routes
  • Static routes must be manually entered by the
    network administrator.
  • Static routes are configured according to the
    destination (remote) network number, subnet mask
    and next hop address or the exiting interface of
    the local router.
  • Static routes are configured from global
    configuration mode and are represented by an S -
    in the routing table.

5
Static Routes
  • Because static routes must be configured
    manually, any network topology changes require
    the network administrator to add and delete
    static routes to account for the changes.
  • Because of the extra administrative requirements,
    static routing does not have the scalability of
    dynamic routing.

6
Static Route Configuration
7
Static Route-Outgoing Interface
Gateway exiting local interface
8
Static Route-Next Hop Address
Gateway next hop address
9
Administrative Distance
  • The administrative distance is an optional
    parameter that gives a measure of the reliability
    of the route.
  • A lower value for the administrative distance
    indicates the more reliable route.
  • Default Admin Dist 1 and Max is 255
  • A static route to a dest. network with a higher
    admin distance then the routing protocol for the
    same network can be used as a backup route. This
    is called a Floating Static Route

10
Administrative Distance
11
Static Default Routes
  • Default routes are used to route packets with
    destinations that do not match any of the other
    routes in the routing table.
  • Routers are typically configured with a default
    route for Internet-bound traffic.
  • Static default routes are configured exactly like
    any other static route except the destination
    network and subnet mask are 0.0.0.0
  • This is called the quad zero route.
  • Router(config) ip route 0.0.0.0 0.0.0.0
    172.16.0.1

12
Dynamic Routing
  • Dynamic routing is achieved by use of a routing
    protocol
  • A routing protocol allows one router to share
    information with other routers regarding the
    networks it knows about and their distance from
    that router (metric).
  • The information a router gets from another router
    is used to build and maintain a routing table.

13
Routing Protocols
  • Examples of routing protocols are
  • Routing Information Protocol (RIP)
  • Interior Gateway Routing Protocol (IGRP)
  • Enhanced Interior Gateway Routing Protocol
    (EIGRP)
  • Open Shortest Path First (OSPF)
  • Border Gateway Protocol (BGP)

14
Routing Protocols
  • Routing protocols can be broken into different
    categories according to whether they are
  • External or Internal to the Autonomous System
  • Distance Vector or Link-State
  • Classful or Classless

15
Interior and Exterior Protocols
  • A routing protocol can be used to route traffic
    within an Autonomous System (AS), in which case
    the routing protocol would be interior.
  • A routing protocol can also be used to route
    traffic from one AS to another, in which case it
    would be exterior.
  • Interior and exterior refer to internal to the AS
    or external to the AS.

16
Autonomous Systems
  • An autonomous system (AS) is a collection of
    networks under a common administration sharing a
    common routing strategy.
  • To the outside world, an AS is viewed as a single
    entity.
  • The American Registry of Internet Numbers (ARIN),
    a service provider, or an administrator assigns
    an identifying number to each AS.
  • This autonomous system number is a 16 bit number.

17
Interior and Exterior Protocols
  • Interior Gateway Protocols
  • RIP
  • IGRP and EIGRP
  • OSPF
  • Exterior Gateway Protocols
  • BGP

18
Distance Vector and Link-State
  • Most routing algorithms can be classified into
    one of two categories
  • distance vector (RIP, IGRP)
  • link-state (OSPF)
  • The distance vector routing approach determines
    the direction (vector) and distance (metric) to
    any link in the internetwork.
  • The link-state approach, also called shortest
    path first, recreates the topology of the entire
    internetwork.

19
Routing Metrics
  • Routers decide how close a network is to itself
    by using a routing metric.
  • Routing metrics can be calculated according to
  • Hop count
  • Bandwidth
  • Reliability
  • Load
  • Delay

20
Routing Metric
21
Distance Vector Concepts
  • Distance vector routing algorithms pass periodic
    copies of a routing table (updates) from router
    to router.
  • Each router receives the entire routing table
    from its directly connected neighbor routers.
  • This same step-by-step process occurs in all
    directions between neighbor routers until all
    routers have a complete routing table of the
    entire internetwork.
  • Once this happens, the network has converged.

22
Distance Vector Updates
23
Routing Information Protocol
  • Routing Information Protocol (RIP) was
    originally specified in RFC 1058. Its key
    characteristics include the following
  • It is a distance vector routing protocol.
  • Hop count is used as the metric for path
    selection.
  • If the hop count is greater than 15, the packet
    is discarded (Max hop count 15)
  • Routing updates are broadcast every 30 seconds,
    by default.
  • RIP is a classful routing protocol

24
Interior Gateway Routing Protocol
  • Interior Gateway Routing Protocol (IGRP) is a
    proprietary protocol developed by Cisco. Some of
    the IGRP key design characteristics emphasize the
    following
  • It is a distance vector routing protocol.
  • Bandwidth, load, delay and reliability are used
    to create a composite metric.
  • Routing updates are broadcast every 90 seconds,
    by default.
  • IGRP is a classful routing protocol

25
Link-State Concepts
  • Link-state algorithms are also known as Dijkstras
    algorithm or as SPF (shortest path first)
    algorithms.
  • Link-state routing algorithms maintain a complex
    database of topology information.
  • A link-state routing algorithm maintains full
    knowledge of distant routers and how they
    interconnect.
  • Link-state routers exchange Link State
    Advertisements (LSAs) to update network
    reachability.

26
OSPF Route Calculation
27
Link-State Routing
  • Link-state routing uses
  • Link-state advertisements (LSAs) A link-state
    advertisement (LSA) is a small packet of routing
    information that is sent between routers.
  • Topological database A topological database is
    a collection of information gathered from LSAs.
  • SPF algorithm The shortest path first (SPF)
    algorithm is a calculation performed on the
    database resulting in the SPF tree.
  • Routing tables A list of the known paths and
    interfaces for only the best routes to a
    destination.

28
Open Shortest Path First
  • Open Shortest Path First (OSPF) is a
    nonproprietary link-state routing protocol. The
    key characteristics of OSPF are as follows
  • It is a link-state routing protocol.
  • Open standard routing protocol described in RFC
    2328.
  • Uses the SPF algorithm to calculate the lowest
    cost to a destination.
  • Routing updates are flooded as topology changes
    occur to a multicast address.
  • Update packets are passed across the network in
    event-triggered updates, so convergence is fast.
  • OSPF is a classless routing protocol.

29
Enhanced IGRP - Hybrid
  • EIGRP is a Cisco proprietary enhanced distance
    vector routing protocol. The key characteristics
    of EIGRP are as follows
  • It is an enhanced distance vector routing
    protocol.
  • Uses load balancing.
  • Uses a combination of distance vector (metric)
    and link-state features (updates).
  • Uses Diffused Update Algorithm (DUAL) to
    calculate the shortest path.
  • Routing updates are triggered by topology
    changes.
  • EIGRP is a classless routing protocol.

30
Classful and Classless
  • Classful routing protocols such as RIP and IGRP
    do not support classless addresses or Variable
    Length Subnet Masks (VLSM) unless all subnet
    masks are the same!
  • Classful routing protocols can only route for
    specific subnets, if all subnet masks are the
    same!
  • Classless routing protocols (RIPv2, EIGRP, OSPF)
    support classless address and VLSM by sending
    subnet mask information as well as network
    information as part of the routing update.
  • Classless protocols support routing between
    individual subnets of different length subnet
    masks.
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