chap 14 rip, ospf
DESCRIPTION
TCP-IP BY FOROUZANTRANSCRIPT
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TCP/IP Protocol Suite 1
Chapter 14Chapter 14
Upon completion you will be able to:
Unicast Routing Protocols:Unicast Routing Protocols:RIP, OSPF, and BGPRIP, OSPF, and BGP
• Distinguish between intra and interdomain routing• Understand distance vector routing and RIP• Understand link state routing and OSPF• Understand path vector routing and BGP
Objectives
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TCP/IP Protocol Suite 2
14.1 INTRA- AND INTERDOMAIN ROUTING
Routing inside an autonomous system is referred to as intradomain Routing inside an autonomous system is referred to as intradomain routing. Routing between autonomous systems is referred to as routing. Routing between autonomous systems is referred to as interdomain routing. interdomain routing.
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TCP/IP Protocol Suite 3
Figure 14.1 Autonomous systems
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TCP/IP Protocol Suite 4
Figure 14.2 Popular routing protocols
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TCP/IP Protocol Suite 5
14.2 DISTANCE VECTOR ROUTING
In distance vector routing, the least cost route between any two nodes is In distance vector routing, the least cost route between any two nodes is the route with minimum distance. In this protocol each node maintains a the route with minimum distance. In this protocol each node maintains a vector (table) of minimum distances to every nodevector (table) of minimum distances to every node
The topics discussed in this section include:The topics discussed in this section include:
Initialization Initialization Sharing Sharing Updating Updating When to Share When to Share Two-Node Loop Instability Two-Node Loop Instability Three-Node Instability Three-Node Instability
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TCP/IP Protocol Suite 6
Figure 14.3 Distance vector routing tables
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TCP/IP Protocol Suite 7
Figure 14.4 Initialization of tables in distance vector routing
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TCP/IP Protocol Suite 8
In distance vector routing, each node shares its routing table with its
immediate neighbors periodically and when there is a change.
Note:Note:
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TCP/IP Protocol Suite 9
Figure 14.5 Updating in distance vector routing
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TCP/IP Protocol Suite 10
Figure 14.6 Two-node instability
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TCP/IP Protocol Suite 11
Figure 14.7 Three-node instability
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TCP/IP Protocol Suite 12
14.3 RIP
The Routing Information Protocol (RIP) is an intradomain routing The Routing Information Protocol (RIP) is an intradomain routing protocol used inside an autonomous system. It is a very simple protocol protocol used inside an autonomous system. It is a very simple protocol based on distance vector routing. based on distance vector routing.
The topics discussed in this section include:The topics discussed in this section include:
RIP Message Format RIP Message Format Requests and Responses Requests and Responses Timers in RIP Timers in RIP RIP Version 2 RIP Version 2 Encapsulation Encapsulation
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TCP/IP Protocol Suite 13
Figure 14.8 Example of a domain using RIP
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TCP/IP Protocol Suite 14
Figure 14.9 RIP message format
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TCP/IP Protocol Suite 15
Figure 14.10 Request messages
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TCP/IP Protocol Suite 16
Figure 14.11 shows the update message sent from router R1 to router R2 in Figure 14.8. The message is sent out of interface 130.10.0.2.
Example 1
See Next Slide
The message is prepared with the combination of split horizon and poison reverse strategy in mind. Router R1 has obtained information about networks 195.2.4.0, 195.2.5.0, and 195.2.6.0 from router R2. When R1 sends an update message to R2, it replaces the actual value of the hop counts for these three networks with 16 (infinity) to prevent any confusion for R2. The figure also shows the table extracted from the message. Router R2 uses the source address of the IP datagram carrying the RIP message from R1 (130.10.02) as the next hop address.
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TCP/IP Protocol Suite 17
Figure 14.11 Solution to Example 1
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TCP/IP Protocol Suite 18
Figure 14.12 RIP timers
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TCP/IP Protocol Suite 19
A routing table has 20 entries. It does not receive information about five routes for 200 s. How many timers are running at this time?
Example 2
SolutionThe 21 timers are listed below: Periodic timer: 1 Expiration timer: 20 − 5 = 15 Garbage collection timer: 5
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TCP/IP Protocol Suite 20
Figure 14.13 RIP version 2 format
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TCP/IP Protocol Suite 21
Figure 14.14 Authentication
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TCP/IP Protocol Suite 22
RIP uses the services of UDP on well-known port 520.
Note:Note:
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TCP/IP Protocol Suite 23
14.4 LINK STATE ROUTING
In link state routing, if each node in the domain has the entire topology In link state routing, if each node in the domain has the entire topology of the domain, the node can use Dijkstra’s algorithm to build a routing of the domain, the node can use Dijkstra’s algorithm to build a routing table.table.
The topics discussed in this section include:The topics discussed in this section include:
Building Routing Tables Building Routing Tables
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TCP/IP Protocol Suite 24
Figure 14.15 Concept of link state routing
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TCP/IP Protocol Suite 25
Figure 14.16 Link state knowledge
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TCP/IP Protocol Suite 26
Figure 14.17 Dijkstra algorithm
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TCP/IP Protocol Suite 27
Figure 14.18 Example of formation of shortest path tree
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TCP/IP Protocol Suite 28
Table 14.1 Table 14.1 Routing table for node ARouting table for node A
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TCP/IP Protocol Suite 29
14.5 OSPF
The Open Shortest Path First (OSPF) protocol is an intradomain The Open Shortest Path First (OSPF) protocol is an intradomain routing protocol based on link state routing. Its domain is also an routing protocol based on link state routing. Its domain is also an autonomous system. autonomous system.
The topics discussed in this section include:The topics discussed in this section include:
Areas Areas Metric Metric Types of Links Types of Links Graphical Representation Graphical Representation OSPF Packets OSPF Packets Link State Update Packet Link State Update Packet Other Packets Other Packets Encapsulation Encapsulation
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TCP/IP Protocol Suite 30
Figure 14.19 Areas in an autonomous system
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TCP/IP Protocol Suite 31
Figure 14.20 Types of links
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TCP/IP Protocol Suite 32
Figure 14.21 Point-to-point link
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TCP/IP Protocol Suite 33
Figure 14.22 Transient link
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TCP/IP Protocol Suite 34
Figure 14.23 Stub link
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TCP/IP Protocol Suite 35
Figure 14.24 Example of an AS and its graphical representation in OSPF
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TCP/IP Protocol Suite 36
Figure 14.25 Types of OSPF packets
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TCP/IP Protocol Suite 37
Figure 14.26 OSPF common header
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TCP/IP Protocol Suite 38
Figure 14.27 Link state update packet
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TCP/IP Protocol Suite 39
Figure 14.28 LSA general header
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TCP/IP Protocol Suite 40
Figure 14.29 Router link
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TCP/IP Protocol Suite 41
Figure 14.30 Router link LSA
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TCP/IP Protocol Suite 42
Table 14.2 Table 14.2 Link types, link identification, and link dataLink types, link identification, and link data
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TCP/IP Protocol Suite 43
Give the router link LSA sent by router 10.24.7.9 in Figure 14.31.
Example 3
SolutionThis router has three links: two of type 1 (point-to-point) and one of type 3 (stub network). Figure 14.32 shows the router link LSA.
See Next Slide
See Figure 14.32
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TCP/IP Protocol Suite 44
Figure 14.31 Example 3
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TCP/IP Protocol Suite 45
Figure 14.32 Solution to Example 3
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TCP/IP Protocol Suite 46
Figure 14.33 Network link
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TCP/IP Protocol Suite 47
Figure 14.34 Network link advertisement format
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TCP/IP Protocol Suite 48
Give the network link LSA in Figure 14.35.
Example 4
Solution.
See Next Slide
See Figure 14.36
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TCP/IP Protocol Suite 49
Figure 14.35 Example 4
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TCP/IP Protocol Suite 50
Figure 14.36 Solution to Example 4
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TCP/IP Protocol Suite 51
In Figure 14.37, which router(s) sends out router link LSAs?
Example 5
SolutionAll routers advertise router link LSAs. a. R1 has two links, N1 and N2.
b. R2 has one link, N1.c. R3 has two links, N2 and N3.
See Next Slide
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TCP/IP Protocol Suite 52
Figure 14.37 Example 5 and Example 6
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TCP/IP Protocol Suite 53
In Figure 14.37, which router(s) sends out the network link LSAs?
Example 6
SolutionAll three network must advertise network links: a. Advertisement for N1 is done by R1 because it is the only attached router and therefore the designated router.
b. Advertisement for N2 can be done by either R1, R2, or R3, depending on which one is chosen as the designated router.
c. Advertisement for N3 is done by R3 because it is the only attached router and therefore the designated router.
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TCP/IP Protocol Suite 54
Figure 14.38 Summary link to network
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TCP/IP Protocol Suite 55
Figure 14.39 Summary link to network LSA
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TCP/IP Protocol Suite 56
Figure 14.40 Summary link to AS boundary router
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TCP/IP Protocol Suite 57
Figure 14.41 Summary link to AS boundary router LSA
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TCP/IP Protocol Suite 58
Figure 14.42 External link
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TCP/IP Protocol Suite 59
Figure 14.43 External link LSA
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TCP/IP Protocol Suite 60
Figure 14.44 Hello packet
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TCP/IP Protocol Suite 61
Figure 14.45 Database description packet
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TCP/IP Protocol Suite 62
Figure 14.46 Link state request packet
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TCP/IP Protocol Suite 63
Figure 14.47 Link state acknowledgment packet
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TCP/IP Protocol Suite 64
OSPF packets are encapsulated in IP datagrams.
Note:Note:
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TCP/IP Protocol Suite 65
14.6 PATH VECTOR ROUTING
Path vector routing is similar to distance vector routing. There is at least Path vector routing is similar to distance vector routing. There is at least one node, called the speaker node, in each AS that creates a routing one node, called the speaker node, in each AS that creates a routing table and advertises it to speaker nodes in the neighboring ASs.. table and advertises it to speaker nodes in the neighboring ASs..
The topics discussed in this section include:The topics discussed in this section include:
Initialization Initialization Sharing Sharing Updating Updating
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TCP/IP Protocol Suite 66
Figure 14.48 Initial routing tables in path vector routing
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TCP/IP Protocol Suite 67
Figure 14.49 Stabilized tables for four autonomous systems
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TCP/IP Protocol Suite 68
14.7 BGP
Border Gateway Protocol (BGP) is an interdomain routing protocol Border Gateway Protocol (BGP) is an interdomain routing protocol using path vector routing. It first appeared in 1989 and has gone using path vector routing. It first appeared in 1989 and has gone through four versions. through four versions.
The topics discussed in this section include:The topics discussed in this section include:
Types of Autonomous Systems Types of Autonomous Systems Path Attributes Path Attributes BGP Sessions BGP Sessions External and Internal BGP External and Internal BGP Types of Packets Types of Packets Packet Format Packet Format Encapsulation Encapsulation
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TCP/IP Protocol Suite 69
Figure 14.50 Internal and external BGP sessions
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TCP/IP Protocol Suite 70
Figure 14.51 Types of BGP messages
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TCP/IP Protocol Suite 71
Figure 14.52 BGP packet header
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TCP/IP Protocol Suite 72
Figure 14.53 Open message
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TCP/IP Protocol Suite 73
Figure 14.54 Update message
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TCP/IP Protocol Suite 74
BGP supports classless addressing and CIDR.
Note:Note:
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TCP/IP Protocol Suite 75
Figure 14.55 Keepalive message
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TCP/IP Protocol Suite 76
Figure 14.56 Notification message
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TCP/IP Protocol Suite 77
Table 14.3 Table 14.3 Error codesError codes
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TCP/IP Protocol Suite 78
BGP uses the services of TCP on port 179.
Note:Note: