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Chapter 1 1
Static Routing
Routing Protocols and Concepts – Chapter 2Modified by Tony Chen
10/28/2008
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Notes:
If you see any mistake on my PowerPoint slides or if you have any questions about the materials, pleasefeel free to email me at [email protected].
Thanks!
Tony Chen
College of DuPage
Cisco Networking Academy
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Objectives
Define the general role a router plays in networks.
Describe the directly connected networks, differentrouter interfaces
Examine directly connected networks in the routingtable and use the CDP protocol
Describe static routes with exit interfaces
Describe summary and default route
Examine how packets get forwarded when usingstatic routes
Identify how to manage and troubleshoot static routes
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General Role of the Router
Functions of a Router Best Path Selections
Forwarding packets to destination
Routers perform packet forwarding by learning about
remote networks and maintaining routing information. – The routers primary forwarding decision is based on Layer 3information, the destination IP address.
– The router's routing table is used to find the best matchbetween the destination IP of a packet and a network addressin the routing table.
– The routing table will ultimately determine the exit interface toforward the packet and the router will encapsulate that packet inthe appropriated data link frame for that outgoing interface.
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General Role of the Router
Introducing the Topology – The figure shows the topology used in this chapter.
– 3 1800 series routers connected via WAN links
– Each router connected to a LAN represented by a switch and a PC
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General Role of the Router Connections of a Router for WAN
-A router has a DB-60 port that can support 5different cabling standards
–Newer routers support the smart serialinterface that allows for more data to beforwarded across fewer cable pins.
Connections of a Router for Ethernet
-2 types of connectors can be used: Straightthrough and Cross-over
Straight through used to connect:
-Switch-to-Router, Switch-to-PC, Hub-to-
PC, Hub-to-Server Cross-over used to connect (pin 1 connectedto pin 3, and pin 2 connected to pin 6):
-Switch-to-Switch, PC-to-PC, Switch-to-Hub, Hub-to-Hub, Router-to-Router, PC-Router
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General Role of the Router in COD
Smart Serial cables: DCE and DTE-Use straight cable to connect betweenthe DTE and DCE..
Ethernet cables:
Cross-over cable: RED cable
Roll-over cable: flat cables
Straight cable: all other cables
DCE and DTE Adapter
http://www.csdata.com/csdonline/customer/home.php
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Serial Connectors
DTEDCE
DTE DTE
In our labs we will use serial DTE/DCE cables (noCSU/DSU) with a DTE cable connected to one router anda DCE cable connected to the other router.
DCEDCE
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Interfaces
Examining Router Interfaces-Show IP router command – used to view routing table
-Show Interfaces command – used to show status of an interface
-Show IP Interface brief command – used to show a portion of
the interface information on a condensed format-Show running-config command – used to show configuration
file in RAM
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Interfaces
Configuring an Ethernet interface-By default all serial and Ethernet interfaces are down
-To enable an interface use the No Shutdown command
•The show ip route
command is used todisplay the routing table.•Initially, the routing table isempty if no interfaces havebeen configured. •Static routes and dynamicroutes will not be added tothe routing table until theappropriate local interfaceshave been configured onthe router.
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Verifying Ethernet interface- Show interfaces - command shows the status and gives a detailed
description for all interfaces on the router – Show interfaces fastEthernet 0/0 – command used to show status of fast Ethernet port
•R1#show interfaces fastethernet 0/0
•FastEthernet0/0 is administratively down, line protocol is down
• Administratively down means that the interface is currently in the shutdown mode, or turned off.•Line protocol is down means, in this case, that the interface is not receiving a carrier signal froma switch or the hub. This condition may also be due to the fact that the interface is in shutdownmode
• You will notice that the show interfaces command does not show any IP addresses on R1'sinterfaces. The reason for this is because we have not yet configured IP addresses on any of theinterfaces.
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Interfaces Verifying Ethernet interface
– Show run – • command displays the current configuration file thatthe router is using. Configuration commands aretemporarily stored in the running configuration fileand implemented immediately by the router.
•However, using show running-config is notnecessarily the best way to verify interface
configurations.
-Show ip interface brief –
-can be used to see a portion of the interfaceinformation in a condensed format.
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Configuring an Ethernet interfaceBy default, all router interfaces are shutdown. To enable thisinterface, use the no shutdown command, which changes the
interface from administratively down to up.
R1(config)#interface fastethernet 0/0
R1(config-if)#ip address 172.16.3.1 255.255.255.0
R1(config-if)#no shutdown
The following message is returned from the IOS:
*Mar 1 01:16:08.212: %LINK-3-UPDOWN: InterfaceFastEthernet0/0, changed state to up
*Mar 1 01:16:09.214: %LINEPROTO-5-UPDOWN: Lineprotocol on Interface FastEthernet0/0, changed state to up
–The first changed state to up message indicates that,
physically, the connection is good. If you do not get this firstmessage, be sure that the interface is properly connected toa carrier signal from switch or a hub.
–The second changed state to up message indicates that theData Link layer is operational.
• However, WAN interfaces in a lab environment requireclocking on one side of the link. If you do correctly set the
clock rate, then line protocol will not change to up.
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Configuring an Ethernet interface
Unsolicited Messages from IOS The IOS often sends unsolicited messages.
As you can see in the figure, sometimes thesemessages will occur when you are in the middleof typing a command, such as configuring adescription for the interface.
–The IOS message does not affect the command,but it can cause you to lose your place when typing.
In order to keep the unsolicited output separatefrom your input, enter line configuration modefor the consoled port and add the logging synchronous command, as shown. You will seethat messages returned by IOS no longerinterfere with your typing.
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Interfaces Verifying Ethernet interface
-Show interfaces fastEthernet 0/0
Reading the Routing Table
–Now look at routing table shown in the figure.Notice R1 now has a "directly connected"FastEthernet 0/0 interface a new network.
–The interface was configured with the172.16.3.1/24 IP address which makes it amember of the 172.16.3.0/24 network.
172.16.0.0/24 is subnetted, 1 subnets
C 172.16.3.0 is directly connected, FastEthernet0/0
–The C at the beginning of the route indicates
that this is a directly connected network. In other words, R1 has an interface that belongs to thisnetwork.
–The /24 subnet mask for this route is displayedin the line above the actual route.
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Interfaces Reading the Routing Table
172.16.0.0/24 is subnetted, 1 subnets
–Having a single route represent an entirenetwork of host IP addresses makes therouting table smaller, with fewer routes,which results in faster routing table
lookups.•It means that this route matches allpackets with a destination addressbelonging to this network.
–The routing table could contain all 254individual host IP addresses for the172.16.3.0/24 network, but that is an
inefficient way of storing addresses.
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Interfaces Verifying Ethernet interface
show interfaces fastethernet 0/0show ip interface brief
The show interfaces fastethernet 0/0 commandin the figure now shows
–The interface is up, and the line protocol is up.The no shutdown command changed the
interface from administratively down to up. –Notice that the IP address is now displayed.
The command show ip interface brief in thefigure shows that the interface is up, and theline protocol is up. (in a condensed format)
Typically, the router's Ethernet or FastEthernetinterface will be the default gateway IP addressfor any devices on that LAN.
–For example, PC1 would be configured with aIP address belonging to the 172.16.3.0/24network, with the default gateway IP address172.16.3.1.
–172.16.3.1 is router R1's FastEthernet IPaddress.
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Ethernet Interfaces Participate in ARP A router's Ethernet interface participates
in a LAN network just like any otherdevice on that network.
–This means that these interfaces have aLayer 2 MAC address, as shown in the figure.The show interfaces command displays theMAC address for the Ethernet interfaces.
–If a router has a packet destined for adevice on a directly connected Ethernetnetwork, it checks the ARP table for an entrywith that destination IP address in order tomap it to the MAC address.
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Interfaces
Configuring a Serial interface-Enter interface configuration mode
-Enter in the ip address and subnet mask
-Enter in the no shutdown command
Example:
-R1(config)#interface serial 0/0/0
-R1(config-if)#ip address 172.16.2.1 255.255.255.0
-R1(config-if)#no shutdown
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Interfaces R1(config)#interface serial 0/0/0
R1(config-if)#ip address 172.16.2.1 255.255.255.0
R1(config-if)#no shutdown
R2(config)#interface serial 0/0/0
R2(config-if)#ip address 172.16.2.2 255.255.255.0
R2(config-if)#no shutdown –There is no requirement that both ends of the serial link use the same interface, (0/0/0, 0/0/1,0/1/0, 0/1/1, ….)
–in this case, Serial 0/0/0. However, because both interfaces are members of the samenetwork, they both must have IP addresses that belong to the 172.16.2.0/24 network.
–If we now issue the show interfaces serial 0/0/0 command on either router, we still see thatthe link is up/down.
R2#show interfaces serial 0/0/0
Serial0/0/0 is up, line protocol is down
– The physical link between R1 and R2 is up because both ends of the serial link have beenconfigured correctly with an IP address/mask and enabled with the no shutdown command.
– However, the line protocol is still down. This is because the interface is not receiving a clocksignal.
– There is still one more command that we need to enter, the clock rate command, on therouter with the DCE cable. The clock rate command will set the clock signal for the link.
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Interfaces
Nothing is configured
Setup IP but not “no shut”
Setup “no shut”
Configured the clock rate
Step 1
Step 2
Step 3
Step 4
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Examining Router Interfaces
-Physically connecting a WAN Interface.
-A WAN Physical Layer connection has sides:
Data Circuit-terminating Equipment (DCE) – This is the serviceprovider. CSU/DSU is a DCE device.
The CSU/DSU (DCE device) is used to convert the data from the router (DTEdevice) into a form acceptable to the WAN service provider.
a DCE device such as a CSU/DSU will provide the clock.
Data Terminal Equipment (DTE) – Typically the router is the DTEdevice.
Up-to-date technology
Cisco 1-Port T1/Fractional T1
DSU/CSU WAN Interface Card
(WIC-1DSU-T1-V2=)
Wh t i th i ifi t f th i f ti 1?
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Interfaces
For serial links that are directly interconnected, as in alab environment, one side of a connection must beconsidered a DCE and provide a clocking signal.
You can also distinguish DTE from DCE
–1) by looking at the connector between the two cables.The DTE cable has a male connector, whereas the DCEcable has a female connector .
–2) If a cable is connected between the two routers, youcan use the show controllers command to determinewhich end of the cable is attached to that interface.
R1#show controllers serial 0/0/0
Interface Serial0/0/0
Hardware is PowerQUICC MPC860
DCE V.35, no clock
<output omitted>
- What is the significant of the information 1?
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Interfaces Once the cable is attached, the clock can now be set with
the clock rate command.
–The available clock rates, in bits per second, are1200, 2400, 9600, 19200, 38400, 56000, 64000,72000, 125000, 148000, 500000, 800000,1000000, 1300000, 2000000, and 4000000.
–Some bit rates might not be available on certainserial interfaces.
R1(config)#interface serial 0/0
R1(config-if)#clock rate 64000
01:10:28: %LINEPROTO-5-UPDOWN: Line protocol onInterface Serial0/0, changed state to up
Note: If a router's interface with a DTE cable is configuredwith the clock rate command, the IOS will disregard thecommand and there will be no ill effects.
–Use the “show controllers serial 0/0/0” tofind out whether it is a DTE or DCE cable.
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TestingVerifying the Serial Interface Configuration R1#show interfaces
R1#show ip interface brief R1#ping 172.16.2.2R1#show ip route
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Routing Table Concepts The show ip route command reveals the content of the routing table.
–The main purpose of a routing table is to provide the router with paths todifferent destination networks.
The routing table consists of a list of "known" network addresses
–directly connected,
–configured statically,
–learned dynamically. POP Quiz:
– Can R1 ping R2?
– Can PC1 ping PC2?
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Routing Table Concepts Purpose of the debug ip routing command
Allows you to view changes that the router performs when adding or removing routes in real time
1
2
3
4
5
enable debugging with the debug ip routing command
Check the routing table
Configuring the IP address and Subnet Mask
Disable debug iprouting by usingeither the “undebugip routing” command
or the “undebug all”command.
disable interfaces with the shutdown command.
Check the routing table
Never use the debug all command on the production router.
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Routing Table and CDP Protocol
When a router only has its interfaces configured & no other routing protocols are configured then:
-The routing table contains only the directly connectednetworks
-Only devices on the directly connected networks arereachable
POP Quiz:Whypings
failed?
The output in this figure verifies that allconfigured interfaces are "up" and "up".
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Routing Table and CDP Protocol
When a router only has its interfaces configured, and therouting table contains the directly connected networks butno other routes, only devices on those directly connectednetworks are reachable.
–R1 can communicate with any device on the 172.16.3.0/24and 172.16.2.0/24 networks.
–R2 can communicate with any device on the 172.16.1.0/24,
172.16.2.0/24, and 192.168.1.0/24 networks. –R3 can communicate with any device on the 192.168.1.0/24and 192.168.2.0/24 networks.
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Routing Table and CDP Protocol
Checking each route in turn
–The ping command is used tocheck end to end connectivity
–Ping 172.16.3.1 failed
•Route does not match anyroute in the routing table
–Ping 192.168.1.1 succeed•192.168.1.0/24, matches thefirst 24 bits of the destination IPaddress
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Routing Table and CDP Protocol
Purpose of CDP –Cisco Discovery Protocol (CDP) is a powerfulnetwork monitoring and troubleshooting tool.
•CDP runs at the Data Link layer connecting the physicalmedia to the upper-layer protocols (ULPs).
•Because CDP operates at the Data Link layer, two or moreCisco network devices, such as routers that support differentNetwork layer protocols (for example, IP and Novell IPX), canlearn about each other.
– A layer 2 cisco proprietary tool used to gather informationabout other directly connected Cisco devices.
•enables you to access a summary of protocol and addressinformation about Cisco devices that are directly connected.
–the types of devices that are connected,
–the interfaces they are connected to,
–the interfaces used to make the connections,
–the model numbers of the devices.
–……..
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Routing Table and CDP Protocol Concept of neighbors
-2 types of neighbors
Layer 3 neighbors
At Layer 3, routing protocols consider neighbors to bedevices that share the same network address space.
R1 and R2 are neighbors. Both are members of the172.16.1.0/24 network.
R2 and R3 are also neighbors because they both sharethe 192.168.1.0/24 network.
But R1 and R3 are not neighbors because they do notshare any network address space.
Layer 2 neighbors
CDP operates at Layer 2 only. Therefore, CDP
neighbors are Cisco devices that are directlyconnected physically and share the same data link.
»R1 and S1 are CDP neighbors.
»R1 and R2 are CDP neighbors.
»R2 and S2 are CDP neighbors.
»R2 and R3 are CDP neighbors.
»R3 and S3 are CDP neighbors.
Notice the difference between Layer 2 andLayer 3 neighbors. The switches are notneighbors to the routers at Layer 3, becausethe switches are operating at Layer 2 only.However, the switches are Layer 2 neighbors
to their directly connected routers.
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Routing Table and CDP Protocol CDP is on by default.
–CDP exchanges hardware and softwaredevice information with its directly connectedCDP neighbors.
CDP show commands
Show cdp neighbors command
-Displays the following information:
Neighbor device IDLocal interface
Holdtime value, in seconds
Neighbor device capability code
Neighbor hardware platform
Neighbor remote port ID
Show cdp neighbors detail command
-It can also reveals the IP address of aneighboring device –knowing the IP address of the CDP neighbor isoften allows you to telnet into that device.
• and a lot more
– IOS version
– Platform
– …………
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Routing Table and CDP Protocol
Disabling CDP – CDP be a security risk
• Because some IOS versions send out CDP advertisementsby default, it is important to know how to disable CDP.
–If you need to disable CDP globally, for the entire device, usethis command:
• Router(config)#no cdp run
–If you want to use CDP but need to stop CDP advertisements
on a particular interface, use this command:
• Router(config-if)#no cdp enable
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Static Routes
A router can learn about remote networks in one of two ways: –Manually, from configured static routes
–Automatically, from a dynamic routing protocol
•Dynamic routing protocols are introduced in the next chapter.
Purpose of a static route
– A manually configured route used when routing from a network to a stubnetwork
• A stub network is a network accessed by a single route.
•For an example, here we see that anynetwork attached to R1 would only have
one way to reach other destinations,whether to networks attached to R2 or to destinations beyond R2.•Therefore, network 172.16.3.0 is astub network and R1 is a stub router.•Running a routing protocol between R1and R2 is a waste of resources
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Static Routes
IP route commandTo configure a static route use the following command: ip route
Example:
-Router(config)# ip route network-address subnet-mask {ip-address | exit-interface }
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Static route operation Example: Fly from Chicago to LA
Chicago
Los
Angeles
Chicago O’Hare Airport Los Angeles
RTR(config)# ip route prefix mask {address | interface}
O’Hare
O’Hare
Los
Angeles
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Static Routes
Remember R1 knows about its directlyconnected networks.
–These are the routes currently in itsrouting table.
The remote networks that R1 does notknow about are:
–172.16.1.0/124 - The LAN on R2 –192.168.1.0/24 - The serial networkbetween R2 and R3
–192.168.2.0/24 - The LAN on R3
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Static Routes
Dissecting static route syntax
ip route - Static route command
172.16.1.0 – Destination network address
255.255.255.0 - Subnet mask of destinationnetwork
172.16.2.2 - Serial 0/0/0 interface IP addresson R2, which is the "next-hop" to this network
show ip route output
–S - Routing table code for static route
–172.16.1.0 - Network address for the route
–/24 - Subnet mask for this route; this isdisplayed in the line above, known as the parentroute, and discussed in Chapter 8
–[1/0] - Administrative distance and metric for the static route (explained in a later chapter)
–via 172.16.2.2 - IP address of the next-hoprouter, the IP address of R2's Serial 0/0/0interface
R1(config)#ip route 172.16.1.0 255.255.255.0 172.16.2.2
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Static Routes
show ip route output
–S - Routing table code for static route
–172.16.1.0 - Network address for the route
–/24 - Subnet mask for this route; this isdisplayed in the line above, known as the parent
route, and discussed in Chapter 8 –[1/0] - Administrative distance and metric for the static route (explained in a later chapter)
–via 172.16.2.2 - IP address of the next-hoprouter, the IP address of R2's Serial 0/0/0interface
R1(config)#ip route 172.16.1.0 255.255.255.0 172.16.2.2
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Static Routes
Configuring routes to 2 or more remote networksUse the following commands for R1
-R1(config)#ip route 192.168.1.0 255.255.255.0 172.16.2.2
-R1(config)#ip route 192.168.2.0 255.255.255.0 172.16.2.2
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Static Routes Zinin’s 3 routing principles
Principle 1: "Every router makes its decision alone, based on the information it hasin its own routing table.“
R1 has three static routes in its routing table and makes forwarding decisionsbased solely upon the information in the routing table.
R1 does not consult the routing tables in any other routers.
Making each router aware of remote networks is the responsibility of thenetwork administrator.
Principle 2: "The fact that one router has certain information in its routing table doesnot mean that other routers have the same information.“
The network administrator would be responsible for ensuring that the next-hoprouter also has a route to this network
Using Principle 2, we still need to configure the proper routing on the other routers (R2 and R3) to make sure that they have routes to these three networks.
Principle 3: "Routing information about a path from one network to another does notprovide routing information about the reverse, or return path.“
Most of the communication over networks is bidirectional. This means thatpackets must travel in both directions between the end devices involved.
Using Principle 3 as guidance, we will configure proper static routes on the other routers to make sure they have routes back to the 172.16.3.0/24 network.
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Static Routes
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Static Routes with next-hop IP address
Resolving to an Exit Interface-Recursive route lookup - Occurs when the router has to perform multiplelookups in the routing table before forwarding a packet. A static route thatforwards all packets to the next-hop IP address goes through the followingprocess (reclusive route lookup)
(Step 1) The router first must match static route’s destination IP
address with the Next hop address The packet's destination IP address is matched to the static route192.168.2.0/24 with the next-hop IP address 172.16.2.2.
(Step 2) The next hop address is then matched to an exit interface
The next-hop IP address of the static route, 172.16.2.2, is matched to thedirectly connected network 172.16.2.0/24 with the exit interface of Serial 0/0/0.
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Static Routes with Exit Interfaces Configuring a Static route with an Exit
Interface
-Static routes configured with an exit interface are more efficient because the routing
–The routing table can resolve the exit interfacein a single search instead of 2 searches
If the static route cannot be resolved to an
exit interface, the static route is removed fromthe routing table
–Notice from the debug output that all threestatic routes were deleted when the Serial 0/0/0interface was shut down.
–They were deleted because all three static
routes were resolved to Serial 0/0/0. –However, the static routes are still in the R1'srunning configuration. If the interface comesback up (is enabled again with no shutdown),the IOS routing table process will reinstall thesestatic routes back into the routing table.
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Static Routes with Exit Interfaces Modifying Static routes
Existing static routes cannot be modified. The old static routemust be deleted by placing no in front of the ip route
Example:
-no ip route 192.168.2.0 255.255.255.0 172.16.2.2
A new static route must be rewritten in the configuration
R1(config)# no ip route 192.168.2.0 255.255.255.0 172.16.2.2R1(config)#ip route 192.168.2.0 255.255.255.0 serial 0/0/0
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Static Routes with Exit Interfaces Verifying the Static Route Configuration
-Use the following commands
Step 1 show running-config
Step 2 verify static route has been entered correctly
Step 3 show ip route
Step 4 verify route was configured in routing table
Step 5 issue ping command to verify packets canreach destination and that Return path is working
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Static route operation
Both types of the routesall have distance of 1
and metric of 0.
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Static Routes with Exit Interfaces Ethernet interfaces and ARP.
– If a static route is configured on an Ethernet link•If the packet is sent to the next-hop router then…
–the destination MAC address will be the address of the nexthop’s Ethernet interface
–This is found by the router consulting the ARP table.»If an entry isn’t found then an ARP request will be sent out
R1(config)#ip route 192.168.2.0 255.255.255.0 fa 0/1
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Static Routes with Exit Interfaces
Best not to use only an exit interface with Ethernet interfaces.
Router will have difficulty determining the destination MAC address.
With Ethernet networks, many different devices can be sharing thesame multiaccess network, including hosts and even multiple routers.
Router will not have sufficient information to determine which deviceis the next-hop device.
Use both the next-hop interface and the exit interface for Ethernet exit interfaces.
Only a single route lookup now needed.
R1(config)#ip route 192.168.2.0 255.255.255.0 fastethernet 0/1
R1(config)#ip route 192.168.2.0 255.255.255.0 fastethernet 0/1 172.16.2.2
The routing table entry for this route would be:
S 192.168.2.0/24 [1/0] via 172.16.2.2 FastEthernet0/1
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Summary and Default Route
Summarizing routes reduces the size of the routingtable.
Route summarization is the process of combining anumber of static routes into a single static route.
–For example, the networks 10.0.0.0/16, 10.1.0.0/16,
10.2.0.0/16, 10.3.0.0/16, 10.4.0.0/16, 10.5.0.0/16, all the waythrough 10.255.0.0/16 can be represented by a single networkaddress: 10.0.0.0/8.
Multiple static routes can be summarized into a singlestatic route if:
–The destination networks can be summarized into a singlenetwork address, and
–The multiple static routes all use the same exit-interface or next-hop IP address
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Calculating a summary route Here's the process of creating the summary route
172.16.1.0/22, as shown in the figure:1. Write out the networks that you want to summarize in
binary.
2. To find the subnet mask for summarization, start withthe left-most bit.
3. Work your way to the right, finding all the bits thatmatch consecutively.
4. When you find a column of bits that do not match,stop. You are at the summary boundary.
5. Now, count the number of left-most matching bits,which in our example is 22. This number becomesyour subnet mask for the summarized route, /22 or 255.255.252.0
6. To find the network address for summarization, copythe matching 22 bits and add all 0 bits to the end tomake 32 bits.
By following these steps, we can discover that the 3static routes on R3 can be summarized into a singlestatic route, using the summary network address of 172.16.0.0 255.255.252.0:
ip route 172.16.0.0 255.255.252.0 Serial0/0/1
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Example: Calculating a summary route
Which address can be used tosummarize networks 172.168.0.0 /24through 172.168.7.0 /24?
10101100 10101000 00000000 00000000
10101100 10101000 00000001 00000000 10101100 10101000 00000010 00000000
10101100 10101000 00000011 00000000
10101100 10101000 00000100 00000000
10101100 10101000 00000101 00000000
10101100 10101000 00000110 00000000
10101100 10101000 00000111 00000000
Answer:
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Example: Calculating a summary route
Which address can beused to summarizenetworks• 192.1.1.0/27
• 192.1.1.32/27
• 192.1.1.64/28
• 192.1.1.80/28
• 192.1.1.96/29
• 192.1.1.104/29
• 192.1.1.112/29
• 192.1.1.120/29
11000000 00000001 00000001 00000000
11000000 00000001 00000001 00100000
11000000 00000001 00000001 01000000 11000000 00000001 00000001 01010000
11000000 00000001 00000001 01100000
11000000 00000001 00000001 01101000
11000000 00000001 00000001 01110000
11000000 00000001 00000001 01111000
Answer:
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Summary Route Configuring a summary route
–Step 1: Delete the current static routeR3(config)#no ip route 172.16.1.0 255.255.255.0 serial0/0/1
R3(config)#no ip route 172.16.2.0 255.255.255.0 serial0/0/1
R3(config)#no ip route 172.16.3.0 255.255.255.0 serial0/0/1
–Step 2: Configure the summary static route•R3(config)#ip route 172.16.0.0 255.255.252.0 serial0/0/1
–Step 3: Verify the new static route
•show ip route ping
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Summary Route
Static routes and subnet masks –The routing table lookup process will use the most specific match when comparing destination IP address and subnet mask
–For example, what if we had the following two static routes in therouting table
•172.16.0.0/24 is subnetted, 3 subnets
•S 172.16.1.0 is directly connected, Serial0/0/0 and
•S 172.16.0.0/16 is directly connected, Serial0/0/1
–Consider a packet with the destination IP address 172.16.1.10. ThisIP address matches both routes.
•The routing table lookup process will use the most-specific match.
•Because 24 bits match the 172.16.1.0/24 route, and only 16 bits of the 172.16.0.0/16 route match, the static route with the 24 bit matchwill be used.
•This is the longest match.
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Default Route Default Static Route
This is a route that will match all packets.
Like route summarization this will help reducethe size of the routing table
Default static routes are used: –When no other routes in the routing table match thepacket's destination IP address. A common use iswhen connecting a company's edge router to the ISPnetwork.
–When a router has only one other router to which itis connected. This condition is known as a stubrouter.
Configuring a default static route
Similar to configuring a static route. Exceptthat destination IP address and subnet maskare all zeros
Example:
-Router(config)#ip route 0.0.0.0 0.0.0.0[exit-interface | ip-address ]
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Summary and Default Route R1 is a stub router.
–It is only connected to R2.
–Currently R1 has three static routes,which are used to reach all of the remotenetworks in our topology.
– All three static routes have the exit
interface Serial 0/0/0, forwarding packetsto the next-hop router R2.
R1 is an ideal candidate to have allof its static routes replaced by asingle default route.
–First, delete the three static routes
–Next, configure the single default staticroute using the same Serial 0/0/0 exitinterface
R1(config)#ip route 0.0.0.0 0.0.0.0 serial 0/0/0
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Static Routes and Packet Forwarding
Verify the change to the routing tablewith the show ip route command
S* 0.0.0.0/0 is directly connected, Serial0/0/0
–Note the * or asterisk next to the S.
• As you can see from the Codes table inthe figure, the asterisk indicates that this
static route is a candidate default route.
–The key to this configuration is the /0mask.
•We previously said that it is the subnetmask in the routing table that determineshow many bits must match between the
destination IP address of the packet andthe route in the routing table.
• A /0 mask indicates that zero or no bitsare needed to match.
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Self test: Static and static default route
Can you use both static andstatic default route toconfigure the communicationbetween both LANS and thecommunication to the
Internet.-Only 3 statement of static routeneeded to setup the network.
-1 static route
-2 default static route
WinterPark(config)# ip route 0.0.0.0 0.0.0.0 192.168.146.1 Altamonte(config)# ip route 10.0.234.0 255.255.255.0 192.168.146.2 Altamonte(config)# ip route 0.0.0.0 0.0.0.0 s0/1
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Static Routes and Packet Forwarding
Troubleshooting a Missing Route Tools that can be used to isolate routing problems
include:
-Ping – tests end to end connectivity
-Traceroute – used to discover all of the hops (routers) along thepath between 2 points
-Show IP route – used to display routing table & ascertainforwarding process
-Show ip interface brief- used to show status of router interfaces
-Show cdp neighbors detail – used to gather configurationinformation about directly connected neighbors
Layer 3
Layer 2
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Static Routes and Packet Forwarding
Solving a Missing Route Finding a missing or mis-configured route requires
methodically using the correct tools
-Start with PING. If ping fails then use traceroute to determine
where packets are failing to arrive- Than trace route
Issue: show ip route to examine routing table.
-If there is a problem with a mis-configured static route remove
the static route then reconfigure the new static route
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Summary Routers
-Operate at layer 3-Functions include best path selection & forwarding packets
Connecting Networks
WANs
Serial cables are connected to router serial ports.
In the lab environment clock rates must be configured for DCELANs
Straight through cables or cross over cables are used toconnect to fastethernet port. (The type of cable used dependson what devices are being connected)
Cisco Discovery Protocol
A layer 2 proprietary protocol
Used to discover information about directly connected Ciscodevices
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Summary Static Routes
-This is a manually configured path that specifies how the router will get to a certain point using a certain path.
Summary static routes
-This is several static routes that have been condensed into asingle static route.
Default route
-It is the route packets use if there is no other possible match for their destination in the routing table.
Forwarding of packets when static route is used
-Zinin’s 3 routing principles describe how packets are forwarded
Troubleshooting static routes may require some of the following
commands:-Ping
-Traceroute
-Show IP route
-Show ip interface brief
-Show cdp neighbors detail
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