ccna exam 640-802 version 9.3
TRANSCRIPT
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Basic network components Transmission media
Connectors
NIC (Network Interface Card)
Protocols
Addresses
Hub / Switch
Modem
Router
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Transmission media 10Base2
10Base5
10BaseT
10BaseTX
100BaseFX fiber optics
10BaseT
Base – signaling type10 – Bandwidth of 10MbpsT – Twisted pair cableF - Fiber
10Base2
Base – signaling type10 – Bandwidth of 10Mbps2 – Support 200 meters
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10Base2
10Base5
10BaseT
10BaseTX
100BaseFX
Name Thinnet Thicknet Cat 3,4,5
Cat 5e,6,7 Fiber optics
Users per segment 30 208 1 1
Max length 185 500 100 100
Capacity 10Mbps 10Mbps
Topology Star / Bus
Star / Bus
OHMS 50 100
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Cable type Transmission speed
Cat1
Cat 2 Up to 4 Mbps
Cat 3 Up to 10 Mbps 16 MHz
Cat 4 Up to 16 Mbps 20MHz
Cat 5 10 Mbps to 100 Mbps 100MHz
Cat 5e 100 Mbps to 1000 Mbps
100MHz
Cat 6 Up to 10 Gbps 250MHz
Cat 6a Up to 10 Gbps 500MHz
Cat 7 Up to 10 Gbps 600MHz
Cat 7a Up to 100 Gbps 1000MHz
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Connecting cables
Straight through cable
Crossover cable
Rollover cable
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Straight through cable This cable is used to connect two different types of devices.
This is used to connect MAC device and Non MAC device.
Switch
Router
Host
Host Hub
Switch
Hub
Router
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Crossover cable This cable is used to connect same devices.
This is used to connect MAC to MAC or Non-MAC to Non-Mac.
Switch
Router
Hub
Hub Switch
Hub
Router
Switch
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Rollover cable
This cable is used to connect Router console port to PC serial(COM) port.
This cable is called Null modem cables.
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Network Interface Card (NIC)
This provide network communication to a LAN.
It contain buffer.
It contain unique 48bit MAC( Media Access Controller ) address.
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Protocol
Protocol is a set of rules and regulations.
Two device to establish communication both should be same protocol.
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Addresses
Addresses are used to identify the device.
There are two type of addresses.
MAC – Pre define IP – User define
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OSI Layer
Open System Interconnect Layer.
This is describe how data is communicated from one to another system.
Allow multiply vendor development and standardize.
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OSI Layer types
Application layer
Presentation layer
Session layer
Transport layer
Network layer
Data link layer
Physical layer
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7. Application Layer
Program to program communication.
Provides network services to use application.
Function
s
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6. Presentation Layer
Data translation and code formatting including compression and encryption.
Ensure application layer can be use data.
MPEG, MIDI, TIFF, JPEG, TXT, Quick time movie
Function
s
Standar
ds
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5. Session Layer
Establish and maintain session across the network.
Organize communication through simplex, half and full duplex mode.
Function
s
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4. Transport Layer Segments data and adds port numbers.
Data is ensured at this layer by maintaining flow control.
Error correction and detection.
Defined reliable and unreliable end to end data communication.
Connection orient communication.
Acknowledge and are received for every segment.
Call setup, data transfer and call termination.
Connection parameters are synchronized.
Windowing technique used to control outstanding data segment and to increase throughput.
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3. Network Layer
Data packet done here.
Responsible for sending DATA.
Assigns IP addresses.
Maintain routing table.
Find the best path.
Router
Function
s
Device
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2. Data Link Layer
Framing of the packets is done here.
Handles error notification, network topology and flow control.
Provides access to LAN medium in an orderly manner.
Adds MAC address to frames.
Switch, Bridge and NIC
Function
s
Devices
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1. Physical Layer
Sending and receive bits.
Places data on the Network media.
Communication directly with the media.
Hub, Repeater, Cable and Connector
Function
s
Devices
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Term Definition
FTP File Transfer Protocol
TFTP Trivial File Transfer Protocol
WWW World Wide Web
HTTP Hyper Text Transfer Protocol
SMTP Simple Mail Transfer Protocol
Voip Voice Over Internet Protocol
SNMP Simple Network Management Protocol
POP3 Post Office Protocol
NFS Network File System
RPC Remote Procedure Call
NETBIOS Network Basic Input/output System
TCP Transmission Control Protocol
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Term Definition
UDP User Datagram Protocol
SPX Sequence Packet Protocol
IP Internet Protocol
IPX Internet Packet Exchange
ARP Address Resolution Protocol
RARP Reverse Address Resolution Protocol
ICMP Internet Control Message Protocol
RIP Routing Information Protocol
OSPF Open Shortest Path First
NCP Network Control Program
SMB Server Message Block
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Layer Protocols /Services
Application FTP, TFTP, Telnet, WWW, HTTP, POP3, SMTP, Voip, SNMP, NCP, SMB, Apple Talk
Presentation NCP, AFP, TDI
Session NFS, SQL, RPC, NETBIOS, ZIP. SCP
Transport TCP, UDP, SPX, NWlink, NetBEUI
Network IP, IPX, ARP, RARP, ICMP, RIP, OSPF, NWlink, NetBEUI
Data Link
Physical
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Protocol Service Port Number
TCP WWW/HTTP 80
FTP 20 , 21
Telnet 23
SMTP 25
HTTPS 443
UDP DHCP 67 , 68
SNMP 161
TFTP 69 69
DNS 53 53
ICMP
IP
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TCP/IP Layers
OSI Layer TCP/IP Layer
Application, Presentation, Session layers
Application layer
Transport layer Transport layer
Network layer Internet layer
Data link , Physical layers Network Access layer ( Data link)
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Data Encapsulation Sequence
Data Segment Packets Frames Bits
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Cisco Hierarchical Model
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Communication methods
Unicast
Broadcast
Multicast
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Unicast
One to one communication.E.g.: Telephone
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Broadcast
One to any communication.E.g.: Radio, TV
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Multicast
One to many communication.E.g.: Video conference
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Addresses
Hardware
Ex: MAC address
Software
Ex: IP address
Ad
dre
sses
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MAC Addresses
48bit hexadecimal predefined address by manufactures.
E.g.: A1 - b5 – 56 - f3 - c8 – 33 - 60
• OUI• Organizationally Unique Identifier• Defined by “INA”.• There are blocks for all
manufactures.E.g.: CISCO, DELL, IBM…
Manufacture
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IP Addresses
Privet
Public
Rangers
IPV4
IPV6
Versions
Dynamic
Static
Types
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IP Rangers
Privet-Reserved for LAN / INTRANET.-governed by a body called INTERNIC.
Public-Defined with routing over the internet.-Reserved for WAN.-Given by ISPs.
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IP Types
Dynamic-Addresses which are automatically assigned by a DHCP service.-These are randomly assigned.
Static-Addresses which are manually assigned in the properties of TCP/IP by administrator.-These addresses will not changed unless we change them.
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IP Versions
IPV4E.g.: 192.168.10.100
IPV6E.g.:fe00.0000.0000.1258.0000.0000.0000.abfd
8bit 4 = 32bitOctal(8bit)
Hexa Decimal(16bit)16bit 4 = 128bit
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IPV4 Classes
Class A
Class B
Class C
Class D
Class E
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Class A
Network range 1.0.0.0 - 126.0.0.0
Subnet mask 255.0.0.0
Networks 126
Host per network 16777214
Privet range 10.0.0.1 - 10.255.255.254
E.g.: 10 . 1 . 1 . 1 255 . 0 . 0 . 0
Network ID
Host
127.0.0.1 to 127.255.255.255 is reserved for loopback testing purposes.
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Class B
Network range 128.0.0.0 - 191.255.0.0
Subnet mask 255.255.0.0
Networks 16384
Host per network 65534
Privet range 172.16.0.1 - 172.31.255.254
E.g.: 172. 16 . 0 . 1 255 . 255 . 0 . 0
Network ID
Host
169.254.0.1 - 169.254.255.254 is reserved for APIPA( Automatic Privet IP Address )
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Class C
Network range 192.0.0.0 - 223.255.255.0
Subnet mask 255.255.255.0
Networks 2097152
Host per network 254
Privet range 192.168.0.1 - 192.168.255.254
E.g.: 192. 168 . 1 . 1 255 . 255 . 255 . 0
Network ID
Host
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Class D
224.0.0.0 - 239.253.255.255 is reserved for multicasting services and applications.
Class E
240.0.0.0 - 255.255.255.255 is reserved for future use and research purposes( E.g.: NASA ).
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1 - 126
Class A
128 - 191Class B
192 - 223Class C
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SUBNETTING
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Break a large network to sub networks is called Subnetting.
Once you have break a network, you need a router to connect these sub networks.
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Advantages of Subnetting
Reduce network traffic.
Optimize network performance.
Simplified management.
Facilitated spanning of large geographical distance.
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192.168.0.0 / 24
255.255.255.0
8bit 8bit 8bit
172.16.0.0 / 16
255.255.0.0 8bit 8bit
11.0.0.0 / 8
255.255.255.0 8bit
Subnet prefix
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Subnetting class C
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192.168.0.0 / 26
llllllll llllllll llllllll ll000000
255 . 255 . 255 . 192
N = 2n
= 22
= 4
Host per network = 2n - 2
= 26 - 2
= 62
l l l l l l l l128 64 32 16 8 4 2 1
Therefor 128+64 = 192
n = on bits (l)
n = off bits (0)
1
3
2
26 = 24 + 2
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Magic number = 256 – 192
= 64
4
Network ID 1st IP Last IP Broadcast IP
192.168.0.0 0 + 1 = 1 63 - 1 = 62 64 - 1 = 63
192.168.0.64 64 + 1 = 65 127 - 1 = 126 128 - 1 = 127
192.168.0.128 128 + 1 = 129 191 - 1 = 190 192 - 1 = 191
192.168.0.192 192 + 1 = 193 255 - 1 = 254 255
5
2
1
Constant number
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Subnetting class B
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172.16.0.0 / 19
llllllll llllllll lll00000 00000000
255 . 255 . 224 . 0
N = 2n
= 23
= 8
Host per network = 2n - 2
= 213 - 2
= 8190
l l l l l l l l128 64 32 16 8 4 2 1
Therefor 128+64+32 = 224
n = on bits (l)
n = off bits (0)
1
3
2
19 = 16 + 3
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Magic number = 256 – 224
= 32
4
5
Constant number
Network ID 1st IP Last IP Broadcast ID
172.16.0.0 0.1 31.254 31.255
172.16.32.0 32.1 63.254 63.255
172.16.64.0 64.1 95.254 95.255
172.16.96.0 96.1 127.254 127.255
172.16.128.0 128.1 159.254 159.255
172.16.160.0 160.1 191.254 191.255
172.16.192.0 192.1 223.254 223.255
172.16.224.0 224.1 255.254 255.255
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Subnetting class A
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10.0.0.0 / 11
llllllll lll00000 00000000 00000000
255 . 224 . 0 . 0
N = 2n
= 23
= 8
Host per network = 2n - 2
= 221 - 2
= 2097152
l l l l l l l l128 64 32 16 8 4 2 1
Therefor 128+64+32 = 224
n = on bits (l)
n = off bits (0)
1
3
2
11 = 8 + 3
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Magic number = 256 – 224
= 32
4
5Constant number
Network ID 1st IP Last IP Broadcast ID
10.0.0.0 0.0.1 31.255.254 31.255.255
10.32.0.0 32.0.1 63.255.254 63.255.255
10.64.0.0 64.0.1 95.255.254 95.255.255
10.96.0.0 96.0.1 127.255.254 127.255.255
10.128.0.0 128.0.1 159.255.254 159.255.255
10.160.0.0 160.0.1 191.255.254 191.255.255
10.192.0.0 192.0.1 223.255.254 223.255.255
10.224.0.0 224.0.1 255.255.254 255.255.255
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Router
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Internetwork Operating Systems( IOS )
This is a kernel of the Cisco and most switches.
It’s a command line interface(CLI).
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Internal components of a Router
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Router memory elements
Boot ROM
Flash
RAM
NVRAM (Non Volatile RAM)
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Boot ROM
It stores the router’s bootstrap startup program.
It stores OS software.
It stores mini IOS image ( RX Boot ) with extremely limited capabilities.
It sores POST( Power on diagnostic test programs) routines and core level OS for maintenance.
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RAM
Stores running configuration program.
Provides caching.
RAM is a volatile memory and looses its information when router is turns off.
The configuration present in RAM is called Running configuration.
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Flash
Store IOS.
This is a erasable and reprogrammable memory.
An EPROM holds the most of the IOS image.
It maintains everything when router is turned off.
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NVRAM
Stores startup configuration files.
A rewritable memory area holds router’s configuration file.
NVRAM retains the information whenever router is rebooted.
Once configuration is saved, it will be saved in NVRAM and this configuration is called Startup configuration.
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Router Ports
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LAN Ports
WAN PortsBRI port ISDN connections
AUX Dial up connections
Serial port Lease line and Frame-Relay connectivity
Console port Direct access with the router
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Router boot sequence
The router performs a power-on self-test (POST) to discover and verify the hardware.
The router loads and run bootstrap code from ROM.
The router finds the IOS or other software and loads it.
The router finds the configuration file and loads it into running configuration.
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Router configuration
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RJ-45 connector
Rollover cable
RJ_45 to DB-9 Adaptor
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Router modes
Setup mode
User mode
Privileged / Enable mode
Global configuration mode
ROM monitor mode
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Router> User mode
Router# Privileged / Enable mode
Router(config)# Global configuration mode
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User mode
Used to:
o PING commands.o Router informationo RAM, ROM, NVRAM information
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Enable / Privileged mode
Used to:
o View router information.o Setting up clock and date.o Debugging, saving any data configured in
router and terminal configuration.
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Global configuration mode
Used to:
o Name setting for the router.o Interface configuration setting.o Password setting.o Routing protocol setting.o Access list setting.
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Routing Protocol
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Routing
Router is used to talking packet from one device to another device and sending it through the network to another device on a different network with the help of router.
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Minimum requirements for routing
Destination network address and its subnet.
Neighbor routers from which it can learn about remote networks.
Possible routers to all remote networks.
The best route to each remote network.
How to maintain and verify routing information.
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Types of routing
Static
Default
Dynamic
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Static routing
In static routing, the administrator have to manually add routers in each router’s routing table.
Administration distance is 1 with next hop IP address and 0 with exit interface.
Manual configuration for each destination.
To configure know destination network and its subnet mask.
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Static route command
R1(config)#ip route 150.50.0.0 255.255.0.0 200.100.10.2 1
Destination network
Destination subnet mask
Next hop ip address
Administrative distance
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Remove the Static routing
R1(config)#no ip route 150.50.0.0 255.255.0.0 200.100.10.2 1
R1(config)#no ip route 20.1.1.128 255.255.0.128 200.100.10.2 1
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Advantages of Static routing
No overhead on the router CPU.
No bandwidth usage between routers.
Security ( Administrator only allows routing )
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Disadvantages
The Admin must really understand the internetwork and how each router is connected.
If one network is added to the network , the admin must add a route to it on all routers.
It is not feasible in large networks because it would be a fulltime job.
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Default Routing
Default routing is used to send packet s with a remote destination network not in the routing table to the next hop router.
You can only use default routing on stub networks which means that they have only one exit port out of the network.
Administrative distance is 0.
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Dynamic Routing
This is the process of using protocols to find and update routing tables on routers.
This is easier than other two.
The function of dynamic routing protocol is advertise directly connected network and exchange the information between the routers.
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Routing protocols
IGP ( Interior Gateway Protocol )
Used to exchange routing information with routers in the same autonomous systems(AS). An AS is a collection of networks under a common administrative domain.( E.g.: RIP, IGRP, EIGRP, OSPF, ISIS )
EGPs ( Exterior Gateway Protocol )
Used to communicate between ASs. EGP is a border Gateway Protocol( BGP ).
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Autonomous System
An Autonomous system is a collection of networks under a common administrative domain.
IGPs operate within an autonomous system where as EGP connects different autonomous systems.
Every autonomous system has a Distinct number.
IANA (Internet Assigned Numbers Authority) is responsible for allocating this number.
We can use any number unless the organization plans for an EGP.
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Dynamic routing protocol
ClassfullRouting
protocol don’t advertise the subnet mask
RIPV1IGRP
ClasslessRouting protocol advertise
subnet mask
RIPV2EIGRPOSPFISIS
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Flavors of dynamic routing protocols
Type Protocol
Distance Vector Protocol RIP , IGRP
Link State Protocol OSPF , ISIS
Hybrid Protocol EIGRP
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Distance Vector Protocol
Link State Protocol Hybrid
Advertise Periodic advertise RIP = Every 30 sec IGRP = Every 90 sec
Advertise only at network trigger. That is new information at routing table
Advertise full routing table
Advertise updates only
Advertise only directly connected routers
Flood the advertisement
Convergence Has high convergence time
Convergence is low
Limit Has a limit RIP = Max 15 hops IGRP = Max 255 hops
No limit
Network Small network Large network
Routing loop Routing loop is problem No routing loops
Neighbor relation
Don not establish neighbor relation
Formal way to establish neighbor relation
Com
bin
ati
on o
f both
DV
P a
nd L
SP
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Summarization (Router Aggregation)
Reduce the number of routing entry in the routing table called Summarization.
Advantages – Reduction in the size of the routing table
means. Less overhead in terms of network traffic, CPU
and memory. Greater flexibility in addressing the networks.
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Variable Length Subnet Mask(VLSM)
VLSM is used within an organization instead of CIDR ( Classless Inter Domain Routing ) which is used within the internet.
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Classless Inter Domain Routing ( CIDR )
CIRD is the new addressing scheme for the internet which allows for more efficient allocation of IP addresses than the old Class A, B and C addressing scheme.
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Why we need CIRD ?
With a new network being connected to the internet every 30 minutes the internet was faced with 2 critical problems.
o Running out of IP addresseso Running out of capacity in the global
routing tables.
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Running out of IP addresses
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RIP
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RIPV1Classfull
Broadcast
No support for VLSM
No authentication
No support for discontinuous networks
RIPV2Classless
It uses Multicast address 224.0.0.9 to send updates
Support VLSM
Allows MD5 authentication
Support for discontinuous networks
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Routing Information Protocol Version 1
RIPV1
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Administrative distance is 120.
Classfull routing protocol.
Update time is 30 seconds.
Distance vector protocol.
It uses Hop count to calculate matric value.
It uses lowest hop to select the best path.
It uses broadcast address 255.255.255.255 sent updates.
Support maximum 15 hops.
16th hop is unreachable and un-sharable.
Advertise classfull network.
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Network A
Router 1 is going to reach to the network A
Path 1 : Router 1 Router 0 Router 4 = 2HopsPath 2 : Router 1 Router 4 = 1HopPath 3 : Router 1 Router 2 Router 3 Router 4 = 3 Hops
So RIPV1 is used Path 2 as the best path.
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RIPV1 Configuration
R1(config)#router rip To enable routing protocol rip
R1(config-route)#network 10.0.0.0 Advertise Class A default network
R1(config-route)#network 172.168.0.0 Advertise Class A default network
R1(config-route)#network 200.100.0.0 Advertise Class A default network
R1(config-route)#^Z To save
R1#copy run start
R2(config)#router rip To enable routing protocol rip
R2(config-route)#network 10.0.0.0 Advertise Class A default network
R2(config-route)#network 172.168.0.0 Advertise Class A default network
R2(config-route)#network 200.100.0.0 Advertise Class A default network
R2(config-route)#^Z
R2#copy run start
R1#show ip route
R2R1200.100.10.1 / 24
200.100.10.1 / 24
S0
S1
L1
L0
L1
L010.1.1.1
/ 8
172.16.10.9. / 30
150.50.1.1 / 16
20.1.1.140 / 26
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R 20.0.0.0 / 8 [120/1] connected via 200.100.10.2
R# Debug ip rip Display sending and received updates
RIP V1 updates sending “255.255.255.255”
10.0.0.0
172.168.0.0
200.100.10.0
RIP route
Administrative distance
ClassfullMetric [ one hop count]
R# Show ip router rip To display only RIP routers
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Routing Information Protocol Version 2
RIPV2
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RIPV2 Configuration
R1(config)#router rip To enable routing protocol rip
R1(config-route)#network 10.0.0.0 Advertise Class A default network
R1(config-route)#network 172.168.0.0 Advertise Class A default network
R1(config-route)#network 200.100.0.0 Advertise Class A default network
R1(config-route)#version2
R1(config-route)#no auto summary
R2(config)#router rip To enable routing protocol rip
R2(config-route)#network 10.0.0.0 Advertise Class A default network
R2(config-route)#network 172.168.0.0 Advertise Class A default network
R2(config-route)#network 200.100.0.0 Advertise Class A default network
R2(config-route)#version2
R2(config-route)#no auto summary
R1#show ip route
R2R1200.100.10.1 / 24
200.100.10.1 / 24
S0
S1
L1
L0
L1
L010.1.1.1
/ 8
172.16.10.9. / 30
150.50.1.1 / 16
20.1.1.140 / 26
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R 20.1.1.128 / 26 [120/1] connected via 200.100.10.2
R# Debug ip rip Display sending and received updates
RIP V2 updates sending 224.0.0.9 update
10.0.0.0
172.168.0.0
200.100.10.0
Classless route
R# Show ip router rip To display only RIP routers
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Remove RIP
R(config)#no router rip
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OSPF
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Open Shortest Path First (OSPF) Link state routing protocol
Administrator distance is 110
Support VLSM
Support manual summarization
It uses cost to calculate metric value
It uses SPF algorithm to select best path
It uses multicast address 224.0.0.5 and 224.0.0.6 to send and receive updates
Sending incremental updates
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It uses Hello protocol to establish neighbor relation
It uses router ID to establish neighbor relation
It uses area to communicate
It maintain three type of tables
o Routing tableo Neighbor tableo Database table
Router IDPriority [ Default value is 1 ]Hello interval [ 10 sec ]Dead interval [ 40 sec ]Authenticating bitStub area flagProcess ID
conta
ins
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Single area OSPF
The entire interface in the network belongs to same area called single area.
e0
e0
S1
S0
Area 1
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Multi area OSPF
In multiarea, all the areas must connect to the Area o (Black Bone Area) directly of virtually ( Area 3 is virtually connected to the area 0 )
e0
e0
S1
S0
Area 0
Area 3
Area 2
Area 1
e0
Virtual link
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OSPF cost calculating
Interface bandwidth is Bandwidth 64kpbs
Cost = 108 / Bandwidth
= 108/64*1000
= 1562
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Router ID calculating
Once OSPF is configured router automatically calculate the router ID.
This router has 2 physical interfaces e0 and s0. router ID for this router is highest IP address of physical interfaces 200.10.1.1
e0 S0 200.10.1.1 /25
100.10.1.1 / 25
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In this router has 2 physical interfaces and 2 logical interfaces.
Route ID for this router is highest IP address for logical interface 2.2.2.2
e0 S0 200.10.1.1 /25
100.10.1.1 / 25
L1L0
2.2.2.2/30
1.1.1.1/30
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OSPF Network Command
Network [sub network address] [wildcard mask] area [number]
Broadcast address 255.255.255.255Subnetmask 255.255.255.252 (-)
Wildcard Mask 0. 0. 0. 3
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OSPF Configuration
R1(config)#router ospf 10 10 is the process ID
R1(config-route)#network 10.0.0.0 0.255.255.255 area 1
R1(config-route)#network 172.168.0.0 0.0.0.3 area 1
R1(config-route)#network 200.100.0.0 0.0.0.255 area 1
R2(config)#router ospf 10 10 is the process ID
R2(config-route)#network 10.0.0.0 0.255.255.255 area 1
R2(config-route)#network 172.168.0.0 0.0.0.3 area 1
R2(config-route)#network 200.100.0.0 0.0.0.255 area 1
R1#show ip route
R2R1200.100.10.1 / 24
200.100.10.1 / 24
S0
S1
L1
L0
L1
L010.1.1.1
/ 8
172.16.10.9. / 30
150.50.1.1 / 16
20.1.1.140 / 26
R# Show ip ospf interface To trouble shooting
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O 20.0.0.128 / 26 [110 / 65]
OSPF route
R# Show ip router ospf Display only ospf routers
Classless
Administrative distance
Metric [cost]
R# Show ip ospf neighbor Display neighbor table & it contain
R# Show ip ospf database Display database table
R# Debug ip ospf adj Display ospf adjacency
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Remove OSPF
R(config)#no router ospf 10
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EIGRP
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Enhanced Interior Gateway Routing Protocol ( OSPF )
Hybrid protocol
Administrative distance 90
Classless protocol
Cisco proprietary protocol
It uses bandwidth, delay, reliability, Loading & MTU to calculate Metric Value.
It uses for unequal cost load balancing.
It uses Multicast address 224.0.0.10 to send updates
It uses autonomous system numbers
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It maintain three types of tables
o Routing table [ Successor path ]o Neighbor tableo Topology table [ Successor & Feasible successor path]
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EIGRP Configuration
R1(config)#router eigrp 30 30 Autonomous number must same
R1(config-route)#network 10.0.0.0
R1(config-route)#network 172.168.0.0
R1(config-route)#network 200.100.0.0
R1(config-route)#network no auto-summary
R2(config)#router eigrp 30 30 Autonomous number must same
R2(config-route)#network 10.0.0.0
R2(config-route)#network 172.168.0.0
R2(config-route)#network 200.100.0.0
R1(config-route)#network no auto-summary
R1#show ip route eigrp
R2R1 200.100.10.1 / 24
200.100.10.1 / 24
S0
S1
L1
L0
L1
L010.1.1.1
/ 8
172.16.10.9. / 30
150.50.1.1 / 16
20.1.1.140 / 26
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D 20.1.1.128 / 26 [ 90 / 26903010 ]
Trouble shooting
EIGRP route
R# Show ip eigrp neighbor Display eigrp neighbor table
R# Show ip eigrp topology Display eigrp topology table
R# Show debug eigrp neighbor
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Adjacency process RIP EIGRP
RIP / EIGRP timerUpdate timer
30s 90s
Invalid timerTime taken to identify invalid network
90s 270s
Flush timerTime taken to remove invalid network form routing table
240s 630s
Hold down timerSame as flush timer
240s 280s
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Routing loop
Distance vector routing protocol subject of routing loop.
There are 3 ways to avoid the routing loops.
o Split Horizono Route poisoningo Hold down
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Split horizon Split horizon says don’t send update to same interface. That is where the updates is originated.
R2R1 200.100.10.1 / 24
200.100.10.1 / 24
S0blocked
S1
L1
L0
L1
L010.1.1.1
/ 8
172.16.10.9. / 30
150.50.1.1 / 16
20.1.1.140 / 26
Update200.00.10.010.0.0.0172.16.0.0
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Routing poisoning
If the network is failed change the metric value to unreachable value.
R2R1 200.100.10.1 / 24
200.100.10.1 / 24
S0
S1
L1
L0
L1
L010.1.1.1
/ 8
172.16.10.9. / 30
150.50.1.1 / 16
20.1.1.140 / 26Fail
Before network failsRouting tableR 172.16.0.0 / 16 [120/1]
After network failsRouting tableR 172.16.0.0 / 16 [120/26]
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Hold-Down
If the network is failed, remove the entry from routing table.
R2R1 200.100.10.1 / 24
200.100.10.1 / 24
S0
S1
L1
L0
L1
L010.1.1.1
/ 8
172.16.10.9. / 30
150.50.1.1 / 16
20.1.1.140 / 26Fail
Before network failsRouting tableR 172.16.0.0 / 16 [120/1]
After network failsRouting tableNo entry for network172.16.0.0
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Passive Interface Command
This command is used to control the routing updates.
R2R1 200.100.10.1 / 24
200.100.10.1 / 24
S0
S1
L1
L0
L1
L010.1.1.1
/ 8
172.16.10.9. / 30
150.50.1.1 / 16
20.1.1.140 / 26Fail
Before network failsRouting tableR 172.16.0.0 / 16 [120/1]
After network failsRouting tableNo entry for network172.16.0.0
R1(config)#router ripR1(config-router)#passive-interface serial 0
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Bandwidth Command Specify the bandwidth to the Interface serial 0. by default serial interface bandwidth is T1 speed (1.54Mbps).
Define the speed 128kbps to the interface serial 0
R2R1 200.100.10.1 / 24
200.100.10.1 / 24
S0
S1
L1
L0
L1
L010.1.1.1
/ 8
172.16.10.9. / 30
150.50.1.1 / 16
20.1.1.140 / 26
R1(config)#interface serial 0R1(config-if)#bandwidth 128000
128kbps
128kbps
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Network Manageme
nt
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Backup and Restore the IOS and Configuration file
Before you upgrade or restore a IOS and configuration file, you should copy the existing file to a TFTP host as a backup in case the new file does not work.
You can use any TFTP host to perform this function.
By default the Flash memory is a router is use to store the IOS and NVRAM is used to store the Configuration file.
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Router
E010.1.1.1/24
TFTP Server10.1.1.2/24Default gateway10.1.1.1
Ethernet
• Router Ethernet IP address and TFTP server IP address has to be same subnet and both should have sane subnet mask .
• Default gateway address to the TFTP server is always router E0 IP address 10.1.1.1
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Considerations
o Check the physical connectivity between router and TFTP server[Ping, show ip interface brief].
o Document the IOS image file name.o Verify the hard disk capacity of TFTP server.o Verify the flash memory capacity [show
flash].
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IOS Backup
R1#copy flash tftp
Remote host name(or)IP address? 10.1.1.2
[TFTP server IP address]
Source file name. C2500.121.10.bin
Destination file name and then Enter.
!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!1!
[Output cut]
Upload to server done
Flash copy took 00:10:30[hh:mm:ss]
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Restore and Upgrade IOS
Router #copy tftp flash
****NOTICE****
Flash loader helper v1.0
This process will accept the copy option and then terminate
The current system image to use the ROM based image for the copy
Router functionality will not be available during that time
If you are logged in via telnet this connection will terminate
Users with console access can see the results of the copy operation
---***---
Proceed? [Confirm] Press Enter
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Remote host name (or) IP Address? 10.1.1.2
[TFTP server IP address]
source file name? C2500.1251.jas10.bin
Destination file name. Enter
Erasing device
Eeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeee
Loading c2500-1251.jas10.bin from 10.1.1.2(via Ethernet)
!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!![output cut]
[OK-735532/800526 bytes]
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Backup configuration file
R1#copy start tftp
Address or name of remote host[]? 10.1.1.2
Destination filename[running-config]?R2
!!
501 bytes copied in 9.236sec (35bytes/sec)
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Restore configuration file
R1#copy tftp start
Address or name of remote host[]? 10.1.1.2
Source filename[]? R2
Destination filename [running-config]? Enter
Accessing tftp://10.1.1.1/R2
Loading R2 from 10.1.1.1 (via Ethernet0):
!!
[OK-501/4096 byte]
501 byte copied in 3.200 sec (62 bytes/sec)
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Cisco Discovery Protocol( CDP )
This is used to collect the directly and remotely connected Cisco devices information.
This is proprietary protocol designed by Cisco.
R2R1200.100.10.1 / 24
200.100.10.1/ 24
S0
S1128kbps
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CDP timer
Global CDP information
o Sending CDP packets every 60 secondso Sending a holdtime value of 180 seconds
R# Show cdpR# show cdp details To see CDP details
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Changing CDP Timer Value
Disable CDP under interface
R(config)# cdp timer 90R(config)# cdp holdtime 240
R(config)#interface serial 0R(config)#no cdp enable
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Troubleshooting commands
Show run Display the running-config file
Show start Display the startup-config file
Show version Display the IOS type and versions well as the configuration
Show cdp neighbor Shows the directly connected neighbors and the details about them
Show cdp neighbor detail Shows the IP address and IOS versions and type and includes all of the information from the show cdp neighbor command
Ping Tests IP connectivity to a remote device
Trace or traceroute Tests the connection to a remote device and shows the path it took through the internet
work to find the remote device
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CDP
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Access Control
List
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Access control list, gather basic statics on packet flow and security policies can be implemented.
Sensitive devices can also be protected from unauthorized access.
It is a basic Firewall.
It blocks unwanted incoming and outgoing traffic.
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Access Control List
Standard Access List
• It contain only the source IP address in an IP packet to filter the network.
• This is permits or denies an entire suite of protocol.
• Range is 1 to 99.
Extended Access List
• It contains source and destination IP address, protocol field in the network layer header and port number at the Transport layer header.
• Range is 100 to 199.
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Once you create an access list, you apply it to an interface with either an Inbound or an Outbound list.
Inbound Outbound
First packet are processed through the access list and then routed to the destination.
First packets are routed to the outbound interface and then processed through the access list.
E0E1
PC1 PC2
Inbound Access List
E0E1
PC1 PC2
Outbound Access List
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ACL Considerations
You can only assign one access list per interface, per control, or per direction.
This means that if you are creating IP access lists, you can only have one inbound access list and one.
Design your access list so that the more specific tests are at the top of the access list.
Anytime a new list is added the bottom of the list.
You can’t remove one line from an access list.
By default end of the access list is deny all.
Create access lists and then apply them to an interface.
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ACL Process
ACL always compared with each add every line of the access list in sequential order that is it will always start with line 1, then go to the line 2, then 3 and so on.
ACL compared lines one by one of the access list only until a match is made. Once the packet is matched , a line of the access list adds then does not compare next lines.
By default “deny” at the end of each access list. If a packet does not match any lines in the access list, it will drop the packets.
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Standard Access List
e0
S1
S0
172.16.10.1/30
10.1.1.1/30
200.100.10.1/24
200.100.10.2/24
192.168.10.1/24
192.168.10.3/24Gateway 192.168.10.1
192.168.10.2/24Gateway 192.168.10.1
pc1
pc2e0
L0
L1
Ethernet
R1 R2
Standard ACL Lab
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Block only packets from PC1 to Router R1.
o Source is PC1 [192.168.10.2]o Destination is R1o Define and apply close to destination router
R1 configurationDefine
R1(config)#access-list 10 deny 192.168.10.2R1(config)#access-list 10 permit any
ApplyR1(config)#interface serial 0R1(config-if)#ip access-group 10
Access-list number = 10
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R1(config)#access-list 10 deny 192.168.102R1(config)#access-list 10 permit any
R1(config)#interface serial 0R1(config-if)#ip access group 10
R1#show access-list Display all the access list configured on routerR1#show access-list 10 Display only access-list 10R1#show ip interface Display access list applied to an interface and
Inbound / Outbound
Pc1:/> Ping 200.100.10.1 0%Pc1:/> Ping 10.1.1.1 0%Pc1:/> Ping 172.16.10.1 0%
Pc1:/> Ping 200.100.10.1 100%Pc1:/> Ping 10.1.1.1 100%Pc1:/> Ping 172.16.10.1 100%
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Remove the access-list
You can’t remove a single line from access list. If you try to remove , it will remove entire access list
R1(config)#no access-list 10
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Block only packets from 192.168.10.0/24 network to router R1
o Source is 192.168.10.0/24o Destination is Router R1o Define and apply close to destination router
R1 configurationDefine
R1(config)#access-list 30 deny 192.168.10.0 0.0.0.255R1(config)#access-list 30 permit any
ApplyR1(config)#interface serial 0R1(config-if)#ip access-group 30
Source network
Wild card
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168
R1(config)#access-list 30 deny 192.168.102 0.0.0.255R1(config)#access-list 30 permit any
R1(config)#interface serial 0R1(config-if)#ip access group 30
R1#show access-list R1#show access-list 10 R1#show ip interface
Pc1:/> Ping 200.100.10.1 0%Pc1:/> Ping 10.1.1.1 0%Pc1:/> Ping 172.16.10.1 0%
Pc1:/> Ping 200.100.10.1 0%Pc1:/> Ping 10.1.1.1 0%Pc1:/> Ping 172.16.10.1 0%
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Extended Access List
e0
S1
S0
172.16.10.1/30
10.1.1.1/30
200.100.10.1/24
200.100.10.2/24
192.168.10.1/24
192.168.10.3/24Gateway 192.168.10.1
192.168.10.2/24Gateway 192.168.10.1
pc1
pc2e0
L0
L1
Ethernet
R1 R2
Extended ACL Lab
Configure VTY password ***** Your password
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Block only Telnet traffic from PC1 to router R1 loopback 0 interface.
o Source is PC1 [192.168.10.2]o Destination is R1 loopback 0 172.16.10.1o Protocol is TCPo Service is Telnet and port is 23o Define and apply ACL to router R2
Command format
R(config)#Access-list [number][deny/permit][protocol][source][destination]eq[service name or port]
R2(config)#Access-list 101 deny tcp host 192.168.10.2 host 172.16.10.1 eq 23
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R2(config)#access-list 101 deny tcp host 192.168.10.2 host 172.16.10.1 eq 23
R2(config)#access-list 101 permit ip any any
R2(config)#interface Ethernet 0
R2(config)#ip access-group 101
Access list 101 is applied to interface Ethernet 0 Inbound
Only telnet traffic is blocked from PC1 other traffics are permitted.
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Remove the access-list
R2(config)#no access-list 101
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Block only networks 192.168.10.0/24 to access WEB(WWW) traffic
o Source is network 192.168.10.0/24o Destination is anyo Protocol is TCPo Service and port number is WWW [80]
R1(config)#access-list 105 deny 192.168.10.0 0.0.0.255 any eq WWWR1(config)#access-list 105 permit ip any anyR1(config)#interface serial 0R1(config-if)#ip access-group 105 in
PC1:>/telnet 072.16.10.1 PC1:>/telnet 072.16.10.1…………….. …………….Connection refused by host Connection refused by host
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WAN PROTOCO
L
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WAN connectivity types
Dedicated line – Lease line and DSL (Digital Subscriber Link)
Circuit switching – Dial up and ISDN (Integrated System Digital Network )
Packet switching – Frame relay and X.25
Cell switching - ATM
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WAN Protocols and Encapsulation types
High Density Link Controller ( HDLC )
Point to point protocols ( PPP )
Frame Relay
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High Density Controller ( HDLC )
This is a Cisco proprietary protocol.
It is default encapsulation used by Cisco routers over synchronous serial links.
HDLC is a point to point protocol used on leased lines.
No authentication can be used with HDLC.
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Point to Point Protocol (PPP)
This is a data link protocol that can be used over either asynchronous serial (dial up) or synchronous serial (ISDN) media and that uses the LCP( Link Control Protocol ) to build and maintain data link connections.
PPP uses,o Authenticationo Compressiono Multilinko Error detection
Password Authentication Protocol (PAP)
Challenge Authentication Protocol (CHAP)
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Password Authentication Protocol (PAP) This is less secure than CHAP.
Passwords are sent in a clear text and it is only performed upon the initial link establishment.
When the PPP link is first established, the remote node sends back to the sending router the user name and password until authentication is acknowledged.
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Internet based leased line
172.16.10.1 S0
Router A(ISDN)
Router B(Zoom)
172.16.10.2 S0
1.1
1.21.3
1.4 5.1
5.25.3
5.4
E01.S0
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#config t
(config)#int E 0
(config-if)#ip address 192.168.1.50 255.255.255.0
(config-if)#no shutdown
(config-if)#exit
(config)#int S 0
(config-if)#ip address 172.16.1.1 255.255.0.0
(config-if)#clock rate 56000 ( for DCE )
(config-if)#bandwidth 64
(config-if)#no shut
(config-if)#exit
(config-if)#ip routing
(config-if)#ip route 192.168.5.0 255.255.255.0 172.16.1.2
(config-if)#int S0
(config-if)#encapsulation ppp
(config-if)#ppp authentication PAP
(config-if)#ppp PAP sent-username password cisco
For router A
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#config t
(config)#int E 0
(config-if)#ip address 172.168.5.50 255.255.255.0
(config-if)#no shutdown
(config-if)#exit
(config)#int S 0
(config-if)#ip address 172.16.1.1 255.255.0.0
(config-if)#clock rate 56000 ( for DCE )
(config-if)#bandwidth 64
(config-if)#no shut
(config-if)#exit
(config-if)#ip routing
(config-if)#ip route 192.168.1.0 255.255.255.0 172.16.1.1
(config-if)#int S0
(config-if)#encapsulation ppp
(config-if)#ppp authentication PAP
(config-if)#ppp PAP sent-username password cisco
For router B
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Challenge Authentication Protocol ( CHAP )
CHAP is use at the initial startup of a link and at periodic checkup on the link to make sure the router is still communicating with the same host.
After PPP finished its initial phase, local router sends a challenge request to the remote device.
The remote device sends a value calculated using a one-way hash function called MD5.
The local router checks this hash value to make sure it matches.
If the value don’t match, then the link immediately terminates.
Passwords are sends in Encrypted format.
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Internet based leased line
172.16.1.1 S0
Router A(ISDN)
Router B(Zoom)
172.16.10.2 S0
1.1
1.21.3
1.4 5.1
5.25.3
5.4
E01.S0
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#config t
(config)#int E 0
(config-if)#ip address 192.168.1.50 255.255.255.0
(config-if)#no shutdown
(config-if)#exit
(config)#int S 0
(config-if)#ip address 172.16.1.1 255.255.0.0
(config-if)#clock rate 56000 ( for DCE )
(config-if)#bandwidth 64
(config-if)#no shut
(config-if)#exit
(config-if)#ip routing
(config-if)#ip route 192.168.5.0 255.255.255.0 172.16.1.2
(config-if)#int S0
(config-if)#encapsulation ppp
(config-if)#ppp authentication CHAP
(config-if)#ppp CHAP hostname zoom
(config-if)#ppp CHAP password cisco
For router A
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#config t
(config)#int E 0
(config-if)#ip address 172.168.5.50 255.255.255.0
(config-if)#no shutdown
(config-if)#exit
(config)#int S 0
(config-if)#ip address 172.16.1.1 255.255.0.0
(config-if)#clock rate 56000 ( for DCE )
(config-if)#bandwidth 64
(config-if)#no shut
(config-if)#exit
(config-if)#ip routing
(config-if)#ip route 192.168.1.0 255.255.255.0 172.16.1.1
(config-if)#int S0
(config-if)#encapsulation ppp
(config-if)#ppp authentication CHAP
(config-if)#ppp CHAP hostname winsys
(config-if)#ppp CHAP password cisco
For router B
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Integrated Service Digital Network ( ISDN )
This is used in circuit switching WAN technology and it is a synchronous serial line.
ISDN contain 2 channels.
o Channel D – Establish the link o Channel B – Carry the data
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Benefits of ISDN
Can carry voice, video and data simultaneously.
Has faster call setup than modem.
Has faster data rates than modem connection.
Used as a backup line.
Used for voice conference.
Used for Small office and Home office (SOHO).
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Types of ISDN lines
Basic Rate Interface ( BRI )
Primary Rate Interface ( PRI )
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Basic Rate Interface ( BRI )
BRI has two B-channel and one D-channel.
B-channel + D-channel
2 * 64kbps + 1 * 16kbps
128kbps + 16kbps
144kbps Total channel capacity
48kbps Framing and Synchronization
192kbps Total Link Capacity
Maximum data transfer speed of ISDN BRI is 128kbps
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Dial on Demand Routing (DDR)
This is used to allow 2 or more Cisco routers to dial an ISDN dial-up connection on an as needed basis.
This is only used for low-volume, periodic network connections using either a Public Switch Telephone Network ( PSTN ) or ISDN.
This was designed to reduce WAN cost if you have to pay on a per minute or per packet basis.
DDR works when a packet received on an Interface meets the requirements of an access list defined by administrator which defines interesting traffic.
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How DDR works?
I. Route to the destination network is determined.
II. Interesting packets dictate a DDR cell.
III. Dialer information is looked up.
IV. Traffic is transmitted.
V. Call is terminated when no more traffic is being transmitted over a link and the idle-timeout periods ends.
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DDR configuration
R1(config-if)#dialer-group 5
R1(config-if)#exit
R1(config-if)#dialer-list 5 protocol ip permit
R1(config-if)#dialer-group 2
R1(config-if)#exit
R1(config)#dialer-list 2 protocol ip list 10
R1(config)#access-list 10 permit host 192.168.20.2
R1(config)#access-list 10 permit host 200.100.10.2
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Troubleshooting commands
Router#show dialer shows the number of times the dialer string has been reached, the Idle-timeout values of each B channel, the length of call, and the name of the router to which the interface is connected.
Router#show isdn active shows the number called and whether a call is in progress
Router#show isdn status shows if you are SPIDs are valid and if you are connected and communicated with the provider’s switch.
Router#show dialer shows layer 3 to layer 2 mapping.
Router#debug dialer shows you the call setup teardown procedures
Router#debug isdn q921 shows layer-2 processes (local router to local switch)
Router#debug isdn q931 shows layer-3 processes (local router to remote switch)
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Multilink PPP
This is a specification that enables the bandwidth aggregation of multiple B channels into one logical pipe.
Its mission is comparable to that of Cisco’s BOD.
More specifically, the Multilink PPP feature provides load-balancing functionality over multiple wide area network (WAN) links, while providing multivendor interoperability, packets fragmentation and proper sequencing and load calculation on both inbound and outbound traffic.
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The command to enable PPP multilink
Router A (config-if)#ppp multilinkRouter A (config-if)#dialer load threshold 50 either
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Ra
Rb
Rc
192.168.10.2/24
192.168.10.1/24
10.12.1.2
20.12.1.2
E0
E0
E0BRI 0
BRI 1
BRI 0
BRI 0
SPID 1 - 00333300
SPID 1 - 00222200
Profile 1 – 10.12.1.1Profile 2 – 20.12.1.1
Configuration for a dialer profile
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Router A(config)#isdn switch-type basic-net3
Router A(config)#interface BRI0
Router A(config-if)#encapsulation ppp
Router A(config-if)#dialer pool-member1
Router A(config-if)#ppp authentication chap
Router A(config-if)#multilink
Router A(config)#interface BRI1
Router A(config-if)#encapsulation ppp
Router A(config-if)#dialer pool-member1
Router A(config-if)#ppp authentication chap
Router A(config-if)#multilink
Router A(config)#interface Dialer1
Router A(config-if)#ip address 10.12.1.1 255.255.255.0
Router A(config-if)#encapsulation ppp
Router A(config-if)#dialer remote-name Router B
Router A(config-if)#dialer string 2222 class remote
Router A(config-if)#dialer load threshold 50 either
Router A(config-if)#dialer pool 1
Router A(config-if)#dialer group 1
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Router A(config-if)# ppp authentication chap
Router A(config-if)#ppp multilink
Router A(config)#map-class dialer remote
Router A(config-map-class)#dialer isdn speed 56
Router A(config)# interface Dialer2
Router A(config-if)#ip address 20.13.1.1 255.255.255.0
Router A(config-if)#encapsulation ppp
Router A(config-if)#dialer remote-name Router C
Router A(config-if)#dialer string 3333 class remote
Router A(config-if)#dialer load threshold 50 either
Router A(config-if)#dialer pool 1
Router A(config-if)# dialer-group 1
Router A(config-if)# ppp authentication chap
Router A(config-if)# ppp multilink
Router A(config)#map-class dialer remote
Router A(config-map-class)#dialer isdn speed 56
Router A(config)#ip route 10.12.1.2 255.255.255.255 Dialer1
Router A(config)#ip route 20.12.1.2 255.255.255.255 Dialer2
Router A(config)#ip route 10.13.1.0 255.255.255.0 10.12.1.2
Router A(config)#dialer-list 1 protocol ip permit
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Frame Relay
This is a connection-oriented, layer 2 networking technology.
It operates at speeds from 56kbps to 45Mbps.
This is very flexible and offers a wide array of deployment options.
This operates statistically multiplexing multiple data streams over a single physical link.
Each data stream is known as a Virtual Circuit ( VC ).
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VC Flavors
Permanent (PVC) Switched (SVC)
Implies, permanent, nailed up circuits
A data connection is made only when there is traffic to send across the link
Don’t tear down or reestablish dynamically
Establish dynamically and can reroute around the network
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Each VC tagged with and identifier to keep it unique.
This identifier known as a Data Link Connection Identifier ( DLCI ) is determined on a per-leg basis during the transmission.
In other word it is locally significant.
It must be unique and agreed upon by 2 adjacent frame relay devices.
As long as the 2 agree, the value can be any valid number, and the number doesn’t have to be the same end to end (from router to router across a Telco Network).
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Valid DLCI numbers are 16-1007.
For DLCI purposes, 0-15 is reserved, as are 1008-1023.
The DLCI also defines the logical connection between the Frame Relay (FR) switch and the customer premises equipment (CPE).
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Data Link Connection Identifiers ( DLCI )
Frame Relay virtual circuits (PVC) are identified by the DLCIs.
A FR service providers such as telephone company, typically assigns DLCI values which are used by FR to distinguish between different virtual circuits on the network.
Because many virtual circuits can be terminated on one multipoint FR interface, many DLCIs are often affiliated with it.
DLCI locally significant to the router.
This is used to identify the connectivity between local router and local switch.
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Frame Relay Encapsulation
To enable FR on the interface, simply issue the command encapsulation frame relay.
There are 2 types of Frame Relay Encapsulation.
Cisco – both are cisco routers IETF – one end is non cisco router
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Local Management Interface( LMI )
This is a signaling standard between a CPE device (router) and a frame switch.
The LMI is responsible for managing and maintaining status between these devices.
LMI messages provide information about,
Keepalives – Verify data is flowing Multicasting – Provides a local DLCI PVC Multicast addressing – Provides DLCI status Status of virtual circuits – Provides DLCI status
Router A(config-if)#frame-relay Imi-type? Cisco ansi q933a
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Committed Information Rate( CIR )
This means, the average rate you want to transmit.
Generally this is not the same as the CIR provides by the Telco.
this is amount you want to send on periods of no congestion.
CIR defines Bits per seconds.
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Frame Relay Configuration
Router A configuration
R1(config)#interface serial 0
R1(config)#ip address 10.1.1.1 255.255.255.0
R1(config)#no shutdown
R1(config-if)#encapsulation frame-relay(Cisco/ietf)
R1(config-if)#frame relay interface-dlci 100
R1(config-if)#frame-relay Imi-type(cisco/Ansi/Q933a)
R1(config-if)#no-frame-relay inverse-arp
R1(config-if)#frame-relay map ip 10.1.1.2 100
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Router B configuration
R1(config)#interface serial 0
R1(config)#ip address 10.1.1.2 255.255.255.0
R1(config)#no shutdown
R1(config-if)#encapsulation frame-relay
R1(config-if)#frame relay interface-dlci 200
R1(config-if)#frame-relay Imi-type(cisco/Ansi/Q933a)
R1(config-if)#no-frame-relay inverse-arp
R1(config-if)#frame-relay map ip 10.1.1.2 200