After configuring each host computer, record the host network settings with the ipconfig /all command.

Scenario

It is time for you to take on the Moscovium Network Consulting project you have been building towards. This project will require you to configure five devices in a small network. Specifically, you must configure a router, switch and PCs to support IPv4 and IPv6 connectivity for supported hosts. Your router and switch must also be managed securely. You will configure inter-VLAN routing, DHCP, Etherchannel, and port-security.

Assessment Objectives

Part 1: Initialize, Reload and Configure Basic Device Settings

Part 2: Configure Network Infrastructure Settings (VLANs, Trunking, Etherchannel)

Part 3: Configure Host Support

Part 4: Test and Verify IPv4 and IPv6 End-to-End Connectivity

Packet Tracer Required Resources

  • 1 Router (Cisco 4321)
  • 2 Switches (Cisco 2960)
  • 2 PCs
  • Ethernet cables as shown in the topology

VLAN Table

VLANVLAN Name
2Bikes
3Trikes
4Management
5Parking
6Native

Addressing Table

Device / InterfaceIP Address / PrefixDefault Gateway
R1 G0/0/1.210.19.8.1 /26N/A
R1 G0/0/1.22001:db8:acad:a::1 /64N/A
R1 G0/0/1.310.19.8.65 /27N/A
R1 G0/0/1.32001:db8:acad:b::1 /64N/A
R1 G0/0/1.410.19.8.97 /29N/A
R1 G0/0/1.42001:db8:acad:c::1 /64N/A
R1 G0/0/1.6N/AN/A
R1 Loopback0209.165.201.1 /27N/A
R1 Loopback02001:db8:acad:209::1 /64N/A
S1 VLAN 410.19.8.98 /2910.19.8.97
S1 VLAN 42001:db8:acad:c::98 /64N/A
S1 VLAN 4fe80::98N/A
S2 VLAN 410.19.8.99 /2910.19.8.97
S2 VLAN 42001:db8:acad:c::99 /64N/A
S2 VLAN 4fe80::99N/A
PC-A NICDHCP for IPv4 addressDHCP for IPv4 default gateway
PC-A NIC2001:db8:acad:a::50 /64fe80::1
PC-B NICDHCP for IPv4 addressDHCP for IPv4 default gateway
PC-B NIC2001:db8:acad:b::50 /64fe80::1

Note: There is no interface on the router supporting VLAN 5.

Instructions

Part 1: Initialize, Reload and Configure Basic Device Settings

Step 1: Initialize and reload router and switch.

  • Erase the startup configurations and VLANs from the router and switch and reload the devices.
  • After the switch is reloaded, configure the SDM template to support IPv6 as needed, and reload the switch again.
  • Before proceeding, have your instructor verify device initializations.

Step 2: Configure R1.

Configuration tasks for R1 include the following:

TaskSpecification
Disable DNS lookup 
Router nameR1
Domain nameccna-lab.com
Encrypted privileged EXEC passwordciscoenpass
Console access passwordciscoconpass
Set the minimum length for passwords10 characters
Create an administrative user in the local databaseUsername: admin Password: admin1pass
Set login on VTY lines to use local database 
Set VTY lines to accept SSH connections only 
Encrypt the clear text passwords 
Configure an MOTD Banner 
Enable IPv6 Routing 
Configure Interface G0/0/1 and sub interfacesSet the description Set the IPv4 address Set the IPv6 Link Local Address as fe80::1 Set the IPv6 address Activate Interface
Configure the Loopback0 interfaceSet the description Set the IPv4 address Set the IPv6 address Set the IPv6 Link Local Address as fe80::1
Generate an RSA crypto key1024 bits modulus

Step 3: Configure S1 and S2.

Configuration tasks for the switches include the following:

TaskSpecification
Disable DNS lookup 
Switch nameS1 or S2, as appropriate
Domain nameccna-lab.com
Encrypted privileged EXEC passwordciscoenpass
Console access passwordciscoconpass
Create an administrative user in the local databaseUsername: admin Password: admin1pass
Set login on VTY lines to use local database 
Set VTY lines to accept SSH connections only 
Encrypt the clear text passwords 
Configure an MOTD Banner 
Generate an RSA crypto key1024 bits modulus
Configure Management Interface (SVI)Set the Layer 3 IPv4 address Set the Ipv6 Link Local Address as FE80::98 for S1 and FE80::99 for S2 Set the Layer 3 IPv6 address
Configure Default GatewayConfigure the default gateway as 10.19.8.97 for IPv4

Part 2: Configure Network Infrastructure Settings (VLANs, Trunking, EtherChannel)

Step 1: Configure S1.

Configuration tasks for S1 include the following:

TaskSpecification
Create VLANsVLAN 2, name Bikes VLAN 3, name Trikes VLAN 4, name Management VLAN 5, name Parking VLAN 6, name Native
Create 802.1Q trunks that use the native VLAN 6Interfaces F0/1, F0/2, and F0/5
Create a Layer 2 EtherChannel port group that uses interfaces F0/1 and F0/2Use the LACP protocol for negotiation
Configure host access port for VLAN 2Interface F0/6
Configure port-security on access portsAllow 3 MAC addresses
Secure all unused interfacesAssign to VLAN 5, Set to access mode, add a description, and shutdown

Step 2: Configure S2.

Configuration tasks for S2 include the following:

TaskSpecification
Create VLANsVLAN 2, name Bikes VLAN 3, name Trikes VLAN 4, name Management VLAN 5, name Parking VLAN 6, name Native
Create 802.1Q trunks that use the native VLAN 6Interfaces F0/1 and F0/2
Create a Layer 2 EtherChannel port group that uses interfaces F0/1 and F0/2Use the LACP protocol for negotiation
Configure host access port for VLAN 3Interface F0/18
Configure port-security on access portsAllow 3 MAC addresses
Secure all unused interfacesAssign to VLAN 5, Set to access mode, add a description, and shutdown

Part 3: Configure Host Support

Step 1: Configure R1

Configuration Tasks for R1 include the following

TaskSpecification
Configure Default RoutingCreate a default routes for IPv4 and IPv6 that direct traffic to interface Loopback 0
Configure IPv4 DHCP for VLAN 2Create a DHCP pool for VLAN 2, consisting of the last 10 addresses in the subnet only. Assign the domain name ccna-a.net and specify the default gateway address as the router interface address for the subnet involved
Configure IPv4 DHCP for VLAN 3Create a DHCP pool for VLAN 3, consisting of the last 10 addresses in the subnet only. Assign the domain name ccna-b.net and specify the default gateway address as the router interface address for the subnet involved

Step 2: Configure host computers.

Configure the host computers PC-A and PC-B to use DHCP for IPv4 and statically assign the IPv6 GUA and Link Local addresses. After configuring each host computer, record the host network settings with the ipconfig /all command.

PC-A Network Configuration (2 points)
Descriptionblank
Physical Addressblank
IP Addressblank
Subnet Maskblank
Default Gatewayblank
IPv6 Default Gatewayblank
PC-B Network Configuration (2 points)
Descriptionblank
Physical Addressblank
IP Addressblank
Subnet Maskblank
Default Gatewayblank
IPv6 Default Gatewayblank

Part 4: Test and Verify End-to-End Connectivity

Use the ping command to test IPv4 and IPv6 connectivity between all network devices.

Note: If pings to host computers fail, temporarily disable the computer firewall and retest.

Use the following table to methodically verify connectivity with each network device. Take corrective action to establish connectivity if a test fails:

FromToProtocolIP AddressPing Results
PC-AR1, G0/0/1.2IPv410.19.8.1blank
PC-AR1, G0/0/1.2IPv62001:db8:acad:a::1blank
PC-AR1, G0/0/1.3IPv410.19.8.65blank
PC-AR1, G0/0/1.3IPv62001:db8:acad:b::1blank
PC-AR1, G0/0/1.4IPv410.19.8.97blank
PC-AR1, G0/0/1.4IPv62001:db8:acad:c::1blank
PC-AS1, VLAN 4IPv410.19.8.98blank
PC-AS1, VLAN 4IPv62001:db8:acad:c::98blank
PC-AS2, VLAN 4IPv410.19.8.99.blank
PC-AS2, VLAN 4IPv62001:db8:acad:c::99blank
PC-APC-BIPv4IP address will vary.blank
PC-APC-BIPv62001:db8:acad:b::50blank
PC-AR1 Loop0IPv4209.165.201.1blank
PC-AR1 Loop0IPv62001:db8:acad:209::1blank
PC-BR1 Loop0IPv4209.165.201.1blank
PC-BR1 Loop0IPv62001:db8:acad:209::1blank
PC-BR1, G0/0/1.2IPv410.19.8.1blank
PC-BR1, G0/0/1.2IPv62001:db8:acad:a::1blank
PC-BR1, G0/0/1.3IPv410.19.8.65blank
PC-BR1, G0/0/1.3IPv62001:db8:acad:b::1blank
PC-BR1, G0/0/1.4IPv410.19.8.97blank
PC-BR1, G0/0/1.4IPv62001:db8:acad:c::1blank
PC-BS1, VLAN 4IPv410.19.8.98blank
PC-BS1, VLAN 4IPv62001:db8:acad:c::98blank
PC-BS2, VLAN 4IPv410.19.8.99.blank
PC-BS2, VLAN 4IPv62001:db8:acad:c::99blank

Part 5: Cleanup

NOTE: DO NOT PROCEED WITH CLEANUP UNTIL YOUR INSTRUCTOR HAS GRADED YOUR SKILLS EXAM AND HAS INFORMED YOU THAT YOU MAY BEGIN CLEANUP.

Unless directed otherwise by the instructor, restore host computer network connectivity, and then turn off power to the host computers.

Before turning off power to the router and switch, remove the NVRAM configuration files (if saved) from both devices.

Disconnect and neatly put away all LAN cables that were used in the Final.

Router Interface Summary Table

Router ModelEthernet Interface #1Ethernet Interface #2Serial Interface #1Serial Interface #2
1800Fast Ethernet 0/0 (F0/0)Fast Ethernet 0/1 (F0/1)Serial 0/0/0 (S0/0/0)Serial 0/0/1 (S0/0/1)
1900Gigabit Ethernet 0/0 (G0/0)Gigabit Ethernet 0/1 (G0/1)Serial 0/0/0 (S0/0/0)Serial 0/0/1 (S0/0/1)
2801Fast Ethernet 0/0 (F0/0)Fast Ethernet 0/1 (F0/1)Serial 0/1/0 (S0/1/0)Serial 0/1/1 (S0/1/1)
2811Fast Ethernet 0/0 (F0/0)Fast Ethernet 0/1 (F0/1)Serial 0/0/0 (S0/0/0)Serial 0/0/1 (S0/0/1)
2900Gigabit Ethernet 0/0 (G0/0)Gigabit Ethernet 0/1 (G0/1)Serial 0/0/0 (S0/0/0)Serial 0/0/1 (S0/0/1)
4221Gigabit Ethernet 0/0/0 (G0/0/0)Gigabit Ethernet 0/0/1 (G0/0/1)Serial 0/1/0 (S0/1/0)Serial 0/1/1 (S0/1/1)
4300Gigabit Ethernet 0/0/0 (G0/0/0)Gigabit Ethernet 0/0/1 (G0/0/1)Serial 0/1/0 (S0/1/0)Serial 0/1/1 (S0/1/1)

Note: To find out how the router is configured, look at the interfaces to identify the type of router and how many interfaces the router has. There is no way to effectively list all the combinations of configurations for each router class. This table includes identifiers for the possible combinations of Ethernet and Serial interfaces in the device. The table does not include any other type of interface, even though a specific router may contain one. An example of this might be an ISDN BRI interface. The string in parenthesis is the legal abbreviation that can be used in Cisco IOS commands to represent the interface.

End of document