Ccna Lab Topology 100406
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CCNA – Semester2
CCNA 3.1 Lab Topology
Semester 2
Lab 2.1 – Console connection
• Observe real routers and router’s interfaces • Establish console connection
Lab 2.2 – CLI and show commands • Stand-alone routers
Lab 2.3 – Basic router configuration
R1
R2
R3
R4
R5
R6
S1 201.10.11.1/24
S0 201.10.11.2/24
S0/0 199.6.13.2/24
S0/1 192.168.3.1/24
S0 192.168.3.2/24
S0 34.10.120.2/16
N/A
S1 199.6.13.1/24
S1/0 204.204.7.1/24
S0/0 204.204.7.2/24
S1 34.10.120.1/16
NA
E0 172.16.11.1/16
E0 172.18.12.1/24
F0/0 172.16.11.2/16
F0/0 172.17.13.1/16
E0 172.18.12.2/24
E0 172.17.13.2/16
Lab 2.4 - CDP
R1
R2
R3
R4
R5
R6
S0 10.1.0.1/16
S0 10.2.0.1/16
S0/0 10.3.0.2/16
S0/0 10.4.0.1/16
S1 10.6.0.2/16
S0 10.6.0.1/16
S1 10.2.0.2/16
S1 10.3.0.2/16
S1/0 10.4.0.2/16
S1/1 10.5.0.2/16
S2 10.5.0.1/16
S1 10.1.0.2/16
E0 10.7.0.2/16
NA
F0/0 10.7.0.1/16
F0/0 10.8.0.1/16
NA
E0 10.8.0.2/16
Lab 2.5 Recover password and IOS • Stand-alone routers
Lab 2.6 – Static route
R1
R2
R3
R4
R5
R6
S1 201.10.11.1/24
S0 201.10.11.2/24
S0/0 199.6.13.2/24
S0/1 192.168.3.1/24
S0 192.168.3.2/24
S0 34.10.120.2/16
N/A
S1 199.6.13.1/24
S1/0 204.204.7.1/24
S0/0 204.204.7.2/24
S1 34.10.120.1/16
NA
E0 172.16.11.1/16
E0 172.18.12.1/24
F0/0 172.16.11.2/16
F0/0 172.17.13.1/16
E0 172.18.12.2/24
E0 172.17.13.2/16
Lab Lab 2.7A - RIP 2.6 – Static route
R1
R2
R3
R4
R5
R6
S1 201.10.11.1/24
S0 201.10.11.2/24
S0/0 199.6.13.2/24
S0/1 192.168.3.1/24
S0 192.168.3.2/24
S0 34.10.120.2/16
N/A
S1 199.6.13.1/24
S1/0 204.204.7.1/24
S0/0 204.204.7.2/24
S1 34.10.120.1/16
NA
E0 172.16.11.1/16
E0 172.18.12.1/24
F0/0 172.16.11.2/16
F0/0 172.17.13.1/16
E0 172.18.12.2/24
E0 172.17.13.2/16
Lab 2.7B - IGRP
Lab 2.9 – Default route and troubleshooting
Lab 2.11A – Standard ACL (offline)
Lab 2.11B - Extended ACL (offline)
RA 172.16.3.100
Lab 2.11C - ACL Challenge (offline) •Outer-network can’t ping into innernetwork
Internet E0
•Do not allow outer-network to access inner-network except web service in Web Server(.66). •Traffic between Net1 and Net3 is not allowed •Other networks can only access web service in Web Server •Packets between PC1(.48) and PC3 (.80) are only allowed if routed across the direct serial link
S0
R_1
S1
Net3 .96
S1
E1
R_2
192.169.10.0/2 4
S0
S0
R_3 E0
E0
PC1
•Telnet to routers only from PC1
Net1
•All other kind of traffic is allowed
.32
PC2
S1
PC3 Net2 .64
Web
Lab 2.0A – Open Lab for 6 students
Given the IP address range: 220.10.5.0 Assign IP address to all hosts in the network -Serial connection using clock rate 64k and HDLC encapsulation -Config routing using IGRP with AS number of 90 for R2, R3, R4, R5 -R1 and R6 use default route only -Be able to use name to access other routers -Using meaningful banner and description -All access must be authenticated -Capture config using tftp-server or hyper terminal -Do not allow R1 and R6 Ethernet network to telnet to R3 -Only allow WS_A and WS_B to access R4 website
Lab 2.0B – Open Lab for 5 students Given the IP address range: 190.6.0.0/16 -Assign IP address to all host in the network -Serial connection using clock rate 64k and HDLC encapsulation -Using meaningful banner and description -All access must be authenticated -Config routing using IGRP with AS number of 200 for Lab B, C, D -Lab A and Lab E use default route only -Be able to telnet to and config all routers using name -Capture config using tftp-server or hyper terminal -Only allow Lab_C to telnet to LAB_B -Do not allow any host except WS_A and WS_B access LAB_C website
Semester 3
Lab 3.1 – VLSM and RIPv2 Use VLSM to create subnet address for each network with the requirement of IP: Each Ethernet network in Site A requires 30 IPs Each Ethernet network in Site B requires 10 Ips Use RIP v2 for routing protocol
Lab 3.2 - OSPF • • • • • • •
199.6.3.0/24 ProcessID: 5 DR:Branch1 & Site2 Key:newospf Hello: 17s Dead: 49s Internet:Branch1 Loopback
Lab 3.3 - EIGRP
Lab 3.6 Basic switch configuration • Stand-alone switches
Lab 3.7 - STP
Lab 3.8 - VLAN
Lab 3.9A: VLAN & VTP • • •
Configure VTP domain: CCNA, password: class, version 2. VLANs: Associate, Professional, Specialist Trunk ports: Server: f0/1, Client: f0/2
Ports ->
Default
Associate
Professional
Specialist
Server
2 – 3, 6
4,5,8 – 12
7,13 – 19
20 – 24
Client
1,3 – 9
10 – 15
15 – 18, 20
19, 21 – 24
Lab 3.9B – VLAN & InterVLAN • • • • •
IP range: 172.20.0.0/16 Vlan Default (port 1 – 5) needs 5 IPs Vlan Sales (port 6 – 10) needs 100 IPs Vlan Engineer (port 11 – 15) needs 50 IPs Vlan Marketing (port 16 – 23) needs 100 IPs
Lab 3.0A – Open Lab for 6 students
• • • • • • • •
Each Ethernet network requires 30 IPs Configure names, passwords, descriptions and banners for routers SW3 is Server, SW2 is Client, VTP domain Open, password Lab with 4 Vlan named: Default, Sale, Marketing, Accouting. Create 3 Vlan named: Default, Remote, Small on SW1. Set IPs for SWes. Inter-VLAN routing for all 4 VLANs on Router E2 and 3 Vlan on Router Gate. Redistribute routes between the 2 area with default metric Only nodes in VLAN Remote are allowed to telnet to O1 and O2 Do not allow any SW1’s VLAN to access E2 by web Do not allow ftp and tftp traffic between 2 areas.
Semester 4
Lab 4.1 – NAT/PAT & DHCP
Lab4.2 Topology
Lab4.3 Topology
Lab 4.4 – ISDN Dial-on-Demand routing
Configure dial-on-demand routing between 2 sites.
Lab 4.6A – Frame Relay
1. 2.
PVC(21-42) and PVC(32-41) belong to 1 subnet (partial-mesh) IP address is 192.168.1.0/24 . Each Loopback interface requires 30 IPs. Rouing protocol is EIGRP with AS 100
Lab 4.6B – Frame Relay Full mesh
Lab 4.0 – Open Lab
CCNA 3.1 Lab Topology
Semester 2
Lab 2.1 – Console connection
• Observe real routers and router’s interfaces • Establish console connection
Lab 2.2 – CLI and show commands • Stand-alone routers
Lab 2.3 – Basic router configuration
R1
R2
R3
R4
R5
R6
S1 201.10.11.1/24
S0 201.10.11.2/24
S0/0 199.6.13.2/24
S0/1 192.168.3.1/24
S0 192.168.3.2/24
S0 34.10.120.2/16
N/A
S1 199.6.13.1/24
S1/0 204.204.7.1/24
S0/0 204.204.7.2/24
S1 34.10.120.1/16
NA
E0 172.16.11.1/16
E0 172.18.12.1/24
F0/0 172.16.11.2/16
F0/0 172.17.13.1/16
E0 172.18.12.2/24
E0 172.17.13.2/16
Lab 2.4 - CDP
R1
R2
R3
R4
R5
R6
S0 10.1.0.1/16
S0 10.2.0.1/16
S0/0 10.3.0.2/16
S0/0 10.4.0.1/16
S1 10.6.0.2/16
S0 10.6.0.1/16
S1 10.2.0.2/16
S1 10.3.0.2/16
S1/0 10.4.0.2/16
S1/1 10.5.0.2/16
S2 10.5.0.1/16
S1 10.1.0.2/16
E0 10.7.0.2/16
NA
F0/0 10.7.0.1/16
F0/0 10.8.0.1/16
NA
E0 10.8.0.2/16
Lab 2.5 Recover password and IOS • Stand-alone routers
Lab 2.6 – Static route
R1
R2
R3
R4
R5
R6
S1 201.10.11.1/24
S0 201.10.11.2/24
S0/0 199.6.13.2/24
S0/1 192.168.3.1/24
S0 192.168.3.2/24
S0 34.10.120.2/16
N/A
S1 199.6.13.1/24
S1/0 204.204.7.1/24
S0/0 204.204.7.2/24
S1 34.10.120.1/16
NA
E0 172.16.11.1/16
E0 172.18.12.1/24
F0/0 172.16.11.2/16
F0/0 172.17.13.1/16
E0 172.18.12.2/24
E0 172.17.13.2/16
Lab Lab 2.7A - RIP 2.6 – Static route
R1
R2
R3
R4
R5
R6
S1 201.10.11.1/24
S0 201.10.11.2/24
S0/0 199.6.13.2/24
S0/1 192.168.3.1/24
S0 192.168.3.2/24
S0 34.10.120.2/16
N/A
S1 199.6.13.1/24
S1/0 204.204.7.1/24
S0/0 204.204.7.2/24
S1 34.10.120.1/16
NA
E0 172.16.11.1/16
E0 172.18.12.1/24
F0/0 172.16.11.2/16
F0/0 172.17.13.1/16
E0 172.18.12.2/24
E0 172.17.13.2/16
Lab 2.7B - IGRP
Lab 2.9 – Default route and troubleshooting
Lab 2.11A – Standard ACL (offline)
Lab 2.11B - Extended ACL (offline)
RA 172.16.3.100
Lab 2.11C - ACL Challenge (offline) •Outer-network can’t ping into innernetwork
Internet E0
•Do not allow outer-network to access inner-network except web service in Web Server(.66). •Traffic between Net1 and Net3 is not allowed •Other networks can only access web service in Web Server •Packets between PC1(.48) and PC3 (.80) are only allowed if routed across the direct serial link
S0
R_1
S1
Net3 .96
S1
E1
R_2
192.169.10.0/2 4
S0
S0
R_3 E0
E0
PC1
•Telnet to routers only from PC1
Net1
•All other kind of traffic is allowed
.32
PC2
S1
PC3 Net2 .64
Web
Lab 2.0A – Open Lab for 6 students
Given the IP address range: 220.10.5.0 Assign IP address to all hosts in the network -Serial connection using clock rate 64k and HDLC encapsulation -Config routing using IGRP with AS number of 90 for R2, R3, R4, R5 -R1 and R6 use default route only -Be able to use name to access other routers -Using meaningful banner and description -All access must be authenticated -Capture config using tftp-server or hyper terminal -Do not allow R1 and R6 Ethernet network to telnet to R3 -Only allow WS_A and WS_B to access R4 website
Lab 2.0B – Open Lab for 5 students Given the IP address range: 190.6.0.0/16 -Assign IP address to all host in the network -Serial connection using clock rate 64k and HDLC encapsulation -Using meaningful banner and description -All access must be authenticated -Config routing using IGRP with AS number of 200 for Lab B, C, D -Lab A and Lab E use default route only -Be able to telnet to and config all routers using name -Capture config using tftp-server or hyper terminal -Only allow Lab_C to telnet to LAB_B -Do not allow any host except WS_A and WS_B access LAB_C website
Semester 3
Lab 3.1 – VLSM and RIPv2 Use VLSM to create subnet address for each network with the requirement of IP: Each Ethernet network in Site A requires 30 IPs Each Ethernet network in Site B requires 10 Ips Use RIP v2 for routing protocol
Lab 3.2 - OSPF • • • • • • •
199.6.3.0/24 ProcessID: 5 DR:Branch1 & Site2 Key:newospf Hello: 17s Dead: 49s Internet:Branch1 Loopback
Lab 3.3 - EIGRP
Lab 3.6 Basic switch configuration • Stand-alone switches
Lab 3.7 - STP
Lab 3.8 - VLAN
Lab 3.9A: VLAN & VTP • • •
Configure VTP domain: CCNA, password: class, version 2. VLANs: Associate, Professional, Specialist Trunk ports: Server: f0/1, Client: f0/2
Ports ->
Default
Associate
Professional
Specialist
Server
2 – 3, 6
4,5,8 – 12
7,13 – 19
20 – 24
Client
1,3 – 9
10 – 15
15 – 18, 20
19, 21 – 24
Lab 3.9B – VLAN & InterVLAN • • • • •
IP range: 172.20.0.0/16 Vlan Default (port 1 – 5) needs 5 IPs Vlan Sales (port 6 – 10) needs 100 IPs Vlan Engineer (port 11 – 15) needs 50 IPs Vlan Marketing (port 16 – 23) needs 100 IPs
Lab 3.0A – Open Lab for 6 students
• • • • • • • •
Each Ethernet network requires 30 IPs Configure names, passwords, descriptions and banners for routers SW3 is Server, SW2 is Client, VTP domain Open, password Lab with 4 Vlan named: Default, Sale, Marketing, Accouting. Create 3 Vlan named: Default, Remote, Small on SW1. Set IPs for SWes. Inter-VLAN routing for all 4 VLANs on Router E2 and 3 Vlan on Router Gate. Redistribute routes between the 2 area with default metric Only nodes in VLAN Remote are allowed to telnet to O1 and O2 Do not allow any SW1’s VLAN to access E2 by web Do not allow ftp and tftp traffic between 2 areas.
Semester 4
Lab 4.1 – NAT/PAT & DHCP
Lab4.2 Topology
Lab4.3 Topology
Lab 4.4 – ISDN Dial-on-Demand routing
Configure dial-on-demand routing between 2 sites.
Lab 4.6A – Frame Relay
1. 2.
PVC(21-42) and PVC(32-41) belong to 1 subnet (partial-mesh) IP address is 192.168.1.0/24 . Each Loopback interface requires 30 IPs. Rouing protocol is EIGRP with AS 100
Lab 4.6B – Frame Relay Full mesh
Lab 4.0 – Open Lab
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