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Import from CCNA contest results.

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This commit is contained in:
Marcello Fante
2024-07-09 11:58:54 -04:00
committed by Joe Clarke
parent cb110ab616
commit aaf25dc813
4 changed files with 1341 additions and 0 deletions
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848
lab-topologies/ccna/Domain_2/2.2-configure_interswitch_connectivity_2/2.2_Completed_Lab.yaml Normal file
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rotation: 0
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text_content: |-
G0/3.1 10.0.0.1 /16
G0/3.2 192.168.2.1/24
text_font: monospace
text_italic: false
text_size: 12
text_unit: pt
thickness: 1
type: text
x1: -280.0
y1: 120.0
z_index: 4
nodes:
- boot_disk_size: null
configuration:
- name: ios_config.txt
content: |-
Building configuration...
Current configuration : 3552 bytes
!
! Last configuration change at 07:53:42 UTC Thu May 9 2024
!
version 15.2
service timestamps debug datetime msec
service timestamps log datetime msec
no service password-encryption
service compress-config
!
hostname SW1
!
boot-start-marker
boot-end-marker
!
!
no logging console
!
no aaa new-model
!
!
!
!
!
!
!
!
no ip domain-lookup
ip cef
no ipv6 cef
!
!
!
spanning-tree mode pvst
spanning-tree extend system-id
!
!
!
!
!
!
!
!
!
!
!
!
!
!
!
interface GigabitEthernet0/0
switchport access vlan 10
switchport mode access
negotiation auto
!
interface GigabitEthernet0/1
switchport access vlan 10
switchport mode access
negotiation auto
!
interface GigabitEthernet0/2
negotiation auto
!
interface GigabitEthernet0/3
negotiation auto
!
interface GigabitEthernet1/0
negotiation auto
!
interface GigabitEthernet1/1
switchport access vlan 20
switchport mode access
negotiation auto
!
interface GigabitEthernet1/2
switchport access vlan 20
switchport mode access
negotiation auto
!
interface GigabitEthernet1/3
negotiation auto
!
interface GigabitEthernet2/0
negotiation auto
!
interface GigabitEthernet2/1
negotiation auto
!
interface GigabitEthernet2/2
negotiation auto
!
interface GigabitEthernet2/3
negotiation auto
!
interface GigabitEthernet3/0
negotiation auto
!
interface GigabitEthernet3/1
negotiation auto
!
interface GigabitEthernet3/2
negotiation auto
!
interface GigabitEthernet3/3
switchport trunk encapsulation dot1q
switchport mode trunk
negotiation auto
!
ip forward-protocol nd
!
ip http server
ip http secure-server
!
ip ssh server algorithm encryption aes128-ctr aes192-ctr aes256-ctr
ip ssh client algorithm encryption aes128-ctr aes192-ctr aes256-ctr
!
!
!
!
!
!
control-plane
!
banner exec ^CC
IOSv - Cisco Systems Confidential -
Supplemental End User License Restrictions
This IOSv software is provided AS-IS without warranty of any kind. Under no circumstances may this software be used separate from the Cisco Modeling Labs Software that this software was provided with, or deployed or used as part of a production environment.
By using the software, you agree to abide by the terms and conditions of the Cisco End User License Agreement at http://www.cisco.com/go/eula. Unauthorized use or distribution of this software is expressly prohibited.
^C
banner incoming ^CC
IOSv - Cisco Systems Confidential -
Supplemental End User License Restrictions
This IOSv software is provided AS-IS without warranty of any kind. Under no circumstances may this software be used separate from the Cisco Modeling Labs Software that this software was provided with, or deployed or used as part of a production environment.
By using the software, you agree to abide by the terms and conditions of the Cisco End User License Agreement at http://www.cisco.com/go/eula. Unauthorized use or distribution of this software is expressly prohibited.
^C
banner login ^CC
IOSv - Cisco Systems Confidential -
Supplemental End User License Restrictions
This IOSv software is provided AS-IS without warranty of any kind. Under no circumstances may this software be used separate from the Cisco Modeling Labs Software that this software was provided with, or deployed or used as part of a production environment.
By using the software, you agree to abide by the terms and conditions of the Cisco End User License Agreement at http://www.cisco.com/go/eula. Unauthorized use or distribution of this software is expressly prohibited.
^C
!
line con 0
exec-timeout 0 0
line aux 0
line vty 0 4
exec-timeout 0 0
login
!
!
end
cpu_limit: null
cpus: null
data_volume: null
hide_links: false
id: n0
image_definition: null
label: SW1
node_definition: iosvl2
parameters: {}
ram: null
tags: []
x: -320
y: 280
interfaces:
- id: i0
label: Loopback0
type: loopback
- id: i1
label: GigabitEthernet0/0
slot: 0
type: physical
- id: i2
label: GigabitEthernet0/1
slot: 1
type: physical
- id: i3
label: GigabitEthernet0/2
slot: 2
type: physical
- id: i4
label: GigabitEthernet0/3
slot: 3
type: physical
- id: i5
label: GigabitEthernet1/0
slot: 4
type: physical
- id: i6
label: GigabitEthernet1/1
slot: 5
type: physical
- id: i7
label: GigabitEthernet1/2
slot: 6
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- id: i8
label: GigabitEthernet1/3
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- id: i9
label: GigabitEthernet2/0
slot: 8
type: physical
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type: physical
- id: i11
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slot: 10
type: physical
- id: i12
label: GigabitEthernet2/3
slot: 11
type: physical
- id: i13
label: GigabitEthernet3/0
slot: 12
type: physical
- id: i14
label: GigabitEthernet3/1
slot: 13
type: physical
- id: i15
label: GigabitEthernet3/2
slot: 14
type: physical
- id: i16
label: GigabitEthernet3/3
slot: 15
type: physical
- boot_disk_size: null
configuration:
- name: ios_config.txt
content: |-
Building configuration...
Current configuration : 3177 bytes
!
! Last configuration change at 07:53:46 UTC Thu May 9 2024
!
version 15.9
service timestamps debug datetime msec
service timestamps log datetime msec
no service password-encryption
!
hostname R1
!
boot-start-marker
boot-end-marker
!
!
no logging console
!
no aaa new-model
!
!
!
mmi polling-interval 60
no mmi auto-configure
no mmi pvc
mmi snmp-timeout 180
!
!
!
!
!
!
!
!
!
!
!
no ip domain lookup
ip cef
no ipv6 cef
!
multilink bundle-name authenticated
!
!
!
!
!
redundancy
!
!
!
!
!
!
!
!
!
!
!
!
!
!
!
interface GigabitEthernet0/0
no ip address
shutdown
duplex auto
speed auto
media-type rj45
!
interface GigabitEthernet0/1
no ip address
shutdown
duplex auto
speed auto
media-type rj45
!
interface GigabitEthernet0/2
no ip address
shutdown
duplex auto
speed auto
media-type rj45
!
interface GigabitEthernet0/3
no ip address
duplex auto
speed auto
media-type rj45
!
interface GigabitEthernet0/3.1
encapsulation dot1Q 10
ip address 10.0.0.1 255.255.0.0
!
interface GigabitEthernet0/3.2
encapsulation dot1Q 20
ip address 192.168.2.1 255.255.255.0
!
ip forward-protocol nd
!
!
no ip http server
no ip http secure-server
!
ipv6 ioam timestamp
!
!
!
control-plane
!
banner exec ^CC
**************************************************************************
* IOSv is strictly limited to use for evaluation, demonstration and IOS *
* education. IOSv is provided as-is and is not supported by Cisco's *
* Technical Advisory Center. Any use or disclosure, in whole or in part, *
* of the IOSv Software or Documentation to any third party for any *
* purposes is expressly prohibited except as otherwise authorized by *
* Cisco in writing. *
**************************************************************************^C
banner incoming ^CC
**************************************************************************
* IOSv is strictly limited to use for evaluation, demonstration and IOS *
* education. IOSv is provided as-is and is not supported by Cisco's *
* Technical Advisory Center. Any use or disclosure, in whole or in part, *
* of the IOSv Software or Documentation to any third party for any *
* purposes is expressly prohibited except as otherwise authorized by *
* Cisco in writing. *
**************************************************************************^C
banner login ^CC
**************************************************************************
* IOSv is strictly limited to use for evaluation, demonstration and IOS *
* education. IOSv is provided as-is and is not supported by Cisco's *
* Technical Advisory Center. Any use or disclosure, in whole or in part, *
* of the IOSv Software or Documentation to any third party for any *
* purposes is expressly prohibited except as otherwise authorized by *
* Cisco in writing. *
**************************************************************************^C
!
line con 0
exec-timeout 0 0
line aux 0
line vty 0 4
exec-timeout 0 0
login
transport input none
!
no scheduler allocate
!
end
cpu_limit: null
cpus: null
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image_definition: null
label: R1
node_definition: iosv
parameters: {}
ram: null
tags: []
x: -320
y: 80
interfaces:
- id: i0
label: Loopback0
type: loopback
- id: i1
label: GigabitEthernet0/0
slot: 0
type: physical
- id: i2
label: GigabitEthernet0/1
slot: 1
type: physical
- id: i3
label: GigabitEthernet0/2
slot: 2
type: physical
- id: i4
label: GigabitEthernet0/3
slot: 3
type: physical
- boot_disk_size: null
configuration:
- name: node.cfg
content: |-
# this is a shell script which will be sourced at boot
hostname inserthostname-here
# configurable user account
USERNAME=cisco
PASSWORD=cisco
hostname PC0
echo '127.0.0.1 PC1' >> /etc/hosts
ip address add 10.0.0.60/255.255.0.0 dev eth0
route add default gw 10.0.0.1 eth0
cpu_limit: null
cpus: null
data_volume: null
hide_links: false
id: n2
image_definition: null
label: PC0
node_definition: desktop
parameters: {}
ram: null
tags: []
x: -560
y: 440
interfaces:
- id: i0
label: eth0
slot: 0
type: physical
- boot_disk_size: null
configuration:
- name: node.cfg
content: |-
# this is a shell script which will be sourced at boot
hostname inserthostname-here
# configurable user account
USERNAME=cisco
PASSWORD=cisco
hostname PC1
echo '127.0.0.1 PC1' >> /etc/hosts
ip address add 10.0.0.50/255.255.0.0 dev eth0
route add default gw 10.0.0.1 eth0
cpu_limit: null
cpus: null
data_volume: null
hide_links: false
id: n3
image_definition: null
label: PC1
node_definition: desktop
parameters: {}
ram: null
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x: -440
y: 480
interfaces:
- id: i0
label: eth0
slot: 0
type: physical
- boot_disk_size: null
configuration:
- name: node.cfg
content: |-
# this is a shell script which will be sourced at boot
hostname inserthostname-here
# configurable user account
USERNAME=cisco
PASSWORD=cisco
hostname PC2
echo '127.0.0.1 PC1' >> /etc/hosts
ip address add 192.168.2.40/255.255.255.0 dev eth0
route add default gw 192.168.2.1 eth0
cpu_limit: null
cpus: null
data_volume: null
hide_links: false
id: n4
image_definition: null
label: PC2
node_definition: desktop
parameters: {}
ram: null
tags: []
x: -120
y: 480
interfaces:
- id: i0
label: eth0
slot: 0
type: physical
- boot_disk_size: null
configuration:
- name: node.cfg
content: |-
# this is a shell script which will be sourced at boot
hostname inserthostname-here
# configurable user account
USERNAME=cisco
PASSWORD=cisco
hostname PC3
echo '127.0.0.1 PC1' >> /etc/hosts
ip address add 192.168.2.20/255.255.255.0 dev eth0
route add default gw 192.168.2.1 eth0
cpu_limit: null
cpus: null
data_volume: null
hide_links: false
id: n5
image_definition: null
label: PC3
node_definition: desktop
parameters: {}
ram: null
tags: []
x: -40
y: 440
interfaces:
- id: i0
label: eth0
slot: 0
type: physical
links:
- id: l0
n1: n0
n2: n1
i1: i16
i2: i4
conditioning: {}
label: SW1-GigabitEthernet3/3<->R1-GigabitEthernet0/3
- id: l1
n1: n2
n2: n0
i1: i0
i2: i1
conditioning: {}
label: PC0-eth0<->SW1-GigabitEthernet0/0
- id: l2
n1: n3
n2: n0
i1: i0
i2: i2
conditioning: {}
label: PC1-eth0<->SW1-GigabitEthernet0/1
- id: l3
n1: n4
n2: n0
i1: i0
i2: i6
conditioning: {}
label: PC2-eth0<->SW1-GigabitEthernet1/1
- id: l4
n1: n5
n2: n0
i1: i0
i2: i7
conditioning: {}
label: PC3-eth0<->SW1-GigabitEthernet1/2
lab:
description: ''
notes: |-
A method of providing routing and connectivity for multiple VLANs is through the use of an 802.1Q trunk between one or more switches and a single router interface. This method is also known as router-on-a-stick inter-VLAN routing. In this method, the physical router interface is divided into multiple subinterfaces that provide logical pathways to all VLANs connected.
In this lab, you will configure trunk-based inter-VLAN routing and verify connectivity to hosts on different VLANs as well as with a loopback on the router.
Step 1: For each Switch and Router and end device, Configure the hostname according to the Topology.
Step 2: On the Switches, Configure the ports between them as Trunk, You will also need to configure the port connected to R1 as a trunk port as per the Topology.
Step 3 Create the VLANs listed in the Topology on each switch. Next, assign the relevant VLAN to the corresponding ports based on the Topology.
EG: assign VLAN 20 to port G1/1, which connects to PC 2.
NOTE: Keep in mind that Access ports are designated for end devices, while Trunk ports are utilized between routers and switches.
Step 4: On Router 1, Configure Sub Interfaces for each VLAN on the connection from S1 to R1. Use the Address schema as per the Topology. Note: When creating the subinterfaces, you should use the encapsulation dot1q command to enable communication between vlans. Remember to bring up the physical Interface by issuing the no shutdown command
Step 5: Copy the Running configuration to the startup configuration on each switch and router.
Step 6: Assign the relevant IP Addresses to the end devices within each VLAN as per the Topology. Note: You may need to use the sudo ifconfig eth0 Command on the Desktops.
Step 7: Verify on each switch that the correct VLAN is assigned. Using the show vlan brief command.
Step 8: Verify connectivity between devices by pinging other VLAN devices.
title: Lab at Thu 06:34 AM
version: 0.2.2

488
lab-topologies/ccna/Domain_2/2.2-configure_interswitch_connectivity_2/2.2_Initial_Lab.yaml Normal file
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@@ -0,0 +1,488 @@
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VLAN 20
192.168.2.1 /24
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lab:
description: ''
notes: |-
A method of providing routing and connectivity for multiple VLANs is through the use of an 802.1Q trunk between one or more switches and a single router interface. This method is also known as router-on-a-stick inter-VLAN routing. In this method, the physical router interface is divided into multiple subinterfaces that provide logical pathways to all VLANs connected.
In this lab, you will configure trunk-based inter-VLAN routing and verify connectivity to hosts on different VLANs as well as with a loopback on the router.
Step 1: For each Switch and Router and end device, Configure the hostname according to the Topology.
Step 2: On the Switches, Configure the ports between them as Trunk, You will also need to configure the port connected to R1 as a trunk port as per the Topology.
Step 3 Create the VLANs listed in the Topology on each switch. Next, assign the relevant VLAN to the corresponding ports based on the Topology.
EG: assign VLAN 20 to port G1/1, which connects to PC 2.
NOTE: Keep in mind that Access ports are designated for end devices, while Trunk ports are utilized between routers and switches.
Step 4: On Router 1, Configure Sub Interfaces for each VLAN on the connection from S1 to R1. Use the Address schema as per the Topology. Note: When creating the subinterfaces, you should use the encapsulation dot1q command to enable communication between vlans. Remember to bring up the physical Interface by issuing the no shutdown command
Step 5: Copy the Running configuration to the startup configuration on each switch and router.
Step 6: Assign the relevant IP Addresses to the end devices within each VLAN as per the Topology. Note: You may need to use the sudo ifconfig eth0 Command on the Desktops.
Step 7: Verify on each switch that the correct VLAN is assigned. Using the show vlan brief command.
Step 8: Verify connectivity between devices by pinging other VLAN devices.
title: Lab at Thu 06:34 AM
version: 0.2.2

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# Configure and verify interswitch connectivity
This lab we configure the dot1q trunking to implement Router on a stick and inter-VLAN connectivity. CML version 2.X (Sandbox version)
![Lab Topology](https://github.com/CiscoDevNet/cml-community/blob/master/lab-topologies/ccna//Domain_2/2.2-configure_interswitch_connectivity_2/2.2__Initial_Topology.JPG)