[Challenge 1]. VLAN_Hostname_Domainname. This challenge involves the configuration an IP address on a VLAN. The objectives of this challenge are to: Setup the VLAN address; Define a domain-name and define the default gateway.
[Challenge 2]. VLAN_details. This challenge involves the configuration of VLANs. The objectives of this challenge are to: Setup VLAN 1, and define an IP address; and Setup VLAN 2, and define an IP address.
[Challenge 3]. VLAN_2_details. This challenge involves the configuration of switchport access parameters. The objectives of this challenge are to: Setup VLAN 2; and Define switchport access for VLAN 2.
[Challenge 4]. Challenge_023. This challenge involves defining VLANs. The objectives of this challenge are to: Define and create VLANs and Assign ports of VLANs.
[Challenge 5]. This challenge involves defining VLANs. The objectives of this challenge are to: Define and create VLANs; Assign ports of VLANs; and Define the name of a VLAN.
[Challenge 6]. This challenge involves defining an extended VLANs (from 1006 to 4096). Extended VLANs are not saved to the VLAN database, Instead they are saved to the configuration file, and can thus be seen in the startup and running configuration (this makes them easier to copy onto other devices).The objectives of this challenge are to: Create an extended VLAN (from 1006 to 4096); and Define extended VLAN details.
[Challenge 7]. This challenge involves the configuration of VMPS. The objectives of this challenge are to Setup VMPS.
[Challenge 8]. It is possible to configure VLANs using a VMPS server. The switch can be a VMPS client, which points to a VMPS server. The objectives of this challenge are to: Define VMPS servers; Define VMPS details; and Define dynamic membership for a port to a VLAN, through the VMPS server.
[Challenge 9]. AccessMap. This challenge involves the configuration of an access-map. The objectives of this challenge are to: Define an access list to permit a range of addresses; Define an access-map; and Apply the access-map.
[Challenge 10]. This challenge involves the configuration VLAN filtering to drop TCP packets. The objectives of this challenge are to: Define an extended named ACL; and Define the packets to be dropped by the VLAN.
[Challenge 11]. This challenge involves the configuration of an access-map. The objectives of this challenge are to: Define an access list to permit a range of addresses; Define an access-map; and Apply the access-map.
VLAN Trunking Protocol
[Challenge 1]. VTP. This challenge involves the configuration of VTP. The objectives of this challenge are to: Define VTP details; and Enable VTP pruning.
[Challenge 2]. VTP (VLAN Trunking Protocol) maintains the consistancy of VLANs across a domain. This includes the addition, deletion and renaming of VLANs across the complete network. One or more changes are automatically updated across the entire network, and thus minimizing configuration errors. There is no way to send VLAN information to other switches, unless VTP is enabled. Only standard-range VLANs are supported (1-1005). Also a trunk route must be enabled for advertisements to be sent. With the Domain, If it is enabled the domain name is set, and the switch will listen to broadcasts for this domain name, otherwise it will ignore them. With the Mode, if VTP is disabled the mode is set to transparent. Any changes in VLANs will not be transmitted to other switches. With a server mode, the switch will transmit all changes in VLANs where as the client mode acts the same but it is not possible to create, change or delete VLANs. The objectives of this challenge are to: Define VTP server mode; Define VTP details; and Enable a trunk route.
[Challenge 3]. Challenge_033. VTP (VLAN Trunking Protocol) maintains the consistancy of VLANs across a domain. This includes the addition, deletion and renaming of VLANs across the complete network. One or more changes are automatically updated across the entire network, and thus minimizing configuration errors. There is no way to send VLAN information to other switches, unless VTP is enabled. Only standard-range VLANs are supported (1-1005). Also a trunk route must be enabled for advertisements to be sent. The objectives of this challenge are to: Define VTP client mode; Define VTP details; and Enable a trunk route.
[Challenge 4]. Challenge_034. Mode. If VTP is disabled the mode is set to transparent. Any changes in VLANs will not be transmitted to other switches. With a server mode, the switch will transmit all changes in VLANs where as the client mode acts the same but it is not possible to create, change or delete VLANs. The objectives of this challenge are to: Define VTP transparent.
[Challenge 5]. 1q. This challenge involves the configuring of 802.1Q tunnelling on a switch port. The objectives of this challenge are to: Define 802.1Q tunneling; and Define tagging of the VLAN ID.
[Challenge 6]. l2. This challenge involves the configuring Layer 2 protocol tunneling. The objectives of this challenge are to: Define Layer 2 protocols to tunnel.
[Challenge 7]. The Dot1q encapsulation protocol allows for a trunk connection to interconnect VLANs on different switches. The objectives of this challenge are to: Define normal switch port; and Define a trunk port.
[Challenge 8]. The Dot1q encapsulation protocol allows for a trunk connection to interconnect VLANs on different switches and define the VLAN to stop trunking on an interface. The objectives of this challenge are to: Define normal switch port; Define a trunk port; and Define a port to stop trunking for a given VLAN.
[Challenge 9]. The Dot1q encapsulation protocol allows for a trunk connection to interconnect VLANs on different switches and define the VLAN to stop trunking on an interface. The objectives of this challenge are to: Define normal switch port; Define a trunk port; and Remove a VLAN from trunking.
[Challenge 10]. The Dot1q encapsulation protocol allows for a trunk connection to interconnect VLANs on different switches and define the VLAN to be removed from VLAN pruning. The objectives of this challenge are to: Define normal switch port; Define a trunk port; and Remove a VLAN from pruning.