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Chapter 3: VLANs
Routing & Switching

Cisco Networking Academy program
Routing & Switching
Chapter 3: VLANs

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Chapter 3
§3.1 VLAN Segmentation
§3.2 VLAN Implementation
§3.3 VLAN Security and Design
§3.4 Summary
§

Chapter 3

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Chapter 3: Objectives
§Explain the purpose of  VLANs in a switched network.
§Analyze how a switch forwards frames based on VLAN configuration in a multi-switched environment.
§Configure a switch port to be assigned to a VLAN based on requirements.
§Configure a trunk port on a LAN switch.
§Configure Dynamic Trunk Protocol (DTP).
§Troubleshoot VLAN and trunk configurations in a switched network.
§Configure security features to mitigate attacks in a VLAN-segmented environment.
§Explain security best practices for a VLAN-segmented environment.
§

Chapter 3 Objectives

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3.1 VLAN Segmentation

Cisco Networking Academy program
Routing & Switching
Chapter 3: VLANs

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Overview of VLANs
VLAN Definitions
§A VLAN is a logical partition of a Layer 2 network.
§Multiple partitions can be created, allowing for multiple VLANs to co-exist.
§Each VLAN is a broadcast domain, usually with its own IP network.
§VLANs are mutually isolated and packets can only pass between them via a router.
§The partitioning of the Layer 2 network takes place inside a Layer 2 device, usually via a switch.
§The hosts grouped within a VLAN are unaware of the VLAN’s existence.
§

3.1.1.1 VLAN Definitions

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Overview of VLANs
VLAN Definitions (cont.)

3.1.1.1 VLAN Definitions

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Overview of VLANs
Benefits of VLANs
§Security
§Cost reduction
§Better performance
§Shrink broadcast domains
§Improved IT staff efficiency
§Simpler project and application management

3.1.1.2 Benefits of VLANs

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Overview of VLANs
Types of VLANs
§Data VLAN
§Default VLAN
§Native VLAN
§Management VLAN

3.1.1.3 Types of VLANs

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Overview of VLANs
Types of VLANs (cont.)

3.1.1.3 Types of VLANs

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Overview of VLANs
Voice VLANs
§VoIP traffic is time-sensitive and requires:
•Assured bandwidth to ensure voice quality.
•Transmission priority over other types of network traffic.
•Ability to be routed around congested areas on the network.
•Delay of less than 150 ms across the network.
§The voice VLAN feature enables access ports to carry IP voice traffic from an IP phone.
§The switch can connect to a Cisco 7960 IP phone and carry IP voice traffic.
§The sound quality of an IP phone call can deteriorate if the data is unevenly sent; the switch
supports quality of service (QoS).

3.1.1.4 Voice VLANs

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Overview of VLANs
Voice VLANs (cont.)
§The Cisco 7960 IP phone has two RJ-45 ports that each support connections to external devices.
•Network Port (10/100 SW) - Use this port to connect the phone to the network. The phone can also
obtain inline power from the Cisco Catalyst switch over this connection.
•Access Port (10/100 PC) - Use this port to connect a network device, such as a computer, to the
phone.
§

3.1.1.4 Voice VLANs

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Overview of VLANs
Voice VLANs (cont.)

3.1.1.4 Voice VLANs

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VLANs in a Multi-Switched Environment
VLAN Trunks
§A VLAN trunk carries more than one VLAN.
§A VLAN trunk is usually established between switches so same-VLAN devices can communicate, even if
physically connected to different switches.
§A VLAN trunk is not associated to any VLANs; neither is the trunk ports used to establish the
trunk link.
§Cisco IOS supports IEEE802.1q, a popular VLAN trunk protocol.
§
§

3.1.2.1 VLAN Trunks

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VLANs in a Multi-Switched Environment
VLAN Trunks (cont.)

3.1.2.1 VLAN Trunks

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VLANs in a Multi-Switched Environment
Controlling Broadcast Domains with VLANs
§VLANs can be used to limit the reach of broadcast frames.
§A VLAN is a broadcast domain of its own.
§A broadcast frame sent by a device in a specific VLAN is forwarded within that VLAN only.
§VLANs help control the reach of broadcast frames and their impact in the network.
§Unicast and multicast frames are forwarded within the originating VLAN.
§

3.1.2.2 Controlling Broadcast Domains with VLANs

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VLANs in a Multi-Switched Environment
Tagging Ethernet Frames for VLAN Identification
§Frame tagging is the process of adding a VLAN identification  header to the frame.
§It is used to properly transmit multiple VLAN frames through a trunk link.
§Switches tag frames to identify the VLAN to that they belong. Different tagging protocols exist;
IEEE 802.1Q is a vey popular example.
§The protocol defines the structure of the tagging header added to the frame.
§Switches add VLAN tags to the frames before placing them into trunk links and remove the tags
before forwarding frames through nontrunk ports.
§When properly tagged, the frames can transverse any number of switches via trunk links and still
be forwarded within the correct VLAN at the destination.

3.1.2.3 Tagging Ethernet Frames for VLAN Identification

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VLANs in a Multi-Switched Environment
Tagging Ethernet Frames for VLAN Identification

3.1.2.3 Tagging Ethernet Frames for VLAN Identification

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VLANs in a Multi-Switched Environment
Native VLANs and 802.1Q Tagging
§Frames that belong to the native VLAN are not tagged.
§Frames received untagged remain untagged and are placed in the native VLAN when forwarded.
§If there are no ports associated to the native VLAN and no other trunk links, an untagged frame is
dropped.
§In Cisco switches, the native VLAN is VLAN 1, by default.
§

3.1.2.4 Native VLANs and 802.1Q Tagging

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VLANs in a Multi-Switched Environment
Voice VLAN Tagging

3.1.2.5 Voice VLAN Tagging

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3.2 VLAN Implementations

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Routing & Switching
Chapter 3: VLANs

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VLAN Assignment
VLAN Ranges on Catalyst Switches
§Cisco Catalyst 2960 and 3560 Series switches support over 4,000 VLANs.
§VLANs are split into two categories:
•Normal range VLANs
•VLAN numbers from 1 to 1,005
•Configurations stored in the vlan.dat (in the flash memory)
•VTP can only learn and store normal range VLANs
•Extended Range VLANs
•VLAN numbers from 1,006 to 4,096
•Configurations stored in the running configuration (NVRAM)
•VTP does not learn extended range VLANs
§

3.2.1.1 VLAN Ranges On Catalyst Switches

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VLAN Assignment
Creating a VLAN

3.2.1.2 Creating a VLAN

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VLAN Assignment
Assigning Ports to VLANs

3.2.1.3 Assigning Ports To VLANs

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VLAN Assignment
Assigning Ports to VLANs (cont.)

3.2.1.3 Assigning Ports To VLANs

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VLAN Assignment
Changing VLAN Port Membership

3.2.1.4 Changing VLAN Port Membership

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VLAN Assignment
Changing VLAN Port Membership (cont.)

3.2.1.4 Changing VLAN Port Membership

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VLAN Assignment
Deleting VLANs

3.2.1.5 Deleting VLANs

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VLAN Assignment
Verifying VLAN Information

3.2.1.6 Verifying VLAN Information

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VLAN Assignment
Verifying VLAN Information (cont.)

3.2.1.6 Verifying VLAN Information

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VLAN Assignment
Configuring IEEE 802.1q Trunk Links

3.2.2.1 Configuring IEEE 802.1q Trunk Links

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VLAN Assignment
Resetting the Trunk To Default State

3.2.2.2 Resetting the Trunk To Default State

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VLAN Assignment
Resetting the Trunk To Default State (cont.)

3.2.2.2 Resetting the Trunk To Default State

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VLAN Assignment
Verifying Trunk Configuration

3.2.2.3 Verifying Trunk Configuration

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Dynamic Trunking Protocol
Introduction to DTP
§Switch ports can be manually configured to form trunks.
§Switch ports can also be configured to negotiate and establish a trunk link with a connected peer.
§The Dynamic Trunking Protocol (DTP) manages trunk negotiation.
§DTP is a Cisco proprietary protocol and is enabled, by default, in Cisco Catalyst 2960 and 3560
switches.
§If the port on the neighbor switch is configured in a trunk mode that supports DTP, it manages the
negotiation.
§The default DTP configuration for Cisco Catalyst 2960 and 3560 switches is dynamic auto.

3.2.3.1 Introduction to DTP

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Dynamic Trunking Protocol
Negotiated Interface Modes
§Cisco Catalyst 2960 and 3560 support the following trunk modes:
•Switchport mode dynamic auto
•Switchport mode dynamic desirable
•Switchport mode trunk
•Switchport nonegotiate

3.2.3.2 Introduction to DTP

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Troubleshooting VLANs and Trunks
IP Addressing Issues with VLAN
§It is a common practice to associate a VLAN with an IP network.
§Because different IP networks only communicate through a router, all devices within a VLAN must be
part of the same IP network to communicate.
§The figure displays that PC1 cannot communicate to the server because it has a wrong IP address
configured.
§

3.2.4.1 IP Addressing Issues with VLAN

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Troubleshooting VLANs and Trunks
Missing VLANs
§If all the IP addresses mismatches have been solved, but the device still cannot connect, check if
the VLAN exists in the switch.

3.2.4.2 Missing VLANs

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Troubleshooting VLANs and Trunks
Introduction to Troubleshooting Trunks

3.2.4.3 Introduction to Troubleshooting Trunks

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Troubleshooting VLANs and Trunks
Common Problems with Trunks
§Trunking issues are usually associated with incorrect configurations.
§The most common type of trunk configuration errors are:
1.Native VLAN mismatches
2.Trunk mode mismatches
3.Allowed VLANs on trunks
§If a trunk problem is detected, the best practice guidelines recommend to troubleshoot in the
order shown above.

3.2.4.4 Common Problems With Trunks

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Troubleshooting VLANs and Trunks
Trunk Mode Mismatches
§If a port on a trunk link is configured with a trunk mode that is incompatible with the
neighboring trunk port, a trunk link fails to form between the two switches.
§Use the show interfaces trunk command to check the status of the trunk ports on the switches.
§To fix the problem, configure the interfaces with proper trunk modes.
§

3.2.4.5 Trunk Mode Mismatches

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Troubleshooting VLANs and Trunks
Incorrect VLAN List
§VLANs must be allowed in the trunk before their frames can be transmitted across the link.
§Use the switchport trunk allowed vlan command to specify which VLANs are allowed in a trunk link.
§Use the show interfaces trunk command to ensure the correct VLANs are permitted in a trunk.
§
§
§

3.2.4.6 Incorrect VLAN List

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3.3 VLAN Security and Design

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Routing & Switching
Chapter 3: VLANs

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Attacks on VLANs
Switch Spoofing Attack
§There are a number of different types of VLAN attacks in modern switched networks; VLAN hopping is
one example.
§The default configuration of the switch port is dynamic auto.
§By configuring a host to act as a switch and form a trunk, an attacker could gain access to any
VLAN in the network.
§Because the attacker is now able to access other VLANs, this is called a VLAN hopping attack.
§To prevent a basic switch spoofing attack, turn off trunking on all ports, except the ones that
specifically require trunking.
§
§

3.3.1.1 Switch Spoofing Attack

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Attacks on VLANs
Double-Tagging Attack
§Double-tagging attack takes advantage of the way that hardware on most switches de-encapsulate
802.1Q tags.
§Most switches perform only one level of 802.1Q de-encapsulation, allowing an attacker to embed a
second, unauthorized attack header in the frame.
§After removing the first and legit 802.1Q header, the switch forwards the frame to the VLAN
specified in the unauthorized 802.1Q header.
§The best approach to mitigating double-tagging attacks is to ensure that the native VLAN of the
trunk ports is different from the VLAN of any user ports.
§

3.3.1.2 Double-Tagging Attack

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Attacks on VLANs
Double-Tagging Attack (cont.)

3.3.1.2 Double-Tagging Attack

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Attacks on VLANs
PVLAN Edge
§The Private VLAN (PVLAN) Edge feature, also known as protected ports, ensures that there is no
exchange of unicast, broadcast, or multicast traffic between protected ports on the switch.
§Local relevancy only.
§A protected port only exchanges traffic with unprotected ports.
§A protected port does not exchange traffic with another protected port.

3.3.1.3 PVLAN Edge

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Design Best Practices for VLANs
VLAN Design Guidelines
§Move all ports from VLAN 1 and assign them to a not-in-use VLAN
§Shut down all unused switch ports.
§Separate management and user data traffic.
§Change the management VLAN to a VLAN other than VLAN 1. (The same goes to the native VLAN.)
§Ensure that only devices in the management VLAN can connect to the switches.
§The switch should only accept SSH connections.
§Disable autonegotiation on trunk ports.
§Do not use the auto or desirable switch port modes.
§
§

3.3.2.1 VLAN Design Guidelines

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Chapter 3: Summary
§This chapter:
§Introduced VLANs and their types
§Described the connection between VLANs and broadcast domains
§Discussed IEEE 802.1Q frame tagging and how it enables differentiation between Ethernet frames
associated with distinct VLANs as they traverse common trunk links.
§Examined the configuration, verification, and troubleshooting of VLANs and trunks using the Cisco
IOS CLI and explored basic security and design considerations.
§

Chapter 3 Summary

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