•Instructor Materials
Chapter 6: VLANs
CCNA Routing and Switching
Routing and Switching Essentials v6.0

Cisco Networking Academy Program
Routing and Switching Essentials v6.0
Chapter 6: VLANs

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© 2016  Cisco and/or its affiliates. All rights reserved.   Cisco Confidential
§This PowerPoint deck is divided in two parts:
§Instructor Planning Guide
•Information to help you become familiar with the chapter
•Teaching aids
§Instructor Class Presentation
•Optional slides that you can use in the classroom
•Begins on slide #  12
•
§Note: Remove the Planning Guide from this presentation before sharing with anyone.
Instructor Materials – Chapter 6 Planning Guide

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© 2016  Cisco and/or its affiliates. All rights reserved.   Cisco Confidential
Chapter 6: VLANs
Routing and Switching Essentials v6.0 Planning Guide

Cisco Networking Academy Program
Routing and Switching Essentials v6.0
Chapter 6: VLANs

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© 2016  Cisco and/or its affiliates. All rights reserved.   Cisco Confidential
•What activities are associated with this chapter?
•
•
•
Chapter 6: Activities
Page #
Activity Type
Activity Name
Optional?
6.0.1.2
Class Activity
Vacation Station
Optional
6.1.1.5
Packet Tracer
Who Hears the Broadcast?
Recommended
6.1.2.6
Interactive Activity
Predict Switch Behavior
Recommended
6.1.2.7
Packet Tracer
Investigating a VLAN Implementation
Recommended
6.2.1.2
Syntax Checker
Creating a VLAN
-
6.2.1.3
Syntax Checker
Assign Ports to VLANS
-
6.2.1.4
Syntax Checker
Changing VLAN Port Membership
-
6.2.1.6
Syntax Checker
Verifying VLAN Information
-
6.2.1.7
Packet Tracer
Configuring VLANs
Recommended
The password used in the Packet Tracer activities in this chapter is: PT_ccna5

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© 2016  Cisco and/or its affiliates. All rights reserved.   Cisco Confidential
•What activities are associated with this chapter?
•
•
•
Chapter 6: Activities (Cont.)
Page #
Activity Type
Activity Name
Optional?
6.2.2.3
Syntax Checker
Verifying Trunk Configuration
-
6.2.2.4
Packet Tracer
Configuring Trunks
Recommended
6.2.2.5
Lab
Configuring VLANs and Trunking
Recommended
6.2.3.7
Packet Tracer
Troubleshooting a VLAN Implementation – Scenario 1
Recommended
6.2.3.8
Packet Tracer
Troubleshooting a VLAN Implementation – Scenario 2
Recommended
6.2.3.9
Lab
Troubleshooting VLAN Configurations
Optional
6.3.1.4
Activity
Identify the Types of Inter-VLAN Routing
Recommended
6.3.2.4
Lab
Configuring Per-Interface Inter-VLAN Routing
Recommended
6.3.3.4
Syntax Checker
Configuring Router-on-a-Stick Inter-VLAN Routing
-
The password used in the Packet Tracer activities in this chapter is: PT_ccna5

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© 2016  Cisco and/or its affiliates. All rights reserved.   Cisco Confidential
•What activities are associated with this chapter?
•
•
•
Chapter 6: Activities (Cont.)
Page #
Activity Type
Activity Name
Optional?
6.3.3.6
Packet Tracer
Configuring Router-on-a-Stick Inter-VLAN Routing
Recommended
6.3.3.7
Lab
Configuring 801.2Q Trunk-Based  Inter-VLAN Routing
Optional
6.3.3.8
Packet Tracer
Inter-VLAN Routing Challenge
Optional
6.4.1.1
Class Activity
The Inside Track
Optional
6.4.1.2
Packet Tracer
Skills Integration Challenge
Recommended
The password used in the Packet Tracer activities in this chapter is: PT_ccna5

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© 2016  Cisco and/or its affiliates. All rights reserved.   Cisco Confidential
§Students should complete Chapter 6, “Assessment” after completing Chapter 6.
§Quizzes, labs, Packet Tracers and other activities can be used to informally assess student
progress.
Chapter 6: Assessment

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© 2016  Cisco and/or its affiliates. All rights reserved.   Cisco Confidential
•Prior to teaching Chapter 6, the instructor should:
§Complete Chapter 6, “Assessment.”
§The objectives of this chapter are:
•Explain how VLANs segment broadcast domains in a small to medium-sized business network.
•Explain the purpose of VLANs in a switched network.
•Explain how a switch forwards frames based on VLAN configuration in a multi-switch environment.
•Implement VLANs to segment a small to medium-sized business network.
•Configure a switch port to be assigned to a VLAN based on requirements.
•Configure a trunk port on a LAN switch.
•Troubleshoot VLAN and trunk configurations in a switched network.
•Configure routing between VLANs in a small to medium-sized business network.
•Describe the two options for configuring Inter-VLAN routing.
•Configure legacy Inter-VLAN Routing.
•Configure Router-on-a-Stick Inter-VLAN Routing.
§
§
Chapter 6: Best Practices

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© 2016  Cisco and/or its affiliates. All rights reserved.   Cisco Confidential
§In Section 6.1, students should complete Chapter 6, “Assessment” after completing Chapter 6.
Quizzes, labs, and Packet Tracers. Other activities can be used to informally assess student
progress.
§
§In Section 6.2, Once students complete the troubleshooting labs, create additional challenges or
have one team of students create problems on another team’s setup. Ensure that all changes and all
solutions are documented.
§
§In Section 6.3, once students complete the legacy inter-VLAN routing lab and the router-on-a-stick
inter-VLAN routing labs, ask them to present the advantages and disadvantages of each method.
§
§
§
§
Chapter 6: Best Practices (Cont.)

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© 2016  Cisco and/or its affiliates. All rights reserved.   Cisco Confidential
§For additional help with teaching strategies, including lesson plans, analogies for difficult
concepts, and discussion topics, visit the CCNA Community at:
https://www.netacad.com/group/communities/community-home
§Best practices from around the world for teaching CCNA Routing and Switching.
https://www.netacad.com/group/communities/ccna
§If you have lesson plans or resources that you would like to share, upload them to the CCNA
Community in order to help other instructors.
§Students can enroll in Introduction to Packet Tracer (self-paced).
Chapter 6: Additional Help




Chapter 6: VLANs
CCNA Routing and Switching
Routing and Switching Essentials v6.0

Cisco Networking Academy Program
Routing and Switching Essentials v6.0
Chapter 6: VLANs

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© 2016  Cisco and/or its affiliates. All rights reserved.   Cisco Confidential
§6.1 VLAN Segmentation
•Explain the purpose of VLANs in a switched network.
•Explain how a switch forwards frames based on VLAN configuration in a multi-switch environment.
§6.2 VLAN Implementations
•Configure a switch port to be assigned to a VLAN based on requirements.
•Configure a trunk port on a LAN switch.
•Troubleshoot VLAN and trunk configurations in a switched network.
§6.3 Inter-VLAN Routing Using Routers
•Describe the two options for configuring Inter-VLAN routing.
•Configure legacy Inter-VLAN Routing.
•Configure Router-on-a-Stick Inter-VLAN Routing
Chapter 6 - Sections & Objectives

Cisco Networking Academy Program
Routing and Switching Essentials v6.0
Chapter 6: VLANs

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© 2016  Cisco and/or its affiliates. All rights reserved.   Cisco Confidential
6.1 VLAN Segmentation

6 - VLANs
6.1 – VLAN Segmentation

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§VLANs can segment LAN devices without regard for the physical location of the user or device.
•In the figure, IT users on the first, second, and third floors are all on the same LAN segment.
The same is true for HR and Sales users.
§A VLAN is a logical partition of a Layer 2 network.
•Multiple partitions can be created and multiple VLANs can co-exist.
•The partitioning of the Layer 2 network takes place inside a Layer 2 device, usually via a switch.
•Each VLAN is a broadcast domain that can span multiple physical LAN segments.
•Hosts on the same VLAN are unaware of the VLAN’s existence.
§
§
Overview of VLANs
VLAN Definitions
§VLANs are mutually isolated and packets can only pass between VLANs via a router.
§
§
§

6.1 – VLAN Segmentation
6.1.1 – Overview of VLANs
6.1.1.1 – VLAN Definitions

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Overview of VLANs
Benefits of VLANs

6.1 – VLAN Segmentation
6.1.1 – Overview of VLANs
6.1.1.2 – Benefits of VLANs

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§Common types of VLANs:
•Default VLAN – Also known as VLAN 1. All switch ports are members of VLAN 1 by default.
•Data VLAN – Data VLANs are commonly created for specific groups of users or devices. They carry
user generated traffic.
•Native VLAN – This is the VLAN that carries all untagged traffic. This is traffic that does not
originate from a VLAN port (e.g., STP BPDU traffic exchanged between STP enabled switches). The
native VLAN is VLAN 1 by default.
•Management VLAN – This is a VLAN that is created to carry network management traffic including
SSH, SNMP, Syslog, and more. VLAN 1 is the default VLAN used for network management.
Overview of VLANs
Types of VLANs
Default VLAN Assignment
Initially, all switch ports are members of VLAN 1.

6.1 – VLAN Segmentation
6.1.1 – Overview of VLANs
6.1.1.3 – Types of VLANs

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© 2016  Cisco and/or its affiliates. All rights reserved.   Cisco Confidential
§To support time-sensitive voice traffic, Cisco switches support a voice VLAN that requires:
•Assured bandwidth
•Delay of less than 150 ms across the network to ensure voice quality
•Transmission priority over other types of network traffic
•Ability to be routed around congested areas on the network.
Overview of VLANs
Voice VLANs
§The voice VLAN feature enables access ports to carry user and IP voice traffic.
•In the figure, the S3 F0/18 interface has been configured to tag student traffic on VLAN 20 and
voice traffic on VLAN 150.

6.1 – VLAN Segmentation
6.1.1 – Overview of VLANs
6.1.1.4 – Voice VLANs

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Overview of VLANs
Packet Tracer – Who Hears the Broadcast?

6.1 – VLAN Segmentation
6.1.1 – Overview of VLANs
6.1.1.5 – Packet Tracer – Who Hears the Broadcast?

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§A VLAN trunk is a point-to-point link that carries more than one VLAN.
•Usually established between switches to support intra VLAN communication.
•A VLAN trunk or trunk ports are not associated to any VLANs.
§
§Cisco IOS supports IEEE 802.1q, a popular VLAN trunk protocol.
VLANs in a Multi-Switched Environment
VLAN Trunks
The links between switches S1 and S2, and S1 and S3 are configured to transmit traffic coming from
VLANs 10, 20, 30, and 99 across the network.

6.1 – VLAN Segmentation
6.1.2 – VLANs in a Multi-Switched Environment
6.1.2.1 – VLAN Trunks

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© 2016  Cisco and/or its affiliates. All rights reserved.   Cisco Confidential
§If a switch port receives a broadcast frame, it forwards it out all ports except the originating
port.
•Eventually the entire network receives the broadcast because the network is one broadcast domain.
§VLANs can be used to limit the reach of broadcast frames because each VLAN is a broadcast domain.
•VLANs help control the reach of broadcast frames and their impact in the network.
•
VLANs in a Multi-Switched Environment
Controlling Broadcast Domains with VLANs
§In the figure, PC1 on VLAN 10 sends a broadcast frame.
•Trunk links between S2 - S1 and S1 - S3 propagate the broadcast to other devices in VLAN 10.
•Only devices in the same VLAN receive the broadcast therefore, PC4 would receive the  broadcast.
•
§

6.1 – VLAN Segmentation
6.1.2 – VLANs in a Multi-Switched Environment
6.1.2.2 - Controlling Broadcast Domains with VLANs

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© 2016  Cisco and/or its affiliates. All rights reserved.   Cisco Confidential
§Before a frame is forwarded across a trunk link, it must be tagged with its VLAN information.
•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.
•
§IEEE 802.1Q is a vey popular VLAN trunking protocol that defines the structure of the tagging
header added to the frame.
•
VLANs in a Multi-Switched Environment
Tagging Ethernet Frames for VLAN Identification
•Switches add VLAN tagging information after the Source MAC address field.
•The fields in the 802.1Q VLAN tag includes VLAN ID (VID).
•Trunk links add the tag information before sending the frame and then remove the tags before
forwarding frames through non-trunk ports.

6.1 – VLAN Segmentation
6.1.2 – VLANs in a Multi-Switched Environment
6.1.2.3 - Tagging Ethernet Frames for VLAN Identification

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§Control traffic sent on the native VLAN should not be 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.
§When configuring a switch port on a Cisco switch, configure devices so that they do not send
tagged frames on the native VLAN.
§In Cisco switches, the native VLAN is VLAN 1, by default.
VLANs in a Multi-Switched Environment
Native VLANs and 802.1Q Tagging

6.1 – VLAN Segmentation
6.1.2 – VLANs in a Multi-Switched Environment
6.1.2.4 - Native VLANs and 802.1Q Tagging

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© 2016  Cisco and/or its affiliates. All rights reserved.   Cisco Confidential
§An access port connecting a Cisco IP phone can be configured to use two separate VLANs:
•A VLAN for voice traffic
•A VLAN for data traffic from a device attached to the phone.
•
§The link between the switch and the IP phone behaves like a trunk to carry traffic from both
VLANs.
VLANs in a Multi-Switched Environment
Voice VLAN Tagging
§Cisco IP Phone contains an integrated three-port 10/100 switch dedicated to these devices:
•Port 1 connects to the switch or other VoIP device.
•Port 2 is an internal 10/100 interface that carries the IP phone traffic.
•Port 3 (access port) connects to a PC or other device.
§

6.1 – VLAN Segmentation
6.1.2 – VLANs in a Multi-Switched Environment
6.1.2.5 - Voice VLAN Tagging

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VLANs in a Multi-Switched Environment
Packet Tracer – Investigating a VLAN Implementation

6.1 – VLAN Segmentation
6.1.2 – VLANs in a Multi-Switched Environment
6.1.2.7 – Packet Tracer – Investigating a VLAN Implementation

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© 2016  Cisco and/or its affiliates. All rights reserved.   Cisco Confidential
6.2 VLAN Implementation

6 - VLANs
6.2 – VLAN Implementation

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§Cisco Catalyst 2960 and 3560 Series switches support over 4,000 VLANs.
VLAN Assignment
VLAN Ranges on Catalyst Switches
§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)
•IDs 1002 through 1005 are reserved for legacy Token Ring and Fiber Distributed Data Interface
(FDDI) VLANs, automatically created and cannot be removed.
•Extended Range VLANs
•VLAN numbers from 1,006 to 4,096
•Configurations stored in the running configuration (NVRAM)
•VLAN Trunking Protocol (VTP) does not learn extended VLANs
§
§

6.2 – VLAN Implementations
6.2.1 – VLAN Assignment
6.2.1.1 - VLAN Ranges on Catalyst Switches

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VLAN Assignment
Creating a VLAN

6.2 – VLAN Implementations
6.2.1 – VLAN Assignment
6.2.1.2 – Creating a VLAN

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VLAN Assignment
Assigning Ports to VLANs
Example 1
Example 2

6.2 – VLAN Implementations
6.2.1 – VLAN Assignment
6.2.1.3 – Assigning Ports to VLANs

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© 2016  Cisco and/or its affiliates. All rights reserved.   Cisco Confidential
§Remove VLAN Assignment
VLAN Assignment
Changing VLAN Port Membership
Even though interface F0/18 was previously assigned to VLAN 20, it reset to the default VLAN1.

6.2 – VLAN Implementations
6.2.1 – VLAN Assignment
6.2.1.4 - Changing VLAN Port Membership

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© 2016  Cisco and/or its affiliates. All rights reserved.   Cisco Confidential
§Use the no vlan vlan-id global configuration mode command to remove VLAN.
§
§
§
§
§
§
§
§To delete the entire vlan.dat file, use the delete flash:vlan.dat privileged EXEC mode command.
•delete vlan.dat can be used if the vlan.dat file has not been moved from its default location.
VLAN Assignment
Deleting VLANs

6.2 – VLAN Implementations
6.2.1 – VLAN Assignment
6.2.1.5 – Deleting VLANs

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© 2016  Cisco and/or its affiliates. All rights reserved.   Cisco Confidential
§VLAN configurations can be validated using the Cisco IOS show vlan and show interfaces command
options.
§
§
VLAN Assignment
Verifying VLAN Information

6.2 – VLAN Implementations
6.2.1 – VLAN Assignment
6.2.1.6 - Verifying VLAN Information

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© 2016  Cisco and/or its affiliates. All rights reserved.   Cisco Confidential
VLAN Assignment
Packet Tracer – Configuring VLANs

6.2 – VLAN Implementations
6.2.1 – VLAN Assignment
6.2.1.7 – Packet Tracer – Configuring VLANs

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© 2016  Cisco and/or its affiliates. All rights reserved.   Cisco Confidential
VLAN Trunks
Configuring IEEE 802.1q Trunk Links
Native VLAN
VLAN 99
172.17.99.0/24

6.2 – VLAN Implementations
6.2.2 – VLAN Trunks
6.2.2.1 - Configuring IEEE 802.1q Trunk Links

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© 2016  Cisco and/or its affiliates. All rights reserved.   Cisco Confidential
VLAN Trunks
Resetting the Trunk to Default State
F0/1 is configured as an access port which removes the trunk feature.

6.2 – VLAN Implementations
6.2.2 – VLAN Trunks
6.2.2.2 - Resetting the Trunk to Default State

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VLAN Trunks
Verifying Trunk Configuration

6.2 – VLAN Implementations
6.2.2 – VLAN Trunk
6.2.2.3 - Verifying Trunk Configuration

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© 2016  Cisco and/or its affiliates. All rights reserved.   Cisco Confidential
VLAN Trunks
Packet Tracer – Configuring Trunks

6.2 – VLAN Implementations
6.2.2 – VLAN Trunks
6.2.2.4 - Packet Tracer – Configuring Trunks

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© 2016  Cisco and/or its affiliates. All rights reserved.   Cisco Confidential
VLAN Trunks
Lab – Configuring VLANs and Trunks

6.2 – VLAN Implementations
6.2.2 – VLAN Trunks
6.2.2.5 – Lab – Configuring VLANs and Trunks

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© 2016  Cisco and/or its affiliates. All rights reserved.   Cisco Confidential
§Common practice to associate a VLAN with an IP network.
•Different IP networks must communicate through a router.
•All devices within a VLAN must be part of the same IP network to communicate.
Troubleshoot VLANs and Trunks
IP Addressing Issues with VLANs
§In the figure, PC1 cannot communicate to the server because it has a wrong IP address configured.
§
§

6.2 – VLAN Implementations
6.2.3 – Troubleshoot VLANs and Trunks
6.2.3.1 - IP Addressing Issues with VLANs

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© 2016  Cisco and/or its affiliates. All rights reserved.   Cisco Confidential
§If all the IP address mismatches have been solved, but the device still cannot connect, check if
the VLAN exists in the switch.
§
Troubleshoot VLANs and Trunks
Missing VLANs
If the VLAN to which the port belongs is deleted, the port becomes inactive and is unable to
communicate with the rest of the network.
•It is not functional until the missing VLAN is created or the VLAN is removed from the port.
•

6.2 – VLAN Implementations
6.2.3 – Troubleshoot VLANs and Trunks
6.2.3.2 - Missing VLANs

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© 2016  Cisco and/or its affiliates. All rights reserved.   Cisco Confidential
Troubleshoot VLANs and Trunks
Introduction to Troubleshooting Trunks
In this example, the Native VLAN should be VLAN 99 however, the output of the command identifies
VLAN 2 as the Native VLAN.
•To solve this problem, configure the same native VLAN on both sides.

6.2 – VLAN Implementations
6.2.3 – Troubleshoot VLANs and Trunks
6.2.3.3 - Introduction to Troubleshooting Trunks

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© 2016  Cisco and/or its affiliates. All rights reserved.   Cisco Confidential
§Trunking issues are usually associated with incorrect configurations.
§
§The most common type of trunk configuration errors are:
§
§
§
§
•
•
§When a trunk problem is suspected, it is recommended to troubleshoot in the order shown above.
§
Troubleshoot VLANs and Trunks
Common Problems with Trunks

6.2 – VLAN Implementations
6.2.3 – Troubleshoot VLANs and Trunks
6.2.3.4 - Common Problems with Trunks

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© 2016  Cisco and/or its affiliates. All rights reserved.   Cisco Confidential
§In this example, PC4 cannot reach the Web server.
•The trunk links on S1 and S3 are verified and reveal that the S3 trunk port has been configured as
an access port.
Troubleshoot VLANs and Trunks
Incorrect Port Mode
To resolve the issue, the S3 F03 port is configured as a trunk link.

6.2 – VLAN Implementations
6.2.3 – Troubleshoot VLANs and Trunks
6.2.3.5 - Incorrect Port Mode

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© 2016  Cisco and/or its affiliates. All rights reserved.   Cisco Confidential
§In this example, PC5 cannot reach the Student Email server.
•The output of the switchport trunk allowed vlan command reveals S1 is not allowing VLAN 20.
Troubleshoot VLANs and Trunks
Incorrect VLAN List
To resolve the issue, the S1 F0/1 port is configured to allow VLANs 10, 20, and 99.

6.2 – VLAN Implementations
6.2.3 – Troubleshoot VLANs and Trunks
6.2.3.6 - Incorrect VLAN List

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Troubleshoot VLANs and Trunks
Packet Tracer - Troubleshooting a VLAN Implementation - Scenario 1

6.2 – VLAN Implementations
6.2.3 – Troubleshoot VLANs and Trunks
6.2.3.7 - Packet Tracer - Troubleshooting a VLAN Implementation - Scenario 1

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Troubleshoot VLANs and Trunks
Packet Tracer - Troubleshooting a VLAN Implementation - Scenario 2

6.2 – VLAN Implementations
6.2.3 – Troubleshoot VLANs and Trunks
6.2.3.8 - Packet Tracer - Troubleshooting a VLAN Implementation - Scenario 2

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Troubleshoot VLANs and Trunks
Lab - Troubleshooting VLAN Configurations

6.2 – VLAN Implementations
6.2.3 – Troubleshoot VLANs and Trunks
6.2.3.9 – Lab - Troubleshooting VLAN Configurations

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6.3 Inter-VLAN Routing Using Routers

6 - VLANs
6.3 – Inter-VLAN Routing Using Routers

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§Layer 2 switches cannot forward traffic between VLANs without the assistance of a router.
§
§Inter-VLAN routing is a process for forwarding network traffic from one VLAN to another, using a
router.
§
§There are three options for inter-VLAN routing:
•Legacy inter-VLAN routing
•Router-on-a-Stick
•Layer 3 switching using SVIs
•
§
§
Inter-VLAN Routing Operation
What is Inter-VLAN Routing?

6.3 – Inter-VLAN Routing Using Routers
6.3.1 – Inter-VLAN Routing Operation
6.3.1.1 - What is Inter-VLAN Routing?

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§In the past:
•Router interfaces were used to route between VLANs.
•Each VLAN was connected to a different physical router interface.
•Packets would arrive on the router through one interface, be routed and leave through another.
•Because the router interfaces were connected to VLANs and had IP addresses from that specific
VLAN, routing between VLANs was achieved.
•Large networks with large number of VLANs required many router interfaces.
§
§
Inter-VLAN Routing Operation
Legacy Inter-VLAN Routing
In this example, the router was configured with two separate physical interfaces to interact with
the different VLANs and perform the routing.

6.3 – Inter-VLAN Routing Using Routers
6.3.1 – Inter-VLAN Routing Operation
6.3.1.2 - Legacy Inter-VLAN Routing

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© 2016  Cisco and/or its affiliates. All rights reserved.   Cisco Confidential
§The router-on-a-stick approach uses only one of the router’s physical interface.
•One of the router’s physical interfaces is configured as a 802.1Q trunk port so it can understand
VLAN tags.
•Logical subinterfaces are created; one subinterface per VLAN.
•Each subinterface is configured with an IP address from the VLAN it represents.
•VLAN members (hosts) are configured to use the subinterface address as a default gateway.
§
Inter-VLAN Routing Operation
Router-on-a-Stick Inter-VLAN Routing
In this example, the R1 interface is configured as a trunk link and connects to the trunk F0/4 port
on S1.
•Router accepts VLAN-tagged traffic on the trunk interface
•Router internally routes between the VLANs using subinterfaces.
•Router then forwards the routed traffic as VLAN-tagged for the destination VLAN out the trunk
link.

6.3 – Inter-VLAN Routing Using Routers
6.3.1 – Inter-VLAN Routing Operation
6.3.1.3 - Router-on-a-Stick Inter-VLAN Routing

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§Legacy inter-VLAN routing requires routers to have multiple physical interfaces.
§Each one of the router’s physical interfaces is connected to a unique VLAN.
§Each interface is also configured with an IP address for the subnet associated with the particular
VLAN.
§Network devices use the router as a gateway to access the devices connected to the other VLANs.
§
§
Configure Legacy Inter-VLAN Routing
Configure Legacy Inter-VLAN Routing: Preparation

6.3 – Inter-VLAN Routing Using Routers
6.3.2 – Configure Legacy Inter-VLAN Routing
6.3.2.1 - Configure Legacy Inter-VLAN Routing: Preparation

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© 2016  Cisco and/or its affiliates. All rights reserved.   Cisco Confidential
§Configure the VLANs on the switch and then assign the ports to their respective VLANs.
§In this example, the S1 ports are configured as follows:
•Ports F0/4 and F0/11 of S1 are on VLAN 10
•Ports F0/5 and F0/16 ports are on VLAN 30.
Configure Legacy Inter-VLAN Routing
Configure Legacy Inter-VLAN Routing: Switch Configuration

6.3 – Inter-VLAN Routing Using Routers
6.3.2 – Configure Legacy Inter-VLAN Routing
6.3.2.2 - Configure Legacy Inter-VLAN Routing: Switch Configuration

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© 2016  Cisco and/or its affiliates. All rights reserved.   Cisco Confidential
Configure Legacy Inter-VLAN Routing
Configure Legacy Inter-VLAN Routing: Router Interface Configuration
§Next configure the router interfaces.

6.3 – Inter-VLAN Routing Using Routers
6.3.2 – Configure Legacy Inter-VLAN Routing
6.3.2.3 - Configure Legacy Inter-VLAN Routing: Router Interface Configuration

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© 2016  Cisco and/or its affiliates. All rights reserved.   Cisco Confidential
Configure Legacy Inter-VLAN Routing
Lab – Configuring Per-Interface Inter-VLAN Routing

6.3 – Inter-VLAN Routing Using Routers
6.3.2 – Configure Legacy Inter-VLAN Routing
6.3.2.4 – Lab – Configuring Per-Interface Inter-VLAN Routing

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© 2016  Cisco and/or its affiliates. All rights reserved.   Cisco Confidential
§An alternative to legacy inter-VLAN routing is to use VLAN trunking and subinterfaces.
§VLAN trunking allows a single physical router interface to route traffic for multiple VLANs.
§The physical interface of the router must be connected to a trunk link on the adjacent switch.
§On the router, subinterfaces are created for each unique VLAN.
§Each subinterface is assigned an IP address specific to its subnet or VLAN and is also configured
to tag frames for that VLAN.
§
§
Configure Router-on-a-Stick Inter-VLAN Routing
Configure Router-on-a Stick: Preparation

6.3 – Inter-VLAN Routing Using Routers
6.3.3 – Configure Router-on-a-Stick Inter-VLAN Routing
6.3.3.1 - Configure Router-on-a Stick: Preparation

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© 2016  Cisco and/or its affiliates. All rights reserved.   Cisco Confidential
§To enable inter-VLAN routing using router-on-a stick, start by enabling trunking on the switch
port that is connected to the router.
Configure Router-on-a-Stick Inter-VLAN Routing
Configure Router-on-a Stick: Switch Configuration

6.3 – Inter-VLAN Routing Using Routers
6.3.3 – Configure Router-on-a-Stick Inter-VLAN Routing
6.3.3.2 - Configure Router-on-a Stick: Switch Configuration

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© 2016  Cisco and/or its affiliates. All rights reserved.   Cisco Confidential
§The router-on-a-stick method requires subinterfaces to be configured for each routable VLAN.
•The subinterfaces must be configured to support VLANs using the encapsulation dot1Q VLAN-ID
interface configuration command.
Configure Router-on-a-Stick Inter-VLAN Routing
Configure Router-on-a Stick: Router Subinterface Configuration

6.3 – Inter-VLAN Routing Using Routers
6.3.3 – Configure Router-on-a-Stick Inter-VLAN Routing
6.3.3.3 - Configure Router-on-a Stick: Router Subinterface Configuration

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© 2016  Cisco and/or its affiliates. All rights reserved.   Cisco Confidential
§By default, Cisco routers are configured to route traffic between local subinterfaces.
•As a result, routing does not specifically need to be enabled.
§Use the show vlan and show ip route commands to verify the subinterface configurations.
Configure Router-on-a-Stick Inter-VLAN Routing
Configure Router-on-a Stick: Verifying Subinterfaces
The show vlan command displays information about the Cisco IOS VLAN subinterfaces.
The show ip route command displays the routing table containing the networks associated with
outgoing subinterfaces.

6.3 – Inter-VLAN Routing Using Routers
6.3.3 – Configure Router-on-a-Stick Inter-VLAN Routing
6.3.3.4 - Configure Router-on-a Stick: Verifying Subinterfaces

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© 2016  Cisco and/or its affiliates. All rights reserved.   Cisco Confidential
§Remote VLAN device connectivity can be tested using the ping command.
•The command sends an ICMP echo request and when a host receives an ICMP echo request, it responds
with an ICMP echo reply.
§
§Tracert is a useful utility for confirming the routed path taken between two devices.
§
§
Configure Router-on-a-Stick Inter-VLAN Routing
Configure Router-on-a Stick: Verifying Routing

6.3 – Inter-VLAN Routing Using Routers
6.3.3 – Configure Router-on-a-Stick Inter-VLAN Routing
6.3.3.5 - Configure Router-on-a Stick: Verifying Routing

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© 2016  Cisco and/or its affiliates. All rights reserved.   Cisco Confidential
Configure Router-on-a-Stick Inter-VLAN Routing
Packet Tracer - Configuring Router-on-a-Stick Inter-VLAN Routing

6.3 – Inter-VLAN Routing Using Routers
6.3.3 – Configure Router-on-a-Stick Inter-VLAN Routing
6.3.3.6 -Packet Tracer - Configuring Router-on-a-Stick Inter-VLAN Routing

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© 2016  Cisco and/or its affiliates. All rights reserved.   Cisco Confidential
Configure Router-on-a-Stick Inter-VLAN Routing
Lab - Configuring 801.2Q Trunk-Based Inter-VLAN Routing

6.3 – Inter-VLAN Routing Using Routers
6.3.3 – Configure Router-on-a-Stick Inter-VLAN Routing
6.3.3.7 -Lab - Configuring 801.2Q Trunk-Based Inter-VLAN Routing

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© 2016  Cisco and/or its affiliates. All rights reserved.   Cisco Confidential
Configure Router-on-a-Stick Inter-VLAN Routing
Packet Tracer - Inter-VLAN Routing Challenge

6.3 – Inter-VLAN Routing Using Routers
6.3.3 – Configure Router-on-a-Stick Inter-VLAN Routing
6.3.3.8 -Packet Tracer - Inter-VLAN Routing Challenge

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© 2016  Cisco and/or its affiliates. All rights reserved.   Cisco Confidential
6.4 Chapter Summary

6 - VLANs
6.4 – Summary

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© 2016  Cisco and/or its affiliates. All rights reserved.   Cisco Confidential
Conclusion
Packet Tracer - Skills Integration Challenge

6.4 – Summary
6.4.1 – Conclusion
6.4.1.2 – Packet Tracer - Skills Integration Challenge

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© 2016  Cisco and/or its affiliates. All rights reserved.   Cisco Confidential
§
§Explain how VLANs segment broadcast domains in a small to medium-sized business network.
§Implement VLANs to segment a small to medium-sized business network..
§Configure routing between VLANs in a small to medium-sized business network.
Conclusion
Chapter 6: VLANs

6.4 – Summary
6.4.1 – Conclusion
6.4.1.3 – Chapter 6: VLANs

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© 2016  Cisco and/or its affiliates. All rights reserved.   Cisco Confidential
Section 6.1
New Terms and Commands
§
•VLAN
•Logical broadcast domain
•Data VLAN
•Default VLAN
•Native VLAN
•Management VLAN
•show vlan brief
•Voice VLAN
•VLAN Trunk
•VLAN Segmentation
•IEEE 802.1Q
•VLAN Tagging
•Canonical Format Identifier (CFI)
•User Priority
•VLAN ID
•Type
•show interfaces int switchport
•

New Terms and Commands

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© 2016  Cisco and/or its affiliates. All rights reserved.   Cisco Confidential
Section 6.2
New Terms and Commands
§
•Normal Range VLANs
•Extended Range VLANs
•vlan vlan-id
•name vlan-name
•switchport mode access
•switchport access vlan vlan-id
•interface range
•no switchport access vlan vlan-id
•no vlan vlan-id
•delete flash:vlan.dat
•delete vlan.dat
•show vlan
•show interfaces
•show vlan summary
•show interfaces vlan vlan_id
•switchport mode trunk
•switchport trunk allowed vlan vlan_list
•switchport trunk native vlan vlan_id
•no switchport trunk allowed vlan
•no switchport trunk native vlan
•show interfaces switchport
•
•no switchport access vlan vlan_id
•show interfaces trunk
•show interfaces int_id trunk
•

New Terms and Commands

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© 2016  Cisco and/or its affiliates. All rights reserved.   Cisco Confidential
Section 6.3
New Terms and Commands
•Legacy Inter-VLAN Routing
•Router-on-a-Stick Inter-VLAN Routing
•interface interface_id.subinterface_id
•encapsulation dot1q vlan_id
•IEEE 802.1Q
•

New Terms and Commands