Presentation is loading. Please wait.

Presentation is loading. Please wait.

Author: Bill Buchanan. 1. Broadcast: What is the MAC address of this network address? 2. Requested host: All the hosts read the broadcast and checks.

Published byProsper Damian Bridges Modified over 8 years ago

Similar presentations

Presentation on theme: "Author: Bill Buchanan. 1. Broadcast: What is the MAC address of this network address? 2. Requested host: All the hosts read the broadcast and checks."— Presentation transcript:

1 Author: Bill Buchanan

2

3 1. Broadcast: What is the MAC address of this network address? 2. Requested host: All the hosts read the broadcast and checks if it relates to them. If it does then they respond back with their MAC address. 3. Updated ARP table: All the hosts update their ARP table with the correct IP and MAC address for the host.

4 Author: Bill Buchanan Bridge Router Broadcast Repeaters: Forward broadcasts Bridges: Forward broadcasts Routers: Block broadcasts

5 Author: Bill Buchanan Repeater Bridge Router Network segment (repeater extends the network segment) Bridge only forwards if the MAC address is not on the current segment. Router only forwards if the network address is not on the current segment.

6 Author: Bill Buchanan Switch Repeater A B C D Hub EF G H Repeater Bridge I J K Repeater Switch Broadcast domains

7 Author: Bill Buchanan Switch Repeater A B C D Hub EF G H Repeater Bridge I J K Repeater Switch Broadcast domains

8 Author: Bill Buchanan Switch Repeater A B C D Hub EF G H Repeater Bridge I J K Repeater Switch Broadcast domains

9 Author: Bill Buchanan Switch Repeater A B C D Hub EF G H Repeater Bridge I J K Repeater Switch Broadcast domains

10 Author: Bill Buchanan Switch Repeater A B C D Hub EF G H Repeater Bridge I J K Repeater Switch Collision domains

11 Author: Bill Buchanan IP and TCP... The Greatest of the Protocols!

12 Author: Bill Buchanan

13 Network Data Link Physical IP address is used to route data around the Internet TCP part allows applications to communicate over the network

14 Author: Bill Buchanan

15

16 Why VLANs? VLAN1 VLAN2 Server1 Server2 PC1 PC8 PC9 PC16

17 Author: Bill Buchanan Why VLANs? VLAN1 VLAN2

18 Author: Bill Buchanan VLAN1 VLAN2 Broadcast domain

19 Author: Bill Buchanan Why VLANs? Microsegmentation. This involves dividing a network into smaller segments, which will increase the overall bandwidth available to networked devices. Enhanced security. vLANs help to isolate network traffic so that traffic which stays within a vLAN will not be transmitted outside it. Thus it is difficult for an external user to ‘listen’ to any of the data that is transmitted across the vLAN, unless they can get access to one of the ports of the vLAN device. Relocate servers into secured locations. vLANs allows for servers to be put in a physical location in which they cannot be tampered with. This will typically be in a secure room, which is under lock and key. The vLAN can be used to map hosts to servers. Easy creation of IP subnets. vLANs allow the creation of IP subnets, which are not dependent on the physical location of a node. Users can also remain part of a subnet, even if they move their computer. Microsegmentation. This involves dividing a network into smaller segments, which will increase the overall bandwidth available to networked devices. Enhanced security. vLANs help to isolate network traffic so that traffic which stays within a vLAN will not be transmitted outside it. Thus it is difficult for an external user to ‘listen’ to any of the data that is transmitted across the vLAN, unless they can get access to one of the ports of the vLAN device. Relocate servers into secured locations. vLANs allows for servers to be put in a physical location in which they cannot be tampered with. This will typically be in a secure room, which is under lock and key. The vLAN can be used to map hosts to servers. Easy creation of IP subnets. vLANs allow the creation of IP subnets, which are not dependent on the physical location of a node. Users can also remain part of a subnet, even if they move their computer.

20 Author: Bill Buchanan Why VLANs? Creation of virtual networks. Just as many organizations build open-plan offices which can be changed when required, vLANs can be used to reconfigure the logical connections to a network without actually having to physically move any of the resources. Ease of administration. vLANs allow networks to be easily configured, possibly at a distance from the configured networks. In the past reconfiguration has meant recabling and the movement of networked resources. Improved bandwidth usage. Normally users who work in a similar area share resources. This is typically known as a workgroup. If workgroups can be isolated from other workgroups then traffic which stays within each of the workgroups does not affect other workgroups. A vLAN utilizes this concept by grouping users who share information and configuring the networked resources around them. Creation of virtual networks. Just as many organizations build open-plan offices which can be changed when required, vLANs can be used to reconfigure the logical connections to a network without actually having to physically move any of the resources. Ease of administration. vLANs allow networks to be easily configured, possibly at a distance from the configured networks. In the past reconfiguration has meant recabling and the movement of networked resources. Improved bandwidth usage. Normally users who work in a similar area share resources. This is typically known as a workgroup. If workgroups can be isolated from other workgroups then traffic which stays within each of the workgroups does not affect other workgroups. A vLAN utilizes this concept by grouping users who share information and configuring the networked resources around them.

21 Author: Bill Buchanan

22 VLAN Types Static VLANs. These are ports on a switch that are statically assigned to a VLAN. These remain permanently assigned, until they are changed by the administrator. Static vLANs are secure and easy to configure, and are useful where vLANs are fairly well defined. Dynamic VLANs. These are ports on a switch which automatically determine their VLAN assignments. This is achieved with intelligent management software, using MAC addresses, logical addressing, or the protocol type of the data packets. Initially, where a node connects to the switch, the switch detects its MAC address entry in the VLAN management database and dynamically configures the port with the corresponding VLAN configuration. The advantage of dynamic vLANs is that they require less setup from the administrator (but the database must be initially created). Static VLANs. These are ports on a switch that are statically assigned to a VLAN. These remain permanently assigned, until they are changed by the administrator. Static vLANs are secure and easy to configure, and are useful where vLANs are fairly well defined. Dynamic VLANs. These are ports on a switch which automatically determine their VLAN assignments. This is achieved with intelligent management software, using MAC addresses, logical addressing, or the protocol type of the data packets. Initially, where a node connects to the switch, the switch detects its MAC address entry in the VLAN management database and dynamically configures the port with the corresponding VLAN configuration. The advantage of dynamic vLANs is that they require less setup from the administrator (but the database must be initially created).

23 Author: Bill Buchanan Static VLAN configuration

24 Author: Bill Buchanan VLAN types Port-Based VLAN. Port defines the VLAN. MAC-based VLAN. MAC addresses define the membership. Protocol-based VLAN. Defined by Layer 3 protocol, such as for IP or IPX. SSID-based. This defines that certain nodes which authenticate to a certain SSID are part of a VLAN. ATM VLAN. This maps Ethernet packets into ATM cells. Port-Based VLAN. Port defines the VLAN. MAC-based VLAN. MAC addresses define the membership. Protocol-based VLAN. Defined by Layer 3 protocol, such as for IP or IPX. SSID-based. This defines that certain nodes which authenticate to a certain SSID are part of a VLAN. ATM VLAN. This maps Ethernet packets into ATM cells.

25 Author: Bill Buchanan Dynamic VLANs

26 Author: Bill Buchanan VMPS (VLAN Management Policy Server)

27 Author: Bill Buchanan InterVLAN VLAN1 VLAN2 A B C VLANs intercommunicate through the router. IP addresses used to route.

28 Author: Bill Buchanan VLAN1 VLAN2 A B C VLANs intercommunicate through the Layer 3 switching

29 Author: Bill Buchanan SSID: VLAN1SSID: VLAN2 SSID: VLAN3 VLAN3 VLAN2

30 Author: Bill Buchanan

31 IEEE 802.1Q VLAN1 VLAN2 Data Frame VLAN1 Data Frame

32 Author: Bill Buchanan Ethernet Data frame

33 Author: Bill Buchanan Ethernet Data frame

34 Author: Bill Buchanan IEEE 802.1Q encapsulation

35 Author: Bill Buchanan ISL Trunks

36 Author: Bill Buchanan Trunking between VLANs

37 Author: Bill Buchanan

38

39 (config)# dot11 ssid Scotland (config-ssid)# authentication open (config-ssid)# vlan 1 (config-ssid)# guest-mode (config-ssid)# exit (config)# dot11 ssid England (config-ssid)# authentication open (config-ssid)# vlan 2 (config-ssid)# exit (config)# interface BVI1 (config-if)# ip address 192.168.0.110 255.255.255.0 (config)# interface Dot11Radio0 (config-if)# channel 1 (config-if)# ssid Scotland (config-if)# ssid England (config-if)# no shutdown (config-if)# int fa0 (config-if)# no shutdown

40 Author: Bill Buchanan (config)# interface Dot11Radio0.1 (config-subif)# ? Interface configuration commands:... encapsulationSet encapsulation type for an interface... (config-subif)# encapsulation ? dot1Q IEEE 802.1Q Virtual LAN (config-subif)# encapsulation dot1q ? IEEE 802.1Q VLAN ID (config-subif)# encapsulation dot1q 1 ? native Make this as native vlan (config-if)# encapsulation dot1q 1 native (config-if)# bridge-group 1 (config-if)# interface Dot11Radio0.2 (config-if)# encapsulation dot1q 2 (config-if)# bridge-group 2

41 Author: Bill Buchanan # show vlan Virtual LAN ID: 1 (IEEE 802.1Q Encapsulation) vLAN Trunk Interfaces: Dot11Radio0.1 Virtual-Dot11Radio0.1 This is configured as native Vlan for the following int(s): Dot11Radio0 Virtual-Dot11Radio0 Protocols Configured: Address: Received: Transmitted: Bridging Bridge Group 1 17 9 Virtual LAN ID: 2 (IEEE 802.1Q Encapsulation) vLAN Trunk Interfaces: Dot11Radio0.2 Virtual-Dot11Radio0.2 Protocols Configured: Address: Received: Transmitted: Bridging Bridge Group 2 1 0

42 Author: Bill Buchanan VLAN1 VLAN2

43 Author: Bill Buchanan # config t (config)# int vlan 1 (config-vlan)# exit (config)# int vlan 2 (config-vlan)# exit (config)# int fa0/1 (config-if)# switchport trunk encapsulation dot1q (config-if)# switchport trunk native vlan 1 (config-if)# switchport trunk allowed vlan 1,2 (config-if)# switchport mode trunk (config-if)# switchport nonegotiate (config-if)# int fa0/2 (config-if)# switchport trunk encapsulation dot1q (config-if)# switchport trunk native vlan 1 (config-if)# switchport trunk allowed vlan 1,2 (config-if)# switchport mode trunk (config-if)# switchport nonegotiate (config-if)# int fa0/3 (config-if)# switchport trunk encapsulation dot1q (config-if)# switchport trunk native vlan 1 (config-if)# switchport trunk allowed vlan 1,2 (config-if)# switchport mode trunk (config-if)# switchport nonegotiate

44 Author: Bill Buchanan (config)# dot11 ssid Scotland (config-ssid)# mbssid guest-mode (config-ssid)# authentication open (config-ssid)# vlan 1 (config-ssid)# exit (config)# dot11 ssid England (config-ssid)# mbssid guest-mode (config-ssid)# authentication open (config-ssid)# vlan 2 (config-ssid)# exit (config)# int d0 (config-if)# mbssid (config-if)# ssid Scotland (config-if)# ssid England (config-if)# channel 1 (config-if)# no shut (config-if)# exit (config)# int d0.1 (config-if)# encapsulation dot1q 1 native (config-if)# int fa0.1 (config-if)# encapsulation dot1q 1 native (config-if)# int d0.2 (config-if)# encapsulation dot1q 2 (config-if)# bridge-group 2 (config-if)# int fa0.2 (config-if)# encapsulation dot1q 2 (config-if)# bridge-group 2

45 Author: Bill Buchanan VTP

46 Author: Bill Buchanan VTP Domain

47 Author: Bill Buchanan

48 Applications

49 Author: Bill Buchanan SSID: ScotlandSSID: England SSID: Ireland VLAN3 VLAN2

50 Author: Bill Buchanan VLAN3 VLAN2 SSID: ScotlandSSID: England SSID: Ireland

51 Author: Bill Buchanan VLAN3 VLAN2 SSID: ScotlandSSID: England SSID: Ireland

Download ppt "Author: Bill Buchanan. 1. Broadcast: What is the MAC address of this network address? 2. Requested host: All the hosts read the broadcast and checks."

Similar presentations

LAN Segmentation Virtual LAN (VLAN).

LAN Segmentation Virtual LAN (VLAN).
© 2006 Cisco Systems, Inc. All rights reserved.Cisco PublicITE I Chapter 6 1 Implement Inter- VLAN Routing LAN Switching and Wireless – Chapter 6.

© 2006 Cisco Systems, Inc. All rights reserved.Cisco PublicITE I Chapter 6 1 Implement Inter- VLAN Routing LAN Switching and Wireless – Chapter 6.
Virtual LANs.

Virtual LANs.
VLAN KRISHNAKUMAR RAJENDRAN NIKITA PATEL TEJENDRA PATEL Guided by Prof, Edmund Gean.

VLAN KRISHNAKUMAR RAJENDRAN NIKITA PATEL TEJENDRA PATEL Guided by Prof, Edmund Gean.
Switching Topic 4 Inter-VLAN routing. Agenda Routing process Routing VLANs – Traditional model – Router-on-a-stick – Multilayer switches EtherChannel.

Switching Topic 4 Inter-VLAN routing. Agenda Routing process Routing VLANs – Traditional model – Router-on-a-stick – Multilayer switches EtherChannel.
Cisco 3 - Switch Perrine. J Page 15/8/2015 Chapter 8 What happens to the member ports of a VLAN when the VLAN is deleted? 1.They become inactive. 2.They.

Cisco 3 - Switch Perrine. J Page 15/8/2015 Chapter 8 What happens to the member ports of a VLAN when the VLAN is deleted? 1.They become inactive. 2.They.
VLANs Virtual LANs CIS 278.

VLANs Virtual LANs CIS 278.
© 2008 Cisco Systems, Inc. All rights reserved.Cisco ConfidentialPresentation_ID 1 Chapter 5: Inter-VLAN Routing Routing & Switching.

© 2008 Cisco Systems, Inc. All rights reserved.Cisco ConfidentialPresentation_ID 1 Chapter 5: Inter-VLAN Routing Routing & Switching.
1 Inter-VLAN routing Chapter 6 CCNA Exploration Semester 3 Modified by Profs. Ward and Cappellino.

1 Inter-VLAN routing Chapter 6 CCNA Exploration Semester 3 Modified by Profs. Ward and Cappellino.
VLANs (Virtual LANs) CS 158B Elaine Lim Allison Nham.

VLANs (Virtual LANs) CS 158B Elaine Lim Allison Nham.
VLANs Semester 3, Chapter 3 Allan Johnson Website:

VLANs Semester 3, Chapter 3 Allan Johnson Website:
VLANs- Chapter 3 CCNA Exploration Semester 3 Modified by Profs. Ward

VLANs- Chapter 3 CCNA Exploration Semester 3 Modified by Profs. Ward
Layer 2: Redundancy and High Availability Part 1: General Overview on Assignment 1.

Layer 2: Redundancy and High Availability Part 1: General Overview on Assignment 1.
© Wiley Inc. 2006. All Rights Reserved. CCNA: Cisco Certified Network Associate Study Guide CHAPTER 8: Virtual LANs (VLANs)

© Wiley Inc All Rights Reserved. CCNA: Cisco Certified Network Associate Study Guide CHAPTER 8: Virtual LANs (VLANs)
(part 3).  Switches, also known as switching hubs, have become an increasingly important part of our networking today, because when working with hubs,

(part 3).  Switches, also known as switching hubs, have become an increasingly important part of our networking today, because when working with hubs,
Virtual LANs. VLAN introduction VLANs logically segment switched networks based on the functions, project teams, or applications of the organization regardless.

Virtual LANs. VLAN introduction VLANs logically segment switched networks based on the functions, project teams, or applications of the organization regardless.
Connecting LANs, Backbone Networks, and Virtual LANs

Connecting LANs, Backbone Networks, and Virtual LANs
Sybex CCNA 640-802 Chapter 9: VLAN’s Instructor & Todd Lammle.

Sybex CCNA Chapter 9: VLAN’s Instructor & Todd Lammle.
Ch. 8 – VLANs (Virtual LANs)

Ch. 8 – VLANs (Virtual LANs)
VLANs.ppt CCNA Exploration Semester 3 Chapter 3

VLANs.ppt CCNA Exploration Semester 3 Chapter 3

Similar presentations

Ads by Google