1. 15.1 Chapter 15 Connecting LANs, Backbone Networks, and Virtual LANs Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display.

2. 15.2 15-1 CONNECTING DEVICES In this section, we divide connecting devices into five different categories based on the layer in which they operate in a network. Passive Hubs Active Hubs Bridges Two-Layer Switches Routers Three-Layer Switches Gateways Topics discussed in this section:

3. 15.3 Figure 15.1 Five categories of connecting devices

4. 15.4 Figure 15.2 A repeater connecting two segments of a LAN

5. 15.5 A repeater connects segments of a LAN. Note

6. 15.6 A repeater forwards every frame; it has no filtering capability. Note

7. 15.7 A repeater is a regenerator, not an amplifier. Note

8. 15.8 Figure 15.3 Function of a repeater

9. 15.9 Figure 15.4 A hierarchy of hubs

10. 15.10 A bridge has a table used in filtering decisions. Note

11. 15.11 Figure 15.5 A bridge connecting two LANs

12. 15.12 A bridge does not change the physical (MAC) addresses in a frame. Note

13. 15.13 Figure 15.6 A learning bridge and the process of learning

14. 15.14 Figure 15.7 Loop problem in a learning bridge

15. 15.15 Figure 15.8 A system of connected LANs and its graph representation

16. Spanning tree is a graph in which there is no loop. In bridged LAN spanning tree means creating a topology in which each LAN can be reached from any other LAN through one path only (no loop). Logical topology is created instead of physical topology. 15.16 Spanning Tree

17. The process to find the spanning tree involves three steps: 1- Select the root bridge (root of the tree), based on the smallest router ID. 2- Find the shortest path from the root bridge to every other bridge or LAN. 3- the combination of the shortest paths creates the shortest tree. 15.17 Spanning Tree

18. 15.18 Figure 15.9 Finding the shortest paths and the spanning tree in a system of bridges

19. 15.19 Figure 15.10 Forwarding and blocking ports after using spanning tree algorithm

20. Spanning Tree Based on the spanning tree ports marked as: 1 – Forwarding ports 2 – Blocking ports * The process of creating and updating spanning tree can be automated using Dynamic Algorithm (software package). 15.20

21. Two-Layer Switches A two-layer switch is a bridge. A bridge with many ports and a design that allows better performance. A bridge with a few ports can connect a few LANs together. A bridge with many ports may be able to allocate a unique port to each station (no collision). 15.21

22. Routers A router is a three-layer device that routes packets based on their logical addresses. A router normally connects LANs and WANs in the internet. It has a routing table that is used to make decisions about the route. The routing table are normally dynamic and are updated using routing protocols. 15.22

23. 15.23 Figure 15.11 Routers connecting independent LANs and WANs

24. Three-Layer Switches A three-layer switch is a router, but a faster and more sophisticated. Three-layer switch provide faster table lookup and forwarding. The terms router and three-layer switch are used interchangeably. 15.24

25. Gateway A gateway is normally a computer that operates in all five layers of the Internet or seven layers of OSI model. A gateway takes an application message, reads it, and interprets it, so it can be used as a connecting device between two internetworks that use different models. Gateways can provide security. In some textbooks the terms gateway and router are used interchangeably. 15.25

26. 15.26 15-2 BACKBONE NETWORKS A backbone network allows several LANs to be connected. In a backbone network, no station is directly connected to the backbone; the stations are part of a LAN, and the backbone connects the LANs. Bus Backbone Star Backbone Connecting Remote LANs Topics discussed in this section:

27. 15.27 In a bus backbone, the topology of the backbone is a bus. Note

28. 15.28 Figure 15.12 Bus backbone

29. 15.29 In a star backbone, the topology of the backbone is a star; the backbone is just one switch. Note

30. 15.30 Figure 15.13 Star backbone

31. 15.31 Figure 15.14 Connecting remote LANs with bridges

32. 15.32 A point-to-point link acts as a LAN in a remote backbone connected by remote bridges. Note

33. 15.33 15-3 VIRTUAL LANs We can roughly define a virtual local area network (VLAN) as a local area network configured by software, not by physical wiring. Membership Configuration Communication between Switches IEEE Standard Advantages Topics discussed in this section:

34. LAN or VLAN A station is considered part of a LAN if it physically belongs to that LAN. The question is what if we need a virtual connection between two stations belonging to two different physical LANs? 15.34

35. 15.35 Figure 15.15 A switch connecting three LANs

36. A switch connecting three LANs This is an example of switched LAN, consists of three groups of users. What if the network administrator needs to move some of users from one group to another, the solution is by rewiring. 15.36

37. 15.37 Figure 15.16 A switch using VLAN software

38. A switch using VLAN software This is an example of the same switched LAN but divided into three VLANs. The idea of VLAN technology is to divide a LAN into logical, instead of physical, segments. Each VLAN is a work group in the organization. If a user moves from one group to another, there is no need to change the physical configuration. The group membership in VLANs is defined by software, not hardware. All members belonging to a VLAN can be receive broadcast messages sent to that particular VLAN. 15.38

39. 15.39 Figure 15.17 Two switches in a backbone using VLAN software

40. Two switches in a backbone using VLAN software VLAN technology even allows the grouping of stations connected to different switches in VLAN. This is an example of a good configuration for a company with two separate buildings. Each building can have its own switched LAN connected by a backbone. 15.40

41. 15.41 VLANs create broadcast domains. Note

42. VLAN Membership What can be used to group stations in a VLAN? Venders use different characteristics such as port numbers, MAC addresses, IP addresses, IP multicast addresses, or a combination of two or more of these. Port Numbers: - switch port numbers can be used by administrators to define which station is connected to which port number. 15.42

43. VLAN Configuration Stations are grouped into different VLANs. Stations are configured in one of three ways: manual, automatic, and semiautomatic. In a manual configuration, the network administrator uses the VLAN software to manually assign the stations into different VLANs at setup. In an automatic configuration, the stations are automatically connected or disconnected from a VLAN using criteria (e.g. project number) defined by the administrator. 15.43