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1 Chapter 8 Local Area Networks - Internetworking.

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1 1 Chapter 8 Local Area Networks - Internetworking

2 2 Introduction Many times it is necessary to connect a local area network to another local area network or to a wide area network. Local area network to local area network connections are often performed with a bridge-like device. Local area network to wide area network connections are usually performed with a router. A third device, the switch, can be used to interconnect segments of a local area network. Chapter Eight - Local Area Networks: Internetworking

3 3 Why Interconnect? To separate / connect one corporate division with another. To connect two LANs with different protocols. To connect a LAN to the Internet. To break a LAN into segments to relieve traffic congestion. To provide a security wall between two different types of users. Chapter Eight - Local Area Networks: Internetworking

4 4 Repeaters Repeater Repeaters Repeaters repeat a signal from one port to another. A repeater forwards every frame; Repeaters pass all traffic through without error checking or filtering.. Repeaters pass collisions, too. telnet Repeaters extend the maximum allowed distance between nodes.

5 5 Hubs As seen earlier, a hub interconnects two or more workstations into a local area network. When a workstation transmits to a hub, the hub immediately resends the data frame out all connecting links. A hub can be managed or unmanaged. A managed hub possesses enough processing power that it can be managed from a remote location. Chapter Eight - Local Area Networks: Internetworking

6 Hubs –very simple devices that pass all traffic in both directions between the LAN sections they link. –same or different cable types –pass on every message –used to connect LANs of similar technology, or to extend the distance of one LAN Very similar to repeaters –Also operates at the physical layer –use physical layer protocols

7 7 Hubs Hub Hubs… Hubs propagate a signal received on one port to all other ports. Hubs propagate errors and collisions across ports, too. Hubs simplify the addition and removal of nodes on a LAN. Hubs are also used to connect network segments cabled with different media types. telnet Hubs make it very easy to add and remove hosts on a network.

8 15.8 Can also create multiple level of hierarchy

9 Hubs Advantages :- –inexpensive –easy to Install –can connect different media –very little delay Disadvantages :- –limited distance between devices –limited on the number of repeaters –no protocol –no error detection –does not filter

10 10 Bridges A bridge (or bridge-like device) can be used to connect two similar LANs, such as two CSMA/CD LANs. A bridge can also be used to connect two closely similar LANs, such as a CSMA/CD LAN and a token ring LAN. The bridge examines the destination address in a frame and either forwards this frame onto the next LAN or does not. The bridge examines the source address in a frame and places this address in a routing table, to be used for future routing decisions. Chapter Eight - Local Area Networks: Internetworking

11 11 Chapter Eight - Local Area Networks: Internetworking

12 12 Bridges Connects two or more LANs at the link layer –Extracts destination address from the frame. –Looks up the destination in a table. –Forwards the frame to the appropriate LAN segment. –same or different cable types. –forward only those messages that need to go out (filtering). –“learn” whether to forward packets. Each segment can carry its own traffic host Bridge

13 13 Bridges Bridge Hub Bridges Bridges provide all the functionality of a hub.... Bridges filter frames by destination MAC, and segment a LAN into multiple collision domains. Bridges filter signal and timing errors. Bridges can be used to connect segments operating at different speeds. telnet Hub Bridges make it possible to segment your network into separate collision domains to minimize collisions and improve performance. Separate Collision Domains

14 A bridge has a table used in filtering decisions. It can check the destination address of a frame and decide if the frame should be forwarded or dropped. If the frame is to be forwarded, the decision must specify to port. A bridge has a table that maps address to ports.

15 15.15 A bridge connecting two LANs the bridge can check the physical/MAC addresses contained in the frame.

16 16 Transparent Bridges A transparent bridge does not need programming but observes all traffic and builds routing tables from this observation. This observation is called backward learning. Each bridge has two connections (ports) and there is a routing table associated with each port. A bridge observes each frame that arrives at a port, extracts the source address from the frame, and places that address in the port’s routing table. A transparent bridge is found with CSMA/CD LANs. Chapter Eight - Local Area Networks: Internetworking

17 17 Chapter Eight - Local Area Networks: Internetworking

18 18 Chapter Eight - Local Area Networks: Internetworking

19 19 Transparent Bridges A transparent bridge can also convert one frame format to another, but this does not happen too often anymore since most networks are CSMA/CD. Note that some people / manufacturers call a bridge such as this a gateway or sometimes a router. The bridge removes the headers and trailers from one frame format and inserts (encapsulates) the headers and trailers for the second frame format. Chapter Eight - Local Area Networks: Internetworking

20 15.20 A learning bridge and the process of learning

21 21 Remote Bridges A remote bridge is capable of passing a data frame from one local area network to another when the two LANs are separated by a long distance and there is a wide area network connecting the two LANs. A remote bridge takes the frame before it leaves the first LAN and encapsulates the WAN headers and trailers. When the packet arrives at the destination remote bridge, that bridge removes the WAN headers and trailers leaving the original frame. Chapter Eight - Local Area Networks: Internetworking

22 22 Chapter Eight - Local Area Networks: Internetworking

23 23 Spanning Tree Algorithm What happens if you have many LANs interconnected with multiple bridges, such as shown in the next slide? Data that leaves one workstation could travel to a bridge, across the next network, into the next bridge, and back onto the first network. A packet may continue to cycle like this forever! Chapter Eight - Local Area Networks: Internetworking

24 24

25 25

26 26 Spanning Tree Algorithm How do we stop this from happening? Disconnect one of the bridges? Maybe we want bridge redundancy in case one bridge fails. How about applying the spanning tree algorithm. How is the algorithm applied? Chapter Eight - Local Area Networks: Internetworking

27 27 Spanning Tree Algorithm Step 1: Designate a Root Bridge Step 2: Mark one port of each bridge as the Root Port. The root port is the port with the least-cost path from that bridge to the root bridge. The root ports are denoted with an asterisk in Figure 8-7b. Step 3: The next step is to select a designated bridge for each LAN. A designated bridge has the least-cost path between that LAN and the root bridge. Mark the corresponding port that connects that LAN to its designated bridge with two asterisks (Figure 8-7b) Chapter Eight - Local Area Networks: Internetworking

28 28 Spanning Tree Algorithm Step 4: If a port has no asterisks, that port is redundant and can be “removed”. Keep all ports with one or two asterisks. The resulting configuration is shown in Figure 8-7c. Note there is now only one way to get to any LAN or bridge from any other LAN or bridge. Chapter Eight - Local Area Networks: Internetworking

29 29

30 30 Switches A switch is a combination of a hub and a bridge. It can interconnect two or more workstations, but like a bridge, it observes traffic flow and learns. When a frame arrives at a switch, the switch examines the destination address and forwards the frame out the one necessary connection. Workstations that connect to a hub are on a shared segment. Workstations that connect to a switch are on a switched segment. Chapter Eight - Local Area Networks: Internetworking

31 31 Switches The backplane of a switch is fast enough to support multiple data transfers at one time. A switch that employs cut-through architecture is passing on the frame before the entire frame has arrived at the switch. Multiple workstations connected to a switch use dedicated segments. This is a very efficient way to isolate heavy users from the network. A switch can allow simultaneous access to multiple servers, or multiple simultaneous connections to a single server. Chapter Eight - Local Area Networks: Internetworking

32 32 Chapter Eight - Local Area Networks: Internetworking

33 33 Chapter Eight - Local Area Networks: Internetworking

34 34 Switches Switches provide all the functionality of a bridge.... Switches typically offer more ports than bridges. Switches allow for multiple, parallel channels of communication between ports. Switches are similar to bridges, but offer multiple parallel communication channels across ports for improved performance. Switch telnet

35 35 Virtual LANs A virtual LAN, or VLAN, is a logical subgroup within a local area network that is created via switches and software rather than by manually moving wiring from one network device to another Even though the employees and their actual computer workstations may be scattered throughout the building, LAN switches and VLAN software can be used to create a “network within a network.” Chapter Eight - Local Area Networks: Internetworking

36 36 Virtual LANs A relatively new standard, IEEE 802.1Q, was designed to allow multiple devices to intercommunicate and work together to create a virtual LAN Instead of sending a technician to a wiring closet to move a workstation cable from one switch to another, an 802.1Q- compliant switch can be remotely configured by a network administrator Chapter Eight - Local Area Networks: Internetworking

37 Switches Cut-through switches –use circuit-switching to immediately connect the port with the incoming message to the correct outgoing port –very fast as decisions are done in hardware –outgoing packet is lost if port is in use Store-and-forward switches –copy the incoming packet to memory prior to processing the destination address -- transmit it when the outgoing port is ready

38 38 Isolating Traffic Patterns with Switches Whether shared or dedicated segments are involved, the primary goal of a switch is to isolate a particular pattern of traffic from other patterns of traffic or from the remainder of the network Switches, because of their backplane, can also allow multiple paths of communications to simultaneously occur Chapter Eight - Local Area Networks: Internetworking

39 39 Chapter Eight - Local Area Networks: Internetworking

40 40 Chapter Eight - Local Area Networks: Internetworking

41 41 Isolating Traffic Patterns with Switches Using a pair of routers, it is possible to interconnect to switched segments, essentially creating one large local area network Chapter Eight - Local Area Networks: Internetworking

42 42 Chapter Eight - Local Area Networks: Internetworking

43 43 Full Duplex Switches A full duplex switch allows for simultaneous transmission and reception of data to and from a workstation. This full duplex connection helps to eliminate collisions. To support a full duplex connection to a switch, at least two pairs of wires are necessary - one for the receive operation and one for the transmit operation. Most people install four pairs today, so wiring is not the problem. Chapter Eight - Local Area Networks: Internetworking

44 44 Chapter Eight - Local Area Networks: Internetworking

45 45 Network Servers Network servers provide the storage necessary for LAN software. They are usually the focal point for the network operating system. Increasingly, network servers are functioning as bridges, switches, and routers. By adding the appropriate card, a server can assume multiple functions. Chapter Eight - Local Area Networks: Internetworking

46 46 Routers The device that connects a LAN to a WAN or a WAN to a WAN. A router accepts an outgoing packet, removes any LAN headers and trailers, and encapsulates the necessary WAN headers and trailers. Because a router has to make wide area network routing decisions, the router has to dig down into the network layer of the packet to retrieve the network destination address. Chapter Eight - Local Area Networks: Internetworking

47 47 Routers Thus, routers are often called “layer 3 devices”. They operate at the third layer, or OSI network layer, of the packet. Routers often incorporate firewall functions. An example of a router’s operation is shown on the next slide. Chapter Eight - Local Area Networks: Internetworking

48 48 Chapter Eight - Local Area Networks: Internetworking

49 Routers –connect two or more LANs that use the same or different data link protocols, but the same network protocol. –same or different cable types –operate at the network layer –forward only messages that need to go out –routers use the internetwork address –internal routing tables –only processes messages addressed to it

50 Routers Advantages –can mix-in-match protocols and convert them –enable all ports to work at the same time –can be used as an extra layer of security –configurable –high speed Disadvantages –hard to configure and manage –access lists must be kept current –high maintenance/high training costs –very expensive

51 51 LAN Internetworking In Action: A Small Office Revisited Recall the In Action example from Chapter Seven. A small office with 20 workstations in one room and 15 workstations in another room were connected to a server via 100BaseTX. One hub was kept in a closet near the 20 workstations while a second hub was near the server. Chapter Eight - Local Area Networks: Internetworking

52 52 Chapter Eight - Local Area Networks: Internetworking

53 53 LAN Internetworking In Action: A Small Office Revisited Now Hannah wants to connect the LAN to the Internet. She adds a router next to the server and connects it to the hub. She connects the router to a high-speed telephone line such as a T-1 service. She will also have to program the router to perform IP addressing and firewall functions. Chapter Eight - Local Area Networks: Internetworking

54 54 Chapter Eight - Local Area Networks: Internetworking

55 55 LAN Internetworking In Action: A Small Office Revisited Now network usage is so high that Hannah must consider segmenting the network. She decides to install a database server near the original server and replace both hubs with switches. Chapter Eight - Local Area Networks: Internetworking

56 56 Chapter Eight - Local Area Networks: Internetworking


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