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7/3/2015 Unit-3 : Network Layer 1 CS 1302 Computer Networks — Unit - 3 — — Network Layer — Text Book Behrouz.A. Forouzan, “Data communication and Networking”,

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Presentation on theme: "7/3/2015 Unit-3 : Network Layer 1 CS 1302 Computer Networks — Unit - 3 — — Network Layer — Text Book Behrouz.A. Forouzan, “Data communication and Networking”,"— Presentation transcript:

1 7/3/2015 Unit-3 : Network Layer 1 CS 1302 Computer Networks — Unit - 3 — — Network Layer — Text Book Behrouz.A. Forouzan, “Data communication and Networking”, Tata McGrawHill, 2004

2 Network Layer 7/3/20152Unit-3 : Network Layer

3 Position of network layer 7/3/20153Unit-3 : Network Layer

4 Network layer duties 7/3/20154Unit-3 : Network Layer

5 Host-to-Host Delivery: Internetworking, Addressing, and Routing 7/3/20155Unit-3 : Network Layer

6 19.1 Internetworks Need For Network Layer Internet As A Packet-Switched Network Internet As A Connectionless Network 7/3/20156Unit-3 : Network Layer

7 Figure 19.1 Internetwork 7/3/20157Unit-3 : Network Layer

8 Figure 19.2 Links in an internetwork 7/3/20158Unit-3 : Network Layer

9 Figure 19.3 Network layer in an internetwork 7/3/20159Unit-3 : Network Layer

10 Figure 19.4 Network layer at the source 7/3/201510Unit-3 : Network Layer

11 Figure 19.5 Network layer at a router 7/3/201511Unit-3 : Network Layer

12 Figure 19.6 Network layer at the destination 7/3/201512Unit-3 : Network Layer

13 Figure 19.7 Switching 7/3/201513Unit-3 : Network Layer

14 Figure 19.8 Datagram approach 7/3/201514Unit-3 : Network Layer

15 Switching at the network layer in the Internet is done using the datagram approach to packet switching. Note: 7/3/201515Unit-3 : Network Layer

16 Communication at the network layer in the Internet is connectionless. Note: 7/3/201516Unit-3 : Network Layer

17 19.2 Addressing Internet Address Classful Addressing Supernetting Subnetting Classless Addressing Dynamic Address Configuration Network Address Translation 7/3/201517Unit-3 : Network Layer

18 An IP address is a 32-bit address. Note: 7/3/201518Unit-3 : Network Layer

19 The IP addresses are unique and universal. Note: 7/3/201519Unit-3 : Network Layer

20 Figure 19.9 Dotted-decimal notation 7/3/201520Unit-3 : Network Layer

21 The binary, decimal, and hexadecimal number systems are reviewed in Appendix B. Note: 7/3/201521Unit-3 : Network Layer

22 Example 1 Change the following IP addresses from binary notation to dotted- decimal notation. a.10000001 00001011 00001011 11101111 b.11111001 10011011 11111011 00001111 Solution We replace each group of 8 bits with its equivalent decimal number (see Appendix B) and add dots for separation: a.129.11.11.239 b.249.155.251.15 7/3/201522Unit-3 : Network Layer

23 Example 2 Change the following IP addresses from dotted-decimal notation to binary notation. a.111.56.45.78 b.75.45.34.78 Solution We replace each decimal number with its binary equivalent (see Appendix B): a.01101111 00111000 00101101 01001110 b.01001011 00101101 00100010 01001110 7/3/201523Unit-3 : Network Layer

24 In classful addressing, the address space is divided into five classes: A, B, C, D, and E. Note: 7/3/201524Unit-3 : Network Layer

25 Figure 19.10 Finding the class in binary notation 7/3/201525Unit-3 : Network Layer

26 Figure 19.11 Finding the address class 7/3/201526Unit-3 : Network Layer

27 Example 3 Find the class of each address: 0 a.00000001 00001011 00001011 11101111 1111 b.11110011 10011011 11111011 00001111 Solution See the procedure in Figure 19.11. a.The first bit is 0; this is a class A address. b.The first 4 bits are 1s; this is a class E address. 7/3/201527Unit-3 : Network Layer

28 Figure 19.12 Finding the class in decimal notation 7/3/201528Unit-3 : Network Layer

29 Example 4 Find the class of each address: a.227.12.14.87 b.252.5.15.111 c.134.11.78.56 Solution a.The first byte is 227 (between 224 and 239); the class is D. b.The first byte is 252 (between 240 and 255); the class is E. c.The first byte is 134 (between 128 and 191); the class is B. 7/3/201529Unit-3 : Network Layer

30 Figure 19.13 Netid and hostid 7/3/201530Unit-3 : Network Layer

31 Figure 19.14 Blocks in class A 7/3/201531Unit-3 : Network Layer

32 Millions of class A addresses are wasted. Note: 7/3/201532Unit-3 : Network Layer

33 Figure 19.15 Blocks in class B 7/3/201533Unit-3 : Network Layer

34 Many class B addresses are wasted. Note: 7/3/201534Unit-3 : Network Layer

35 The number of addresses in class C is smaller than the needs of most organizations. Note: 7/3/201535Unit-3 : Network Layer

36 Figure 19.16 Blocks in class C 7/3/201536Unit-3 : Network Layer

37 Figure 19.17 Network address 7/3/201537Unit-3 : Network Layer

38 In classful addressing, the network address is the one that is assigned to the organization. Note: 7/3/201538Unit-3 : Network Layer

39 Example 5 Given the address 23.56.7.91, find the network address. Solution The class is A. Only the first byte defines the netid. We can find the network address by replacing the hostid bytes (56.7.91) with 0s. Therefore, the network address is 23.0.0.0. 7/3/201539Unit-3 : Network Layer

40 Example 6 Given the address 132.6.17.85, find the network address. Solution The class is B. The first 2 bytes defines the netid. We can find the network address by replacing the hostid bytes (17.85) with 0s. Therefore, the network address is 132.6.0.0. 7/3/201540Unit-3 : Network Layer

41 Example 7 Given the network address 17.0.0.0, find the class. Solution The class is A because the netid is only 1 byte. 7/3/201541Unit-3 : Network Layer

42 A network address is different from a netid. A network address has both netid and hostid, with 0s for the hostid. Note: 7/3/201542Unit-3 : Network Layer

43 Figure 19.18 Sample internet 7/3/201543Unit-3 : Network Layer

44 IP addresses are designed with two levels of hierarchy. Note: 7/3/201544Unit-3 : Network Layer

45 Figure 19.19 A network with two levels of hierarchy 7/3/201545Unit-3 : Network Layer

46 Figure 19.20 A network with three levels of hierarchy (subnetted) 7/3/201546Unit-3 : Network Layer

47 Figure 19.21 Addresses in a network with and without subnetting 7/3/201547Unit-3 : Network Layer

48 Figure 19.22 Hierarchy concept in a telephone number 7/3/201548Unit-3 : Network Layer

49 Table 19.1 Default masks Class In Binary In Dotted- Decimal Using Slash A 11111111 00000000 00000000 00000000255.0.0.0/8 B 11111111 11111111 00000000 00000000255.255.0.0/16 C 11111111 111111111 11111111 00000000255.255.255.0/24 7/3/201549Unit-3 : Network Layer

50 The network address can be found by applying the default mask to any address in the block (including itself). It retains the netid of the block and sets the hostid to 0s. Note: 7/3/201550Unit-3 : Network Layer

51 Example 8 A router outside the organization receives a packet with destination address 190.240.7.91. Show how it finds the network address to route the packet. Solution The router follows three steps: 1.The router looks at the first byte of the address to find the class. It is class B. 2.The default mask for class B is 255.255.0.0. The router ANDs this mask with the address to get 190.240.0.0. 3.The router looks in its routing table to find out how to route the packet to this destination. Later, we will see what happens if this destination does not exist. 7/3/201551Unit-3 : Network Layer

52 Figure 19.23 Subnet mask 7/3/201552Unit-3 : Network Layer

53 Example 9 A router inside the organization receives the same packet with destination address 190.240.33.91. Show how it finds the subnetwork address to route the packet. Solution The router follows three steps: 1.The router must know the mask. We assume it is /19, as shown in Figure 19.23. 2.The router applies the mask to the address, 190.240.33.91. The subnet address is 190.240.32.0. 3.The router looks in its routing table to find how to route the packet to this destination. Later, we will see what happens if this destination does not exist. 7/3/201553Unit-3 : Network Layer

54 Figure 19.24 DHCP transition diagram 7/3/201554Unit-3 : Network Layer

55 Table 19.2 Default masks Range Total 10.0.0.0 to 10.255.255.2552 24 172.16.0.0 to 172.31.255.2552 20 192.168.0.0 to 192.168.255.2552 16 7/3/201555Unit-3 : Network Layer

56 Figure 19.25 NAT 7/3/201556Unit-3 : Network Layer

57 Figure 19.26 Address translation 7/3/201557Unit-3 : Network Layer

58 Figure 19.27 Translation 7/3/201558Unit-3 : Network Layer

59 Table 19.3 Five-column translation table Private Address Private Port External Address External Port Transport Protocol 172.18.3.1140025.8.3.280TCP 172.18.3.2140125.8.3.280TCP... 7/3/201559Unit-3 : Network Layer

60 19.3 Routing Routing Techniques Static Versus Dynamic Routing Routing Table for Classful Addressing Routing Table for Classless Addressing 7/3/201560Unit-3 : Network Layer

61 Figure 19.28 Next-hop routing 7/3/201561Unit-3 : Network Layer

62 Figure 19.29 Network-specific routing 7/3/201562Unit-3 : Network Layer

63 Figure 19.30 Host-specific routing 7/3/201563Unit-3 : Network Layer

64 Figure 19.31 Default routing 7/3/201564Unit-3 : Network Layer

65 Figure 19.32 Classful addressing routing table 7/3/201565Unit-3 : Network Layer

66 Example 10 Using the table in Figure 19.32, the router receives a packet for destination 192.16.7.1. For each row, the mask is applied to the destination address until a match with the destination address is found. In this example, the router sends the packet through interface m0 (host specific). 7/3/201566Unit-3 : Network Layer

67 Example 11 Using the table in Figure 19.32, the router receives a packet for destination 193.14.5.22. For each row, the mask is applied to the destination address until a match with the next-hop address is found. In this example, the router sends the packet through interface m2 (network specific). 7/3/201567Unit-3 : Network Layer

68 Example 12 Using the table in Figure 19.32, the router receives a packet for destination 200.34.12.34. For each row, the mask is applied to the destination address, but no match is found. In this example, the router sends the packet through the default interface m0. 7/3/201568Unit-3 : Network Layer

69 Routing Algorithms 1.Distance Vector Routing 2.Link State Routing 7/3/201569Unit-3 : Network Layer

70 Figure 21-18 The Concept of Distance Vector Routing 7/3/201570Unit-3 : Network Layer

71 Figure 21-19 Distance Vector Routing Table 7/3/201571Unit-3 : Network Layer

72 Figure 21-20 Routing Table Distribution 7/3/201572Unit-3 : Network Layer

73 Figure 21-21 Updating Routing Table for Router A 7/3/201573Unit-3 : Network Layer

74 Figure 21-22 Final Routing Tables 7/3/201574Unit-3 : Network Layer

75 Figure 21-23 Example 21.1 7/3/201575Unit-3 : Network Layer

76 Figure 21-24 Concept of Link State Routing 7/3/201576Unit-3 : Network Layer

77 Figure 21-25 Cost in Link State Routing 7/3/201577Unit-3 : Network Layer

78 Figure 21-26 Link State Packet 7/3/201578Unit-3 : Network Layer

79 Figure 21-27 Flooding of A’s LSP 7/3/201579Unit-3 : Network Layer

80 Figure 21-28 Link State Database 7/3/201580Unit-3 : Network Layer

81 Figure 21-29 Costs in the Dijkstra Algorithm 7/3/201581Unit-3 : Network Layer

82 Figure 21-30, Part I Shortest Path Calculation, Part I 7/3/201582Unit-3 : Network Layer

83 Figure 21-30, Part II Shortest Path Calculation, Part II 7/3/201583Unit-3 : Network Layer

84 Figure 21-30, Part III Shortest Path Calculation, Part III 7/3/201584Unit-3 : Network Layer

85 Figure 21-30, Part IV Shortest Path Calculation, Part IV 7/3/201585Unit-3 : Network Layer

86 Figure 21-30, Part V Shortest Path Calculation, Part V 7/3/201586Unit-3 : Network Layer

87 Figure 21-30, Part VI Shortest Path Calculation, Part VI 7/3/201587Unit-3 : Network Layer

88 Figure 21-31, Part VII Shortest Path Calculation, Part VII 7/3/201588Unit-3 : Network Layer

89 Figure 21-31, Part I Shortest Path Calculation, Part VIII 7/3/201589Unit-3 : Network Layer

90 Figure 21-31, Part II Shortest Path Calculation, Part IX 7/3/201590Unit-3 : Network Layer

91 Figure 21-31, Part III Shortest Path Calculation, Part X 7/3/201591Unit-3 : Network Layer

92 Figure 21-31, Part IV Shortest Path Calculation, Part XI 7/3/201592Unit-3 : Network Layer

93 Figure 21-31, Part V Shortest Path Calculation, Part XII 7/3/201593Unit-3 : Network Layer

94 Figure 21-31, Part VI Shortest Path Calculation, Part XIII 7/3/201594Unit-3 : Network Layer

95 Routing Table for Router A Figure 21-32 7/3/201595Unit-3 : Network Layer

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