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McGraw-Hill©The McGraw-Hill Companies, Inc., 2000 Chapter 7 ARP and RARP.

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Presentation on theme: "McGraw-Hill©The McGraw-Hill Companies, Inc., 2000 Chapter 7 ARP and RARP."— Presentation transcript:

1 McGraw-Hill©The McGraw-Hill Companies, Inc., 2000 Chapter 7 ARP and RARP

2 McGraw-Hill©The McGraw-Hill Companies, Inc., 2000 CONTENTS ARP ARP PACKAGE RARP

3 McGraw-Hill©The McGraw-Hill Companies, Inc., 2000 Figure 7-1 ARP and RARP

4 McGraw-Hill©The McGraw-Hill Companies, Inc., 2000 Figure 7-2 Position of ARP and RARP in TCP/IP protocol suite

5 McGraw-Hill©The McGraw-Hill Companies, Inc., 2000 A R P 7.1

6 McGraw-Hill©The McGraw-Hill Companies, Inc., 2000 Figure 7-3 ARP operation

7 McGraw-Hill©The McGraw-Hill Companies, Inc., 2000 Figure 7-4 ARP packet

8 McGraw-Hill©The McGraw-Hill Companies, Inc., 2000 Figure 7-5 Encapsulation of ARP packet

9 McGraw-Hill©The McGraw-Hill Companies, Inc., 2000 Figure 7-6:a Four cases using ARP

10 McGraw-Hill©The McGraw-Hill Companies, Inc., 2000 Figure 7-6:b Four cases using ARP

11 McGraw-Hill©The McGraw-Hill Companies, Inc., 2000 Figure 7-6:c Four cases using ARP

12 McGraw-Hill©The McGraw-Hill Companies, Inc., 2000 Figure 7-6:d Four cases using ARP

13 McGraw-Hill©The McGraw-Hill Companies, Inc., 2000 An ARP request is broadcast; an ARP reply is unicast.

14 McGraw-Hill©The McGraw-Hill Companies, Inc., 2000 Example 1 A host with IP address 130.23.43.20 and physical address 0xB23455102210 has a packet to send to another host with IP address 130.23.43.25 and physical address 0xA46EF45983AB. The two hosts are on the same Ethernet network. Show the ARP request and reply packets encapsulated in Ethernet frames.

15 McGraw-Hill©The McGraw-Hill Companies, Inc., 2000 Solution Figure 7.7 shows the ARP request and reply packets. Note that the ARP data field in this case is 28 bytes, and that the individual addresses do not fit in the 4-byte boundary.

16 McGraw-Hill©The McGraw-Hill Companies, Inc., 2000 Figure 7-7: request Example 1

17 McGraw-Hill©The McGraw-Hill Companies, Inc., 2000 Figure 7-7: reply Example 1 (Continued)

18 McGraw-Hill©The McGraw-Hill Companies, Inc., 2000 Figure 7-8 Proxy ARP

19 McGraw-Hill©The McGraw-Hill Companies, Inc., 2000 ARP PACKAGE 7.2

20 McGraw-Hill©The McGraw-Hill Companies, Inc., 2000 Figure 7-9 ARP components

21 McGraw-Hill©The McGraw-Hill Companies, Inc., 2000 State Queue Attempt Time-out Protocol Addr. Hardware Addr. R5900 180.3.6.1ACAE32457342 P22 129.34.4.8 P145 201.11.56.7 R8450 114.5.7.89457342ACAE32 P121 220.55.5.7 F R960 19.1.7.824573E3242ACA P183 188.11.8.71 Original cache table

22 McGraw-Hill©The McGraw-Hill Companies, Inc., 2000 Example 2 The ARP output module receives an IP datagram (from the IP layer) with the destination address 114.5.7.89. It checks the cache table and finds that an entry exists for this destination with the RESOLVED state (R in the table). It extracts the hardware address, which is 457342ACAE32, and sends the packet and the address to the data link layer for transmission. The cache table remains the same.

23 McGraw-Hill©The McGraw-Hill Companies, Inc., 2000 Example 3 Twenty seconds later, the ARP output module receives an IP datagram (from the IP layer) with the destination address 116.1.7.22. It checks the cache table and does not find this destination in the table. The module adds an entry to the table with the state PENDING and the Attempt value 1. It creates a new queue for this destination and enqueues the packet. It then sends an ARP request to the data link layer for this destination.

24 McGraw-Hill©The McGraw-Hill Companies, Inc., 2000 State Queue Attempt Time-out Protocol Addr. Hardware Addr. R5900 180.3.6.1ACAE32457342 P22 129.34.4.8 P145 201.11.56.7 R8450 114.5.7.89457342ACAE32 P121 220.55.5.7 P231 116.1.7.22 R960 19.1.7.824573E3242ACA P183 188.11.8.71 Cache table for Example 3

25 McGraw-Hill©The McGraw-Hill Companies, Inc., 2000 Example 4 Fifteen seconds later, the ARP input module receives an ARP packet with target protocol (IP) address 188.11.8.71. The module checks the table and finds this address. It changes the state of the entry to RESOLVED and sets the time-out value to 900. The module then adds the target hardware address (E34573242ACA) to the entry. Now it accesses queue 18 and sends all the packets in this queue, one by one, to the data link layer.

26 McGraw-Hill©The McGraw-Hill Companies, Inc., 2000 State Queue Attempt Time-out Protocol Addr. Hardware Addr. R5900 180.3.6.1ACAE32457342 P22 129.34.4.8 P145 201.11.56.7 R8450 114.5.7.89457342ACAE32 P121 220.55.5.7 P231 116.1.7.22 R960 19.1.7.824573E3242ACA R18 188.11.8.71E34573242ACA Cache table for Example 4

27 McGraw-Hill©The McGraw-Hill Companies, Inc., 2000 Example 5 Twenty-five seconds later, the cache-control module updates every entry. The time-out values for the first three resolved entries are decremented by 60. The time-out value for the last resolved entry is decremented by 25. The state of the next-to-the last entry is changed to FREE because the time-out is zero. For each of the three entries, the value of the attempts field is incremented by one. After incrementing, the attempts value for one entry (the one with IP protocol address 201.11.56.7) is more than the maximum; the state is changed to FREE, the queue is deleted.

28 McGraw-Hill©The McGraw-Hill Companies, Inc., 2000 State Queue Attempt Time-out Protocol Addr. Hardware Addr. R5840 180.3.6.1ACAE32457342 P23 129.34.4.8 F R8390 114.5.7.89457342ACAE32 P122 220.55.5.7 P232 116.1.7.22 F R18874 188.11.8.71E34573242ACA Cache table for Example 5

29 McGraw-Hill©The McGraw-Hill Companies, Inc., 2000 RARP 7.3

30 McGraw-Hill©The McGraw-Hill Companies, Inc., 2000 Figure 7-10 RARP operation

31 McGraw-Hill©The McGraw-Hill Companies, Inc., 2000 The RARP request packets are broadcast; the RARP reply packets are unicast.

32 McGraw-Hill©The McGraw-Hill Companies, Inc., 2000 Figure 7-11 RARP packet

33 McGraw-Hill©The McGraw-Hill Companies, Inc., 2000 Figure 7-12 Encapsulation of RARP packet

34 McGraw-Hill©The McGraw-Hill Companies, Inc., 2000 Alternative Solutions to RARP When a diskless computer is booted, it needs more information in addition to its IP address. It needs to know its subnet mask, the IP address of a router, and the IP address of a name server. RARP cannot provide this extra information. New protocols have been developed to provide this information. In Chapter 17 we discuss two protocols, BOOTP and DHCP, that can be used instead of RARP.

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