Internet Networking recitation #2 IP Checksum, Fragmentation

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1 Internet Networking recitation #2 IP Checksum, Fragmentation Winter Semester 2012, Dept. of Computer Science, Technion 1

2 IP Header Diagram Ver. IHL TOS Total Length Identification Flags Fragment Offset TTL Protocol Checksum Source Address Destination Address Options Padding 2

3 IP Checksum Ensuring integrity of IP header Reducing processing time at routers. Does not check data integrity. Allowing higher level protocols to choose their own checksum scheme for the data. 3

4 Checksum (RFC 1071) Adjacent octets to be checksummed are paired to form 16-bit words. The checksum field is cleared. The 16-bit 1's complement sum is computed over the 16-bit words Any overflows are added to the sum. The 1's complement of this sum is placed in the checksum field. 4

5 Checksum verification To verify a checksum, the 1's complement sum is computed over the same set of octets, including the checksum field. If the result is all 1 bits, the check succeeds. 5

6 Checksum Insensitive to: Byte order. Zero padding. Word width (2 bytes, 4 bytes, etc.). Hardware oriented (simple addition). Not robust (unlike CRC). 6

7 Example 7

8 Incremental Checksum Update (RFC 1141) Updating part of the IP header data doesn t require recomputing the entire Checksum field. (For example: when a router change the TTL field.) The technique for speed up checksum recomputing in this case is called - incremental checksum update. 8

9 Notation: Incremental Checksum Update C - Old 1 s complement sum. m - Old data. C - New 1 s complement sum. m - New data. C = C + (-m) + m = C + ( m m) The checksum is the 1 complement of C : ~C' = ~(C + (-m) + m') = ~C + (m - m') = ~C + m + ~m Note, the second equality does not work if the sum in the brackets is 0xFFFF (see RFC 1624). 9

10 Incremental Internet Checksum Subtracting 1 from TTL field (common case) ~C = ~C + (m - m ) = ~C H (TTL byte is higher byte of integer) If ~C=220dH then ~C = 220dH H = 230dH 10

11 IP Fragmentation The internet is used to connect network from different technologies. In particular every technology has its own maximum packet size. This maximum packet size is called MTU (Maximum Transfer Unit). In Ethernet the MTU is 1514 bytes. Large IP packets may traverse network in which the MTU is smaller than the packet sized. These packets must be fragmented. 11

12 IP Fragmentation IP fragmentation is done in the entry point of the (physical) network that requires the fragmentation. IP layer automatically performs fragmentation of a datagram when its too large to be sent on physical network. A datagram could be fragmented more than one time. Fragments are counted in units of 8 octets. Reassemble is done in the IP layer at the destination. Transparent to upper protocol. 12

13 IP Fragmentation Ver. IHL TOS Total Length Identification Flags Fragment Offset TTL Protocol Checksum Source Address Destination Address Options Padding 13

14 Identification field Unique integer that identifies the datagram The originator of the IP packet (i.e. the source) sets the identification field to a value that must be unique for that sourcedestination pair and protocol for the time the datagram will be active in the internet system. Implemented by counter, which increments by one. Ensures that fragments of different datagrams are not mixed. 14

15 Fragment Offset Tells the receiver the position of a fragment in the original datagram. Identifies the fragment location, relative to the beginning of the original unfragmented datagram. The fragment offset and length determine the portion of the original datagram covered by this fragment. The fragment offset is measured in units of 8 octets (64 bits). Enables Additional fragmentation. It does not include the length of the IP header. Reason: 13 bits are used to map 16 bits (IP length). The first fragment has offset zero. 15

16 Flag Bit 0: reserved, must be zero. Bit 1: (DF) 0 = May Fragment, 1 = Don't Fragment. If is set, then internet fragmentation of this datagram is NOT permitted If fragmentation required, but this bit is set than the packet is discarded and ICMP is returned. Bit 2: (MF) 0 = Last Fragment, 1 = More Fragments. Set if the datagram is not the last fragment. 16

17 Fragmentation - Example Datagram header Data octets Data octets Data octets a Datagram header Data octets Fragment 1 offset = 0 Datagram header Data octets Fragment 2 offset = 75 b Datagram header Data octets Fragment 3 offset =

18 Fragmentation Fragmentation must be supported by every IP entities (routers, host, etc.). Fragmentation should be avoided. Loss of one fragment requires retransmission of the entire packet. Advanced IP forwarding entities (e.g HW based forwarding entities) does not support IP fragmentation (i.e. IP fragmentation is an exception). MTU discovery protocol (RFC 1191) that uses the DF bit, is used to avoid the necessity of IP fragmentation. 18

Veryx ATTEST TM. Sample Test cases Overview. Conformance Test Suite. Internet Protocol version 4 (IPv4) Part Number: T / TCLS IPv /1.

Veryx ATTEST TM. Sample Test cases Overview. Conformance Test Suite. Internet Protocol version 4 (IPv4) Part Number: T / TCLS IPv /1. Veryx ATTEST TM Conformance Test Suite Internet Protocol version 4 (IPv4) Sample Test cases Overview Part Number: T / TCLS IPv4 1.0-1110/1.0 This page is intentionally left blank. Introduction The Veryx