1. 7 Network Layer Part IV Computer Networks Tutun Juhana
Telecommunication Engineering
School of Electrical Engineering & Informatics
Institut Teknologi Bandung
Computer Networks

2. Internet Protocol Version 4 (IPv4)

4. This is why we need Total Length field

8. FRAGMENTATION

9. Maximum Transfer Unit (MTU)

10. Maximum IP datagram length is 65,535 bytes
We might have to divide the datagram to make it possible to pass through different physical networks  This is called fragmentation.

11. When a datagram is fragmented, each fragment has its own header with most of the fields repeated, but some changed
A fragmented datagram may itself be fragmented if it encounters a network with an even smaller MTU (a datagram can be fragmented several times before it reaches the final destination)
A datagram can be fragmented by the source host or any router in the path
The reassembly of the datagram, however, is done only by the destination host

12. When a datagram is fragmented, required parts of the header must be copied by all fragments  The option field may or may not be copied
The host or router that fragments a datagram must change the values of three fields: flags, fragmentation offset, and total length (The rest of the fields must be copied)
The value of the checksum must be recalculated regardless of fragmentation.

13. Fields Related to Fragmentation
Identification
Flags
Fragmentation offset

14. Identification
16 bit
Identifies a datagram originating from the source host
The combination of the identification and source IP address must uniquely define a datagram as it leaves the source host.
When a datagram is fragmented, the value in the identification field is copied into all fragments  all fragments have the same identification number, which is also the same as the original datagram
The identification number helps the destination in reassembling the datagram  all fragments having the same identification value should be assembled into one datagram

15. Flags D (Do not fragment) M (More fragments)
not used
D (Do not fragment)
‘1’ : machine must not fragment the datagram
‘0’ : datagram can be fragmented if necessary
M (More fragments)
‘1’ : datagram is not the last datagram
‘0’ : This is the last or only fragment

16. Fragmentation offset
This 13-bit field shows the relative position of this fragment with respect to the whole datagram.
Measured in units of 8 bytes

17. the offset field is always relative to the original datagram
identification
The last fragment

18. Final destination host can reassemble the original datagram from the fragments received (if none of them is lost) using the following strategy:
The first fragment has an offset field value of zero.
Divide the length of the first fragment by 8. The second fragment has an offset value equal to that result.
Divide the total length of the first and second fragment by 8. The third fragment has an offset value equal to that result.
Continue the process. The last fragment has a more bit value of 0.

19. OPTIONS

20. Are not required for a datagram
But all IP software implementations must be able to handle options if they are present in the header.
Can be used for network testing and debugging.

21. Format
type-length-value (TLV)

22. Option Types do not require the length or the data fields

23. No-Operation Option
1-byte option used as a filler between options

24. End-of-Option Option
1-byte option used for padding at the end of the option field.
It can only be used as the last option Only one end-of-option option can be used  After this option, the receiver looks for the payload data  If more than 1 byte is needed to align the option field, some no-operation options must be used, followed by an end-of-option option

25. Record-Route Option
is used to record the Internet routers that handle the datagram
It can list up to nine router IP addresses
Pointer field is an offset integer field containing the byte number of the first empty entry It points to the first available entry.

27. Strict-Source-Route Option
used by the source to predetermine a route for the datagram as it travels through the Internet

29. Loose-Source-Route Option
similar to the strict source route, but it is more relaxed Each router in the list must be visited, but the datagram can visit other routers as well.

30. Timestamp
A timestamp option is used to record the time of datagram processing by a router
The time is expressed in milliseconds from midnight, Universal Time.

33. Checksum

34. Checksum Calculation at the Sender
The packet is divided into k sections, each of n bits.
All sections are added together using one’s complement arithmetic.
The final result is complemented to make the checksum.

36. Checksum in the IP Packet