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Learn Wireshark

You're reading from   Learn Wireshark A definitive guide to expertly analyzing protocols and troubleshooting networks using Wireshark

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Product type Paperback
Published in Aug 2022
Publisher Packt
ISBN-13 9781803231679
Length 606 pages
Edition 2nd Edition
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Author (1):
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Lisa Bock Lisa Bock
Author Profile Icon Lisa Bock
Lisa Bock
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Toc

Table of Contents (28) Chapters Close

Preface 1. Part 1 Traffic Capture Overview
2. Chapter 1: Appreciating Traffic Analysis FREE CHAPTER 3. Chapter 2: Using Wireshark 4. Chapter 3: Installing Wireshark 5. Chapter 4: Exploring the Wireshark Interface 6. Part 2 Getting Started with Wireshark
7. Chapter 5: Tapping into the Data Stream 8. Chapter 6: Personalizing the Interface 9. Chapter 7: Using Display and Capture Filters 10. Chapter 8: Outlining the OSI Model 11. Part 3 The Internet Suite TCP/IP
12. Chapter 9: Decoding TCP and UDP 13. Chapter 10: Managing TCP Connections 14. Chapter 11: Analyzing IPv4 and IPv6 15. Chapter 12: Discovering ICMP 16. Part 4 Deep Packet Analysis of Common Protocols
17. Chapter 13: Diving into DNS 18. Chapter 14: Examining DHCP 19. Chapter 15: Decoding HTTP 20. Chapter 16: Understanding ARP 21. Part 5 Working with Packet Captures
22. Chapter 17: Determining Network Latency Issues 23. Chapter 18: Subsetting, Saving, and Exporting Captures 24. Chapter 19: Discovering I/O and Stream Graphs 25. Chapter 20: Using CloudShark for Packet Analysis 26. Assessments 27. Other Books You May Enjoy

Outlining IPv4

In 1981, Request for Comments (RFC) 791 outlined the specifications for IPv4. The RFC outlined that IPv4 had two principal tasks, addressing and fragmentation, as defined in Section 1.4. Operation, found at https://tools.ietf.org/html/rfc791#section-1.4.

As stated, one of the original roles of IPv4 was fragmentation, which breaks packets apart. At the time, this was necessary because, in the early 1980s, most of the networks had limited bandwidth and were unable to transmit large packets.

Over time, efforts have been made to upgrade and replace the antiquated data pathways, and much of the internet has been replaced by high-speed, fiber optic cables. As a result, in today's networks, fragmentation is rarely used.

Note

Fragmentation is used when the maximum transmission unit (MTU) is less than 1,500 bytes.

As time has passed, we can see that IPv4 is still influential in addressing, along with the role of routing, in order to get data to its final...

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