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

Product type Paperback

Published in Aug 2022

Publisher Packt

ISBN-13 9781803231679

Length 606 pages

Edition 2nd Edition

Languages

TCP

Tools

Wireshark

Concepts

Networking

Author (1):

Lisa Bock

View More author details

Table of Contents (28) Chapters

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

Exploring IPv6

Early on, scientists realized that IPv4's 32-bit address space would be exhausted. Although no one had an exact date, plans were made to replace IPv4 with an improved version, IPv6. In 1998, the RFC for IPv6 was published and can be found at https://www.ietf.org/rfc/rfc2460.txt.

IPv6 has a number of enhancements, including the following.

Streamlined header: The header has fewer fields; however, it is larger, mainly due to the expanded address space.
Flow label: In IPv6, there is a flow label. The field value is available for identifying streams that require specialized treatment, such as real-time traffic.
Support for extensions and options: While IPv4 can add options, IPv6 does so with greater ease. IPv6 provides the ability to add options, such as fragmentation, which has parameters to fragment the data, and hop-by-hop, which ensures that all devices in the path read the option.

The IPv6 header has room for larger address spaces. However...