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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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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

Identifying where to use packet analysis

To conduct an effective packet analysis, the first step is to get a good capture. There are many places in which to conduct packet analysis, including on a LAN, on a host, or in the real world. Let's start with using packet analysis on a LAN.

Analyzing traffic on a LAN

Today's networks are complex. An enterprise network provides connectivity, data applications, and services to the clients on the network, as shown in the following diagram:

Figure 1.7 – A LAN

Figure 1.7 – A LAN

Most LANs are heterogeneous, with various operating systems such as Windows, Linux, and macOS, along with a mixture of devices such as softphones, tablets, laptops, and mobile devices. Depending on the business requirements, the network might include wide area network connectivity along with telephony.

To effectively use packet analysis, placement is the key. Not all traffic is created equally. Depending on placement, you might only capture a portion of the total network traffic. If the packet sniffer is on a host or end device, then it will be able to see the traffic on the segment's collision domain. If the sniffer is mirroring all traffic on a backbone, then it will be able to see all the traffic.

In certain instances, you might need to perform packet analysis on an individual host, such as a PC, to only monitor traffic destined to that host. In other cases, you might need to gather traffic on a switch to see the traffic as it passes through the switch ports.

Sniffing network traffic

Packet analysis can be done on an individual host, within a switch, or in line with the traffic. The difference is as follows:

  • If the protocol analyzer is installed on a client device attached to a switch, then the view of network traffic is limited. While sniffing traffic on a single switch port, you will only see broadcasts, multicasts, and your own unicast traffic.
  • To see all the traffic on a switch, the network administrator can use port monitoring or Switched Port Analyzer (SPAN). In some cases, you may be able to monitor within the switch, as Wireshark is built into the Cisco Nexus 7000 series and many other devices.
  • Another option is to use a full-duplex tap in line with traffic. The tap makes a copy or mirror of the traffic, which is pulled into the device for analysis. If this option is used, then you might require a special adapter.

In addition to using packet analysis on a LAN or a host, packet analysis can be used in the real world to monitor traffic for threats.

Using packet analysis in the real world

Packet analysis is used in the real world in many forms. One example is the Department of Homeland Security (DHS) EINSTEIN system, which has an active role in federal government cybersecurity. The United States government is constantly at risk of many types of attacks, including DoS attacks, malware, unauthorized access, and active scanning and probing.

The EINSTEIN system actively monitors the traffic for threats. Its two main functions are as follows:

  • To observe and report possible cyber threats
  • To detect and block attacks from compromising federal agencies

The EINSTEIN system provides the situational awareness that is necessary to take a proactive approach against an active attack. The intelligence gathered helps agencies to defend against ongoing threats. 

As illustrated, packet analysis is effective in many locations. The following section provides guidance on what circumstances packet analysis will reap the most benefits under.

You have been reading a chapter from
Learn Wireshark - Second Edition
Published in: Aug 2022
Publisher: Packt
ISBN-13: 9781803231679
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