CCNA Cyber Ops SECOPS ‚àö¬¢‚Äö√á¬®‚Äö√Ñ√∫ Certification Guide 210-255

By : Andrew Chu

5 (1)

Buy this Book

CCNA Cyber Ops SECOPS ‚àö¬¢‚Äö√á¬®‚Äö√Ñ√∫ Certification Guide 210-255

5 (1)

By: Andrew Chu

Buy this Book

Overview of this book

Cybersecurity roles have grown exponentially in the IT industry and an increasing number of organizations have set up security operations centers (SOCs) to monitor and respond to security threats. The 210-255 SECOPS exam is the second of two exams required for the Cisco CCNA Cyber Ops certification. By providing you with fundamental knowledge of SOC events, this certification validates your skills in managing cybersecurity processes such as analyzing threats and malicious activities, conducting security investigations, and using incident playbooks. You'll start by understanding threat analysis and computer forensics, which will help you build the foundation for learning intrusion analysis and incident response principles. The book will then guide you through vocabulary and techniques for analyzing data from the network and previous events. In later chapters, you'll discover how to identify, analyze, correlate, and respond to incidents, including how to communicate technical and inaccessible (non-technical) examples. You'll be able to build on your knowledge as you learn through examples and practice questions, and finally test your knowledge with two mock exams that allow you to put what you’ve learned to the test. By the end of this book, you'll have the skills to confidently pass the SECOPS 210-255 exam and achieve CCNA Cyber Ops certification.

Preface

Who this book is for

What this book covers

To get the most out of this book

Get in touch

Free Chapter

Section 1: Endpoint Threat Analysis and Forensics

Classifying Threats

Categorizing and communicating threats

Exploitability metrics

Impact metrics

Scope

Summary

Questions

Further reading

Operating System Families

Starting the operating system

Filesystems

Making, finding, accessing, and editing data

Summary

Questions

Further reading

Computer Forensics and Evidence Handling

Types of evidence

Maintaining evidential value

Attribution

Summary

Questions

Further reading

Section 2: Intrusion Analysis

Identifying Rogue Data from a Dataset

Using regexes to find normal characters

Using regexes to find characters in a set

Using regexes to extract groups of characters

Using regex logical operators

Summary

Questions

Further reading

Warning Signs from Network Data

Physical and data link layer (Ethernet) frame headers

Network layer (IPv4, IPv6, and ICMP) packet headers

Transport layer (TCP and UDP) segment and datagram headers

Application layer (HTTP) headers

Summary

Questions

Further reading

Network Security Data Analysis

PCAP files and Wireshark

Alert identification

Security technologies and their reports

Summary

Section 3: Incident Response

Roles and Responsibilities During an Incident

The incident response plan

The stages of an incident

Incident response teams

Summary

Questions

Further reading

Network and Server Profiling

Summary

Compliance Frameworks

Payment Card Industry Data Security Standard

Health Insurance Portability and Accountability Act, 1996

Sarbanes Oxley Act, 2002

Summary

Questions

Further reading

Section 4: Data and Event Analysis

Data Normalization and Exploitation

Creating commonality

The IP 5-tuple

Pinpointing threats and victims

Summary

Questions

Further reading

Drawing Conclusions from the Data

Finding a threat actor

Deterministic and probabilistic analysis

Distinguishing and prioritizing significant alerts

Summary

Questions

Further reading

Section 5: Incident Handling

The Cyber Kill Chain Model

Summary

Incident-Handling Activities

VERIS

The phases of incident handling

Conducting an investigation

Summary

Questions

Further reading

Section 6: Mock Exams

Mock Exam 1

Mock Exam 2

Assessments

Chapter 1: Classifying Threats

Chapter 2: Operating System Families

Chapter 3: Computer Forensics and Evidence Handling

Chapter 4: Identifying Rogue Data from a Dataset

Chapter 5: Warning Signs from Network Data

Chapter 6: Network Security Data Analysis

Chapter 7: Roles and Responsibilities During an Incident

Chapter 8: Network and Server Profiling

Chapter 9: Compliance Frameworks

Chapter 10: Data Normalization and Exploitation

Chapter 11: Drawing Conclusions from the Data

Chapter 12: The Cyber Kill Chain Model

Chapter 13: Incident-Handling Activities

Chapter 14 – Mock Exam 1

Chapter 15 – Mock Exam 2

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Summary

There is a huge range of cybersecurity products on the market, with many having overlapping or similar aims and capabilities. In this section, we looked at different network security technologies and the information that they capture.

Having a range of different data is vital in establishing what is being sent across the network and by whom. If we consider this in terms of previous chapters on evidence and attribution, the range of different data helps cybersecurity operators by providing corroboration to their interpretations.

Many systems provide decision making in isolation, although companies are increasingly providing suites of interconnected systems that can share information to make better decisions. However, there is always a risk of making incorrect decisions. Where a threat is incorrectly permitted, this is called a false negative; when legitimate traffic is...

CCNA Cyber Ops SECOPS ‚àö¬¢‚Äö√á¬®‚Äö√Ñ√∫ Certification Guide 210-255

By : Andrew Chu

CCNA Cyber Ops SECOPS ‚àö¬¢‚Äö√á¬®‚Äö√Ñ√∫ Certification Guide 210-255

By: Andrew Chu

Overview of this book

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