Description

Book Synopsis

Eugene H. Spafford, PhD, is a professor in Computer Science at Purdue University. In his 35-year career, Spaf has been honored with every major award in cybersecurity. Leigh Metcalf, PhD, is a Senior Network Security Research Analyst at the Carnegie Mellon University Software Engineering Institute's cybersecurity-focused CERT division. Josiah Dykstra, PhD, is a cybersecurity practitioner, researcher, author, and speaker. He is the owner of Designer Security and has worked at the US National Security Agency for 18 years.



Trade Review

"Many security leaders are traditionally in charge of correcting misconceptions just as much as they are in charge of building up solid security practices. We have plenty of resources on practices--but this book is the crucial guide to that essential myth busting."
--Phil Venables, CISO, Google Cloud

"I'm writing this on my phone, over Wi-Fi, in an airplane on my way to Black Hat, one of the world's largest security conferences. The fact that I'm able to do this at all shows how much we've really learned about cybersecurity over the decades. Now it's all collected in one place for everyone to share. Thank the wise authors, and most importantly: GET OFF THEIR LAWN."
--Wendy Nather, Head of Advisory CISOs, Cisco

"This book is astounding. A true tour de force--which I have never said about any other book. Inverting the viewpoint is a stroke of genius. This is going to be on my grabbable-at-any-time shelf. What I learned, recalled, and was refreshed on with technically astute agnosticism cannot be measured; just appreciated as a profound historical compilation of security practice and theory. Bravo!"
--Winn Schwartaul, Founder and Chief Visionary Officer, The Security Awareness Company

"I am happy to endorse the central idea of this book--that cybersecurity is rife with myths that are themselves part of the problem. The brain wants to understand, the world grows ever more complicated, and the sum of the two is myth-making. As the authors say, even if some understanding is true at some time, with enough change what was true becomes a myth soon enough. As such, an acquired immunity to myths is a valuable skill for the cybersecurity practitioner if no other. The paramount goal of all security engineering is No Silent Failure, but myths perpetuate if not create silent failure. Why? Because a state of security is the absence of unmitigable surprise and you cannot mitigate what you don't know is going on. Myths blind us to reality. Ignorance of them is not bliss. This book is a vaccine."
--Dan Geer, CISO, In-Q-Tel

"This is a fun read for all levels. I like their rapid fire delivery and the general light they cast on so many diverse myths. This book will change the cybersecurity industry for the better."
--Michael Sikorski, Author of Practical Malware Analysis & CTO, Unit 42 at Palo Alto Networks



Table of Contents

Foreword by Vint Cerf xxiii
Introduction xxiv
Acknowledgments xxxiii
About the Authors xxxiv

Part I: General Issues 1

Chapter 1: What Is Cybersecurity? 2
Everyone Knows What "Cybersecurity" Means 2
We Can Measure How Secure Our Systems Are 5
The Primary Goal of Cybersecurity Is Security 11
Cybersecurity Is About Obvious Risks 12
Sharing More Cyber Threat Intel Will Make Things Better 14
What Matters to You Matters to Everyone Else 16
Product X Will Make You Secure 17
Macs Are Safer Than PCs, Linux Is Safer Than Windows 18
Open Source Software Is More Secure Than Closed Source Software 19
Technology X Will Make You Secure 20
Process X Will Make You Secure 21
Færie Dust Can Make Old Ideas Magically Revolutionary 22
Passwords Should Be Changed Often 23
Believe and Fear Every Hacking Demo You See 26
Cyber Offense Is Easier Than Defense 27
Operational Technology (OT) Is Not Vulnerable 29
Breaking Systems Is the Best Way to Establish Yourself 30
Because You Can, You Should 30
Better Security Means Worse Privacy 32
Further Reading 33

Chapter 2: What Is the Internet? 36
Everyone Knows What the "Internet" Means 36
An IP Address Identifies a Unique Machine 37
The Internet Is Managed and Controlled by a Central Body 39
The Internet Is Largely Static 40
Your Network Is Static 41
Email Is Private 43
Cryptocurrency Is Untraceable 44
Everything Can Be Fixed with Blockchain 46
The Internet Is Like an Iceberg 46
A VPN Makes You Anonymous 48
A Firewall Is Enough 49
Further Reading 51

Part II: Human Issues 55

Chapter 3: Faulty Assumptions and Magical Thinking 56
Humans Will Behave Rationally, So Blame the User! 57
We Know Everything We Need to Know About Cybersecurity Problems 62
Compliance Equals (Complete) Security 63
Authentication Provides Confidentiality 65
I Can Never Be Secure, So Why Bother? 65
I Am Too Small/Insignificant to Be a Target 66
Everybody Is Out to Get Me 69
I Engage Only with Trusted Websites, So My Data Is Safe from a Breach 71
Security by Obscurity Is Reasonably Secure 72
The Illusions of Visibility and Control 74
Five 9's Is the Key to Cybersecurity 76
Everybody Has Top-of-the-Line Technology 78
We Can Predict Future Threats 80
Security People Control Security Outcomes 81
All Bad Outcomes Are the Result of a Bad Decision 82
More Security Is Always Better 84
Best Practices Are Always Best 85
Because It Is Online It Must Be True/Correct 86
Further Reading 87

Chapter 4: Fallacies and Misunderstandings 88
The False Cause Fallacy: Correlation Is Causation 89
Absence of Evidence Is Evidence of Absence 92
The Straw Hacker Fallacy 94
Ad Hominem Fallacy 95
Hasty Generalization Fallacy 96
Regression Fallacy 97
Base Rate Fallacy 98
Gambler's Fallacy 100
Fallacies of Anomalies 100
Ignorance of Black Swans 101
Conjunction and Disjunction Fallacies 103
Valence Effect 104
Endowment Effect 104
Sunk Cost Fallacy 105
Bonus Fallacies 107
Further Reading 109

Chapter 5: Cognitive Biases 110
Action Bias 112
Omission Bias 113
Survivorship Bias 115
Confirmation Bias 116
Choice Affirmation Bias 117
Hindsight Bias 117
Availability Bias 119
Social Proof 121
Overconfidence Bias 122
Zero Risk Bias 123
Frequency Bias 124
Bonus Biases 125
Further Reading 128

Chapter 6: Perverse Incentives and the Cobra Effect 130
The Goal of a Security Vendor Is to Keep You Secure 131
Your Cybersecurity Decisions Affect Only You 132
Bug Bounties Eliminate Bugs from the Offensive Market 134
Cyber Insurance Causes People to Take Less Risk 135
Fines and Penalties Cause People to Take Less Risk 136
Attacking Back Would Help Stop Cyber Crime 137
Innovation Increases Security and Privacy Incidents 138
Further Reading 139

Chapter 7: Problems and Solutions 140
Failure Is Not an Option in Cybersecurity 141
Every Problem Has a Solution 142
Anecdotes Are Good Leads for Cybersecurity Solutions 147
Detecting More "Bad Stuff" Means the New Thing Is an Improvement 148
Every Security Process Should Be Automated 149
Professional Certifications Are Useless 151
Further Reading 158

Part III: Contextual Issues 161

Chapter 8: Pitfalls of Analogies and Abstractions 162
Cybersecurity Is Like the Physical World 165
Cybersecurity Is Like Medicine and Biology 170
Cybersecurity Is Like Fighting a War 172
Cybersecurity Law Is Analogous to Physical-World Law 175
Tips for Analogies and Abstractions 175
Further Reading 178

Chapter 9: Legal Issues 180
Cybersecurity Law Is Analogous to Physical-World Law 181
Your Laws Do Not Apply to Me Where I Am 182
That Violates My First Amendment Rights! 184
Legal Code Supersedes Computer Code 186
Law Enforcement Will Never Respond to Cyber Crimes 191
You Can Always Hide Information by Suing 193
Suing to Suppress a Breach Is a Good Idea 194
Terms and Conditions Are Meaningless 194
The Law Is on My Side, So I Do Not Need to Worry 195
Further Reading 196

Chapter 10: Tool Myths and Misconceptions 198
The More Tools, The Better 199
Default Configurations Are Always Secure 201
A Tool Can Stop All Bad Things 203
Intent Can Be Determined from Tools 205
Security Tools Are Inherently Secure and Trustworthy 207
Nothing Found Means All Is Well 209
Further Reading 212

Chapter 11: Vulnerabilities 214
We Know Everything There Is to Know About Vulnerabilities 215
Vulnerabilities Are Sparse 218
Attackers Are Getting More Proficient 218
Zero-Day Vulnerabilities Are Most Important 219
All Attacks Hinge on a Vulnerability 223
Exploits and Proofs of Concept Are Bad 226
Vulnerabilities Happen Only in Complex Code 228
First Movers Should Sacrifice Security 230
Patches Are Always Perfect and Available 231
Defenses Might Become Security Vulnerabilities with Time 236
All Vulnerabilities Can Be Fixed 237
Scoring Vulnerabilities Is Easy and Well Understood 239
Because You Can, You Should--Vulnerabilities Edition 240
Vulnerability Names Reflect Their Importance 241
Further Reading 242

Chapter 12: Malware 244
Using a Sandbox Will Tell Me Everything I Need to Know 246
Reverse Engineering Will Tell Me Everything I Need to Know 249
Malware and Geography Are/Are Not Related 251
I Can Always Determine Who Made the Malware and Attacked Me 253
Malware Is Always a Complex Program That Is Difficult to Understand 254
Free Malware Protection Is Good Enough 256
Only Shady Websites Will Infect Me 257
Because You Can, You Should--Malware Edition 258
Ransomware Is an Entirely New Kind of Malware 259
Signed Software Is Always Trustworthy 261
Malware Names Reflect Their Importance 263
Further Reading 264

Chapter 13: Digital Forensics and Incident Response 266
Movies and Television Reflect the Reality of Cyber 267
Incidents Are Discovered as Soon as They Occur 269
Incidents Are Discrete and Independent 270
Every Incident Is the Same Severity 271
Standard Incident Response Techniques Can Deal with Ransomware 272
Incident Responders Can Flip a Few Switches and Magically Everything
Is Fixed 273
Attacks Are Always Attributable 276
Attribution Is Essential 278
Most Attacks/Exfiltration of Data Originate from Outside the Organization 280
The Trojan Horse Defense Is Dead 281
Endpoint Data Is Sufficient for Incident Detection 282
Recovering from an Event Is a Simple and Linear Process 284
Further Reading 285

Part IV: Data Issues 287

Chapter 14: Lies, Damn Lies, and Statistics 288
Luck Prevents Cyber Attacks 289
The Numbers Speak for Themselves 290
Probability Is Certainty 290
Statistics Are Laws 293
Data Is Not Important to Statistics 303
Artificial Intelligence and Machine Learning Can Solve All
Cybersecurity Problems 306
Further Reading 310

Chapter 15: Illustrations, Visualizations, and Delusions 312
Visualizations and Dashboards Are Inherently and Universally Helpful 313
Cybersecurity Data Is Easy to Visualize 319
Further Reading 324

Chapter 16: Finding Hope 326
Creating a Less Myth-Prone World 328
The Critical Value of Documentation 329
Meta-Myths and Recommendations 331
Avoiding Other and Future Traps 334
Parting Thoughts 334

Appendix: Short Background Explanations 336

Acronyms 344
Index 350

Cybersecurity Myths and Misconceptions

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    A Paperback / softback by Eugene Spafford, Leigh Metcalf, Josiah Dykstra

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      Trusted by thousands of customers. See 2,385+ Customer Reviews

      View other formats and editions of Cybersecurity Myths and Misconceptions by Eugene Spafford

      Publisher: Pearson Education (US)
      Publication Date: 02/03/2023
      ISBN13: 9780137929238, 978-0137929238
      ISBN10: 0137929234

      Description

      Book Synopsis

      Eugene H. Spafford, PhD, is a professor in Computer Science at Purdue University. In his 35-year career, Spaf has been honored with every major award in cybersecurity. Leigh Metcalf, PhD, is a Senior Network Security Research Analyst at the Carnegie Mellon University Software Engineering Institute's cybersecurity-focused CERT division. Josiah Dykstra, PhD, is a cybersecurity practitioner, researcher, author, and speaker. He is the owner of Designer Security and has worked at the US National Security Agency for 18 years.



      Trade Review

      "Many security leaders are traditionally in charge of correcting misconceptions just as much as they are in charge of building up solid security practices. We have plenty of resources on practices--but this book is the crucial guide to that essential myth busting."
      --Phil Venables, CISO, Google Cloud

      "I'm writing this on my phone, over Wi-Fi, in an airplane on my way to Black Hat, one of the world's largest security conferences. The fact that I'm able to do this at all shows how much we've really learned about cybersecurity over the decades. Now it's all collected in one place for everyone to share. Thank the wise authors, and most importantly: GET OFF THEIR LAWN."
      --Wendy Nather, Head of Advisory CISOs, Cisco

      "This book is astounding. A true tour de force--which I have never said about any other book. Inverting the viewpoint is a stroke of genius. This is going to be on my grabbable-at-any-time shelf. What I learned, recalled, and was refreshed on with technically astute agnosticism cannot be measured; just appreciated as a profound historical compilation of security practice and theory. Bravo!"
      --Winn Schwartaul, Founder and Chief Visionary Officer, The Security Awareness Company

      "I am happy to endorse the central idea of this book--that cybersecurity is rife with myths that are themselves part of the problem. The brain wants to understand, the world grows ever more complicated, and the sum of the two is myth-making. As the authors say, even if some understanding is true at some time, with enough change what was true becomes a myth soon enough. As such, an acquired immunity to myths is a valuable skill for the cybersecurity practitioner if no other. The paramount goal of all security engineering is No Silent Failure, but myths perpetuate if not create silent failure. Why? Because a state of security is the absence of unmitigable surprise and you cannot mitigate what you don't know is going on. Myths blind us to reality. Ignorance of them is not bliss. This book is a vaccine."
      --Dan Geer, CISO, In-Q-Tel

      "This is a fun read for all levels. I like their rapid fire delivery and the general light they cast on so many diverse myths. This book will change the cybersecurity industry for the better."
      --Michael Sikorski, Author of Practical Malware Analysis & CTO, Unit 42 at Palo Alto Networks



      Table of Contents

      Foreword by Vint Cerf xxiii
      Introduction xxiv
      Acknowledgments xxxiii
      About the Authors xxxiv

      Part I: General Issues 1

      Chapter 1: What Is Cybersecurity? 2
      Everyone Knows What "Cybersecurity" Means 2
      We Can Measure How Secure Our Systems Are 5
      The Primary Goal of Cybersecurity Is Security 11
      Cybersecurity Is About Obvious Risks 12
      Sharing More Cyber Threat Intel Will Make Things Better 14
      What Matters to You Matters to Everyone Else 16
      Product X Will Make You Secure 17
      Macs Are Safer Than PCs, Linux Is Safer Than Windows 18
      Open Source Software Is More Secure Than Closed Source Software 19
      Technology X Will Make You Secure 20
      Process X Will Make You Secure 21
      Færie Dust Can Make Old Ideas Magically Revolutionary 22
      Passwords Should Be Changed Often 23
      Believe and Fear Every Hacking Demo You See 26
      Cyber Offense Is Easier Than Defense 27
      Operational Technology (OT) Is Not Vulnerable 29
      Breaking Systems Is the Best Way to Establish Yourself 30
      Because You Can, You Should 30
      Better Security Means Worse Privacy 32
      Further Reading 33

      Chapter 2: What Is the Internet? 36
      Everyone Knows What the "Internet" Means 36
      An IP Address Identifies a Unique Machine 37
      The Internet Is Managed and Controlled by a Central Body 39
      The Internet Is Largely Static 40
      Your Network Is Static 41
      Email Is Private 43
      Cryptocurrency Is Untraceable 44
      Everything Can Be Fixed with Blockchain 46
      The Internet Is Like an Iceberg 46
      A VPN Makes You Anonymous 48
      A Firewall Is Enough 49
      Further Reading 51

      Part II: Human Issues 55

      Chapter 3: Faulty Assumptions and Magical Thinking 56
      Humans Will Behave Rationally, So Blame the User! 57
      We Know Everything We Need to Know About Cybersecurity Problems 62
      Compliance Equals (Complete) Security 63
      Authentication Provides Confidentiality 65
      I Can Never Be Secure, So Why Bother? 65
      I Am Too Small/Insignificant to Be a Target 66
      Everybody Is Out to Get Me 69
      I Engage Only with Trusted Websites, So My Data Is Safe from a Breach 71
      Security by Obscurity Is Reasonably Secure 72
      The Illusions of Visibility and Control 74
      Five 9's Is the Key to Cybersecurity 76
      Everybody Has Top-of-the-Line Technology 78
      We Can Predict Future Threats 80
      Security People Control Security Outcomes 81
      All Bad Outcomes Are the Result of a Bad Decision 82
      More Security Is Always Better 84
      Best Practices Are Always Best 85
      Because It Is Online It Must Be True/Correct 86
      Further Reading 87

      Chapter 4: Fallacies and Misunderstandings 88
      The False Cause Fallacy: Correlation Is Causation 89
      Absence of Evidence Is Evidence of Absence 92
      The Straw Hacker Fallacy 94
      Ad Hominem Fallacy 95
      Hasty Generalization Fallacy 96
      Regression Fallacy 97
      Base Rate Fallacy 98
      Gambler's Fallacy 100
      Fallacies of Anomalies 100
      Ignorance of Black Swans 101
      Conjunction and Disjunction Fallacies 103
      Valence Effect 104
      Endowment Effect 104
      Sunk Cost Fallacy 105
      Bonus Fallacies 107
      Further Reading 109

      Chapter 5: Cognitive Biases 110
      Action Bias 112
      Omission Bias 113
      Survivorship Bias 115
      Confirmation Bias 116
      Choice Affirmation Bias 117
      Hindsight Bias 117
      Availability Bias 119
      Social Proof 121
      Overconfidence Bias 122
      Zero Risk Bias 123
      Frequency Bias 124
      Bonus Biases 125
      Further Reading 128

      Chapter 6: Perverse Incentives and the Cobra Effect 130
      The Goal of a Security Vendor Is to Keep You Secure 131
      Your Cybersecurity Decisions Affect Only You 132
      Bug Bounties Eliminate Bugs from the Offensive Market 134
      Cyber Insurance Causes People to Take Less Risk 135
      Fines and Penalties Cause People to Take Less Risk 136
      Attacking Back Would Help Stop Cyber Crime 137
      Innovation Increases Security and Privacy Incidents 138
      Further Reading 139

      Chapter 7: Problems and Solutions 140
      Failure Is Not an Option in Cybersecurity 141
      Every Problem Has a Solution 142
      Anecdotes Are Good Leads for Cybersecurity Solutions 147
      Detecting More "Bad Stuff" Means the New Thing Is an Improvement 148
      Every Security Process Should Be Automated 149
      Professional Certifications Are Useless 151
      Further Reading 158

      Part III: Contextual Issues 161

      Chapter 8: Pitfalls of Analogies and Abstractions 162
      Cybersecurity Is Like the Physical World 165
      Cybersecurity Is Like Medicine and Biology 170
      Cybersecurity Is Like Fighting a War 172
      Cybersecurity Law Is Analogous to Physical-World Law 175
      Tips for Analogies and Abstractions 175
      Further Reading 178

      Chapter 9: Legal Issues 180
      Cybersecurity Law Is Analogous to Physical-World Law 181
      Your Laws Do Not Apply to Me Where I Am 182
      That Violates My First Amendment Rights! 184
      Legal Code Supersedes Computer Code 186
      Law Enforcement Will Never Respond to Cyber Crimes 191
      You Can Always Hide Information by Suing 193
      Suing to Suppress a Breach Is a Good Idea 194
      Terms and Conditions Are Meaningless 194
      The Law Is on My Side, So I Do Not Need to Worry 195
      Further Reading 196

      Chapter 10: Tool Myths and Misconceptions 198
      The More Tools, The Better 199
      Default Configurations Are Always Secure 201
      A Tool Can Stop All Bad Things 203
      Intent Can Be Determined from Tools 205
      Security Tools Are Inherently Secure and Trustworthy 207
      Nothing Found Means All Is Well 209
      Further Reading 212

      Chapter 11: Vulnerabilities 214
      We Know Everything There Is to Know About Vulnerabilities 215
      Vulnerabilities Are Sparse 218
      Attackers Are Getting More Proficient 218
      Zero-Day Vulnerabilities Are Most Important 219
      All Attacks Hinge on a Vulnerability 223
      Exploits and Proofs of Concept Are Bad 226
      Vulnerabilities Happen Only in Complex Code 228
      First Movers Should Sacrifice Security 230
      Patches Are Always Perfect and Available 231
      Defenses Might Become Security Vulnerabilities with Time 236
      All Vulnerabilities Can Be Fixed 237
      Scoring Vulnerabilities Is Easy and Well Understood 239
      Because You Can, You Should--Vulnerabilities Edition 240
      Vulnerability Names Reflect Their Importance 241
      Further Reading 242

      Chapter 12: Malware 244
      Using a Sandbox Will Tell Me Everything I Need to Know 246
      Reverse Engineering Will Tell Me Everything I Need to Know 249
      Malware and Geography Are/Are Not Related 251
      I Can Always Determine Who Made the Malware and Attacked Me 253
      Malware Is Always a Complex Program That Is Difficult to Understand 254
      Free Malware Protection Is Good Enough 256
      Only Shady Websites Will Infect Me 257
      Because You Can, You Should--Malware Edition 258
      Ransomware Is an Entirely New Kind of Malware 259
      Signed Software Is Always Trustworthy 261
      Malware Names Reflect Their Importance 263
      Further Reading 264

      Chapter 13: Digital Forensics and Incident Response 266
      Movies and Television Reflect the Reality of Cyber 267
      Incidents Are Discovered as Soon as They Occur 269
      Incidents Are Discrete and Independent 270
      Every Incident Is the Same Severity 271
      Standard Incident Response Techniques Can Deal with Ransomware 272
      Incident Responders Can Flip a Few Switches and Magically Everything
      Is Fixed 273
      Attacks Are Always Attributable 276
      Attribution Is Essential 278
      Most Attacks/Exfiltration of Data Originate from Outside the Organization 280
      The Trojan Horse Defense Is Dead 281
      Endpoint Data Is Sufficient for Incident Detection 282
      Recovering from an Event Is a Simple and Linear Process 284
      Further Reading 285

      Part IV: Data Issues 287

      Chapter 14: Lies, Damn Lies, and Statistics 288
      Luck Prevents Cyber Attacks 289
      The Numbers Speak for Themselves 290
      Probability Is Certainty 290
      Statistics Are Laws 293
      Data Is Not Important to Statistics 303
      Artificial Intelligence and Machine Learning Can Solve All
      Cybersecurity Problems 306
      Further Reading 310

      Chapter 15: Illustrations, Visualizations, and Delusions 312
      Visualizations and Dashboards Are Inherently and Universally Helpful 313
      Cybersecurity Data Is Easy to Visualize 319
      Further Reading 324

      Chapter 16: Finding Hope 326
      Creating a Less Myth-Prone World 328
      The Critical Value of Documentation 329
      Meta-Myths and Recommendations 331
      Avoiding Other and Future Traps 334
      Parting Thoughts 334

      Appendix: Short Background Explanations 336

      Acronyms 344
      Index 350

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