John Wiley & Sons Net Zeros and Ones Cover Design, implement, and integrate a complete data sanitization program In Net Zeros and Ones: How Da.. Product #: 978-1-119-86616-9 Regular price: $21.40 $21.40 Auf Lager

Net Zeros and Ones

How Data Erasure Promotes Sustainability, Privacy, and Security

Stiennon, Richard / Ernst, Russ B. / Forslund, Fredrik

Cover

1. Auflage Dezember 2022
192 Seiten, Softcover
Wiley & Sons Ltd

ISBN: 978-1-119-86616-9
John Wiley & Sons

Jetzt kaufen

Preis: 22,90 €

Preis inkl. MwSt, zzgl. Versand

Weitere Versionen

epubmobipdf

Design, implement, and integrate a complete data sanitization program

In Net Zeros and Ones: How Data Erasure Promotes Sustainability, Privacy, and Security, a well-rounded team of accomplished industry veterans delivers a comprehensive guide to managing permanent and sustainable data erasure while complying with regulatory, legal, and industry requirements. In the book, you'll discover the why, how, and when of data sanitization, including why it is a crucial component in achieving circularity within IT operations. You will also learn about future-proofing yourself against security breaches and data leaks involving your most sensitive information--all while being served entertaining industry anecdotes and commentary from leading industry personalities.

The authors also discuss:

Several new standards on data erasure, including the soon-to-be published standards by the IEEE and ISO

How data sanitization strengthens a sustainability or Environmental, Social, and Governance (ESG) program

How to adhere to data retention policies, litigation holds, and regulatory frameworks that require certain data to be retained for specific timeframes

An ideal resource for ESG, data protection, and privacy professionals, Net Zeros and Ones will also earn a place in the libraries of application developers and IT asset managers seeking a one-stop explanation of how data erasure fits into their data and asset management programs.

Foreword xv

Introduction xix

Chapter 1 End of Life for Data 1

1.1 Growth of Data 3

1.2 Managing Data 4

1.2.1 Discovery 4

1.2.2 Classification 5

1.2.3 Risk 6

1.3 Data Loss 6

1.3.1 Accidental 7

1.3.2 Theft 7

1.3.3 Dumpster Diving 9

1.4 Encryption 9

1.5 Data Discovery 9

1.6 Regulations 10

1.7 Security 10

1.8 Legal Discovery 11

1.9 Data Sanitization 12

1.10 Ecological and Economic Considerations 13

1.10.1 Ecological 13

1.10.2 Economic 13

1.11 Summary: Proactive Risk Reduction and Reactive End of Life 14

Chapter 2 Where Are We, and How Did We Get Here? 15

2.1 Digital Data Storage 16

2.2 Erasing Magnetic Media 17

2.3 History of Data Erasure 17

2.3.1 The Beginnings of Commercial Data Erasure 19

2.3.2 Darik's Boot and Nuke (DBAN) 19

2.4 Summary 21

Chapter 3 Data Sanitization Technology 23

3.1 Shredding 24

3.2 Degaussing 24

3.3 Overwriting 25

3.4 Crypto- Erase 27

3.5 Erasing Solid- State Drives 28

3.6 Bad Blocks 29

3.7 Data Forensics 29

3.8 Summary 31

Chapter 4 Information Lifecycle Management 33

4.1 Information Lifecycle Management vs. Data Lifecycle Management 33

4.2 Information Lifecycle Management 34

4.2.1 Lifecycle Stages 34

4.3 Data Security Lifecycle 35

4.3.1 Stages for Data Security Lifecycle 36

4.4 Data Hygiene 36

4.5 Data Sanitization 37

4.5.1 Physical Destruction 37

4.5.2 Cryptographic Erasure 37

4.5.3 Data Erasure 38

4.6 Summary 39

Chapter 5 Regulatory Requirements 41

5.1 Frameworks 42

5.1.1 NIST Cybersecurity Framework Applied to Data 42

5.2 Regulations 43

5.2.1 GDPR 44

5.2.1.1 The Right to Erasure 45

5.2.1.2 Data Retention 51

5.2.2 HIPAA Security Rule Subpart c 53

5.2.3 PCI DSS V3.2 Payment Card Industry Requirements 56

5.2.4 Sarbanes-Oxley 58

5.2.5 Saudi Arabian Monetary Authority Payment Services Regulations 59

5.2.6 New York State Cybersecurity Requirements of Financial Services Companies 23 NYCRR 500 59

5.2.7 Philippines Data Privacy Act 2012 60

5.2.8 Singapore Personal Data Protection Act 2012 61

5.2.9 Gramm-Leach-Bliley Act 61

5.3 Standards 62

5.3.1 ISO 27000 and Family 62

5.3.2 NIST SP 800- 88 63

5.4 Summary 65

Chapter 6 New Standards 67

6.1 IEEE P2883 Draft Standard for Sanitizing Storage 68

6.1.1 Data Sanitization 68

6.1.2 Storage Sanitization 68

6.1.3 Media Sanitization 68

6.1.4 Clear 69

6.1.5 Purge 69

6.1.6 Destruct 69

6.2 Updated ISO/IEC CD 27040 Information Technology Security Techniques-- Storage Security 70

6.3 Summary 71

Chapter 7 Asset Lifecycle Management 73

7.1 Data Sanitization Program 73

7.2 Laptops and Desktops 74

7.3 Servers and Network Gear 76

7.3.1 Edge Computing 78

7.4 Mobile Devices 79

7.4.1 Crypto- Erase 80

7.4.2 Mobile Phone Processing 80

7.4.3 Enterprise Data Erasure for Mobile Devices 81

7.4.3.1 Bring Your Own Device 81

7.4.3.2 Corporate- Issued Devices 81

7.5 Internet of Things: Unconventional Computing Devices 82

7.5.1 Printers and Scanners 82

7.5.2 Landline Phones 82

7.5.3 Industrial Control Systems 82

7.5.4 HVAC Controls 83

7.5.5 Medical Devices 83

7.6 Automobiles 83

7.6.1 Off- Lease Vehicles 84

7.6.2 Used Vehicle Market 85

7.6.3 Sanitization of Automobiles 85

7.7 Summary 86

Chapter 8 Asset Disposition 87

8.1 Contracting and Managing Your ITAD 88

8.2 ITAD Operations 89

8.3 Sustainability and Green Tech 91

8.4 Contribution from R2 91

8.4.1 Tracking Throughput 91

8.4.2 Data Security 92

8.5 e- Stewards Standard for Responsible Recycling and Reuse of Electronic Equipment 92

8.6 i- SIGMA 93

8.7 FACTA 93

8.8 Summary 95

Chapter 9 Stories from the Field 97

9.1 3stepIT 98

9.2 TES - IT Lifecycle Solutions 101

9.2.1 Scale of Operations 103

9.2.2 Compliance 104

9.2.3 Conclusion 104

9.3 Ingram Micro 104

9.4 Summary 106

Chapter 10 Data Center Operations 109

10.1 Return Material Allowances 110

10.2 NAS 110

10.3 Logical Drives 110

10.4 Rack- Mounted Hard Drives 111

10.5 Summary 112

Chapter 11 Sanitizing Files 113

11.1 Avoid Confusion with CDR 113

11.2 Erasing Files 114

11.3 When to Sanitize Files 115

11.4 Sanitizing Files 116

11.5 Summary 116

Chapter 12 Cloud Data Sanitization 117

12.1 User Responsibility vs. Cloud Provider Responsibility 117

12.2 Attacks Against Cloud Data 119

12.3 Cloud Encryption 119

12.4 Data Sanitization for the Cloud 120

12.5 Summary 121

Chapter 13 Data Sanitization and Information Lifecycle Management 123

13.1 The Data Sanitization Team 124

13.2 Identifying Data 124

13.3 Data Sanitization Policy 124

13.3.1 Deploy Technology 125

13.3.2 Working with DevOps 125

13.3.3 Working with Data Security 125

13.3.4 Working with the Legal Team 125

13.3.5 Changes 126

13.4 Summary 126

Chapter 14 How Not to Destroy Data 127

14.1 Drilling 127

14.1.1 Nail Gun 128

14.1.2 Gun 128

14.2 Acids and Other Solvents 128

14.3 Heating 128

14.4 Incineration 129

14.5 Street Rollers 129

14.6 Ice Shaving Machines 129

Chapter 15 The Future of Data Sanitization 131

15.1 Advances in Solid- State Drives 132

15.2 Shingled Magnetic Recording 133

15.3 Thermally Assisted Magnetic Recording, Also Known as Heat- Assisted Magnetic Recording 133

15.4 Microwave- Assisted Magnetic Recording 134

15.5 DNA Data Storage 135

15.6 Holographic Storage 135

15.7 Quantum Storage 136

15.8 NVIDMM 137

15.9 Summary 138

Chapter 16 Conclusion 139

Appendix Enterprise Data Sanitization Policy 143

Introduction 143

Intended Audience 143

Purpose of Policy 144

General Data Hygiene and Data Retention 144

Data Spillage 144

Handling Files Classified as Confidential 144

Data Migration 144

End of Life for Classified Virtual Machines 145

On Customer's Demand 145

Seven Steps to Creating a Data Sanitization Process 145

Step 1: Prioritize and Scope 146

Step 2: Orient 146

Step 3: Create a Current Profile 146

Step 4: Conduct a Risk Assessment 147

Step 5: Create a Target Profile 147

Step 6: Determine, Analyze, and Prioritize Gaps 147

Step 7: Implement Action Plan 147

Data Sanitization Defined 147

Physical Destruction 148

Degaussing 148

Pros and Cons of Physical Destruction 148

Cryptographic Erasure (Crypto- Erase) 148

Pros and Cons of Cryptographic Erasure 149

Data Erasure 149

Pros and Cons of Data Erasure 150

Equipment Details 150

Asset Lifecycle Procedures 151

Suggested Process, In Short 152

Create Contract Language for Third Parties 152

Data Erasure Procedures 152

Responsibility 152

Validation of Data Erasure Software and Equipment 153

Personal Computers 153

Servers and Server Storage Systems 154

Photocopiers, Network Printers, and Fax Machines 154

Mobile Phones, Smartphones, and Tablets 154

Point- of- Sale Equipment 155

Virtual Machines 155

Removable Solid- State Memory Devices (USB Flash Drives, SD Cards) 155

CDs, DVDs, and Optical Discs 155

Backup Tape 155

General Requirements for Full Implementation 155

Procedure for Partners and Suppliers 155

Audit Trail Requirement 156

Policy Ownership 156

Mandatory Revisions 156

Roles and Responsibilities 157
CEO 157
Board of Directors 157

Index 159
RICHARD STIENNON is a renowned cybersecurity industry analyst. He has held executive roles with Gartner, Webroot Software, Fortinet, and Blancco Technology Group. He was a member of the Technical Advisory Committee of the Responsible Recycling standard.

RUSS B. ERNST has over twenty years' experience in product strategy and management and is frequently sought for comment on issues related to data security in the circular economy. As Chief Technology Officer at Blancco Technology Group, he is responsible for defining, driving and executing the product strategy across the entire Blancco data erasure and device diagnostics product suite.

FREDRIK FORSLUND has over 20 years' experience in the data sanitization industry. He is the Director of the International Data Sanitization Consortium (IDSC) and is a sought-after speaker on topics related to IT security and data protection.