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Security engineering : a guide to building dependable distributed systems / 3rd ed

Security engineering : a guide to building dependable distributed systems / 3rd ed (Loan 1 times)

Material type
단행본
Personal Author
Anderson, Ross, 1956-.
Title Statement
Security engineering : a guide to building dependable distributed systems / Ross Anderson.
판사항
3rd ed.
Publication, Distribution, etc
Indianapolis, Indiana :   John Wiley & Sons, Inc.,   2020.  
Physical Medium
l, 1182 p. : ill. ; 25 cm.
ISBN
9781119642787
Bibliography, Etc. Note
Includes bibliographical references (p. 1061-1141) and index.
Subject Added Entry-Topical Term
Computer security. Electronic data processing --Distributed processing.
000 00000cam u2200205 a 4500
001 000046095402
005 20211008103144
008 211007s2020 inua b 001 0 eng
020 ▼a 9781119642787
035 ▼a (KERIS)BIB000015788771
040 ▼a 241038 ▼c 241038 ▼d 211009
082 0 4 ▼a 005.8 ▼a 005.1 ▼2 23
084 ▼a 005.8 ▼2 DDCK
090 ▼a 005.8 ▼b A549s3
100 1 ▼a Anderson, Ross, ▼d 1956-.
245 1 0 ▼a Security engineering : ▼b a guide to building dependable distributed systems / ▼c Ross Anderson.
250 ▼a 3rd ed.
260 ▼a Indianapolis, Indiana : ▼b John Wiley & Sons, Inc., ▼c 2020.
300 ▼a l, 1182 p. : ▼b ill. ; ▼c 25 cm.
504 ▼a Includes bibliographical references (p. 1061-1141) and index.
650 0 ▼a Computer security.
650 0 ▼a Electronic data processing ▼x Distributed processing.
945 ▼a KLPA

Holdings Information

No. Location Call Number Accession No. Availability Due Date Make a Reservation Service
No. 1 Location Science & Engineering Library/Sci-Info(Stacks2)/ Call Number 005.8 A549s3 Accession No. 121258210 Availability Available Due Date Make a Reservation Service B M

Contents information

Author Introduction

Anderson(지은이)

<반도체 소자공학>

Information Provided By: : Aladin

Table of Contents

Preface to the Third Edition xxxvii


Preface to the Second Edition xli


Preface to the First Edition xliii


Formy daughter, and other lawyers... xlvii


Foreword xlix


Part I


Chapter 1 What Is Security Engineering? 3


1.1 Introduction 3


1.2 A framework 4


1.3 Example 1 - a bank 6


1.4 Example 2 - a military base 7


1.5 Example 3 - a hospital 8


1.6 Example 4 - the home 10


1.7 Definitions 11


1.8 Summary 16


Chapter 2 Who Is the Opponent? 17


2.1 Introduction 17


2.2 Spies 19


2.2.1 The Five Eyes 19


2.2.1.1 Prism 19


2.2.1.2 Tempora 20


2.2.1.3 Muscular 21


2.2.1.4 Special collection 22


2.2.1.5 Bullrun and Edgehill 22


2.2.1.6 Xkeyscore 23


2.2.1.7 Longhaul 24


2.2.1.8 Quantum 25


2.2.1.9 CNE 25


2.2.1.10 The analyst''s viewpoint 27


2.2.1.11 Offensive operations 28


2.2.1.12 Attack scaling 29


2.2.2 China 30


2.2.3 Russia 35


2.2.4 The rest 38


2.2.5 Attribution 40


2.3 Crooks 41


2.3.1 Criminal infrastructure 42


2.3.1.1 Botnet herders 42


2.3.1.2 Malware devs 44


2.3.1.3 Spam senders 45


2.3.1.4 Bulk account compromise 45


2.3.1.5 Targeted attackers 46


2.3.1.6 Cashout gangs 46


2.3.1.7 Ransomware 47


2.3.2 Attacks on banking and payment systems 47


2.3.3 Sectoral cybercrime ecosystems 49


2.3.4 Internal attacks 49


2.3.5 CEO crimes 49


2.3.6 Whistleblowers 50


2.4 Geeks 52


2.5 The swamp 53


2.5.1 Hacktivism and hate campaigns 54


2.5.2 Child sex abuse material 55


2.5.3 School and workplace bullying 57


2.5.4 Intimate relationship abuse 57


2.6 Summary 59


Research problems 60


Further reading 61


Chapter 3 Psychology and Usability 63


3.1 Introduction 63


3.2 Insights from psychology research 64


3.2.1 Cognitive psychology 65


3.2.2 Gender, diversity and interpersonal variation 68


3.2.3 Social psychology 70


3.2.3.1 Authority and its abuse 71


3.2.3.2 The bystander effect 72


3.2.4 The social-brain theory of deception 73


3.2.5 Heuristics, biases and behavioural economics 76


3.2.5.1 Prospect theory and risk misperception 77


3.2.5.2 Present bias and hyperbolic discounting 78


3.2.5.3 Defaults and nudges 79


3.2.5.4 The default to intentionality 79


3.2.5.5 The affect heuristic 80


3.2.5.6 Cognitive dissonance 81


3.2.5.7 The risk thermostat 81


3.3 Deception in practice 81


3.3.1 The salesman and the scamster 82


3.3.2 Social engineering 84


3.3.3 Phishing 86


3.3.4 Opsec 88


3.3.5 Deception research 89


3.4 Passwords 90


3.4.1 Password recovery 92


3.4.2 Password choice 94


3.4.3 Difficulties with reliable password entry 94


3.4.4 Difficulties with remembering the password 95


3.4.4.1 Naive choice 96


3.4.4.2 User abilities and training 96


3.4.4.3 Design errors 98


3.4.4.4 Operational failures 100


3.4.4.5 Social-engineering attacks 101


3.4.4.6 Customer education 102


3.4.4.7 Phishing warnings 103


3.4.5 System issues 104


3.4.6 Can you deny service? 105


3.4.7 Protecting oneself or others? 105


3.4.8 Attacks on password entry 106


3.4.8.1 Interface design 106


3.4.8.2 Trusted path, and bogus terminals 107


3.4.8.3 Technical defeats of password retry counters 107


3.4.9 Attacks on password storage 108


3.4.9.1 One-way encryption 109


3.4.9.2 Password cracking 109


3.4.9.3 Remote password checking 109


3.4.10 Absolute limits 110


3.4.11 Using a password manager 111


3.4.12 Will we ever get rid of passwords? 113


3.5 CAPTCHAs 115


3.6 Summary 116


Research problems 117


Further reading 118


Chapter 4 Protocols 119


4.1 Introduction 119


4.2 Password eavesdropping risks 120


4.3 Who goes there? - simple authentication 122


4.3.1 Challenge and response 124


4.3.2 Two-factor authentication 128


4.3.3 The MIG-in-the-middle attack 129


4.3.4 Reflection attacks 132


4.4 Manipulating the message 133


4.5 Changing the environment 134


4.6 Chosen protocol attacks 135


4.7 Managing encryption keys 136


4.7.1 The resurrecting duckling 137


4.7.2 Remote key management 137


4.7.3 The Needham-Schroeder protocol 138


4.7.4 Kerberos 139


4.7.5 Practical key management 141


4.8 Design assurance 141


4.9 Summary 143


Research problems 143


Further reading 144


Chapter 5 Cryptography 145


5.1 Introduction 145


5.2 Historical background 146


5.2.1 An early stream cipher - the Vigenere 147


5.2.2 The one-time pad 148


5.2.3 An early block cipher - Playfair 150


5.2.4 Hash functions 152


5.2.5 Asymmetric primitives 154


5.3 Security models 155


5.3.1 Random functions - hash functions 157


5.3.1.1 Properties 157


5.3.1.2 The birthday theorem 158


5.3.2 Random generators - stream ciphers 159


5.3.3 Random permutations - block ciphers 161


5.3.4 Public key encryption and trapdoor one-way permutations 163


5.3.5 Digital signatures 164


5.4 Symmetric crypto algorithms 165


5.4.1 SP-networks 165


5.4.1.1 Block size 166


5.4.1.2 Number of rounds 166


5.4.1.3 Choice of S-boxes 167


5.4.1.4 Linear cryptanalysis 167


5.4.1.5 Differential cryptanalysis 168


5.4.2 The Advanced Encryption Standard (AES) 169


5.4.3 Feistel ciphers 171


5.4.3.1 The Luby-Rackoff result 173


5.4.3.2 DES 173


5.5 Modes of operation 175


5.5.1 How not to use a block cipher 176


5.5.2 Cipher block chaining 177


5.5.3 Counter encryption 178


5.5.4 Legacy stream cipher modes 178


5.5.5 Message authentication code 179


5.5.6 Galois counter mode 180


5.5.7 XTS 180


5.6 Hash functions 181


5.6.1 Common hash functions 181


5.6.2 Hash function applications - HMAC, commitments and updating 183


5.7 Asymmetric crypto primitives 185


5.7.1 Cryptography based on factoring 185


5.7.2 Cryptography based on discrete logarithms 188


5.7.2.1 One-way commutative encryption 189


5.7.2.2 Diffie-Hellman key establishment 190


5.7.2.3 ElGamal digital signature and DSA 192


5.7.3 Elliptic curve cryptography 193


5.7.4 Certification authorities 194


5.7.5 TLS 195


5.7.5.1 TLS uses 196


5.7.5.2 TLS security 196


5.7.5.3 TLS 1.3 197


5.7.6 Other public-key protocols 197


5.7.6.1 Code signing 197


5.7.6.2 PGP/GPG 198


5.7.6.3 QUIC 199


5.7.7 Special-purpose primitives 199


5.7.8 How strong are asymmetric cryptographic primitives? 200


5.7.9 What else goes wrong 202


5.8 Summary 203


Research problems 204


Further reading 204


Chapter 6 Access Control 207


6.1 Introduction 207


6.2 Operating system access controls 209


6.2.1 Groups and roles 210


6.2.2 Access control lists 211


6.2.3 Unix operating system security 212


6.2.4 Capabilities 214


6.2.5 DAC and MAC 215


6.2.6 Apple''s macOS 217


6.2.7 iOS 217


6.2.8 Android 218


6.2.9 Windows 219


6.2.10 Middleware 222


6.2.10.1 Database access controls 222


6.2.10.2 Browsers 223


6.2.11 Sandboxing 224


6.2.12 Virtualisation 225


6.3 Hardware protection 227


6.3.1 Intel processors 228


6.3.2 Arm processors 230


6.4 What goes wrong 231


6.4.1 Smashing the stack 232


6.4.2 Other technical attacks 234


6.4.3 User interface failures 236


6.4.4 Remedies 237


6.4.5 Environmental creep 238


6.5 Summary 239


Research problems 240


Further reading 240


Chapter 7 Distributed Systems 243


7.1 Introduction 243


7.2 Concurrency 244


7.2.1 Using old data versus paying to propagate state 245


7.2.2 Locking to prevent inconsistent updates 246


7.2.3 The order of updates 247


7.2.4 Deadlock 248


7.2.5 Non-convergent state 249


7.2.6 Secure time 250


7.3 Fault tolerance and failure recovery 251


7.3.1 Failure models 252


7.3.1.1 Byzantine failure 252


7.3.1.2 Interaction with fault tolerance 253


7.3.2 What is resilience for? 254


7.3.3 At what level is the redundancy? 255


7.3.4 Service-denial attacks 257


7.4 Naming 259


7.4.1 The Needham naming principles 260


7.4.2 What else goes wrong 263


7.4.2.1 Naming and identity 264


7.4.2.2 Cultural assumptions 265


7.4.2.3 Semantic content of names 267


7.4.2.4 Uniqueness of names 268


7.4.2.5 Stability of names and addresses 269


7.4.2.6 Restrictions on the use of names 269


7.4.3 Types of name 270


7.5 Summary 271


Research problems 272


Further reading 273


Chapter 8 Economics 275


8.1 Introduction 275


8.2 Classical economics 276


8.2.1 Monopoly 278


8.3 Information economics 281


8.3.1 Why information markets are different 281


8.3.2 The value of lock-in 282


8.3.3 Asymmetric information 284


8.3.4 Public goods 285


8.4 Game theory 286


8.4.1 The prisoners'' dilemma 287


8.4.2 Repeated and evolutionary games 288


8.5 Auction theory 291


8.6 The economics of security and dependability 293


8.6.1 Why is Windows so insecure? 294


8.6.2 Managing the patching cycle 296


8.6.3 Structural models of attack and defence 298


8.6.4 The economics of lock-in, tying and DRM 300


8.6.5 Antitrust law and competition policy 302


8.6.6 Perversely motivated guards 304


8.6.7 Economics of privacy 305


8.6.8 Organisations and human behaviour 307


8.6.9 Economics of cybercrime 308


8.7 Summary 310


Research problems 311


Further reading 311


Part II


Chapter 9 Multilevel Security 315


9.1 Introduction 315


9.2 What is a security policy model? 316


9.3 Multilevel security policy 318


9.3.1 The Anderson report 319


9.3.2 The Bell-LaPadula model 320


9.3.3 The standard criticisms of Bell-LaPadula 321


9.3.4 The evolution of MLS policies 323


9.3.5 The Biba model 325


9.4 Historical examples of MLS systems 326


9.4.1 SCOMP 326


9.4.2 Data diodes 327


9.5 MAC: from MLS to IFC and integrity 329


9.5.1 Windows 329


9.5.2 SELinux 330


9.5.3 Embedded systems 330


9.6 What goes wrong 331


9.6.1 Composability 331


9.6.2 The cascade problem 332


9.6.3 Covert channels 333


9.6.4 The threat from malware 333


9.6.5 Polyinstantiation 334


9.6.6 Practical problems with MLS 335


9.7 Summary 337


Research problems 338


Further reading 339


Chapter 10 Boundaries 341


10.1 Introduction 341


10.2 Compartmentation and the lattice model 344


10.3 Privacy for tigers 346


10.4 Health record privacy 349


10.4.1 The threat model 351


10.4.2 The BMA security policy 353


10.4.3 First practical steps 356


10.4.4 What actually goes wrong 357


10.4.4.1 Emergency care 358


10.4.4.2 Resilience 359


10.4.4.3 Secondary uses 359


10.4.5 Confidentiality - the future 362


10.4.6 Ethics 365


10.4.7 Social care and education 367


10.4.8 The Chinese Wall 369


10.5 Summary 371


Research problems 372


Further reading 373


Chapter 11 Inference Control 375


11.1 Introduction 375


11.2 The early history of inference control 377


11.2.1 The basic theory of inference control 378


11.2.1.1 Query set size control 378


11.2.1.2 Trackers 379


11.2.1.3 Cell suppression 379


11.2.1.4 Other statistical disclosure control mechanisms 380


11.2.1.5 More sophisticated query controls 381


11.2.1.6 Randomization 382


11.2.2 Limits of classical statistical security 383


11.2.3 Active attacks 384


11.2.4 Inference control in rich medical data 385


11.2.5 The third wave: preferences and search 388


11.2.6 The fourth wave: location and social 389


11.3 Differential privacy 392


11.4 Mind the gap? 394


11.4.1 Tactical anonymity and its problems 395


11.4.2 Incentives 398


11.4.3 Alternatives 399


11.4.4 The dark side 400


11.5 Summary 401


Research problems 402


Further reading 402


Chapter 12 Banking and Bookkeeping 405


12.1 Introduction 405


12.2 Bookkeeping systems 406


12.2.1 Double-entry bookkeeping 408


12.2.2 Bookkeeping in banks 408


12.2.3 The Clark-Wilson security policy model 410


12.2.4 Designing internal controls 411


12.2.5 Insider frauds 415


12.2.6 Executive frauds 416


12.2.6.1 The post office case 418


12.2.6.2 Other failures 419


12.2.6.3 Ecological validity 420


12.2.6.4 Control tuning and corporate governance 421


12.2.7 Finding the weak spots 422


12.3 Interbank payment systems 424


12.3.1 A telegraphic history of E-commerce 424


12.3.2 SWIFT 425


12.3.3 What goes wrong 427


12.4 Automatic teller machines 430


12.4.1 ATM basics 430


12.4.2 What goes wrong 433


12.4.3 Incentives and injustices 437


12.5 Credit cards 438


12.5.1 Credit card fraud 439


12.5.2 Online card fraud 440


12.5.3 3DS 443


12.5.4 Fraud engines 444


12.6 EMV payment cards 445


12.6.1 Chip cards 445


12.6.1.1 Static data authentication 446


12.6.1.2 ICVVs, DDA and CDA 450


12.6.1.3 The No-PIN attack 451


12.6.2 The preplay attack 452


12.6.3 Contactless 454


12.7 Online banking 457


12.7.1 Phishing 457


12.7.2 CAP 458


12.7.3 Banking malware 459


12.7.4 Phones as second factors 459


12.7.5 Liability 461


12.7.6 Authorised push payment fraud 462


12.8 Nonbank payments 463


12.8.1 M-Pesa 463


12.8.2 Other phone payment systems 464


12.8.3 Sofort, and open banking 465


12.9 Summary 466


Research problems 466


Further reading 468


Chapter 13 Locks and Alarms 471


13.1 Introduction 471


13.2 Threats and barriers 472


13.2.1 Threat model 473


13.2.2 Deterrence 474


13.2.3 Walls and barriers 476


13.2.4 Mechanical locks 478


13.2.5 Electronic locks 482


13.3 Alarms 484


13.3.1 How not to protect a painting 485


13.3.2 Sensor defeats 486


13.3.3 Feature interactions 488


13.3.4 Attacks on communications 489


13.3.5 Lessons learned 493


13.4 Summary 494


Research problems 495


Further reading 495


Chapter 14 Monitoring and Metering 497


14.1 Introduction 497


14.2 Prepayment tokens 498


14.2.1 Utility metering 499


14.2.2 How the STS system works 501


14.2.3 What goes wrong 502


14.2.4 Smart meters and smart grids 504


14.2.5 Ticketing fraud 508


14.3 Taxi meters, tachographs and truck speed limiters 509


14.3.1 The tachograph 509


14.3.2 What goes wrong 511


14.3.2.1 How most tachograph manipulation is done 511


14.3.2.2 Tampering with the supply 512


14.3.2.3 Tampering with the instrument 512


14.3.2.4 High-tech attacks 513


14.3.3 Digital tachographs 514


14.3.3.1 System-level problems 515


14.3.3.2 Other problems 516


14.3.4 Sensor defeats and third-generation devices 518


14.3.5 The fourth generation - smart tachographs 518


14.4 Curfew tags: GPS as policeman 519


14.5 Postage meters 522


14.6 Summary 526


Research problems 527


Further reading 527


Chapter 15 Nuclear Command and Control 529


15.1 Introduction 529


15.2 The evolution of command and control 532


15.2.1 The Kennedy memorandum 532


15.2.2 Authorization, environment, intent 534


15.3 Unconditionally secure authentication 534


15.4 Shared control schemes 536


15.5 Tamper resistance and PALs 538


15.6 Treaty verification 540


15.7 What goes wrong 541


15.7.1 Nuclear accidents 541


15.7.2 Interaction with cyberwar 542


15.7.3 Technical failures 543


15.8 Secrecy or openness? 544


15.9 Summary 545


Research problems 546


Further reading 546


Chapter 16 Security Printing and Seals 549


16.1 Introduction 549


16.2 History 550


16.3 Security printing 551


16.3.1 Threat model 552


16.3.2 Security printing techniques 553


16.4 Packaging and seals 557


16.4.1 Substrate properties 558


16.4.2 The problems of glue 558


16.4.3 PIN mailers 559


16.5 Systemic vulnerabilities 560


16.5.1 Peculiarities of the threat model 562


16.5.2 Anti-gundecking measures 563


16.5.3 The effect of random failure 564


16.5.4 Materials control 564


16.5.5 Not protecting the right things 565


16.5.6 The cost and nature of inspection 566


16.6 Evaluation methodology 567


16.7 Summary 569


Research problems 569


Further reading 570


Chapter 17 Biometrics 571


17.1 Introduction 571


17.2 Handwritten signatures 572


17.3 Face recognition 575


17.4 Fingerprints 579


17.4.1 Verifying positive or negative identity claims 581


17.4.2 Crime scene forensics 584


17.5 Iris codes 588


17.6 Voice recognition and morphing 590


17.7 Other systems 591


17.8 What goes wrong 593


17.9 Summary 596


Research problems 597


Further reading 597


Chapter 18 Tamper Resistance 599


18.1 Introduction 599


18.2 History 601


18.3 Hardware security modules 601


18.4 Evaluation 607


18.5 Smartcards and other security chips 609


18.5.1 History 609


18.5.2 Architecture 610


18.5.3 Security evolution 611


18.5.4 Random number generators and PUFs 621


18.5.5 Larger chips 624


18.5.6 The state of the art 628


18.6 The residual risk 630


18.6.1 The trusted interface problem 630


18.6.2 Conflicts 631


18.6.3 The lemons market, risk dumping and evaluation games 632


18.6.4 Security-by-obscurity 632


18.6.5 Changing environments 633


18.7 So what should one protect? 634


18.8 Summary 636


Research problems 636


Further reading 636


Chapter 19 Side Channels 639


19.1 Introduction 639


19.2 Emission security 640


19.2.1 History 641


19.2.2 Technical surveillance and countermeasures 642


19.3 Passive attacks 645


19.3.1 Leakage through power and signal cables 645


19.3.2 Leakage through RF signals 645


19.3.3 What goes wrong 649


19.4 Attacks between and within computers 650


19.4.1 Timing analysis 651


19.4.2 Power analysis 652


19.4.3 Glitching and differential fault analysis 655


19.4.4 Rowhammer, CLKscrew and Plundervolt 656


19.4.5 Meltdown, Spectre and other enclave side channels 657


19.5 Environmental side channels 659


19.5.1 Acoustic side channels 659


19.5.2 Optical side channels 661


19.5.3 Other side-channels 661


19.6 Social side channels 663


19.7 Summary 663


Research problems 664


Further reading 664


Chapter 20 Advanced Cryptographic Engineering 667


20.1 Introduction 667


20.2 Full-disk encryption 668


20.3 Signal 670


20.4 Tor 674


20.5 HSMs 677


20.5.1 The xor-to-null-key attack 677


20.5.2 Attacks using backwards compatibility and time-memory tradeoffs 678


20.5.3 Differential protocol attacks 679


20.5.4 The EMV attack 681


20.5.5 Hacking the HSMs in CAs and clouds 681


20.5.6 Managing HSM risks 681


20.6 Enclaves 682


20.7 Blockchains 685


20.7.1 Wallets 688


20.7.2 Miners 689


20.7.3 Smart contracts 689


20.7.4 Off-chain payment mechanisms 691


20.7.5 Exchanges, cryptocrime and regulation 692


20.7.6 Permissioned blockchains 695


20.8 Crypto dreams that failed 695


20.9 Summary 696


Research problems 698


Further reading 698


Chapter 21 Network Attack and Defence 699


21.1 Introduction 699


21.2 Network protocols and service denial 701


21.2.1 BGP security 701


21.2.2 DNS security 703


21.2.3 UDP, TCP, SYN floods and SYN reflection 704


21.2.4 Other amplifiers 705


21.2.5 Other denial-of-service attacks 706


21.2.6 Email - from spies to spammers 706


21.3 The malware menagerie - Trojans, worms and RATs 708


21.3.1 Early history of malware 709


21.3.2 The Internet worm 710


21.3.3 Further malware evolution 711


21.3.4 How malware works 713


21.3.5 Countermeasures 714


21.4 Defense against network attack 715


21.4.1 Filtering: firewalls, censorware and wiretaps 717


21.4.1.1 Packet filtering 718


21.4.1.2 Circuit gateways 718


21.4.1.3 Application proxies 719


21.4.1.4 Ingress versus egress filtering 719


21.4.1.5 Architecture 720


21.4.2 Intrusion detection 722


21.4.2.1 Types of intrusion detection 722


21.4.2.2 General limitations of intrusion detection 724


21.4.2.3 Specific problems detecting network attacks 724


21.5 Cryptography: the ragged boundary 725


21.5.1 SSH 726


21.5.2 Wireless networking at the periphery 727


21.5.2.1 WiFi 727


21.5.2.2 Bluetooth 728


21.5.2.3 HomePlug 729


21.5.2.4 VPNs 729


21.6 CAs and PKI 730


21.7 Topology 733


21.8 Summary 734


Research problems 734


Further reading 735


Chapter 22 Phones 737


22.1 Introduction 737


22.2 Attacks on phone networks 738


22.2.1 Attacks on phone-call metering 739


22.2.2 Attacks on signaling 742


22.2.3 Attacks on switching and configuration 743


22.2.4 Insecure end systems 745


22.2.5 Feature interaction 746


22.2.6 VOIP 747


22.2.7 Frauds by phone companies 748


22.2.8 Security economics of telecomms 749


22.3 Going mobile 750


22.3.1 GSM 751


22.3.2 3G 755


22.3.3 4G 757


22.3.4 5G and beyond 758


22.3.5 General MNO failings 760


22.4 Platform security 761


22.4.1 The Android app ecosystem 763


22.4.1.1 App markets and developers 764


22.4.1.2 Bad Android implementations 764


22.4.1.3 Permissions 766


22.4.1.4 Android malware 767


22.4.1.5 Ads and third-party services 768


22.4.1.6 Pre-installed apps 770


22.4.2 Apple''s app ecosystem 770


22.4.3 Cross-cutting issues 774


22.5 Summary 775


Research problems 776


Further reading 776


Chapter 23 Electronic and Information Warfare 777


23.1 Introduction 777


23.2 Basics 778


23.3 Communications systems 779


23.3.1 Signals intelligence techniques 781


23.3.2 Attacks on communications 784


23.3.3 Protection techniques 785


23.3.3.1 Frequency hopping 786


23.3.3.2 DSSS 787


23.3.3.3 Burst communications 788


23.3.3.4 Combining covertness and jam resistance 789


23.3.4 Interaction between civil and military uses 790


23.4 Surveillance and target acquisition 791


23.4.1 Types of radar 792


23.4.2 Jamming techniques 793


23.4.3 Advanced radars and countermeasures 795


23.4.4 Other sensors and multisensor issues 796


23.5 IFF systems 797


23.6 Improvised explosive devices 800


23.7 Directed energy weapons 802


23.8 Information warfare 803


23.8.1 Attacks on control systems 805


23.8.2 Attacks on other infrastructure 808


23.8.3 Attacks on elections and political stability 809


23.8.4 Doctrine 811


23.9 Summary 812


Research problems 813


Further reading 813


Chapter 24 Copyright and DRM 815


24.1 Introduction 815


24.2 Copyright 817


24.2.1 Software 817


24.2.2 Free software, free culture? 823


24.2.3 Books and music 827


24.2.4 Video and pay-TV 828


24.2.4.1 Typical system architecture 829


24.2.4.2 Video scrambling techniques 830


24.2.4.3 Attacks on hybrid scrambling systems 832


24.2.4.4 DVB 836


24.2.5 DVD 837


24.3 DRM on general-purpose computers 838


24.3.1 Windows media rights management 839


24.3.2 FairPlay, HTML5 and other DRM systems 840


24.3.3 Software obfuscation 841


24.3.4 Gaming, cheating, and DRM 843


24.3.5 Peer-to-peer systems 845


24.3.6 Managing hardware design rights 847


24.4 Information hiding 848


24.4.1 Watermarks and copy generation management 849


24.4.2 General information hiding techniques 849


24.4.3 Attacks on copyright marking schemes 851


24.5 Policy 854


24.5.1 The IP lobby 857


24.5.2 Who benefits? 859


24.6 Accessory control 860


24.7 Summary 862


Research problems 862


Further reading 863


Chapter 25 New Directions? 865


25.1 Introduction 865


25.2 Autonomous and remotely-piloted vehicles 866


25.2.1 Drones 866


25.2.2 Self-driving cars 867


25.2.3 The levels and limits of automation 869


25.2.4 How to hack a self-driving car 872


25.3 AI / ML 874


25.3.1 ML and security 875


25.3.2 Attacks on ML systems 876


25.3.3 ML and society 879


25.4 PETS and operational security 882


25.4.1 Anonymous messaging devices 885


25.4.2 Social support 887


25.4.3 Living off the land 890


25.4.4 Putting it all together 891


25.4.5 The name''s Bond. James Bond 893


25.5 Elections 895


25.5.1 The history of voting machines 896


25.5.2 Hanging chads 896


25.5.3 Optical scan 898


25.5.4 Software independence 899


25.5.5 Why electronic elections are hard 900


25.6 Summary 904


Research problems 904


Further reading 905


Part III


Chapter 26 Surveillance or Privacy? 909


26.1 Introduction 909


26.2 Surveillance 912


26.2.1 The history of government wiretapping 912


26.2.2 Call data records (CDRs) 916


26.2.3 Search terms and location data 919


26.2.4 Algorithmic processing 920


26.2.5 ISPs and CSPs 921


26.2.6 The Five Eyes'' system of systems 922


26.2.7 The crypto wars 925


26.2.7.1 The back story to crypto policy 926


26.2.7.2 DES and crypto research 927


26.2.7.3 CryptoWar 1 - the Clipper chip 928


26.2.7.4 CryptoWar 2 - going spotty 931


26.2.8 Export control 934


26.3 Terrorism 936


26.3.1 Causes of political violence 936


26.3.2 The psychology of political violence 937


26.3.3 The role of institutions 938


26.3.4 The democratic response 940


26.4 Censorship 941


26.4.1 Censorship by authoritarian regimes 942


26.4.2 Filtering, hate speech and radicalisation 944


26.5 Forensics and rules of evidence 948


26.5.1 Forensics 948


26.5.2 Admissibility of evidence 950


26.5.3 What goes wrong 951


26.6 Privacy and data protection 953


26.6.1 European data protection 953


26.6.2 Privacy regulation in the USA 956


26.6.3 Fragmentation? 958


26.7 Freedom of information 960


26.8 Summary 961


Research problems 962


Further reading 962


Chapter 27 Secure Systems Development 965


27.1 Introduction 965


27.2 Risk management 966


27.3 Lessons from safety-critical systems 969


27.3.1 Safety engineering methodologies 970


27.3.2 Hazard analysis 971


27.3.3 Fault trees and threat trees 971


27.3.4 Failure modes and effects analysis 972


27.3.5 Threat modelling 973


27.3.6 Quantifying risks 975


27.4 Prioritising protection goals 978


27.5 Methodology 980


27.5.1 Top-down design 981


27.5.2 Iterative design: from spiral to agile 983


27.5.3 The secure development lifecycle 985


27.5.4 Gated development 987


27.5.5 Software as a Service 988


27.5.6 From DevOps to DevSecOps 991


27.5.6.1 The Azure ecosystem 991


27.5.6.2 The Google ecosystem 992


27.5.6.3 Creating a learning system 994


27.5.7 The vulnerability cycle 995


27.5.7.1 The CVE system 997


27.5.7.2 Coordinated disclosure 998


27.5.7.3 Security incident and event management 999


27.5.8 Organizational mismanagement of risk 1000


27.6 Managing the team 1004


27.6.1 Elite engineers 1004


27.6.2 Diversity 1005


27.6.3 Nurturing skills and attitudes 1007


27.6.4 Emergent properties 1008


27.6.5 Evolving your workflow 1008


27.6.6 And finally... 1010


27.7 Summary 1010


Research problems 1011


Further reading 1012


Chapter 28 Assurance and Sustainability 1015


28.1 Introduction 1015


28.2 Evaluation 1018


28.2.1 Alarms and locks 1019


28.2.2 Safety evaluation regimes 1019


28.2.3 Medical device safety 1020


28.2.4 Aviation safety 1023


28.2.5 The Orange book 1025


28.2.6 FIPS 140 and HSMs 1026


28.2.7 The common criteria 1026


28.2.7.1 The gory details 1027


28.2.7.2 What goes wrong with the Common Criteria 1029


28.2.7.3 Collaborative protection profiles 1031


28.2.8 The ''Principle of Maximum Complacency'' 1032


28.2.9 Next steps 1034


28.3 Metrics and dynamics of dependability 1036


28.3.1 Reliability growth models 1036


28.3.2 Hostile review 1039


28.3.3 Free and open-source software 1040


28.3.4 Process assurance 1042


28.4 The entanglement of safety and security 1044


28.4.1 The electronic safety and security of cars 1046


28.4.2 Modernising safety and security regulation 1049


28.4.3 The Cybersecurity Act 2019 1050


28.5 Sustainability 1051


28.5.1 The Sales of goods directive 1052


28.5.2 New research directions 1053


28.6 Summary 1056


Research problems 1057


Further reading 1058


Chapter 29 Beyond "Computer Says No" 1059


Bibliography 1061


Index 1143

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