Produktbild: TCP/IP Illustrated: The Protocols, Volume 1

TCP/IP Illustrated: The Protocols, Volume 1

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Beschreibung

Produktdetails

Einband

Gebundene Ausgabe

Erscheinungsdatum

15.11.2011

Verlag

Pearson

Seitenzahl

1056

Maße (L/B/H)

23,8/18,2/4,1 cm

Gewicht

1451 g

Auflage

2nd ed.

Sprache

Englisch

ISBN

978-0-321-33631-6

Beschreibung

Produktdetails

Einband

Gebundene Ausgabe

Erscheinungsdatum

15.11.2011

Verlag

Pearson

Seitenzahl

1056

Maße (L/B/H)

23,8/18,2/4,1 cm

Gewicht

1451 g

Auflage

2nd ed.

Sprache

Englisch

ISBN

978-0-321-33631-6

Herstelleradresse

Libri GmbH
Europaallee 1
36244 Bad Hersfeld
DE

Email: GPSR Kontakt

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  • Produktbild: TCP/IP Illustrated: The Protocols, Volume 1
  • Foreword xxv

    Preface to the Second Edition xxvii

    Adapted Preface to the First Edition xxxiii

    Chapter 1: Introduction 1

    1.1 Architectural Principles 2

    1.2 Design and Implementation 8

    1.3 The Architecture and Protocols of the TCP/IP Suite 13

    1.4 Internets, Intranets, and Extranets 19

    1.5 Designing Applications 20

    1.6 Standardization Process 22

    1.7 Implementations and Software Distributions 24

    1.8 Attacks Involving the Internet Architecture 25

    1.9 Summary 26

    1.10 References 28

    Chapter 2: The Internet Address Architecture 31

    2.1 Introduction 31

    2.2 Expressing IP Addresses 32

    2.3 Basic IP Address Structure 34

    2.4 CIDR and Aggregation 46

    2.5 Special-Use Addresses 50

    2.6 Allocation 62

    2.7 Unicast Address Assignment 65

    2.8 Attacks Involving IP Addresses 70

    2.9 Summary 71

    2.10 References 72

    Chapter 3: Link Layer 79

    3.1 Introduction 79

    3.2 Ethernet and the IEEE 802 LAN/MAN Standards 80

    3.3 Full Duplex, Power Save, Autonegotiation, and 802.1X Flow Control 94

    3.4 Bridges and Switches 98

    3.5 Wireless LANs—IEEE 802.11(Wi-Fi) 111

    3.6 Point-to-Point Protocol (PPP) 130

    3.7 Loopback 145

    3.8 MTU and Path MTU 148

    3.9 Tunneling Basics 149

    3.10 Attacks on the Link Layer 154

    3.11 Summary 156

    3.12 References 157

    Chapter 4: ARP: Address Resolution Protocol 165

    4.1 Introduction 165

    4.2 An Example 166

    4.3 ARP Cache 169

    4.4 ARP Frame Format 170

    4.5 ARP Examples 171

    4.6 ARP Cache Timeout 174

    4.7 Proxy ARP 174

    4.8 Gratuitous ARP and Address Conflict Detection (ACD) 175

    4.9 The arp Command 177

    4.10 Using ARP to Set an Embedded Device’s IPv4 Address 178

    4.11 Attacks Involving ARP 178

    4.12 Summary 179

    4.13 References 179

    Chapter 5: The Internet Protocol (IP) 181

    5.1 Introduction 181

    5.2 IPv4 and IPv6 Headers 183

    5.3 IPv6 Extension Headers 194

    5.4 IP Forwarding 208

    5.5 Mobile IP 215

    5.6 Host Processing of IP Datagrams 220

    5.7 Attacks Involving IP 226

    5.8 Summary 226

    5.9 References 228

    Chapter 6: System Configuration: DHCP and Autoconfiguration 233

    6.1 Introduction 233

    6.2 Dynamic Host Configuration Protocol (DHCP) 234

    6.3 Stateless Address Autoconfiguration (SLAAC) 276

    6.4 DHCP and DNS Interaction 285

    6.5 PPP over Ethernet (PPPoE) 286

    6.6 Attacks Involving System Configuration 292

    6.7 Summary 292

    6.8 References 293

    Chapter 7: Firewalls and Network Address Translation (NAT) 299

    7.1 Introduction 299

    7.2 Firewalls 300

    7.3 Network Address Translation (NAT) 303

    7.4 NAT Traversal 316

    7.5 Configuring Packet-Filtering Firewalls and NATs 334

    7.6 NAT for IPv4/IPv6 Coexistence and Transition 339

    7.7 Attacks Involving Firewalls and NATs 345

    7.8 Summary 346

    7.9 References 347

    Chapter 8: ICMPv4 and ICMPv6: Internet Control Message Protocol 353

    8.1 Introduction 353

    8.2 ICMP Messages 355

    8.3 ICMP Error Messages 361

    8.4 ICMP Query/Informational Messages 380

    8.5 Neighbor Discovery in IPv6 395

    8.6 Translating ICMPv4 and ICMPv6 424

    8.7 Attacks Involving ICMP 428

    8.8 Summary 430

    8.9 References 430

    Chapter 9: Broadcasting and Local Multicasting (IGMP and MLD) 435

    9.1 Introduction 435

    9.2 Broadcasting 436

    9.3 Multicasting 441

    9.4 The Internet Group Management Protocol (IGMP) and Multicast Listener Discovery Protocol (MLD) 451

    9.5 Attacks Involving IGMP and MLD 469

    9.6 Summary 470

    9.7 References 471

    Chapter 10: User Datagram Protocol (UDP) and IP Fragmentation 473

    10.1 Introduction 473

    10.2 UDP Header 474

    10.3 UDP Checksum 475

    10.4 Examples 478

    10.5 UDP and IPv6 481

    10.6 UDP-Lite 487

    10.7 IP Fragmentation 488

    10.8 Path MTU Discovery with UDP 493

    10.9 Interaction between IP Fragmentation and ARP/ND 496

    10.10 Maximum UDP Datagram Size 497

    10.11 UDP Server Design 498

    10.12 Translating UDP/IPv4 and UDP/IPv6 Datagrams 505

    10.13 UDP in the Internet 506

    10.14 Attacks Involving UDP and IP Fragmentation 507

    10.15 Summary 508

    10.16 References 508

    Chapter 11: Name Resolution and the Domain Name System (DNS) 511

    11.1 Introduction 511

    11.2 The DNS Name Space 512

    11.3 Name Servers and Zones 516

    11.4 Caching 517

    11.5 The DNS Protocol 518

    11.6 Sort Lists, Round-Robin, and Split DNS 565

    11.7 Open DNS Servers and DynDNS 567

    11.8 Transparency and Extensibility 567

    11.9 Translating DNS from IPv4 to IPv6 (DNS64) 568

    11.10 LLMNR and mDNS 569

    11.11 LDAP 570

    11.12 Attacks on the DNS 571

    11.13 Summary 572

    11.14 References 573

    Chapter 12: TCP: The Transmission Control Protocol (Preliminaries) 579

    12.1 Introduction 579

    12.2 Introduction to TCP 584

    12.3 TCP Header and Encapsulation 587

    12.4 Summary 591

    12.5 References 591

    Chapter 13: TCP Connection Management 595

    13.1 Introduction 595

    13.2 TCP Connection Establishment and Termination 595

    13.3 TCP Options 605

    13.4 Path MTU Discovery with TCP 612

    13.5 TCP State Transitions 616

    13.6 Reset Segments 625

    13.7 TCP Server Operation 631

    13.8 Attacks Involving TCP Connection Management 640

    13.9 Summary 642

    13.10 References 643

    Chapter 14: TCP Timeout and Retransmission 647

    14.1 Introduction 647

    14.2 Simple Timeout and Retransmission Example 648

    14.3 Setting the Retransmission Timeout (RTO) 651

    14.4 Timer-Based Retransmission 664

    14.5 Fast Retransmit 667

    14.6 Retransmission with Selective Acknowledgments 671

    14.7 Spurious Timeouts and Retransmissions 677

    14.8 Packet Reordering and Duplication 682

    14.9 Destination Metrics 685

    14.10 Repacketization 686

    14.11 Attacks Involving TCP Retransmission 687

    14.12 Summary 688

    14.13 References 689

    Chapter 15: TCP Data Flow and Window Management 691

    15.1 Introduction 691

    15.2 Interactive Communication 692

    15.3 Delayed Acknowledgments 695

    15.4 Nagle Algorithm 696

    15.5 Flow Control and Window Management 700

    15.6 Urgent Mechanism 719

    15.7 Attacks Involving Window Management 723

    15.8 Summary 723

    15.9 References 724

    Chapter 16: TCP Congestion Control 727

    16.1 Introduction 727

    16.2 The Classic Algorithms 730

    16.3 Evolution of the Standard Algorithms 739

    16.4 Handling Spurious RTOs—the Eifel Response Algorithm 744

    16.5 An Extended Example 745

    16.6 Sharing Congestion State 767

    16.7 TCP Friendliness 768

    16.8 TCP in High-Speed Environments 770

    16.9 Delay-Based Congestion Control 777

    16.10 Buffer Bloat 781

    16.11 Active Queue Management and ECN 782

    16.12 Attacks Involving TCP Congestion Control 785

    16.13 Summary 786

    16.14 References 788

    Chapter 17: TCP Keepalive 793

    17.1 Introduction 793

    17.2 Description 795

    17.3 Attacks Involving TCP Keepalives 802

    17.4 Summary 802

    17.5 References 803

    Chapter 18: Security: EAP, IPsec, TLS, DNSSEC, and DKIM 805

    18.1 Introduction 805

    18.2 Basic Principles of Information Security 806

    18.3 Threats to Network Communication 807

    18.4 Basic Cryptography and Security Mechanisms 809

    18.5 Certificates, Certificate Authorities (CAs), and PKIs 821

    18.6 TCP/IP Security Protocols and Layering 832

    18.7 Network Access Control: 802.1X, 802.1AE, EAP, and PANA 833

    18.8 Layer 3 IP Security (IPsec) 840

    18.9 Transport Layer Security (TLS and DTLS) 876

    18.10 DNS Security (DNSSEC) 894

    18.11 DomainKeys Identified Mail (DKIM) 915

    18.12 Attacks on Security Protocols 918

    18.13 Summary 919

    18.14 References 922

    Glossary of Acronyms 933

    Index 963