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IPv6 Network Administration - Niall Richard Murphy; David Mal
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A Note Regarding Supplemental Files

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2022-02-24 01:22:11
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  • A Note Regarding Supplemental Files
  • Foreword
  • Preface
    • What This Book Is ... and Is Not
      • History and Background
      • People
      • Adoption
      • Commercial Services
    • Conventions Used in This Book
    • Using Code Examples
    • Comments and Questions
    • Safari Enabled
    • Contacting the Authors
    • A Note on RFCs and Internet Drafts
    • Acknowledgments
      • Contributors
      • Support
      • Donations
  • I. The Character of IPv6
    • 1. The Unforeseen Limitations of IPv4
      • 1.1. Addressing Model
        • 1.1.1. CIDR
      • 1.2. NAT
      • 1.3. Security
        • 1.3.1. DNS
      • 1.4. MAC Layer Address Resolution
      • 1.5. Broadcast Versus Multicast
      • 1.6. Quality of Service
      • 1.7. Routing
        • 1.7.1. Internal Routing Protocols
        • 1.7.2. BGP: The External Routing Protocol
        • 1.7.3. Limits to Success of BGP
      • 1.8. Summary
    • 2. The (Un)foreseen Successes of IPv4
      • 2.1. Simplicity
      • 2.2. Resiliency
      • 2.3. Scalability
      • 2.4. Flexibility
      • 2.5. Autoconfiguration
      • 2.6. Extensibility
      • 2.7. In Short...
    • 3. Describing IPv6
      • 3.1. Designed for Today and Tomorrow
        • 3.1.1. Address Space Exhaustion
        • 3.1.2. Optimization
      • 3.2. Packets and Structures
        • 3.2.1. Basic Header Structure
        • 3.2.2. Addressing Concepts
        • 3.2.3. Notation
        • 3.2.4. Subnetting
      • 3.3. Address Architecture
        • 3.3.1. Global Unicast Addressing
        • 3.3.2. Link-Local Addressing
        • 3.3.3. Site-Local Addressing
        • 3.3.4. Multicast
        • 3.3.5. Anycast
      • 3.4. ICMPv6
        • 3.4.1. ICMP Echoes and Errors
        • 3.4.2. Neighborhood Watch
        • 3.4.3. Router Renumbering
        • 3.4.4. Multicast Listener Discovery
        • 3.4.5. Summary of ICMPv6 Types
      • 3.5. Address Selection
      • 3.6. More About Headers
        • 3.6.1. Extension Headers
        • 3.6.2. Checksums
        • 3.6.3. Header Compression
      • 3.7. Introduction to Mobile IPv6
      • 3.8. Routing
        • 3.8.1. RIPng
        • 3.8.2. OSPF
        • 3.8.3. Integrated IS-IS
        • 3.8.4. BGP-4+
      • 3.9. Security
      • 3.10. Quality of Service
      • 3.11. The Promise of IPv6
        • 3.11.1. Simplicity and Flexibility
        • 3.11.2. Mobility and Security
  • II. Deploying IPv6
    • 4. Planning
      • 4.1. Transition Mechanisms
        • 4.1.1. Dual Stack
        • 4.1.2. Configured Tunnelling
        • 4.1.3. Automatic Tunnelling
        • 4.1.4. 6to4
        • 4.1.5. Teredo
        • 4.1.6. 6over4
        • 4.1.7. ISATAP
        • 4.1.8. SIIT
        • 4.1.9. NAT46/64-PT
        • 4.1.10. TRT
        • 4.1.11. Bump in the Stack/API
        • 4.1.12. Proxies
        • 4.1.13. Summary of Transition Mechanisms
      • 4.2. Obtaining IPv6 Address Space and Connectivity
        • 4.2.1. Upstream Providers
        • 4.2.2. 6to4
        • 4.2.3. 6Bone
        • 4.2.4. Only Intermittently Connected
        • 4.2.5. RIRs
      • 4.3. Network Design
        • 4.3.1. Addressing
        • 4.3.2. Subnetting
        • 4.3.3. DHCP
        • 4.3.4. Multihoming
      • 4.4. Managing IPv4 and IPv6 Coexistence
        • 4.4.1. Fudging Native Connectivity with Ethernet
      • 4.5. Deploying IPv6
      • 4.6. Inputs to Deployment Plans
        • 4.6.1. Existing IPv4 Infrastructure
        • 4.6.2. No Existing IPv4 Infrastructure
        • 4.6.3. Topologies
      • 4.7. Worked Examples
        • 4.7.1. Enterprise-class IPv4-connected network
      • 4.8. Summary
    • 5. Installation and Configuration
      • 5.1. Workstations and Servers
        • 5.1.1. Windows
        • 5.1.2. Macintosh (OS X and Darwin)
        • 5.1.3. Linux
        • 5.1.4. Solaris
        • 5.1.5. AIX
        • 5.1.6. Tru64
        • 5.1.7. FreeBSD
        • 5.1.8. Other Workstation/Server OSs
      • 5.2. Routers
        • 5.2.1. Cisco
        • 5.2.2. Juniper
      • 5.3. Enabling, Testing, and Troubleshooting
        • 5.3.1. Turning on IPv6
        • 5.3.2. Testing with ping and telnet
        • 5.3.3. Know Thy Neighbor (Before Thyself)
        • 5.3.4. Configuring Name Resolution
        • 5.3.5. Testing Further Afield: ping, telnet, and traceroute
      • 5.4. Static Routing
      • 5.5. Configuring Transition Mechanisms
        • 5.5.1. Configured Tunnels
        • 5.5.2. 6to4 configuration
      • 5.6. Applications
        • 5.6.1. Web Browsers
        • 5.6.2. Email Clients
        • 5.6.3. SSH
        • 5.6.4. Miscellaneous
      • 5.7. Gotchas
      • 5.8. Summary
    • 6. Operations
      • 6.1. DNS
        • 6.1.1. Record Types
        • 6.1.2. IPv6 Transport
        • 6.1.3. Recursive DNS Servers
        • 6.1.4. Gotchas
      • 6.2. IPsec
        • 6.2.1. Configuration
      • 6.3. Routing
        • 6.3.1. Router Advertisements and Renumbering
        • 6.3.2. Multiple Routers
        • 6.3.3. Routing Protocols
        • 6.3.4. Multicast Routing
      • 6.4. Firewalls
        • 6.4.1. Filtering on IPv6 Addresses
        • 6.4.2. Filtering ICMPv6
        • 6.4.3. Ingress and Egress Filtering
        • 6.4.4. Suspicious Addresses
        • 6.4.5. Packages Available for IPv6 Firewalling
        • 6.4.6. Impact of IPv6 Deployment on IPv4 Filtering
        • 6.4.7. Port Scanning
        • 6.4.8. Gotchas
      • 6.5. Management
        • 6.5.1. Running DHCPv6
        • 6.5.2. SNMP
        • 6.5.3. Scripting Network Monitoring
        • 6.5.4. Intrusion Detection
      • 6.6. Providing Transition Mechanisms
        • 6.6.1. 6to4 Relay Routers
        • 6.6.2. Faith
        • 6.6.3. Hacking Native Connectivity Around Incompatible Equipment
      • 6.7. Summary
    • 7. Services
      • 7.1. General Notes
      • 7.2. Inetd/TCP Wrappers
      • 7.3. HTTP
        • 7.3.1. Apache
        • 7.3.2. IIS
        • 7.3.3. General Issues
        • 7.3.4. HTTP Proxies and Caches
        • 7.3.5. Using Apache as a Proxy/Cache
        • 7.3.6. Using Apache to Fetch Content for an IPv4-Only Proxy/Cache
        • 7.3.7. Using Apache to Allow IPv6 Clients to Access an IPv4 Only Proxy/Cache
        • 7.3.8. Small Proxies
      • 7.4. SMTP
        • 7.4.1. Sendmail
        • 7.4.2. Postfix
        • 7.4.3. Qmail
        • 7.4.4. Exim
      • 7.5. POP/IMAP
        • 7.5.1. WU-IMAP
        • 7.5.2. Courier-IMAP
        • 7.5.3. Qpopper
        • 7.5.4. Cyrus Imapd2
      • 7.6. NNTP
      • 7.7. NTP
        • 7.7.1. Mills's Ntpd
        • 7.7.2. Other Time-Synchronization Software
      • 7.8. Syslog
      • 7.9. Printing
      • 7.10. FTP
      • 7.11. Remote Login Services
        • 7.11.1. Telnetd
        • 7.11.2. SSH
      • 7.12. If All Else Fails...
      • 7.13. Summary
    • 8. Programming
      • 8.1. Relevant Functions
        • 8.1.1. Socket Functions
        • 8.1.2. Address Resolution Functions
      • 8.2. Some Simple Examples
        • 8.2.1. Parsing and Printing Names and Addresses
        • 8.2.2. A UDP Echo Server and Client
        • 8.2.3. A TCP Client and Server
      • 8.3. Case Study: MMDF
        • 8.3.1. Incoming SMTP Channel
        • 8.3.2. Outgoing SMTP Channel
        • 8.3.3. DNS Table Code
      • 8.4. Other Considerations for Developers
        • 8.4.1. Switching Between IPv4 and IPv6
        • 8.4.2. How Long Is a sockaddr?
        • 8.4.3. When IPv6 Addresses Don't Fit
        • 8.4.4. Services on Dual-Stacked Hosts
        • 8.4.5. Mapped IPv4 Addresses
        • 8.4.6. Tools for Auditing Sockets Code
        • 8.4.7. Online Guides to Coding for IPv6
        • 8.4.8. Languages Other than C
      • 8.5. Summary
    • 9. The Future
      • 9.1. Unresolved Issues
        • 9.1.1. Site-Local Addresses
        • 9.1.2. Anycast
        • 9.1.3. DNS
        • 9.1.4. Multihoming
      • 9.2. Up and Coming Subject Areas
        • 9.2.1. Cellular Devices
        • 9.2.2. P2P Applications
        • 9.2.3. SIP, IM, and VoIP
        • 9.2.4. Supporting Notes for Understanding 3G
        • 9.2.5. 3G from the IETF Point of View
        • 9.2.6. IPv6 in a 3G Network
      • 9.3. Summary
  • Glossary
  • Index
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