IPv6 network administration
What once seemed nearly impossible has turned into reality. The number of available Internet addresses is now nearly exhausted, due mostly to the explosion of commercial websites and entries from an expanding number of countries. This growing shortage has effectively put the Internet community--an...
| Autor principal: | |
|---|---|
| Otros Autores: | |
| Formato: | Libro electrónico |
| Idioma: | Inglés |
| Publicado: |
Beijing ; Sebastopol, California :
O'Reilly Media
2005.
|
| Edición: | First edition |
| Materias: | |
| Ver en Biblioteca Universitat Ramon Llull: | https://discovery.url.edu/permalink/34CSUC_URL/1im36ta/alma991009627153406719 |
Tabla de Contenidos:
- IPv6 Network Administration; Preface; Chronological overview; Contenders for the throne; 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; Support; Donations; I. The Character of IPv6; 1.2. NAT; 1.3. Security; 1.4. MAC Layer Address Resolution; 1.5. Broadcast Versus Multicast; 1.6. Quality of Service; 1.7. Routing; 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 IPv42.2. Resiliency; 2.3. Scalability; 2.4. Flexibility; 2.5. Autoconfiguration; 2.6. Extensibility; 2.7. In Short...; 3. Describing IPv6; 3.1.2. Optimization; 3.2. Packets and Structures; 3.2.2. Addressing Concepts; 3.2.3. Notation; 3.2.3.2. Grouping and separation; 3.2.3.3. Elision; 3.2.3.4. Scope identifiers; 3.2.4. Subnetting; 3.3. Address Architecture; 3.3.2. Link-Local Addressing; 3.3.3. Site-Local Addressing; 3.3.4. Multicast; 3.3.4.2. Hardware support; 3.3.5. Anycast; 3.4. ICMPv6; 3.4.2. Neighborhood Watch; 3.4.2.2. DAD; 3.4.2.3. NUD
- 3.4.2.4. Redirection3.4.2.5. Router/prefix advertisement; 3.4.2.6. Stateless autoconfiguration; 3.4.2.7. ICMP name resolution; 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; 3.6.2. Checksums; 3.6.3. Header Compression; 3.7. Introduction to Mobile IPv6; 3.8. Routing; 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; 3.11.2. Mobility and Security; 4. Planning; 4.1.2. Configured Tunnelling; 4.1.3. Automatic Tunnelling
- 4.1.4. 6to44.1.5. 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; 4.2.2. 6to4; 4.2.3. 6Bone; 4.2.4. Only Intermittently Connected; 4.2.5. RIRs; 4.2.5.2. RIR operations background; 4.2.5.3. RIPE; 4.2.5.4. Current policy; 4.3. Network Design; 4.3.2. Subnetting; 4.3.3. DHCP; 4.3.4. Multihoming; 4.3.4.2. Multiple Upstream Providers, BGP; 4.3.4.3. Multiattaching; 4.4. Managing IPv4 and IPv6 Coexistence; 4.5. Deploying IPv6
- 4.6. Inputs to Deployment Plans4.6.1.2. Connectivity and routers; 4.6.1.3. Converting a host at a time: single stack; 4.6.2. No Existing IPv4 Infrastructure; 4.6.3. Topologies; 4.6.3.2. Router placement and advertisement; 4.7. Worked Examples; 4.7.1.2. Special case: Internet Exchange Point; 4.8. Summary; II. Deploying IPv6; 5.1.1.2. Windows XP; 5.1.1.3. Windows Server 2003; 5.1.1.4. Other versions of Windows; 5.1.1.5. IPv6 applications on Windows; 5.1.1.6. Points of interest; 5.1.2. Macintosh (OS X and Darwin); 5.1.3. Linux; 5.1.3.2. SuSE; 5.1.3.3. Debian
- 5.1.3.4. Userland/administration support for IPv6
