Difference between revisions of "MOOC:Sequence 4"

From Livre IPv6

(Documents de référence)
(Documents de référence)
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* RFC 7123 Security Implications of IPv6 on IPv4 Networks ([http://www.bortzmeyer.org/7123 Bortzmeyer])
 
* RFC 7123 Security Implications of IPv6 on IPv4 Networks ([http://www.bortzmeyer.org/7123 Bortzmeyer])
 
* RFC 7059 A Comparison of IPv6-over-IPv4 Tunnel Mechanisms ([http://www.bortzmeyer.org/7059 Bortzmeyer])
 
* RFC 7059 A Comparison of IPv6-over-IPv4 Tunnel Mechanisms ([http://www.bortzmeyer.org/7059 Bortzmeyer])
* RFC 7051 Analysis of Solution Proposals for Hosts to Learn NAT64 Prefix ([http://www.bortzmeyer.org/7051 Bortzmeyer])
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* RFC 7051 Analysis of Solution Proposals for Hosts to Learn NAT64 Prefix  
 
* RFC 7050 Discovery of the IPv6 Prefix Used for IPv6 Address Synthesis ([http://www.bortzmeyer.org/7050 Bortzmeyer])
 
* RFC 7050 Discovery of the IPv6 Prefix Used for IPv6 Address Synthesis ([http://www.bortzmeyer.org/7050 Bortzmeyer])
* RFC 7040 Public IPv4-over-IPv6 Access Network
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* RFC 7040 Public IPv4-over-IPv6 Access Network ([http://www.bortzmeyer.org/7040 Bortzmeyer])
* RFC 6935 IPv6 and UDP Checksums for Tunneled Packets
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* RFC 6935 IPv6 and UDP Checksums for Tunneled Packets ([http://www.bortzmeyer.org/6935 Bortzmeyer])
* RFC 6908 Deployment Considerations for Dual-Stack Lite
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* RFC 6908 Deployment Considerations for Dual-Stack Lite ([http://www.bortzmeyer.org/6908 Bortzmeyer])
* RFC 6889 Analysis of Stateful 64 Translation
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* RFC 6889 Analysis of Stateful 64 Translation ([http://www.bortzmeyer.org/6889 Bortzmeyer])
* RFC 6877 464XLAT: Combination of Stateful and Stateless Translation
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* RFC 6877 464XLAT: Combination of Stateful and Stateless Translation ([http://www.bortzmeyer.org/6877 Bortzmeyer])
* RFC 6791 Stateless Source Address Mapping for ICMPv6 Packets
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* RFC 6791 Stateless Source Address Mapping for ICMPv6 Packets ([http://www.bortzmeyer.org/6791 Bortzmeyer])
* RFC 6782 Wireline Incremental IPv6
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* RFC 6782 Wireline Incremental IPv6 ([http://www.bortzmeyer.org/6782 Bortzmeyer])
* RFC 6732 6to4 Provider Managed Tunnels
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* RFC 6732 6to4 Provider Managed Tunnels ([http://www.bortzmeyer.org/6732 Bortzmeyer])
* RFC 6654 Gateway-Initiated IPv6 Rapid Deployment on IPv4 Infrastructures (GI 6rd)
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* RFC 6654 Gateway-Initiated IPv6 Rapid Deployment on IPv4 Infrastructures (GI 6rd) ([http://www.bortzmeyer.org/6654 Bortzmeyer])
* RFC 6589 Considerations for Transitioning Content to IPv6
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* RFC 6589 Considerations for Transitioning Content to IPv6 ([http://www.bortzmeyer.org/6589 Bortzmeyer])
* RFC 6384  An FTP Application Layer Gateway (ALG) for IPv6-to-IPv4 Translation
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* RFC 6384  An FTP Application Layer Gateway (ALG) for IPv6-to-IPv4 Translation ([http://www.bortzmeyer.org/6384 Bortzmeyer])
* RFC 6343 Advisory Guidelines for 6to4 Deployment
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* RFC 6343 Advisory Guidelines for 6to4 Deployment ([http://www.bortzmeyer.org/6343 Bortzmeyer])
* RFC 6334 Dynamic Host Configuration Protocol for IPv6 (DHCPv6) Option    for Dual-Stack Lite
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* RFC 6334 Dynamic Host Configuration Protocol for IPv6 (DHCPv6) Option    for Dual-Stack Lite ([http://www.bortzmeyer.org/6334 Bortzmeyer])
* RFC 6333 Dual-Stack Lite Broadband Deployments Following IPv4 Exhaustion
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* RFC 6333 Dual-Stack Lite Broadband Deployments Following IPv4 Exhaustion ([http://www.bortzmeyer.org/6333 Bortzmeyer])
* RFC 6324 Routing Loop Attack Using IPv6 Automatic Tunnels
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* RFC 6324 Routing Loop Attack Using IPv6 Automatic Tunnels ([http://www.bortzmeyer.org/6324 Bortzmeyer])
* RFC 6180 Guidelines for Using IPv6 Transition Mechanisms during IPv6 Deployment
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* RFC 6180 Guidelines for Using IPv6 Transition Mechanisms during IPv6 Deployment ([http://www.bortzmeyer.org/6180 Bortzmeyer])
* RFC 6147 DNS64: DNS Extensions for Network Address Translation from IPv6 Clients to IPv4 Servers
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* RFC 6147 DNS64: DNS Extensions for Network Address Translation from IPv6 Clients to IPv4 Servers ([http://www.bortzmeyer.org/6147 Bortzmeyer])
* RFC 6146 Stateful NAT64: Network Address and Protocol Translation from IPv6 Clients to IPv4 Servers
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* RFC 6146 Stateful NAT64: Network Address and Protocol Translation from IPv6 Clients to IPv4 Servers ([http://www.bortzmeyer.org/6146 Bortzmeyer])
* RFC 6144 Framework for IPv4/IPv6 Translation
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* RFC 6144 Framework for IPv4/IPv6 Translation ([http://www.bortzmeyer.org/6144 Bortzmeyer])
* RFC 6127 IPv4 Run-Out and IPv4-IPv6 Co-Existence Scenarios
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* RFC 6127 IPv4 Run-Out and IPv4-IPv6 Co-Existence Scenarios ([http://www.bortzmeyer.org/6127 Bortzmeyer])
* RFC 6081 Teredo Extensions
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* RFC 6081 Teredo Extensions ([http://www.bortzmeyer.org/6081 Bortzmeyer])
* RFC 6052 IPv6 Addressing of IPv4/IPv6 Translators
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* RFC 6052 IPv6 Addressing of IPv4/IPv6 Translators ([http://www.bortzmeyer.org/6052 Bortzmeyer])
* RFC 6036 Emerging Service Provider Scenarios for IPv6 Deployment
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* RFC 6036 Emerging Service Provider Scenarios for IPv6 Deployment ([http://www.bortzmeyer.org/6036 Bortzmeyer])
* RFC 5569 IPv6 Rapid Deployment on IPv4 Infrastructures (6rd)
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* RFC 5569 IPv6 Rapid Deployment on IPv4 Infrastructures (6rd) ([http://www.bortzmeyer.org/5569 Bortzmeyer])
* RFC 5572 IPv6 Tunnel Broker with the Tunnel Setup Protocol (TSP)
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* RFC 5572 IPv6 Tunnel Broker with the Tunnel Setup Protocol (TSP) ([http://www.bortzmeyer.org/5572 Bortzmeyer])
* RFC 5902 IAB Thoughts on IPv6 Network Address Translation
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* RFC 5902 IAB Thoughts on IPv6 Network Address Translation ([http://www.bortzmeyer.org/5902 Bortzmeyer])
* RFC 5214 Intra-Site Automatic Tunnel Addressing Protocol (ISATAP)
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* RFC 5214 Intra-Site Automatic Tunnel Addressing Protocol (ISATAP) ([http://www.bortzmeyer.org/5214 Bortzmeyer])
  
 
===Activités===
 
===Activités===

Revision as of 12:45, 12 March 2015

> MOOC>Contenu>Semaine 4


Thème Cohabitation IPv6/IPv4

Cette semaine aborde les sujets suivants:

  1. Introduction à la problématique
  2. Double pile
  3. Tunnels
  4. Traduction d'adresse
  5. ALG

Objectifs Pédagogiques

Note : se limiter aux niveaux 1, 2 voir 3 selon la taxonomie de Bloom

Niveau 1: Lister les solutions d'intégration d'IPV6 dans un réseau IPv4

  • Indiquer quel est besoin d'intégration, comment doit se déployer IPv6.
  • rappeler les différentes communications possibles entre IPv4 et IPv6
  • Définir les scénarios de déploiement d'IPV6 en fonction des types de réseaux (d'utilisateurs)

Niveau 2: Comprendre le fonctionnement des différents types de mécanismes d'intégration

  • Expliquer le fonctionnement des principales solutions d'intégration
  • Discuter des avantages et inconvénients de chaque solution
  • Identifier les limites de chaque solution

Niveau 3: Mettre en oeuvre une solution d'intégration

  • Choisir une solution d'intégration pour un scénario de réseau donné
  • installer et configurer la solution d'intégration choisie

Structure du cours

MOOC:Séquence 41 La problématique de l'inter-opérabilité

MOOC:Séquence 42 La double pile

MOOC:Séquence 43 Tunnel IPv4

MOOC:Séquence 44 Traduction d'adresses

MOOC:Séquence 45 Passerelle applicative

MOOC:Séquence 46 Quelle solution choisir ?

Ressources

Support du G6

  • Cours IPv6 déploiement de P. Anelli (pdf)
  • Chapitre du livre Intégration du G6 ici
  • Slides du G6 sur l'Intégration (pdf)

Articles

Du Web

vidéo

  • IPv6 pour les nuls une présentation faite par des personnels de Microsoft dans un techday.


Documents de référence

Activités


Livres

  • Graziani, R. (2012). Ed.: Cisco Press. BookOnLine IPv6 Fundamentals: A Straightforward Approach to Understanding IPv6
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