Difference between revisions of "MOOC:Ressources"
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Référence <strike>barrée</strike> si reprise dans une séquence | Référence <strike>barrée</strike> si reprise dans une séquence | ||
− | * RFC 8201 Path MTU Discovery for IP version 6 | + | * RFC 8956 Dissemination of Flow Specification Rules for IPv6 |
− | * RFC 8200 Internet Protocol, Version 6 (IPv6) Specification | + | * RFC 8883 ICMPv6 Errors for Discarding Packets Due to Processing Limits |
+ | * RFC 8781 Discovering PREF64 in Router Advertisements | ||
+ | * RFC 8754 on IPv6 Segment Routing Header (SRH) | ||
+ | * RFC 8504: IPv6 Node Requirements([http://www.bortzmeyer.org/8504.html Bortzmeyer]) | ||
+ | * RFC 8501: Reverse DNS in IPv6 for Internet Service Providers ([http://www.bortzmeyer.org/8501.html Bortzmeyer]) | ||
+ | * RFC 8415: Dynamic Host Configuration Protocol for IPv6 (DHCPv6) ([http://www.bortzmeyer.org/8415.html Bortzmeyer]) | ||
+ | * RFC 8201 Path MTU Discovery for IP version 6 ([http://www.bortzmeyer.org/8201.html Bortzmeyer]) | ||
+ | * RFC 8200 Internet Protocol, Version 6 (IPv6) Specification ([http://www.bortzmeyer.org/8200.html Bortzmeyer]) | ||
+ | * RFC 8021: Generation of IPv6 Atomic Fragments Considered Harmful ([http://www.bortzmeyer.org/8021.html Bortzmeyer]) | ||
* RFC 7608 IPv6 Prefix Length Recommendation for Forwarding | * RFC 7608 IPv6 Prefix Length Recommendation for Forwarding | ||
* RFC 7600 IPv4 Residual Deployment via IPv6 - A Stateless Solution (4rd) | * RFC 7600 IPv4 Residual Deployment via IPv6 - A Stateless Solution (4rd) | ||
Line 28: | Line 36: | ||
* RFC 7596 Lightweight 4over6: An Extension to the Dual-Stack Lite Architecture | * RFC 7596 Lightweight 4over6: An Extension to the Dual-Stack Lite Architecture | ||
* RFC 7421 Analysis of the 64-bit Boundary in IPv6 Addressing ([http://www.bortzmeyer.org/7421.html Bortzmeyer]) | * RFC 7421 Analysis of the 64-bit Boundary in IPv6 Addressing ([http://www.bortzmeyer.org/7421.html Bortzmeyer]) | ||
+ | * RFC 7411 Multicast Listener Extensions for Mobile IPv6 (MIPv6) and Proxy Mobile IPv6 (PMIPv6) Fast Handovers | ||
* RFC 7404 Using Only Link-Local Addressing inside an IPv6 Network ([http://www.bortzmeyer.org/7404.html Bortzmeyer]) | * RFC 7404 Using Only Link-Local Addressing inside an IPv6 Network ([http://www.bortzmeyer.org/7404.html Bortzmeyer]) | ||
* RFC 7381 Enterprise IPv6 Deployment Guidelines ([http://www.bortzmeyer.org/7381 Bortzmeyer]) | * RFC 7381 Enterprise IPv6 Deployment Guidelines ([http://www.bortzmeyer.org/7381 Bortzmeyer]) | ||
− | * RFC | + | * RFC 7368 IPv6 Home Networking Architecture Principles |
* RFC 7346 IPv6 Multicast Address Scopes | * RFC 7346 IPv6 Multicast Address Scopes | ||
+ | * RFC 7269 NAT64 Deployment Options and Experience ([http://www.bortzmeyer.org/7269 Bortzmeyer]) | ||
+ | * RFC 7227 Guidelines for Creating New DHCPv6 Options | ||
* RFC 7225 Discovering NAT64 IPv6 Prefixes Using the Port Control Protocol (PCP) ([http://www.bortzmeyer.org/7225 Bortzmeyer]) | * RFC 7225 Discovering NAT64 IPv6 Prefixes Using the Port Control Protocol (PCP) ([http://www.bortzmeyer.org/7225 Bortzmeyer]) | ||
+ | * RFC 7219 SEcure Neighbor Discovery (SEND) Source Address Validation Improvement (SAVI) | ||
* RFC 7217 A Method for Generating Semantically Opaque Interface Identifiers with IPv6 Stateless Address Autoconfiguration (SLAAC) ([http://www.bortzmeyer.org/7217.html Bortzmeyer]) | * RFC 7217 A Method for Generating Semantically Opaque Interface Identifiers with IPv6 Stateless Address Autoconfiguration (SLAAC) ([http://www.bortzmeyer.org/7217.html Bortzmeyer]) | ||
* RFC 7148 Prefix Delegation Support for Proxy Mobile IPv6 | * RFC 7148 Prefix Delegation Support for Proxy Mobile IPv6 | ||
Line 43: | Line 55: | ||
* RFC 7051 Analysis of Solution Proposals for Hosts to Learn NAT64 Prefix | * 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 7048 Neighbor Unreachability Detection Is Too Impatient | ||
* RFC 7045 Transmission and Processing of IPv6 Extension Headers | * RFC 7045 Transmission and Processing of IPv6 Extension Headers | ||
* RFC 7040 Public IPv4-over-IPv6 Access Network | * RFC 7040 Public IPv4-over-IPv6 Access Network | ||
Line 63: | Line 76: | ||
* RFC 6732 6to4 Provider Managed Tunnels | * RFC 6732 6to4 Provider Managed Tunnels | ||
* RFC 6724 Default Address Selection for Internet Protocol Version 6 (IPv6) ([http://www.bortzmeyer.org/6724.html Bortzmeyer]) | * RFC 6724 Default Address Selection for Internet Protocol Version 6 (IPv6) ([http://www.bortzmeyer.org/6724.html Bortzmeyer]) | ||
+ | * RFC 6611 Mobile IPv6 (MIPv6) Bootstrapping for the Integrated Scenario | ||
* RFC 6586 Experiences from an IPv6-Only Network ([http://www.bortzmeyer.org/6586 Bortzmeyer]) | * RFC 6586 Experiences from an IPv6-Only Network ([http://www.bortzmeyer.org/6586 Bortzmeyer]) | ||
* RFC 6654 Gateway-Initiated IPv6 Rapid Deployment on IPv4 Infrastructures (GI 6rd) | * RFC 6654 Gateway-Initiated IPv6 Rapid Deployment on IPv4 Infrastructures (GI 6rd) | ||
* RFC 6589 Considerations for Transitioning Content to IPv6 ([http://www.bortzmeyer.org/6589 Bortzmeyer]) | * RFC 6589 Considerations for Transitioning Content to IPv6 ([http://www.bortzmeyer.org/6589 Bortzmeyer]) | ||
+ | * RFC 6586 Experiences from an IPv6-Only Network | ||
+ | * RFC 6583 Operational Neighbor Discovery Problems | ||
* RFC 6564 A Uniform Format for IPv6 Extension Headers | * RFC 6564 A Uniform Format for IPv6 Extension Headers | ||
* RFC 6555 Happy Eyeballs: Success with Dual-Stack Hosts ([http://www.bortzmeyer.org/6555.html Bortzmeyer]) | * RFC 6555 Happy Eyeballs: Success with Dual-Stack Hosts ([http://www.bortzmeyer.org/6555.html Bortzmeyer]) | ||
− | |||
* RFC 6543 Reserved IPv6 Interface Identifier for Proxy Mobile IPv6 | * RFC 6543 Reserved IPv6 Interface Identifier for Proxy Mobile IPv6 | ||
+ | * RFC 6540 IPv6 Support Required for All IP-Capable Nodes | ||
+ | * RFC 6496 Secure Proxy ND Support for SEcure Neighbor Discovery (SEND) | ||
+ | * RFC 6437 IPv6 Flow Label Specification, voir aussi RFC 6438, RFC 6436 | ||
+ | * RFC 6434 IPv6 Node Requirements | ||
* RFC 6384 An FTP Application Layer Gateway (ALG) for IPv6-to-IPv4 Translation | * RFC 6384 An FTP Application Layer Gateway (ALG) for IPv6-to-IPv4 Translation | ||
* <strike>RFC 6346 The Address plus Port (A+P) Approach to the IPv4 Address Shortage ([http://www.bortzmeyer.org/6346.html Bortzmeyer])</strike> | * <strike>RFC 6346 The Address plus Port (A+P) Approach to the IPv4 Address Shortage ([http://www.bortzmeyer.org/6346.html Bortzmeyer])</strike> | ||
* RFC 6343 Advisory Guidelines for 6to4 Deployment | * RFC 6343 Advisory Guidelines for 6to4 Deployment | ||
+ | * RFC 6342 Mobile Networks Considerations for IPv6 Deployment, aussi RFC 6212 | ||
* RFC 6334 Dynamic Host Configuration Protocol for IPv6 (DHCPv6) Option for Dual-Stack Lite ([http://www.bortzmeyer.org/6334 Bortzmeyer]) | * 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 ([http://www.bortzmeyer.org/6333 Bortzmeyer]) | * 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 | * RFC 6324 Routing Loop Attack Using IPv6 Automatic Tunnels | ||
+ | * RFC 6301 A Survey of Mobility Support in the Internet | ||
* RFC 6294 Survey of Proposed Use Cases for the IPv6 Flow Label | * RFC 6294 Survey of Proposed Use Cases for the IPv6 Flow Label | ||
* RFC 6275 Mobility Support in IPv6 | * RFC 6275 Mobility Support in IPv6 | ||
+ | * RFC 6221 Lightweight DHCPv6 Relay Agent | ||
+ | * RFC 6204 Basic Requirements for IPv6 Customer Edge Routers | ||
* RFC 6180 Guidelines for Using IPv6 Transition Mechanisms during IPv6 Deployment ([http://www.bortzmeyer.org/6180 Bortzmeyer]) | * RFC 6180 Guidelines for Using IPv6 Transition Mechanisms during IPv6 Deployment ([http://www.bortzmeyer.org/6180 Bortzmeyer]) | ||
* RFC 6177 IPv6 Address Assignment to End Sites ([http://www.bortzmeyer.org/6177.html Bortzmeyer]) | * RFC 6177 IPv6 Address Assignment to End Sites ([http://www.bortzmeyer.org/6177.html Bortzmeyer]) | ||
Line 86: | Line 109: | ||
* RFC 6144 Framework for IPv4/IPv6 Translation ([http://www.bortzmeyer.org/6144 Bortzmeyer]) | * RFC 6144 Framework for IPv4/IPv6 Translation ([http://www.bortzmeyer.org/6144 Bortzmeyer]) | ||
* RFC 6127 IPv4 Run-Out and IPv4-IPv6 Co-Existence Scenarios | * RFC 6127 IPv4 Run-Out and IPv4-IPv6 Co-Existence Scenarios | ||
+ | * RFC 6106 IPv6 Router Advertisement Options for DNS Configuration | ||
* RFC 6104: Rogue IPv6 Router Advertisement Problem Statement | * RFC 6104: Rogue IPv6 Router Advertisement Problem Statement | ||
* RFC 6092: Recommended Simple Security Capabilities in Customer Premises Equipment for Providing Residential IPv6 Internet Service [http://www.bortzmeyer.org/6092 Bortzmeyer]) | * RFC 6092: Recommended Simple Security Capabilities in Customer Premises Equipment for Providing Residential IPv6 Internet Service [http://www.bortzmeyer.org/6092 Bortzmeyer]) | ||
Line 105: | Line 129: | ||
* RFC 4944 Transmission of IPv6 Packets over IEEE 802.15.4 Networks | * RFC 4944 Transmission of IPv6 Packets over IEEE 802.15.4 Networks | ||
* RFC 4925 Softwire Problem Statement ([http://www.bortzmeyer.org/4925 Bortzmeyer]) | * RFC 4925 Softwire Problem Statement ([http://www.bortzmeyer.org/4925 Bortzmeyer]) | ||
− | |||
* RFC 4864 Local Network Protection for IPv6 ([http://www.bortzmeyer.org/4864 Bortzmeyer]) | * RFC 4864 Local Network Protection for IPv6 ([http://www.bortzmeyer.org/4864 Bortzmeyer]) | ||
+ | * RFC 4862 IPv6 Stateless Address Autoconfiguration | ||
+ | * RFC 4821 Packetization Layer Path MTU Discovery ([[http://www.bortzmeyer.org/4821.html Bortzmeyer]]) | ||
* RFC 4380 Teredo: Tunneling IPv6 over UDP through Network Address Translations (NATs) | * RFC 4380 Teredo: Tunneling IPv6 over UDP through Network Address Translations (NATs) | ||
* RFC 4213 Transition Mechanisms for IPv6 Hosts and Routers ([http://www.bortzmeyer.org/4213 Bortzmeyer]) | * RFC 4213 Transition Mechanisms for IPv6 Hosts and Routers ([http://www.bortzmeyer.org/4213 Bortzmeyer]) | ||
Line 150: | Line 175: | ||
* [http://bcop.nanog.org/images/6/62/BCOP-IPv6_Subnetting.pdf NANOG BCOP IPv6 Subnetting] | * [http://bcop.nanog.org/images/6/62/BCOP-IPv6_Subnetting.pdf NANOG BCOP IPv6 Subnetting] | ||
* http://www.cabrillo.edu/~rgraziani/ipv6.html (Un des meilleurs sites dédié à IPv6) | * http://www.cabrillo.edu/~rgraziani/ipv6.html (Un des meilleurs sites dédié à IPv6) | ||
− | |||
− | |||
===vidéo=== | ===vidéo=== | ||
Line 158: | Line 181: | ||
* [https://www.youtube.com/results?search_query=alantalkstech Vidéos alantalkstech sur Youtube] de spirent | * [https://www.youtube.com/results?search_query=alantalkstech Vidéos alantalkstech sur Youtube] de spirent | ||
* [https://www.youtube.com/results?search_query=IPv6+Ipv4&search_sort=video_view_count Les vidéos IPv6 sur Youtube] | * [https://www.youtube.com/results?search_query=IPv6+Ipv4&search_sort=video_view_count Les vidéos IPv6 sur Youtube] | ||
+ | * [https://www.ripe.net/support/training/videos/ipv6/transition-mechanisms IPv6 Transition Mechanisms] by RIPE | ||
=== Presse. - rapport === | === Presse. - rapport === | ||
Line 167: | Line 191: | ||
*[https://www.zdnet.fr/pratique/quelles-recommandations-pour-migrer-vers-ipv6-39860280.htm Quelques recommandations pour migrer vers l'IPv6] zdnet octobre 2019 | *[https://www.zdnet.fr/pratique/quelles-recommandations-pour-migrer-vers-ipv6-39860280.htm Quelques recommandations pour migrer vers l'IPv6] zdnet octobre 2019 | ||
* [https://www.universfreebox.com/article/51128/IPV4-la-penurie-s-accelere-moins-de-3-millions-d-adresses-disponibles IPV4 : la pénurie s’accélère, moins de 3 millions d’adresses disponibles] Univers FreeBox Juillet 2019 | * [https://www.universfreebox.com/article/51128/IPV4-la-penurie-s-accelere-moins-de-3-millions-d-adresses-disponibles IPV4 : la pénurie s’accélère, moins de 3 millions d’adresses disponibles] Univers FreeBox Juillet 2019 | ||
− | * [https://www.lemagit.fr/actualites/252468059/Penurie-IPv4-comment-lInternet-europeen-sombre-dans-les-magouilles Pénurie IPv4 : comment l’Internet européen sombre dans les magouilles] LeMagIT Aout 2019 | + | * [https://www.lemagit.fr/actualites/252468059/Penurie-IPv4-comment-lInternet-europeen-sombre-dans-les-magouilles Pénurie IPv4 : comment l’Internet européen sombre dans les magouilles] LeMagIT Aout 2019<br>Une critique d'IPv6 |
− | Une critique d'IPv6 | + | * Zergy (2015) Article en ligne [http://blog.zergy.net/index.php?article2/ipocalypse Ipocalypse] |
+ | * Col, P. (2016). ZDNet. [http://www.zdnet.fr/actualites/ipv6-avertissement-solennel-du-ripe-39837614.htm IPv6 : avertissement solennel du RIPE]. | ||
+ | |||
+ | === Internet Usage === | ||
+ | |||
+ | * Cisco 2018-2023 [https://www.cisco.com/c/en/us/solutions/collateral/executive-perspectives/annual-internet-report/white-paper-c11-741490.html Cisco Annual Internet Report] | ||
+ | |||
+ | * Baromètre annuel de la transition vers IPv6 en France (ARCEP - 2021) [https://www.arcep.fr/cartes-et-donnees/nos-publications-chiffrees/transition-ipv6/barometre-annuel-de-la-transition-vers-ipv6-en-france.html Lien] | ||
=== TP === | === TP === | ||
* JOOL [http://jool.mx/en/index.html] un code alternatif à Tayga (NAT64) | * JOOL [http://jool.mx/en/index.html] un code alternatif à Tayga (NAT64) |
Latest revision as of 06:49, 4 May 2022
Contents
Ressources bibliographiques
Articles
- Bernstein, Daniel J. The IPv6 mess.
- . Cui Y., Wu P., Xu M., et al., “4over6: Network Layer Virtualization for IPv4-IPv6 Coexistence,” IEEE Network, October 2012.
Livres
- Graziani, R. (2012). Ed.: Cisco Press. BookOnLine IPv6 Fundamentals: A Straightforward Approach to Understanding IPv6
- liste sur la page de Pascal Anelli
- Migrating to IPv6: A Practical Guide to Implementing IPv6 in Mobile and FIxed network Par Marc Blanchet
IETF WG
RFC
Référence barrée si reprise dans une séquence
- RFC 8956 Dissemination of Flow Specification Rules for IPv6
- RFC 8883 ICMPv6 Errors for Discarding Packets Due to Processing Limits
- RFC 8781 Discovering PREF64 in Router Advertisements
- RFC 8754 on IPv6 Segment Routing Header (SRH)
- RFC 8504: IPv6 Node Requirements(Bortzmeyer)
- RFC 8501: Reverse DNS in IPv6 for Internet Service Providers (Bortzmeyer)
- RFC 8415: Dynamic Host Configuration Protocol for IPv6 (DHCPv6) (Bortzmeyer)
- RFC 8201 Path MTU Discovery for IP version 6 (Bortzmeyer)
- RFC 8200 Internet Protocol, Version 6 (IPv6) Specification (Bortzmeyer)
- RFC 8021: Generation of IPv6 Atomic Fragments Considered Harmful (Bortzmeyer)
- RFC 7608 IPv6 Prefix Length Recommendation for Forwarding
- RFC 7600 IPv4 Residual Deployment via IPv6 - A Stateless Solution (4rd)
- RFC 7599 Mapping of Address and Port using Translation (MAP-T)
- RFC 7596 Lightweight 4over6: An Extension to the Dual-Stack Lite Architecture
- RFC 7421 Analysis of the 64-bit Boundary in IPv6 Addressing (Bortzmeyer)
- RFC 7411 Multicast Listener Extensions for Mobile IPv6 (MIPv6) and Proxy Mobile IPv6 (PMIPv6) Fast Handovers
- RFC 7404 Using Only Link-Local Addressing inside an IPv6 Network (Bortzmeyer)
- RFC 7381 Enterprise IPv6 Deployment Guidelines (Bortzmeyer)
- RFC 7368 IPv6 Home Networking Architecture Principles
- RFC 7346 IPv6 Multicast Address Scopes
- RFC 7269 NAT64 Deployment Options and Experience (Bortzmeyer)
- RFC 7227 Guidelines for Creating New DHCPv6 Options
- RFC 7225 Discovering NAT64 IPv6 Prefixes Using the Port Control Protocol (PCP) (Bortzmeyer)
- RFC 7219 SEcure Neighbor Discovery (SEND) Source Address Validation Improvement (SAVI)
- RFC 7217 A Method for Generating Semantically Opaque Interface Identifiers with IPv6 Stateless Address Autoconfiguration (SLAAC) (Bortzmeyer)
- RFC 7148 Prefix Delegation Support for Proxy Mobile IPv6
- RFC 7136 Significance of IPv6 Interface Identifiers (Bortzmeyer)
- RFC 7123 Security Implications of IPv6 on IPv4 Networks (Bortzmeyer)
- RFC 7112 Implications of Oversized IPv6 Header Chains
- RFC 7098 Using the IPv6 Flow Label for Load Balancing in Server Farms
- RFC 7084 Basic Requirements for IPv6 Customer Edge Routers
- RFC 7059 A Comparison of IPv6-over-IPv4 Tunnel Mechanisms (Bortzmeyer)
- RFC 7051 Analysis of Solution Proposals for Hosts to Learn NAT64 Prefix
- RFC 7050 Discovery of the IPv6 Prefix Used for IPv6 Address Synthesis (Bortzmeyer)
- RFC 7048 Neighbor Unreachability Detection Is Too Impatient
- RFC 7045 Transmission and Processing of IPv6 Extension Headers
- RFC 7040 Public IPv4-over-IPv6 Access Network
- RFC 7010 IPv6 Site Renumbering Gap Analysis (Bortzmeyer)
- RFC 6980 Security Implications of IPv6 Fragmentation with IPv6 Neighbor Discovery
- RFC 6948 Some Measurements on World IPv6 Day from an End-User Perspective (Bortzmeyer)
- RFC 6946 Processing of IPv6 "Atomic" Fragments
- RFC 6936 Applicability Statement for the Use of IPv6 UDP Datagrams with Zero Checksums
- RFC 6935 IPv6 and UDP Checksums for Tunneled Packets (Bortzmeyer)
- RFC 6908 Deployment Considerations for Dual-Stack Lite (Bortzmeyer)
- RFC 6890 Special-Purpose IP Address Registries (Bortzmeyer)
- RFC 6889 Analysis of Stateful 64 Translation
- RFC 6879 IPv6 Enterprise Network Renumbering Scenarios, Considerations, and Methods (Bortzmeyer)
- RFC 6877 464XLAT: Combination of Stateful and Stateless Translation
- RFC 6874 Representing IPv6 Zone Identifiers in Address Literals and Uniform Resource Identifiers (Bortzmeyer)
- RFC 6866 Problem Statement for Renumbering IPv6 Hosts with Static Addresses in Enterprise Networks (Bortzmeyer)
- RFC 6791 Stateless Source Address Mapping for ICMPv6 Packets
- RFC 6782 Wireline Incremental IPv6 (Bortzmeyer)
- RFC 6752 Issues with Private IP Addressing in the Internet
- RFC 6732 6to4 Provider Managed Tunnels
- RFC 6724 Default Address Selection for Internet Protocol Version 6 (IPv6) (Bortzmeyer)
- RFC 6611 Mobile IPv6 (MIPv6) Bootstrapping for the Integrated Scenario
- RFC 6586 Experiences from an IPv6-Only Network (Bortzmeyer)
- RFC 6654 Gateway-Initiated IPv6 Rapid Deployment on IPv4 Infrastructures (GI 6rd)
- RFC 6589 Considerations for Transitioning Content to IPv6 (Bortzmeyer)
- RFC 6586 Experiences from an IPv6-Only Network
- RFC 6583 Operational Neighbor Discovery Problems
- RFC 6564 A Uniform Format for IPv6 Extension Headers
- RFC 6555 Happy Eyeballs: Success with Dual-Stack Hosts (Bortzmeyer)
- RFC 6543 Reserved IPv6 Interface Identifier for Proxy Mobile IPv6
- RFC 6540 IPv6 Support Required for All IP-Capable Nodes
- RFC 6496 Secure Proxy ND Support for SEcure Neighbor Discovery (SEND)
- RFC 6437 IPv6 Flow Label Specification, voir aussi RFC 6438, RFC 6436
- RFC 6434 IPv6 Node Requirements
- RFC 6384 An FTP Application Layer Gateway (ALG) for IPv6-to-IPv4 Translation
-
RFC 6346 The Address plus Port (A+P) Approach to the IPv4 Address Shortage (Bortzmeyer) - RFC 6343 Advisory Guidelines for 6to4 Deployment
- RFC 6342 Mobile Networks Considerations for IPv6 Deployment, aussi RFC 6212
- RFC 6334 Dynamic Host Configuration Protocol for IPv6 (DHCPv6) Option for Dual-Stack Lite (Bortzmeyer)
- RFC 6333 Dual-Stack Lite Broadband Deployments Following IPv4 Exhaustion (Bortzmeyer)
- RFC 6324 Routing Loop Attack Using IPv6 Automatic Tunnels
- RFC 6301 A Survey of Mobility Support in the Internet
- RFC 6294 Survey of Proposed Use Cases for the IPv6 Flow Label
- RFC 6275 Mobility Support in IPv6
- RFC 6221 Lightweight DHCPv6 Relay Agent
- RFC 6204 Basic Requirements for IPv6 Customer Edge Routers
- RFC 6180 Guidelines for Using IPv6 Transition Mechanisms during IPv6 Deployment (Bortzmeyer)
- RFC 6177 IPv6 Address Assignment to End Sites (Bortzmeyer)
- RFC 6164 Using 127-Bit IPv6 Prefixes on Inter-Router Links (Bortzmeyer)
- RFC 6147 DNS64: DNS Extensions for Network Address Translation from IPv6 Clients to IPv4 Servers (Bortzmeyer)
- RFC 6146 Stateful NAT64: Network Address and Protocol Translation from IPv6 Clients to IPv4 Servers (Bortzmeyer)
- RFC 6145 IP/ICMP Translation Algorithm (Bortzmeyer)
- RFC 6144 Framework for IPv4/IPv6 Translation (Bortzmeyer)
- RFC 6127 IPv4 Run-Out and IPv4-IPv6 Co-Existence Scenarios
- RFC 6106 IPv6 Router Advertisement Options for DNS Configuration
- RFC 6104: Rogue IPv6 Router Advertisement Problem Statement
- RFC 6092: Recommended Simple Security Capabilities in Customer Premises Equipment for Providing Residential IPv6 Internet Service Bortzmeyer)
- RFC 6085 Address Mapping of IPv6 Multicast Packets on Ethernet
- RFC 6081 Teredo Extensions
- RFC 6052 IPv6 Addressing of IPv4/IPv6 Translators (Bortzmeyer)
- RFC 6036 Emerging Service Provider Scenarios for IPv6 Deployment (Bortzmeyer)
- RFC 5952 A Recommendation for IPv6 Address Text Representation (Bortzmeyer)
- RFC 5942 IPv6 Subnet Model: The Relationship between Links and Subnet Prefixes
- RFC 5902 IAB Thoughts on IPv6 Network Address Translation (Bortzmeyer)
- RFC 5722 Handling of Overlapping IPv6 Fragments
- RFC 5569 IPv6 Rapid Deployment on IPv4 Infrastructures (6rd) (Bortzmeyer)
- RFC 5572 IPv6 Tunnel Broker with the Tunnel Setup Protocol (TSP) (Bortzmeyer)
- RFC 5453 Reserved IPv6 Interface Identifiers (Bortzmeyer)
- RFC 5375 IPv6 Unicast Address Assignment Considerations (Bortzmeyer)
- RFC 5214 Intra-Site Automatic Tunnel Addressing Protocol (ISATAP)
- RFC 5156 Special-Use IPv6 Addresses (Bortzmeyer)
- RFC 4966 Reasons to Move the Network Address Translator - Protocol Translator (NAT-PT) to Historic Status
- RFC 4944 Transmission of IPv6 Packets over IEEE 802.15.4 Networks
- RFC 4925 Softwire Problem Statement (Bortzmeyer)
- RFC 4864 Local Network Protection for IPv6 (Bortzmeyer)
- RFC 4862 IPv6 Stateless Address Autoconfiguration
- RFC 4821 Packetization Layer Path MTU Discovery ([Bortzmeyer])
- RFC 4380 Teredo: Tunneling IPv6 over UDP through Network Address Translations (NATs)
- RFC 4213 Transition Mechanisms for IPv6 Hosts and Routers (Bortzmeyer)
Support du G6
- Cours IPv6 déploiement de P. Anelli (pdf)
- Chapitre du livre Intégration du G6 ici
- Slides du G6 sur l'Intégration (pdf)
- La base des slides du G6 ( pdf )
- Formation G6 par L Toutain [1]
- Livre "IPv6, Théorie et Pratique"
- Support de cours G6
Références générales
- Tutorials 6Deploy-2
- Support TutTelNet IPv6 (Telecom Lille)
- Cours IPv6 de P. Anelli (IUT R&T) lien
- Cours de RIPE
- Dossier IPv6 par l'Internet Society: cours stats, video, how-to, etc.
- Mécanismes de Transition par IPv6 Act Now
- Les mécanismes de Transition par RIPE (des liens, des vidéos)
- isatap.org Les ressources pour ISATAP
- NANOG Présentations NANOG sur IPv6
- The ISP Column
- Nanog: IPv6atGoogle
- Moving to IPv6 (Nanog) pdf
- IPv6 to Standard url
- The IPv6 Portal url
- Lothaire Yarding "Yet Another Ipv6 to the Next Generation", Université de Lorraine, Lothaire, par Julien Vaubourg Lothaire Yarding
- LinkedIn Learning : Découvrir IPv6 (Cours conçu par : Rudi Bruchez)
- A titre de demonstration, il y a ce site: http://www.fredbovy.com/modulation/Modules.html qui présente quelques animations
Adressage
- http://www.cbtnuggets.com/it-training-videos/course/cbtn_ipv6 (Vidéos comprehensives mais non-gratuites de Keith )
- https://www.youtube.com/channel/UCrCh8p6p2UZC18vqSBhN_sA (chaîne Youtube de Keith)
- Keith Barker "Make Sense of an IPv6 Address"
- Keith Barker "Lov'n the Link Local Address"
- IETF Draft - Analysis of the 64-bit Boundary in IPv6 Addressing
- Do you really need an IPv6 subnet calculator ?
- Exercice du RIPE sur la définition d'un plan d'adressage
- CISCO. (2008). IPv6 Addressing White Paper.
- NANOG BCOP IPv6 Subnetting
- http://www.cabrillo.edu/~rgraziani/ipv6.html (Un des meilleurs sites dédié à IPv6)
vidéo
- IPv6 pour les nuls une présentation faite par des personnels de Microsoft dans un techday.
- Spirent video sur la transition et globalement les vidéos you tube liées
- Vidéos alantalkstech sur Youtube de spirent
- Les vidéos IPv6 sur Youtube
- IPv6 Transition Mechanisms by RIPE
Presse. - rapport
- Kubernetes Warms Up to IPv6
- IPv6 en France : le régulateur des télécoms appelle à s’y mettre de « toute urgence » Numerama juin 2019
- Suivi de l'épuisement des adresses IPv4 par l'ARCEP
- Une "Task force" créée par l'Arcep zdnet octobre 2019
- Quelques recommandations pour migrer vers l'IPv6 zdnet octobre 2019
- IPV4 : la pénurie s’accélère, moins de 3 millions d’adresses disponibles Univers FreeBox Juillet 2019
- Pénurie IPv4 : comment l’Internet européen sombre dans les magouilles LeMagIT Aout 2019
Une critique d'IPv6 - Zergy (2015) Article en ligne Ipocalypse
- Col, P. (2016). ZDNet. IPv6 : avertissement solennel du RIPE.
Internet Usage
- Cisco 2018-2023 Cisco Annual Internet Report
- Baromètre annuel de la transition vers IPv6 en France (ARCEP - 2021) Lien
TP
- JOOL [2] un code alternatif à Tayga (NAT64)