References to draft-ietf-ipv6-rfc2462bis

These dependencies are extracted using heuristics looking for strings with particular prefixes. Notably, this means that references to I-Ds by title only are not reflected here. If it's really important, please inspect the documents' references sections directly.

Showing RFCs and active Internet-Drafts, sorted by reference type, then document name.

Document Title Status Type Downref
draft-bi-savi-wlan
As rfc4862
A SAVI Solution for WLAN
References Referenced by
normatively references
draft-gont-v6ops-ipv6-addressing-considerations
As rfc4862
IPv6 Addressing Considerations
References Referenced by
normatively references
draft-ietf-6lo-nfc
As rfc4862
Transmission of IPv6 Packets over Near Field Communication
References Referenced by
Proposed Standard normatively references
draft-ietf-6man-grand
As rfc4862
Gratuitous Neighbor Discovery: Creating Neighbor Cache Entries on First-Hop Routers
References Referenced by
Proposed Standard normatively references
draft-ietf-6man-slaac-renum
As rfc4862
Improving the Robustness of Stateless Address Autoconfiguration (SLAAC) to Flash Renumbering Events
References Referenced by
normatively references
draft-ietf-dhc-problem-statement-of-mredhcpv6
As rfc4862
DHCPv6 Extension Practices and Considerations
References Referenced by
Informational normatively references
draft-ietf-v6ops-cpe-slaac-renum
As rfc4862
Improving the Reaction of Customer Edge Routers to IPv6 Renumbering Events
References Referenced by
Best Current Practice normatively references Downref
draft-irtf-pearg-numeric-ids-generation
As rfc4862
On the Generation of Transient Numeric Identifiers
References Referenced by
Informational normatively references
draft-irtf-pearg-numeric-ids-history
As rfc4862
Unfortunate History of Transient Numeric Identifiers
References Referenced by
Informational normatively references
draft-jeong-ipwave-iot-dns-autoconf
As rfc4862
DNS Name Autoconfiguration for Internet-of-Things Devices in IP-Based Vehicular Networks
References Referenced by
normatively references
draft-jeong-ipwave-vehicular-mobility-management
As rfc4862
Vehicular Mobility Management for IP-Based Vehicular Networks
References Referenced by
normatively references
draft-jeong-ipwave-vehicular-neighbor-discovery
As rfc4862
Vehicular Neighbor Discovery for IP-Based Vehicular Networks
References Referenced by
normatively references
draft-mishra-6man-variable-slaac
As rfc4862
SLAAC with prefixes of arbitrary length in PIO (Variable SLAAC)
References Referenced by
normatively references
draft-pthubert-roll-rfc6550bis
As rfc4862
RPL: IPv6 Routing Protocol for Low-Power and Lossy Networks
References Referenced by
normatively references
draft-templin-6man-aero
As rfc4862
Asymmetric Extended Route Optimization (AERO)
References Referenced by
Informational normatively references
draft-templin-6man-omni
As rfc4862
Transmission of IP Packets over Overlay Multilink Network (OMNI) Interfaces
References Referenced by
Informational normatively references
draft-templin-v6ops-pdhost
As rfc4862
IPv6 Prefix Delegation and Multi-Addressing Models
References Referenced by
normatively references
draft-thubert-6man-ipv6-over-wireless
As rfc4862
IPv6 Neighbor Discovery on Wireless Networks
References Referenced by
normatively references
draft-vv-6man-nd-prefix-robustness
As rfc4862
ND Prefix Robustness Improvements
References Referenced by
normatively references
RFC 4941
As rfc4862
Privacy Extensions for Stateless Address Autoconfiguration in IPv6
References Referenced by
Draft Standard normatively references
RFC 4944
As rfc4862
Transmission of IPv6 Packets over IEEE 802.15.4 Networks
References Referenced by
Proposed Standard normatively references
RFC 5006
As rfc4862
IPv6 Router Advertisement Option for DNS Configuration
References Referenced by
Experimental normatively references
RFC 5072
As rfc4862
IP Version 6 over PPP
References Referenced by
Draft Standard normatively references
RFC 5121
As rfc4862
Transmission of IPv6 via the IPv6 Convergence Sublayer over IEEE 802.16 Networks
References Referenced by
Proposed Standard normatively references
RFC 5181
As rfc4862
IPv6 Deployment Scenarios in 802.16 Networks
References Referenced by
Informational normatively references
RFC 5214
As rfc4862
Intra-Site Automatic Tunnel Addressing Protocol (ISATAP)
References Referenced by
Informational normatively references
RFC 5220
As rfc4862
Problem Statement for Default Address Selection in Multi-Prefix Environments: Operational Issues of RFC 3484 Default Rules
References Referenced by
Informational normatively references
RFC 5268
As rfc4862
Mobile IPv6 Fast Handovers
References Referenced by
Proposed Standard normatively references
RFC 5270
As rfc4862
Mobile IPv6 Fast Handovers over IEEE 802.16e Networks
References Referenced by
Informational normatively references
RFC 5534
As rfc4862
Failure Detection and Locator Pair Exploration Protocol for IPv6 Multihoming
References Referenced by
Proposed Standard normatively references
RFC 5558
As rfc4862
Virtual Enterprise Traversal (VET)
References Referenced by
Informational normatively references
RFC 5568
As rfc4862
Mobile IPv6 Fast Handovers
References Referenced by
Proposed Standard normatively references
RFC 5571
As rfc4862
Softwire Hub and Spoke Deployment Framework with Layer Two Tunneling Protocol Version 2 (L2TPv2)
References Referenced by
Proposed Standard normatively references
RFC 5692
As rfc4862
Transmission of IP over Ethernet over IEEE 802.16 Networks
References Referenced by
Proposed Standard normatively references
RFC 5909
As rfc4862
Securing Neighbor Discovery Proxy: Problem Statement
References Referenced by
Informational normatively references
RFC 6106
As rfc4862
IPv6 Router Advertisement Options for DNS Configuration
References Referenced by
Proposed Standard normatively references
RFC 6204
As rfc4862
Basic Requirements for IPv6 Customer Edge Routers
References Referenced by
Informational normatively references
RFC 6275
As rfc4862
Mobility Support in IPv6
References Referenced by
Proposed Standard normatively references
RFC 6434
As rfc4862
IPv6 Node Requirements
References Referenced by
Informational normatively references
RFC 6496
As rfc4862
Secure Proxy ND Support for SEcure Neighbor Discovery (SEND)
References Referenced by
Experimental normatively references
RFC 6550
As rfc4862
RPL: IPv6 Routing Protocol for Low-Power and Lossy Networks
References Referenced by
Proposed Standard normatively references
RFC 6575
As rfc4862
Address Resolution Protocol (ARP) Mediation for IP Interworking of Layer 2 VPNs
References Referenced by
Proposed Standard normatively references
RFC 6583
As rfc4862
Operational Neighbor Discovery Problems
References Referenced by
Informational normatively references
RFC 6629
As rfc4862
Considerations on the Application of the Level 3 Multihoming Shim Protocol for IPv6 (Shim6)
References Referenced by
Informational normatively references
RFC 6706
As rfc4862
Asymmetric Extended Route Optimization (AERO)
References Referenced by
Experimental normatively references
RFC 6724
As rfc4862
Default Address Selection for Internet Protocol Version 6 (IPv6)
References Referenced by
Proposed Standard normatively references
RFC 6741
As rfc4862
Identifier-Locator Network Protocol (ILNP) Engineering Considerations
References Referenced by
Experimental normatively references
RFC 6763
As rfc4862
DNS-Based Service Discovery
References Referenced by
Proposed Standard normatively references
RFC 6775
As rfc4862
Neighbor Discovery Optimization for IPv6 over Low-Power Wireless Personal Area Networks (6LoWPANs)
References Referenced by
Proposed Standard normatively references
RFC 6788
As rfc4862
The Line-Identification Option
References Referenced by
Proposed Standard normatively references
RFC 6879
As rfc4862
IPv6 Enterprise Network Renumbering Scenarios, Considerations, and Methods
References Referenced by
Informational normatively references
RFC 6883
As rfc4862
IPv6 Guidance for Internet Content Providers and Application Service Providers
References Referenced by
Informational normatively references
RFC 6911
As rfc4862
RADIUS Attributes for IPv6 Access Networks
References Referenced by
Proposed Standard normatively references
RFC 6957
As rfc4862
Duplicate Address Detection Proxy
References Referenced by
Proposed Standard normatively references
RFC 6964
As rfc4862
Operational Guidance for IPv6 Deployment in IPv4 Sites Using the Intra-Site Automatic Tunnel Addressing Protocol (ISATAP)
References Referenced by
Informational normatively references
RFC 7010
As rfc4862
IPv6 Site Renumbering Gap Analysis
References Referenced by
Informational normatively references
RFC 7039
As rfc4862
Source Address Validation Improvement (SAVI) Framework
References Referenced by
Informational normatively references
RFC 7066
As rfc4862
IPv6 for Third Generation Partnership Project (3GPP) Cellular Hosts
References Referenced by
Informational normatively references
RFC 7084
As rfc4862
Basic Requirements for IPv6 Customer Edge Routers
References Referenced by
Informational normatively references
RFC 7136
As rfc4862
Significance of IPv6 Interface Identifiers
References Referenced by
Proposed Standard normatively references
RFC 7217
As rfc4862
A Method for Generating Semantically Opaque Interface Identifiers with IPv6 Stateless Address Autoconfiguration (SLAAC)
References Referenced by
Proposed Standard normatively references
RFC 7219
As rfc4862
SEcure Neighbor Discovery (SEND) Source Address Validation Improvement (SAVI)
References Referenced by
Proposed Standard normatively references
RFC 7277
As rfc4862
A YANG Data Model for IP Management
References Referenced by
Proposed Standard normatively references
RFC 7421
As rfc4862
Analysis of the 64-bit Boundary in IPv6 Addressing
References Referenced by
Informational normatively references
RFC 7503
As rfc4862
OSPFv3 Autoconfiguration
References Referenced by
Proposed Standard normatively references
RFC 7527
As rfc4862
Enhanced Duplicate Address Detection
References Referenced by
Proposed Standard normatively references
RFC 7558
As rfc4862
Requirements for Scalable DNS-Based Service Discovery (DNS-SD) / Multicast DNS (mDNS) Extensions
References Referenced by
Informational normatively references
RFC 7600
As rfc4862
IPv4 Residual Deployment via IPv6 - A Stateless Solution (4rd)
References Referenced by
Experimental normatively references
RFC 7668
As rfc4862
IPv6 over BLUETOOTH(R) Low Energy
References Referenced by
Proposed Standard normatively references
RFC 7707
As rfc4862
Network Reconnaissance in IPv6 Networks
References Referenced by
Informational normatively references
RFC 7721
As rfc4862
Security and Privacy Considerations for IPv6 Address Generation Mechanisms
References Referenced by
Informational normatively references
RFC 8049
As rfc4862
YANG Data Model for L3VPN Service Delivery
References Referenced by
Proposed Standard normatively references
RFC 8064
As rfc4862
Recommendation on Stable IPv6 Interface Identifiers
References Referenced by
Proposed Standard normatively references
RFC 8105
As rfc4862
Transmission of IPv6 Packets over Digital Enhanced Cordless Telecommunications (DECT) Ultra Low Energy (ULE)
References Referenced by
Proposed Standard normatively references
RFC 8106
As rfc4862
IPv6 Router Advertisement Options for DNS Configuration
References Referenced by
Proposed Standard normatively references
RFC 8163
As rfc4862
Transmission of IPv6 over Master-Slave/Token-Passing (MS/TP) Networks
References Referenced by
Proposed Standard normatively references
RFC 8191
As rfc4862
Home Network Prefix Renumbering in Proxy Mobile IPv6 (PMIPv6)
References Referenced by
Proposed Standard normatively references
RFC 8273
As rfc4862
Unique IPv6 Prefix per Host
References Referenced by
Informational normatively references
RFC 8299
As rfc4862
YANG Data Model for L3VPN Service Delivery
References Referenced by
Proposed Standard normatively references
RFC 8302
As rfc4862
Transparent Interconnection of Lots of Links (TRILL): ARP and Neighbor Discovery (ND) Optimization
References Referenced by
Proposed Standard normatively references
RFC 8344
As rfc4862
A YANG Data Model for IP Management
References Referenced by
Proposed Standard normatively references
RFC 8415
As rfc4862
Dynamic Host Configuration Protocol for IPv6 (DHCPv6)
References Referenced by
Proposed Standard normatively references
RFC 8475
As rfc4862
Using Conditional Router Advertisements for Enterprise Multihoming
References Referenced by
Informational normatively references
RFC 8501
As rfc4862
Reverse DNS in IPv6 for Internet Service Providers
References Referenced by
Informational normatively references
RFC 8504
As rfc4862
IPv6 Node Requirements
References Referenced by
Best Current Practice normatively references Downref
RFC 8678
As rfc4862
Enterprise Multihoming using Provider-Assigned IPv6 Addresses without Network Prefix Translation: Requirements and Solutions
References Referenced by
Informational normatively references
RFC 8691
As rfc4862
Basic Support for IPv6 Networks Operating Outside the Context of a Basic Service Set over IEEE Std 802.11
References Referenced by
Proposed Standard normatively references
RFC 8766
As rfc4862
Discovery Proxy for Multicast DNS-Based Service Discovery
References Referenced by
Proposed Standard normatively references
RFC 8978
As rfc4862
Reaction of IPv6 Stateless Address Autoconfiguration (SLAAC) to Flash-Renumbering Events
References Referenced by
Informational normatively references
RFC 8981
As rfc4862
Temporary Address Extensions for Stateless Address Autoconfiguration in IPv6
References Referenced by
Proposed Standard normatively references
RFC 8994
As rfc4862
An Autonomic Control Plane (ACP)
References Referenced by
Proposed Standard normatively references
RFC 8995
As rfc4862
Bootstrapping Remote Secure Key Infrastructure (BRSKI)
References Referenced by
Proposed Standard normatively references
RFC 9030
As rfc4862
An Architecture for IPv6 over the Time-Slotted Channel Hopping Mode of IEEE 802.15.4 (6TiSCH)
References Referenced by
Informational normatively references
draft-gao-flexible-session-protocol
As rfc4862
Flexible Session Protocol
References Referenced by
informatively references
draft-ietf-6lo-use-cases
As rfc4862
IPv6 over Constrained Node Networks (6lo) Applicability & Use cases
References Referenced by
informatively references
draft-ietf-bess-evpn-proxy-arp-nd
As rfc4862
Operational Aspects of Proxy-ARP/ND in Ethernet Virtual Private Networks
References Referenced by
Proposed Standard informatively references
draft-ietf-ipwave-vehicular-networking
As rfc4862
IPv6 Wireless Access in Vehicular Environments (IPWAVE): Problem Statement and Use Cases
References Referenced by
Informational informatively references
draft-ietf-mboned-ieee802-mcast-problems
As rfc4862
Multicast Considerations over IEEE 802 Wireless Media
References Referenced by
Informational informatively references
draft-ietf-opsawg-l3sm-l3nm
As rfc4862
A Layer 3 VPN Network YANG Model
References Referenced by
Proposed Standard informatively references
draft-ietf-rift-rift
As rfc4862
RIFT: Routing in Fat Trees
References Referenced by
Proposed Standard informatively references
draft-sctl-advertising-proxy
As rfc4862
Advertising Proxy for DNS-SD Service Registration Protocol
References Referenced by
informatively references
RFC 4861
As rfc4862
Neighbor Discovery for IP version 6 (IPv6)
References Referenced by
Draft Standard informatively references
RFC 5080
As rfc4862
Common Remote Authentication Dial In User Service (RADIUS) Implementation Issues and Suggested Fixes
References Referenced by
Proposed Standard informatively references
RFC 5157
As rfc4862
IPv6 Implications for Network Scanning
References Referenced by
Informational informatively references
RFC 5213
As rfc4862
Proxy Mobile IPv6
References Referenced by
Proposed Standard informatively references
RFC 5375
As rfc4862
IPv6 Unicast Address Assignment Considerations
References Referenced by
Informational informatively references
RFC 5453
As rfc4862
Reserved IPv6 Interface Identifiers
References Referenced by
Proposed Standard informatively references
RFC 5505
As rfc4862
Principles of Internet Host Configuration
References Referenced by
Informational informatively references
RFC 5739
As rfc4862
IPv6 Configuration in Internet Key Exchange Protocol Version 2 (IKEv2)
References Referenced by
Experimental informatively references
RFC 5887
As rfc4862
Renumbering Still Needs Work
References Referenced by
Informational informatively references
RFC 5942
As rfc4862
IPv6 Subnet Model: The Relationship between Links and Subnet Prefixes
References Referenced by
Proposed Standard informatively references
RFC 5991
As rfc4862
Teredo Security Updates
References Referenced by
Proposed Standard informatively references
RFC 6058
As rfc4862
Transient Binding for Proxy Mobile IPv6
References Referenced by
Experimental informatively references
RFC 6059
As rfc4862
Simple Procedures for Detecting Network Attachment in IPv6
References Referenced by
Proposed Standard informatively references
RFC 6104
As rfc4862
Rogue IPv6 Router Advertisement Problem Statement
References Referenced by
Informational informatively references
RFC 6139
As rfc4862
Routing and Addressing in Networks with Global Enterprise Recursion (RANGER) Scenarios
References Referenced by
Informational informatively references
RFC 6214
As rfc4862
Adaptation of RFC 1149 for IPv6
References Referenced by
Informational informatively references
RFC 6272
As rfc4862
Internet Protocols for the Smart Grid
References Referenced by
Informational informatively references
RFC 6459
As rfc4862
IPv6 in 3rd Generation Partnership Project (3GPP) Evolved Packet System (EPS)
References Referenced by
Informational informatively references
RFC 6603
As rfc4862
Prefix Exclude Option for DHCPv6-based Prefix Delegation
References Referenced by
Proposed Standard informatively references
RFC 6620
As rfc4862
FCFS SAVI: First-Come, First-Served Source Address Validation Improvement for Locally Assigned IPv6 Addresses
References Referenced by
Proposed Standard informatively references
RFC 6760
As rfc4862
Requirements for a Protocol to Replace the AppleTalk Name Binding Protocol (NBP)
References Referenced by
Informational informatively references
RFC 6761
As rfc4862
Special-Use Domain Names
References Referenced by
Proposed Standard informatively references
RFC 6762
As rfc4862
Multicast DNS
References Referenced by
Proposed Standard informatively references
RFC 6866
As rfc4862
Problem Statement for Renumbering IPv6 Hosts with Static Addresses in Enterprise Networks
References Referenced by
Informational informatively references
RFC 6959
As rfc4862
Source Address Validation Improvement (SAVI) Threat Scope
References Referenced by
Informational informatively references
RFC 7059
As rfc4862
A Comparison of IPv6-over-IPv4 Tunnel Mechanisms
References Referenced by
Informational informatively references
RFC 7094
As rfc4862
Architectural Considerations of IP Anycast
References Referenced by
Informational informatively references
RFC 7278
As rfc4862
Extending an IPv6 /64 Prefix from a Third Generation Partnership Project (3GPP) Mobile Interface to a LAN Link
References Referenced by
Informational informatively references
RFC 7368
As rfc4862
IPv6 Home Networking Architecture Principles
References Referenced by
Informational informatively references
RFC 7381
As rfc4862
Enterprise IPv6 Deployment Guidelines
References Referenced by
Informational informatively references
RFC 7554
As rfc4862
Using IEEE 802.15.4e Time-Slotted Channel Hopping (TSCH) in the Internet of Things (IoT): Problem Statement
References Referenced by
Informational informatively references
RFC 7576
As rfc4862
General Gap Analysis for Autonomic Networking
References Referenced by
Informational informatively references
RFC 7597
As rfc4862
Mapping of Address and Port with Encapsulation (MAP-E)
References Referenced by
Proposed Standard informatively references
RFC 7599
As rfc4862
Mapping of Address and Port using Translation (MAP-T)
References Referenced by
Proposed Standard informatively references
RFC 7608
As rfc4862
IPv6 Prefix Length Recommendation for Forwarding
References Referenced by
Best Current Practice informatively references
RFC 7757
As rfc4862
Explicit Address Mappings for Stateless IP/ICMP Translation
References Referenced by
Proposed Standard informatively references
RFC 7934
As rfc4862
Host Address Availability Recommendations
References Referenced by
Best Current Practice informatively references
RFC 8028
As rfc4862
First-Hop Router Selection by Hosts in a Multi-Prefix Network
References Referenced by
Proposed Standard informatively references
RFC 8074
As rfc4862
Source Address Validation Improvement (SAVI) for Mixed Address Assignment Methods Scenario
References Referenced by
Proposed Standard informatively references
RFC 8404
As rfc4862
Effects of Pervasive Encryption on Operators
References Referenced by
Informational informatively references
RFC 8505
As rfc4862
Registration Extensions for IPv6 over Low-Power Wireless Personal Area Network (6LoWPAN) Neighbor Discovery
References Referenced by
Proposed Standard informatively references
RFC 8928
As rfc4862
Address-Protected Neighbor Discovery for Low-Power and Lossy Networks
References Referenced by
Proposed Standard informatively references
RFC 8929
As rfc4862
IPv6 Backbone Router
References Referenced by
Proposed Standard informatively references
RFC 9010
As rfc4862
Routing for RPL (Routing Protocol for Low-Power and Lossy Networks) Leaves
References Referenced by
Proposed Standard informatively references