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References from draft-ietf-v6ops-ipv6-ehs-packet-drops

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.

Reference type help

Document	Title	Status	Type
BCP 220	References Referenced by		normatively references
BCP 230	References Referenced by		informatively references
draft-ietf-opsec-ipv6-eh-filtering	Recommendations on the Filtering of IPv6 Packets Containing IPv6 Extension Headers at Transit Routers References Referenced by	Informational	informatively references
draft-kampanakis-6man-ipv6-eh-parsing	Implementation Guidelines for parsing IPv6 Extension Headers References Referenced by		informatively references
draft-taylor-v6ops-fragdrop	Why Operators Filter Fragments and What It Implies References Referenced by		informatively references
draft-wkumari-long-headers	Operational Issues Associated With Long IPv6 Header Chains References Referenced by		informatively references
RFC 2460	Internet Protocol, Version 6 (IPv6) Specification References Referenced by	Draft Standard	informatively references
RFC 5095	Deprecation of Type 0 Routing Headers in IPv6 References Referenced by	Proposed Standard	normatively references
RFC 5635	Remote Triggered Black Hole Filtering with Unicast Reverse Path Forwarding (uRPF) References Referenced by	Informational	informatively references
RFC 5722	Handling of Overlapping IPv6 Fragments References Referenced by	Proposed Standard	normatively references
RFC 6192	Protecting the Router Control Plane References Referenced by	Informational	informatively references
RFC 6437	IPv6 Flow Label Specification References Referenced by	Proposed Standard	informatively references
RFC 6438	Using the IPv6 Flow Label for Equal Cost Multipath Routing and Link Aggregation in Tunnels References Referenced by	Proposed Standard	informatively references
RFC 6946	Processing of IPv6 "Atomic" Fragments References Referenced by	Proposed Standard	normatively references
RFC 6980	Security Implications of IPv6 Fragmentation with IPv6 Neighbor Discovery References Referenced by	Proposed Standard	normatively references
RFC 7045	Transmission and Processing of IPv6 Extension Headers References Referenced by	Proposed Standard	informatively references
RFC 7098	Using the IPv6 Flow Label for Load Balancing in Server Farms References Referenced by	Informational	informatively references
RFC 7112	Implications of Oversized IPv6 Header Chains References Referenced by	Proposed Standard	normatively references
RFC 7113	Implementation Advice for IPv6 Router Advertisement Guard (RA-Guard) References Referenced by	Informational	informatively references
RFC 7739	Security Implications of Predictable Fragment Identification Values References Referenced by	Informational	informatively references
RFC 7872	Observations on the Dropping of Packets with IPv6 Extension Headers in the Real World References Referenced by	Informational	informatively references
RFC 8021	Generation of IPv6 Atomic Fragments Considered Harmful References Referenced by	Informational	normatively references
RFC 8200	Internet Protocol, Version 6 (IPv6) Specification References Referenced by	Internet Standard	normatively references
RFC 8504	IPv6 Node Requirements References Referenced by	Best Current Practice	normatively references
RFC 8900	IP Fragmentation Considered Fragile References Referenced by	Best Current Practice	informatively references
RFC 8955	Dissemination of Flow Specification Rules References Referenced by	Proposed Standard	informatively references
RFC 8956	Dissemination of Flow Specification Rules for IPv6 References Referenced by	Proposed Standard	informatively references
STD 86	References Referenced by		normatively references