This document references:
IETF RFC 2931 - DNS Request and Transaction Signatures ( SIG(0)s )
Published by IETF
on
September 1, 2000
Extensions to the Domain Name System (DNS) are described in [RFC 2535] that can provide data origin and transaction integrity and authentication to security aware resolvers and applications through...
This document references:
IETF RFC 5198 - Unicode Format for Network Interchange
Published by IETF
on
March 1, 2008
The Internet today is in need of a standardized form for the transmission of internationalized "text" information, paralleling the specifications for the use of ASCII that date from the early days of...
This document references:
IETF RFC 8484 - DNS Queries over HTTPS (DoH)
Published by IETF
on
October 1, 2018
This document defines a protocol for sending DNS queries and getting DNS responses over HTTPS. Each DNS query-response pair is mapped into an HTTP exchange.
This document references:
IETF RFC 8767 - Serving Stale Data to Improve DNS Resiliency
Published by IETF
on
March 1, 2020
Abstract This document defines a method (serve-stale) for recursive resolvers to use stale DNS data to avoid outages when authoritative nameservers cannot be reached to refresh expired data. One of...
This document is referenced by:
RFC 9103 - DNS Zone Transfer over TLS
Published by IETF
on
August 1, 2021
Abstract DNS zone transfers are transmitted in cleartext, which gives attackers the opportunity to collect the content of a zone by eavesdropping on network connections. The DNS Transaction Signature...
This document is referenced by:
RFC 9250 - DNS over Dedicated QUIC Connections
Published by IETF
on
May 1, 2022
Abstract This document describes the use of QUIC to provide transport confidentiality for DNS. The encryption provided by QUIC has similar properties to those provided by TLS, while QUIC transport...
This document is referenced by:
RFC 9209 - The Proxy-Status HTTP Response Header Field
Published by IETF
on
June 1, 2022
Abstract This document defines the Proxy-Status HTTP response field to convey the details of an intermediary's response handling, including generated errors.
This document is referenced by:
RFC 9520 - Negative Caching of DNS Resolution Failures
Published by IETF
on
December 1, 2023
In the DNS, resolvers employ caching to reduce both latency for end users and load on authoritative name servers. The process of resolution may result in one of three types of responses: (1) a...