Internet-Draft | DNS Resolver Information | November 2023 |
Reddy & Boucadair | Expires 8 May 2024 | [Page] |
This document specifies a method for DNS resolvers to publish information about themselves. DNS clients can use the resolver information to identify the capabilities of DNS resolvers. How such an information is then used by DNS clients is out of the scope of the document.¶
This note is to be removed before publishing as an RFC.¶
Discussion of this document takes place on the Adaptive DNS Discovery Working Group mailing list (add@ietf.org), which is archived at https://mailarchive.ietf.org/arch/browse/add/.¶
Source for this draft and an issue tracker can be found at https://github.com/boucadair/add-resolver-information.¶
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Historically, DNS stub resolvers communicated with upstream resolvers without needing to know anything about the features supported by these recursive resolvers. As more and more recursive resolvers expose different features that may impact delivered DNS services, means to help stub resolvers to identify the capabilities of resolvers are valuable. Typically, stub resolvers can discover and authenticate encrypted DNS resolvers provided by a local network, for example, using the Discovery of Network-designated Resolvers (DNR) [I-D.ietf-add-dnr] and the Discovery of Designated Resolvers (DDR) [I-D.ietf-add-ddr]. However, these stub resolvers need a mechanism to retrieve information from the discovered recursive resolvers about their capabilities.¶
This document fills that void by specifying a method for stub resolvers to retrieve such information. To that aim, a new resource record (RR) type is defined for stub resolvers to query the recursive resolvers. The information that a resolver might want to expose is defined in Section 5.¶
Retrieved information can be used to feed the server selection procedure. However, that selection procedure is out of the scope of this document.¶
The key words "MUST", "MUST NOT", "REQUIRED", "SHALL", "SHALL NOT", "SHOULD", "SHOULD NOT", "RECOMMENDED", "NOT RECOMMENDED", "MAY", and "OPTIONAL" in this document are to be interpreted as described in BCP 14 [RFC2119] [RFC8174] when, and only when, they appear in all capitals, as shown here.¶
This document makes use of the terms defined in [RFC8499]. The following additional terms are used:¶
Refers to a DNS scheme where DNS exchanges are transported over an encrypted channel between a DNS client and server (e.g., DNS over HTTPS (DoH) [RFC8484], DNS over TLS (DoT) [RFC7858], or DNS over QUIC (DoQ) [RFC9250]).¶
Refers to a DNS resolver that supports any encrypted DNS scheme.¶
A stub resolver that wants to retrieve the resolver information may use the RR type "RESINFO" defined in this document.¶
The content of the RDATA in a response to a RESINFO RR type query is defined in Section 5. If the resolver understands the RESINFO RR type, the RRSet in the Answer section MUST have exactly one record.¶
A DNS client can retrieve the resolver information using the RESINFO RR type and the QNAME of the domain name that is used to authenticate the DNS resolver (referred to as the Authentication Domain Name (ADN) in [I-D.ietf-add-dnr]).¶
If the Special-Use Domain Name "resolver.arpa", defined in [I-D.ietf-add-ddr], is used to discover an encrypted DNS resolver, the client can retrieve the resolver information using the RESINFO RR type and QNAME of "resolver.arpa". If a resolver supports DDR but does not support RESINFO, the client can receive a positive RESINFO response from a legitimate upstream DNS resolver or an attacker. While DNSSEC can be considered as a candidate mechanism to protect against the attack, it is important to note that DNSSEC protection is not possible with "resolver.arpa" due to the lack of uniqueness. To prevent such an attack, resolvers supporting DDR MUST convey the "sig" attribute as defined in Section 5. DNS clients using DDR for encrypted resolver discovery querying for a RESINFO RR MUST validate the signature in the "sig" attribute for data origin authentication using the public key in the certificate, including ensuring that the certificate contains the IP address that DDR uses for validation as per Section 4.2 of [I-D.ietf-add-ddr]. If the signature validation fails, the DNS client MUST reject the RESINFO RR.¶
The resolver information uses the same format as DNS TXT records. The motivation for using the same format as TXT records is to convey a small amount of useful information about a DNS resolver. As a reminder, the format rules for TXT records are defined in the base DNS specification (Section 3.3.14 of [RFC1035]) and further elaborated in the DNS-based Service Discovery (DNS-SD) specification (Section 6.1 of [RFC6763]). The recommendations to limit the TXT record size are discussed in Section 6.1 of [RFC6763].¶
Similar to DNS-SD, the RESINFO RR type uses "key/value" pairs to convey the resolver information. Each "key/value" pair is encoded using the format rules defined in Section 6.3 of [RFC6763]. Using standardized "key/value" syntax within the RESINFO RR type makes it easier for future keys to be defined. If a DNS client sees unknown keys in a RESINFO RR type, it MUST silently ignore them. The same rules for the keys as those defined in Section 6.4 of [RFC6763] MUST be followed for RESINFO.¶
Keys MUST either be defined in the IANA registry (Section 7.2) or begin with the substring "temp-" for names defined for local use only.¶
The following resolver information keys are defined:¶
If the DNS resolver supports QNAME minimisation [RFC9156] to improve DNS privacy, the key is present. Note that, as per the rules for the keys defined in Section 6.4 of [RFC6763], if there is no '=' in a key, then it is a boolean attribute, simply identified as being present, with no value.¶
This is an optional attribute.¶
If the DNS resolver supports extended DNS errors (EDE) option [RFC8914] to return additional information about the cause of DNS errors, the value of this key lists the possible extended DNS error codes that can be returned by this DNS resolver. When multiple values are present, these values MUST be comma-separated.¶
This is an optional attribute.¶
An URL that points to the generic unstructured resolver information (e.g., DoH APIs supported, possible HTTP status codes returned by the DoH server, how to report a problem) for troubleshooting purposes.¶
The server MUST support the content-type 'text/html'. The DNS client MUST reject the URL if the scheme is not "https". The URL SHOULD be treated only as diagnostic information for IT staff. It is not intended for end user consumption as the URL can possibily provide misleading information. A DNS client MAY choose to display the URL to the end user, if and only if the encrypted resolver has sufficient reputation, according to some local policy (e.g., user configuration, administrative configuration, or a built-in list of respectable resolvers).¶
This is an optional attribute. For example, a DoT server may not want to host an HTTPS server.¶
It contains the signature of the RESINFO RR excluding the "sig"
attribute. The signature is generated by the encrypted DNS
resolver using all of the attributes in the RESINFO RR except the "sig" attribute.
The signature algorithm MUST be compatible with the public key in the DNS resolver's
end-entity certificate. As a reminder, the server's end-entity certificate's
public key will be compatible with the selected authentication algorithm from
the client's "signature_algorithms" TLS extension (Section 4.4.2.2 of [RFC8446]).¶
This is an optional attribute.¶
New keys can be defined as per the procedure defined in Section 7.2.¶
Figure 1 shows an example of a published resolver information record:¶
To prevent DNS response forgery attacks, DNS clients using DNR MUST employ one of the following measures:¶
Establish an authenticated secure connection to the DNS resolver.¶
Implement local DNSSEC validation (Section 10 of [RFC8499]) to verify the authenticity of the resolver information.¶
In order to prevent DNS response forgery attacks, DNS clients using DDR MUST perform the validation explained in Section 3 for data origin authentication of RESINFO RR.¶
Note to the RFC Editor: Please update "RFCXXXX" occurences with the RFC number to be assigned to this document.¶
This document requests IANA to update this entry from the "Resource Record (RR) TYPEs" registry of the "Domain Name System (DNS) Parameters" registry group available at [RRTYPE]:¶
Type: RESINFO Value: 261 Meaning: Resolver Information as Key/Value Pairs Reference: RFCXXXX¶
This document requests IANA to create a new registry entitled "DNS Resolver Information Keys" under the "Domain Name System (DNS) Parameters" registry group ([IANA-DNS]). This new registry contains definitions of the keys that can be used to provide the resolver information.¶
The registration procedure is Specification Required (Section 4.6 of [RFC8126]).¶
The structure of the registry is as follows:¶
The key name. The name MUST conform to the definition in Section 4 of this document. The IANA registry MUST NOT register names that begin with "temp-", so these names can be used freely by any implementer.¶
The type of the value to be used in the key.¶
A description of the registered key.¶
The reference specification for the registered element.¶
The initial content of this registry is provided in Table 1.¶
Name | Value Type | Description | Specification |
---|---|---|---|
qnamemin | None | The presence of the key name indicates that QNAME minimization is enabled | RFCXXXX |
exterr | 16-bit unsigned integer | Lists the set of supported extended DNS errors. It must be an INFO-CODE decimal value in the "Extended DNS Error Codes" registry. | RFCXXXX |
infourl | string | Provides an URL that points to an unstructured resolver information that is used for troubleshooting | RFCXXXX |
sig | binary | Includes a signature of RESINFO RR for data origin authentication | RFCXXXX |
This specification leverages the work that has been documented in [I-D.pp-add-resinfo].¶
Thanks to Tommy Jensen, Vittorio Bertola, Vinny Parla, Chris Box, Ben Schwartz, Tony Finch, Daniel Kahn Gillmor, Eric Rescorla, Shashank Jain, Florian Obser, Richard Baldry, and Martin Thomson for the discussion and comments.¶
Thanks to Mark Andrews, Joe Abley, Paul Wouters, Tim Wicinski, and Steffen Nurpmeso for the discussion on the RR formatting rules.¶
Thanks to Tommy Jensen for the Shepherd review.¶
Thanks to Johan Stenstam for the dns-dir review and Ray Bellis for the RRTYPE allocation review.¶