| Network Working Group | D. Crocker |
| Internet-Draft | Brandenburg InternetWorking |
| Intended status: Best Current Practice | March 5, 2017 |
| Expires: September 6, 2017 |
DNS Scoped Data Through '_Underscore' Attribute Leaves
draft-ietf-dnsop-attrleaf-01
Historically, any DNS RR may occur for any domain name. Recent additions have defined DNS leaf nodes that contain a reserved node name, beginning with an underscore. The underscore construct is used to define a semantic scope for DNS records that are associated with the parent domain. This specification explores the nature of this DNS usage and defines the "underscore names" registry with IANA.
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** This is merely a re-submission of the -00 version, to re-initiate discussion. /Dave
The core DNS technical specifications assign no semantics to domain names or their parts, and no constraints upon which resource records (RRs) are permitted to be associated with particular names. Over time, some leaf node names, such as "www" and "ftp" have come to imply support for particular services, but this is a matter of operational convention, rather than defined protocol semantics . This freedom in the basic technology has permitted a wide range of administrative and semantic policies to be used -- in parallel. Data semantics have been limited to the specification of particular resource records, on the expectation that new ones would be added as needed.
As an alternative to defining new RRs, some DNS service enhancements have specified a restricted scope for the occurrence of particular resource records. That scope is a leaf node, within which the uses of specific resource records can be formally defined and constrained. The leaf has a distinguished naming convention: It uses a reserved DNS node name that begins with an underscore ("_"). Because a "host" domain name is not allowed to use the underscore character, this distinguishes the name from all legal host names.[RFC1035] Effectively, this convention creates a space for attributes that are associated with the parent domain, one level up.
An established example is the SRV record [RFC2782] which generalizes concepts long-used for email routing by the MX record [RFC0974][RFC2821]. The use of special DNS names has significant benefits and detriments. Some of these are explored in [RFC5507].
The scoping feature is particularly useful when generalized resource records are used -- notably TXT and SRV. It provides efficient separation of one use of them from another. Absent this separation, an undifferentiated mass of these RRs is returned to the DNS client, which then must parse through the internals of the records in the hope of finding ones that are relevant; in some cases the results are ambiguous, because the records do not adequately self-identify. With underscore-based scoping, only the relevant RRs are returned.
This specification discusses the underscore "attribute" enhancement, provides an explicit definition of it, and establishes an IANA registry for the reserved names that begin with underscore. It updates the many existing specifications that have defined underscore names, in order to aggregate the references to a single IANA table.
Some resource records are generic and support a variety of uses. Each additional use defines its own rules and, possibly, its own internal syntax and node-naming conventions to distinguish among particular types. The TXT and SRV records are the notable examples. Used freely, some of these approaches scale poorly, particularly when the same RR can be present in the same leaf node, but with different uses. An increasingly-popular approach, with excellent scaling properties, uses an underscore-based name, at a defined place in the DNS tree, so as to constrain to particular uses for particular RRs farther down the branch using that name. This means that a direct lookup produces only the desired records, at no greater cost than a typical DNS lookup.
In the case of TXT records, different uses have developed largely without coordination. One side-effect is that there is no consistently distinguishable internal syntax for the record; even the inefficiencies of internal inspection might not provide a reliable means of distinguishing among the different uses. Underscore-based names therefore define an administrative way of separating TXT records that might have different uses, but otherwise would have no syntactic markers for distinguishing among them.
In the case of the SRV RR distinguishing among different types of use was part of the design. [RFC2782] The SRV specification serves as a template, defining an RR that might only be used for specific applications when there is an additional specification. The template definition includes reference to tables of names from which underscore-names should be drawn. The set of <service> names is defined in terms of other IANA tables, namely any table with symbolic names. The other SRV naming field is <proto>, although its pool of names is not explicitly defined.
This specification creates a registry for DNS nodes names that begin with an underscore and are used to define scope of use for specific resource records (RR). A given name defines a specific, constrained context for the use of such records. Within this scope, use of other resource records that are not specified is permitted. The purpose of the Underscore registry is to avoid collisions resulting from the use of the same underscore-based name, for different applications.
Structurally, the registry is defined as a single, flat table of names that begin with underscore. In some cases, such as for SRV, an underscore name might be multi-part, as a sequence of underscore names. Semantically, this is a hierarchical model and it is theoretically reasonable to allow re-use of an underscore name in different underscore contexts. That is, a subordinate name is meaningful only within the scope of the first (parent) underscore name. As such, they can be ignored by this global Underscore registry. That is, the registry is for the definition of highest-level underscore node name used.
| NAME |
|---|
| _service1 |
| ._protoB._service2 |
| _protoB._service3 |
| _protoC._service3 |
| _useX._protoD._service4 |
| _protoE._region._authority |
Only the right-most names are registered in the IANA table. Definition and registration of the subordinate names is the responsibility of the specification that creates the highest-level (right-most) registry entry.
A registry entry contains:
Per [RFC2434], IANA is requested to establish a DNS Underscore Name Registry, for DNS node names that begin with the underscore character (_) and have been specified in any published RFC, or are documented by a specification published by another standards organization. The contents of each entry are defined in Section 4.
Initial entriess in the registry are:
| NAME | LABEL | RR | REFERENCE | PURPOSE |
|---|---|---|---|---|
| SRV | _srv | SRV | [RFC2782] | SRV template -- pro forma entry, not directly usable |
| SRV TCP | _tcp | SRV | [RFC2782] | Use of SRV for a TCP service |
| SRV UDP | _udp | SRV | [RFC2782] | Use of SRV for a UDB service |
| LDAP | _ldap | SRV | [RFC2782] | LDAP server |
| SIP | _sip | NAPTR | [RFC3263] [RFC6011] | Locating SIP Servers and UA configuration |
| SPF | _spf | TXT | [RFC4408] | Authorized IP addresses for sending mail |
| DKIM | _domainkey | TXT | [RFC4871] | Public key for verifying DKIM signature. |
| PKI LDAP | _PKIXREP | SRV | [RFC4386] | PKI Repository |
| VBR | _vouch | TXT | [RFC5518] | Vouch-by-refererence domain assertion |
| DDDS | --???!-- | SRV | [RFC3404] | Mapping DDDS query to DNS records |
| SOAP BEEP | _soap-beep | SRV | [RFC4227] | SOAP over BEEP lookup, when no port specified |
| XMLRPC BEEP | _xmlrpc-beep | SRV | [RFC3529] | Resolve url for XML-RPC using BEEP |
| Diameter | _diameter | SRV | [RFC3588] | Diameter rendezvous |
| Tunnel | _tunnel | SRV | [RFC3620] | Finding the appropriate address for tunneling into a particular domain |
| SLP | _slpda | SRV | [RFC3832] | Discovering desired services in given DNS domains |
| IM | _im | SRV | [RFC3861] | Instant Messaging address resolution |
| Pres | _pres | SRV | [RFC3861] | Presence address resolution |
| Msg Track | _mtqp | SRV | [RFC3887] | Assist in determining the path that a particular message has taken through a messaging system |
| XMPP Client | _xmpp-client | SRV | [RFC6120] | XMPP client lookup of server |
| XMPP Server | _xmpp-server | SRV | [RFC6120] | XMPP server-server lookup |
| DDDS SRV | _??? | SRV (and NAPTR?) | [RFC3958] | Map domain name, application service name, and application protocol dynamically to target server and port |
| Kerberos | _kerberos | SRV | [RFC4120] | purpose |
| PKI | _pkixrep | SRV | [RFC4386] | Enables certificate-using systems to locate PKI repositories |
| Certificates | _certificates | SRV | [RFC4387] | Obtain certificates and certificate revocation lists (CRLs) from PKI repositories |
| PGP Key Store | pgpkeys | SRV | [RFC4387] | Obtain certificates and certificate revocation lists (CRLs) from PKI repositories |
| MSRP Relay Locator | _msrp | SRV | [RFC4976] | purpose |
| Mobile IPv6 Bootstrap | _mip6 | SRV | [RFC5026] [RFC5555] | Bootstrap Mobile IPv6 Home Agent information from non-topological information |
| Digital Video Broadcasting | _dvbservdsc | SRV | [RFC5328] | Discover non-default DVB entry points addresses |
| CAPWAP AC | _capwap-control | rrs | [RFC5415] | Discover the CAPWAP AC address(es) |
| IM | _im | SRV | [RFC5509] | For resolving Instant Messaging and Presence services with SIP |
| Presence | _pres | SRV | [RFC5509] | For resolving Instant Messaging and Presence services with SIP |
| IEEE 802.21 Mobility | _mihis | NAPTR, SRV | [RFC5679] | Discovering servers that provide IEEE 802.21-defined Mobility Services |
| STUN Client/Server | _stun | SRV | [RFC5389] | Find a STUN server |
| TURN | _turn | SRV | [RFC5766] [RFC5928] | Control the operation of a relay to bypass NAT |
| STUN NAT Behavior Discovery | _stun-behavior | SRV | [RFC5780] | Discover the presence and current behavior of NATs and firewalls between the STUN client and the STUN server |
| Sieve Management | _sieve | SRV | [RFC5804] | Manage Sieve scripts on a remote server |
| AFS VLDB | _afs3-vlserver | SRV | [RFC5864] | Locate services for the AFS distributed file system |
| AFS PTS | _afs3-prserver | SRV | [RFC5864] | Locate services for the AFS distributed file system |
| Mail MSA Submission | _submission | SRV | [RFC6186] | Locate email services |
| IMAP | _imap | SRV | [RFC6186] | Locate email services |
| POP | _pop3 | SRV | [RFC6186] | Locate email services |
| POP TLS | _pop3s | SRV | [RFC6186] | Locate email services |
Numerous specifications have defined their own, independent registries for use of underscore names. It is likely that adoption of the proposed, integrated registry should render these piecemeal registries obsolete
Registries that are candidates for replacement include:
This memo raises no security issues.
| [RFC2434] | Narten, T. and H. Alvestrand, "Guidelines for Writing an IANA Considerations Section in RFCs", RFC 2434, October 1998. |
Thanks go to Bill Fenner, Tony Hansen, Peter Koch, Olaf Kolkman, and Andrew Sullivan for diligent review of the earlier drafts. Special thanks to Ray Bellis for nearly 10 years of persistent encouragement to pursue this document.