Network Working Group | M. Nottingham |
Internet-Draft | June 6, 2017 |
Obsoletes: 5988 (if approved) | |
Intended status: Standards Track | |
Expires: December 8, 2017 |
Web Linking
draft-nottingham-rfc5988bis-06
This specification defines a model for the relationships between resources on the Web (“links”) and the type of those relationships (“link relation types”).
It also defines the serialisation of such links in HTTP headers with the Link header field.
This is a work-in-progress to revise RFC5988.
The issues list can be found at https://github.com/mnot/I-D/labels/rfc5988bis.
The most recent (often, unpublished) draft is at https://mnot.github.io/I-D/rfc5988bis/.
Recent changes are listed at https://github.com/mnot/I-D/commits/gh-pages/rfc5988bis.
This Internet-Draft is submitted in full conformance with the provisions of BCP 78 and BCP 79.
Internet-Drafts are working documents of the Internet Engineering Task Force (IETF). Note that other groups may also distribute working documents as Internet-Drafts. The list of current Internet-Drafts is at http://datatracker.ietf.org/drafts/current/.
Internet-Drafts are draft documents valid for a maximum of six months and may be updated, replaced, or obsoleted by other documents at any time. It is inappropriate to use Internet-Drafts as reference material or to cite them other than as "work in progress."
This Internet-Draft will expire on December 8, 2017.
Copyright (c) 2017 IETF Trust and the persons identified as the document authors. All rights reserved.
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This specification defines a model for the relationships between resources on the Web (“links”) and the type of those relationships (“link relation types”).
HTML [W3C.REC-html5-20141028] and Atom [RFC4287] both have well-defined concepts of linking; Section 2 generalises this into a framework that encompasses linking in these formats and (potentially) elsewhere.
Furthermore, Section 3 defines an HTTP header field for conveying such links.
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],[I-D.leiba-rfc2119-update] when, and only when, they appear in all capitals, as shown here.
This document uses the Augmented Backus-Naur Form (ABNF) notation of [RFC7230], including the #rule, and explicitly includes the following rules from it: quoted-string, token, SP (space), BWS (bad whitespace), OWS (optional whitespace), RWS (required whitespace) LOALPHA, DIGIT.
Additionally, the following rules are included from [RFC3986]: URI and URI-Reference; from [RFC6838]: type-name and subtype-name; from [W3C.REC-css3-mediaqueries-20120619]: media-query-list; and from [RFC5646]: Language-Tag.
The requirements regarding conformance and error handling highlighted in [RFC7230], Section 2.5 apply to this document.
In this specification, a link is a typed connection between two resources, and is comprised of:
A link can be viewed as a statement of the form “link context has a link relation type resource at link target, which has target attributes”.
Link contexts and link targets are both IRIs [RFC3987]. However, in the common case, the link context will also be a URI [RFC3986], because many protocols (such as HTTP) do not support dereferencing IRIs. Likewise, the link target will be sometimes be converted to a URI (see [RFC3987], Section 3.1) in serialisations that do not support IRIs (such as the Link header field defined in Section 3).
This specification does not place restrictions on the cardinality of links; there can be multiple links to and from a particular target, and multiple links of the same or different types between a given context and target. Likewise, the relative ordering of links in any particular serialisation, or between serialisations (e.g., the Link header field and in-content links) is not specified or significant in this specification; applications that wish to consider ordering significant can do so.
Links are conveyed in link serialisations; they are the “bytes on the wire”, and can occur in various forms. For example, Atom [RFC4287] and HTML [W3C.REC-html5-20141028] both defined serialisations of links into their respective formats, and Section 3 defines how to serialise links in HTTP header fields.
This specification does not define a general syntax for links across different serialisations, nor does it mandate a specific context for any given link; it is expected that serialisations of links will specify both aspects.
Finally, links are used by link applications. Generally, an application will define the link relation type(s) it uses, along with the serialisation(s) that they might occur within. For example, the application “Web browsing” looks for the “stylesheet” link relation type in the HTML link serialisation (and optionally in the Link header field), whereas the application “AtomPub” uses the “edit” and “edit-media” link relations in the Atom serialisation.
In the simplest case, a link relation type identifies the semantics of a link. For example, a link with the relation type “copyright” indicates that the current link context has a copyright resource at the link target.
Link relation types can also be used to indicate that the target resource has particular attributes, or exhibits particular behaviours; for example, a “service” link implies that the link target can be used as part of a defined protocol (in this case, a service description).
Relation types are not to be confused with media types [RFC2046]; they do not identify the format of the representation that results when the link is dereferenced. Rather, they only describe how the current context is related to another resource.
Relation types SHOULD NOT infer any additional semantics based upon the presence or absence of another link relation type, or its own cardinality of occurrence. An exception to this is the combination of the “alternate” and “stylesheet” registered relation types, which has special meaning in HTML for historical reasons.
There are two kinds of relation types: registered and extension.
Well-defined relation types can be registered as tokens for convenience and/or to promote reuse by other applications, using the procedure in Section 2.1.1.1.
Registered relation type names MUST conform to the reg-rel-type rule (see Section 3.3), and MUST be compared character-by-character in a case-insensitive fashion. They SHOULD be appropriate to the specificity of the relation type; i.e., if the semantics are highly specific to a particular application, the name should reflect that, so that more general names are available for less specific use.
Registered relation types MUST NOT constrain the media type of the link context, and MUST NOT constrain the available representation media types of the link target. However, they can specify the behaviours and properties of the target resource (e.g., allowable HTTP methods, request and response media types that are required be supported).
Historically, registered relation types have been identified with a URI [RFC3986] by prefixing their names with an application-defined base URI (e.g., see Appendix A.2). This practice is NOT RECOMMENDED, because the resulting strings will not be considered equivalent to the registered relation types by other applications. Applications that do use such URIs internally MUST NOT use them in link serialisations that do not explicitly accommodate them.
The link relations registry is located at https://www.iana.org/assignments/link-relations/. Registration requests can be made by following the instructions located there, or by sending an e-mail to the “link-relations@ietf.org” mailing list.
Registration requests consist of at least the following information:
The Expert(s) MAY define additional fields to be collected in the registry.
General requirements for registered relation types are described in Section 2.1.1.
Registrations MUST reference a freely available, stable specification.
Note that relation types can be registered by third parties (including the Expert(s)), if the Expert(s) determine that an unregistered relation type is widely deployed and not likely to be registered in a timely manner otherwise.
Relation types are registered on the advice of a Designated Expert (appointed by the IESG or their delegate), with a Specification Required (using terminology from Section 4.1 of [RFC5226]).
The goal of the registry is to reflect common use of links on the Internet. Therefore, the Expert(s) SHOULD be strongly biased towards approving registrations, unless they are abusive, frivolous, not likely to be used on the Internet, or actively harmful to the Internet and/or the Web (not merely aesthetically displeasing, or architecturally dubious). As stated in Section 2.1.1, the Experts MAY withhold registration of names that are too general for the proposed application.
The Expert(s) MUST clearly identify any issues which cause a registration to be refused. Advice about the semantics of a proposed link relation type can be given, but if it does not block registration, this SHOULD be explicitly stated.
When a request is approved, the Expert(s) will inform IANA, and the registration will be processed. The IESG is the final arbiter of any objection.
Applications that don’t wish to register a relation type can use an extension relation type, which is a URI [RFC3986] that uniquely identifies the relation type. Although the URI can point to a resource that contains a definition of the semantics of the relation type, clients SHOULD NOT automatically access that resource to avoid overburdening its server.
The URI used for an extension relation type SHOULD be under the control of the person or party defining it, or be delegated to them.
When extension relation types are compared, they MUST be compared as strings (after converting to URIs if serialised in a different format) in a case-insensitive fashion, character-by-character. Because of this, all-lowercase URIs SHOULD be used for extension relations.
Note that while extension relation types are required to be URIs, a serialisation of links can specify that they are expressed in another form, as long as they can be converted to URIs.
Target attributes are a list of key/value pairs that describe the link or its target; for example, a media type hint.
They can be defined both by individual link relation types and by link serialisations.
This specification does not attempt to coordinate the name of target attributes, their cardinality or use. Those creating and maintaining serialisations SHOULD coordinate their target attributes to avoid conflicts in semantics or syntax, and MAY define their own registries of target attributes.
The names of target attributes SHOULD conform to the token rule, but SHOULD NOT include any of the characters “%”, “’” or “*”, for portability across serializations, and MUST be compared in a case-insensitive fashion.
Target attribute definitions SHOULD specify:
This specification does define target attributes for use in the Link HTTP header field in Section 3.4.
The Link header field provides a means for serialising one or more links into HTTP headers.
The ABNF for the field value is:
Link = #link-value link-value = "<" URI-Reference ">" *( OWS ";" OWS link-param ) link-param = token BWS "=" BWS ( token / quoted-string )
Note that any link-param can be generated with values using either the token or the quoted-string syntax, and therefore recipients MUST be able to parse both forms. Individual link-params specify their syntax in terms of the value after any necessary unquoting (as per [RFC7230], Section 3.2.6).
This specification defines the link-params “rel”, “anchor”, “rev”, “hreflang”, “media”, “title”, “title*”, and “type”; see Section 3.2, Section 3.3 and Section 3.4.
Each link-value conveys one target IRI as a URI-Reference (after conversion to one, if necessary; see [RFC3987], Section 3.1) inside angle brackets (“<>”). If the URI-Reference is relative, parsers MUST resolve it as per [RFC3986], Section 5. Note that any base IRI appearing in the message’s content is not applied.
By default, the context of a link conveyed in the Link header field is the URL of the representation it is associated with, as defined in [RFC7231], Section 3.1.4.1, serialised as a URI.
When present, the anchor parameter overrides this with another URI, such as a fragment of this resource, or a third resource (i.e., when the anchor value is an absolute URI). If the anchor parameter’s value is a relative URI, parsers MUST resolve it as per [RFC3986], Section 5. Note that any base URI from the body’s content is not applied.
The ABNF for the anchor parameter’s value is:
URI-Reference ; Section 4.1 of {{RFC3986}}
Link application can choose to ignore links with an anchor parameter. For example, the application in use might not allow the link context to be assigned to a different resource. In such cases, the entire link is to be ignored; link applications MUST NOT process the link without applying the anchor.
Note that depending on HTTP status code and response headers, the link context might be “anonymous” (i.e., no link context is available). For example, this is the case on a 404 response to a GET request.
The relation type of a link conveyed in the Link header field is conveyed in the “rel” parameter’s value. The “rel” parameter MUST NOT appear more than once in a given link-value; occurrences after the first MUST be ignored by parsers.
The “rev” parameter has been used in the past to indicate that the semantics of the relationship are in the reverse direction. That is, a link from A to B with REL=”X” expresses the same relationship as a link from B to A with REV=”X”. “rev” is deprecated by this specification because it often confuses authors and readers; in most cases, using a separate relation type is preferable.
The ABNF for the rel and rev parameters’ values is:
relation-type *( 1*SP relation-type )
where:
relation-type = reg-rel-type / ext-rel-type reg-rel-type = LOALPHA *( LOALPHA / DIGIT / "." / "-" ) ext-rel-type = URI ; Section 3 of {{RFC3986}}
Note that extension relation types are REQUIRED to be absolute URIs in Link header fields, and MUST be quoted when they contain characters not allowed in tokens, such as semicolon (“;”) or comma (“,”) (as these characters are used as delimiters in the header field itself).
The Link header field defines several target attributes specific to this serialisation, and also allows extension target attributes. Target attributes are serialised in the Link header field as parameters (see [RFC7231], Section 3.1.1.1 for the definition of their syntax).
The “hreflang”, “media”, “title”, “title*”, and “type” link-params can be translated to serialisation-defined target attributes for the link.
The “hreflang” attribute, when present, is a hint indicating what the language of the result of dereferencing the link should be. Note that this is only a hint; for example, it does not override the Content-Language header field of a HTTP response obtained by actually following the link. Multiple “hreflang” attributes on a single link-value indicate that multiple languages are available from the indicated resource.
The ABNF for the hreflang parameter’s value is:
Language-Tag
The “media” attribute, when present, is used to indicate intended destination medium or media for style information (see [W3C.REC-html5-20141028], Section 4.2.4). Its value MUST be quoted if it contains a semicolon (“;”) or comma (“,”). There MUST NOT be more than one “media” attribute in a link-value; occurrences after the first MUST be ignored by parsers.
The ABNF for the media parameter’s value is:
media-query-list
The “title” attribute, when present, is used to label the destination of a link such that it can be used as a human-readable identifier (e.g., a menu entry) in the language indicated by the Content-Language header field (if present). The “title” attribute MUST NOT appear more than once in a given link; occurrences after the first MUST be ignored by parsers.
The “title*” link-param can be used to encode this attribute in a different character set, and/or contain language information as per [I-D.ietf-httpbis-rfc5987bis]. The “title*” link-param MUST NOT appear more than once in a given link-value; occurrences after the first MUST be ignored by parsers. If the attribute does not contain language information, its language is indicated by the Content-Language header field (when present).
If both the “title” and “title*” link-param appear in a link, applications SHOULD use the “title*” link-param’s value for the “title” attribute.
The “type” attribute, when present, is a hint indicating what the media type of the result of dereferencing the link should be. Note that this is only a hint; for example, it does not override the Content-Type header field of a HTTP response obtained by actually following the link. The “type” attribute MUST NOT appear more than once in a given link-value; occurrences after the first MUST be ignored by parsers.
The ABNF for the type parameter’s value is:
type-name "/" subtype-name ; see {{RFC6838}}, Section 4.2
Other link-params are link-extensions, and are to be considered as target attributes.
Such target attributes MAY be defined to use the encoding in [I-D.ietf-httpbis-rfc5987bis] (e.g., “example” and “example*”). When both forms are present, they SHOULD be considered to be the same target attribute; applications SHOULD use the value of the name ending in “*” (after [I-D.ietf-httpbis-rfc5987bis] decoding), but MAY fall back to the other value if there is an error in decoding it, or if they do not support decoding.
For example:
Link: <http://example.com/TheBook/chapter2>; rel="previous"; title="previous chapter"
indicates that “chapter2” is previous to this resource in a logical navigation path.
Similarly,
Link: </>; rel="http://example.net/foo"
indicates that the root resource (“/”) is related to this resource with the extension relation type “http://example.net/foo”.
This link:
Link: </terms>; rel="copyright"; anchor="#foo"
indicates that the linked copyright terms only apply to the portion of the document indicated by the (media type-specific) fragment identifier “foo”.
The example below shows an instance of the Link header field encoding multiple links, and also the use of RFC 5987 encoding to encode both non-ASCII characters and language information.
Link: </TheBook/chapter2>; rel="previous"; title*=UTF-8'de'letztes%20Kapitel, </TheBook/chapter4>; rel="next"; title*=UTF-8'de'n%c3%a4chstes%20Kapitel
Here, both links have titles encoded in UTF-8, use the German language (“de”), and the second link contains the Unicode code point U+00E4 (“LATIN SMALL LETTER A WITH DIAERESIS”).
Note that link-values can convey multiple links between the same link target and link context; for example:
Link: <http://example.org/>; rel="start http://example.net/relation/other"
Here, the link to “http://example.org/” has the registered relation type “start” and the extension relation type “http://example.net/relation/other”.
Finally, this header field:
Link: <https://example.org/>; rel="start", <https://example.org/index>; rel="index"
is equivalent to these:
Link: <https://example.org/>; rel="start" Link: <https://example.org/index>; rel="index"
This specification updates the Message Header registry entry for “Link” in HTTP [RFC3864] to refer to this document.
Header field: Link Applicable protocol: http Status: standard Author/change controller: IETF (iesg@ietf.org) Internet Engineering Task Force Specification document(s): [this document]
This specification updates the registration procedures for the Link Relation Type registry; see Section 2.1.1.1. The Expert(s) and IANA are expected interact as outlined below.
The Expert(s) will provide registry data to IANA in a mutually-agreed form (e.g. a specific XML format). IANA will publish:
If IANA’s internal processes require making changes to registry data and/or adding registry entries, IANA will inform the Expert(s) of this in a mutually agreed way.
Each published document will be at a URL mutually agreed to by IANA and the Expert(s), and IANA will set HTTP response headers on them as (reasonably) requested by the Expert(s).
Additionally, the HTML generated by IANA will:
All registry data documents MUST include Simplified BSD License text as described in Section 4.e of the Trust Legal Provisions (<http://trustee.ietf.org/license-info>).
IANA will direct any incoming requests regarding the registry to this document and, if defined, the processes established by the Expert(s); typically, this will mean referring them to the registry Web page.
Note that the Expert(s) are allowed (as per Section 2.1.1.1) to define additional fields to be collected in the registry.
This specification terminates the Link Relation Application Data Registry, as it has not been used, and future use is not anticipated. IANA is instructed to remove it.
The content of the Link header field is not secure, private or integrity-guaranteed. Use of Transport Layer Security (TLS) with HTTP ([RFC2818]) is currently the only end-to-end way to provide these properties.
Link applications ought to consider the attack vectors opened by automatically following, trusting, or otherwise using links gathered from HTTP header fields. In particular, Link header fields that use the “anchor” parameter to associate a link’s context with another resource are to be treated with due caution.
The Link header field makes extensive use of IRIs and URIs. See [RFC3987] Section 8 for security considerations relating to IRIs. See [RFC3986] Section 7 for security considerations relating to URIs. See [RFC7230] Section 9 for security considerations relating to HTTP header fields.
Link targets may need to be converted to URIs in order to express them in serialisations that do not support IRIs. This includes the Link HTTP header field.
Similarly, the anchor parameter of the Link header field does not support IRIs, and therefore IRIs must be converted to URIs before inclusion there.
Relation types are defined as URIs, not IRIs, to aid in their comparison. It is not expected that they will be displayed to end users.
Note that registered Relation Names are required to be lower-case ASCII letters.
[I-D.ietf-httpbis-rfc5987bis] | Reschke, J., "Indicating Character Encoding and Language for HTTP Header Field Parameters", Internet-Draft draft-ietf-httpbis-rfc5987bis-05, February 2017. |
[I-D.leiba-rfc2119-update] | Leiba, B., "Ambiguity of Uppercase vs Lowercase in RFC 2119 Key Words", Internet-Draft draft-leiba-rfc2119-update-02, March 2017. |
[RFC2119] | Bradner, S., "Key words for use in RFCs to Indicate Requirement Levels", BCP 14, RFC 2119, DOI 10.17487/RFC2119, March 1997. |
[RFC3864] | Klyne, G., Nottingham, M. and J. Mogul, "Registration Procedures for Message Header Fields", BCP 90, RFC 3864, DOI 10.17487/RFC3864, September 2004. |
[RFC3986] | Berners-Lee, T., Fielding, R. and L. Masinter, "Uniform Resource Identifier (URI): Generic Syntax", STD 66, RFC 3986, DOI 10.17487/RFC3986, January 2005. |
[RFC3987] | Duerst, M. and M. Suignard, "Internationalized Resource Identifiers (IRIs)", RFC 3987, DOI 10.17487/RFC3987, January 2005. |
[RFC5226] | Narten, T. and H. Alvestrand, "Guidelines for Writing an IANA Considerations Section in RFCs", BCP 26, RFC 5226, DOI 10.17487/RFC5226, May 2008. |
[RFC5646] | Phillips, A. and M. Davis, "Tags for Identifying Languages", BCP 47, RFC 5646, DOI 10.17487/RFC5646, September 2009. |
[RFC6838] | Freed, N., Klensin, J. and T. Hansen, "Media Type Specifications and Registration Procedures", BCP 13, RFC 6838, DOI 10.17487/RFC6838, January 2013. |
[RFC7230] | Fielding, R. and J. Reschke, "Hypertext Transfer Protocol (HTTP/1.1): Message Syntax and Routing", RFC 7230, DOI 10.17487/RFC7230, June 2014. |
[RFC7231] | Fielding, R. and J. Reschke, "Hypertext Transfer Protocol (HTTP/1.1): Semantics and Content", RFC 7231, DOI 10.17487/RFC7231, June 2014. |
[W3C.REC-css3-mediaqueries-20120619] | Rivoal, F., "Media Queries", World Wide Web Consortium Recommendation REC-css3-mediaqueries-20120619, June 2012. |
[RFC2046] | Freed, N. and N. Borenstein, "Multipurpose Internet Mail Extensions (MIME) Part Two: Media Types", RFC 2046, DOI 10.17487/RFC2046, November 1996. |
[RFC2818] | Rescorla, E., "HTTP Over TLS", RFC 2818, DOI 10.17487/RFC2818, May 2000. |
[RFC4287] | Nottingham, M. and R. Sayre, "The Atom Syndication Format", RFC 4287, DOI 10.17487/RFC4287, December 2005. |
[W3C.REC-html5-20141028] | Hickson, I., Berjon, R., Faulkner, S., Leithead, T., Navara, E., O'Connor, T. and S. Pfeiffer, "HTML5", World Wide Web Consortium Recommendation REC-html5-20141028, October 2014. |
Header fields (Section 3) are only one serialisation of links; other specifications have defined alternative serialisations.
HTML motivated the original syntax of the Link header field, and many of the design decisions in this document are driven by a desire to stay compatible with it.
In HTML, the link element can be mapped to links as specified here by using the “href” attribute for the target URI, and “rel” to convey the relation type, as in the Link header field. The context of the link is the URI associated with the entire HTML document. HTML also defines several attributes on links that can be seen as target attributes, including “media”, “hreflang”, “type” and “sizes”.
Section 4.8 of HTML5 ([W3C.REC-html5-20141028]) defines modern HTML links. That document links to the Microformats Wiki as a registry; over time, the IANA registry ought to mirror its contents, and ideally eventually replace it (although that depends on the HTML community).
Surveys of existing HTML content have shown that unregistered link relation types that are not URIs are (perhaps inevitably) common. Consuming HTML implementations ought not consider such unregistered short links to be errors, but rather relation types with a local scope (i.e., their meaning is specific and perhaps private to that document).
Finally, the HTML specification gives a special meaning when the “alternate” relation types coincides with other relation types in the same link. Such links ought to be serialised in the Link header field using a single list of relation-types (e.g., rel=”alternate stylesheet”) to preserve this relationship.
Atom [RFC4287] is a link serialisation that conveys links in the atom:link element, with the “href” attribute indicating the link target and the “rel” attribute containing the relation type. The context of the link is either a feed locator or an entry ID, depending on where it appears; generally, feed-level links are obvious candidates for transmission as a Link header field.
When serialising an atom:link into a Link header field, it is necessary to convert link targets (if used) to URIs.
Atom defines extension relation types in terms of IRIs. This specification re-defines them as URIs, to simplify and reduce errors in their comparison.
Atom allows registered link relation types to be serialised as absolute URIs using a prefix, “http://www.iana.org/assignments/relation/”. This prefix is specific to the Atom serialisation.
Furthermore, link relation types are always compared in a case-sensitive fashion; therefore, registered link relation types SHOULD be converted to their registered form (usually, lowercase) when serialised in an Atom document.
Note also that while the Link header field allows multiple relations to be serialised in a single link, atom:link does not. In this case, a single link-value may map to several atom:link elements.
As with HTML, atom:link defines some attributes that are not explicitly mirrored in the Link header field syntax, but they can also be used as link-extensions to maintain fidelity.
This appendix outlines a set of non-normative algorithms: for parsing the Link header(s) out of a header set, parsing a link header field value, and algorithms for parsing generic parts of the field value.
These algorithms are more permissive than the ABNF defining the syntax might suggest; the error handling embodied in them is a reasonable approach, but not one that is required. As such they are advisory only, and in cases where there is disagreement, the correct behaviour is defined by the body of this specification.
This algorithm can be used to parse the Link header fields that a HTTP header set contains. Given a header_set of (string field_name, string field_value) pairs, assuming ASCII encoding, it returns a list of link objects.
This algorithm parses zero or more comma-separated link-values from a Link header field. Given a string field_value, assuming ASCII encoding, it returns a list of link objects.
This algorithm parses the parameters from a header field value. Given an ASCII string input, it returns a list of (string parameter_name, string parameter_value) tuples that it contains. input is modified to remove the parsed parameters.
This algorithm parses a quoted string, as per [RFC7230], Section 3.2.6. Given an ASCII string input, it returns an unquoted string. input is modified to remove the parsed string.
This specification has the following differences from its predecessor, RFC5988: