From 4bfd864f10b68b71482b35c818559068ef8d5797 Mon Sep 17 00:00:00 2001 From: Thomas Voss Date: Wed, 27 Nov 2024 20:54:24 +0100 Subject: doc: Add RFC documents --- doc/rfc/rfc9457.txt | 838 ++++++++++++++++++++++++++++++++++++++++++++++++++++ 1 file changed, 838 insertions(+) create mode 100644 doc/rfc/rfc9457.txt (limited to 'doc/rfc/rfc9457.txt') diff --git a/doc/rfc/rfc9457.txt b/doc/rfc/rfc9457.txt new file mode 100644 index 0000000..1ac99c8 --- /dev/null +++ b/doc/rfc/rfc9457.txt @@ -0,0 +1,838 @@ + + + + +Internet Engineering Task Force (IETF) M. Nottingham +Request for Comments: 9457 +Obsoletes: 7807 E. Wilde +Category: Standards Track +ISSN: 2070-1721 S. Dalal + July 2023 + + + Problem Details for HTTP APIs + +Abstract + + This document defines a "problem detail" to carry machine-readable + details of errors in HTTP response content to avoid the need to + define new error response formats for HTTP APIs. + + This document obsoletes RFC 7807. + +Status of This Memo + + This is an Internet Standards Track document. + + This document is a product of the Internet Engineering Task Force + (IETF). It represents the consensus of the IETF community. It has + received public review and has been approved for publication by the + Internet Engineering Steering Group (IESG). Further information on + Internet Standards is available in Section 2 of RFC 7841. + + Information about the current status of this document, any errata, + and how to provide feedback on it may be obtained at + https://www.rfc-editor.org/info/rfc9457. + +Copyright Notice + + Copyright (c) 2023 IETF Trust and the persons identified as the + document authors. All rights reserved. + + This document is subject to BCP 78 and the IETF Trust's Legal + Provisions Relating to IETF Documents + (https://trustee.ietf.org/license-info) in effect on the date of + publication of this document. Please review these documents + carefully, as they describe your rights and restrictions with respect + to this document. Code Components extracted from this document must + include Revised BSD License text as described in Section 4.e of the + Trust Legal Provisions and are provided without warranty as described + in the Revised BSD License. + +Table of Contents + + 1. Introduction + 2. Requirements Language + 3. The Problem Details JSON Object + 3.1. Members of a Problem Details Object + 3.1.1. "type" + 3.1.2. "status" + 3.1.3. "title" + 3.1.4. "detail" + 3.1.5. "instance" + 3.2. Extension Members + 4. Defining New Problem Types + 4.1. Example + 4.2. Registered Problem Types + 4.2.1. about:blank + 5. Security Considerations + 6. IANA Considerations + 7. References + 7.1. Normative References + 7.2. Informative References + Appendix A. JSON Schema for HTTP Problems + Appendix B. HTTP Problems and XML + Appendix C. Using Problem Details with Other Formats + Appendix D. Changes from RFC 7807 + Acknowledgements + Authors' Addresses + +1. Introduction + + HTTP status codes (Section 15 of [HTTP]) cannot always convey enough + information about errors to be helpful. While humans using web + browsers can often understand an HTML [HTML5] response content, non- + human consumers of HTTP APIs have difficulty doing so. + + To address that shortcoming, this specification defines simple JSON + [JSON] and XML [XML] document formats to describe the specifics of a + problem encountered -- "problem details". + + For example, consider a response indicating that the client's account + doesn't have enough credit. The API's designer might decide to use + the 403 Forbidden status code to inform generic HTTP software (such + as client libraries, caches, and proxies) of the response's general + semantics. API-specific problem details (such as why the server + refused the request and the applicable account balance) can be + carried in the response content so that the client can act upon them + appropriately (for example, triggering a transfer of more credit into + the account). + + This specification identifies the specific "problem type" (e.g., "out + of credit") with a URI [URI]. HTTP APIs can use URIs under their + control to identify problems specific to them or can reuse existing + ones to facilitate interoperability and leverage common semantics + (see Section 4.2). + + Problem details can contain other information, such as a URI + identifying the problem's specific occurrence (effectively giving an + identifier to the concept "The time Joe didn't have enough credit + last Thursday"), which can be useful for support or forensic + purposes. + + The data model for problem details is a JSON [JSON] object; when + serialized as a JSON document, it uses the "application/problem+json" + media type. Appendix B defines an equivalent XML format, which uses + the "application/problem+xml" media type. + + When they are conveyed in an HTTP response, the contents of problem + details can be negotiated using proactive negotiation; see + Section 12.1 of [HTTP]. In particular, the language used for human- + readable strings (such as those in title and description) can be + negotiated using the Accept-Language request header field + (Section 12.5.4 of [HTTP]), although that negotiation may still + result in a non-preferred, default representation being returned. + + Problem details can be used with any HTTP status code, but they most + naturally fit the semantics of 4xx and 5xx responses. Note that + problem details are (naturally) not the only way to convey the + details of a problem in HTTP. If the response is still a + representation of a resource, for example, it's often preferable to + describe the relevant details in that application's format. + Likewise, defined HTTP status codes cover many situations with no + need to convey extra detail. + + This specification's aim is to define common error formats for + applications that need one so that they aren't required to define + their own or, worse, tempted to redefine the semantics of existing + HTTP status codes. Even if an application chooses not to use it to + convey errors, reviewing its design can help guide the design + decisions faced when conveying errors in an existing format. + + See Appendix D for a list of changes from [RFC7807]. + +2. Requirements Language + + 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. + +3. The Problem Details JSON Object + + The canonical model for problem details is a JSON [JSON] object. + When serialized in a JSON document, that format is identified with + the "application/problem+json" media type. + + For example: + + POST /purchase HTTP/1.1 + Host: store.example.com + Content-Type: application/json + Accept: application/json, application/problem+json + + { + "item": 123456, + "quantity": 2 + } + + HTTP/1.1 403 Forbidden + Content-Type: application/problem+json + Content-Language: en + + { + "type": "https://example.com/probs/out-of-credit", + "title": "You do not have enough credit.", + "detail": "Your current balance is 30, but that costs 50.", + "instance": "/account/12345/msgs/abc", + "balance": 30, + "accounts": ["/account/12345", + "/account/67890"] + } + + Here, the out-of-credit problem (identified by its type) indicates + the reason for the 403 in "title", identifies the specific problem + occurrence with "instance", gives occurrence-specific details in + "detail", and adds two extensions: "balance" conveys the account's + balance, and "accounts" lists links where the account can be topped + up. + + When designed to accommodate it, problem-specific extensions can + convey more than one instance of the same problem type. For example: + + POST /details HTTP/1.1 + Host: account.example.com + Accept: application/json + + { + "age": 42.3, + "profile": { + "color": "yellow" + } + } + + HTTP/1.1 422 Unprocessable Content + Content-Type: application/problem+json + Content-Language: en + + { + "type": "https://example.net/validation-error", + "title": "Your request is not valid.", + "errors": [ + { + "detail": "must be a positive integer", + "pointer": "#/age" + }, + { + "detail": "must be 'green', 'red' or 'blue'", + "pointer": "#/profile/color" + } + ] + } + + The fictional problem type here defines the "errors" extension, an + array that describes the details of each validation error. Each + member is an object containing "detail" to describe the issue and + "pointer" to locate the problem within the request's content using a + JSON Pointer [JSON-POINTER]. + + When an API encounters multiple problems that do not share the same + type, it is RECOMMENDED that the most relevant or urgent problem be + represented in the response. While it is possible to create generic + "batch" problem types that convey multiple, disparate types, they do + not map well into HTTP semantics. + + Note also that the API has responded with the "application/ + problem+json" type, even though the client did not list it in Accept, + as is allowed by HTTP (see Section 12.5.1 of [HTTP]). + +3.1. Members of a Problem Details Object + + Problem detail objects can have the following members. If a member's + value type does not match the specified type, the member MUST be + ignored -- i.e., processing will continue as if the member had not + been present. + +3.1.1. "type" + + The "type" member is a JSON string containing a URI reference [URI] + that identifies the problem type. Consumers MUST use the "type" URI + (after resolution, if necessary) as the problem type's primary + identifier. + + When this member is not present, its value is assumed to be + "about:blank". + + If the type URI is a locator (e.g., those with an "http" or "https" + scheme), dereferencing it SHOULD provide human-readable documentation + for the problem type (e.g., using HTML [HTML5]). However, consumers + SHOULD NOT automatically dereference the type URI, unless they do so + when providing information to developers (e.g., when a debugging tool + is in use). + + When "type" contains a relative URI, it is resolved relative to the + document's base URI, as per [URI], Section 5. However, using + relative URIs can cause confusion, and they might not be handled + correctly by all implementations. + + For example, if the two resources "https://api.example.org/foo/ + bar/123" and "https://api.example.org/widget/456" both respond with a + "type" equal to the relative URI reference "example-problem", when + resolved they will identify different resources + ("https://api.example.org/foo/bar/example-problem" and + "https://api.example.org/widget/example-problem", respectively). As + a result, it is RECOMMENDED that absolute URIs be used in "type" when + possible and that when relative URIs are used, they include the full + path (e.g., "/types/123"). + + The type URI is allowed to be a non-resolvable URI. For example, the + tag URI scheme [TAG] can be used to uniquely identify problem types: + + tag:example@example.org,2021-09-17:OutOfLuck + + However, resolvable type URIs are encouraged by this specification + because it might become desirable to resolve the URI in the future. + For example, if an API designer used the URI above and later adopted + a tool that resolves type URIs to discover information about the + error, taking advantage of that capability would require switching to + a resolvable URI, creating a new identity for the problem type and + thus introducing a breaking change. + +3.1.2. "status" + + The "status" member is a JSON number indicating the HTTP status code + ([HTTP], Section 15) generated by the origin server for this + occurrence of the problem. + + The "status" member, if present, is only advisory; it conveys the + HTTP status code used for the convenience of the consumer. + Generators MUST use the same status code in the actual HTTP response, + to assure that generic HTTP software that does not understand this + format still behaves correctly. See Section 5 for further caveats + regarding its use. + + Consumers can use the status member to determine what the original + status code used by the generator was when it has been changed (e.g., + by an intermediary or cache) and when a message's content is + persisted without HTTP information. Generic HTTP software will still + use the HTTP status code. + +3.1.3. "title" + + The "title" member is a JSON string containing a short, human- + readable summary of the problem type. + + It SHOULD NOT change from occurrence to occurrence of the problem, + except for localization (e.g., using proactive content negotiation; + see [HTTP], Section 12.1). + + The "title" string is advisory and is included only for users who are + unaware of and cannot discover the semantics of the type URI (e.g., + during offline log analysis). + +3.1.4. "detail" + + The "detail" member is a JSON string containing a human-readable + explanation specific to this occurrence of the problem. + + The "detail" string, if present, ought to focus on helping the client + correct the problem, rather than giving debugging information. + + Consumers SHOULD NOT parse the "detail" member for information; + extensions are more suitable and less error-prone ways to obtain such + information. + +3.1.5. "instance" + + The "instance" member is a JSON string containing a URI reference + that identifies the specific occurrence of the problem. + + When the "instance" URI is dereferenceable, the problem details + object can be fetched from it. It might also return information + about the problem occurrence in other formats through use of + proactive content negotiation (see [HTTP], Section 12.5.1). + + When the "instance" URI is not dereferenceable, it serves as a unique + identifier for the problem occurrence that may be of significance to + the server but is opaque to the client. + + When "instance" contains a relative URI, it is resolved relative to + the document's base URI, as per [URI], Section 5. However, using + relative URIs can cause confusion, and they might not be handled + correctly by all implementations. + + For example, if the two resources "https://api.example.org/foo/ + bar/123" and "https://api.example.org/widget/456" both respond with + an "instance" equal to the relative URI reference "example-instance", + when resolved they will identify different resources + ("https://api.example.org/foo/bar/example-instance" and + "https://api.example.org/widget/example-instance", respectively). As + a result, it is RECOMMENDED that absolute URIs be used in "instance" + when possible, and that when relative URIs are used, they include the + full path (e.g., "/instances/123"). + +3.2. Extension Members + + Problem type definitions MAY extend the problem details object with + additional members that are specific to that problem type. + + For example, our out-of-credit problem above defines two such + extensions -- "balance" and "accounts" to convey additional, problem- + specific information. + + Similarly, the "validation error" example defines an "errors" + extension that contains a list of individual error occurrences found, + with details and a pointer to the location of each. + + Clients consuming problem details MUST ignore any such extensions + that they don't recognize; this allows problem types to evolve and + include additional information in the future. + + When creating extensions, problem type authors should choose their + names carefully. To be used in the XML format (see Appendix B), they + will need to conform to the Name rule in Section 2.3 of [XML]. + +4. Defining New Problem Types + + When an HTTP API needs to define a response that indicates an error + condition, it might be appropriate to do so by defining a new problem + type. + + Before doing so, it's important to understand what they are good for + and what is better left to other mechanisms. + + Problem details are not a debugging tool for the underlying + implementation; rather, they are a way to expose greater detail about + the HTTP interface itself. Designers of new problem types need to + carefully take into account the Security Considerations (Section 5), + in particular, the risk of exposing attack vectors by exposing + implementation internals through error messages. + + Likewise, truly generic problems -- i.e., conditions that might apply + to any resource on the Web -- are usually better expressed as plain + status codes. For example, a "write access disallowed" problem is + probably unnecessary, since a 403 Forbidden status code in response + to a PUT request is self-explanatory. + + Finally, an application might have a more appropriate way to carry an + error in a format that it already defines. Problem details are + intended to avoid the necessity of establishing new "fault" or + "error" document formats, not to replace existing domain-specific + formats. + + That said, it is possible to add support for problem details to + existing HTTP APIs using HTTP content negotiation (e.g., using the + Accept request header to indicate a preference for this format; see + [HTTP], Section 12.5.1). + + New problem type definitions MUST document: + + 1. a type URI (typically, with the "http" or "https" scheme) + + 2. a title that appropriately describes it (think short) + + 3. the HTTP status code for it to be used with + + Problem type definitions MAY specify the use of the Retry-After + response header ([HTTP], Section 10.2.3) in appropriate + circumstances. + + A problem type URI SHOULD resolve to HTML [HTML5] documentation that + explains how to resolve the problem. + + A problem type definition MAY specify additional members on the + problem details object. For example, an extension might use typed + links [WEB-LINKING] to another resource that machines can use to + resolve the problem. + + If such additional members are defined, their names SHOULD start with + a letter (ALPHA, as per [ABNF], Appendix B.1) and SHOULD comprise + characters from ALPHA, DIGIT ([ABNF], Appendix B.1), and "_" (so that + it can be serialized in formats other than JSON), and they SHOULD be + three characters or longer. + +4.1. Example + + For example, if you are publishing an HTTP API to your online + shopping cart, you might need to indicate that the user is out of + credit (our example from above) and therefore cannot make the + purchase. + + If you already have an application-specific format that can + accommodate this information, it's probably best to do that. + However, if you don't, you might use one of the problem detail + formats -- JSON if your API is JSON-based or XML if it uses that + format. + + To do so, you might look in the registry (Section 4.2) for an + already-defined type URI that suits your purposes. If one is + available, you can reuse that URI. + + If one isn't available, you could mint and document a new type URI + (which ought to be under your control and stable over time), an + appropriate title and the HTTP status code that it will be used with, + along with what it means and how it should be handled. + +4.2. Registered Problem Types + + This specification defines the "HTTP Problem Types" registry for + common, widely used problem type URIs, to promote reuse. + + The policy for this registry is Specification Required, per + [RFC8126], Section 4.6. + + When evaluating requests, the designated expert(s) should consider + community feedback, how well-defined the problem type is, and this + specification's requirements. Vendor-specific, application-specific, + and deployment-specific values are unable to be registered. + Specification documents should be published in a stable, freely + available manner (ideally located with a URL) but need not be + standards. + + Registrations MAY use the prefix "https://iana.org/assignments/http- + problem-types#" for the type URI. Note that those URIs may not be + able to be resolved. + + The following template should be used for registration requests: + + Type URI: [a URI for the problem type] + Title: [a short description of the problem type] + Recommended HTTP status code: [what status code is most appropriate + to use with the type] + Reference: [to a specification defining the type] + + See the registry at + for details on where to send registration requests. + +4.2.1. about:blank + + This specification registers one Problem Type, "about:blank", as + follows. + + Type URI: about:blank + Title: See HTTP Status Code + Recommended HTTP status code: N/A + Reference: RFC 9457 + + The "about:blank" URI [ABOUT], when used as a problem type, indicates + that the problem has no additional semantics beyond that of the HTTP + status code. + + When "about:blank" is used, the title SHOULD be the same as the + recommended HTTP status phrase for that code (e.g., "Not Found" for + 404, and so on), although it MAY be localized to suit client + preferences (expressed with the Accept-Language request header). + + Please note that according to how the "type" member is defined + (Section 3.1), the "about:blank" URI is the default value for that + member. Consequently, any problem details object not carrying an + explicit "type" member implicitly uses this URI. + +5. Security Considerations + + When defining a new problem type, the information included must be + carefully vetted. Likewise, when actually generating a problem -- + however it is serialized -- the details given must also be + scrutinized. + + Risks include leaking information that can be exploited to compromise + the system, access to the system, or the privacy of users of the + system. + + Generators providing links to occurrence information are encouraged + to avoid making implementation details such as a stack dump available + through the HTTP interface, since this can expose sensitive details + of the server implementation, its data, and so on. + + The "status" member duplicates the information available in the HTTP + status code itself, bringing the possibility of disagreement between + the two. Their relative precedence is not clear, since a + disagreement might indicate that (for example) an intermediary has + changed the HTTP status code in transit (e.g., by a proxy or cache). + Generic HTTP software (such as proxies, load balancers, firewalls, + and virus scanners) are unlikely to know of or respect the status + code conveyed in this member. + +6. IANA Considerations + + In the "application" registry under the "Media Types" registry, IANA + has updated the "application/problem+json" and "application/ + problem+xml" registrations to refer to this document. + + IANA has created the "HTTP Problem Types" registry as specified in + Section 4.2 and populated it with "about:blank" as per Section 4.2.1. + +7. References + +7.1. Normative References + + [ABNF] Crocker, D., Ed. and P. Overell, "Augmented BNF for Syntax + Specifications: ABNF", STD 68, RFC 5234, + DOI 10.17487/RFC5234, January 2008, + . + + [HTTP] Fielding, R., Ed., Nottingham, M., Ed., and J. Reschke, + Ed., "HTTP Semantics", STD 97, RFC 9110, + DOI 10.17487/RFC9110, June 2022, + . + + [JSON] Bray, T., Ed., "The JavaScript Object Notation (JSON) Data + Interchange Format", STD 90, RFC 8259, + DOI 10.17487/RFC8259, December 2017, + . + + [RFC2119] Bradner, S., "Key words for use in RFCs to Indicate + Requirement Levels", BCP 14, RFC 2119, + DOI 10.17487/RFC2119, March 1997, + . + + [RFC8126] Cotton, M., Leiba, B., and T. Narten, "Guidelines for + Writing an IANA Considerations Section in RFCs", BCP 26, + RFC 8126, DOI 10.17487/RFC8126, June 2017, + . + + [RFC8174] Leiba, B., "Ambiguity of Uppercase vs Lowercase in RFC + 2119 Key Words", BCP 14, RFC 8174, DOI 10.17487/RFC8174, + May 2017, . + + [URI] Berners-Lee, T., Fielding, R., and L. Masinter, "Uniform + Resource Identifier (URI): Generic Syntax", STD 66, + RFC 3986, DOI 10.17487/RFC3986, January 2005, + . + + [XML] Bray, T., Paoli, J., Sperberg-McQueen, C. M., Maler, E., + and F. Yergeau, "Extensible Markup Language (XML) 1.0 + (Fifth Edition)", W3C Recommendation REC-xml-20081126, + November 2008, + . + +7.2. Informative References + + [ABOUT] Moonesamy, S., Ed., "The "about" URI Scheme", RFC 6694, + DOI 10.17487/RFC6694, August 2012, + . + + [HTML5] WHATWG, "HTML: Living Standard", + . + + [ISO-19757-2] + ISO, "Information technology -- Document Schema Definition + Language (DSDL) -- Part 2: Regular-grammar-based + validation -- RELAX NG", ISO/IEC 19757-2:2008, December + 2008, . + + [JSON-POINTER] + Bryan, P., Ed., Zyp, K., and M. Nottingham, Ed., + "JavaScript Object Notation (JSON) Pointer", RFC 6901, + DOI 10.17487/RFC6901, April 2013, + . + + [JSON-SCHEMA] + Wright, A., Ed., Andrews, H., Ed., Hutton, B., Ed., and G. + Dennis, "JSON Schema: A Media Type for Describing JSON + Documents", Work in Progress, Internet-Draft, draft- + bhutton-json-schema-01, 10 June 2022, + . + + [RDFA] Adida, B., Birbeck, M., McCarron, S., and I. Herman, "RDFa + Core 1.1 - Third Edition", W3C Recommendation, March 2015, + . + + [RFC7807] Nottingham, M. and E. Wilde, "Problem Details for HTTP + APIs", RFC 7807, DOI 10.17487/RFC7807, March 2016, + . + + [TAG] Kindberg, T. and S. Hawke, "The 'tag' URI Scheme", + RFC 4151, DOI 10.17487/RFC4151, October 2005, + . + + [WEB-LINKING] + Nottingham, M., "Web Linking", RFC 8288, + DOI 10.17487/RFC8288, October 2017, + . + + [XSLT] Clark, J., Pieters, S., and H. Thompson, "Associating + Style Sheets with XML documents 1.0 (Second Edition)", W3C + Recommendation, October 2010, + . + +Appendix A. JSON Schema for HTTP Problems + + This section presents a non-normative JSON Schema [JSON-SCHEMA] for + HTTP problem details. If there is any disagreement between it and + the text of the specification, the latter prevails. + + # NOTE: '\' line wrapping per RFC 8792 + { + "$schema": "https://json-schema.org/draft/2020-12/schema", + "title": "An RFC 7807 problem object", + "type": "object", + "properties": { + "type": { + "type": "string", + "format": "uri-reference", + "description": "A URI reference that identifies the \ + problem type." + }, + "title": { + "type": "string", + "description": "A short, human-readable summary of the \ + problem type." + }, + "status": { + "type": "integer", + "description": "The HTTP status code \ + generated by the origin server for this occurrence of the problem.", + "minimum": 100, + "maximum": 599 + }, + "detail": { + "type": "string", + "description": "A human-readable explanation specific to \ + this occurrence of the problem." + }, + "instance": { + "type": "string", + "format": "uri-reference", + "description": "A URI reference that identifies the \ + specific occurrence of the problem. It may or may not yield \ + further information if dereferenced." + } + } + } + +Appendix B. HTTP Problems and XML + + HTTP-based APIs that use XML [XML] can express problem details using + the format defined in this appendix. + + The RELAX NG schema [ISO-19757-2] for the XML format is: + + default namespace ns = "urn:ietf:rfc:7807" + + start = problem + + problem = + element problem { + ( element type { xsd:anyURI }? + & element title { xsd:string }? + & element detail { xsd:string }? + & element status { xsd:positiveInteger }? + & element instance { xsd:anyURI }? ), + anyNsElement + } + + anyNsElement = + ( element ns:* { anyNsElement | text } + | attribute * { text })* + + Note that this schema is only intended as documentation and not as a + normative schema that captures all constraints of the XML format. It + is possible to use other XML schema languages to define a similar set + of constraints (depending on the features of the chosen schema + language). + + The media type for this format is "application/problem+xml". + + Extension arrays and objects are serialized into the XML format by + considering an element containing a child or children to represent an + object, except for elements containing only one or more child + elements named "i", which are considered arrays. For example, the + example above appears in XML as follows: + + HTTP/1.1 403 Forbidden + Content-Type: application/problem+xml + Content-Language: en + + + + https://example.com/probs/out-of-credit + You do not have enough credit. + Your current balance is 30, but that costs 50. + https://example.net/account/12345/msgs/abc + 30 + + https://example.net/account/12345 + https://example.net/account/67890 + + + + This format uses an XML namespace, primarily to allow embedding it + into other XML-based formats; it does not imply that it can or should + be extended with elements or attributes in other namespaces. The + RELAX NG schema explicitly only allows elements from the one + namespace used in the XML format. Any extension arrays and objects + MUST be serialized into XML markup using only that namespace. + + When using the XML format, it is possible to embed an XML processing + instruction in the XML that instructs clients to transform the XML, + using the referenced XSL Transformations (XSLT) code [XSLT]. If this + code is transforming the XML into (X)HTML, then it is possible to + serve the XML format, and yet have clients capable of performing the + transformation display human-friendly (X)HTML that is rendered and + displayed at the client. Note that when using this method, it is + advisable to use XSLT 1.0 in order to maximize the number of clients + capable of executing the XSLT code. + +Appendix C. Using Problem Details with Other Formats + + In some situations, it can be advantageous to embed problem details + in formats other than those described here. For example, an API that + uses HTML [HTML5] might want to also use HTML for expressing its + problem details. + + Problem details can be embedded in other formats either by + encapsulating one of the existing serializations (JSON or XML) into + that format or by translating the model of a problem detail (as + specified in Section 3) into the format's conventions. + + For example, in HTML, a problem could be embedded by encapsulating + JSON in a script tag: + + + + or by defining a mapping into a Resource Description Framework in + Attributes (RDFa) [RDFA]. + + This specification does not make specific recommendations regarding + embedding problem details in other formats; the appropriate way to + embed them depends both upon the format in use and application of + that format. + +Appendix D. Changes from RFC 7807 + + This revision has made the following changes: + + * Section 4.2 introduces a registry of common problem type URIs + + * Section 3 clarifies how multiple problems should be treated + + * Section 3.1.1 provides guidance for using type URIs that cannot be + dereferenced + +Acknowledgements + + The authors would like to thank Jan Algermissen, Subbu Allamaraju, + Mike Amundsen, Roy Fielding, Eran Hammer, Sam Johnston, Mike McCall, + Julian Reschke, and James Snell for their comments and suggestions. + +Authors' Addresses + + Mark Nottingham + Prahran + Australia + Email: mnot@mnot.net + URI: https://www.mnot.net/ + + + Erik Wilde + Email: erik.wilde@dret.net + URI: http://dret.net/netdret/ + + + Sanjay Dalal + United States of America + Email: sanjay.dalal@cal.berkeley.edu + URI: https://github.com/sdatspun2 -- cgit v1.2.3