diff --git a/src/oas.md b/src/oas.md deleted file mode 100644 index b2db701c19..0000000000 --- a/src/oas.md +++ /dev/null @@ -1,4626 +0,0 @@ -# OpenAPI Specification - -## Version 3.1.1 - -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](https://tools.ietf.org/html/bcp14) [RFC2119](https://tools.ietf.org/html/rfc2119) [RFC8174](https://tools.ietf.org/html/rfc8174) when, and only when, they appear in all capitals, as shown here. - -This document is licensed under [The Apache License, Version 2.0](https://www.apache.org/licenses/LICENSE-2.0.html). - -## Introduction - -The OpenAPI Specification (OAS) defines a standard, language-agnostic interface to HTTP APIs which allows both humans and computers to discover and understand the capabilities of the service without access to source code, documentation, or through network traffic inspection. When properly defined, a consumer can understand and interact with the remote service with a minimal amount of implementation logic. - -An OpenAPI Description can then be used by documentation generation tools to display the API, code generation tools to generate servers and clients in various programming languages, testing tools, and many other use cases. - -For examples of OpenAPI usage and additional documentation, please visit [[?OpenAPI-Learn]]. - -For extension registries and other specifications published by the OpenAPI Initiative, as well as the authoritative rendering of this specification, please visit [spec.openapis.org](https://spec.openapis.org/). - -## Definitions - -### OpenAPI Description - -An OpenAPI Description (OAD) formally describes the surface of an API and its semantics. It is composed of an [entry document](#openapi-description-structure), which must be an OpenAPI Document, and any/all of its referenced documents. An OAD uses and conforms to the OpenAPI Specification, and MUST contain at least one [paths](#paths-object) field, [components](#oas-components) field, or [webhooks](#oas-webhooks) field. - -### OpenAPI Document - -An OpenAPI Document is a single JSON or YAML document that conforms to the OpenAPI Specification. An OpenAPI Document compatible with OAS 3.\*.\* contains a required [`openapi`](#oas-version) field which designates the version of the OAS that it uses. - -### Schema - -A "schema" is a formal description of syntax and structure. -This document serves as the [schema](#schema) for the OpenAPI Specification format; a non-authoritative JSON Schema based on this document is also provided on [spec.openapis.org](https://spec.openapis.org) for informational purposes. -This specification also _uses_ schemas in the form of the [Schema Object](#schema-object). - -### Object - -When capitalized, the word "Object" refers to any of the Objects that are named by section headings in this document. - -### Path Templating - -Path templating refers to the usage of template expressions, delimited by curly braces (`{}`), to mark a section of a URL path as replaceable using path parameters. - -Each template expression in the path MUST correspond to a path parameter that is included in the [Path Item](#path-item-object) itself and/or in each of the Path Item's [Operations](#operation-object). An exception is if the path item is empty, for example due to ACL constraints, matching path parameters are not required. - -The value for these path parameters MUST NOT contain any unescaped "generic syntax" characters described by [RFC3986](https://tools.ietf.org/html/rfc3986#section-3): forward slashes (`/`), question marks (`?`), or hashes (`#`). - -### Media Types - -Media type definitions are spread across several resources. -The media type definitions SHOULD be in compliance with [RFC6838](https://tools.ietf.org/html/rfc6838). - -Some examples of possible media type definitions: - -```text - text/plain; charset=utf-8 - application/json - application/vnd.github+json - application/vnd.github.v3+json - application/vnd.github.v3.raw+json - application/vnd.github.v3.text+json - application/vnd.github.v3.html+json - application/vnd.github.v3.full+json - application/vnd.github.v3.diff - application/vnd.github.v3.patch -``` - -### HTTP Status Codes - -The HTTP Status Codes are used to indicate the status of the executed operation. -Status codes SHOULD be selected from the available status codes registered in the [IANA Status Code Registry](https://www.iana.org/assignments/http-status-codes/http-status-codes.xhtml). - -### Case Sensitivity - -As most field names and values in the OpenAPI Specification are case-sensitive, this document endeavors to call out any case-insensitive names and values. -However, the case sensitivity of field names and values that map directly to HTTP concepts follow the case sensitivity rules of HTTP, even if this document does not make a note of every concept. - -### Undefined and Implementation-Defined Behavior - -This specification deems certain situations to have either _undefined_ or _implementation-defined_ behavior. - -Behavior described as _undefined_ is likely, at least in some circumstances, to result in outcomes that contradict the specification. -This description is used when detecting the contradiction is impossible or impractical. -Implementations MAY support undefined scenarios for historical reasons, including ambiguous text in prior versions of the specification. -This support might produce correct outcomes in many cases, but relying on it is NOT RECOMMENDED as there is no guarantee that it will work across all tools or with future specification versions, even if those versions are otherwise strictly compatible with this one. - -Behavior described as _implementation-defined_ allows implementations to choose which of several different-but-compliant approaches to a requirement to implement. -This documents ambiguous requirements that API description authors are RECOMMENDED to avoid in order to maximize interoperability. -Unlike undefined behavior, it is safe to rely on implementation-defined behavior if _and only if_ it can be guaranteed that all relevant tools support the same behavior. - -## Specification - -### Versions - -The OpenAPI Specification is versioned using a `major`.`minor`.`patch` versioning scheme. The `major`.`minor` portion of the version string (for example `3.1`) SHALL designate the OAS feature set. _`.patch`_ versions address errors in, or provide clarifications to, this document, not the feature set. Tooling which supports OAS 3.1 SHOULD be compatible with all OAS 3.1.\* versions. The patch version SHOULD NOT be considered by tooling, making no distinction between `3.1.0` and `3.1.1` for example. - -Occasionally, non-backwards compatible changes may be made in `minor` versions of the OAS where impact is believed to be low relative to the benefit provided. - -### Format - -An OpenAPI Document that conforms to the OpenAPI Specification is itself a JSON object, which may be represented either in JSON or YAML format. - -For example, if a field has an array value, the JSON array representation will be used: - -```json -{ - "field": [1, 2, 3] -} -``` - -All field names in the specification are **case sensitive**. -This includes all fields that are used as keys in a map, except where explicitly noted that keys are **case insensitive**. - -The [schema](#schema) exposes two types of fields: _fixed fields_, which have a declared name, and _patterned fields_, which have a declared pattern for the field name. - -Patterned fields MUST have unique names within the containing object. - -In order to preserve the ability to round-trip between YAML and JSON formats, YAML version [1.2](https://yaml.org/spec/1.2/spec.html) is RECOMMENDED along with some additional constraints: - -* Tags MUST be limited to those allowed by [YAML's JSON schema ruleset](https://yaml.org/spec/1.2/spec.html#id2803231), which defines a subset of the YAML syntax and is unrelated to [[JSON-Schema-2020-12|JSON Schema]]. -* Keys used in YAML maps MUST be limited to a scalar string, as defined by the [YAML Failsafe schema ruleset](https://yaml.org/spec/1.2/spec.html#id2802346). - -**Note:** While APIs may be described by OpenAPI Descriptions in either YAML or JSON format, the API request and response bodies and other content are not required to be JSON or YAML. - -### OpenAPI Description Structure - -An OpenAPI Description (OAD) MAY be made up of a single JSON or YAML document or be divided into multiple, connected parts at the discretion of the author. In the latter case, [Reference Object](#reference-object), [Path Item Object](#path-item-object) and [Schema Object](#schema-object) `$ref` fields, as well as the [Link Object](#link-object) `operationRef` field, and the URI form of the [Discriminator Object](#discriminator-object) `mapping` field, are used to identify the referenced elements. - -In a multi-document OAD, the document containing the OpenAPI Object where parsing begins is known as that OAD's **entry document**. - -It is RECOMMENDED that the entry document of an OAD be named: `openapi.json` or `openapi.yaml`. - -#### Parsing Documents - -In order to properly handle [Schema Objects](#schema-object), OAS 3.1 inherits the parsing requirements of [JSON Schema Specification Draft 2020-12](https://datatracker.ietf.org/doc/html/draft-bhutton-json-schema-00#section-9), with appropriate modifications regarding base URIs as specified in [Relative References In URIs](#relative-references-in-api-description-uris). - -This includes a requirement to parse complete documents before deeming a Schema Object reference to be unresolvable, in order to detect keywords that might provide the reference target or impact the determination of the appropriate base URI. - -Implementations MAY support complete-document parsing in any of the following ways: - -* Detecting OpenAPI or JSON Schema documents using media types -* Detecting OpenAPI documents through the root `openapi` field -* Detecting JSON Schema documents through detecting keywords or otherwise successfully parsing the document in accordance with the JSON Schema specification -* Detecting a document containing a referenceable Object at its root based on the expected type of the reference -* Allowing users to configure the type of documents that might be loaded due to a reference to a non-root Object - -Implementations that parse referenced fragments of OpenAPI content without regard for the content of the rest of the containing document will miss keywords that change the meaning and behavior of the reference target. -In particular, failing to take into account keywords that change the base URI introduces security risks by causing references to resolve to unintended URIs, with unpredictable results. -While some implementations support this sort of parsing due to the requirements of past versions of this specification, in version 3.1, the result of parsing fragments in isolation is _undefined_ and likely to contradict the requirements of this specification. - -While it is possible to structure certain OpenAPI Descriptions to ensure that they will behave correctly when references are parsed as isolated fragments, depending on this is NOT RECOMMENDED. -This specification does not explicitly enumerate the conditions under which such behavior is safe and provides no guarantee for continued safety in any future versions of the OAS. - -A special case of parsing fragments of OAS content would be if such fragments are embedded in another format, referred to as an _embedding format_ with respect to the OAS. -Note that the OAS itself is an embedding format with respect to JSON Schema, which is embedded as Schema Objects. -It is the responsibility of an embedding format to define how to parse embedded content, and OAS implementations that do not document support for an embedding format cannot be expected to parse embedded OAS content correctly. - -#### Structural Interoperability - -JSON or YAML objects within an OAD are interpreted as specific Objects (such as [Operation Objects](#operation-object), [Response Objects](#response-object), [Reference Objects](#reference-object), etc.) based on their context. Depending on how references are arranged, a given JSON or YAML object can be interpreted in multiple different contexts: - -* As the root object of the [entry document](#openapi-description-structure), which is always interpreted as an OpenAPI Object -* As the Object type implied by its parent Object within the document -* As a reference target, with the Object type matching the reference source's context - -If the same JSON/YAML object is parsed multiple times and the respective contexts require it to be parsed as _different_ Object types, the resulting behavior is _implementation defined_, and MAY be treated as an error if detected. An example would be referencing an empty Schema Object under `#/components/schemas` where a Path Item Object is expected, as an empty object is valid for both types. For maximum interoperability, it is RECOMMENDED that OpenAPI Description authors avoid such scenarios. - -#### Resolving Implicit Connections - -Several features of this specification require resolution of non-URI-based connections to some other part of the OpenAPI Description (OAD). - -These connections are unambiguously resolved in single-document OADs, but the resolution process in multi-document OADs is _implementation-defined_, within the constraints described in this section. -In some cases, an unambiguous URI-based alternative is available, and OAD authors are RECOMMENDED to always use the alternative: - -| Source | Target | Alternative | -| ---- | ---- | ---- | -| [Security Requirement Object](#security-requirement-object) `{name}` | [Security Scheme Object](#security-scheme-object) name under the [Components Object](#components-object) | _n/a_ | -| [Discriminator Object](#discriminator-object) `mapping` _(implicit, or explicit name syntax)_ | [Schema Object](#schema-object) name under the Components Object | `mapping` _(explicit URI syntax)_ | -| [Operation Object](#operation-object) `tags` | [Tag Object](#tag-object) `name` (in the [OpenAPI Object](#openapi-object)'s `tags` array) | _n/a_ | -| [Link Object](#link-object) `operationId` | [Path Item Object](#path-item-object) `operationId` | `operationRef` | - -A fifth implicit connection involves appending the templated URL paths of the [Paths Object](#paths-object) to the appropriate [Server Object](#server-object)'s `url` field. -This is unambiguous because only the entry document's Paths Object contributes URLs to the described API. - -It is RECOMMENDED to consider all Operation Objects from all parsed documents when resolving any Link Object `operationId`. -This requires parsing all referenced documents prior to determining an `operationId` to be unresolvable. - -The implicit connections in the Security Requirement Object and Discriminator Object rely on the _component name_, which is the name of the property holding the component in the appropriately typed sub-object of the Components Object. -For example, the component name of the Schema Object at `#/components/schemas/Foo` is `Foo`. -The implicit connection of `tags` in the Operation Object uses the `name` field of Tag Objects, which (like the Components Object) are found under the root OpenAPI Object. -This means resolving component names and tag names both depend on starting from the correct OpenAPI Object. - -For resolving component and tag name connections from a referenced (non-entry) document, it is RECOMMENDED that tools resolve from the entry document, rather than the current document. -This allows Security Scheme Objects and Tag Objects to be defined next to the API's deployment information (the top-level array of Server Objects), and treated as an interface for referenced documents to access. - -The interface approach can also work for Discriminator Objects and Schema Objects, but it is also possible to keep the Discriminator Object's behavior within a single document using the relative URI-reference syntax of `mapping`. - -There are no URI-based alternatives for the Security Requirement Object or for the Operation Object's `tags` field. -These limitations are expected to be addressed in a future release. - -See [Appendix F: Resolving Security Requirements in a Referenced Document](#appendix-f-resolving-security-requirements-in-a-referenced-document) for an example of the possible resolutions, including which one is recommended by this section. -The behavior for Discrimator Object non-URI mappings and for the Operation Object's `tags` field operate on the same principles. - -Note that no aspect of implicit connection resolution changes how [URIs are resolved](#relative-references-in-api-description-uris), or restricts their possible targets. - -### Data Types - -Data types in the OAS are based on the types defined by the [JSON Schema Validation Specification Draft 2020-12](https://datatracker.ietf.org/doc/html/draft-bhutton-json-schema-validation-00#section-6.1.1): -"null", "boolean", "object", "array", "number", "string", or "integer". -Models are defined using the [Schema Object](#schema-object), which is a superset of the JSON Schema Specification Draft 2020-12. - -JSON Schema keywords and `format` values operate on JSON "instances" which may be one of the six JSON data types, "null", "boolean", "object", "array", "number", or "string", with certain keywords and formats only applying to a specific type. For example, the `pattern` keyword and the `date-time` format only apply to strings, and treat any instance of the other five types as _automatically valid._ This means JSON Schema keywords and formats do **NOT** implicitly require the expected type. Use the `type` keyword to explicitly constrain the type. - -Note that the `type` keyword allows `"integer"` as a value for convenience, but keyword and format applicability does not recognize integers as being of a distinct JSON type from other numbers because [[RFC7159|JSON]] itself does not make that distinction. Since there is no distinct JSON integer type, JSON Schema defines integers mathematically. This means that both `1` and `1.0` are [equivalent](https://datatracker.ietf.org/doc/html/draft-bhutton-json-schema-00#section-4.2.2), and are both considered to be integers. - -#### Data Type Format - -As defined by the [JSON Schema Validation specification](https://tools.ietf.org/html/draft-bhutton-json-schema-validation-00#section-7.3), data types can have an optional modifier keyword: `format`. As described in that specification, `format` is treated as a non-validating annotation by default; the ability to validate `format` varies across implementations. - -The OpenAPI Initiative also hosts a [Format Registry](https://spec.openapis.org/registry/format/) for formats defined by OAS users and other specifications. Support for any registered format is strictly OPTIONAL, and support for one registered format does not imply support for any others. - -Types that are not accompanied by a `format` keyword follow the type definition in the JSON Schema. Tools that do not recognize a specific `format` MAY default back to the `type` alone, as if the `format` is not specified. -For the purpose of [JSON Schema validation](https://datatracker.ietf.org/doc/html/draft-bhutton-json-schema-validation-00#section-7.1), each format should specify the set of JSON data types for which it applies. In this registry, these types are shown in the "JSON Data Type" column. - -The formats defined by the OAS are: - -| `format` | JSON Data Type | Comments | -| ---- | ---- | ---- | -| `int32` | number | signed 32 bits | -| `int64` | number | signed 64 bits (a.k.a long) | -| `float` | number | | -| `double` | number | | -| `password` | string | A hint to obscure the value. | - -As noted under [Data Type](#data-types), both `type: number` and `type: integer` are considered to be numbers in the data model. - -#### Working with Binary Data - -The OAS can describe either _raw_ or _encoded_ binary data. - -* **raw binary** is used where unencoded binary data is allowed, such as when sending a binary payload as the entire HTTP message body, or as part of a `multipart/*` payload that allows binary parts -* **encoded binary** is used where binary data is embedded in a text-only format such as `application/json` or `application/x-www-form-urlencoded` (either as a message body or in the URL query string). - -In the following table showing how to use Schema Object keywords for binary data, we use `image/png` as an example binary media type. Any binary media type, including `application/octet-stream`, is sufficient to indicate binary content. - -| Keyword | Raw | Encoded | Comments | -| ---- | ---- | ---- | ---- | -| `type` | _omit_ | `string` | raw binary is [outside of `type`](https://datatracker.ietf.org/doc/html/draft-bhutton-json-schema-00#section-4.2.3) | -| `contentMediaType` | `image/png` | `image/png` | can sometimes be omitted if redundant (see below) | -| `contentEncoding` | _omit_ | `base64` or `base64url` | other encodings are [allowed](https://datatracker.ietf.org/doc/html/draft-bhutton-json-schema-validation-00#section-8.3) | - -Note that the encoding indicated by `contentEncoding`, which inflates the size of data in order to represent it as 7-bit ASCII text, is unrelated to HTTP's `Content-Encoding` header, which indicates whether and how a message body has been compressed and is applied after all content serialization described in this section has occurred. Since HTTP allows unencoded binary message bodies, there is no standardized HTTP header for indicating base64 or similar encoding of an entire message body. - -Using a `contentEncoding` of `base64url` ensures that URL encoding (as required in the query string and in message bodies of type `application/x-www-form-urlencoded`) does not need to further encode any part of the already-encoded binary data. - -The `contentMediaType` keyword is redundant if the media type is already set: - -* as the key for a [MediaType Object](#media-type-object) -* in the `contentType` field of an [Encoding Object](#encoding-object) - -If the [Schema Object](#schema-object) will be processed by a non-OAS-aware JSON Schema implementation, it may be useful to include `contentMediaType` even if it is redundant. However, if `contentMediaType` contradicts a relevant Media Type Object or Encoding Object, then `contentMediaType` SHALL be ignored. - -The `maxLength` keyword MAY be used to set an expected upper bound on the length of a streaming payload. The keyword can be applied to either string data, including encoded binary data, or to unencoded binary data. For unencoded binary, the length is the number of octets. - -##### Migrating binary descriptions from OAS 3.0 - -The following table shows how to migrate from OAS 3.0 binary data descriptions, continuing to use `image/png` as the example binary media type: - -| OAS < 3.1 | OAS 3.1 | Comments | -| ---- | ---- | ---- | -| type: string
format: binary | contentMediaType: image/png | if redundant, can be omitted, often resulting in an empty [Schema Object](#schema-object) | -| type: string
format: byte | type: string
contentMediaType: image/png
contentEncoding: base64 | note that `base64url` can be used to avoid re-encoding the base64 string to be URL-safe | - -### Rich Text Formatting - -Throughout the specification `description` fields are noted as supporting CommonMark markdown formatting. -Where OpenAPI tooling renders rich text it MUST support, at a minimum, markdown syntax as described by [CommonMark 0.27](https://spec.commonmark.org/0.27/). Tooling MAY choose to ignore some CommonMark or extension features to address security concerns. - -While the framing of CommonMark 0.27 as a minimum requirement means that tooling MAY choose to implement extensions on top of it, note that any such extensions are by definition implementation-defined and will not be interoperable. -OpenAPI Description authors SHOULD consider how text using such extensions will be rendered by tools that offer only the minimum support. - -### Relative References in API Description URIs - -URIs used as references within an OpenAPI Description, or to external documentation or other supplementary information such as a license, are resolved as _identifiers_, and described by this specification as **_URIs_**. -As noted under [Parsing Documents](#parsing-documents), this specification inherits JSON Schema Specification Draft 2020-12's requirements for [loading documents](https://datatracker.ietf.org/doc/html/draft-bhutton-json-schema-00#section-9) and associating them with their expected URIs, which might not match their current location. -This feature is used both for working in development or test environments without having to change the URIs, and for working within restrictive network configurations or security policies. - -Note that some URI fields are named `url` for historical reasons, but the descriptive text for those fields uses the correct "URI" terminology. - -Unless specified otherwise, all fields that are URIs MAY be relative references as defined by [RFC3986](https://tools.ietf.org/html/rfc3986#section-4.2). - -Relative references in [Schema Objects](#schema-object), including any that appear as `$id` values, use the nearest parent `$id` as a Base URI, as described by [JSON Schema Specification Draft 2020-12](https://tools.ietf.org/html/draft-bhutton-json-schema-00#section-8.2). - -Relative URI references in other Objects, and in Schema Objects where no parent schema contains an `$id`, MUST be resolved using the referring document's base URI, which is determined in accordance with [[RFC3986]] [Section 5.1.2 – 5.1.4](https://tools.ietf.org/html/rfc3986#section-5.1.2). -In practice, this is usually the retrieval URI of the document, which MAY be determined based on either its current actual location or a user-supplied expected location. - -If a URI contains a fragment identifier, then the fragment should be resolved per the fragment resolution mechanism of the referenced document. If the representation of the referenced document is JSON or YAML, then the fragment identifier SHOULD be interpreted as a JSON-Pointer as per [RFC6901](https://tools.ietf.org/html/rfc6901). - -Relative references in CommonMark hyperlinks are resolved in their rendered context, which might differ from the context of the API description. - -### Relative References in API URLs - -API endpoints are by definition accessed as locations, and are described by this specification as **_URLs_**. - -Unless specified otherwise, all fields that are URLs MAY be relative references as defined by [RFC3986](https://tools.ietf.org/html/rfc3986#section-4.2). -Unless specified otherwise, relative references are resolved using the URLs defined in the [Server Object](#server-object) as a Base URL. Note that these themselves MAY be relative to the referring document. - -### Schema - -This section describes the structure of the OpenAPI Description format. -This text is the only normative description of the format. -A JSON Schema is hosted on [spec.openapis.org](https://spec.openapis.org) for informational purposes. -If the JSON Schema differs from this section, then this section MUST be considered authoritative. - -In the following description, if a field is not explicitly **REQUIRED** or described with a MUST or SHALL, it can be considered OPTIONAL. - -#### OpenAPI Object - -This is the root object of the [OpenAPI Description](#openapi-description). - -##### Fixed Fields - -| Field Name | Type | Description | -| ---- | :----: | ---- | -| openapi | `string` | **REQUIRED**. This string MUST be the [version number](#versions) of the OpenAPI Specification that the OpenAPI Document uses. The `openapi` field SHOULD be used by tooling to interpret the OpenAPI Document. This is _not_ related to the API [`info.version`](#info-version) string. | -| info | [Info Object](#info-object) | **REQUIRED**. Provides metadata about the API. The metadata MAY be used by tooling as required. | -| jsonSchemaDialect | `string` | The default value for the `$schema` keyword within [Schema Objects](#schema-object) contained within this OAS document. This MUST be in the form of a URI. | -| servers | [[Server Object](#server-object)] | An array of Server Objects, which provide connectivity information to a target server. If the `servers` field is not provided, or is an empty array, the default value would be a [Server Object](#server-object) with a [url](#server-url) value of `/`. | -| paths | [Paths Object](#paths-object) | The available paths and operations for the API. | -| webhooks | Map[`string`, [Path Item Object](#path-item-object)] | The incoming webhooks that MAY be received as part of this API and that the API consumer MAY choose to implement. Closely related to the `callbacks` feature, this section describes requests initiated other than by an API call, for example by an out of band registration. The key name is a unique string to refer to each webhook, while the (optionally referenced) Path Item Object describes a request that may be initiated by the API provider and the expected responses. An [example](https://learn.openapis.org/examples/v3.1/webhook-example.html) is available. | -| components | [Components Object](#components-object) | An element to hold various Objects for the OpenAPI Description. | -| security | [[Security Requirement Object](#security-requirement-object)] | A declaration of which security mechanisms can be used across the API. The list of values includes alternative Security Requirement Objects that can be used. Only one of the Security Requirement Objects need to be satisfied to authorize a request. Individual operations can override this definition. The list can be incomplete, up to being empty or absent. To make security explicitly optional, an empty security requirement (`{}`) can be included in the array. | -| tags | [[Tag Object](#tag-object)] | A list of tags used by the OpenAPI Description with additional metadata. The order of the tags can be used to reflect on their order by the parsing tools. Not all tags that are used by the [Operation Object](#operation-object) must be declared. The tags that are not declared MAY be organized randomly or based on the tools' logic. Each tag name in the list MUST be unique. | -| externalDocs | [External Documentation Object](#external-documentation-object) | Additional external documentation. | - -This object MAY be extended with [Specification Extensions](#specification-extensions). - -#### Info Object - -The object provides metadata about the API. -The metadata MAY be used by the clients if needed, and MAY be presented in editing or documentation generation tools for convenience. - -##### Fixed Fields - -| Field Name | Type | Description | -| ---- | :----: | ---- | -| title | `string` | **REQUIRED**. The title of the API. | -| summary | `string` | A short summary of the API. | -| description | `string` | A description of the API. [CommonMark syntax](https://spec.commonmark.org/) MAY be used for rich text representation. | -| termsOfService | `string` | A URI for the Terms of Service for the API. This MUST be in the form of a URI. | -| contact | [Contact Object](#contact-object) | The contact information for the exposed API. | -| license | [License Object](#license-object) | The license information for the exposed API. | -| version | `string` | **REQUIRED**. The version of the OpenAPI Document (which is distinct from the [OpenAPI Specification version](#oas-version) or the version of the API being described or the version of the OpenAPI Description). | - -This object MAY be extended with [Specification Extensions](#specification-extensions). - -##### Info Object Example - -```json -{ - "title": "Example Pet Store App", - "summary": "A pet store manager.", - "description": "This is an example server for a pet store.", - "termsOfService": "https://example.com/terms/", - "contact": { - "name": "API Support", - "url": "https://www.example.com/support", - "email": "support@example.com" - }, - "license": { - "name": "Apache 2.0", - "url": "https://www.apache.org/licenses/LICENSE-2.0.html" - }, - "version": "1.0.1" -} -``` - -```yaml -title: Example Pet Store App -summary: A pet store manager. -description: This is an example server for a pet store. -termsOfService: https://example.com/terms/ -contact: - name: API Support - url: https://www.example.com/support - email: support@example.com -license: - name: Apache 2.0 - url: https://www.apache.org/licenses/LICENSE-2.0.html -version: 1.0.1 -``` - -#### Contact Object - -Contact information for the exposed API. - -##### Fixed Fields - -| Field Name | Type | Description | -| ---- | :----: | ---- | -| name | `string` | The identifying name of the contact person/organization. | -| url | `string` | The URI for the contact information. This MUST be in the form of a URI. | -| email | `string` | The email address of the contact person/organization. This MUST be in the form of an email address. | - -This object MAY be extended with [Specification Extensions](#specification-extensions). - -##### Contact Object Example - -```json -{ - "name": "API Support", - "url": "https://www.example.com/support", - "email": "support@example.com" -} -``` - -```yaml -name: API Support -url: https://www.example.com/support -email: support@example.com -``` - -#### License Object - -License information for the exposed API. - -##### Fixed Fields - -| Field Name | Type | Description | -| ---- | :----: | ---- | -| name | `string` | **REQUIRED**. The license name used for the API. | -| identifier | `string` | An [SPDX](https://spdx.org/licenses/) license expression for the API. The `identifier` field is mutually exclusive of the `url` field. | -| url | `string` | A URI for the license used for the API. This MUST be in the form of a URI. The `url` field is mutually exclusive of the `identifier` field. | - -This object MAY be extended with [Specification Extensions](#specification-extensions). - -##### License Object Example - -```json -{ - "name": "Apache 2.0", - "identifier": "Apache-2.0" -} -``` - -```yaml -name: Apache 2.0 -identifier: Apache-2.0 -``` - -#### Server Object - -An object representing a Server. - -##### Fixed Fields - -| Field Name | Type | Description | -| ---- | :----: | ---- | -| url | `string` | **REQUIRED**. A URL to the target host. This URL supports Server Variables and MAY be relative, to indicate that the host location is relative to the location where the document containing the Server Object is being served. Variable substitutions will be made when a variable is named in `{`braces`}`. | -| description | `string` | An optional string describing the host designated by the URL. [CommonMark syntax](https://spec.commonmark.org/) MAY be used for rich text representation. | -| variables | Map[`string`, [Server Variable Object](#server-variable-object)] | A map between a variable name and its value. The value is used for substitution in the server's URL template. | - -This object MAY be extended with [Specification Extensions](#specification-extensions). - -##### Server Object Example - -A single server would be described as: - -```json -{ - "url": "https://development.gigantic-server.com/v1", - "description": "Development server" -} -``` - -```yaml -url: https://development.gigantic-server.com/v1 -description: Development server -``` - -The following shows how multiple servers can be described, for example, at the OpenAPI Object's [`servers`](#oas-servers): - -```json -{ - "servers": [ - { - "url": "https://development.gigantic-server.com/v1", - "description": "Development server" - }, - { - "url": "https://staging.gigantic-server.com/v1", - "description": "Staging server" - }, - { - "url": "https://api.gigantic-server.com/v1", - "description": "Production server" - } - ] -} -``` - -```yaml -servers: - - url: https://development.gigantic-server.com/v1 - description: Development server - - url: https://staging.gigantic-server.com/v1 - description: Staging server - - url: https://api.gigantic-server.com/v1 - description: Production server -``` - -The following shows how variables can be used for a server configuration: - -```json -{ - "servers": [ - { - "url": "https://{username}.gigantic-server.com:{port}/{basePath}", - "description": "The production API server", - "variables": { - "username": { - "default": "demo", - "description": "A user-specific subdomain. Use `demo` for a free sandbox environment." - }, - "port": { - "enum": ["8443", "443"], - "default": "8443" - }, - "basePath": { - "default": "v2" - } - } - } - ] -} -``` - -```yaml -servers: - - url: https://{username}.gigantic-server.com:{port}/{basePath} - description: The production API server - variables: - username: - # note! no enum here means it is an open value - default: demo - description: A user-specific subdomain. Use `demo` for a free sandbox environment. - port: - enum: - - '8443' - - '443' - default: '8443' - basePath: - # open meaning there is the opportunity to use special base paths as assigned by the provider, default is `v2` - default: v2 -``` - -#### Server Variable Object - -An object representing a Server Variable for server URL template substitution. - -##### Fixed Fields - -| Field Name | Type | Description | -| ---- | :----: | ---- | -| enum | [`string`] | An enumeration of string values to be used if the substitution options are from a limited set. The array MUST NOT be empty. | -| default | `string` | **REQUIRED**. The default value to use for substitution, which SHALL be sent if an alternate value is _not_ supplied. If the [`enum`](#server-variable-enum) is defined, the value MUST exist in the enum's values. Note that this behavior is different from the [Schema Object](#schema-object)'s `default` keyword, which documents the receiver's behavior rather than inserting the value into the data. | -| description | `string` | An optional description for the server variable. [CommonMark syntax](https://spec.commonmark.org/) MAY be used for rich text representation. | - -This object MAY be extended with [Specification Extensions](#specification-extensions). - -#### Components Object - -Holds a set of reusable objects for different aspects of the OAS. -All objects defined within the Components Object will have no effect on the API unless they are explicitly referenced from outside the Components Object. - -##### Fixed Fields - -| Field Name | Type | Description | -| ---- | :---- | ---- | -| schemas | Map[`string`, [Schema Object](#schema-object)] | An object to hold reusable [Schema Objects](#schema-object). | -| responses | Map[`string`, [Response Object](#response-object) \| [Reference Object](#reference-object)] | An object to hold reusable [Response Objects](#response-object). | -| parameters | Map[`string`, [Parameter Object](#parameter-object) \| [Reference Object](#reference-object)] | An object to hold reusable [Parameter Objects](#parameter-object). | -| examples | Map[`string`, [Example Object](#example-object) \| [Reference Object](#reference-object)] | An object to hold reusable [Example Objects](#example-object). | -| requestBodies | Map[`string`, [Request Body Object](#request-body-object) \| [Reference Object](#reference-object)] | An object to hold reusable [Request Body Objects](#request-body-object). | -| headers | Map[`string`, [Header Object](#header-object) \| [Reference Object](#reference-object)] | An object to hold reusable [Header Objects](#header-object). | -| securitySchemes | Map[`string`, [Security Scheme Object](#security-scheme-object) \| [Reference Object](#reference-object)] | An object to hold reusable [Security Scheme Objects](#security-scheme-object). | -| links | Map[`string`, [Link Object](#link-object) \| [Reference Object](#reference-object)] | An object to hold reusable [Link Objects](#link-object). | -| callbacks | Map[`string`, [Callback Object](#callback-object) \| [Reference Object](#reference-object)] | An object to hold reusable [Callback Objects](#callback-object). | -| pathItems | Map[`string`, [Path Item Object](#path-item-object)] | An object to hold reusable [Path Item Objects](#path-item-object). | - -This object MAY be extended with [Specification Extensions](#specification-extensions). - -All the fixed fields declared above are objects that MUST use keys that match the regular expression: `^[a-zA-Z0-9\.\-_]+$`. - -Field Name Examples: - -```text -User -User_1 -User_Name -user-name -my.org.User -``` - -##### Components Object Example - -```json -"components": { - "schemas": { - "GeneralError": { - "type": "object", - "properties": { - "code": { - "type": "integer", - "format": "int32" - }, - "message": { - "type": "string" - } - } - }, - "Category": { - "type": "object", - "properties": { - "id": { - "type": "integer", - "format": "int64" - }, - "name": { - "type": "string" - } - } - }, - "Tag": { - "type": "object", - "properties": { - "id": { - "type": "integer", - "format": "int64" - }, - "name": { - "type": "string" - } - } - } - }, - "parameters": { - "skipParam": { - "name": "skip", - "in": "query", - "description": "number of items to skip", - "required": true, - "schema": { - "type": "integer", - "format": "int32" - } - }, - "limitParam": { - "name": "limit", - "in": "query", - "description": "max records to return", - "required": true, - "schema" : { - "type": "integer", - "format": "int32" - } - } - }, - "responses": { - "NotFound": { - "description": "Entity not found." - }, - "IllegalInput": { - "description": "Illegal input for operation." - }, - "GeneralError": { - "description": "General Error", - "content": { - "application/json": { - "schema": { - "$ref": "#/components/schemas/GeneralError" - } - } - } - } - }, - "securitySchemes": { - "api_key": { - "type": "apiKey", - "name": "api-key", - "in": "header" - }, - "petstore_auth": { - "type": "oauth2", - "flows": { - "implicit": { - "authorizationUrl": "https://example.org/api/oauth/dialog", - "scopes": { - "write:pets": "modify pets in your account", - "read:pets": "read your pets" - } - } - } - } - } -} -``` - -```yaml -components: - schemas: - GeneralError: - type: object - properties: - code: - type: integer - format: int32 - message: - type: string - Category: - type: object - properties: - id: - type: integer - format: int64 - name: - type: string - Tag: - type: object - properties: - id: - type: integer - format: int64 - name: - type: string - parameters: - skipParam: - name: skip - in: query - description: number of items to skip - required: true - schema: - type: integer - format: int32 - limitParam: - name: limit - in: query - description: max records to return - required: true - schema: - type: integer - format: int32 - responses: - NotFound: - description: Entity not found. - IllegalInput: - description: Illegal input for operation. - GeneralError: - description: General Error - content: - application/json: - schema: - $ref: '#/components/schemas/GeneralError' - securitySchemes: - api_key: - type: apiKey - name: api-key - in: header - petstore_auth: - type: oauth2 - flows: - implicit: - authorizationUrl: https://example.org/api/oauth/dialog - scopes: - write:pets: modify pets in your account - read:pets: read your pets -``` - -#### Paths Object - -Holds the relative paths to the individual endpoints and their operations. -The path is appended to the URL from the [Server Object](#server-object) in order to construct the full URL. The Paths Object MAY be empty, due to [Access Control List (ACL) constraints](#security-filtering). - -##### Patterned Fields - -| Field Pattern | Type | Description | -| ---- | :----: | ---- | -| /{path} | [Path Item Object](#path-item-object) | A relative path to an individual endpoint. The field name MUST begin with a forward slash (`/`). The path is **appended** (no relative URL resolution) to the expanded URL from the [Server Object](#server-object)'s `url` field in order to construct the full URL. [Path templating](#path-templating) is allowed. When matching URLs, concrete (non-templated) paths would be matched before their templated counterparts. Templated paths with the same hierarchy but different templated names MUST NOT exist as they are identical. In case of ambiguous matching, it's up to the tooling to decide which one to use. | - -This object MAY be extended with [Specification Extensions](#specification-extensions). - -##### Path Templating Matching - -Assuming the following paths, the concrete definition, `/pets/mine`, will be matched first if used: - -```text - /pets/{petId} - /pets/mine -``` - -The following paths are considered identical and invalid: - -```text - /pets/{petId} - /pets/{name} -``` - -The following may lead to ambiguous resolution: - -```text - /{entity}/me - /books/{id} -``` - -##### Paths Object Example - -```json -{ - "/pets": { - "get": { - "description": "Returns all pets from the system that the user has access to", - "responses": { - "200": { - "description": "A list of pets.", - "content": { - "application/json": { - "schema": { - "type": "array", - "items": { - "$ref": "#/components/schemas/pet" - } - } - } - } - } - } - } - } -} -``` - -```yaml -/pets: - get: - description: Returns all pets from the system that the user has access to - responses: - '200': - description: A list of pets. - content: - application/json: - schema: - type: array - items: - $ref: '#/components/schemas/pet' -``` - -#### Path Item Object - -Describes the operations available on a single path. -A Path Item MAY be empty, due to [ACL constraints](#security-filtering). -The path itself is still exposed to the documentation viewer but they will not know which operations and parameters are available. - -##### Fixed Fields - -| Field Name | Type | Description | -| ---- | :----: | ---- | -| $ref | `string` | Allows for a referenced definition of this path item. The value MUST be in the form of a URI, and the referenced structure MUST be in the form of a [Path Item Object](#path-item-object). In case a Path Item Object field appears both in the defined object and the referenced object, the behavior is undefined. See the rules for resolving [Relative References](#relative-references-in-api-description-uris).

_**Note:** The behavior of `$ref` with adjacent properties is likely to change in future versions of this specification to bring it into closer alignment with the behavior of the [Reference Object](#reference-object)._ | -| summary | `string` | An optional string summary, intended to apply to all operations in this path. | -| description | `string` | An optional string description, intended to apply to all operations in this path. [CommonMark syntax](https://spec.commonmark.org/) MAY be used for rich text representation. | -| get | [Operation Object](#operation-object) | A definition of a GET operation on this path. | -| put | [Operation Object](#operation-object) | A definition of a PUT operation on this path. | -| post | [Operation Object](#operation-object) | A definition of a POST operation on this path. | -| delete | [Operation Object](#operation-object) | A definition of a DELETE operation on this path. | -| options | [Operation Object](#operation-object) | A definition of a OPTIONS operation on this path. | -| head | [Operation Object](#operation-object) | A definition of a HEAD operation on this path. | -| patch | [Operation Object](#operation-object) | A definition of a PATCH operation on this path. | -| trace | [Operation Object](#operation-object) | A definition of a TRACE operation on this path. | -| servers | [[Server Object](#server-object)] | An alternative `servers` array to service all operations in this path. If a `servers` array is specified at the [OpenAPI Object](#oas-servers) level, it will be overridden by this value. | -| parameters | [[Parameter Object](#parameter-object) \| [Reference Object](#reference-object)] | A list of parameters that are applicable for all the operations described under this path. These parameters can be overridden at the operation level, but cannot be removed there. The list MUST NOT include duplicated parameters. A unique parameter is defined by a combination of a [name](#parameter-name) and [location](#parameter-in). The list can use the [Reference Object](#reference-object) to link to parameters that are defined in the [OpenAPI Object's `components.parameters`](#components-parameters). | - -This object MAY be extended with [Specification Extensions](#specification-extensions). - -##### Path Item Object Example - -```json -{ - "get": { - "description": "Returns pets based on ID", - "summary": "Find pets by ID", - "operationId": "getPetsById", - "responses": { - "200": { - "description": "pet response", - "content": { - "*/*": { - "schema": { - "type": "array", - "items": { - "$ref": "#/components/schemas/Pet" - } - } - } - } - }, - "default": { - "description": "error payload", - "content": { - "text/html": { - "schema": { - "$ref": "#/components/schemas/ErrorModel" - } - } - } - } - } - }, - "parameters": [ - { - "name": "id", - "in": "path", - "description": "ID of pet to use", - "required": true, - "schema": { - "type": "array", - "items": { - "type": "string" - } - }, - "style": "simple" - } - ] -} -``` - -```yaml -get: - description: Returns pets based on ID - summary: Find pets by ID - operationId: getPetsById - responses: - '200': - description: pet response - content: - '*/*': - schema: - type: array - items: - $ref: '#/components/schemas/Pet' - default: - description: error payload - content: - text/html: - schema: - $ref: '#/components/schemas/ErrorModel' -parameters: - - name: id - in: path - description: ID of pet to use - required: true - schema: - type: array - items: - type: string - style: simple -``` - -#### Operation Object - -Describes a single API operation on a path. - -##### Fixed Fields - -| Field Name | Type | Description | -| ---- | :----: | ---- | -| tags | [`string`] | A list of tags for API documentation control. Tags can be used for logical grouping of operations by resources or any other qualifier. | -| summary | `string` | A short summary of what the operation does. | -| description | `string` | A verbose explanation of the operation behavior. [CommonMark syntax](https://spec.commonmark.org/) MAY be used for rich text representation. | -| externalDocs | [External Documentation Object](#external-documentation-object) | Additional external documentation for this operation. | -| operationId | `string` | Unique string used to identify the operation. The id MUST be unique among all operations described in the API. The operationId value is **case-sensitive**. Tools and libraries MAY use the operationId to uniquely identify an operation, therefore, it is RECOMMENDED to follow common programming naming conventions. | -| parameters | [[Parameter Object](#parameter-object) \| [Reference Object](#reference-object)] | A list of parameters that are applicable for this operation. If a parameter is already defined at the [Path Item](#path-item-parameters), the new definition will override it but can never remove it. The list MUST NOT include duplicated parameters. A unique parameter is defined by a combination of a [name](#parameter-name) and [location](#parameter-in). The list can use the [Reference Object](#reference-object) to link to parameters that are defined in the [OpenAPI Object's `components.parameters`](#components-parameters). | -| requestBody | [Request Body Object](#request-body-object) \| [Reference Object](#reference-object) | The request body applicable for this operation. The `requestBody` is fully supported in HTTP methods where the HTTP 1.1 specification [RFC7231](https://tools.ietf.org/html/rfc7231#section-4.3.1) has explicitly defined semantics for request bodies. In other cases where the HTTP spec is vague (such as [GET](https://tools.ietf.org/html/rfc7231#section-4.3.1), [HEAD](https://tools.ietf.org/html/rfc7231#section-4.3.2) and [DELETE](https://tools.ietf.org/html/rfc7231#section-4.3.5)), `requestBody` is permitted but does not have well-defined semantics and SHOULD be avoided if possible. | -| responses | [Responses Object](#responses-object) | The list of possible responses as they are returned from executing this operation. | -| callbacks | Map[`string`, [Callback Object](#callback-object) \| [Reference Object](#reference-object)] | A map of possible out-of band callbacks related to the parent operation. The key is a unique identifier for the Callback Object. Each value in the map is a [Callback Object](#callback-object) that describes a request that may be initiated by the API provider and the expected responses. | -| deprecated | `boolean` | Declares this operation to be deprecated. Consumers SHOULD refrain from usage of the declared operation. Default value is `false`. | -| security | [[Security Requirement Object](#security-requirement-object)] | A declaration of which security mechanisms can be used for this operation. The list of values includes alternative Security Requirement Objects that can be used. Only one of the Security Requirement Objects need to be satisfied to authorize a request. To make security optional, an empty security requirement (`{}`) can be included in the array. This definition overrides any declared top-level [`security`](#oas-security). To remove a top-level security declaration, an empty array can be used. | -| servers | [[Server Object](#server-object)] | An alternative `servers` array to service this operation. If a `servers` array is specified at the [Path Item Object](#path-item-servers) or [OpenAPI Object](#oas-servers) level, it will be overridden by this value. | - -This object MAY be extended with [Specification Extensions](#specification-extensions). - -##### Operation Object Example - -```json -{ - "tags": ["pet"], - "summary": "Updates a pet in the store with form data", - "operationId": "updatePetWithForm", - "parameters": [ - { - "name": "petId", - "in": "path", - "description": "ID of pet that needs to be updated", - "required": true, - "schema": { - "type": "string" - } - } - ], - "requestBody": { - "content": { - "application/x-www-form-urlencoded": { - "schema": { - "type": "object", - "properties": { - "name": { - "description": "Updated name of the pet", - "type": "string" - }, - "status": { - "description": "Updated status of the pet", - "type": "string" - } - }, - "required": ["status"] - } - } - } - }, - "responses": { - "200": { - "description": "Pet updated.", - "content": { - "application/json": {}, - "application/xml": {} - } - }, - "405": { - "description": "Method Not Allowed", - "content": { - "application/json": {}, - "application/xml": {} - } - } - }, - "security": [ - { - "petstore_auth": ["write:pets", "read:pets"] - } - ] -} -``` - -```yaml -tags: - - pet -summary: Updates a pet in the store with form data -operationId: updatePetWithForm -parameters: - - name: petId - in: path - description: ID of pet that needs to be updated - required: true - schema: - type: string -requestBody: - content: - application/x-www-form-urlencoded: - schema: - type: object - properties: - name: - description: Updated name of the pet - type: string - status: - description: Updated status of the pet - type: string - required: - - status -responses: - '200': - description: Pet updated. - content: - application/json: {} - application/xml: {} - '405': - description: Method Not Allowed - content: - application/json: {} - application/xml: {} -security: - - petstore_auth: - - write:pets - - read:pets -``` - -#### External Documentation Object - -Allows referencing an external resource for extended documentation. - -##### Fixed Fields - -| Field Name | Type | Description | -| ---- | :----: | ---- | -| description | `string` | A description of the target documentation. [CommonMark syntax](https://spec.commonmark.org/) MAY be used for rich text representation. | -| url | `string` | **REQUIRED**. The URI for the target documentation. This MUST be in the form of a URI. | - -This object MAY be extended with [Specification Extensions](#specification-extensions). - -##### External Documentation Object Example - -```json -{ - "description": "Find more info here", - "url": "https://example.com" -} -``` - -```yaml -description: Find more info here -url: https://example.com -``` - -#### Parameter Object - -Describes a single operation parameter. - -A unique parameter is defined by a combination of a [name](#parameter-name) and [location](#parameter-in). - -See [Appendix E](#appendix-e-percent-encoding-and-form-media-types) for a detailed examination of percent-encoding concerns, including interactions with the `application/x-www-form-urlencoded` query string format. - -##### Parameter Locations - -There are four possible parameter locations specified by the `in` field: - -* path - Used together with [Path Templating](#path-templating), where the parameter value is actually part of the operation's URL. This does not include the host or base path of the API. For example, in `/items/{itemId}`, the path parameter is `itemId`. -* query - Parameters that are appended to the URL. For example, in `/items?id=###`, the query parameter is `id`. -* header - Custom headers that are expected as part of the request. Note that [RFC7230](https://tools.ietf.org/html/rfc7230#section-3.2) states header names are case insensitive. -* cookie - Used to pass a specific cookie value to the API. - -##### Fixed Fields - -The rules for serialization of the parameter are specified in one of two ways. -Parameter Objects MUST include either a `content` field or a `schema` field, but not both. -See [Appendix B](#appendix-b-data-type-conversion) for a discussion of converting values of various types to string representations. - -###### Common Fixed Fields - -These fields MAY be used with either `content` or `schema`. - -| Field Name | Type | Description | -| ---- | :----: | ---- | -| name | `string` | **REQUIRED**. The name of the parameter. Parameter names are _case sensitive_. | -| in | `string` | **REQUIRED**. The location of the parameter. Possible values are `"query"`, `"header"`, `"path"` or `"cookie"`. | -| description | `string` | A brief description of the parameter. This could contain examples of use. [CommonMark syntax](https://spec.commonmark.org/) MAY be used for rich text representation. | -| required | `boolean` | Determines whether this parameter is mandatory. If the [parameter location](#parameter-in) is `"path"`, this field is **REQUIRED** and its value MUST be `true`. Otherwise, the field MAY be included and its default value is `false`. | -| deprecated | `boolean` | Specifies that a parameter is deprecated and SHOULD be transitioned out of usage. Default value is `false`. | -| allowEmptyValue | `boolean` | If `true`, clients MAY pass a zero-length string value in place of parameters that would otherwise be omitted entirely, which the server SHOULD interpret as the parameter being unused. Default value is `false`. If [`style`](#parameter-style) is used, and if [behavior is _n/a_ (cannot be serialized)](#style-examples), the value of `allowEmptyValue` SHALL be ignored. Interactions between this field and the parameter's [Schema Object](#schema-object) are implementation-defined. This field is valid only for `query` parameters. Use of this field is NOT RECOMMENDED, and it is likely to be removed in a later revision. | - -This object MAY be extended with [Specification Extensions](#specification-extensions). - -Note that while `"Cookie"` as a `name` is not forbidden if `in` is `"header"`, the effect of defining a cookie parameter that way is undefined; use `in: "cookie"` instead. - -###### Fixed Fields for use with `schema` - -For simpler scenarios, a [`schema`](#parameter-schema) and [`style`](#parameter-style) can describe the structure and syntax of the parameter. -When `example` or `examples` are provided in conjunction with the `schema` field, the example SHOULD match the specified schema and follow the prescribed serialization strategy for the parameter. -The `example` and `examples` fields are mutually exclusive, and if either is present it SHALL _override_ any `example` in the schema. - -Serializing with `schema` is NOT RECOMMENDED for `in: "cookie"` parameters, `in: "header"` parameters that use HTTP header parameters (name=value pairs following a `;`) in their values, or `in: "header"` parameters where values might have non-URL-safe characters; see [Appendix D](#appendix-d-serializing-headers-and-cookies) for details. - -| Field Name | Type | Description | -| ---- | :----: | ---- | -| style | `string` | Describes how the parameter value will be serialized depending on the type of the parameter value. Default values (based on value of `in`): for `"query"` - `"form"`; for `"path"` - `"simple"`; for `"header"` - `"simple"`; for `"cookie"` - `"form"`. | -| explode | `boolean` | When this is true, parameter values of type `array` or `object` generate separate parameters for each value of the array or key-value pair of the map. For other types of parameters this field has no effect. When [`style`](#parameter-style) is `"form"`, the default value is `true`. For all other styles, the default value is `false`. Note that despite `false` being the default for `deepObject`, the combination of `false` with `deepObject` is undefined. | -| allowReserved | `boolean` | When this is true, parameter values are serialized using reserved expansion, as defined by [RFC6570](https://datatracker.ietf.org/doc/html/rfc6570#section-3.2.3), which allows [RFC3986's reserved character set](https://datatracker.ietf.org/doc/html/rfc3986#section-2.2), as well as percent-encoded triples, to pass through unchanged, while still percent-encoding all other disallowed characters (including `%` outside of percent-encoded triples). Applications are still responsible for percent-encoding reserved characters that are [not allowed in the query string](https://datatracker.ietf.org/doc/html/rfc3986#section-3.4) (`[`, `]`, `#`), or have a special meaning in `application/x-www-form-urlencoded` (`-`, `&`, `+`); see Appendices [C](#appendix-c-using-rfc6570-based-serialization) and [E](#appendix-e-percent-encoding-and-form-media-types) for details. This field only applies to parameters with an `in` value of `query`. The default value is `false`. | -| schema | [Schema Object](#schema-object) | The schema defining the type used for the parameter. | -| example | Any | Example of the parameter's potential value; see [Working With Examples](#working-with-examples). | -| examples | Map[ `string`, [Example Object](#example-object) \| [Reference Object](#reference-object)] | Examples of the parameter's potential value; see [Working With Examples](#working-with-examples). | - -See also [Appendix C: Using RFC6570-Based Serialization](#appendix-c-using-rfc6570-based-serialization) for additional guidance. - -###### Fixed Fields for use with `content` - -For more complex scenarios, the [`content`](#parameter-content) field can define the media type and schema of the parameter, as well as give examples of its use. -Using `content` with a `text/plain` media type is RECOMMENDED for `in: "header"` and `in: "cookie"` parameters where the `schema` strategy is not appropriate. - -| Field Name | Type | Description | -| ---- | :----: | ---- | -| content | Map[`string`, [Media Type Object](#media-type-object)] | A map containing the representations for the parameter. The key is the media type and the value describes it. The map MUST only contain one entry. | - -##### Style Values - -In order to support common ways of serializing simple parameters, a set of `style` values are defined. - -| `style` | [`type`](#data-types) | `in` | Comments | -| ---- | ---- | ---- | ---- | -| matrix | `primitive`, `array`, `object` | `path` | Path-style parameters defined by [RFC6570](https://tools.ietf.org/html/rfc6570#section-3.2.7) | -| label | `primitive`, `array`, `object` | `path` | Label style parameters defined by [RFC6570](https://tools.ietf.org/html/rfc6570#section-3.2.5) | -| simple | `primitive`, `array`, `object` | `path`, `header` | Simple style parameters defined by [RFC6570](https://tools.ietf.org/html/rfc6570#section-3.2.2). This option replaces `collectionFormat` with a `csv` value from OpenAPI 2.0. | -| form | `primitive`, `array`, `object` | `query`, `cookie` | Form style parameters defined by [RFC6570](https://tools.ietf.org/html/rfc6570#section-3.2.8). This option replaces `collectionFormat` with a `csv` (when `explode` is false) or `multi` (when `explode` is true) value from OpenAPI 2.0. | -| spaceDelimited | `array`, `object` | `query` | Space separated array values or object properties and values. This option replaces `collectionFormat` equal to `ssv` from OpenAPI 2.0. | -| pipeDelimited | `array`, `object` | `query` | Pipe separated array values or object properties and values. This option replaces `collectionFormat` equal to `pipes` from OpenAPI 2.0. | -| deepObject | `object` | `query` | Allows objects with scalar properties to be represented using form parameters. The representation of array or object properties is not defined. | - -See [Appendix E](#appendix-e-percent-encoding-and-form-media-types) for a discussion of percent-encoding, including when delimiters need to be percent-encoded and options for handling collisions with percent-encoded data. - -##### Style Examples - -Assume a parameter named `color` has one of the following values: - -```js - string -> "blue" - array -> ["blue", "black", "brown"] - object -> { "R": 100, "G": 200, "B": 150 } -``` - -The following table shows examples, as would be shown with the `example` or `examples` keywords, of the different serializations for each value. - -* The value _empty_ denotes the empty string, and is unrelated to the `allowEmptyValue` field -* The behavior of combinations marked _n/a_ is undefined -* The `undefined` column replaces the `empty` column in previous versions of this specification in order to better align with [RFC6570](https://www.rfc-editor.org/rfc/rfc6570.html#section-2.3) terminology, which describes certain values including but not limited to `null` as "undefined" values with special handling; notably, the empty string is _not_ undefined -* For `form` and the non-RFC6570 query string styles `spaceDelimited`, `pipeDelimited`, and `deepObject`, each example is shown prefixed with `?` as if it were the only query parameter; see [Appendix C](#appendix-c-using-rfc6570-based-serialization) for more information on constructing query strings from multiple parameters, and [Appendix D](#appendix-d-serializing-headers-and-cookies) for warnings regarding `form` and cookie parameters -* Note that the `?` prefix is not appropriate for serializing `application/x-www-form-urlencoded` HTTP message bodies, and MUST be stripped or (if constructing the string manually) not added when used in that context; see the [Encoding Object](#encoding-object) for more information -* The examples are percent-encoded as required by RFC6570 and RFC3986; see [Appendix E](#appendix-e-percent-encoding-and-form-media-types) for a thorough discussion of percent-encoding concerns, including why unencoded `|` (`%7C`), `[` (`%5B`), and `]` (`%5D`) seem to work in some environments despite not being compliant. - -| [`style`](#style-values) | `explode` | `undefined` | `string` | `array` | `object` | -| ---- | ---- | ---- | ---- | ---- | ---- | -| matrix | false | ;color | ;color=blue | ;color=blue,black,brown | ;color=R,100,G,200,B,150 | -| matrix | true | ;color | ;color=blue | ;color=blue;color=black;color=brown | ;R=100;G=200;B=150 | -| label | false | . | .blue | .blue,black,brown | .R,100,G,200,B,150 | -| label | true | . | .blue | .blue.black.brown | .R=100.G=200.B=150 | -| simple | false | _empty_ | blue | blue,black,brown | R,100,G,200,B,150 | -| simple | true | _empty_ | blue | blue,black,brown | R=100,G=200,B=150 | -| form | false | ?color= | ?color=blue | ?color=blue,black,brown | ?color=R,100,G,200,B,150 | -| form | true | ?color= | ?color=blue | ?color=blue&color=black&color=brown | ?R=100&G=200&B=150 | -| spaceDelimited | false | _n/a_ | _n/a_ | ?color=blue%20black%20brown | ?color=R%20100%20G%20200%20B%20150 | -| spaceDelimited | true | _n/a_ | _n/a_ | _n/a_ | _n/a_ | -| pipeDelimited | false | _n/a_ | _n/a_ | ?color=blue%7Cblack%7Cbrown | ?color=R%7C100%7CG%7C200%7CB%7C150 | -| pipeDelimited | true | _n/a_ | _n/a_ | _n/a_ | _n/a_ | -| deepObject | false | _n/a_ | _n/a_ | _n/a_ | _n/a_ | -| deepObject | true | _n/a_ | _n/a_ | _n/a_ | ?color%5BR%5D=100&color%5BG%5D=200&color%5BB%5D=150 | - -##### Parameter Object Examples - -A header parameter with an array of 64-bit integer numbers: - -```json -{ - "name": "token", - "in": "header", - "description": "token to be passed as a header", - "required": true, - "schema": { - "type": "array", - "items": { - "type": "integer", - "format": "int64" - } - }, - "style": "simple" -} -``` - -```yaml -name: token -in: header -description: token to be passed as a header -required: true -schema: - type: array - items: - type: integer - format: int64 -style: simple -``` - -A path parameter of a string value: - -```json -{ - "name": "username", - "in": "path", - "description": "username to fetch", - "required": true, - "schema": { - "type": "string" - } -} -``` - -```yaml -name: username -in: path -description: username to fetch -required: true -schema: - type: string -``` - -An optional query parameter of a string value, allowing multiple values by repeating the query parameter: - -```json -{ - "name": "id", - "in": "query", - "description": "ID of the object to fetch", - "required": false, - "schema": { - "type": "array", - "items": { - "type": "string" - } - }, - "style": "form", - "explode": true -} -``` - -```yaml -name: id -in: query -description: ID of the object to fetch -required: false -schema: - type: array - items: - type: string -style: form -explode: true -``` - -A free-form query parameter, allowing undefined parameters of a specific type: - -```json -{ - "in": "query", - "name": "freeForm", - "schema": { - "type": "object", - "additionalProperties": { - "type": "integer" - } - }, - "style": "form" -} -``` - -```yaml -in: query -name: freeForm -schema: - type: object - additionalProperties: - type: integer -style: form -``` - -A complex parameter using `content` to define serialization: - -```json -{ - "in": "query", - "name": "coordinates", - "content": { - "application/json": { - "schema": { - "type": "object", - "required": ["lat", "long"], - "properties": { - "lat": { - "type": "number" - }, - "long": { - "type": "number" - } - } - } - } - } -} -``` - -```yaml -in: query -name: coordinates -content: - application/json: - schema: - type: object - required: - - lat - - long - properties: - lat: - type: number - long: - type: number -``` - -#### Request Body Object - -Describes a single request body. - -##### Fixed Fields - -| Field Name | Type | Description | -| ---- | :----: | ---- | -| description | `string` | A brief description of the request body. This could contain examples of use. [CommonMark syntax](https://spec.commonmark.org/) MAY be used for rich text representation. | -| content | Map[`string`, [Media Type Object](#media-type-object)] | **REQUIRED**. The content of the request body. The key is a media type or [media type range](https://tools.ietf.org/html/rfc7231#appendix-D) and the value describes it. For requests that match multiple keys, only the most specific key is applicable. e.g. `"text/plain"` overrides `"text/*"` | -| required | `boolean` | Determines if the request body is required in the request. Defaults to `false`. | - -This object MAY be extended with [Specification Extensions](#specification-extensions). - -##### Request Body Examples - -A request body with a referenced schema definition. - -```json -{ - "description": "user to add to the system", - "content": { - "application/json": { - "schema": { - "$ref": "#/components/schemas/User" - }, - "examples": { - "user": { - "summary": "User Example", - "externalValue": "https://foo.bar/examples/user-example.json" - } - } - }, - "application/xml": { - "schema": { - "$ref": "#/components/schemas/User" - }, - "examples": { - "user": { - "summary": "User example in XML", - "externalValue": "https://foo.bar/examples/user-example.xml" - } - } - }, - "text/plain": { - "examples": { - "user": { - "summary": "User example in Plain text", - "externalValue": "https://foo.bar/examples/user-example.txt" - } - } - }, - "*/*": { - "examples": { - "user": { - "summary": "User example in other format", - "externalValue": "https://foo.bar/examples/user-example.whatever" - } - } - } - } -} -``` - -```yaml -description: user to add to the system -content: - application/json: - schema: - $ref: '#/components/schemas/User' - examples: - user: - summary: User example - externalValue: https://foo.bar/examples/user-example.json - application/xml: - schema: - $ref: '#/components/schemas/User' - examples: - user: - summary: User example in XML - externalValue: https://foo.bar/examples/user-example.xml - text/plain: - examples: - user: - summary: User example in plain text - externalValue: https://foo.bar/examples/user-example.txt - '*/*': - examples: - user: - summary: User example in other format - externalValue: https://foo.bar/examples/user-example.whatever -``` - -#### Media Type Object - -Each Media Type Object provides schema and examples for the media type identified by its key. - -When `example` or `examples` are provided, the example SHOULD match the specified schema and be in the correct format as specified by the media type and its encoding. -The `example` and `examples` fields are mutually exclusive, and if either is present it SHALL _override_ any `example` in the schema. -See [Working With Examples](#working-with-examples) for further guidance regarding the different ways of specifying examples, including non-JSON/YAML values. - -##### Fixed Fields - -| Field Name | Type | Description | -| ---- | :----: | ---- | -| schema | [Schema Object](#schema-object) | The schema defining the content of the request, response, parameter, or header. | -| example | Any | Example of the media type; see [Working With Examples](#working-with-examples). | -| examples | Map[ `string`, [Example Object](#example-object) \| [Reference Object](#reference-object)] | Examples of the media type; see [Working With Examples](#working-with-examples). | -| encoding | Map[`string`, [Encoding Object](#encoding-object)] | A map between a property name and its encoding information. The key, being the property name, MUST exist in the schema as a property. The `encoding` field SHALL only apply to [Request Body Objects](#request-body-object), and only when the media type is `multipart` or `application/x-www-form-urlencoded`. If no Encoding Object is provided for a property, the behavior is determined by the default values documented for the Encoding Object. | - -This object MAY be extended with [Specification Extensions](#specification-extensions). - -##### Media Type Examples - -```json -{ - "application/json": { - "schema": { - "$ref": "#/components/schemas/Pet" - }, - "examples": { - "cat": { - "summary": "An example of a cat", - "value": { - "name": "Fluffy", - "petType": "Cat", - "color": "White", - "gender": "male", - "breed": "Persian" - } - }, - "dog": { - "summary": "An example of a dog with a cat's name", - "value": { - "name": "Puma", - "petType": "Dog", - "color": "Black", - "gender": "Female", - "breed": "Mixed" - } - }, - "frog": { - "$ref": "#/components/examples/frog-example" - } - } - } -} -``` - -```yaml -application/json: - schema: - $ref: '#/components/schemas/Pet' - examples: - cat: - summary: An example of a cat - value: - name: Fluffy - petType: Cat - color: White - gender: male - breed: Persian - dog: - summary: An example of a dog with a cat's name - value: - name: Puma - petType: Dog - color: Black - gender: Female - breed: Mixed - frog: - $ref: '#/components/examples/frog-example' -``` - -##### Considerations for File Uploads - -In contrast to OpenAPI 2.0, `file` input/output content in OAS 3.x is described with the same semantics as any other schema type. - -In contrast to OAS 3.0, the `format` keyword has no effect on the content-encoding of the schema in OAS 3.1. Instead, JSON Schema's `contentEncoding` and `contentMediaType` keywords are used. See [Working With Binary Data](#working-with-binary-data) for how to model various scenarios with these keywords, and how to migrate from the previous `format` usage. - -Examples: - -Content transferred in binary (octet-stream) MAY omit `schema`: - -```yaml -# a PNG image as a binary file: -content: - image/png: {} -``` - -```yaml -# an arbitrary binary file: -content: - application/octet-stream: {} -``` - -```yaml -# arbitrary JSON without constraints beyond being syntactically valid: -content: - application/json: {} -``` - -These examples apply to either input payloads of file uploads or response payloads. - -A `requestBody` for submitting a file in a `POST` operation may look like the following example: - -```yaml -requestBody: - content: - application/octet-stream: {} -``` - -In addition, specific media types MAY be specified: - -```yaml -# multiple, specific media types may be specified: -requestBody: - content: - # a binary file of type png or jpeg - image/jpeg: {} - image/png: {} -``` - -To upload multiple files, a `multipart` media type MUST be used as shown under [Example: Multipart Form with Multiple Files](#example-multipart-form-with-multiple-files). - -##### Support for x-www-form-urlencoded Request Bodies - -See [Encoding the `x-www-form-urlencoded` Media Type](#encoding-the-x-www-form-urlencoded-media-type) for guidance and examples, both with and without the `encoding` field. - -##### Special Considerations for `multipart` Content - -See [Encoding `multipart` Media Types](#encoding-multipart-media-types) for further guidance and examples, both with and without the `encoding` field. - -#### Encoding Object - -A single encoding definition applied to a single schema property. -See [Appendix B](#appendix-b-data-type-conversion) for a discussion of converting values of various types to string representations. - -Properties are correlated with `multipart` parts using the [`name` parameter](https://www.rfc-editor.org/rfc/rfc7578#section-4.2) of `Content-Disposition: form-data`, and with `application/x-www-form-urlencoded` using the query string parameter names. -In both cases, their order is implementation-defined. - -See [Appendix E](#appendix-e-percent-encoding-and-form-media-types) for a detailed examination of percent-encoding concerns for form media types. - -##### Fixed Fields - -###### Common Fixed Fields - -These fields MAY be used either with or without the RFC6570-style serialization fields defined in the next section below. - -| Field Name | Type | Description | -| ---- | :----: | ---- | -| contentType | `string` | The `Content-Type` for encoding a specific property. The value is a comma-separated list, each element of which is either a specific media type (e.g. `image/png`) or a wildcard media type (e.g. `image/*`). Default value depends on the property type as shown in the table below. | -| headers | Map[`string`, [Header Object](#header-object) \| [Reference Object](#reference-object)] | A map allowing additional information to be provided as headers. `Content-Type` is described separately and SHALL be ignored in this section. This field SHALL be ignored if the request body media type is not a `multipart`. | - -This object MAY be extended with [Specification Extensions](#specification-extensions). - -The default values for `contentType` are as follows, where an _n/a_ in the `contentEncoding` column means that the presence or value of `contentEncoding` is irrelevant: - -| `type` | `contentEncoding` | Default `contentType` | -| ---- | ---- | ---- | -| [_absent_](#working-with-binary-data) | _n/a_ | `application/octet-stream` | -| `string` | _present_ | `application/octet-stream` | -| `string` | _absent_ | `text/plain` | -| `number`, `integer`, or `boolean` | _n/a_ | `text/plain` | -| `object` | _n/a_ | `application/json` | -| `array` | _n/a_ | according to the `type` of the `items` schema | - -Determining how to handle a `type` value of `null` depends on how `null` values are being serialized. -If `null` values are entirely omitted, then the `contentType` is irrelevant. -See [Appendix B](#appendix-b-data-type-conversion) for a discussion of data type conversion options. - -###### Fixed Fields for RFC6570-style Serialization - -| Field Name | Type | Description | -| ---- | :----: | ---- | -| style | `string` | Describes how a specific property value will be serialized depending on its type. See [Parameter Object](#parameter-object) for details on the [`style`](#parameter-style) field. The behavior follows the same values as `query` parameters, including default values. Note that the initial `?` used in query strings is not used in `application/x-www-form-urlencoded` message bodies, and MUST be removed (if using an RFC6570 implementation) or simply not added (if constructing the string manually). This field SHALL be ignored if the request body media type is not `application/x-www-form-urlencoded` or `multipart/form-data`. If a value is explicitly defined, then the value of [`contentType`](#encoding-content-type) (implicit or explicit) SHALL be ignored. | -| explode | `boolean` | When this is true, property values of type `array` or `object` generate separate parameters for each value of the array, or key-value-pair of the map. For other types of properties this field has no effect. When [`style`](#encoding-style) is `"form"`, the default value is `true`. For all other styles, the default value is `false`. Note that despite `false` being the default for `deepObject`, the combination of `false` with `deepObject` is undefined. This field SHALL be ignored if the request body media type is not `application/x-www-form-urlencoded` or `multipart/form-data`. If a value is explicitly defined, then the value of [`contentType`](#encoding-content-type) (implicit or explicit) SHALL be ignored. | -| allowReserved | `boolean` | When this is true, parameter values are serialized using reserved expansion, as defined by [RFC6570](https://datatracker.ietf.org/doc/html/rfc6570#section-3.2.3), which allows [RFC3986's reserved character set](https://datatracker.ietf.org/doc/html/rfc3986#section-2.2), as well as percent-encoded triples, to pass through unchanged, while still percent-encoding all other disallowed characters (including `%` outside of percent-encoded triples). Applications are still responsible for percent-encoding reserved characters that are [not allowed in the query string](https://datatracker.ietf.org/doc/html/rfc3986#section-3.4) (`[`, `]`, `#`), or have a special meaning in `application/x-www-form-urlencoded` (`-`, `&`, `+`); see Appendices [C](#appendix-c-using-rfc6570-based-serialization) and [E](#appendix-e-percent-encoding-and-form-media-types) for details. The default value is `false`. This field SHALL be ignored if the request body media type is not `application/x-www-form-urlencoded` or `multipart/form-data`. If a value is explicitly defined, then the value of [`contentType`](#encoding-content-type) (implicit or explicit) SHALL be ignored. | - -See also [Appendix C: Using RFC6570 Implementations](#appendix-c-using-rfc6570-based-serialization) for additional guidance, including on difficulties caused by the interaction between RFC6570's percent-encoding rules and the `multipart/form-data` media type. - -Note that the presence of at least one of `style`, `explode`, or `allowReserved` with an explicit value is equivalent to using `schema` with `in: "query"` Parameter Objects. -The absence of all three of those fields is the equivalent of using `content`, but with the media type specified in `contentType` rather than through a Media Type Object. - -##### Encoding the `x-www-form-urlencoded` Media Type - -To submit content using form url encoding via [RFC1866](https://tools.ietf.org/html/rfc1866), use the `application/x-www-form-urlencoded` media type in the [Media Type Object](#media-type-object) under the [Request Body Object](#request-body-object). -This configuration means that the request body MUST be encoded per [RFC1866](https://tools.ietf.org/html/rfc1866) when passed to the server, after any complex objects have been serialized to a string representation. - -See [Appendix E](#appendix-e-percent-encoding-and-form-media-types) for a detailed examination of percent-encoding concerns for form media types. - -###### Example: URL Encoded Form with JSON Values - -When there is no [`encoding`](#media-type-encoding) field, the serialization strategy is based on the Encoding Object's default values: - -```yaml -requestBody: - content: - application/x-www-form-urlencoded: - schema: - type: object - properties: - id: - type: string - format: uuid - address: - # complex types are stringified to support RFC 1866 - type: object - properties: {} -``` - -With this example, consider an `id` of `f81d4fae-7dec-11d0-a765-00a0c91e6bf6` and a US-style address (with ZIP+4) as follows: - -```json -{ - "streetAddress": "123 Example Dr.", - "city": "Somewhere", - "state": "CA", - "zip": "99999+1234" -} -``` - -Assuming the most compact representation of the JSON value (with unnecessary whitespace removed), we would expect to see the following request body, where space characters have been replaced with `+` and `+`, `"`, `{`, and `}` have been percent-encoded to `%2B`, `%22`, `%7B`, and `%7D`, respectively: - -```uri -id=f81d4fae-7dec-11d0-a765-00a0c91e6bf6&address=%7B%22streetAddress%22:%22123+Example+Dr.%22,%22city%22:%22Somewhere%22,%22state%22:%22CA%22,%22zip%22:%2299999%2B1234%22%7D -``` - -Note that the `id` keyword is treated as `text/plain` per the [Encoding Object](#encoding-object)'s default behavior, and is serialized as-is. -If it were treated as `application/json`, then the serialized value would be a JSON string including quotation marks, which would be percent-encoded as `%22`. - -Here is the `id` parameter (without `address`) serialized as `application/json` instead of `text/plain`, and then encoded per RFC1866: - -```uri -id=%22f81d4fae-7dec-11d0-a765-00a0c91e6bf6%22 -``` - -###### Example: URL Encoded Form with Binary Values - -Note that `application/x-www-form-urlencoded` is a text format, which requires base64-encoding any binary data: - -```YAML -requestBody: - content: - application/x-www-form-urlencoded: - schema: - type: object - properties: - name: - type: string - icon: - # The default with "contentEncoding" is application/octet-stream, - # so we need to set image media type(s) in the Encoding Object. - type: string - contentEncoding: base64url - encoding: - icon: - contentType: image/png, image/jpeg -``` - -Given a name of `example` and a solid red 2x2-pixel PNG for `icon`, this -would produce a request body of: - -```uri -name=example&icon=iVBORw0KGgoAAAANSUhEUgAAAAIAAAACCAIAAAD91JpzAAAABGdBTUEAALGPC_xhBQAAADhlWElmTU0AKgAAAAgAAYdpAAQAAAABAAAAGgAAAAAAAqACAAQAAAABAAAAAqADAAQAAAABAAAAAgAAAADO0J6QAAAAEElEQVQIHWP8zwACTGCSAQANHQEDqtPptQAAAABJRU5ErkJggg%3D%3D -``` - -Note that the `=` padding characters at the end need to be percent-encoded, even with the "URL safe" `contentEncoding: base64url`. -Some base64-decoding implementations may be able to use the string without the padding per [RFC4648](https://datatracker.ietf.org/doc/html/rfc4648#section-3.2). -However, this is not guaranteed, so it may be more interoperable to keep the padding and rely on percent-decoding. - -##### Encoding `multipart` Media Types - -It is common to use `multipart/form-data` as a `Content-Type` when transferring forms as request bodies. In contrast to OpenAPI 2.0, a `schema` is REQUIRED to define the input parameters to the operation when using `multipart` content. This supports complex structures as well as supporting mechanisms for multiple file uploads. - -The `form-data` disposition and its `name` parameter are mandatory for `multipart/form-data` ([RFC7578](https://www.rfc-editor.org/rfc/rfc7578.html#section-4.2)). -Array properties are handled by applying the same `name` to multiple parts, as is recommended by [RFC7578](https://www.rfc-editor.org/rfc/rfc7578.html#section-4.3) for supplying multiple values per form field. -See [RFC7578](https://www.rfc-editor.org/rfc/rfc7578.html#section-5) for guidance regarding non-ASCII part names. - -Various other `multipart` types, most notable `multipart/mixed` ([RFC2046](https://www.rfc-editor.org/rfc/rfc2046.html#section-5.1.3)) neither require nor forbid specific `Content-Disposition` values, which means care must be taken to ensure that any values used are supported by all relevant software. -It is not currently possible to correlate schema properties with unnamed, ordered parts in media types such as `multipart/mixed`, but implementations MAY choose to support such types when `Content-Disposition: form-data` is used with a `name` parameter. - -Note that there are significant restrictions on what headers can be used with `multipart` media types in general ([RFC2046](https://www.rfc-editor.org/rfc/rfc2046.html#section-5.1)) and `multi-part/form-data` in particular ([RFC7578](https://www.rfc-editor.org/rfc/rfc7578.html#section-4.8)). - -Note also that `Content-Transfer-Encoding` is deprecated for `multipart/form-data` ([RFC7578](https://www.rfc-editor.org/rfc/rfc7578.html#section-4.7)) where binary data is supported, as it is in HTTP. - -+Using `contentEncoding` for a multipart field is equivalent to specifying an [Encoding Object](#encoding-object) with a `headers` field containing `Content-Transfer-Encoding` with a schema that requires the value used in `contentEncoding`. -+If `contentEncoding` is used for a multipart field that has an Encoding Object with a `headers` field containing `Content-Transfer-Encoding` with a schema that disallows the value from `contentEncoding`, the result is undefined for serialization and parsing. - -Note that as stated in [Working with Binary Data](#working-with-binary-data), if the Encoding Object's `contentType`, whether set explicitly or implicitly through its default value rules, disagrees with the `contentMediaType` in a Schema Object, the `contentMediaType` SHALL be ignored. -Because of this, and because the Encoding Object's `contentType` defaulting rules do not take the Schema Object's`contentMediaType` into account, the use of `contentMediaType` with an Encoding Object is NOT RECOMMENDED. - -See [Appendix E](#appendix-e-percent-encoding-and-form-media-types) for a detailed examination of percent-encoding concerns for form media types. - -###### Example: Basic Multipart Form - -When the `encoding` field is _not_ used, the encoding is determined by the Encoding Object's defaults: - -```yaml -requestBody: - content: - multipart/form-data: - schema: - type: object - properties: - id: - # default for primitives without a special format is text/plain - type: string - format: uuid - profileImage: - # default for string with binary format is `application/octet-stream` - type: string - format: binary - addresses: - # default for arrays is based on the type in the `items` - # subschema, which is an object, so `application/json` - type: array - items: - $ref: '#/components/schemas/Address' -``` - -###### Example: Multipart Form with Encoding Objects - -Using `encoding`, we can set more specific types for binary data, or non-JSON formats for complex values. -We can also describe headers for each part: - -```yaml -requestBody: - content: - multipart/form-data: - schema: - type: object - properties: - id: - # default is `text/plain` - type: string - format: uuid - addresses: - # default based on the `items` subschema would be - # `application/json`, but we want these address objects - # serialized as `application/xml` instead - description: addresses in XML format - type: array - items: - $ref: '#/components/schemas/Address' - profileImage: - # default is application/octet-stream, but we can declare - # a more specific image type or types - type: string - format: binary - encoding: - addresses: - # require XML Content-Type in utf-8 encoding - # This is applied to each address part corresponding - # to each address in he array - contentType: application/xml; charset=utf-8 - profileImage: - # only accept png or jpeg - contentType: image/png, image/jpeg - headers: - X-Rate-Limit-Limit: - description: The number of allowed requests in the current period - schema: - type: integer -``` - -###### Example: Multipart Form with Multiple Files - -In accordance with [RFC7578](https://www.rfc-editor.org/rfc/rfc7578.html#section-4.3), multiple files for a single form field are uploaded using the same name (`file` in this example) for each file's part: - -```yaml -requestBody: - content: - multipart/form-data: - schema: - properties: - # The property name 'file' will be used for all files. - file: - type: array - items: {} -``` - -As seen in the [Encoding Object's `contentType` field documentation](#encoding-content-type), the empty schema for `items` indicates a media type of `application/octet-stream`. - -#### Responses Object - -A container for the expected responses of an operation. -The container maps a HTTP response code to the expected response. - -The documentation is not necessarily expected to cover all possible HTTP response codes because they may not be known in advance. -However, documentation is expected to cover a successful operation response and any known errors. - -The `default` MAY be used as a default Response Object for all HTTP codes -that are not covered individually by the Responses Object. - -The Responses Object MUST contain at least one response code, and if only one -response code is provided it SHOULD be the response for a successful operation -call. - -##### Fixed Fields - -| Field Name | Type | Description | -| ---- | :----: | ---- | -| default | [Response Object](#response-object) \| [Reference Object](#reference-object) | The documentation of responses other than the ones declared for specific HTTP response codes. Use this field to cover undeclared responses. | - -##### Patterned Fields - -| Field Pattern | Type | Description | -| ---- | :----: | ---- | -| [HTTP Status Code](#http-status-codes) | [Response Object](#response-object) \| [Reference Object](#reference-object) | Any [HTTP status code](#http-status-codes) can be used as the property name, but only one property per code, to describe the expected response for that HTTP status code. This field MUST be enclosed in quotation marks (for example, "200") for compatibility between JSON and YAML. To define a range of response codes, this field MAY contain the uppercase wildcard character `X`. For example, `2XX` represents all response codes between `200` and `299`. Only the following range definitions are allowed: `1XX`, `2XX`, `3XX`, `4XX`, and `5XX`. If a response is defined using an explicit code, the explicit code definition takes precedence over the range definition for that code. | - -This object MAY be extended with [Specification Extensions](#specification-extensions). - -##### Responses Object Example - -A 200 response for a successful operation and a default response for others (implying an error): - -```json -{ - "200": { - "description": "a pet to be returned", - "content": { - "application/json": { - "schema": { - "$ref": "#/components/schemas/Pet" - } - } - } - }, - "default": { - "description": "Unexpected error", - "content": { - "application/json": { - "schema": { - "$ref": "#/components/schemas/ErrorModel" - } - } - } - } -} -``` - -```yaml -'200': - description: a pet to be returned - content: - application/json: - schema: - $ref: '#/components/schemas/Pet' -default: - description: Unexpected error - content: - application/json: - schema: - $ref: '#/components/schemas/ErrorModel' -``` - -#### Response Object - -Describes a single response from an API operation, including design-time, static -`links` to operations based on the response. - -##### Fixed Fields - -| Field Name | Type | Description | -| ---- | :----: | ---- | -| description | `string` | **REQUIRED**. A description of the response. [CommonMark syntax](https://spec.commonmark.org/) MAY be used for rich text representation. | -| headers | Map[`string`, [Header Object](#header-object) \| [Reference Object](#reference-object)] | Maps a header name to its definition. [RFC7230](https://tools.ietf.org/html/rfc7230#section-3.2) states header names are case insensitive. If a response header is defined with the name `"Content-Type"`, it SHALL be ignored. | -| content | Map[`string`, [Media Type Object](#media-type-object)] | A map containing descriptions of potential response payloads. The key is a media type or [media type range](https://tools.ietf.org/html/rfc7231#appendix-D) and the value describes it. For responses that match multiple keys, only the most specific key is applicable. e.g. `"text/plain"` overrides `"text/*"` | -| links | Map[`string`, [Link Object](#link-object) \| [Reference Object](#reference-object)] | A map of operations links that can be followed from the response. The key of the map is a short name for the link, following the naming constraints of the names for [Component Objects](#components-object). | - -This object MAY be extended with [Specification Extensions](#specification-extensions). - -##### Response Object Examples - -Response of an array of a complex type: - -```json -{ - "description": "A complex object array response", - "content": { - "application/json": { - "schema": { - "type": "array", - "items": { - "$ref": "#/components/schemas/VeryComplexType" - } - } - } - } -} -``` - -```yaml -description: A complex object array response -content: - application/json: - schema: - type: array - items: - $ref: '#/components/schemas/VeryComplexType' -``` - -Response with a string type: - -```json -{ - "description": "A simple string response", - "content": { - "text/plain": { - "schema": { - "type": "string" - } - } - } -} -``` - -```yaml -description: A simple string response -content: - text/plain: - schema: - type: string -``` - -Plain text response with headers: - -```json -{ - "description": "A simple string response", - "content": { - "text/plain": { - "schema": { - "type": "string" - }, - "example": "whoa!" - } - }, - "headers": { - "X-Rate-Limit-Limit": { - "description": "The number of allowed requests in the current period", - "schema": { - "type": "integer" - } - }, - "X-Rate-Limit-Remaining": { - "description": "The number of remaining requests in the current period", - "schema": { - "type": "integer" - } - }, - "X-Rate-Limit-Reset": { - "description": "The number of seconds left in the current period", - "schema": { - "type": "integer" - } - } - } -} -``` - -```yaml -description: A simple string response -content: - text/plain: - schema: - type: string - example: 'whoa!' -headers: - X-Rate-Limit-Limit: - description: The number of allowed requests in the current period - schema: - type: integer - X-Rate-Limit-Remaining: - description: The number of remaining requests in the current period - schema: - type: integer - X-Rate-Limit-Reset: - description: The number of seconds left in the current period - schema: - type: integer -``` - -Response with no return value: - -```json -{ - "description": "object created" -} -``` - -```yaml -description: object created -``` - -#### Callback Object - -A map of possible out-of band callbacks related to the parent operation. -Each value in the map is a [Path Item Object](#path-item-object) that describes a set of requests that may be initiated by the API provider and the expected responses. -The key value used to identify the Path Item Object is an expression, evaluated at runtime, that identifies a URL to use for the callback operation. - -To describe incoming requests from the API provider independent from another API call, use the [`webhooks`](#oas-webhooks) field. - -##### Patterned Fields - -| Field Pattern | Type | Description | -| ---- | :----: | ---- | -| {expression} | [Path Item Object](#path-item-object) | A Path Item Object used to define a callback request and expected responses. A [complete example](https://learn.openapis.org/examples/v3.0/callback-example.html) is available. | - -This object MAY be extended with [Specification Extensions](#specification-extensions). - -##### Key Expression - -The key that identifies the [Path Item Object](#path-item-object) is a [runtime expression](#runtime-expressions) that can be evaluated in the context of a runtime HTTP request/response to identify the URL to be used for the callback request. -A simple example might be `$request.body#/url`. -However, using a [runtime expression](#runtime-expressions) the complete HTTP message can be accessed. -This includes accessing any part of a body that a JSON Pointer [RFC6901](https://tools.ietf.org/html/rfc6901) can reference. - -For example, given the following HTTP request: - -```http -POST /subscribe/myevent?queryUrl=https://clientdomain.com/stillrunning HTTP/1.1 -Host: example.org -Content-Type: application/json -Content-Length: 188 - -{ - "failedUrl": "https://clientdomain.com/failed", - "successUrls": [ - "https://clientdomain.com/fast", - "https://clientdomain.com/medium", - "https://clientdomain.com/slow" - ] -} -``` - -resulting in: - -```http -201 Created -Location: https://example.org/subscription/1 -``` - -The following examples show how the various expressions evaluate, assuming the callback operation has a path parameter named `eventType` and a query parameter named `queryUrl`. - -| Expression | Value | -| ---- | :---- | -| $url | | -| $method | POST | -| $request.path.eventType | myevent | -| $request.query.queryUrl | | -| $request.header.content-type | application/json | -| $request.body#/failedUrl | | -| $request.body#/successUrls/1 | | -| $response.header.Location | | - -##### Callback Object Examples - -The following example uses the user provided `queryUrl` query string parameter to define the callback URL. This is similar to a [webhook](#oas-webhooks), but differs in that the callback only occurs because of the initial request that sent the `queryUrl`. - -```yaml -myCallback: - '{$request.query.queryUrl}': - post: - requestBody: - description: Callback payload - content: - application/json: - schema: - $ref: '#/components/schemas/SomePayload' - responses: - '200': - description: callback successfully processed -``` - -The following example shows a callback where the server is hard-coded, but the query string parameters are populated from the `id` and `email` property in the request body. - -```yaml -transactionCallback: - 'http://notificationServer.com?transactionId={$request.body#/id}&email={$request.body#/email}': - post: - requestBody: - description: Callback payload - content: - application/json: - schema: - $ref: '#/components/schemas/SomePayload' - responses: - '200': - description: callback successfully processed -``` - -#### Example Object - -An object grouping an internal or external example value with basic `summary` and `description` metadata. -This object is typically used in fields named `examples` (plural), and is a [referenceable](#reference-object) alternative to older `example` (singular) fields that do not support referencing or metadata. - -Examples allow demonstration of the usage of properties, parameters and objects within OpenAPI. - -##### Fixed Fields - -| Field Name | Type | Description | -| ---- | :----: | ---- | -| summary | `string` | Short description for the example. | -| description | `string` | Long description for the example. [CommonMark syntax](https://spec.commonmark.org/) MAY be used for rich text representation. | -| value | Any | Embedded literal example. The `value` field and `externalValue` field are mutually exclusive. To represent examples of media types that cannot naturally represented in JSON or YAML, use a string value to contain the example, escaping where necessary. | -| externalValue | `string` | A URI that identifies the literal example. This provides the capability to reference examples that cannot easily be included in JSON or YAML documents. The `value` field and `externalValue` field are mutually exclusive. See the rules for resolving [Relative References](#relative-references-in-api-description-uris). | - -This object MAY be extended with [Specification Extensions](#specification-extensions). - -In all cases, the example value SHOULD be compatible with the schema of its associated value. -Tooling implementations MAY choose to validate compatibility automatically, and reject the example value(s) if incompatible. - -##### Working with Examples - -Example Objects can be used in both [Parameter Objects](#parameter-object) and [Media Type Objects](#media-type-object). -In both Objects, this is done through the `examples` (plural) field. -However, there are several other ways to provide examples: The `example` (singular) field that is mutually exclusive with `examples` in both Objects, and two keywords (the deprecated singular `example` and the current plural `examples`, which takes an array of examples) in the [Schema Object](#schema-object) that appears in the `schema` field of both Objects. -Each of these fields has slightly different considerations. - -The Schema Object's fields are used to show example values without regard to how they might be formatted as parameters or within media type representations. -The `examples` array is part of JSON Schema and is the preferred way to include examples in the Schema Object, while `example` is retained purely for compatibility with older versions of the OpenAPI Specification. - -The mutually exclusive fields in the Parameter or Media Type Objects are used to show example values which SHOULD both match the schema and be formatted as they would appear as a serialized parameter or within a media type representation. -The exact serialization and encoding is determined by various fields in the Parameter Object, or in the Media Type Object's [Encoding Object](#encoding-object). -Because examples using these fields represent the final serialized form of the data, they SHALL _override_ any `example` in the corresponding Schema Object. - -The singular `example` field in the Parameter or Media Type Object is concise and convenient for simple examples, but does not offer any other advantages over using Example Objects under `examples`. - -Some examples cannot be represented directly in JSON or YAML. -For all three ways of providing examples, these can be shown as string values with any escaping necessary to make the string valid in the JSON or YAML format of documents that comprise the OpenAPI Description. -With the Example Object, such values can alternatively be handled through the `externalValue` field. - -##### Example Object Examples - -In a request body: - -```yaml -requestBody: - content: - 'application/json': - schema: - $ref: '#/components/schemas/Address' - examples: - foo: - summary: A foo example - value: - foo: bar - bar: - summary: A bar example - value: - bar: baz - application/xml: - examples: - xmlExample: - summary: This is an example in XML - externalValue: https://example.org/examples/address-example.xml - text/plain: - examples: - textExample: - summary: This is a text example - externalValue: https://foo.bar/examples/address-example.txt -``` - -In a parameter: - -```yaml -parameters: - - name: zipCode - in: query - schema: - type: string - format: zip-code - examples: - zip-example: - $ref: '#/components/examples/zip-example' -``` - -In a response: - -```yaml -responses: - '200': - description: your car appointment has been booked - content: - application/json: - schema: - $ref: '#/components/schemas/SuccessResponse' - examples: - confirmation-success: - $ref: '#/components/examples/confirmation-success' -``` - -Two different uses of JSON strings: - -First, a request or response body that is just a JSON string (not an object containing a string): - -```json -"application/json": { - "schema": { - "type": "string" - }, - "examples": { - "jsonBody": { - "description": "A body of just the JSON string \"json\"", - "value": "json" - } - } -} -``` - -```yaml -application/json: - schema: - type: string - examples: - jsonBody: - description: 'A body of just the JSON string "json"' - value: json -``` - -In the above example, we can just show the JSON string (or any JSON value) as-is, rather than stuffing a serialized JSON value into a JSON string, which would have looked like `"\"json\""`. - -In contrast, a JSON string encoded inside of a URL-style form body: - -```json -"application/x-www-form-urlencoded": { - "schema": { - "type": "object", - "properties": { - "jsonValue": { - "type": "string" - } - } - }, - "encoding": { - "jsonValue": { - "contentType": "application/json" - } - }, - "examples": { - "jsonFormValue": { - "description": "The JSON string \"json\" as a form value", - "value": "jsonValue=%22json%22" - } - } -} -``` - -```yaml -application/x-www-form-urlencoded: - schema: - type: object - properties: - jsonValue: - type: string - encoding: - jsonValue: - contentType: application/json - examples: - jsonFormValue: - description: 'The JSON string "json" as a form value' - value: jsonValue=%22json%22 -``` - -In this example, the JSON string had to be serialized before encoding it into the URL form value, so the example includes the quotation marks that are part of the JSON serialization, which are then URL percent-encoded. - -#### Link Object - -The Link Object represents a possible design-time link for a response. -The presence of a link does not guarantee the caller's ability to successfully invoke it, rather it provides a known relationship and traversal mechanism between responses and other operations. - -Unlike _dynamic_ links (i.e. links provided **in** the response payload), the OAS linking mechanism does not require link information in the runtime response. - -For computing links and providing instructions to execute them, a [runtime expression](#runtime-expressions) is used for accessing values in an operation and using them as parameters while invoking the linked operation. - -##### Fixed Fields - -| Field Name | Type | Description | -| ---- | :----: | ---- | -| operationRef | `string` | A URI reference to an OAS operation. This field is mutually exclusive of the `operationId` field, and MUST point to an [Operation Object](#operation-object). Relative `operationRef` values MAY be used to locate an existing [Operation Object](#operation-object) in the OpenAPI Description. | -| operationId | `string` | The name of an _existing_, resolvable OAS operation, as defined with a unique `operationId`. This field is mutually exclusive of the `operationRef` field. | -| parameters | Map[`string`, Any \| [{expression}](#runtime-expressions)] | A map representing parameters to pass to an operation as specified with `operationId` or identified via `operationRef`. The key is the parameter name to be used (optionally qualified with the parameter location, e.g. `path.id` for an `id` parameter in the path), whereas the value can be a constant or an expression to be evaluated and passed to the linked operation. | -| requestBody | Any \| [{expression}](#runtime-expressions) | A literal value or [{expression}](#runtime-expressions) to use as a request body when calling the target operation. | -| description | `string` | A description of the link. [CommonMark syntax](https://spec.commonmark.org/) MAY be used for rich text representation. | -| server | [Server Object](#server-object) | A server object to be used by the target operation. | - -This object MAY be extended with [Specification Extensions](#specification-extensions). - -A linked operation MUST be identified using either an `operationRef` or `operationId`. -The identified or reference operation MUST be unique, and in the case of an `operationId`, it MUST be resolved within the scope of the OpenAPI Description (OAD). -Because of the potential for name clashes, the `operationRef` syntax is preferred for multi-document OADs. -However, because use of an operation depends on its URL path template in the [Paths Object](#paths-object), operations from any [Path Item Object](#path-item-object) that is referenced multiple times within the OAD cannot be resolved unambiguously. -In such ambiguous cases, the resulting behavior is implementation-defined and MAY result in an error. - -Note that it is not possible to provide a constant value to `parameters` that matches the syntax of a runtime expression. -It is possible to have ambiguous parameter names, e.g. `name: "id", in: "path"` and `name: "path.id", in: "query"`; this is NOT RECOMMENDED and the behavior is implementation-defined, however implementations SHOULD prefer the qualified interpretation (`path.id` as a path parameter), as the names can always be qualified to disambiguate them (e.g. using `query.path.id` for the query parameter). - -##### Examples - -Computing a link from a request operation where the `$request.path.id` is used to pass a request parameter to the linked operation. - -```yaml -paths: - /users/{id}: - parameters: - - name: id - in: path - required: true - description: the user identifier, as userId - schema: - type: string - get: - responses: - '200': - description: the user being returned - content: - application/json: - schema: - type: object - properties: - uuid: # the unique user id - type: string - format: uuid - links: - address: - # the target link operationId - operationId: getUserAddress - parameters: - # get the `id` field from the request path parameter named `id` - userid: $request.path.id - # the path item of the linked operation - /users/{userid}/address: - parameters: - - name: userid - in: path - required: true - description: the user identifier, as userId - schema: - type: string - # linked operation - get: - operationId: getUserAddress - responses: - '200': - description: the user's address -``` - -When a runtime expression fails to evaluate, no parameter value is passed to the target operation. - -Values from the response body can be used to drive a linked operation. - -```yaml -links: - address: - operationId: getUserAddressByUUID - parameters: - # get the `uuid` field from the `uuid` field in the response body - userUuid: $response.body#/uuid -``` - -Clients follow all links at their discretion. -Neither permissions nor the capability to make a successful call to that link is guaranteed -solely by the existence of a relationship. - -##### `operationRef` Examples - -As references to `operationId` MAY NOT be possible (the `operationId` is an optional -field in an [Operation Object](#operation-object)), references MAY also be made through a relative `operationRef`: - -```yaml -links: - UserRepositories: - # returns array of '#/components/schemas/repository' - operationRef: '#/paths/~12.0~1repositories~1%7Busername%7D/get' - parameters: - username: $response.body#/username -``` - -or a URI `operationRef`: - -```yaml -links: - UserRepositories: - # returns array of '#/components/schemas/repository' - operationRef: https://na2.gigantic-server.com/#/paths/~12.0~1repositories~1%7Busername%7D/get - parameters: - username: $response.body#/username -``` - -Note that in the use of `operationRef` the _escaped forward-slash_ is necessary when -using JSON Pointer, and it is necessary to URL-encode `{` and `}` as `%7B` and `%7D`, respectively, when using JSON Pointer as URI fragments. - -##### Runtime Expressions - -Runtime expressions allow defining values based on information that will only be available within the HTTP message in an actual API call. -This mechanism is used by [Link Objects](#link-object) and [Callback Objects](#callback-object). - -The runtime expression is defined by the following [ABNF](https://tools.ietf.org/html/rfc5234) syntax - -```abnf - expression = "$url" / "$method" / "$statusCode" / "$request." source / "$response." source - source = header-reference / query-reference / path-reference / body-reference - header-reference = "header." token - query-reference = "query." name - path-reference = "path." name - body-reference = "body" ["#" json-pointer ] - json-pointer = *( "/" reference-token ) - reference-token = *( unescaped / escaped ) - unescaped = %x00-2E / %x30-7D / %x7F-10FFFF - ; %x2F ('/') and %x7E ('~') are excluded from 'unescaped' - escaped = "~" ( "0" / "1" ) - ; representing '~' and '/', respectively - name = *( CHAR ) - token = 1*tchar - tchar = "!" / "#" / "$" / "%" / "&" / "'" / "*" / "+" / "-" / "." - / "^" / "_" / "`" / "|" / "~" / DIGIT / ALPHA -``` - -Here, `json-pointer` is taken from [RFC6901](https://tools.ietf.org/html/rfc6901), `char` from [RFC7159](https://tools.ietf.org/html/rfc7159#section-7) and `token` from [RFC7230](https://tools.ietf.org/html/rfc7230#section-3.2.6). - -The `name` identifier is case-sensitive, whereas `token` is not. - -The table below provides examples of runtime expressions and examples of their use in a value: - -##### Examples - -| Source Location | example expression | notes | -| ---- | :---- | :---- | -| HTTP Method | `$method` | The allowable values for the `$method` will be those for the HTTP operation. | -| Requested media type | `$request.header.accept` | | -| Request parameter | `$request.path.id` | Request parameters MUST be declared in the `parameters` section of the parent operation or they cannot be evaluated. This includes request headers. | -| Request body property | `$request.body#/user/uuid` | In operations which accept payloads, references may be made to portions of the `requestBody` or the entire body. | -| Request URL | `$url` | | -| Response value | `$response.body#/status` | In operations which return payloads, references may be made to portions of the response body or the entire body. | -| Response header | `$response.header.Server` | Single header values only are available | - -Runtime expressions preserve the type of the referenced value. -Expressions can be embedded into string values by surrounding the expression with `{}` curly braces. - -#### Header Object - -Describes a single header for [HTTP responses](#response-headers) and for [individual parts in `multipart` representations](#encoding-headers); see the relevant [Response Object](#response-object) and [Encoding Object](#encoding-object) documentation for restrictions on which headers can be described. - -The Header Object follows the structure of the [Parameter Object](#parameter-object), including determining its serialization strategy based on whether `schema` or `content` is present, with the following changes: - -1. `name` MUST NOT be specified, it is given in the corresponding `headers` map. -1. `in` MUST NOT be specified, it is implicitly in `header`. -1. All traits that are affected by the location MUST be applicable to a location of `header` (for example, [`style`](#parameter-style)). This means that `allowEmptyValue` and `allowReserved` MUST NOT be used, and `style`, if used, MUST be limited to `"simple"`. - -##### Fixed Fields - -###### Common Fixed Fields - -These fields MAY be used with either `content` or `schema`. - -| Field Name | Type | Description | -| ---- | :----: | ---- | -| description | `string` | A brief description of the header. This could contain examples of use. [CommonMark syntax](https://spec.commonmark.org/) MAY be used for rich text representation. | -| required | `boolean` | Determines whether this header is mandatory. The default value is `false`. | -| deprecated | `boolean` | Specifies that the header is deprecated and SHOULD be transitioned out of usage. Default value is `false`. | - -This object MAY be extended with [Specification Extensions](#specification-extensions). - -###### Fixed Fields for use with `schema` - -For simpler scenarios, a [`schema`](#header-schema) and [`style`](#header-style) can describe the structure and syntax of the header. -When `example` or `examples` are provided in conjunction with the `schema` field, the example MUST follow the prescribed serialization strategy for the header. - -Serializing with `schema` is NOT RECOMMENDED for headers with parameters (name=value pairs following a `;`) in their values, or where values might have non-URL-safe characters; see [Appendix D](#appendix-d-serializing-headers-and-cookies) for details. - -When `example` or `examples` are provided in conjunction with the `schema` field, the example SHOULD match the specified schema and follow the prescribed serialization strategy for the header. -The `example` and `examples` fields are mutually exclusive, and if either is present it SHALL _override_ any `example` in the schema. - -| Field Name | Type | Description | -| ---- | :----: | ---- | -| style | `string` | Describes how the header value will be serialized. The default (and only legal value for headers) is `"simple"`. | -| explode | `boolean` | When this is true, header values of type `array` or `object` generate a single header whose value is a comma-separated list of the array items or key-value pairs of the map, see [Style Examples](#style-examples). For other data types this field has no effect. The default value is `false`. | -| schema | [Schema Object](#schema-object) \| [Reference Object](#reference-object) | The schema defining the type used for the header. | -| example | Any | Example of the header's potential value; see [Working With Examples](#working-with-examples). | -| examples | Map[ `string`, [Example Object](#example-object) \| [Reference Object](#reference-object)] | Examples of the header's potential value; see [Working With Examples](#working-with-examples). | - -See also [Appendix C: Using RFC6570-Based Serialization](#appendix-c-using-rfc6570-based-serialization) for additional guidance. - -###### Fixed Fields for use with `content` - -For more complex scenarios, the [`content`](#header-content) field can define the media type and schema of the header, as well as give examples of its use. -Using `content` with a `text/plain` media type is RECOMMENDED for headers where the `schema` strategy is not appropriate. - -| Field Name | Type | Description | -| ---- | :----: | ---- | -| content | Map[`string`, [Media Type Object](#media-type-object)] | A map containing the representations for the header. The key is the media type and the value describes it. The map MUST only contain one entry. | - -##### Header Object Example - -A simple header of type `integer`: - -```json -"X-Rate-Limit-Limit": { - "description": "The number of allowed requests in the current period", - "schema": { - "type": "integer" - } -} -``` - -```yaml -X-Rate-Limit-Limit: - description: The number of allowed requests in the current period - schema: - type: integer -``` - -Requiring that a strong `ETag` header (with a value starting with `"` rather than `W/`) is present. Note the use of `content`, because using `schema` and `style` would require the `"` to be percent-encoded as `%22`: - -```json -"ETag": { - "required": true, - "content": { - "text/plain": { - "schema": { - "type": "string", - "pattern": "^\"" - } - } - } -} -``` - -```yaml -ETag: - required: true - content: - text/plain: - schema: - type: string - pattern: ^" -``` - -#### Tag Object - -Adds metadata to a single tag that is used by the [Operation Object](#operation-object). -It is not mandatory to have a Tag Object per tag defined in the Operation Object instances. - -##### Fixed Fields - -| Field Name | Type | Description | -| ---- | :----: | ---- | -| name | `string` | **REQUIRED**. The name of the tag. | -| description | `string` | A description for the tag. [CommonMark syntax](https://spec.commonmark.org/) MAY be used for rich text representation. | -| externalDocs | [External Documentation Object](#external-documentation-object) | Additional external documentation for this tag. | - -This object MAY be extended with [Specification Extensions](#specification-extensions). - -##### Tag Object Example - -```json -{ - "name": "pet", - "description": "Pets operations" -} -``` - -```yaml -name: pet -description: Pets operations -``` - -#### Reference Object - -A simple object to allow referencing other components in the OpenAPI Description, internally and externally. - -The `$ref` string value contains a URI [RFC3986](https://tools.ietf.org/html/rfc3986), which identifies the value being referenced. - -See the rules for resolving [Relative References](#relative-references-in-api-description-uris). - -##### Fixed Fields - -| Field Name | Type | Description | -| ---- | :----: | ---- | -| $ref | `string` | **REQUIRED**. The reference identifier. This MUST be in the form of a URI. | -| summary | `string` | A short summary which by default SHOULD override that of the referenced component. If the referenced object-type does not allow a `summary` field, then this field has no effect. | -| description | `string` | A description which by default SHOULD override that of the referenced component. [CommonMark syntax](https://spec.commonmark.org/) MAY be used for rich text representation. If the referenced object-type does not allow a `description` field, then this field has no effect. | - -This object cannot be extended with additional properties, and any properties added SHALL be ignored. - -Note that this restriction on additional properties is a difference between Reference Objects and [Schema Objects](#schema-object) that contain a `$ref` keyword. - -##### Reference Object Example - -```json -{ - "$ref": "#/components/schemas/Pet" -} -``` - -```yaml -$ref: '#/components/schemas/Pet' -``` - -##### Relative Schema Document Example - -```json -{ - "$ref": "Pet.json" -} -``` - -```yaml -$ref: Pet.yaml -``` - -##### Relative Documents with Embedded Schema Example - -```json -{ - "$ref": "definitions.json#/Pet" -} -``` - -```yaml -$ref: definitions.yaml#/Pet -``` - -#### Schema Object - -The Schema Object allows the definition of input and output data types. -These types can be objects, but also primitives and arrays. This object is a superset of the [JSON Schema Specification Draft 2020-12](https://tools.ietf.org/html/draft-bhutton-json-schema-00). The empty schema (which allows any instance to validate) MAY be represented by the boolean value `true` and a schema which allows no instance to validate MAY be represented by the boolean value `false`. - -For more information about the keywords, see [JSON Schema Core](https://tools.ietf.org/html/draft-bhutton-json-schema-00) and [JSON Schema Validation](https://tools.ietf.org/html/draft-bhutton-json-schema-validation-00). - -Unless stated otherwise, the keyword definitions follow those of JSON Schema and do not add any additional semantics; this includes keywords such as `$schema`, `$id`, `$ref`, and `$dynamicRef` being URIs rather than URLs. -Where JSON Schema indicates that behavior is defined by the application (e.g. for annotations), OAS also defers the definition of semantics to the application consuming the OpenAPI document. - -##### JSON Schema Keywords - -The OpenAPI Schema Object [dialect](https://tools.ietf.org/html/draft-bhutton-json-schema-00#section-4.3.3) is defined as requiring the [OAS base vocabulary](#base-vocabulary), in addition to the vocabularies as specified in the JSON Schema Specification Draft 2020-12 [general purpose meta-schema](https://tools.ietf.org/html/draft-bhutton-json-schema-00#section-8). - -The OpenAPI Schema Object dialect for this version of the specification is identified by the URI `https://spec.openapis.org/oas/3.1/dialect/base` (the "OAS dialect schema id"). - -The following keywords are taken from the JSON Schema specification but their definitions have been extended by the OAS: - -* description - [CommonMark syntax](https://spec.commonmark.org/) MAY be used for rich text representation. -* format - See [Data Type Formats](#data-type-format) for further details. While relying on JSON Schema's defined formats, the OAS offers a few additional predefined formats. - -In addition to the JSON Schema keywords comprising the OAS dialect, the Schema Object supports keywords from any other vocabularies, or entirely arbitrary properties. - -JSON Schema implementations MAY choose to treat keywords defined by the OpenAPI Specification's base vocabulary as [unknown keywords](https://datatracker.ietf.org/doc/html/draft-bhutton-json-schema-00#section-4.3.1), due to its inclusion in the OAS dialect with a [`$vocabulary`](https://datatracker.ietf.org/doc/html/draft-bhutton-json-schema-00#section-8.1.2) value of `false`. -The OAS base vocabulary is comprised of the following keywords: - -##### Fixed Fields - -| Field Name | Type | Description | -| ---- | :----: | ---- | -| discriminator | [Discriminator Object](#discriminator-object) | Adds support for polymorphism. The discriminator is used to determine which of a set of schemas a payload is expected to satisfy. See [Composition and Inheritance](#composition-and-inheritance-polymorphism) for more details. | -| xml | [XML Object](#xml-object) | This MAY be used only on property schemas. It has no effect on root schemas. Adds additional metadata to describe the XML representation of this property. | -| externalDocs | [External Documentation Object](#external-documentation-object) | Additional external documentation for this schema. | -| example | Any | A free-form field to include an example of an instance for this schema. To represent examples that cannot be naturally represented in JSON or YAML, a string value can be used to contain the example with escaping where necessary.

**Deprecated:** The `example` field has been deprecated in favor of the JSON Schema `examples` keyword. Use of `example` is discouraged, and later versions of this specification may remove it. | - -This object MAY be extended with [Specification Extensions](#specification-extensions), though as noted, additional properties MAY omit the `x-` prefix within this object. - -##### Extended Validation with Annotations - -JSON Schema Draft 2020-12 supports [collecting annotations](https://datatracker.ietf.org/doc/html/draft-bhutton-json-schema-00#section-7.7.1), including [treating unrecognized keywords as annotations](https://datatracker.ietf.org/doc/html/draft-bhutton-json-schema-00#section-6.5). -OAS implementations MAY use such annotations, including [extensions](https://spec.openapis.org/registry/extension/) not recognized as part of a declared JSON Schema vocabulary, as the basis for further validation. -Note that JSON Schema Draft 2020-12 does not require an `x-` prefix for extensions. - -###### Non-validating constraint keywords - -The [`format` keyword (when using default format-annotation vocabulary)](https://datatracker.ietf.org/doc/html/draft-bhutton-json-schema-validation-00#section-7.2.1) and the [`contentMediaType`, `contentEncoding`, and `contentSchema` keywords](https://datatracker.ietf.org/doc/html/draft-bhutton-json-schema-validation-00#section-8.2) define constraints on the data, but are treated as annotations instead of being validated directly. -Extended validation is one way that these constraints MAY be enforced. - -###### Validating `readOnly` and `writeOnly` - -The `readOnly` and `writeOnly` keywords are annotations, as JSON Schema is not aware of how the data it is validating is being used. -Validation of these keywords MAY be done by checking the annotation, the read or write direction, and (if relevant) the current value of the field. -[JSON Schema Validation Draft 2020-12 §9.4](https://datatracker.ietf.org/doc/html/draft-bhutton-json-schema-validation-00#section-9.4) defines the expectations of these keywords, including that a resource (described as the "owning authority") MAY either ignore a `readOnly` field or treat it as an error. - -Fields that are both required and read-only are an example of when it is beneficial to ignore a `readOnly: true` constraint in a PUT, particularly if the value has not been changed. -This allows correctly requiring the field on a GET and still using the same representation and schema with PUT. -Even when read-only fields are not required, stripping them is burdensome for clients, particularly when the JSON data is complex or deeply nested. - -Note that the behavior of `readOnly` in particular differs from that specified by version 3.0 of this specification. - -##### Data Modeling Techniques - -###### Composition and Inheritance (Polymorphism) - -The OpenAPI Specification allows combining and extending model definitions using the `allOf` keyword of JSON Schema, in effect offering model composition. -`allOf` takes an array of object definitions that are validated _independently_ but together compose a single object. - -While composition offers model extensibility, it does not imply a hierarchy between the models. -To support polymorphism, the OpenAPI Specification adds the [`discriminator`](#schema-discriminator) field. -When used, the `discriminator` indicates the name of the property that hints which schema definition is expected to validate the structure of the model. -As such, the `discriminator` field MUST be a required field. -There are two ways to define the value of a discriminator for an inheriting instance. - -* Use the schema name. -* [Override the schema name](#discriminator-mapping) by overriding the property with a new value. If a new value exists, this takes precedence over the schema name. - -###### Generic (Template) Data Structures - -Implementations MAY support defining generic or template data structures using JSON Schema's dynamic referencing feature: - -* `$dynamicAnchor` identifies a set of possible schemas (including a default placeholder schema) to which a `$dynamicRef` can resolve -* `$dynamicRef` resolves to the first matching `$dynamicAnchor` encountered on its path from the schema entry point to the reference, as described in the JSON Schema specification - -An example is included in the "Schema Object Examples" section below, and further information can be found on the Learn OpenAPI site's ["Dynamic References"](https://learn.openapis.org/referencing/dynamic.html) page. - -###### Annotated Enumerations - -The Schema Object's `enum` keyword does not allow associating descriptions or other information with individual values. - -Implementations MAY support recognizing a `oneOf` or `anyOf` where each subschema in the keyword's array consists of a `const` keyword and annotations such as `title` or `description` as an enumerated type with additional information. The exact behavior of this pattern beyond what is required by JSON Schema is implementation-defined. - -###### XML Modeling - -The [xml](#schema-xml) field allows extra definitions when translating the JSON definition to XML. -The [XML Object](#xml-object) contains additional information about the available options. - -##### Specifying Schema Dialects - -It is important for tooling to be able to determine which dialect or meta-schema any given resource wishes to be processed with: JSON Schema Core, JSON Schema Validation, OpenAPI Schema dialect, or some custom meta-schema. - -The `$schema` keyword MAY be present in any Schema Object that is a [schema resource root](https://datatracker.ietf.org/doc/html/draft-bhutton-json-schema-00#section-4.3.5), and if present MUST be used to determine which dialect should be used when processing the schema. This allows use of Schema Objects which comply with other drafts of JSON Schema than the default Draft 2020-12 support. Tooling MUST support the OAS dialect schema id, and MAY support additional values of `$schema`. - -To allow use of a different default `$schema` value for all Schema Objects contained within an OAS document, a `jsonSchemaDialect` value may be set within the OpenAPI Object. If this default is not set, then the OAS dialect schema id MUST be used for these Schema Objects. The value of `$schema` within a resource root Schema Object always overrides any default. - -For standalone JSON Schema documents that do not set `$schema`, or for Schema Objects in OpenAPI description documents that are _not_ [complete documents](#openapi-description-structure), the dialect SHOULD be assumed to be the OAS dialect. -However, for maximum interoperability, it is RECOMMENDED that OpenAPI description authors explicitly set the dialect through `$schema` in such documents. - -##### Schema Object Examples - -###### Primitive Example - -```json -{ - "type": "string", - "format": "email" -} -``` - -```yaml -type: string -format: email -``` - -###### Simple Model - -```json -{ - "type": "object", - "required": ["name"], - "properties": { - "name": { - "type": "string" - }, - "address": { - "$ref": "#/components/schemas/Address" - }, - "age": { - "type": "integer", - "format": "int32", - "minimum": 0 - } - } -} -``` - -```yaml -type: object -required: - - name -properties: - name: - type: string - address: - $ref: '#/components/schemas/Address' - age: - type: integer - format: int32 - minimum: 0 -``` - -###### Model with Map/Dictionary Properties - -For a simple string to string mapping: - -```json -{ - "type": "object", - "additionalProperties": { - "type": "string" - } -} -``` - -```yaml -type: object -additionalProperties: - type: string -``` - -For a string to model mapping: - -```json -{ - "type": "object", - "additionalProperties": { - "$ref": "#/components/schemas/ComplexModel" - } -} -``` - -```yaml -type: object -additionalProperties: - $ref: '#/components/schemas/ComplexModel' -``` - -###### Model with Annotated Enumeration - -```json -{ - "oneOf": [ - { - "const": "RGB", - "title": "Red, Green, Blue", - "description": "Specify colors with the red, green, and blue additive color model" - }, - { - "const": "CMYK", - "title": "Cyan, Magenta, Yellow, Black", - "description": "Specify colors with the cyan, magenta, yellow, and black subtractive color model" - } - ] -} -``` - -```yaml -oneOf: - - const: RGB - title: Red, Green, Blue - description: Specify colors with the red, green, and blue additive color model - - const: CMYK - title: Cyan, Magenta, Yellow, Black - description: Specify colors with the cyan, magenta, yellow, and black subtractive color model -``` - -###### Model with Example - -```json -{ - "type": "object", - "properties": { - "id": { - "type": "integer", - "format": "int64" - }, - "name": { - "type": "string" - } - }, - "required": ["name"], - "examples": [ - { - "name": "Puma", - "id": 1 - } - ] -} -``` - -```yaml -type: object -properties: - id: - type: integer - format: int64 - name: - type: string -required: - - name -examples: - - name: Puma - id: 1 -``` - -###### Models with Composition - -```json -{ - "components": { - "schemas": { - "ErrorModel": { - "type": "object", - "required": ["message", "code"], - "properties": { - "message": { - "type": "string" - }, - "code": { - "type": "integer", - "minimum": 100, - "maximum": 600 - } - } - }, - "ExtendedErrorModel": { - "allOf": [ - { - "$ref": "#/components/schemas/ErrorModel" - }, - { - "type": "object", - "required": ["rootCause"], - "properties": { - "rootCause": { - "type": "string" - } - } - } - ] - } - } - } -} -``` - -```yaml -components: - schemas: - ErrorModel: - type: object - required: - - message - - code - properties: - message: - type: string - code: - type: integer - minimum: 100 - maximum: 600 - ExtendedErrorModel: - allOf: - - $ref: '#/components/schemas/ErrorModel' - - type: object - required: - - rootCause - properties: - rootCause: - type: string -``` - -###### Models with Polymorphism Support - -```json -{ - "components": { - "schemas": { - "Pet": { - "type": "object", - "discriminator": { - "propertyName": "petType" - }, - "properties": { - "name": { - "type": "string" - }, - "petType": { - "type": "string" - } - }, - "required": ["name", "petType"] - }, - "Cat": { - "description": "A representation of a cat. Note that `Cat` will be used as the discriminating value.", - "allOf": [ - { - "$ref": "#/components/schemas/Pet" - }, - { - "type": "object", - "properties": { - "huntingSkill": { - "type": "string", - "description": "The measured skill for hunting", - "default": "lazy", - "enum": ["clueless", "lazy", "adventurous", "aggressive"] - } - }, - "required": ["huntingSkill"] - } - ] - }, - "Dog": { - "description": "A representation of a dog. Note that `Dog` will be used as the discriminating value.", - "allOf": [ - { - "$ref": "#/components/schemas/Pet" - }, - { - "type": "object", - "properties": { - "packSize": { - "type": "integer", - "format": "int32", - "description": "the size of the pack the dog is from", - "default": 0, - "minimum": 0 - } - }, - "required": ["packSize"] - } - ] - } - } - } -} -``` - -```yaml -components: - schemas: - Pet: - type: object - discriminator: - propertyName: petType - properties: - name: - type: string - petType: - type: string - required: - - name - - petType - Cat: # "Cat" will be used as the discriminating value - description: A representation of a cat - allOf: - - $ref: '#/components/schemas/Pet' - - type: object - properties: - huntingSkill: - type: string - description: The measured skill for hunting - enum: - - clueless - - lazy - - adventurous - - aggressive - required: - - huntingSkill - Dog: # "Dog" will be used as the discriminating value - description: A representation of a dog - allOf: - - $ref: '#/components/schemas/Pet' - - type: object - properties: - packSize: - type: integer - format: int32 - description: the size of the pack the dog is from - default: 0 - minimum: 0 - required: - - packSize -``` - -###### Generic Data Structure Model - -```JSON -{ - "components": { - "schemas": { - "genericArrayComponent": { - "$id": "fully_generic_array", - "type": "array", - "items": { - "$dynamicRef": "#generic-array" - }, - "$defs": { - "allowAll": { - "$dynamicAnchor": "generic-array" - } - } - }, - "numberArray": { - "$id": "array_of_numbers", - "$ref": "fully_generic_array", - "$defs": { - "numbersOnly": { - "$dynamicAnchor": "generic-array", - "type": "number" - } - } - }, - "stringArray": { - "$id": "array_of_strings", - "$ref": "fully_generic_array", - "$defs": { - "stringsOnly": { - "$dynamicAnchor": "generic-array", - "type": "string" - } - } - }, - "objWithTypedArray": { - "$id": "obj_with_typed_array", - "type": "object", - "required": ["dataType", "data"], - "properties": { - "dataType": { - "enum": ["string", "number"] - } - }, - "oneOf": [{ - "properties": { - "dataType": {"const": "string"}, - "data": {"$ref": "array_of_strings"} - } - }, { - "properties": { - "dataType": {"const": "number"}, - "data": {"$ref": "array_of_numbers"} - } - }] - } - } - } -} -``` - -```YAML -components: - schemas: - genericArrayComponent: - $id: fully_generic_array - type: array - items: - $dynamicRef: '#generic-array' - $defs: - allowAll: - $dynamicAnchor: generic-array - numberArray: - $id: array_of_numbers - $ref: fully_generic_array - $defs: - numbersOnly: - $dynamicAnchor: generic-array - type: number - stringArray: - $id: array_of_strings - $ref: fully_generic_array - $defs: - stringsOnly: - $dynamicAnchor: generic-array - type: string - objWithTypedArray: - $id: obj_with_typed_array - type: object - required: - - dataType - - data - properties: - dataType: - enum: - - string - - number - oneOf: - - properties: - dataType: - const: string - data: - $ref: array_of_strings - - properties: - dataType: - const: number - data: - $ref: array_of_numbers -``` - -#### Discriminator Object - -When request bodies or response payloads may be one of a number of different schemas, a Discriminator Object gives a hint about the expected schema of the document. -This hint can be used to aid in serialization, deserialization, and validation. -The Discriminator Object does this by implicitly or explicitly associating the possible values of a named property with alternative schemas. - -Note that `discriminator` MUST NOT change the validation outcome of the schema. - -##### Fixed Fields - -| Field Name | Type | Description | -| ---- | :----: | ---- | -| propertyName | `string` | **REQUIRED**. The name of the property in the payload that will hold the discriminating value. This property SHOULD be required in the payload schema, as the behavior when the property is absent is undefined. | -| mapping | Map[`string`, `string`] | An object to hold mappings between payload values and schema names or URI references. | - -This object MAY be extended with [Specification Extensions](#specification-extensions). - -##### Conditions for Using the Discriminator Object - -The Discriminator Object is legal only when using one of the composite keywords `oneOf`, `anyOf`, `allOf`. - -In both the `oneOf` and `anyOf` use cases, where those keywords are adjacent to `discriminator`, all possible schemas MUST be listed explicitly. - -To avoid redundancy, the discriminator MAY be added to a parent schema definition, and all schemas building on the parent schema via an `allOf` construct may be used as an alternate schema. - -The `allOf` form of `discriminator` is _only_ useful for non-validation use cases; validation with the parent schema with this form of `discriminator` _does not_ perform a search for child schemas or use them in validation in any way. -This is because `discriminator` cannot change the validation outcome, and no standard JSON Schema keyword connects the parent schema to the child schemas. - -The behavior of any configuration of `oneOf`, `anyOf`, `allOf` and `discriminator` that is not described above is undefined. - -##### Options for Mapping Values to Schemas - -The value of the property named in `propertyName` is used as the name of the associated schema under the [Components Object](#components-object), _unless_ a `mapping` is present for that value. -The `mapping` entry maps a specific property value to either a different schema component name, or to a schema identified by a URI. -When using implicit or explicit schema component names, inline `oneOf` or `anyOf` subschemas are not considered. -The behavior of a `mapping` value that is both a valid schema name and a valid relative URI reference is implementation-defined, but it is RECOMMENDED that it be treated as a schema name. -To ensure that an ambiguous value (e.g. `"foo"`) is treated as a relative URI reference by all implementations, authors MUST prefix it with the `"."` path segment (e.g. `"./foo"`). - -Mapping keys MUST be string values, but tooling MAY convert response values to strings for comparison. -However, the exact nature of such conversions are implementation-defined. - -##### Examples - -For these examples, assume all schemas are in the [entry document](#openapi-description-structure) of the OAD; for handling of `discriminator` in referenced documents see [Resolving Implicit Connections](#resolving-implicit-connections). - -In OAS 3.x, a response payload MAY be described to be exactly one of any number of types: - -```yaml -MyResponseType: - oneOf: - - $ref: '#/components/schemas/Cat' - - $ref: '#/components/schemas/Dog' - - $ref: '#/components/schemas/Lizard' -``` - -which means the payload _MUST_, by validation, match exactly one of the schemas described by `Cat`, `Dog`, or `Lizard`. Deserialization of a `oneOf` can be a costly operation, as it requires determining which schema matches the payload and thus should be used in deserialization. This problem also exists for `anyOf` schemas. A `discriminator` MAY be used as a "hint" to improve the efficiency of selection of the matching schema. The `discriminator` field cannot change the validation result of the `oneOf`, it can only help make the deserialization more efficient and provide better error messaging. We can specify the exact field that tells us which schema is expected to match the instance: - -```yaml -MyResponseType: - oneOf: - - $ref: '#/components/schemas/Cat' - - $ref: '#/components/schemas/Dog' - - $ref: '#/components/schemas/Lizard' - discriminator: - propertyName: petType -``` - -The expectation now is that a property with name `petType` _MUST_ be present in the response payload, and the value will correspond to the name of a schema defined in the OpenAPI Description. Thus the response payload: - -```json -{ - "id": 12345, - "petType": "Cat" -} -``` - -will indicate that the `Cat` schema is expected to match this payload. - -In scenarios where the value of the `discriminator` field does not match the schema name or implicit mapping is not possible, an optional `mapping` definition MAY be used: - -```yaml -MyResponseType: - oneOf: - - $ref: '#/components/schemas/Cat' - - $ref: '#/components/schemas/Dog' - - $ref: '#/components/schemas/Lizard' - - $ref: https://gigantic-server.com/schemas/Monster/schema.json - discriminator: - propertyName: petType - mapping: - dog: '#/components/schemas/Dog' - monster: https://gigantic-server.com/schemas/Monster/schema.json -``` - -Here the discriminating value of `dog` will map to the schema `#/components/schemas/Dog`, rather than the default (implicit) value of `#/components/schemas/dog`. If the discriminating value does not match an implicit or explicit mapping, no schema can be determined and validation SHOULD fail. - -When used in conjunction with the `anyOf` construct, the use of the discriminator can avoid ambiguity for serializers/deserializers where multiple schemas may satisfy a single payload. - -This example shows the `allOf` usage, which avoids needing to reference all child schemas in the parent: - -```yaml -components: - schemas: - Pet: - type: object - required: - - petType - properties: - petType: - type: string - discriminator: - propertyName: petType - mapping: - dog: Dog - Cat: - allOf: - - $ref: '#/components/schemas/Pet' - - type: object - # all other properties specific to a `Cat` - properties: - name: - type: string - Dog: - allOf: - - $ref: '#/components/schemas/Pet' - - type: object - # all other properties specific to a `Dog` - properties: - bark: - type: string - Lizard: - allOf: - - $ref: '#/components/schemas/Pet' - - type: object - # all other properties specific to a `Lizard` - properties: - lovesRocks: - type: boolean -``` - -Validated against the `Pet` schema, a payload like this: - -```json -{ - "petType": "Cat", - "name": "Misty" -} -``` - -will indicate that the `#/components/schemas/Cat` schema is expected to match. Likewise this payload: - -```json -{ - "petType": "dog", - "bark": "soft" -} -``` - -will map to `#/components/schemas/Dog` because the `dog` entry in the `mapping` element maps to `Dog` which is the schema name for `#/components/schemas/Dog`. - -#### XML Object - -A metadata object that allows for more fine-tuned XML model definitions. - -When using arrays, XML element names are _not_ inferred (for singular/plural forms) and the `name` field SHOULD be used to add that information. -See examples for expected behavior. - -##### Fixed Fields - -| Field Name | Type | Description | -| ---- | :----: | ---- | -| name | `string` | Replaces the name of the element/attribute used for the described schema property. When defined within `items`, it will affect the name of the individual XML elements within the list. When defined alongside `type` being `"array"` (outside the `items`), it will affect the wrapping element if and only if `wrapped` is `true`. If `wrapped` is `false`, it will be ignored. | -| namespace | `string` | The URI of the namespace definition. Value MUST be in the form of a non-relative URI. | -| prefix | `string` | The prefix to be used for the [name](#xml-name). | -| attribute | `boolean` | Declares whether the property definition translates to an attribute instead of an element. Default value is `false`. | -| wrapped | `boolean` | MAY be used only for an array definition. Signifies whether the array is wrapped (for example, ``) or unwrapped (``). Default value is `false`. The definition takes effect only when defined alongside `type` being `"array"` (outside the `items`). | - -This object MAY be extended with [Specification Extensions](#specification-extensions). - -The `namespace` field is intended to match the syntax of [XML namespaces](https://www.w3.org/TR/xml-names11/), although there are a few caveats: - -* Versions 3.1.0, 3.0.3, and earlier of this specification erroneously used the term "absolute URI" instead of "non-relative URI", so authors using namespaces that include a fragment should check tooling support carefully. -* XML allows but discourages relative URI-references, while this specification outright forbids them. -* XML 1.1 allows IRIs ([RFC3987](https://datatracker.ietf.org/doc/html/rfc3987)) as namespaces, and specifies that namespaces are compared without any encoding or decoding, which means that IRIs encoded to meet this specification's URI syntax requirement cannot be compared to IRIs as-is. - -##### XML Object Examples - -Each of the following examples represent the value of the `properties` keyword in a [Schema Object](#schema-object) that is omitted for brevity. -The JSON and YAML representations of the `properties` value are followed by an example XML representation produced for the single property shown. - -###### No XML Element - -Basic string property: - -```json -{ - "animals": { - "type": "string" - } -} -``` - -```yaml -animals: - type: string -``` - -```xml -... -``` - -Basic string array property ([`wrapped`](#xml-wrapped) is `false` by default): - -```json -{ - "animals": { - "type": "array", - "items": { - "type": "string" - } - } -} -``` - -```yaml -animals: - type: array - items: - type: string -``` - -```xml -... -... -... -``` - -###### XML Name Replacement - -```json -{ - "animals": { - "type": "string", - "xml": { - "name": "animal" - } - } -} -``` - -```yaml -animals: - type: string - xml: - name: animal -``` - -```xml -... -``` - -###### XML Attribute, Prefix and Namespace - -In this example, a full model definition is shown. - -```json -{ - "Person": { - "type": "object", - "properties": { - "id": { - "type": "integer", - "format": "int32", - "xml": { - "attribute": true - } - }, - "name": { - "type": "string", - "xml": { - "namespace": "https://example.com/schema/sample", - "prefix": "sample" - } - } - } - } -} -``` - -```yaml -Person: - type: object - properties: - id: - type: integer - format: int32 - xml: - attribute: true - name: - type: string - xml: - namespace: https://example.com/schema/sample - prefix: sample -``` - -```xml - - example - -``` - -###### XML Arrays - -Changing the element names: - -```json -{ - "animals": { - "type": "array", - "items": { - "type": "string", - "xml": { - "name": "animal" - } - } - } -} -``` - -```yaml -animals: - type: array - items: - type: string - xml: - name: animal -``` - -```xml -value -value -``` - -The external `name` field has no effect on the XML: - -```json -{ - "animals": { - "type": "array", - "items": { - "type": "string", - "xml": { - "name": "animal" - } - }, - "xml": { - "name": "aliens" - } - } -} -``` - -```yaml -animals: - type: array - items: - type: string - xml: - name: animal - xml: - name: aliens -``` - -```xml -value -value -``` - -Even when the array is wrapped, if a name is not explicitly defined, the same name will be used both internally and externally: - -```json -{ - "animals": { - "type": "array", - "items": { - "type": "string" - }, - "xml": { - "wrapped": true - } - } -} -``` - -```yaml -animals: - type: array - items: - type: string - xml: - wrapped: true -``` - -```xml - - value - value - -``` - -To overcome the naming problem in the example above, the following definition can be used: - -```json -{ - "animals": { - "type": "array", - "items": { - "type": "string", - "xml": { - "name": "animal" - } - }, - "xml": { - "wrapped": true - } - } -} -``` - -```yaml -animals: - type: array - items: - type: string - xml: - name: animal - xml: - wrapped: true -``` - -```xml - - value - value - -``` - -Affecting both internal and external names: - -```json -{ - "animals": { - "type": "array", - "items": { - "type": "string", - "xml": { - "name": "animal" - } - }, - "xml": { - "name": "aliens", - "wrapped": true - } - } -} -``` - -```yaml -animals: - type: array - items: - type: string - xml: - name: animal - xml: - name: aliens - wrapped: true -``` - -```xml - - value - value - -``` - -If we change the external element but not the internal ones: - -```json -{ - "animals": { - "type": "array", - "items": { - "type": "string" - }, - "xml": { - "name": "aliens", - "wrapped": true - } - } -} -``` - -```yaml -animals: - type: array - items: - type: string - xml: - name: aliens - wrapped: true -``` - -```xml - - value - value - -``` - -#### Security Scheme Object - -Defines a security scheme that can be used by the operations. - -Supported schemes are HTTP authentication, an API key (either as a header, a cookie parameter or as a query parameter), mutual TLS (use of a client certificate), OAuth2's common flows (implicit, password, client credentials and authorization code) as defined in [RFC6749](https://tools.ietf.org/html/rfc6749), and [[OpenID-Connect-Core]]. -Please note that as of 2020, the implicit flow is about to be deprecated by [OAuth 2.0 Security Best Current Practice](https://tools.ietf.org/html/draft-ietf-oauth-security-topics). Recommended for most use cases is Authorization Code Grant flow with PKCE. - -##### Fixed Fields - -| Field Name | Type | Applies To | Description | -| ---- | :----: | ---- | ---- | -| type | `string` | Any | **REQUIRED**. The type of the security scheme. Valid values are `"apiKey"`, `"http"`, `"mutualTLS"`, `"oauth2"`, `"openIdConnect"`. | -| description | `string` | Any | A description for security scheme. [CommonMark syntax](https://spec.commonmark.org/) MAY be used for rich text representation. | -| name | `string` | `apiKey` | **REQUIRED**. The name of the header, query or cookie parameter to be used. | -| in | `string` | `apiKey` | **REQUIRED**. The location of the API key. Valid values are `"query"`, `"header"`, or `"cookie"`. | -| scheme | `string` | `http` | **REQUIRED**. The name of the HTTP Authentication scheme to be used in the [Authorization header as defined in RFC7235](https://tools.ietf.org/html/rfc7235#section-5.1). The values used SHOULD be registered in the [IANA Authentication Scheme registry](https://www.iana.org/assignments/http-authschemes/http-authschemes.xhtml). The value is case-insensitive, as defined in [RFC7235](https://datatracker.ietf.org/doc/html/rfc7235#section-2.1). | -| bearerFormat | `string` | `http` (`"bearer"`) | A hint to the client to identify how the bearer token is formatted. Bearer tokens are usually generated by an authorization server, so this information is primarily for documentation purposes. | -| flows | [OAuth Flows Object](#oauth-flows-object) | `oauth2` | **REQUIRED**. An object containing configuration information for the flow types supported. | -| openIdConnectUrl | `string` | `openIdConnect` | **REQUIRED**. [Well-known URL](https://openid.net/specs/openid-connect-discovery-1_0.html#ProviderConfig) to discover the [[OpenID-Connect-Discovery]] [provider metadata](https://openid.net/specs/openid-connect-discovery-1_0.html#ProviderMetadata). | - -This object MAY be extended with [Specification Extensions](#specification-extensions). - -##### Security Scheme Object Examples - -###### Basic Authentication Example - -```json -{ - "type": "http", - "scheme": "basic" -} -``` - -```yaml -type: http -scheme: basic -``` - -###### API Key Example - -```json -{ - "type": "apiKey", - "name": "api-key", - "in": "header" -} -``` - -```yaml -type: apiKey -name: api-key -in: header -``` - -###### JWT Bearer Example - -```json -{ - "type": "http", - "scheme": "bearer", - "bearerFormat": "JWT" -} -``` - -```yaml -type: http -scheme: bearer -bearerFormat: JWT -``` - -###### MutualTLS Example - -```json -{ - "type": "mutualTLS", - "description": "Cert must be signed by example.com CA" -} -``` - -```yaml -type: mutualTLS -description: Cert must be signed by example.com CA -``` - -###### Implicit OAuth2 Example - -```json -{ - "type": "oauth2", - "flows": { - "implicit": { - "authorizationUrl": "https://example.com/api/oauth/dialog", - "scopes": { - "write:pets": "modify pets in your account", - "read:pets": "read your pets" - } - } - } -} -``` - -```yaml -type: oauth2 -flows: - implicit: - authorizationUrl: https://example.com/api/oauth/dialog - scopes: - write:pets: modify pets in your account - read:pets: read your pets -``` - -#### OAuth Flows Object - -Allows configuration of the supported OAuth Flows. - -##### Fixed Fields - -| Field Name | Type | Description | -| ---- | :----: | ---- | -| implicit | [OAuth Flow Object](#oauth-flow-object) | Configuration for the OAuth Implicit flow | -| password | [OAuth Flow Object](#oauth-flow-object) | Configuration for the OAuth Resource Owner Password flow | -| clientCredentials | [OAuth Flow Object](#oauth-flow-object) | Configuration for the OAuth Client Credentials flow. Previously called `application` in OpenAPI 2.0. | -| authorizationCode | [OAuth Flow Object](#oauth-flow-object) | Configuration for the OAuth Authorization Code flow. Previously called `accessCode` in OpenAPI 2.0. | - -This object MAY be extended with [Specification Extensions](#specification-extensions). - -#### OAuth Flow Object - -Configuration details for a supported OAuth Flow - -##### Fixed Fields - -| Field Name | Type | Applies To | Description | -| ---- | :----: | ---- | ---- | -| authorizationUrl | `string` | `oauth2` (`"implicit"`, `"authorizationCode"`) | **REQUIRED**. The authorization URL to be used for this flow. This MUST be in the form of a URL. The OAuth2 standard requires the use of TLS. | -| tokenUrl | `string` | `oauth2` (`"password"`, `"clientCredentials"`, `"authorizationCode"`) | **REQUIRED**. The token URL to be used for this flow. This MUST be in the form of a URL. The OAuth2 standard requires the use of TLS. | -| refreshUrl | `string` | `oauth2` | The URL to be used for obtaining refresh tokens. This MUST be in the form of a URL. The OAuth2 standard requires the use of TLS. | -| scopes | Map[`string`, `string`] | `oauth2` | **REQUIRED**. The available scopes for the OAuth2 security scheme. A map between the scope name and a short description for it. The map MAY be empty. | - -This object MAY be extended with [Specification Extensions](#specification-extensions). - -##### OAuth Flow Object Example - -```JSON -{ - "type": "oauth2", - "flows": { - "implicit": { - "authorizationUrl": "https://example.com/api/oauth/dialog", - "scopes": { - "write:pets": "modify pets in your account", - "read:pets": "read your pets" - } - }, - "authorizationCode": { - "authorizationUrl": "https://example.com/api/oauth/dialog", - "tokenUrl": "https://example.com/api/oauth/token", - "scopes": { - "write:pets": "modify pets in your account", - "read:pets": "read your pets" - } - } - } -} -``` - -```yaml -type: oauth2 -flows: - implicit: - authorizationUrl: https://example.com/api/oauth/dialog - scopes: - write:pets: modify pets in your account - read:pets: read your pets - authorizationCode: - authorizationUrl: https://example.com/api/oauth/dialog - tokenUrl: https://example.com/api/oauth/token - scopes: - write:pets: modify pets in your account - read:pets: read your pets -``` - -#### Security Requirement Object - -Lists the required security schemes to execute this operation. -The name used for each property MUST correspond to a security scheme declared in the [Security Schemes](#security-scheme-object) under the [Components Object](#components-object). - -A Security Requirement Object MAY refer to multiple security schemes in which case all schemes MUST be satisfied for a request to be authorized. -This enables support for scenarios where multiple query parameters or HTTP headers are required to convey security information. - -When the `security` field is defined on the [OpenAPI Object](#openapi-object) or [Operation Object](#operation-object) and contains multiple Security Requirement Objects, only one of the entries in the list needs to be satisfied to authorize the request. -This enables support for scenarios where the API allows multiple, independent security schemes. - -An empty Security Requirement Object (`{}`) indicates anonymous access is supported. - -##### Patterned Fields - -| Field Pattern | Type | Description | -| ---- | :----: | ---- | -| {name} | [`string`] | Each name MUST correspond to a security scheme which is declared in the [Security Schemes](#security-scheme-object) under the [Components Object](#components-object). If the security scheme is of type `"oauth2"` or `"openIdConnect"`, then the value is a list of scope names required for the execution, and the list MAY be empty if authorization does not require a specified scope. For other security scheme types, the array MAY contain a list of role names which are required for the execution, but are not otherwise defined or exchanged in-band. | - -##### Security Requirement Object Examples - -See also [Appendix F: Resolving Security Requirements in a Referenced Document](#appendix-f-resolving-security-requirements-in-a-referenced-document) for an example using Security Requirement Objects in multi-document OpenAPI Descriptions. - -###### Non-OAuth2 Security Requirement - -```json -{ - "api_key": [] -} -``` - -```yaml -api_key: [] -``` - -###### OAuth2 Security Requirement - -```json -{ - "petstore_auth": ["write:pets", "read:pets"] -} -``` - -```yaml -petstore_auth: - - write:pets - - read:pets -``` - -###### Optional OAuth2 Security - -Optional OAuth2 security as would be defined in an OpenAPI Object or an Operation Object: - -```json -{ - "security": [ - {}, - { - "petstore_auth": ["write:pets", "read:pets"] - } - ] -} -``` - -```yaml -security: - - {} - - petstore_auth: - - write:pets - - read:pets -``` - -### Specification Extensions - -While the OpenAPI Specification tries to accommodate most use cases, additional data can be added to extend the specification at certain points. - -The extensions properties are implemented as patterned fields that are always prefixed by `x-`. - -| Field Pattern | Type | Description | -| ---- | :--: | ---- | -| ^x- | Any | Allows extensions to the OpenAPI Schema. The field name MUST begin with `x-`, for example, `x-internal-id`. Field names beginning `x-oai-` and `x-oas-` are reserved for uses defined by the [OpenAPI Initiative](https://www.openapis.org/). The value can be any valid JSON value (`null`, a primitive, an array, or an object.) | - -The OpenAPI Initiative maintains several [[OpenAPI-Registry|extension registries]], including registries for [individual extension keywords](https://spec.openapis.org/registry/extension/) and [extension keyword namespaces](https://spec.openapis.org/registry/namespace/). - -Extensions are one of the best ways to prove the viability of proposed additions to the specification. -It is therefore RECOMMENDED that implementations be designed for extensibility to support community experimentation. - -Support for any one extension is OPTIONAL, and support for one extension does not imply support for others. - -### Security Filtering - -Some objects in the OpenAPI Specification MAY be declared and remain empty, or be completely removed, even though they are inherently the core of the API documentation. - -The reasoning is to allow an additional layer of access control over the documentation. -While not part of the specification itself, certain libraries MAY choose to allow access to parts of the documentation based on some form of authentication/authorization. - -Two examples of this: - -1. The [Paths Object](#paths-object) MAY be present but empty. It may be counterintuitive, but this may tell the viewer that they got to the right place, but can't access any documentation. They would still have access to at least the [Info Object](#info-object) which may contain additional information regarding authentication. -2. The [Path Item Object](#path-item-object) MAY be empty. In this case, the viewer will be aware that the path exists, but will not be able to see any of its operations or parameters. This is different from hiding the path itself from the [Paths Object](#paths-object), because the user will be aware of its existence. This allows the documentation provider to finely control what the viewer can see. - -## Security Considerations - -### OpenAPI Description Formats - -OpenAPI Descriptions use a combination of JSON, YAML, and JSON Schema, and therefore share their security considerations: - -* [JSON](https://www.iana.org/assignments/media-types/application/json) -* [YAML](https://www.iana.org/assignments/media-types/application/yaml) -* [JSON Schema Core](https://tools.ietf.org/html/draft-bhutton-json-schema-00#section-13) -* [JSON Schema Validation](https://tools.ietf.org/html/draft-bhutton-json-schema-validation-00#section-10) - -### Tooling and Usage Scenarios - -In addition, OpenAPI Descriptions are processed by a wide variety of tooling for numerous different purposes, such as client code generation, documentation generation, server side routing, and API testing. OpenAPI Description authors must consider the risks of the scenarios where the OpenAPI Description may be used. - -### Security Schemes - -An OpenAPI Description describes the security schemes used to protect the resources it defines. The security schemes available offer varying degrees of protection. Factors such as the sensitivity of the data and the potential impact of a security breach should guide the selection of security schemes for the API resources. Some security schemes, such as basic auth and OAuth Implicit flow, are supported for compatibility with existing APIs. However, their inclusion in OpenAPI does not constitute an endorsement of their use, particularly for highly sensitive data or operations. - -### Handling External Resources - -OpenAPI Descriptions may contain references to external resources that may be dereferenced automatically by consuming tools. External resources may be hosted on different domains that may be untrusted. - -### Handling Reference Cycles - -References in an OpenAPI Description may cause a cycle. Tooling must detect and handle cycles to prevent resource exhaustion. - -### Markdown and HTML Sanitization - -Certain fields allow the use of Markdown which can contain HTML including script. It is the responsibility of tooling to appropriately sanitize the Markdown. - -## Appendix A: Revision History - -| Version | Date | Notes | -| ---- | ---- | ---- | -| 3.1.1 | 2024-10-24 | Patch release of the OpenAPI Specification 3.1.1 | -| 3.1.0 | 2021-02-15 | Release of the OpenAPI Specification 3.1.0 | -| 3.1.0-rc1 | 2020-10-08 | rc1 of the 3.1 specification | -| 3.1.0-rc0 | 2020-06-18 | rc0 of the 3.1 specification | -| 3.0.4 | 2024-10-24 | Patch release of the OpenAPI Specification 3.0.4 | -| 3.0.3 | 2020-02-20 | Patch release of the OpenAPI Specification 3.0.3 | -| 3.0.2 | 2018-10-08 | Patch release of the OpenAPI Specification 3.0.2 | -| 3.0.1 | 2017-12-06 | Patch release of the OpenAPI Specification 3.0.1 | -| 3.0.0 | 2017-07-26 | Release of the OpenAPI Specification 3.0.0 | -| 3.0.0-rc2 | 2017-06-16 | rc2 of the 3.0 specification | -| 3.0.0-rc1 | 2017-04-27 | rc1 of the 3.0 specification | -| 3.0.0-rc0 | 2017-02-28 | Implementer's Draft of the 3.0 specification | -| 2.0 | 2015-12-31 | Donation of Swagger 2.0 to the OpenAPI Initiative | -| 2.0 | 2014-09-08 | Release of Swagger 2.0 | -| 1.2 | 2014-03-14 | Initial release of the formal document. | -| 1.1 | 2012-08-22 | Release of Swagger 1.1 | -| 1.0 | 2011-08-10 | First release of the Swagger Specification | - -## Appendix B: Data Type Conversion - -Serializing typed data to plain text, which can occur in `text/plain` message bodies or `multipart` parts, as well as in the `application/x-www-form-urlencoded` format in either URL query strings or message bodies, involves significant implementation- or application-defined behavior. - -[Schema Objects](#schema-object) validate data based on the [JSON Schema data model](https://datatracker.ietf.org/doc/html/draft-bhutton-json-schema-00#section-4.2.1), which only recognizes four primitive data types: strings (which are [only broadly interoperable as UTF-8](https://datatracker.ietf.org/doc/html/rfc7159#section-8.1)), numbers, booleans, and `null`. -Notably, integers are not a distinct type from other numbers, with `type: "integer"` being a convenience defined mathematically, rather than based on the presence or absence of a decimal point in any string representation. - -The [Parameter Object](#parameter-object), [Header Object](#header-object), and [Encoding Object](#encoding-object) offer features to control how to arrange values from array or object types. -They can also be used to control how strings are further encoded to avoid reserved or illegal characters. -However, there is no general-purpose specification for converting schema-validated non-UTF-8 primitive data types (or entire arrays or objects) to strings. - -Two cases do offer standards-based guidance: - -* [RFC3987](https://datatracker.ietf.org/doc/html/rfc3987#section-3.1) provides guidance for converting non-Unicode strings to UTF-8, particularly in the context of URIs (and by extension, the form media types which use the same encoding rules) -* [RFC6570](https://www.rfc-editor.org/rfc/rfc6570#section-2.3) specifies which values, including but not limited to `null`, are considered _undefined_ and therefore treated specially in the expansion process when serializing based on that specification - -Implementations of RFC6570 often have their own conventions for converting non-string values, but these are implementation-specific and not defined by the RFC itself. -This is one reason for the OpenAPI Specification to leave these conversions as implementation-defined: It allows using RFC6570 implementations regardless of how they choose to perform the conversions. - -To control the serialization of numbers, booleans, and `null` (or other values RFC6570 deems to be undefined) more precisely, schemas can be defined as `type: "string"` and constrained using `pattern`, `enum`, `format`, and other keywords to communicate how applications must pre-convert their data prior to schema validation. -The resulting strings would not require any further type conversion. - -The `format` keyword can assist in serialization. -Some formats (such as `date-time`) are unambiguous, while others (such as [`decimal`](https://spec.openapis.org/registry/format/decimal.html) in the [Format Registry](https://spec.openapis.org/registry/format/)) are less clear. -However, care must be taken with `format` to ensure that the specific formats are supported by all relevant tools as unrecognized formats are ignored. - -Requiring input as pre-formatted, schema-validated strings also improves round-trip interoperability as not all programming languages and environments support the same data types. - -## Appendix C: Using RFC6570-Based Serialization - -Serialization is defined in terms of [RFC6570](https://www.rfc-editor.org/rfc/rfc6570) URI Templates in three scenarios: - -| Object | Condition | -| ---- | ---- | -| [Parameter Object](#parameter-object) | When `schema` is present | -| [Header Object](#header-object) | When `schema` is present | -| [Encoding Object](#encoding-object) | When encoding for `application/x-www-form-urlencoded` and any of `style`, `explode`, or `allowReserved` are used | - -Implementations of this specification MAY use an implementation of RFC6570 to perform variable expansion, however, some caveats apply. - -Note that when using `style: "form"` RFC6570 expansion to produce an `application/x-www-form-urlencoded` HTTP message body, it is necessary to remove the `?` prefix that is produced to satisfy the URI query string syntax. - -When using `style` and similar keywords to produce a `multipart/form-data` body, the query string names are placed in the `name` parameter of the `Content-Disposition` part header, and the values are placed in the corresponding part body; the `?`, `=`, and `&` characters are not used. -Note that while [RFC7578](https://datatracker.ietf.org/doc/html/rfc7578) allows using [[RFC3986]] percent-encoding in "file names", it does not otherwise address the use of percent-encoding within the format. -RFC7578 discusses character set and encoding issues for `multipart/form-data` in detail, and it is RECOMMENDED that OpenAPI Description authors read this guidance carefully before deciding to use RFC6570-based serialization with this media type. - -Note also that not all RFC6570 implementations support all four levels of operators, all of which are needed to fully support the OpenAPI Specification's usage. -Using an implementation with a lower level of support will require additional manual construction of URI Templates to work around the limitations. - -### Equivalences Between Fields and RFC6570 Operators - -Certain field values translate to RFC6570 [operators](https://datatracker.ietf.org/doc/html/rfc6570#section-2.2) (or lack thereof): - -| field | value | equivalent | -| ---- | ---- | ---- | -| style | `"simple"` | _n/a_ | -| style | `"matrix"` | `;` prefix operator | -| style | `"label"` | `.` prefix operator | -| style | `"form"` | `?` prefix operator | -| allowReserved | `false` | _n/a_ | -| allowReserved | `true` | `+` prefix operator | -| explode | `false` | _n/a_ | -| explode | `true` | `*` modifier suffix | - -Multiple `style: "form"` parameters are equivalent to a single RFC6570 [variable list](https://www.rfc-editor.org/rfc/rfc6570#section-2.2) using the `?` prefix operator: - -```YAML -parameters: -- name: foo - in: query - schema: - type: object - explode: true -- name: bar - in: query - schema: - type: string -``` - -This example is equivalent to RFC6570's `{?foo*,bar}`, and **NOT** `{?foo*}{&bar}`. The latter is problematic because if `foo` is not defined, the result will be an invalid URI. -The `&` prefix operator has no equivalent in the Parameter Object. - -Note that RFC6570 does not specify behavior for compound values beyond the single level addressed by `explode`. The result of using objects or arrays where no behavior is clearly specified for them is implementation-defined. - -### Delimiters in Parameter Values - -Delimiters used by RFC6570 expansion, such as the `,` used to join arrays or object values with `style: "simple"`, are all automatically percent-encoded as long as `allowReserved` is `false`. -Note that since RFC6570 does not define a way to parse variables based on a URI Template, users must take care to first split values by delimiter before percent-decoding values that might contain the delimiter character. - -When `allowReserved` is `true`, both percent-encoding (prior to joining values with a delimiter) and percent-decoding (after splitting on the delimiter) must be done manually at the correct time. - -See [Appendix E](#appendix-e-percent-encoding-and-form-media-types) for additional guidance on handling delimiters for `style` values with no RFC6570 equivalent that already need to be percent-encoded when used as delimiters. - -### Non-RFC6570 Field Values and Combinations - -Configurations with no direct [RFC6570](https://datatracker.ietf.org/doc/html/rfc6570) equivalent SHOULD also be handled according to RFC6570. -Implementations MAY create a properly delimited URI Template with variables for individual names and values using RFC6570 regular or reserved expansion (based on `allowReserved`). - -This includes: - -* the styles `pipeDelimited`, `spaceDelimited`, and `deepObject`, which have no equivalents at all -* the combination of the style `form` with `allowReserved: true`, which is not allowed because only one prefix operator can be used at a time -* any parameter name that is not a legal RFC6570 variable name - -The Parameter Object's `name` field has a much more permissive syntax than RFC6570 [variable name syntax](https://www.rfc-editor.org/rfc/rfc6570#section-2.3). -A parameter name that includes characters outside of the allowed RFC6570 variable character set MUST be percent-encoded before it can be used in a URI Template. - -### Examples - -Let's say we want to use the following data in a form query string, where `formulas` is exploded, and `words` is not: - -```YAML -formulas: - a: x+y - b: x/y - c: x^y -words: -- math -- is -- fun -``` - -#### RFC6570-Equivalent Expansion - -This array of Parameter Objects uses regular `style: "form"` expansion, fully supported by [RFC6570](https://datatracker.ietf.org/doc/html/rfc6570): - -```YAML -parameters: -- name: formulas - in: query - schema: - type: object - additionalProperties: - type: string - explode: true -- name: words - in: query - schema: - type: array - items: - type: string -``` - -This translates to the following URI Template: - -```uritemplate -{?formulas*,words} -``` - -when expanded with the data given earlier, we get: - -```uri -?a=x%2By&b=x%2Fy&c=x%5Ey&words=math,is,fun -``` - -#### Expansion with Non-RFC6570-Supported Options - -But now let's say that (for some reason), we really want that `/` in the `b` formula to show up as-is in the query string, and we want our words to be space-separated like in a written phrase. -To do that, we'll add `allowReserved: true` to `formulas`, and change to `style: "spaceDelimited"` for `words`: - -```YAML -parameters: -- name: formulas - in: query - schema: - type: object - additionalProperties: - type: string - explode: true - allowReserved: true -- name: words - in: query - style: spaceDelimited - explode: false - schema: - type: array - items: - type: string -``` - -We can't combine the `?` and `+` RFC6570 [prefixes](https://datatracker.ietf.org/doc/html/rfc6570#section-2.4.1), and there's no way with RFC6570 to replace the `,` separator with a space character. -So we need to restructure the data to fit a manually constructed URI Template that passes all of the pieces through the right sort of expansion. - -Here is one such template, using a made-up convention of `words.0` for the first entry in the words value, `words.1` for the second, and `words.2` for the third: - -```uritemplate -?a={+a}&b={+b}&c={+c}&words={words.0} {words.1} {words.2} -``` - -RFC6570 [mentions](https://www.rfc-editor.org/rfc/rfc6570.html#section-2.4.2) the use of `.` "to indicate name hierarchy in substructures," but does not define any specific naming convention or behavior for it. -Since the `.` usage is not automatic, we'll need to construct an appropriate input structure for this new template. - -We'll also need to pre-process the values for `formulas` because while `/` and most other reserved characters are allowed in the query string by RFC3986, `[`, `]`, and `#` [are not](https://datatracker.ietf.org/doc/html/rfc3986#appendix-A), and `&`, `=`, and `+` all have [special behavior](https://www.rfc-editor.org/rfc/rfc1866#section-8.2.1) in the `application/x-www-form-urlencoded` format, which is what we are using in the query string. - -Setting `allowReserved: true` does _not_ make reserved characters that are not allowed in URIs allowed, it just allows them to be _passed through expansion unchanged._ -Therefore, any tooling still needs to percent-encode those characters because reserved expansion will not do it, but it _will_ leave the percent-encoded triples unchanged. -See also [Appendix E](#appendix-e-percent-encoding-and-form-media-types) for further guidance on percent-encoding and form media types, including guidance on handling the delimiter characters for `spaceDelimited`, `pipeDelimited`, and `deepObject` in parameter names and values. - -So here is our data structure that arranges the names and values to suit the template above, where values for `formulas` have `[]#&=+` pre-percent encoded (although only `+` appears in this example): - -```YAML -a: x%2By -b: x/y -c: x^y -words.0: math -words.1: is -words.2: fun -``` - -Expanding our manually assembled template with our restructured data yields the following query string: - -```uri -?a=x%2By&b=x/y&c=x%5Ey&words=math%20is%20fun -``` - -The `/` and the pre-percent-encoded `%2B` have been left alone, but the disallowed `^` character (inside a value) and space characters (in the template but outside of the expanded variables) were percent-encoded. - -#### Undefined Values and Manual URI Template Construction - -Care must be taken when manually constructing templates to handle the values that RFC6570 [considers to be _undefined_](https://datatracker.ietf.org/doc/html/rfc6570#section-2.3) correctly: - -```YAML -formulas: {} -words: -- hello -- world -``` - -Using this data with our original RFC6570-friendly URI Template, `{?formulas*,words}`, produces the following: - -```uri -?words=hello,world -``` - -This means that the manually constructed URI Template and restructured data need to leave out the `formulas` object entirely so that the `words` parameter is the first and only parameter in the query string. - -Restructured data: - -```YAML -words.0: hello -words.1: world -``` - -Manually constructed URI Template: - -```uritemplate -?words={words.0} {words.1} -``` - -Result: - -```uri -?words=hello%20world -``` - -#### Illegal Variable Names as Parameter Names - -In this example, the heart emoji is not legal in URI Template names (or URIs): - -```YAML -parameters: -- name: ❤️ - in: query - schema: - type: string -``` - -We can't just pass `❤️: "love!"` to an RFC6570 implementation. -Instead, we have to pre-percent-encode the name (which is a six-octet UTF-8 sequence) in both the data and the URI Template: - -```YAML -"%E2%9D%A4%EF%B8%8F": love! -``` - -```uritemplate -{?%E2%9D%A4%EF%B8%8F} -``` - -This will expand to the result: - -```uri -?%E2%9D%A4%EF%B8%8F=love%21 -``` - -## Appendix D: Serializing Headers and Cookies - -[RFC6570](https://www.rfc-editor.org/rfc/rfc6570)'s percent-encoding behavior is not always appropriate for `in: "header"` and `in: "cookie"` parameters. -In many cases, it is more appropriate to use `content` with a media type such as `text/plain` and require the application to assemble the correct string. - -For both [RFC6265](https://www.rfc-editor.org/rfc/rfc6265) cookies and HTTP headers using the [RFC8941](https://www.rfc-editor.org/rfc/rfc8941) structured fields syntax, non-ASCII content is handled using base64 encoding (`contentEncoding: "base64"`). -Note that the standard base64-encoding alphabet includes non-URL-safe characters that are percent-encoded by RFC6570 expansion; serializing values through both encodings is NOT RECOMMENDED. -While `contentEncoding` also supports the `base64url` encoding, which is URL-safe, the header and cookie RFCs do not mention this encoding. - -Most HTTP headers predate the structured field syntax, and a comprehensive assessment of their syntax and encoding rules is well beyond the scope of this specification. -While [RFC8187](https://www.rfc-editor.org/rfc/rfc8187) recommends percent-encoding HTTP (header or trailer) field parameters, these parameters appear after a `;` character. -With `style: "simple"`, that delimiter would itself be percent-encoded, violating the general HTTP field syntax. - -Using `style: "form"` with `in: "cookie"` is ambiguous for a single value, and incorrect for multiple values. -This is true whether the multiple values are the result of using `explode: true` or not. - -This style is specified to be equivalent to RFC6570 form expansion which includes the `?` character (see [Appendix C](#appendix-c-using-rfc6570-based-serialization) for more details), which is not part of the cookie syntax. -However, examples of this style in past versions of this specification have not included the `?` prefix, suggesting that the comparison is not exact. -Because implementations that rely on an RFC6570 implementation and those that perform custom serialization based on the style example will produce different results, it is implementation-defined as to which of the two results is correct. - -For multiple values, `style: "form"` is always incorrect as name=value pairs in cookies are delimited by `;` (a semicolon followed by a space character) rather than `&`. - -## Appendix E: Percent-Encoding and Form Media Types - -_**NOTE:** In this section, the `application/x-www-form-urlencoded` and `multipart/form-data` media types are abbreviated as `form-urlencoded` and `form-data`, respectively, for readability._ - -Percent-encoding is used in URIs and media types that derive their syntax from URIs. -This process is concerned with three sets of characters, the names of which vary among specifications but are defined as follows for the purposes of this section: - -* _unreserved_ characters do not need to be percent-encoded; while it is safe to percent-encode them, doing so produces a URI that is [not normalized](https://datatracker.ietf.org/doc/html/rfc3986#section-6.2.2.2) -* _reserved_ characters either have special behavior in the URI syntax (such as delimiting components) or are reserved for other specifications that need to define special behavior (e.g. `form-urlencoded` defines special behavior for `=`, `&`, and `+`) -* _unsafe_ characters are known to cause problems when parsing URIs in certain environments - -Unless otherwise specified, this section uses RFC3986's definition of [reserved](https://datatracker.ietf.org/doc/html/rfc3986#section-2.2) and [unreserved](https://datatracker.ietf.org/doc/html/rfc3986#section-2.3), and defines the unsafe set as all characters not included in either of those sets. - -### Percent-Encoding and `form-urlencoded` - -Each URI component (such as the query string) considers some of the reserved characters to be unsafe, either because they serve as delimiters between the components (e.g. `#`), or (in the case of `[` and `]`) were historically considered globally unsafe but were later given reserved status for limited purposes. - -Reserved characters with no special meaning defined within a component can be left un-percent encoded. -However, other specifications can define special meanings, requiring percent-encoding for those characters outside of the additional special meanings. - -The `form-urlencoded` media type defines special meanings for `=` and `&` as delimiters, and `+` as the replacement for the space character (instead of its percent-encoded form of `%20`). -This means that while these three characters are reserved-but-allowed in query strings by RFC3986, they must be percent-encoded in `form-urlencoded` query strings except when used for their `form-urlencoded` purposes; see [Appendix C](#appendix-c-using-rfc6570-based-serialization) for an example of handling `+` in form values. - -### Percent-Encoding and `form-data` - -[RFC7578](https://datatracker.ietf.org/doc/html/rfc7578#section-2) suggests RFC3986-based percent-encoding as a mechanism to keep text-based per-part header data such as file names within the ASCII character set. -This suggestion was not part of older (pre-2015) specifications for `form-data`, so care must be taken to ensure interoperability. - -The `form-data` media type allows arbitrary text or binary data in its parts, so percent-encoding is not needed and is likely to cause interoperability problems unless the `Content-Type` of the part is defined to require it. - -### Generating and Validating URIs and `form-urlencoded` Strings - -URI percent encoding and the `form-urlencoded` media type have complex specification histories spanning multiple revisions and, in some cases, conflicting claims of ownership by different standards bodies. -Unfortunately, these specifications each define slightly different percent-encoding rules, which need to be taken into account if the URIs or `form-urlencoded` message bodies will be subject to strict validation. -(Note that many URI parsers do not perform validation by default.) - -This specification normatively cites the following relevant standards: - -| Specification | Date | OAS Usage | Percent-Encoding | Notes | -| ---- | ---- | ---- | ---- | ---- | -| [RFC3986](https://www.rfc-editor.org/rfc/rfc3986) | 01/2005 | URI/URL syntax | [[RFC3986]] | obsoletes [[RFC1738]], [[RFC2396]] | -| [RFC6570](https://www.rfc-editor.org/rfc/rfc6570) | 03/2012 | style-based serialization | [[RFC3986]] | does not use `+` for form‑urlencoded | -| [RFC1866](https://datatracker.ietf.org/doc/html/rfc1866#section-8.2.1) | 11/1995 | content-based serialization | [[RFC1738]] | obsoleted by [[HTML401]] [Section 17.13.4.1](https://www.w3.org/TR/html401/interact/forms.html#h-17.13.4.1), [[URL]] [Section 5](https://url.spec.whatwg.org/#urlencoded-serializing) | - -Style-based serialization is used in the [Parameter Object](#parameter-object) when `schema` is present, and in the [Encoding Object](#encoding-object) when at least one of `style`, `explode`, or `allowReserved` is present. -See [Appendix C](#appendix-c-using-rfc6570-based-serialization) for more details of RFC6570's two different approaches to percent-encoding, including an example involving `+`. - -Content-based serialization is defined by the [Media Type Object](#media-type-object), and used with the [Parameter Object](#parameter-object) when the `content` field is present, and with the [Encoding Object](#encoding-object) based on the `contentType` field when the fields `style`, `explode`, and `allowReserved` are absent. -Each part is encoded based on the media type (e.g. `text/plain` or `application/json`), and must then be percent-encoded for use in a `form-urlencoded` string. - -Note that content-based serialization for `form-data` does not expect or require percent-encoding in the data, only in per-part header values. - -#### Interoperability with Historical Specifications - -In most cases, generating query strings in strict compliance with [[RFC3986]] is sufficient to pass validation (including JSON Schema's `format: "uri"` and `format: "uri-reference"`), but some `form-urlencoded` implementations still expect the slightly more restrictive [[RFC1738]] rules to be used. - -Since all RFC1738-compliant URIs are compliant with RFC3986, applications needing to ensure historical interoperability SHOULD use RFC1738's rules. - -#### Interoperability with Web Browser Environments - -WHATWG is a [web browser-oriented](https://whatwg.org/faq#what-is-the-whatwg-working-on) standards group that has defined a "URL Living Standard" for parsing and serializing URLs in a browser context, including parsing and serializing `form-urlencoded` data. -WHATWG's percent-encoding rules for query strings are different depending on whether the query string is [being treated as `form-urlencoded`](https://url.spec.whatwg.org/#application-x-www-form-urlencoded-percent-encode-set) (where it requires more percent-encoding than [[RFC1738]]) or [as part of the generic syntax](https://url.spec.whatwg.org/#query-percent-encode-set), where it allows characters that [[RFC3986]] forbids. - -Implementations needing maximum compatibility with web browsers SHOULD use WHATWG's `form-urlencoded` percent-encoding rules. -However, they SHOULD NOT rely on WHATWG's less stringent generic query string rules, as the resulting URLs would fail RFC3986 validation, including JSON Schema's `format: uri` and `format: uri-reference`. - -### Decoding URIs and `form-urlencoded` Strings - -The percent-decoding algorithm does not care which characters were or were not percent-decoded, which means that URIs percent-encoded according to any specification will be decoded correctly. - -Similarly, all `form-urlencoded` decoding algorithms simply add `+`-for-space handling to the percent-decoding algorithm, and will work regardless of the encoding specification used. - -However, care must be taken to use `form-urlencoded` decoding if `+` represents a space, and to use regular percent-decoding if `+` represents itself as a literal value. - -### Percent-Encoding and Illegal or Reserved Delimiters - -The `[`, `]`, `|`, and space characters, which are used as delimiters for the `deepObject`, `pipeDelimited`, and `spaceDelimited` styles, respectively, all MUST be percent-encoded to comply with [[RFC3986]]. -This requires users to pre-encode the character(s) in some other way in parameter names and values to distinguish them from the delimiter usage when using one of these styles. - -The space character is always illegal and encoded in some way by all implementations of all versions of the relevant standards. -While one could use the `form-urlencoded` convention of `+` to distinguish spaces in parameter names and values from `spaceDelimited` delimiters encoded as `%20`, the specifications define the decoding as a single pass, making it impossible to distinguish the different usages in the decoded result. - -Some environments use `[`, `]`, and possibly `|` unencoded in query strings without apparent difficulties, and WHATWG's generic query string rules do not require percent-encoding them. -Code that relies on leaving these delimiters unencoded, while using regular percent-encoding for them within names and values, is not guaranteed to be interoperable across all implementations. - -For maximum interoperability, it is RECOMMENDED to either define and document an additional escape convention while percent-encoding the delimiters for these styles, or to avoid these styles entirely. -The exact method of additional encoding/escaping is left to the API designer, and is expected to be performed before serialization and encoding described in this specification, and reversed after this specification's encoding and serialization steps are reversed. -This keeps it outside of the processes governed by this specification. - -## Appendix F: Resolving Security Requirements in a Referenced Document - -This appendix shows how to retrieve an HTTP-accessible multi-document OpenAPI Description (OAD) and resolve a [Security Requirement Object](#security-requirement-object) in the referenced (non-entry) document. See [Resolving Implicit Connections](#resolving-implicit-connections) for more information. - -First, the [entry document](#openapi-description-structure) is where parsing begins. It defines the `MySecurity` security scheme to be JWT-based, and it defines a Path Item as a reference to a component in another document: - -```HTTP -GET /api/description/openapi HTTP/1.1 -Host: www.example.com -Accept: application/openapi+json -``` - -```json -"components": { - "securitySchemes": { - "MySecurity": { - "type": "http", - "scheme": "bearer", - "bearerFormat": "JWT" - } - } -}, -"paths": { - "/foo": { - "$ref": "other#/components/pathItems/Foo" - } -} -``` - -```HTTP -GET /api/description/openapi HTTP/1.1 -Host: www.example.com -Accept: application/openapi+yaml -``` - -```yaml -components: - securitySchemes: - MySecurity: - type: http - scheme: bearer - bearerFormat: JWT -paths: - /foo: - $ref: 'other#/components/pathItems/Foo' -``` - -This entry document references another document, `other`, without using a file extension. This gives the client the flexibility to choose an acceptable format on a resource-by-resource basis, assuming both representations are available: - -```HTTP -GET /api/description/other HTTP/1.1 -Host: www.example.com -Accept: application/openapi+json -``` - -```json -"components": { - "securitySchemes": { - "MySecurity": { - "type": "http", - "scheme": "basic" - } - }, - "pathItems": { - "Foo": { - "get": { - "security": [ - "MySecurity": [] - ] - } - } - } -} -``` - -```HTTP -GET /api/description/other HTTP/1.1 -Host: www.example.com -Accept: application/openapi+yaml -``` - -```yaml -components: - securitySchemes: - MySecurity: - type: http - scheme: basic - pathItems: - Foo: - get: - security: - - MySecurity: [] -``` - -In the `other` document, the referenced path item has a Security Requirement for a Security Scheme, `MySecurity`. The same Security Scheme exists in the original entry document. As outlined in [Resolving Implicit Connections](#resolving-implicit-connections), `MySecurity` is resolved with an [implementation-defined behavior](#undefined-and-implementation-defined-behavior). However, documented in that section, it is RECOMMENDED that tools resolve component names from the [entry document](#openapi-description-structure). As with all implementation-defined behavior, it is important to check tool documentation to determine which behavior is supported. diff --git a/src/schemas/validation/README.md b/src/schemas/validation/README.md deleted file mode 100644 index 57501dfc51..0000000000 --- a/src/schemas/validation/README.md +++ /dev/null @@ -1,69 +0,0 @@ -# OpenAPI 3.X.Y JSON Schema - -This directory contains the YAML sources for generating the JSON Schemas for validating OpenAPI definitions of versions 3.X.Y, which are published on [https://spec.openapis.org](https://spec.openapis.org). - -Due to limitations of GitHub pages, the schemas on the spec site are served with `Content-Type: application/octet-stream`, but should be interpreted as `application/schema+json`. - -The sources in this directory, which have `WORK-IN-PROGRESS` in their `$id`s, are _not intended for direct use_. - -## Schema `$id` dates - -The published schemas on the spec site have an _iteration date_ in their `id`s. -This allows the schemas for a release line to be updated independent of the spec patch release cycle. - -The iteration version of the JSON Schema can be found in the `$id` field. -For example, the value of `$id: https://spec.openapis.org/oas/3.1/schema/2021-03-02` means this iteration was created on March 2nd, 2021. - -We are [working on](https://github.com/OAI/OpenAPI-Specification/issues/4152) how to best provide programmatic access for determining the latest date for each schema. - -## Choosing which schema to use - -There are two schemas to choose from for versions 3.1 and greater, both of which have an `$id` that starts with `https://spec.openapis.org/oas/3.X/` and ends with the iteration date: - -* `https://spec.openapis.org/oas/3.X/schema/{date}`, source: `schema.yaml` — A self-contained schema that _does not_ validate Schema Objects beyond `type: [object, boolean]` -* `https://spec.openapis.org/oas/3.1/schema-base/{date}`, source: `schema-base.yaml` — A schema that combines the self-contained schema and the "base" dialect schema to validate Schema Objects with the dialect; this schema does not allow changing `$schema` or `jsonSchemaDialect` to other dialects - -Two metaschemas define the OAS "base" dialect: - -* `https://spec.openapis.org/oas/3.X/meta/{date}`, source: `meta.yaml` — The vocabulary metaschema for OAS 3.X's extensions to draft 2020-12 -* `https://spec.openapis.org/oas/3.X/dialect/{date}`, source: `dialect.yaml` — The dialect metaschema that extends the standard `draft/2020-12` metaschema by adding the OAS "base" vocabulary - -The name "base" for the dialect was intended to indicate that the OAS dialect could be further extended. - -~~~mermaid -flowchart LR - schema_base - schema - dialect - meta - schema --> |default| dialect - schema_base --> |$ref| schema - schema_base --> |$ref| dialect - dialect --> |$ref| meta -~~~ - -An additional schema that validates the Schema Object with the OAS 3.X dialect but does not restrict changing `$schema` is [under consideration](https://github.com/OAI/OpenAPI-Specification/issues/4147). - -## Improving the schemas - -As a reminder, the JSON Schema is not the source of truth for the Specification. In cases of conflicts between the Specification itself and the JSON Schema, the Specification wins. Also, some Specification constraints cannot be represented with the JSON Schema so it's highly recommended to employ other methods to ensure compliance. - -The schema only validates the mandatory aspects of the OAS. -Validating requirements that are optional, or field usage that has undefined or ignored behavior are not within the scope of this schema. -Schemas to perform additional optional validation are [under consideration](https://github.com/OAI/OpenAPI-Specification/issues/4141). - -Improvements can be submitted by opening a PR against the `vX.Y-dev` branch of the respective specification version. - -Modify the `schema.yaml` file and add test cases for your changes. - -The TSC will then: -- Run tests on the updated schema -- Update the iteration version -- Publish the new version - -The [test suite](../../../tests/schema) is part of this package. - -```bash -npm install -npm test -``` diff --git a/src/schemas/validation/dialect.yaml b/src/schemas/validation/dialect.yaml deleted file mode 100644 index d300d94feb..0000000000 --- a/src/schemas/validation/dialect.yaml +++ /dev/null @@ -1,21 +0,0 @@ -$id: https://spec.openapis.org/oas/3.1/dialect/WORK-IN-PROGRESS -$schema: https://json-schema.org/draft/2020-12/schema - -title: OpenAPI 3.1 Schema Object Dialect -description: A JSON Schema dialect describing schemas found in OpenAPI v3.1 Descriptions - -$dynamicAnchor: meta - -$vocabulary: - https://json-schema.org/draft/2020-12/vocab/applicator: true - https://json-schema.org/draft/2020-12/vocab/content: true - https://json-schema.org/draft/2020-12/vocab/core: true - https://json-schema.org/draft/2020-12/vocab/format-annotation: true - https://json-schema.org/draft/2020-12/vocab/meta-data: true - https://json-schema.org/draft/2020-12/vocab/unevaluated: true - https://json-schema.org/draft/2020-12/vocab/validation: true - https://spec.openapis.org/oas/3.1/vocab/base: false - -allOf: - - $ref: https://json-schema.org/draft/2020-12/schema - - $ref: https://spec.openapis.org/oas/3.1/meta/WORK-IN-PROGRESS diff --git a/src/schemas/validation/meta.yaml b/src/schemas/validation/meta.yaml deleted file mode 100644 index 6cfce4976d..0000000000 --- a/src/schemas/validation/meta.yaml +++ /dev/null @@ -1,70 +0,0 @@ -$id: https://spec.openapis.org/oas/3.1/meta/WORK-IN-PROGRESS -$schema: https://json-schema.org/draft/2020-12/schema - -title: OAS Base Vocabulary -description: A JSON Schema Vocabulary used in the OpenAPI Schema Dialect - -$dynamicAnchor: meta - -$vocabulary: - https://spec.openapis.org/oas/3.1/vocab/base: true - -type: - - object - - boolean -properties: - discriminator: - $ref: '#/$defs/discriminator' - example: true - externalDocs: - $ref: '#/$defs/external-docs' - xml: - $ref: '#/$defs/xml' - -$defs: - discriminator: - $ref: '#/$defs/extensible' - properties: - mapping: - additionalProperties: - type: string - type: object - propertyName: - type: string - required: - - propertyName - type: object - unevaluatedProperties: false - - extensible: - patternProperties: - ^x-: true - external-docs: - $ref: '#/$defs/extensible' - properties: - description: - type: string - url: - format: uri-reference - type: string - required: - - url - type: object - unevaluatedProperties: false - - xml: - $ref: '#/$defs/extensible' - properties: - attribute: - type: boolean - name: - type: string - namespace: - format: uri - type: string - prefix: - type: string - wrapped: - type: boolean - type: object - unevaluatedProperties: false diff --git a/src/schemas/validation/schema-base.yaml b/src/schemas/validation/schema-base.yaml deleted file mode 100644 index ea239c03e9..0000000000 --- a/src/schemas/validation/schema-base.yaml +++ /dev/null @@ -1,20 +0,0 @@ -$id: 'https://spec.openapis.org/oas/3.1/schema-base/WORK-IN-PROGRESS' -$schema: 'https://json-schema.org/draft/2020-12/schema' - -description: The description of OpenAPI v3.1.x Documents using the OpenAPI JSON Schema dialect - -$ref: 'https://spec.openapis.org/oas/3.1/schema/WORK-IN-PROGRESS' -properties: - jsonSchemaDialect: - $ref: '#/$defs/dialect' - -$defs: - dialect: - const: 'https://spec.openapis.org/oas/3.1/dialect/WORK-IN-PROGRESS' - - schema: - $dynamicAnchor: meta - $ref: 'https://spec.openapis.org/oas/3.1/dialect/WORK-IN-PROGRESS' - properties: - $schema: - $ref: '#/$defs/dialect' diff --git a/src/schemas/validation/schema.yaml b/src/schemas/validation/schema.yaml deleted file mode 100644 index 54c49a2f97..0000000000 --- a/src/schemas/validation/schema.yaml +++ /dev/null @@ -1,974 +0,0 @@ -$id: 'https://spec.openapis.org/oas/3.1/schema/WORK-IN-PROGRESS' -$schema: 'https://json-schema.org/draft/2020-12/schema' - -description: The description of OpenAPI v3.1.x Documents without Schema Object validation - -type: object -properties: - openapi: - type: string - pattern: '^3\.1\.\d+(-.+)?$' - info: - $ref: '#/$defs/info' - jsonSchemaDialect: - type: string - format: uri - default: 'https://spec.openapis.org/oas/3.1/dialect/WORK-IN-PROGRESS' - servers: - type: array - items: - $ref: '#/$defs/server' - default: - - url: / - paths: - $ref: '#/$defs/paths' - webhooks: - type: object - additionalProperties: - $ref: '#/$defs/path-item' - components: - $ref: '#/$defs/components' - security: - type: array - items: - $ref: '#/$defs/security-requirement' - tags: - type: array - items: - $ref: '#/$defs/tag' - externalDocs: - $ref: '#/$defs/external-documentation' -required: - - openapi - - info -anyOf: - - required: - - paths - - required: - - components - - required: - - webhooks -$ref: '#/$defs/specification-extensions' -unevaluatedProperties: false - -$defs: - info: - $comment: https://spec.openapis.org/oas/v3.1#info-object - type: object - properties: - title: - type: string - summary: - type: string - description: - type: string - termsOfService: - type: string - format: uri - contact: - $ref: '#/$defs/contact' - license: - $ref: '#/$defs/license' - version: - type: string - required: - - title - - version - $ref: '#/$defs/specification-extensions' - unevaluatedProperties: false - - contact: - $comment: https://spec.openapis.org/oas/v3.1#contact-object - type: object - properties: - name: - type: string - url: - type: string - format: uri - email: - type: string - format: email - $ref: '#/$defs/specification-extensions' - unevaluatedProperties: false - - license: - $comment: https://spec.openapis.org/oas/v3.1#license-object - type: object - properties: - name: - type: string - identifier: - type: string - url: - type: string - format: uri - required: - - name - dependentSchemas: - identifier: - not: - required: - - url - $ref: '#/$defs/specification-extensions' - unevaluatedProperties: false - - server: - $comment: https://spec.openapis.org/oas/v3.1#server-object - type: object - properties: - url: - type: string - description: - type: string - variables: - type: object - additionalProperties: - $ref: '#/$defs/server-variable' - required: - - url - $ref: '#/$defs/specification-extensions' - unevaluatedProperties: false - - server-variable: - $comment: https://spec.openapis.org/oas/v3.1#server-variable-object - type: object - properties: - enum: - type: array - items: - type: string - minItems: 1 - default: - type: string - description: - type: string - required: - - default - $ref: '#/$defs/specification-extensions' - unevaluatedProperties: false - - components: - $comment: https://spec.openapis.org/oas/v3.1#components-object - type: object - properties: - schemas: - type: object - additionalProperties: - $dynamicRef: '#meta' - responses: - type: object - additionalProperties: - $ref: '#/$defs/response-or-reference' - parameters: - type: object - additionalProperties: - $ref: '#/$defs/parameter-or-reference' - examples: - type: object - additionalProperties: - $ref: '#/$defs/example-or-reference' - requestBodies: - type: object - additionalProperties: - $ref: '#/$defs/request-body-or-reference' - headers: - type: object - additionalProperties: - $ref: '#/$defs/header-or-reference' - securitySchemes: - type: object - additionalProperties: - $ref: '#/$defs/security-scheme-or-reference' - links: - type: object - additionalProperties: - $ref: '#/$defs/link-or-reference' - callbacks: - type: object - additionalProperties: - $ref: '#/$defs/callbacks-or-reference' - pathItems: - type: object - additionalProperties: - $ref: '#/$defs/path-item' - patternProperties: - '^(schemas|responses|parameters|examples|requestBodies|headers|securitySchemes|links|callbacks|pathItems)$': - $comment: Enumerating all of the property names in the regex above is necessary for unevaluatedProperties to work as expected - propertyNames: - pattern: '^[a-zA-Z0-9._-]+$' - $ref: '#/$defs/specification-extensions' - unevaluatedProperties: false - - paths: - $comment: https://spec.openapis.org/oas/v3.1#paths-object - type: object - patternProperties: - '^/': - $ref: '#/$defs/path-item' - $ref: '#/$defs/specification-extensions' - unevaluatedProperties: false - - path-item: - $comment: https://spec.openapis.org/oas/v3.1#path-item-object - type: object - properties: - $ref: - type: string - format: uri-reference - summary: - type: string - description: - type: string - servers: - type: array - items: - $ref: '#/$defs/server' - parameters: - type: array - items: - $ref: '#/$defs/parameter-or-reference' - get: - $ref: '#/$defs/operation' - put: - $ref: '#/$defs/operation' - post: - $ref: '#/$defs/operation' - delete: - $ref: '#/$defs/operation' - options: - $ref: '#/$defs/operation' - head: - $ref: '#/$defs/operation' - patch: - $ref: '#/$defs/operation' - trace: - $ref: '#/$defs/operation' - $ref: '#/$defs/specification-extensions' - unevaluatedProperties: false - - operation: - $comment: https://spec.openapis.org/oas/v3.1#operation-object - type: object - properties: - tags: - type: array - items: - type: string - summary: - type: string - description: - type: string - externalDocs: - $ref: '#/$defs/external-documentation' - operationId: - type: string - parameters: - type: array - items: - $ref: '#/$defs/parameter-or-reference' - requestBody: - $ref: '#/$defs/request-body-or-reference' - responses: - $ref: '#/$defs/responses' - callbacks: - type: object - additionalProperties: - $ref: '#/$defs/callbacks-or-reference' - deprecated: - default: false - type: boolean - security: - type: array - items: - $ref: '#/$defs/security-requirement' - servers: - type: array - items: - $ref: '#/$defs/server' - $ref: '#/$defs/specification-extensions' - unevaluatedProperties: false - - external-documentation: - $comment: https://spec.openapis.org/oas/v3.1#external-documentation-object - type: object - properties: - description: - type: string - url: - type: string - format: uri - required: - - url - $ref: '#/$defs/specification-extensions' - unevaluatedProperties: false - - parameter: - $comment: https://spec.openapis.org/oas/v3.1#parameter-object - type: object - properties: - name: - type: string - in: - enum: - - query - - header - - path - - cookie - description: - type: string - required: - default: false - type: boolean - deprecated: - default: false - type: boolean - schema: - $dynamicRef: '#meta' - content: - $ref: '#/$defs/content' - minProperties: 1 - maxProperties: 1 - required: - - name - - in - oneOf: - - required: - - schema - - required: - - content - if: - properties: - in: - const: query - required: - - in - then: - properties: - allowEmptyValue: - default: false - type: boolean - dependentSchemas: - schema: - properties: - style: - type: string - explode: - type: boolean - allOf: - - $ref: '#/$defs/examples' - - $ref: '#/$defs/parameter/dependentSchemas/schema/$defs/styles-for-path' - - $ref: '#/$defs/parameter/dependentSchemas/schema/$defs/styles-for-header' - - $ref: '#/$defs/parameter/dependentSchemas/schema/$defs/styles-for-query' - - $ref: '#/$defs/parameter/dependentSchemas/schema/$defs/styles-for-cookie' - - $ref: '#/$defs/styles-for-form' - - $defs: - styles-for-path: - if: - properties: - in: - const: path - required: - - in - then: - properties: - style: - default: simple - enum: - - matrix - - label - - simple - required: - const: true - required: - - required - - styles-for-header: - if: - properties: - in: - const: header - required: - - in - then: - properties: - style: - default: simple - const: simple - - styles-for-query: - if: - properties: - in: - const: query - required: - - in - then: - properties: - style: - default: form - enum: - - form - - spaceDelimited - - pipeDelimited - - deepObject - allowReserved: - default: false - type: boolean - - styles-for-cookie: - if: - properties: - in: - const: cookie - required: - - in - then: - properties: - style: - default: form - const: form - - $ref: '#/$defs/specification-extensions' - unevaluatedProperties: false - - parameter-or-reference: - if: - type: object - required: - - $ref - then: - $ref: '#/$defs/reference' - else: - $ref: '#/$defs/parameter' - - request-body: - $comment: https://spec.openapis.org/oas/v3.1#request-body-object - type: object - properties: - description: - type: string - content: - $ref: '#/$defs/content' - required: - default: false - type: boolean - required: - - content - $ref: '#/$defs/specification-extensions' - unevaluatedProperties: false - - request-body-or-reference: - if: - type: object - required: - - $ref - then: - $ref: '#/$defs/reference' - else: - $ref: '#/$defs/request-body' - - content: - $comment: https://spec.openapis.org/oas/v3.1#fixed-fields-10 - type: object - additionalProperties: - $ref: '#/$defs/media-type' - propertyNames: - format: media-range - - media-type: - $comment: https://spec.openapis.org/oas/v3.1#media-type-object - type: object - properties: - schema: - $dynamicRef: '#meta' - encoding: - type: object - additionalProperties: - $ref: '#/$defs/encoding' - allOf: - - $ref: '#/$defs/specification-extensions' - - $ref: '#/$defs/examples' - unevaluatedProperties: false - - encoding: - $comment: https://spec.openapis.org/oas/v3.1#encoding-object - type: object - properties: - contentType: - type: string - format: media-range - headers: - type: object - additionalProperties: - $ref: '#/$defs/header-or-reference' - style: - default: form - enum: - - form - - spaceDelimited - - pipeDelimited - - deepObject - explode: - type: boolean - allowReserved: - default: false - type: boolean - allOf: - - $ref: '#/$defs/specification-extensions' - - $ref: '#/$defs/styles-for-form' - unevaluatedProperties: false - - responses: - $comment: https://spec.openapis.org/oas/v3.1#responses-object - type: object - properties: - default: - $ref: '#/$defs/response-or-reference' - patternProperties: - '^[1-5](?:[0-9]{2}|XX)$': - $ref: '#/$defs/response-or-reference' - minProperties: 1 - $ref: '#/$defs/specification-extensions' - unevaluatedProperties: false - if: - $comment: either default, or at least one response code property must exist - patternProperties: - '^[1-5](?:[0-9]{2}|XX)$': false - then: - required: [default] - - response: - $comment: https://spec.openapis.org/oas/v3.1#response-object - type: object - properties: - description: - type: string - headers: - type: object - additionalProperties: - $ref: '#/$defs/header-or-reference' - content: - $ref: '#/$defs/content' - links: - type: object - additionalProperties: - $ref: '#/$defs/link-or-reference' - required: - - description - $ref: '#/$defs/specification-extensions' - unevaluatedProperties: false - - response-or-reference: - if: - type: object - required: - - $ref - then: - $ref: '#/$defs/reference' - else: - $ref: '#/$defs/response' - - callbacks: - $comment: https://spec.openapis.org/oas/v3.1#callback-object - type: object - $ref: '#/$defs/specification-extensions' - additionalProperties: - $ref: '#/$defs/path-item' - - callbacks-or-reference: - if: - type: object - required: - - $ref - then: - $ref: '#/$defs/reference' - else: - $ref: '#/$defs/callbacks' - - example: - $comment: https://spec.openapis.org/oas/v3.1#example-object - type: object - properties: - summary: - type: string - description: - type: string - value: true - externalValue: - type: string - format: uri - not: - required: - - value - - externalValue - $ref: '#/$defs/specification-extensions' - unevaluatedProperties: false - - example-or-reference: - if: - type: object - required: - - $ref - then: - $ref: '#/$defs/reference' - else: - $ref: '#/$defs/example' - - link: - $comment: https://spec.openapis.org/oas/v3.1#link-object - type: object - properties: - operationRef: - type: string - format: uri-reference - operationId: - type: string - parameters: - $ref: '#/$defs/map-of-strings' - requestBody: true - description: - type: string - body: - $ref: '#/$defs/server' - oneOf: - - required: - - operationRef - - required: - - operationId - $ref: '#/$defs/specification-extensions' - unevaluatedProperties: false - - link-or-reference: - if: - type: object - required: - - $ref - then: - $ref: '#/$defs/reference' - else: - $ref: '#/$defs/link' - - header: - $comment: https://spec.openapis.org/oas/v3.1#header-object - type: object - properties: - description: - type: string - required: - default: false - type: boolean - deprecated: - default: false - type: boolean - schema: - $dynamicRef: '#meta' - content: - $ref: '#/$defs/content' - minProperties: 1 - maxProperties: 1 - oneOf: - - required: - - schema - - required: - - content - dependentSchemas: - schema: - properties: - style: - default: simple - const: simple - explode: - default: false - type: boolean - $ref: '#/$defs/examples' - $ref: '#/$defs/specification-extensions' - unevaluatedProperties: false - - header-or-reference: - if: - type: object - required: - - $ref - then: - $ref: '#/$defs/reference' - else: - $ref: '#/$defs/header' - - tag: - $comment: https://spec.openapis.org/oas/v3.1#tag-object - type: object - properties: - name: - type: string - description: - type: string - externalDocs: - $ref: '#/$defs/external-documentation' - required: - - name - $ref: '#/$defs/specification-extensions' - unevaluatedProperties: false - - reference: - $comment: https://spec.openapis.org/oas/v3.1#reference-object - type: object - properties: - $ref: - type: string - format: uri-reference - summary: - type: string - description: - type: string - - schema: - $comment: https://spec.openapis.org/oas/v3.1#schema-object - $dynamicAnchor: meta - type: - - object - - boolean - - security-scheme: - $comment: https://spec.openapis.org/oas/v3.1#security-scheme-object - type: object - properties: - type: - enum: - - apiKey - - http - - mutualTLS - - oauth2 - - openIdConnect - description: - type: string - required: - - type - allOf: - - $ref: '#/$defs/specification-extensions' - - $ref: '#/$defs/security-scheme/$defs/type-apikey' - - $ref: '#/$defs/security-scheme/$defs/type-http' - - $ref: '#/$defs/security-scheme/$defs/type-http-bearer' - - $ref: '#/$defs/security-scheme/$defs/type-oauth2' - - $ref: '#/$defs/security-scheme/$defs/type-oidc' - unevaluatedProperties: false - - $defs: - type-apikey: - if: - properties: - type: - const: apiKey - required: - - type - then: - properties: - name: - type: string - in: - enum: - - query - - header - - cookie - required: - - name - - in - - type-http: - if: - properties: - type: - const: http - required: - - type - then: - properties: - scheme: - type: string - required: - - scheme - - type-http-bearer: - if: - properties: - type: - const: http - scheme: - type: string - pattern: ^[Bb][Ee][Aa][Rr][Ee][Rr]$ - required: - - type - - scheme - then: - properties: - bearerFormat: - type: string - - type-oauth2: - if: - properties: - type: - const: oauth2 - required: - - type - then: - properties: - flows: - $ref: '#/$defs/oauth-flows' - required: - - flows - - type-oidc: - if: - properties: - type: - const: openIdConnect - required: - - type - then: - properties: - openIdConnectUrl: - type: string - format: uri - required: - - openIdConnectUrl - - security-scheme-or-reference: - if: - type: object - required: - - $ref - then: - $ref: '#/$defs/reference' - else: - $ref: '#/$defs/security-scheme' - - oauth-flows: - type: object - properties: - implicit: - $ref: '#/$defs/oauth-flows/$defs/implicit' - password: - $ref: '#/$defs/oauth-flows/$defs/password' - clientCredentials: - $ref: '#/$defs/oauth-flows/$defs/client-credentials' - authorizationCode: - $ref: '#/$defs/oauth-flows/$defs/authorization-code' - $ref: '#/$defs/specification-extensions' - unevaluatedProperties: false - - $defs: - implicit: - type: object - properties: - authorizationUrl: - type: string - format: uri - refreshUrl: - type: string - format: uri - scopes: - $ref: '#/$defs/map-of-strings' - required: - - authorizationUrl - - scopes - $ref: '#/$defs/specification-extensions' - unevaluatedProperties: false - - password: - type: object - properties: - tokenUrl: - type: string - format: uri - refreshUrl: - type: string - format: uri - scopes: - $ref: '#/$defs/map-of-strings' - required: - - tokenUrl - - scopes - $ref: '#/$defs/specification-extensions' - unevaluatedProperties: false - - client-credentials: - type: object - properties: - tokenUrl: - type: string - format: uri - refreshUrl: - type: string - format: uri - scopes: - $ref: '#/$defs/map-of-strings' - required: - - tokenUrl - - scopes - $ref: '#/$defs/specification-extensions' - unevaluatedProperties: false - - authorization-code: - type: object - properties: - authorizationUrl: - type: string - format: uri - tokenUrl: - type: string - format: uri - refreshUrl: - type: string - format: uri - scopes: - $ref: '#/$defs/map-of-strings' - required: - - authorizationUrl - - tokenUrl - - scopes - $ref: '#/$defs/specification-extensions' - unevaluatedProperties: false - - security-requirement: - $comment: https://spec.openapis.org/oas/v3.1#security-requirement-object - type: object - additionalProperties: - type: array - items: - type: string - - specification-extensions: - $comment: https://spec.openapis.org/oas/v3.1#specification-extensions - patternProperties: - '^x-': true - - examples: - properties: - example: true - examples: - type: object - additionalProperties: - $ref: '#/$defs/example-or-reference' - - map-of-strings: - type: object - additionalProperties: - type: string - - styles-for-form: - if: - properties: - style: - const: form - required: - - style - then: - properties: - explode: - default: true - else: - properties: - explode: - default: false diff --git a/tests/schema/fail/invalid_schema_types.yaml b/tests/schema/fail/invalid_schema_types.yaml deleted file mode 100644 index d295b1f0ed..0000000000 --- a/tests/schema/fail/invalid_schema_types.yaml +++ /dev/null @@ -1,13 +0,0 @@ -openapi: 3.1.1 - -# this example shows invalid types for the schemaObject - -info: - title: API - version: 1.0.0 -components: - schemas: - invalid_null: null - invalid_number: 0 - invalid_array: [] - diff --git a/tests/schema/fail/no_containers.yaml b/tests/schema/fail/no_containers.yaml deleted file mode 100644 index c158bcb2b6..0000000000 --- a/tests/schema/fail/no_containers.yaml +++ /dev/null @@ -1,7 +0,0 @@ -openapi: 3.1.0 - -# this example should fail as there are no paths, components or webhooks containers (at least one of which must be present) - -info: - title: API - version: 1.0.0 diff --git a/tests/schema/fail/server_enum_empty.yaml b/tests/schema/fail/server_enum_empty.yaml deleted file mode 100644 index cd6d30eb3e..0000000000 --- a/tests/schema/fail/server_enum_empty.yaml +++ /dev/null @@ -1,14 +0,0 @@ -openapi: 3.1.0 - -# this example should fail as the server variable enum is empty, and so does not contain the default value - -info: - title: API - version: 1.0.0 -servers: - - url: https://example.com/{var} - variables: - var: - enum: [] - default: a -components: {} diff --git a/tests/schema/fail/servers.yaml b/tests/schema/fail/servers.yaml deleted file mode 100644 index 1470fe1ec8..0000000000 --- a/tests/schema/fail/servers.yaml +++ /dev/null @@ -1,11 +0,0 @@ -openapi: 3.1.0 - -# this example should fail, as servers must be an array, not an object - -info: - title: API - version: 1.0.0 -paths: {} -servers: - url: /v1 - description: Run locally. diff --git a/tests/schema/fail/unknown_container.yaml b/tests/schema/fail/unknown_container.yaml deleted file mode 100644 index 7f31e86053..0000000000 --- a/tests/schema/fail/unknown_container.yaml +++ /dev/null @@ -1,8 +0,0 @@ -openapi: 3.1.0 - -# this example should fail as overlays is not a valid top-level object/keyword - -info: - title: API - version: 1.0.0 -overlays: {} diff --git a/tests/schema/pass/comp_pathitems.yaml b/tests/schema/pass/comp_pathitems.yaml deleted file mode 100644 index 502ca1fca2..0000000000 --- a/tests/schema/pass/comp_pathitems.yaml +++ /dev/null @@ -1,6 +0,0 @@ -openapi: 3.1.0 -info: - title: API - version: 1.0.0 -components: - pathItems: {} diff --git a/tests/schema/pass/info_summary.yaml b/tests/schema/pass/info_summary.yaml deleted file mode 100644 index 30d224afc2..0000000000 --- a/tests/schema/pass/info_summary.yaml +++ /dev/null @@ -1,6 +0,0 @@ -openapi: 3.1.0 -info: - title: API - summary: My lovely API - version: 1.0.0 -components: {} diff --git a/tests/schema/pass/json_schema_dialect.yaml b/tests/schema/pass/json_schema_dialect.yaml deleted file mode 100644 index ae0ed863b3..0000000000 --- a/tests/schema/pass/json_schema_dialect.yaml +++ /dev/null @@ -1,15 +0,0 @@ -openapi: 3.1.0 -info: - summary: Testing jsonSchemaDialect - title: My API - version: 1.0.0 - license: - name: Apache 2.0 - identifier: Apache-2.0 -jsonSchemaDialect: https://spec.openapis.org/oas/3.1/dialect/WORK-IN-PROGRESS -components: - schemas: - WithDollarSchema: - $id: "locked-metaschema" - $schema: https://spec.openapis.org/oas/3.1/dialect/WORK-IN-PROGRESS -paths: {} diff --git a/tests/schema/pass/license_identifier.yaml b/tests/schema/pass/license_identifier.yaml deleted file mode 100644 index fbdba5efbe..0000000000 --- a/tests/schema/pass/license_identifier.yaml +++ /dev/null @@ -1,9 +0,0 @@ -openapi: 3.1.0 -info: - title: API - summary: My lovely API - version: 1.0.0 - license: - name: Apache - identifier: Apache-2.0 -components: {} diff --git a/tests/schema/pass/mega.yaml b/tests/schema/pass/mega.yaml deleted file mode 100644 index 98ce577dce..0000000000 --- a/tests/schema/pass/mega.yaml +++ /dev/null @@ -1,48 +0,0 @@ -openapi: 3.1.0 -info: - summary: My API's summary - title: My API - version: 1.0.0 - license: - name: Apache 2.0 - identifier: Apache-2.0 -paths: - /: - get: - parameters: [] - /{pathTest}: {} -webhooks: - myWebhook: - $ref: '#/components/pathItems/myPathItem' - description: Overriding description -components: - securitySchemes: - mtls: - type: mutualTLS - pathItems: - myPathItem: - post: - requestBody: - required: true - content: - 'application/json': - schema: - type: object - properties: - type: - type: string - int: - type: integer - exclusiveMaximum: 100 - exclusiveMinimum: 0 - none: - type: 'null' - arr: - type: array - $comment: Array without items keyword - either: - type: ['string','null'] - discriminator: - propertyName: type - x-extension: true - myArbitraryKeyword: true diff --git a/tests/schema/pass/minimal_comp.yaml b/tests/schema/pass/minimal_comp.yaml deleted file mode 100644 index 4553689ab4..0000000000 --- a/tests/schema/pass/minimal_comp.yaml +++ /dev/null @@ -1,5 +0,0 @@ -openapi: 3.1.0 -info: - title: API - version: 1.0.0 -components: {} diff --git a/tests/schema/pass/minimal_hooks.yaml b/tests/schema/pass/minimal_hooks.yaml deleted file mode 100644 index e67b2889de..0000000000 --- a/tests/schema/pass/minimal_hooks.yaml +++ /dev/null @@ -1,5 +0,0 @@ -openapi: 3.1.0 -info: - title: API - version: 1.0.0 -webhooks: {} diff --git a/tests/schema/pass/minimal_paths.yaml b/tests/schema/pass/minimal_paths.yaml deleted file mode 100644 index 016e86796f..0000000000 --- a/tests/schema/pass/minimal_paths.yaml +++ /dev/null @@ -1,5 +0,0 @@ -openapi: 3.1.0 -info: - title: API - version: 1.0.0 -paths: {} diff --git a/tests/schema/pass/non-oauth-scopes.yaml b/tests/schema/pass/non-oauth-scopes.yaml deleted file mode 100644 index e757452f38..0000000000 --- a/tests/schema/pass/non-oauth-scopes.yaml +++ /dev/null @@ -1,19 +0,0 @@ -openapi: 3.1.0 -info: - title: Non-oAuth Scopes example - version: 1.0.0 -paths: - /users: - get: - security: - - bearerAuth: - - 'read:users' - - 'public' -components: - securitySchemes: - bearerAuth: - type: http - scheme: bearer - bearerFormat: jwt - description: 'note: non-oauth scopes are not defined at the securityScheme level' - diff --git a/tests/schema/pass/path_no_response.yaml b/tests/schema/pass/path_no_response.yaml deleted file mode 100644 index 334608f111..0000000000 --- a/tests/schema/pass/path_no_response.yaml +++ /dev/null @@ -1,7 +0,0 @@ -openapi: 3.1.0 -info: - title: API - version: 1.0.0 -paths: - /: - get: {} diff --git a/tests/schema/pass/path_var_empty_pathitem.yaml b/tests/schema/pass/path_var_empty_pathitem.yaml deleted file mode 100644 index ba92742f10..0000000000 --- a/tests/schema/pass/path_var_empty_pathitem.yaml +++ /dev/null @@ -1,6 +0,0 @@ -openapi: 3.1.0 -info: - title: API - version: 1.0.0 -paths: - /{var}: {} diff --git a/tests/schema/pass/schema.yaml b/tests/schema/pass/schema.yaml deleted file mode 100644 index e192529a68..0000000000 --- a/tests/schema/pass/schema.yaml +++ /dev/null @@ -1,55 +0,0 @@ -openapi: 3.1.0 -info: - title: API - version: 1.0.0 -paths: {} -components: - schemas: - model: - type: object - properties: - one: - description: type array - type: - - integer - - string - two: - description: type 'null' - type: "null" - three: - description: type array including 'null' - type: - - string - - "null" - four: - description: array with no items - type: array - five: - description: singular example - type: string - examples: - - exampleValue - six: - description: exclusiveMinimum true - exclusiveMinimum: 10 - seven: - description: exclusiveMinimum false - minimum: 10 - eight: - description: exclusiveMaximum true - exclusiveMaximum: 20 - nine: - description: exclusiveMaximum false - maximum: 20 - ten: - description: nullable string - type: - - string - - "null" - eleven: - description: x-nullable string - type: - - string - - "null" - twelve: - description: file/binary diff --git a/tests/schema/pass/servers.yaml b/tests/schema/pass/servers.yaml deleted file mode 100644 index 77a20498da..0000000000 --- a/tests/schema/pass/servers.yaml +++ /dev/null @@ -1,10 +0,0 @@ -openapi: 3.1.0 -info: - title: API - version: 1.0.0 -paths: {} -servers: - - url: /v1 - description: Run locally. - - url: https://production.com/v1 - description: Run on production server. diff --git a/tests/schema/pass/valid_schema_types.yaml b/tests/schema/pass/valid_schema_types.yaml deleted file mode 100644 index 4431adcda5..0000000000 --- a/tests/schema/pass/valid_schema_types.yaml +++ /dev/null @@ -1,14 +0,0 @@ -openapi: 3.1.1 - -# this example shows that top-level schemaObjects MAY be booleans - -info: - title: API - version: 1.0.0 -components: - schemas: - anything_boolean: true - nothing_boolean: false - anything_object: {} - nothing_object: { not: {} } - diff --git a/tests/schema/pass/webhook-example.yaml b/tests/schema/pass/webhook-example.yaml deleted file mode 100644 index 2ac1cda985..0000000000 --- a/tests/schema/pass/webhook-example.yaml +++ /dev/null @@ -1,35 +0,0 @@ -openapi: 3.1.0 -info: - title: Webhook Example - version: 1.0.0 -# Since OAS 3.1.0 the paths element isn't necessary. Now a valid OpenAPI Document can describe only paths, webhooks, or even only reusable components -webhooks: - # Each webhook needs a name - newPet: - # This is a Path Item Object, the only difference is that the request is initiated by the API provider - post: - requestBody: - description: Information about a new pet in the system - content: - application/json: - schema: - $ref: "#/components/schemas/Pet" - responses: - "200": - description: Return a 200 status to indicate that the data was received successfully - -components: - schemas: - Pet: - required: - - id - - name - properties: - id: - type: integer - format: int64 - name: - type: string - tag: - type: string - diff --git a/tests/schema/schema.test.mjs b/tests/schema/schema.test.mjs deleted file mode 100644 index e7b84f0a74..0000000000 --- a/tests/schema/schema.test.mjs +++ /dev/null @@ -1,38 +0,0 @@ -import { readdirSync, readFileSync } from "node:fs"; -import YAML from "yaml"; -import { describe, test, expect } from "vitest"; -import { registerSchema } from "@hyperjump/json-schema-coverage/vitest"; -import registerOasSchema from "./oas-schema.mjs"; - -const parseYamlFromFile = (filePath) => { - const schemaYaml = readFileSync(filePath, "utf8"); - return YAML.parse(schemaYaml, { prettyErrors: true }); -}; - -await registerOasSchema(); -await registerSchema("./src/schemas/validation/schema.yaml"); -const fixtures = './tests/schema'; - -describe("v3.1", () => { - describe("Pass", () => { - readdirSync(`${fixtures}/pass`, { withFileTypes: true }) - .filter((entry) => entry.isFile() && /\.yaml$/.test(entry.name)) - .forEach((entry) => { - test(entry.name, async () => { - const instance = parseYamlFromFile(`${fixtures}/pass/${entry.name}`); - await expect(instance).to.matchJsonSchema("./src/schemas/validation/schema-base.yaml"); - }); - }); - }); - - describe("Fail", () => { - readdirSync(`${fixtures}/fail`, { withFileTypes: true }) - .filter((entry) => entry.isFile() && /\.yaml$/.test(entry.name)) - .forEach((entry) => { - test(entry.name, async () => { - const instance = parseYamlFromFile(`${fixtures}/fail/${entry.name}`); - await expect(instance).to.not.matchJsonSchema("./src/schemas/validation/schema-base.yaml"); - }); - }); - }); -}); diff --git a/versions/3.2.0-editors.md b/versions/3.2.0-editors.md new file mode 100644 index 0000000000..fc5f990794 --- /dev/null +++ b/versions/3.2.0-editors.md @@ -0,0 +1,22 @@ +# OpenAPI Specification Editors + +## Active + +* Henry Andrews [@handrews](https://github.com/handrews) +* Jeremy Whitlock [@whitlockjc](https://github.com/whitlockjc) +* Karen Etheridge [@karenetheridge](https://github.com/karenetheridge) +* Lorna Mitchell [@lornajane](https://github.com/lornajane) +* Marsh Gardiner [@earth2marsh](https://github.com/earth2marsh) +* Miguel Quintero [@miqui](https://github.com/miqui) +* Mike Kistler [@mikekistler](https://github.com/mikekistler) +* Ralf Handl [@ralfhandl](https://github.com/ralfhandl) +* Vincent Biret [@baywet](https://github.com/baywet) + +## Emeritus + +* Ron Ratovsky [@webron](https://github.com/webron) +* Darrel Miller [@darrelmiller](https://github.com/darrelmiller) +* Mike Ralphson [@MikeRalphson](https://github.com/MikeRalphson) +* Uri Sarid [@usarid](https://github.com/usarid) +* Jason Harmon [@jharmn](https://github.com/jharmn) +* Tony Tam [@fehguy](https://github.com/fehguy) diff --git a/versions/3.2.0.md b/versions/3.2.0.md new file mode 100644 index 0000000000..6ecea10ce4 --- /dev/null +++ b/versions/3.2.0.md @@ -0,0 +1,5604 @@ +# OpenAPI Specification + +## Version 3.2.0 + +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](https://tools.ietf.org/html/bcp14) [RFC2119](https://tools.ietf.org/html/rfc2119) [RFC8174](https://tools.ietf.org/html/rfc8174) when, and only when, they appear in all capitals, as shown here. + +This document is licensed under [The Apache License, Version 2.0](https://www.apache.org/licenses/LICENSE-2.0.html). + +## Introduction + +The OpenAPI Specification (OAS) defines a standard, language-agnostic interface to HTTP APIs which allows both humans and computers to discover and understand the capabilities of the service without access to source code, documentation, or through network traffic inspection. When properly defined, a consumer can understand and interact with the remote service by [parsing and serializing](#parsing-and-serializing) HTTP messages to and from a [data model](#data-types) with a minimal amount of implementation logic. + +An [OpenAPI Description](#openapi-description-structure) (OAD) can then be used by documentation generation tools to display the API, code generation tools to generate servers and clients in various programming languages, testing tools, and many other use cases. + +For examples of OpenAPI usage and additional documentation, please visit [[?OpenAPI-Learn]]. + +For extension registries and other specifications published by the OpenAPI Initiative, as well as the authoritative rendering of this specification, please visit [spec.openapis.org](https://spec.openapis.org/). + +### Versions and Deprecation + +The OpenAPI Specification is versioned using a `major`.`minor`.`patch` versioning scheme. The `major`.`minor` portion of the version string (for example `3.1`) SHALL designate the OAS feature set. _`.patch`_ versions address errors in, or provide clarifications to, this document, not the feature set. Tooling which supports OAS 3.1 SHOULD be compatible with all OAS 3.1.\* versions. The patch version SHOULD NOT be considered by tooling, making no distinction between `3.1.0` and `3.1.1` for example. + +Certain fields or features may be marked **Deprecated**. +These fields and features remain part of the specification and can be used like any other field or feature. +However, OpenAPI Description authors should use newer fields and features documented to replace the deprecated ones whenever possible. + +At this time, such elements are expected to remain part of the OAS until the next major version, although a future minor version of this specification may define a policy for later removal of deprecated elements. + +Occasionally, non-backwards compatible changes may be made in `minor` versions of the OAS where impact is believed to be low relative to the benefit provided. + +### Undefined and Implementation-Defined Behavior + +This specification deems certain situations to have either _undefined_ or _implementation-defined_ behavior. + +Behavior described as _undefined_ is likely, at least in some circumstances, to result in outcomes that contradict the specification. +This description is used when detecting the contradiction is impossible or impractical. +Implementations MAY support undefined scenarios for historical reasons, including ambiguous text in prior versions of the specification. +This support might produce correct outcomes in many cases, but relying on it is NOT RECOMMENDED as there is no guarantee that it will work across all tools or with future specification versions, even if those versions are otherwise strictly compatible with this one. + +Behavior described as _implementation-defined_ allows implementations to choose which of several different-but-compliant approaches to a requirement to implement. +This documents ambiguous requirements that API description authors are RECOMMENDED to avoid in order to maximize interoperability. +Unlike undefined behavior, it is safe to rely on implementation-defined behavior if _and only if_ it can be guaranteed that all relevant tools support the same behavior. + +## Format + +An OpenAPI document that conforms to the OpenAPI Specification is itself a JSON object, which may be represented either in [[RFC8259|JSON]] or [[YAML|YAML]] format. +Examples in this specification will be shown in YAML for brevity. + +All field names in the specification are **case-sensitive**. +This includes all fields that are used as keys in a map, except where explicitly noted that keys are **case-insensitive**. + +OAS [Objects](#objects-and-fields) expose two types of fields: _fixed fields_, which have a declared name, and _patterned fields_, which have a declared pattern for the field name. + +Patterned fields MUST have unique names within the containing object. + +**Note:** While APIs may be described by OpenAPI Descriptions in either YAML or JSON format, the API request and response bodies and other content are not required to be JSON or YAML. + +### JSON and YAML Compatibility + +In order to preserve the ability to round-trip between YAML and JSON formats, YAML version [1.2](https://yaml.org/spec/1.2/spec.html) is RECOMMENDED along with the additional constraints listed in [[!RFC9512]] [Section 3.4](https://www.rfc-editor.org/rfc/rfc9512.html#name-yaml-and-json). + +The recommendation in previous versions of this specification to restrict YAML to its "JSON" [schema ruleset](https://yaml.org/spec/1.2/spec.html#id2803231) allowed for the inclusion of certain values that (despite the name) cannot be represented in JSON. +OAD authors SHOULD NOT rely on any such JSON-incompatible YAML values. + +### Case Sensitivity + +As most field names and values in the OpenAPI Specification are case-sensitive, this document endeavors to call out any case-insensitive names and values. +However, the case sensitivity of field names and values that map directly to HTTP concepts follow the case sensitivity rules of HTTP, even if this document does not make a note of every concept. + +### Rich Text Formatting + +Throughout the specification `description` fields are noted as supporting CommonMark markdown formatting. +Where OpenAPI tooling renders rich text it MUST support, at a minimum, markdown syntax as described by [CommonMark 0.27](https://spec.commonmark.org/0.27/). Tooling MAY choose to ignore some CommonMark or extension features to address security concerns. + +While the framing of CommonMark 0.27 as a minimum requirement means that tooling MAY choose to implement extensions on top of it, note that any such extensions are by definition implementation-defined and will not be interoperable. +OpenAPI Description authors SHOULD consider how text using such extensions will be rendered by tools that offer only the minimum support. + +## Objects and Fields + +This section describes the structure of the OpenAPI Description format. +This text is the only normative description of the format. +A JSON Schema is hosted on [spec.openapis.org](https://spec.openapis.org) for informational purposes. +If the JSON Schema differs from this section, then this section MUST be considered authoritative. + +In the following description, if a field is not explicitly **REQUIRED** or described with a MUST or SHALL, it can be considered OPTIONAL. + +### OpenAPI Object + +This is the root object of the [OpenAPI Description](#openapi-description-structure). + +#### Fixed Fields + +In addition to the required fields, at least one of the `components`, `paths`, or `webhooks` fields MUST be present. + +| Field Name | Type | Description | +| ---- | :----: | ---- | +| openapi | `string` | **REQUIRED**. This string MUST be the [version number](#versions-and-deprecation) of the OpenAPI Specification that the OpenAPI document uses. The `openapi` field SHOULD be used by tooling to interpret the OpenAPI document. This is _not_ related to the [`info.version`](#info-version) string, which describes the OpenAPI document's version. | +| $self | `string` | This string MUST be in the form of a URI reference as defined by [[RFC3986]] [Section 4.1](https://www.rfc-editor.org/rfc/rfc3986#section-4.1). The `$self` field provides the self-assigned URI of this document, which also serves as its base URI in accordance with [[RFC3986]] [Section 5.1.1](https://www.rfc-editor.org/rfc/rfc3986#section-5.1.1). Implementations MUST support identifying the targets of [API description URIs](#relative-references-in-api-description-uris) using the URI defined by this field when it is present. See [Establishing the Base URI](#establishing-the-base-uri) for the base URI behavior when `$self` is absent or relative, and see [Appendix F]((#appendix-f-examples-of-base-uri-determination-and-reference-resolution)) for examples of using `$self` to resolve references. | +| info | [Info Object](#info-object) | **REQUIRED**. Provides metadata about the API. The metadata MAY be used by tooling as required. | +| jsonSchemaDialect | `string` | The default value for the `$schema` keyword within [Schema Objects](#schema-object) contained within this OAS document. This MUST be in the form of a URI. | +| servers | [[Server Object](#server-object)] | An array of Server Objects, which provide connectivity information to a target server. If the `servers` field is not provided, or is an empty array, the default value would be an array consisting of a single [Server Object](#server-object) with a [url](#server-url) value of `/`. | +| paths | [Paths Object](#paths-object) | The available paths and operations for the API. | +| webhooks | Map[`string`, [Path Item Object](#path-item-object)] | The incoming webhooks that MAY be received as part of this API and that the API consumer MAY choose to implement. Closely related to the `callbacks` feature, this section describes requests initiated other than by an API call, for example by an out of band registration. The key name is a unique string to refer to each webhook, while the (optionally referenced) Path Item Object describes a request that may be initiated by the API provider and the expected responses. An [example](https://learn.openapis.org/examples/v3.1/webhook-example.html) is available. | +| components | [Components Object](#components-object) | An element to hold various Objects for the OpenAPI Description. | +| security | [[Security Requirement Object](#security-requirement-object)] | A declaration of which security mechanisms can be used across the API. The list of values includes alternative Security Requirement Objects that can be used. Only one of the Security Requirement Objects need to be satisfied to authorize a request. Individual operations can override this definition. The list can be incomplete, up to being empty or absent. To make security explicitly optional, an empty security requirement (`{}`) can be included in the array. | +| tags | [[Tag Object](#tag-object)] | A list of tags used by the OpenAPI Description with additional metadata. The order of the tags can be used to reflect on their order by the parsing tools. Not all tags that are used by the [Operation Object](#operation-object) must be declared. The tags that are not declared MAY be organized randomly or based on the tools' logic. Each tag name in the list MUST be unique. | +| externalDocs | [External Documentation Object](#external-documentation-object) | Additional external documentation. | + +This object MAY be extended with [Specification Extensions](#specification-extensions). + +To ensure interoperability, references MUST use the target document's `$self` URI if the `$self` field is present. +Implementations MAY choose to support referencing by other URIs such as the retrieval URI even when `$self` is present, however this behavior is not interoperable and relying on it is NOT RECOMMENDED. + +#### OpenAPI Description Structure + +An **OpenAPI Description** (**OAD**) formally describes the surface of an API and its semantics. +An OAD MAY be made up of a single document, or be distributed across multiple documents that are connected by various fields using [URI references](#relative-references-in-api-description-uris) and [implicit connections](#resolving-implicit-connections). + +In order for parsing behavior to be well-defined, all documents in an OAD MUST have either an OpenAPI Object or a Schema Object at the root, and MUST be parsed as complete documents, as described in the next section. + +Documents with a different Object at the root, or that mix OAD content with other content, MAY be supported, but will have implementation-defined or, potentially, undefined behavior as described in [Appendix G: Parsing and Resolution Guidance](#appendix-g-parsing-and-resolution-guidance). +Throughout this specification, documents are assumed to have either an OpenAPI Object or Schema Object at the root unless otherwise specified. + +In a multi-document OAD, the document containing the OpenAPI Object where parsing begins is known as that OAD's **entry document**. +It is RECOMMENDED that the entry document of an OAD be named `openapi.json` or `openapi.yaml`. + +An OpenAPI Object MAY be embedded in another format, called the **embedding format**, just as JSON Schema is embedded in the OAS in the form of Schema Objects. +It is the responsibility of an embedding format to define how to parse embedded content, and OAS implementations that do not document support for an embedding format cannot be expected to parse embedded OAS content correctly. + +##### Parsing Documents + +Each document in an OAD MUST be fully parsed in order to locate possible reference targets. +This includes the parsing requirements of [JSON Schema Specification Draft 2020-12](https://www.ietf.org/archive/id/draft-bhutton-json-schema-01.html#section-9), with appropriate modifications regarding base URIs as specified in [Relative References In URIs](#relative-references-in-api-description-uris). +Reference targets are defined by fields including the OpenAPI Object's [`$self`](#oas-self) field and the [Schema Object's](#schema-object) `$id`, `$anchor`, and `$dynamicAnchor` keywords. + +Implementations MUST NOT treat a reference as unresolvable before completely parsing all documents provided to the implementation as possible parts of the OAD. + +If only the referenced part of the document is parsed when resolving a reference, the resulting behavior can be implementation-defined or undefined; see [Warnings Regarding Fragmentary Parsing](#warnings-regarding-fragmentary-parsing) in [Appendix G](#appendix-g-parsing-and-resolution-guidance) for details. + +##### Relative References in API Description URIs + +URIs used as references within an OpenAPI Description, or to external documentation or other supplementary information such as a license, are resolved as _identifiers_, and described by this specification as **_URIs_**, in contrast with [API URLs](#relative-references-in-api-urls). +Note that some URI fields are named `url` for historical reasons, but the descriptive text for those fields uses the correct "URI" terminology. + +As noted under [Parsing Documents](#parsing-documents), several fields can be used to associate an OpenAPI document or a Schema Object with a URI, which might not match the document's or schema's location. +This allows the same references to be used in different deployment environments, including local filesystems or networks restricted by security policies or connectivity limitations. + +Unless specified otherwise, all fields that are URIs MAY be relative references as defined by [[RFC3986]] [Section 4.2](https://tools.ietf.org/html/rfc3986#section-4.2). + +###### Establishing the Base URI + +Relative URI references are resolved using the appropriate base URI, which MUST be determined in accordance with [[RFC3986]] [Section 5.1.1 – 5.1.4](https://tools.ietf.org/html/rfc3986#section-5.1.1) and, for Schema objects, [JSON Schema draft 2020-12 Section 8.2](https://www.ietf.org/archive/id/draft-bhutton-json-schema-01.html#section-8.2), as illustrated by the examples in [Appendix F: Examples of Base URI Determination and Reference Resolution](#appendix-f-examples-of-base-uri-determination-and-reference-resolution). + +If `$self` is a relative URI reference, it is resolved against the next possible base URI source ([[RFC3986]] [Section 5.1.2 – 5.1.4](https://tools.ietf.org/html/rfc3986#section-5.1.2)) before being used for the resolution of other relative URI references. + +The most common base URI source that is used in the event of a missing or relative `$self` (in the [OpenAPI Object](#openapi-object)) and (for [Schema Object](#schema-object)) `$id` is the retrieval URI. +Implementations MAY support document retrieval, although see the [Security Considerations](#security-considerations) sections for additional guidance. +Even if retrieval is supported, it may be impossible due to network configuration or server unavailability (including the server hosting an older version while a new version is in development), or undesirable due to performance impacts. +Therefore, all implementations SHOULD allow users to provide documents with their intended retrieval URIs so that references can be resolved as if retrievals were performed. + +###### Resolving URI fragments + +If a URI contains a fragment identifier, then the fragment should be resolved per the fragment resolution mechanism of the referenced document. If the representation of the referenced document is JSON or YAML, then the fragment identifier SHOULD be interpreted as a JSON Pointer as per [RFC6901](https://tools.ietf.org/html/rfc6901). + +###### Relative URI References in CommonMark Fields + +Relative references in CommonMark hyperlinks are resolved in their rendered context, which might differ from the context of the API description. + +##### Resolving Implicit Connections + +Several features of this specification require resolution of non-URI-based connections to some other part of the OpenAPI Description (OAD). + +These connections are unambiguously resolved in single-document OADs, but the resolution process in multi-document OADs is _implementation-defined_, within the constraints described in this section. +In some cases, an unambiguous URI-based alternative is available, and OAD authors are RECOMMENDED to use the alternative to maximize interoperability. + +For resolving [Components Object](#components-object) and [Tag Object](#tag-object) names from a referenced (non-entry) document, it is RECOMMENDED that tools resolve from the entry document, rather than the current document. +For resolving an [Operation Object](#operation-object) based on an `operationId`, it is RECOMMENDED to consider all Operation Objects from all parsed documents. + +Note that no aspect of implicit connection resolution changes how [URIs are resolved](#relative-references-in-api-description-uris), or restricts their possible targets. + +See [Appendix G: Parsing and Resolution Guidance](#appendix-g-parsing-and-resolution-guidance) for more details, including a list of Objects and fields using implicit connections. + +### Info Object + +The object provides metadata about the API. +The metadata MAY be used by the clients if needed, and MAY be presented in editing or documentation generation tools for convenience. + +#### Fixed Fields + +| Field Name | Type | Description | +| ---- | :----: | ---- | +| title | `string` | **REQUIRED**. The title of the API. | +| summary | `string` | A short summary of the API. | +| description | `string` | A description of the API. [CommonMark syntax](https://spec.commonmark.org/) MAY be used for rich text representation. | +| termsOfService | `string` | A URI for the Terms of Service for the API. This MUST be in the form of a URI. | +| contact | [Contact Object](#contact-object) | The contact information for the exposed API. | +| license | [License Object](#license-object) | The license information for the exposed API. | +| version | `string` | **REQUIRED**. The version of the OpenAPI document (which is distinct from the [OpenAPI Specification version](#oas-version) or the version of the API being described or the version of the OpenAPI Description). | + +This object MAY be extended with [Specification Extensions](#specification-extensions). + +#### Info Object Example + +```yaml +title: Example Pet Store App +summary: A pet store manager. +description: This is an example server for a pet store. +termsOfService: https://example.com/terms/ +contact: + name: API Support + url: https://www.example.com/support + email: support@example.com +license: + name: Apache 2.0 + url: https://www.apache.org/licenses/LICENSE-2.0.html +version: 1.0.1 +``` + +### Contact Object + +Contact information for the exposed API. + +#### Fixed Fields + +| Field Name | Type | Description | +| ---- | :----: | ---- | +| name | `string` | The identifying name of the contact person/organization. | +| url | `string` | The URI for the contact information. This MUST be in the form of a URI. | +| email | `string` | The email address of the contact person/organization. This MUST be in the form of an email address. | + +This object MAY be extended with [Specification Extensions](#specification-extensions). + +#### Contact Object Example + +```yaml +name: API Support +url: https://www.example.com/support +email: support@example.com +``` + +### License Object + +License information for the exposed API. + +#### Fixed Fields + +| Field Name | Type | Description | +| ---- | :----: | ---- | +| name | `string` | **REQUIRED**. The license name used for the API. | +| identifier | `string` | An [SPDX](https://spdx.org/licenses/) license expression for the API. The `identifier` field is mutually exclusive of the `url` field. | +| url | `string` | A URI for the license used for the API. This MUST be in the form of a URI. The `url` field is mutually exclusive of the `identifier` field. | + +This object MAY be extended with [Specification Extensions](#specification-extensions). + +#### License Object Example + +```yaml +name: Apache 2.0 +identifier: Apache-2.0 +``` + +### Server Object + +An object representing a Server. + +#### Fixed Fields + +| Field Name | Type | Description | +| ---- | :----: | ---- | +| url | `string` | **REQUIRED**. A URL to the target host. This URL supports Server Variables and MAY be relative, to indicate that the host location is relative to the location where the document containing the Server Object is being served. Query and fragment MUST NOT be part of this URL. Variable substitutions will be made when a variable is named in `{`braces`}`. | +| description | `string` | An optional string describing the host designated by the URL. [CommonMark syntax](https://spec.commonmark.org/) MAY be used for rich text representation. | +| name | `string` | An optional unique string to refer to the host designated by the URL. | +| variables | Map[`string`, [Server Variable Object](#server-variable-object)] | A map between a variable name and its value. The value is used for substitution in the server's URL template. | + +This object MAY be extended with [Specification Extensions](#specification-extensions). + +#### Relative References in API URLs + +API endpoints are by definition accessed as locations, and are described by this specification as **_URLs_**. + +Unless specified otherwise, all fields that are URLs MAY be relative references as defined by [RFC3986](https://tools.ietf.org/html/rfc3986#section-4.2). + +Because the API is a distinct entity from the OpenAPI document, RFC3986's base URI rules for the OpenAPI document do not apply. +Unless specified otherwise, relative references are resolved using the URLs defined in the [Server Object](#server-object) as a base URL. Note that these themselves MAY be relative to the referring document. + +##### Examples of API Base URL Determination + +Assume a retrieval URI of `https://device1.example.com` for the following OpenAPI document: + +```yaml +openapi: 3.2.0 +$self: https://apidescriptions.example.com/foo +info: + title: Example API + version: 1.0 +servers: +- url: . + description: The production API on this device +- url: ./test + description: The test API on this device +``` + +For API URLs the `$self` field, which identifies the OpenAPI document, is ignored and the retrieval URI is used instead. This produces a normalized production URL of `https://device1.example.com`, and a normalized test URL of `https://device1.example.com/test`. + +#### Server Object Example + +A single server would be described as: + +```yaml +url: https://development.gigantic-server.com/v1 +description: Development server +name: dev +``` + +The following shows how multiple servers can be described, for example, at the OpenAPI Object's [`servers`](#oas-servers): + +```yaml +servers: + - url: https://development.gigantic-server.com/v1 + description: Development server + name: dev + - url: https://staging.gigantic-server.com/v1 + description: Staging server + name: staging + - url: https://api.gigantic-server.com/v1 + description: Production server + name: prod +``` + +The following shows how variables can be used for a server configuration: + +```yaml +servers: + - url: https://{username}.gigantic-server.com:{port}/{basePath} + description: The production API server + name: prod + variables: + username: + # note! no enum here means it is an open value + default: demo + description: A user-specific subdomain. Use `demo` for a free sandbox environment. + port: + enum: + - '8443' + - '443' + default: '8443' + basePath: + # open meaning there is the opportunity to use special base paths as assigned by the provider, default is "v2" + default: v2 +``` + +### Server Variable Object + +An object representing a Server Variable for server URL template substitution. + +The server URL templating is defined by the following [ABNF](https://tools.ietf.org/html/rfc5234) syntax. + +```abnf +server-url-template = 1*( literals / server-variable ) +server-variable = "{" server-variable-name "}" +server-variable-name = 1*( %x00-7A / %x7C / %x7E-10FFFF ) ; every Unicode character except { and } + +literals = 1*( %x21 / %x23-24 / %x26-3B / %x3D / %x3F-5B + / %x5D / %x5F / %x61-7A / %x7E / ucschar / iprivate + / pct-encoded) + ; any Unicode character except: CTL, SP, + ; DQUOTE, "%" (aside from pct-encoded), + ; "<", ">", "\", "^", "`", "{", "|", "}" +pct-encoded = "%" HEXDIG HEXDIG +ucschar = %xA0-D7FF / %xF900-FDCF / %xFDF0-FFEF + / %x10000-1FFFD / %x20000-2FFFD / %x30000-3FFFD + / %x40000-4FFFD / %x50000-5FFFD / %x60000-6FFFD + / %x70000-7FFFD / %x80000-8FFFD / %x90000-9FFFD + / %xA0000-AFFFD / %xB0000-BFFFD / %xC0000-CFFFD + / %xD0000-DFFFD / %xE1000-EFFFD +iprivate = %xE000-F8FF / %xF0000-FFFFD / %x100000-10FFFD +``` + +Here, `literals`, `pct-encoded`, `ucschar` and `iprivate` definitions are taken from [RFC 6570](https://www.rfc-editor.org/rfc/rfc6570), incorporating the corrections specified in [Errata 6937](https://www.rfc-editor.org/errata/eid6937) for `literals`. + +Each server variable MUST NOT appear more than once in the URL template. + +See the [Paths Object](#paths-object) for guidance on constructing full request URLs. + +#### Fixed Fields + +| Field Name | Type | Description | +| ---- | :----: | ---- | +| enum | [`string`] | An enumeration of string values to be used if the substitution options are from a limited set. The array MUST NOT be empty. | +| default | `string` | **REQUIRED**. The default value to use for substitution, which SHALL be sent if an alternate value is _not_ supplied. If the [`enum`](#server-variable-enum) is defined, the value MUST exist in the enum's values. Note that this behavior is different from the [Schema Object](#schema-object)'s `default` keyword, which documents the receiver's behavior rather than inserting the value into the data. | +| description | `string` | An optional description for the server variable. [CommonMark syntax](https://spec.commonmark.org/) MAY be used for rich text representation. | + +This object MAY be extended with [Specification Extensions](#specification-extensions). + +### Components Object + +Holds a set of reusable objects for different aspects of the OAS. +All objects defined within the Components Object will have no effect on the API unless they are explicitly referenced from outside the Components Object. + +#### Fixed Fields + +| Field Name | Type | Description | +| ---- | :---- | ---- | +| schemas | Map[`string`, [Schema Object](#schema-object)] | An object to hold reusable [Schema Objects](#schema-object). | +| responses | Map[`string`, [Response Object](#response-object) \| [Reference Object](#reference-object)] | An object to hold reusable [Response Objects](#response-object). | +| parameters | Map[`string`, [Parameter Object](#parameter-object) \| [Reference Object](#reference-object)] | An object to hold reusable [Parameter Objects](#parameter-object). | +| examples | Map[`string`, [Example Object](#example-object) \| [Reference Object](#reference-object)] | An object to hold reusable [Example Objects](#example-object). | +| requestBodies | Map[`string`, [Request Body Object](#request-body-object) \| [Reference Object](#reference-object)] | An object to hold reusable [Request Body Objects](#request-body-object). | +| headers | Map[`string`, [Header Object](#header-object) \| [Reference Object](#reference-object)] | An object to hold reusable [Header Objects](#header-object). | +| securitySchemes | Map[`string`, [Security Scheme Object](#security-scheme-object) \| [Reference Object](#reference-object)] | An object to hold reusable [Security Scheme Objects](#security-scheme-object). | +| links | Map[`string`, [Link Object](#link-object) \| [Reference Object](#reference-object)] | An object to hold reusable [Link Objects](#link-object). | +| callbacks | Map[`string`, [Callback Object](#callback-object) \| [Reference Object](#reference-object)] | An object to hold reusable [Callback Objects](#callback-object). | +| pathItems | Map[`string`, [Path Item Object](#path-item-object)] | An object to hold reusable [Path Item Objects](#path-item-object). | +| mediaTypes | Map[`string`, [Media Type Object](#media-type-object) \| [Reference Object](#reference-object)] | An object to hold reusable [Media Type Objects](#media-type-object). | + +This object MAY be extended with [Specification Extensions](#specification-extensions). + +All the fixed fields declared above are objects that MUST use keys that match the regular expression: `^[a-zA-Z0-9\.\-_]+$`. + +Field Name Examples: + +```text +User +User_1 +User_Name +user-name +my.org.User +``` + +#### Components Object Example + +```yaml +components: + schemas: + GeneralError: + type: object + properties: + code: + type: integer + format: int32 + message: + type: string + Category: + type: object + properties: + id: + type: integer + format: int64 + name: + type: string + Tag: + type: object + properties: + id: + type: integer + format: int64 + name: + type: string + parameters: + skipParam: + name: skip + in: query + description: number of items to skip + required: true + schema: + type: integer + format: int32 + limitParam: + name: limit + in: query + description: max records to return + required: true + schema: + type: integer + format: int32 + responses: + NotFound: + description: Entity not found. + IllegalInput: + description: Illegal input for operation. + GeneralError: + description: General Error + content: + application/json: + schema: + $ref: '#/components/schemas/GeneralError' + securitySchemes: + api_key: + type: apiKey + name: api-key + in: header + petstore_auth: + type: oauth2 + flows: + implicit: + authorizationUrl: https://example.org/api/oauth/dialog + scopes: + write:pets: modify pets in your account + read:pets: read your pets +``` + +### Paths Object + +Holds the relative paths to the individual endpoints and their operations. +The path is appended to the URL from the [Server Object](#server-object) in order to construct the full URL. The Paths Object MAY be empty, due to [Access Control List (ACL) constraints](#security-filtering). + +#### Patterned Fields + +| Field Pattern | Type | Description | +| ---- | :----: | ---- | +| /{path} | [Path Item Object](#path-item-object) | A relative path to an individual endpoint. The field name MUST begin with a forward slash (`/`). The URL from the [Server Object](#server-object)'s `url` field, resolved and with template variables substituted, has the path **appended** (no relative URL resolution) to it in order to construct the full URL. [Path templating](#path-templating) is allowed. When matching URLs, concrete (non-templated) paths would be matched before their templated counterparts. Templated paths with the same hierarchy but different templated names MUST NOT exist as they are identical. In case of ambiguous matching, it's up to the tooling to decide which one to use. | + +This object MAY be extended with [Specification Extensions](#specification-extensions). + +#### Path Templating + +Path templating refers to the usage of template expressions, delimited by curly braces (`{}`), to mark a section of a URL path as replaceable using path parameters. + +Each template expression in the path MUST correspond to a path parameter that is included in the [Path Item](#path-item-object) itself and/or in each of the Path Item's [Operations](#operation-object). An exception is if the path item is empty, for example due to ACL constraints, matching path parameters are not required. + +The value for these path parameters MUST NOT contain any unescaped "generic syntax" characters described by [RFC3986](https://tools.ietf.org/html/rfc3986#section-3): forward slashes (`/`), question marks (`?`), or hashes (`#`). +See [URL Percent-Encoding](#url-percent-encoding) for additional guidance on escaping characters. + +The path templating is defined by the following [ABNF](https://tools.ietf.org/html/rfc5234) syntax + +```abnf +path-template = "/" *( path-segment "/" ) [ path-segment ] +path-segment = 1*( path-literal / template-expression ) +path-literal = 1*pchar +template-expression = "{" template-expression-param-name "}" +template-expression-param-name = 1*( %x00-7A / %x7C / %x7E-10FFFF ) ; every Unicode character except { and } + +pchar = unreserved / pct-encoded / sub-delims / ":" / "@" +unreserved = ALPHA / DIGIT / "-" / "." / "_" / "~" +pct-encoded = "%" HEXDIG HEXDIG +sub-delims = "!" / "$" / "&" / "'" / "(" / ")" + / "*" / "+" / "," / ";" / "=" +``` + +Here, `pchar`, `unreserved`, `pct-encoded` and `sub-delims` definitions are taken from [RFC 3986](https://tools.ietf.org/html/rfc3986). The `path-template` is directly derived from [RFC 3986, section 3.3](https://datatracker.ietf.org/doc/html/rfc3986#section-3.3). + +Each template expression MUST NOT appear more than once in a single path template. + +See also [Appendix C: Using RFC6570-Based Serialization](#appendix-c-using-rfc6570-based-serialization) for additional guidance. + +##### Path Templating Matching + +Assuming the following paths, the concrete definition, `/pets/mine`, will be matched first if used: + +```text + /pets/{petId} + /pets/mine +``` + +The following paths are considered identical and invalid: + +```text + /pets/{petId} + /pets/{name} +``` + +The following may lead to ambiguous resolution: + +```text + /{entity}/me + /books/{id} +``` + +#### Paths Object Example + +```yaml +/pets: + get: + description: Returns all pets from the system that the user has access to + responses: + '200': + description: A list of pets. + content: + application/json: + schema: + type: array + items: + $ref: '#/components/schemas/pet' +``` + +### Path Item Object + +Describes the operations available on a single path. +A Path Item MAY be empty, due to [ACL constraints](#security-filtering). +The path itself is still exposed to the documentation viewer but they will not know which operations and parameters are available. + +#### Fixed Fields + +| Field Name | Type | Description | +| ---- | :----: | ---- | +| $ref | `string` | Allows for a referenced definition of this path item. The value MUST be in the form of a URI, and the referenced structure MUST be in the form of a [Path Item Object](#path-item-object). In case a Path Item Object field appears both in the defined object and the referenced object, the behavior is undefined. See the rules for resolving [Relative References](#relative-references-in-api-description-uris).

_**Note:** The behavior of `$ref` with adjacent properties is likely to change in future versions of this specification to bring it into closer alignment with the behavior of the [Reference Object](#reference-object)._ | +| summary | `string` | An optional string summary, intended to apply to all operations in this path. | +| description | `string` | An optional string description, intended to apply to all operations in this path. [CommonMark syntax](https://spec.commonmark.org/) MAY be used for rich text representation. | +| get | [Operation Object](#operation-object) | A definition of a GET operation on this path. | +| put | [Operation Object](#operation-object) | A definition of a PUT operation on this path. | +| post | [Operation Object](#operation-object) | A definition of a POST operation on this path. | +| delete | [Operation Object](#operation-object) | A definition of a DELETE operation on this path. | +| options | [Operation Object](#operation-object) | A definition of a OPTIONS operation on this path. | +| head | [Operation Object](#operation-object) | A definition of a HEAD operation on this path. | +| patch | [Operation Object](#operation-object) | A definition of a PATCH operation on this path. | +| trace | [Operation Object](#operation-object) | A definition of a TRACE operation on this path. | +| query | [Operation Object](#operation-object) | A definition of a QUERY operation, as defined in the most recent IETF draft ([draft-ietf-httpbis-safe-method-w-body-08](https://www.ietf.org/archive/id/draft-ietf-httpbis-safe-method-w-body-11.html) as of this writing) or its RFC successor, on this path. | +| additionalOperations | Map[`string`, [Operation Object](#operation-object)] | A map of additional operations on this path. The map key is the HTTP method with the same capitalization that is to be sent in the request. This map MUST NOT contain any entry for the methods that can be defined by other fixed fields with Operation Object values (e.g. no `POST` entry, as the `post` field is used for this method). | +| servers | [[Server Object](#server-object)] | An alternative `servers` array to service all operations in this path. If a `servers` array is specified at the [OpenAPI Object](#oas-servers) level, it will be overridden by this value. | +| parameters | [[Parameter Object](#parameter-object) \| [Reference Object](#reference-object)] | A list of parameters that are applicable for all the operations described under this path. These parameters can be overridden at the operation level, but cannot be removed there. The list MUST NOT include duplicated parameters. A unique parameter is defined by a combination of a [name](#parameter-name) and [location](#parameter-in). The list can use the [Reference Object](#reference-object) to link to parameters that are defined in the [OpenAPI Object's `components.parameters`](#components-parameters). | + +This object MAY be extended with [Specification Extensions](#specification-extensions). + +#### Path Item Object Example + +```yaml +get: + description: Returns pets based on ID + summary: Find pets by ID + operationId: getPetsById + responses: + '200': + description: pet response + content: + '*/*': + schema: + type: array + items: + $ref: '#/components/schemas/Pet' + default: + description: error payload + content: + text/html: + schema: + $ref: '#/components/schemas/ErrorModel' +parameters: + - name: id + in: path + description: ID of pet to use + required: true + schema: + type: array + items: + type: string + style: simple +additionalOperations: + COPY: + description: Copies pet information based on ID + summary: Copies pets by ID + operationId: copyPetsById + responses: + '200': + description: pet response + content: + '*/*': + schema: + type: array + items: + $ref: '#/components/schemas/Pet' + default: + description: error payload + content: + text/html: + schema: + $ref: '#/components/schemas/ErrorModel' +``` + +### Operation Object + +Describes a single API operation on a path. + +#### Fixed Fields + +| Field Name | Type | Description | +| ---- | :----: | ---- | +| tags | [`string`] | A list of tags for API documentation control. Tags can be used for logical grouping of operations by resources or any other qualifier. | +| summary | `string` | A short summary of what the operation does. | +| description | `string` | A verbose explanation of the operation behavior. [CommonMark syntax](https://spec.commonmark.org/) MAY be used for rich text representation. | +| externalDocs | [External Documentation Object](#external-documentation-object) | Additional external documentation for this operation. | +| operationId | `string` | Unique string used to identify the operation. The id MUST be unique among all operations described in the API. The operationId value is **case-sensitive**. Tools and libraries MAY use the operationId to uniquely identify an operation, therefore, it is RECOMMENDED to follow common programming naming conventions. | +| parameters | [[Parameter Object](#parameter-object) \| [Reference Object](#reference-object)] | A list of parameters that are applicable for this operation. If a parameter is already defined at the [Path Item](#path-item-parameters), the new definition will override it but can never remove it. The list MUST NOT include duplicated parameters. A unique parameter is defined by a combination of a [name](#parameter-name) and [location](#parameter-in). The list can use the [Reference Object](#reference-object) to link to parameters that are defined in the [OpenAPI Object's `components.parameters`](#components-parameters). | +| requestBody | [Request Body Object](#request-body-object) \| [Reference Object](#reference-object) | The request body applicable for this operation. The `requestBody` is fully supported in HTTP methods where the HTTP specification [RFC9110](https://www.rfc-editor.org/rfc/rfc9110.html#section-9.3) has explicitly defined semantics for request bodies. In other cases where the HTTP spec discourages message content (such as [GET](https://www.rfc-editor.org/rfc/rfc9110.html#section-9.3.1) and [DELETE](https://www.rfc-editor.org/rfc/rfc9110.html#section-9.3.5)), `requestBody` is permitted but does not have well-defined semantics and SHOULD be avoided if possible. | +| responses | [Responses Object](#responses-object) | The list of possible responses as they are returned from executing this operation. | +| callbacks | Map[`string`, [Callback Object](#callback-object) \| [Reference Object](#reference-object)] | A map of possible out-of band callbacks related to the parent operation. The key is a unique identifier for the Callback Object. Each value in the map is a [Callback Object](#callback-object) that describes a request that may be initiated by the API provider and the expected responses. | +| deprecated | `boolean` | Declares this operation to be deprecated. Consumers SHOULD refrain from usage of the declared operation. Default value is `false`. | +| security | [[Security Requirement Object](#security-requirement-object)] | A declaration of which security mechanisms can be used for this operation. The list of values includes alternative Security Requirement Objects that can be used. Only one of the Security Requirement Objects need to be satisfied to authorize a request. To make security optional, an empty security requirement (`{}`) can be included in the array. This definition overrides any declared top-level [`security`](#oas-security). To remove a top-level security declaration, an empty array can be used. | +| servers | [[Server Object](#server-object)] | An alternative `servers` array to service this operation. If a `servers` array is specified at the [Path Item Object](#path-item-servers) or [OpenAPI Object](#oas-servers) level, it will be overridden by this value. | + +This object MAY be extended with [Specification Extensions](#specification-extensions). + +#### Operation Object Example + +```yaml +tags: + - pet +summary: Updates a pet in the store with form data +operationId: updatePetWithForm +parameters: + - name: petId + in: path + description: ID of pet that needs to be updated + required: true + schema: + type: string +requestBody: + content: + application/x-www-form-urlencoded: + schema: + type: object + properties: + name: + description: Updated name of the pet + type: string + status: + description: Updated status of the pet + type: string + required: + - status +responses: + '200': + description: Pet updated. + content: + application/json: {} + application/xml: {} + '405': + description: Method Not Allowed + content: + application/json: {} + application/xml: {} +security: + - petstore_auth: + - write:pets + - read:pets +``` + +### External Documentation Object + +Allows referencing an external resource for extended documentation. + +#### Fixed Fields + +| Field Name | Type | Description | +| ---- | :----: | ---- | +| description | `string` | A description of the target documentation. [CommonMark syntax](https://spec.commonmark.org/) MAY be used for rich text representation. | +| url | `string` | **REQUIRED**. The URI for the target documentation. This MUST be in the form of a URI. | + +This object MAY be extended with [Specification Extensions](#specification-extensions). + +#### External Documentation Object Example + +```yaml +description: Find more info here +url: https://example.com +``` + +### Parameter Object + +Describes a single operation parameter. + +A unique parameter is defined by a combination of a [name](#parameter-name) and [location](#parameter-in). + +See [Appendix E](#appendix-e-percent-encoding-and-form-media-types) for a detailed examination of percent-encoding concerns, including interactions with the `application/x-www-form-urlencoded` query string format. + +#### Parameter Locations + +There are five possible parameter locations specified by the `in` field: + +* path - Used together with [Path Templating](#path-templating), where the parameter value is actually part of the operation's URL. This does not include the host or base path of the API. For example, in `/items/{itemId}`, the path parameter is `itemId`. +* query - Parameters that are appended to the URL. For example, in `/items?id=###`, the query parameter is `id`; MUST NOT appear in the same operation (or in the operation's path-item) as an `in: "querystring"` parameter. +* querystring - A parameter that treats the entire URL query string as a value which MUST be specified using the `content` field, most often with media type `application/x-www-form-urlencoded` using [Encoding Objects](#encoding-object) in the same way as with request bodies of that media type; MUST NOT appear more than once, and MUST NOT appear in the same operation (or in the operation's path-item) as any `in: "query"` parameters. +* header - Custom headers that are expected as part of the request. Note that [RFC9110](https://www.rfc-editor.org/rfc/rfc9110.html#section-5.1) states header names are case-insensitive. +* cookie - Used to pass a specific cookie value to the API. + +#### Fixed Fields + +The rules for serialization of the parameter are specified in one of two ways. +Parameter Objects MUST include either a `content` field or a `schema` field, but not both. +See [Appendix B](#appendix-b-data-type-conversion) for a discussion of converting values of various types to string representations. + +##### Common Fixed Fields + +These fields MAY be used with either `content` or `schema`. + +The `example` and `examples` fields are mutually exclusive; see [Working with Examples](#working-with-examples) for guidance on validation requirements. + +| Field Name | Type | Description | +| ---- | :----: | ---- | +| name | `string` | **REQUIRED**. The name of the parameter. Parameter names are _case-sensitive_.
  • If [`in`](#parameter-in) is `"path"`, the `name` field MUST correspond to a single template expression occurring within the [path](#paths-path) field in the [Paths Object](#paths-object). See [Path Templating](#path-templating) for further information.
  • If [`in`](#parameter-in) is `"header"` and the `name` field is `"Accept"`, `"Content-Type"` or `"Authorization"`, the parameter definition SHALL be ignored.
  • If `in` is `"querystring"`, or for [certain combinations](#style-examples) of [`style`](#parameter-style) and [`explode`](#parameter-explode), the value of `name` is not used in the parameter serialization.
  • For all other cases, the `name` corresponds to the parameter name used by the [`in`](#parameter-in) field.
| +| in | `string` | **REQUIRED**. The location of the parameter. Possible values are `"query"`, `"querystring"`, `"header"`, `"path"` or `"cookie"`. | +| description | `string` | A brief description of the parameter. This could contain examples of use. [CommonMark syntax](https://spec.commonmark.org/) MAY be used for rich text representation. | +| required | `boolean` | Determines whether this parameter is mandatory. If the [parameter location](#parameter-in) is `"path"`, this field is **REQUIRED** and its value MUST be `true`. Otherwise, the field MAY be included and its default value is `false`. | +| deprecated | `boolean` | Specifies that a parameter is deprecated and SHOULD be transitioned out of usage. Default value is `false`. | +| allowEmptyValue | `boolean` | If `true`, clients MAY pass a zero-length string value in place of parameters that would otherwise be omitted entirely, which the server SHOULD interpret as the parameter being unused. Default value is `false`. If [`style`](#parameter-style) is used, and if [behavior is _n/a_ (cannot be serialized)](#style-examples), the value of `allowEmptyValue` SHALL be ignored. Interactions between this field and the parameter's [Schema Object](#schema-object) are implementation-defined. This field is valid only for `query` parameters.

**Deprecated:** Use of this field is NOT RECOMMENDED, and it is likely to be removed in a later revision. | +| example | Any | Example of the parameter's potential value; see [Working With Examples](#working-with-examples). | +| examples | Map[ `string`, [Example Object](#example-object) \| [Reference Object](#reference-object)] | Examples of the parameter's potential value; see [Working With Examples](#working-with-examples). | + +This object MAY be extended with [Specification Extensions](#specification-extensions). + +Note that while `"Cookie"` as a `name` is not forbidden if `in` is `"header"`, the effect of defining a cookie parameter that way is undefined; use `in: "cookie"` instead. + +##### Fixed Fields for use with `schema` + +For simpler scenarios, a [`schema`](#parameter-schema) and [`style`](#parameter-style) can describe the structure and syntax of the parameter. + +These fields MUST NOT be used with `in: "querystring"`. + +Care is needed for parameters with `schema` that have `in: "header"` or `in: "cookie", style: "cookie"`: + +* When serializing these values, URI percent-encoding MUST NOT be applied. +* When parsing these parameters, any apparent percent-encoding MUST NOT be decoded. +* If using an RFC6570 implementation that automatically performs encoding or decoding steps, the steps MUST be undone before use. + +In these cases, implementations MUST pass values through unchanged rather than attempting to quote or escape them, as the quoting rules for headers and escaping conventions for cookies vary too widely to be performed automatically; see [Appendix D](#appendix-d-serializing-headers-and-cookies) for guidance on quoting and escaping. + +| Field Name | Type | Description | +| ---- | :----: | ---- | +| style | `string` | Describes how the parameter value will be serialized depending on the type of the parameter value. Default values (based on value of `in`): for `"query"` - `"form"`; for `"path"` - `"simple"`; for `"header"` - `"simple"`; for `"cookie"` - `"form"` (for compatibility reasons; note that `style: "cookie"` SHOULD be used with `in: "cookie"`; see [Appendix D](#appendix-d-serializing-headers-and-cookies) for details). | +| explode | `boolean` | When this is true, parameter values of type `array` or `object` generate separate parameters for each value of the array or key-value pair of the map. For other types of parameters, or when [`style`](#parameter-style) is `"deepObject"`, this field has no effect. When `style` is `"form"` or `"cookie"`, the default value is `true`. For all other styles, the default value is `false`. | +| allowReserved | `boolean` | When this is true, parameter values are serialized using reserved expansion, as defined by [RFC6570](https://datatracker.ietf.org/doc/html/rfc6570#section-3.2.3), which allows [RFC3986's reserved character set](https://datatracker.ietf.org/doc/html/rfc3986#section-2.2), as well as percent-encoded triples, to pass through unchanged, while still percent-encoding all other disallowed characters (including `%` outside of percent-encoded triples). Applications are still responsible for percent-encoding reserved characters that are not allowed by the rules of the `in` destination or media type, or are [not allowed in the path by this specification](#path-templating); see [URL Percent-Encoding](#url-percent-encoding) for details. The default value is `false`. This field only applies to `in` and `style` values that automatically percent-encode. | +| schema | [Schema Object](#schema-object) | The schema defining the type used for the parameter. | + +See also [Appendix C: Using RFC6570-Based Serialization](#appendix-c-using-rfc6570-based-serialization) for additional guidance. + +##### Fixed Fields for use with `content` + +For more complex scenarios, the [`content`](#parameter-content) field can define the media type and schema of the parameter, as well as give examples of its use. + +For use with `in: "querystring"` and `application/x-www-form-urlencoded`, see [Encoding the `x-www-form-urlencoded` Media Type](#encoding-the-x-www-form-urlencoded-media-type). + +| Field Name | Type | Description | +| ---- | :----: | ---- | +| content | Map[`string`, [Media Type Object](#media-type-object) \| [Reference Object](#reference-object)] | A map containing the representations for the parameter. The key is the media type and the value describes it. The map MUST only contain one entry. | + +#### Style Values + +In order to support common ways of serializing simple parameters, a set of `style` values are defined. Combinations not represented in this table are not permitted. + +| `style` | [`type`](#data-types) | `in` | Comments | +| ---- | ---- | ---- | ---- | +| `matrix` | primitive, `array`, `object` | `path` | Path-style parameters defined by [RFC6570](https://tools.ietf.org/html/rfc6570#section-3.2.7) | +| `label` | primitive, `array`, `object` | `path` | Label style parameters defined by [RFC6570](https://tools.ietf.org/html/rfc6570#section-3.2.5) | +| `simple` | primitive, `array`, `object` | `path`, `header` | Simple style parameters defined by [RFC6570](https://tools.ietf.org/html/rfc6570#section-3.2.2). This option replaces `collectionFormat` with a `csv` value from OpenAPI 2.0. | +| `form` | primitive, `array`, `object` | `query`, `cookie` | Form style parameters defined by [RFC6570](https://tools.ietf.org/html/rfc6570#section-3.2.8). This option replaces `collectionFormat` with a `csv` (when `explode` is false) or `multi` (when `explode` is true) value from OpenAPI 2.0. | +| `spaceDelimited` | `array`, `object` | `query` | Space separated array values or object properties and values. This option replaces `collectionFormat` equal to `ssv` from OpenAPI 2.0. | +| `pipeDelimited` | `array`, `object` | `query` | Pipe separated array values or object properties and values. This option replaces `collectionFormat` equal to `pipes` from OpenAPI 2.0. | +| `deepObject` | `object` | `query` | Allows objects with scalar properties to be represented using form parameters. The representation of array or object properties is not defined (but see [Extending Support for Querystring Formats](#extending-support-for-querystring-formats) for alternatives). | +| `cookie` | primitive, `array`, `object` | `cookie` | Analogous to `form`, but following [[RFC6265]] `Cookie` syntax rules, meaning that name-value pairs are separated by a semicolon followed by a single space (e.g. `n1=v1; n2=v2`), and no percent-encoding or other escaping is applied; data values that require any sort of escaping MUST be provided in escaped form. | + +#### URL Percent-Encoding + +All API URLs MUST successfully parse and percent-decode using [[RFC3986]] rules. + +Content in the `application/x-www-form-urlencoded` format, including query strings produced by [Parameter Objects](#parameter-object) with `in: "query"`, MUST also successfully parse and percent-decode using [[WHATWG-URL]] rules, including treating non-percent-encoded `+` as an escaped space character. + +These requirements are specified in terms of percent-_decoding_ rules, which are consistently tolerant across different versions of the various standards that apply to URIs. + +Percent-_encoding_ is performed in several places: + +* By [[RFC6570]] implementations (or simulations thereof; see [Appendix C](#appendix-c-using-rfc6570-based-serialization)) +* By the Parameter or [Encoding](#encoding-object) Objects when incorporating a value serialized with a [Media Type Object](#media-type-object) for a media type that does not already incorporate URI percent-encoding +* By the user, prior to passing data through RFC6570's reserved expansion process + +When percent-encoding, the safest approach is to percent-encode all characters not in RFC3986's "unreserved" set, and for `form-urlencoded` to also percent-encode the tilde character (`~`) to align with historical requirements that are traced back to [[?RFC1738]], the URI RFC at the time `form-urlencoded` was created. +This approach is used in examples in this specification. + +For `form-urlencoded`, while the encoding algorithm given by [[WHATWG-URL]] requires escaping the space character as `+`, percent-encoding it as `%20` also meets the above requirements. +Examples in this specification will prefer `%20` when using RFC6570's default (non-reserved) form-style expansion, and `+` otherwise. + +Reserved characters MUST NOT be percent-encoded when being used for reserved purposes such as `&=+` for `form-urlencoded` or `,` for delimiting non-exploded array and object values in RFC6570 expansions. +The result of inserting non-percent-encoded delimiters into data using manual percent-encoding, including via RFC6570's reserved expansion rules, is undefined and will likely prevent implementations from parsing the results back into the correct data structures. +In some cases, such as inserting `/` into path parameter values, doing so is [explicitly forbidden](#path-templating) by this specification. + +See also: + +* [Appendix C](#appendix-c-using-rfc6570-based-serialization) for guidance on using or simulating/extending RFC6570 implementations. +* [Appendix D](#appendix-d-serializing-headers-and-cookies) for guidance on percent-encoding and cookies, as well as other escaping approaches for headers and cookies. +* [Appendix E](#appendix-e-percent-encoding-and-form-media-types) for a thorough discussion of percent-encoding options, compatibility, and handling OAS-defined delimiters that are not allowed by RFC3986. + +#### Serialization and Examples + +The rules in this section apply to both the Parameter and [Header](#header-object) Objects, both of which use the same mechanisms. + +When showing serialized examples, such as with the [Example Object's](#example-object) `serializedValue` or `externalValue` fields, in most cases the value to show is just the value, with all relevant percent-encoding or other encoding/escaping applied, and also including any delimiters produced by the `style` and `explode` configuration. + +In cases where the name is an inherent part of constructing the serialization, such as the `name=value` pairs produced by `style: "form"` or the combination of `style: "simple", explode: true`, the name and any delimiter between the name and value MUST be included. + +The `matrix` and `label` styles produce a leading delimiter which is always a valid part of the serialization and MUST be included. +The RFC6570 operators corresponding to `style: "form"` produce a leading delimiter of either `?` or `&` depending on the exact syntax used. +As the suitability of either delimiter depends on where in the query string the parameter occurs, as well as whether it is in a URI or in `application/x-www-form-urlencoded` content, this leading delimiter MUST NOT be included in examples of individual parameters or media type documents. +For `in: "cookie", style: "form"`, neither the `&` nor `?` delimiters are ever correct; see [Appendix D: Serializing Headers and Cookies](#appendix-d-serializing-headers-and-cookies) for more details. + +For headers, the header name MUST NOT be included as part of the serialization, as it is never part of the RFC6570-derived result. +However, names produced by `style: "simple", explode: "true"` are included as they appear within the header value, not as separate headers. +See the [Header Object](#header-object) for special rules for showing examples of the `Set-Cookie` response header, which violates the normal rules for multiple header values. + +#### Style Examples + +Assume a parameter named `color` has one of the following values, where the value to the right of the `->` is what would be shown in the `dataValue` field of an Example Object: + +```js + string -> "blue" + array -> ["blue", "black", "brown"] + object -> { "R": 100, "G": 200, "B": 150 } +``` + +The following table shows serialized examples, as would be shown with the `serializedValue` field of an Example Object, of the different serializations for each value. + +* The value _empty_ denotes the empty string, and is unrelated to the `allowEmptyValue` field. +* The behavior of combinations marked _n/a_ is undefined. +* The `undefined` column replaces the `empty` column in previous versions of this specification in order to better align with [RFC6570](https://www.rfc-editor.org/rfc/rfc6570.html#section-2.3) terminology, which describes certain values including but not limited to `null` as "undefined" values with special handling; notably, the empty string is _not_ undefined. +* For `form` and the non-RFC6570 query string styles `spaceDelimited`, `pipeDelimited`, and `deepObject`, see [Appendix C](#appendix-c-using-rfc6570-based-serialization) for more information on constructing query strings from multiple parameters, and [Appendix D](#appendix-d-serializing-headers-and-cookies) for warnings regarding `form` and `cookie` parameters. +* The examples are percent-encoded as explained in the [URL Percent-Encoding](#url-percent-encoding) section above; see [Appendix E](#appendix-e-percent-encoding-and-form-media-types) for a thorough discussion of percent-encoding concerns, including why unencoded `|` (`%7C`), `[` (`%5B`), and `]` (`%5D`) seem to work in some environments despite not being compliant. + +| [`style`](#style-values) | `explode` | `undefined` | `string` | `array` | `object` | +| ---- | ---- | ---- | ---- | ---- | ---- | +| matrix | false | ;color | ;color=blue | ;color=blue,black,brown | ;color=R,100,G,200,B,150 | +| matrix | true | ;color | ;color=blue | ;color=blue;color=black;color=brown | ;R=100;G=200;B=150 | +| label | false | . | .blue | .blue,black,brown | .R,100,G,200,B,150 | +| label | true | . | .blue | .blue.black.brown | .R=100.G=200.B=150 | +| simple | false | _empty_ | blue | blue,black,brown | R,100,G,200,B,150 | +| simple | true | _empty_ | blue | blue,black,brown | R=100,G=200,B=150 | +| form | false | color= | color=blue | color=blue,black,brown | color=R,100,G,200,B,150 | +| form | true | color= | color=blue | color=blue&color=black&color=brown | R=100&G=200&B=150 | +| spaceDelimited | false | _n/a_ | _n/a_ | color=blue%20black%20brown | color=R%20100%20G%20200%20B%20150 | +| spaceDelimited | true | _n/a_ | _n/a_ | _n/a_ | _n/a_ | +| pipeDelimited | false | _n/a_ | _n/a_ | color=blue%7Cblack%7Cbrown | color=R%7C100%7CG%7C200%7CB%7C150 | +| pipeDelimited | true | _n/a_ | _n/a_ | _n/a_ | _n/a_ | +| deepObject | _n/a_ | _n/a_ | _n/a_ | _n/a_ | color%5BR%5D=100&color%5BG%5D=200&color%5BB%5D=150 | +| cookie | false | color= | color=blue | color=blue,black,brown | color=R,100,G,200,B,150 | +| cookie | true | color= | color=blue | color=blue; color=black; color=brown | R=100; G=200; B=150 | + +#### Extending Support for Querystring Formats + +Many frameworks define query string syntax for complex values, such as appending array indices to parameter names or indicating multiple levels of of nested objects, which go well beyond the capabilities of the `deepObject` style. + +As these are not standards, and often contradict each other, the OAS does not attempt to support them directly. +Two avenues are available for supporting such formats with `in: "querystring"`: + +* Use `content` and `text/plain` with a schema of `type: "string"` and define the format outside of OpenAPI. While this requires more work to document and construct or parse the format, which is seen as a plain string from the OpenAPI perspective, it provides the easiest flexible option +* Define a media type (which need not necessarily be [IANA-registered](https://www.rfc-editor.org/rfc/rfc6838.html)) and a process for mapping in-memory data to the serialized media type. To increase the likelihood of support across multiple tools, submit a registration for the media type and process to the OpenAPI Initiative's [Media Type Registry](#openapi-media-type-registry). + +#### Parameter Object Examples + +A header parameter with an array of 64-bit integer numbers: + +```yaml +name: X-Token +in: header +description: token to be passed as a header +required: true +schema: + type: array + items: + type: integer + format: int64 +style: simple +examples: + Tokens: + dataValue: + - 12345678 + - 90099 + serializedValue: "12345678,90099" +``` + + +A cookie parameter with an exploded object (the default for `style: "cookie"`): + +```yaml +name: cookie +in: cookie +style: cookie +schema: + type: object + properties: + greeting: + type: string + code: + type: integer + minimum: 0 +examples: + Object: + description: | + Note that the comma (,) has been pre-percent-encoded + to "%2C" in the data, as it is forbidden in + cookie values. However, the exclamation point (!) + is legal in cookies, so it can be left unencoded. + dataValue: + greeting: Hello%2C world! + code: 42 + serializedValue: "greeting=Hello%2C world!; code=42" +``` + +A cookie parameter relying on the percent-encoding behavior of the default `style: "form"`: + +```yaml +name: greeting +in: cookie +schema: + type: string +examples: + Greeting: + description: | + Note that in this approach, RFC6570's percent-encoding + process applies, so unsafe characters are not + pre-percent-encoded. This results in all non-URL-safe + characters, rather than just the one non-cookie-safe + character, getting percent-encoded. + dataValue: Hello, world! + serializedValue: "greeting=Hello%2C%20world%21" +``` + +A path parameter of a string value: + +```yaml +name: username +in: path +description: username to fetch +required: true +schema: + type: string +examples: + "Edsger Dijkstra": + dataValue: edijkstra + serializedValue: edijkstra + Diṅnāga: + dataValue: diṅnāga + serializedValue: di%E1%B9%85n%C4%81ga + Al-Khwarizmi: + dataValue: "الخوارزميّ" + serializedValue: "%D8%A7%D9%84%D8%AE%D9%88%D8%A7%D8%B1%D8%B2%D9%85%D9%8A%D9%91" +``` + +An optional query parameter of a string value, allowing multiple values by repeating the query parameter +(Note that we use `"%20"` in place of `" "` (space) because that is how RFC6570 handles it; for guidance on using `+` to represent the space character, see [Appendix E](#appendix-e-percent-encoding-and-form-media-types) for more guidance on these escaping options): + +```yaml +name: thing +in: query +required: false +schema: + type: array + items: + type: string +style: form +explode: true +examples: + ObjectList: + dataValue: + - one thing + - another thing + serializedValue: "thing=one%20thing&thing=another%20thing" +``` + +A free-form query parameter, allowing arbitrary parameters of `type: "integer"`: + +```yaml +in: query +name: freeForm +schema: + type: object + additionalProperties: + type: integer +style: form +examples: + Pagination: + dataValue: + page: 4 + pageSize: 50 + serializeValue: page=4&pageSize=50 +``` + +A complex parameter using `content` to define serialization, with multiple levels and types of examples shown to make the example usage options clear — note that `dataValue` is the same at both levels and does not need to be shown in both places in normal usage, but `serializedValue` is different: + +```yaml +in: query +name: coordinates +content: + application/json: + schema: + type: object + required: + - lat + - long + properties: + lat: + type: number + long: + type: number + examples: + dataValue: + lat: 10 + long: 60 + serializedValue: '{"lat":10,"long":60}' +examples: + dataValue: + lat: 10 + long: 60 + serializedValue: coordinates=%7B%22lat%22%3A10%2C%22long%22%3A60%7D +``` + +A querystring parameter using regular form encoding, but managed with a Media Type Object. +This shows spaces being handled per the `application/x-www-form-urlencoded` media type rules (encode as `+`) rather than the RFC6570 process (encode as `%20`); see [Appendix E](appendix-e-percent-encoding-and-form-media-types) for further guidance on this distinction. +Examples are shown at both the media type and parameter level to emphasize that, since `application/x-www-form-urlencoded` is suitable for use in query strings by definition, no further encoding or escaping is applied to the serialized media type value: + +```yaml +in: querystring +content: + application/x-www-form-urlencoded: + schema: + type: object + properties: + foo: + type: string + bar: + type: boolean + examples: + spacesAndPluses: + description: Note handling of spaces and "+" per media type. + dataValue: + foo: a + b + bar: true + serializedValue: foo=a+%2B+b&bar=true +examples: + spacesAndPluses: + description: | + Note that no additional percent encoding is done, as this + media type is URI query string-ready by definition. + dataValue: + foo: a + b + bar: true + serializedValue: foo=a+%2B+b&bar=true +``` + +A querystring parameter that uses JSON for the entire string (not as a single query parameter value). +The `dataValue` field is shown at both levels to fully illustrate both ways of providing an example. +As seen below, this is redundant and need not be done in practice: + +```yaml +in: querystring +name: json +content: + application/json: + schema: + type: object + properties: + numbers: + type: array + items: + type: integer + flag: + type: [boolean, "null"] + examples: + TwoNoFlag: + description: Serialize with minimized whitespace + dataValue: + numbers: + - 1 + - 2 + flag: null + serializedValue: '{"numbers":[1,2],"flag":null}' +examples: + TwoNoFlag: + dataValue: + numbers: + - 1 + - 2 + flag: null + serializedValue: "%7B%22numbers%22%3A%5B1%2C2%5D%2C%22flag%22%3Anull%7D" +``` + +Assuming a path of `/foo`, a server of `https://example.com`, the full URL incorporating the value from `serializedValue` would be: + +```uri +https://example.com/foo?%7B%22numbers%22%3A%5B1%2C2%5D%2C%22flag%22%3Anull%7D +``` + +A querystring parameter that uses [[?RFC9535|JSONPath]]. +Note that in this example we not only do not repeat `dataValue`, but we use the shorthand `example` because the `application/jsonpath` value is a string that, at the media type level, is serialized as-is: + +```yaml +in: querystring +name: selector +content: + application/jsonpath: + schema: + type: string + example: $.a.b[1:1] +examples: + Selector: + serializedValue: "%24.a.b%5B1%3A1%5D" +``` + +As there is not, as of this writing, a [registered](#openapi-media-type-registry) mapping between the JSON Schema data model and JSONPath, the details of the string's allowed structure would need to be conveyed either in a human-readable `description` field, or through a mechanism outside of the OpenAPI Description, such as a JSON Schema for the data structure to be queried. + +Assuming a path of `/foo` and a server of `https://example.com`, the full URL incorporating the value from `serializedValue` would be: + +```uri +https://example.com/foo?%24.a.b%5B1%3A1%5D +``` + +### Request Body Object + +Describes a single request body. + +#### Fixed Fields + +| Field Name | Type | Description | +| ---- | :----: | ---- | +| description | `string` | A brief description of the request body. This could contain examples of use. [CommonMark syntax](https://spec.commonmark.org/) MAY be used for rich text representation. | +| content | Map[`string`, [Media Type Object](#media-type-object) \| [Reference Object](#reference-object)] | **REQUIRED**. The content of the request body. The key is a media type or [media type range](https://www.rfc-editor.org/rfc/rfc9110.html#appendix-A) and the value describes it. The map SHOULD have at least one entry; if it does not, the behavior is implementation-defined. For requests that match multiple keys, only the most specific key is applicable. e.g. `"text/plain"` overrides `"text/*"` | +| required | `boolean` | Determines if the request body is required in the request. Defaults to `false`. | + +This object MAY be extended with [Specification Extensions](#specification-extensions). + +#### Request Body Examples + +A request body with a referenced schema definition. + +```yaml +description: user to add to the system +content: + application/json: + schema: + $ref: '#/components/schemas/User' + examples: + user: + summary: User example + externalValue: https://foo.bar/examples/user-example.json + application/xml: + schema: + $ref: '#/components/schemas/User' + examples: + user: + summary: User example in XML + externalValue: https://foo.bar/examples/user-example.xml + text/plain: + examples: + user: + summary: User example in plain text + externalValue: https://foo.bar/examples/user-example.txt + '*/*': + examples: + user: + summary: User example in other format + externalValue: https://foo.bar/examples/user-example.whatever +``` + +### Media Type Object + +Each Media Type Object describes content structured in accordance with the media type identified by its key. +Multiple Media Type Objects can be used to describe content that can appear in any of several different media types. + +When `example` or `examples` are provided, the example SHOULD match the specified schema and be in the correct format as specified by the media type and its encoding. +The `example` and `examples` fields are mutually exclusive. +See [Working With Examples](#working-with-examples) for further guidance regarding the different ways of specifying examples, including non-JSON/YAML values. + +#### Fixed Fields + +| Field Name | Type | Description | +| ---- | :----: | ---- | +| schema | [Schema Object](#schema-object) | A schema describing the complete content of the request, response, parameter, or header. | +| itemSchema | [Schema Object](#schema-object) | A schema describing each item within a [sequential media type](#sequential-media-types). | +| example | Any | Example of the media type; see [Working With Examples](#working-with-examples). | +| examples | Map[ `string`, [Example Object](#example-object) \| [Reference Object](#reference-object)] | Examples of the media type; see [Working With Examples](#working-with-examples). | +| encoding | Map[`string`, [Encoding Object](#encoding-object)] | A map between a property name and its encoding information, as defined under [Encoding By Name](#encoding-by-name). The `encoding` field SHALL only apply when the media type is `multipart` or `application/x-www-form-urlencoded`. If no Encoding Object is provided for a property, the behavior is determined by the default values documented for the Encoding Object. This field MUST NOT be present if `prefixEncoding` or `itemEncoding` are present. | +| prefixEncoding | [[Encoding Object](#encoding-object)] | An array of positional encoding information, as defined under [Encoding By Position](#encoding-by-position). The `prefixEncoding` field SHALL only apply when the media type is `multipart`. If no Encoding Object is provided for a property, the behavior is determined by the default values documented for the Encoding Object. This field MUST NOT be present if `encoding` is present. | +| itemEncoding | [Encoding Object](#encoding-object) | A single Encoding Object that provides encoding information for multiple array items, as defined under [Encoding By Position](#encoding-by-position). The `itemEncoding` field SHALL only apply when the media type is `multipart`. If no Encoding Object is provided for a property, the behavior is determined by the default values documented for the Encoding Object. This field MUST NOT be present if `encoding` is present. | + +This object MAY be extended with [Specification Extensions](#specification-extensions). + +#### Media Types + +Media types are publicly registered with the [IANA media types registry](https://www.iana.org/assignments/media-types/media-types.xhtml), through process documented in [[?RFC6838]]. + +APIs also sometimes define private media types such as GitHub's `application/vnd.github.v3+json`, which are not registered, and other media types such as `application/schema+json` become widely used before an intended registration. + +See [Parsing and Serializing](#parsing-and-serializing) under the [Schema Object](#schema-object) for guidance on using schemas with a variety of media types. + +##### OpenAPI Media Type Registry + +The OpenAPI Initiative maintains a [Media Type Registry](https://spec.openapis.org/registry/media-type/) summarizing media type support expected by this specification and providing an index to which sections address which media types. +It also links to IANA registrations (where they exist) and to the most notable specification document(s) related to each media type. +Any additional media types added to this registry as extensions or for later versions of this or other OpenAPI specifications MAY be supported by implementations of this version of the OAS. + +#### Complete vs Streaming Content + +The `schema` field MUST be applied to the complete content, as defined by the media type and the context ([Request Body Object](#request-body-object), [Response Object](#response-object), [Parameter Object](#parameter-object), or [Header Object](#header-object). +Because this requires loading the content into memory in its entirety, it poses a challenge for streamed content. +Use cases where clients are intended to choose when to stop reading are particularly challenging as there is no well-defined end to the stream. + +##### Sequential Media Types + +Within this specification, a _sequential media type_ is defined as any media type that consists of a repeating structure, without any sort of header, footer, envelope, or other metadata in addition to the sequence. + +Some examples of sequential media types (including some that are not IANA-registered but are in common use) are: + +```text + application/jsonl + application/x-ndjson + application/json-seq + application/geo+json-seq + text/event-stream + multipart/mixed +``` + +In the first three above, the repeating structure is any [JSON value](https://tools.ietf.org/html/rfc8259#section-3). +The fourth repeats `application/geo+json`-structured values, while `text/event-stream` repeats a custom text format related to Server-Sent Events. +The final media type listed above, `multipart/mixed`, provides an ordered list of documents of any media type, and is sometimes streamed. +Note that while `multipart` formats technically allow a preamble and an epilogue, the RFC directs that they are to be ignored, making them effectively comments, and this specification does not model them. + +Implementations MUST support mapping sequential media types into the JSON Schema data model by treating them as if the values were in an array in the same order. + +See [Complete vs Streaming Content](#complete-vs-streaming-content) for more information on handling sequential media types in a streaming context, including special considerations for `text/event-stream` content. +For `multipart` types, see also [Encoding By Position](#encoding-by-position). + +###### Streaming Sequential Media Types + +The `itemSchema` field is provided to support streaming use cases for sequential media types, with `itemEncoding` as a corresponding encoding mechanism for streaming [positional `multipart` media types](#encoding-by-position). + +Unlike `schema`, which is applied to the complete content (treated as an array as described in the [sequential media types](#sequential-media-types) section), `itemSchema` MUST be applied to each item in the stream independently, which supports processing each item as it is read from the stream. + +Both `schema` and `itemSchema` MAY be used in the same Media Type Object. +However, doing so is unlikely to have significant advantages over using the `items` keyword within the `schema` field. + +##### Binary Streams + +The `maxLength` keyword MAY be used to set an expected upper bound on the length of a streaming payload that consists of either string data, including encoded binary data, or unencoded binary data. +For unencoded binary data, the length is the number of octets. +For this use case, `maxLength` MAY be implemented outside of regular JSON Schema evaluation as JSON Schema does not directly apply to binary data, and an encoded binary stream may be impractical to store in memory in its entirety. + +#### Special Considerations for Server-Sent Events + +For `text/event-stream`, implementations MUST work with event data after it has been parsed according to the [`text/event-stream` specification](https://html.spec.whatwg.org/multipage/server-sent-events.html#parsing-an-event-stream), including all guidance on ignoring certain fields (including comments) and/or values, and on combining values split across multiple lines. + +Field value types MUST be handled as specified by the `text/event-stream` specification (e.g. the `retry` field value is modeled as a JSON number that is expected to be of JSON Schema `type: integer`), and fields not given an explicit value type MUST be handled as strings. + +Some users of `text/event-stream` use a format such as JSON for field values, particularly the `data` field. +Use JSON Schema's keywords for working with the [contents of string-encoded data](https://www.ietf.org/archive/id/draft-bhutton-json-schema-validation-01.html#name-a-vocabulary-for-the-conten), particularly `contentMediaType` and `contentSchema`, to describe and validate such fields with more detail than string-related validation keywords such as `pattern` can support. +Note that `contentSchema` is [not automatically validated by default](https://www.ietf.org/archive/id/draft-bhutton-json-schema-validation-01.html#name-implementation-requirements-2) (see also the [Non-validating constraint keywords](#non-validating-constraint-keywords) section of this specification). + +The following Schema Object is a generic schema for the `text/event-stream` media type as documented by the [[?HTML]] specification as of the time of this writing: + +```yaml +type: object +required: +- data +properties: + data: + type: string + event: + type: string + id: + type: string + retry: + type: integer + minimum: 0 +``` + +#### Encoding Usage and Restrictions + +These encoding fields define how to map each [Encoding Object](#encoding-object) to a specific value in the data. +Each field has its own set of media types with which it can be used; for all other media types all three fields SHALL be ignored. + +##### Encoding By Name + +The behavior of the `encoding` field is designed to support web forms, and is therefore only defined for media types structured as name-value pairs that allow repeat values, most notably `application/x-www-form-urlencoded` and `multipart/form-data`. + +To use the `encoding` field, each key under the field MUST exist as a property; `encoding` entries with no corresponding property SHALL be ignored. +Array properties MUST be handled by applying the given Encoding Object to produce one encoded value per array item, each with the same `name`, as is recommended by [[!RFC7578]] [Section 4.3](https://www.rfc-editor.org/rfc/rfc7578.html#section-4.3) for supplying multiple values per form field. +For all other value types for both top-level non-array properties and for values, including array values, within a top-level array, the Encoding Object MUST be applied to the entire value. +The order of these name-value pairs in the target media type is implementation-defined. + +For `application/x-www-form-urlencoded`, the encoding keys MUST map to parameter names, with the values produced according to the rules of the [Encoding Object](#encoding-object). +See [Encoding the `x-www-form-urlencoded` Media Type](#encoding-the-x-www-form-urlencoded-media-type) for guidance and examples, both with and without the `encoding` field. + +For `multipart`, the encoding keys MUST map to the [`name` parameter](https://www.rfc-editor.org/rfc/rfc7578#section-4.2) of the `Content-Disposition: form-data` header of each part, as is defined for `multipart/form-data` in [[!RFC7578]]. +See [[!RFC7578]] [Section 5](https://www.rfc-editor.org/rfc/rfc7578.html#section-5) for guidance regarding non-ASCII part names. + +See [Encoding `multipart` Media Types](#encoding-multipart-media-types) for further guidance and examples, both with and without the `encoding` field. + +##### Encoding By Position + +Most `multipart` media types, including `multipart/mixed` which defines the underlying rules for parsing all `multipart` types, do not have named parts. +Data for these media types are modeled as an array, with one item per part, in order. + +To use the `prefixEncoding` and/or `itemEncoding` fields, either `itemSchema` or an array `schema` MUST be present. +These fields are analogous to the `prefixItems` and `items` JSON Schema keywords, with `prefixEncoding` (if present) providing an array of Encoding Objects that are each applied to the value at the same position in the data array, and `itemEncoding` applying its single Encoding Object to all remaining items in the array. +As with `prefixItems`, it is _not_ an error if the instance array is shorter than the `prefixEncoding` array; the additional Encoding Objects SHALL be ignored. + +The `itemEncoding` field can also be used with `itemSchema` to support streaming `multipart` content. + +##### Additional Encoding Approaches + +The `prefixEncoding` field can be used with any `multipart` content to require a fixed part order. +This includes `multipart/form-data`, for which the Encoding Object's `headers` field MUST be used to provide the `Content-Disposition` and part name, as no property names exist to provide the names automatically. + +Prior versions of this specification advised using the [`name` parameter](https://www.rfc-editor.org/rfc/rfc7578#section-4.2) of the `Content-Disposition: form-data` header of each part with `multipart` media types other than `multipart/form-data` in order to work around the limitations of the `encoding` field. +Implementations MAY choose to support this workaround, but as this usage is not common, implementations of non-`form-data` `multipart` media types are unlikely to support it. + +#### Media Type Examples + +For form-related and `multipart` media type examples, see the [Encoding Object](#encoding-object). + +##### JSON + +Note that since this example is written in YAML, the Example Object's `value` field can be formatted as YAML due to the trivial conversion to JSON. +This avoids needing to embed JSON as a string. + +```yaml +application/json: + schema: + $ref: '#/components/schemas/Pet' + examples: + cat: + summary: An example of a cat + value: + name: Fluffy + petType: Cat + color: White + gender: male + breed: Persian + dog: + summary: An example of a dog with a cat's name + value: + name: Puma + petType: Dog + color: Black + gender: Female + breed: Mixed + frog: + $ref: '#/components/examples/frog-example' +``` + +Alternatively, since all JSON is valid YAML, the example value can use JSON syntax within a YAML document: + +```yaml +application/json: + schema: + $ref: '#/components/schemas/Pet' + examples: + cat: + summary: An example of a cat + value: { + "name": "Fluffy", + "petType": "Cat", + "color": "White", + "gender": "male", + "breed": "Persian" + } + dog: + summary: An example of a dog with a cat's name + value: { + "name": "Puma", + "petType": "Dog", + "color": "Black", + "gender": "Female", + "breed": "Mixed" + } + frog: + $ref: '#/components/examples/frog-example' +``` + +##### Sequential JSON + +For any [sequential media type](#sequential-media-types) where the items in the sequence are JSON values, no conversion of each value is required. +JSON Text Sequences ([[?RFC7464]] `application/json-seq` and [[?RFC8091]] the `+json-seq` structured suffix), [JSON Lines](https://jsonlines.org/) (`application/jsonl`), and [NDJSON](https://github.com/ndjson/ndjson-spec) (`application/x-ndjson`) are all in this category. +Note that the media types for JSON Lines and NDJSON are not registered with the IANA, but are in common use. + +The following example shows Media Type Objects for both streaming log entries and returning a fixed-length set in response to a query. +This shows the relationship between `schema` and `itemSchema`, and when to use each even though the `examples` field is the same either way. + +```yaml +components: + schemas: + LogEntry: + type: object + properties: + timestamp: + type: string + format: date-time + level: + type: integer + minimum: 0 + message: + type: string + Log: + type: array + items: + $ref: "#/components/schemas/LogEntry" + maxItems: 100 + examples: + LogJSONSeq: + summary: Log entries in application/json-seq + # JSON Text Sequences require an unprintable character + # that cannot be escaped in a YAML string, and therefore + # must be placed in an external document shown below + externalValue: examples/log.json-seq + LogJSONPerLine: + summary: Log entries in application/jsonl or application/x-ndjson + description: JSONL and NDJSON are identical for this example + # Note that the value must be written as a string with newlines, + # as JSONL and NDJSON are not valid YAML + value: | + {"timestamp": "1985-04-12T23:20:50.52Z", "level": 1, "message": "Hi!"} + {"timestamp": "1985-04-12T23:20:51.37Z", "level": 1, "message": "Bye!"} + responses: + LogStream: + description: | + A stream of JSON-format log messages that can be read + for as long as the application is running, and is available + in any of the sequential JSON media types. + content: + application/json-seq: + itemSchema: + $ref: "#/components/schemas/LogEntry" + examples: + JSON-SEQ: + $ref: "#/components/examples/LogJSONSeq" + application/jsonl: + itemSchema: + $ref: "#/components/schemas/LogEntry" + examples: + JSONL: + $ref: "#/components/examples/LogJSONPerLine" + application/x-ndjson: + itemSchema: + $ref: "#/components/schemas/LogEntry" + examples: + NDJSON: + $ref: "#/components/examples/LogJSONPerLine" + LogExcerpt: + description: | + A response consisting of no more than 100 log records, + generally as a result of a query of the historical log, + available in any of the sequential JSON media types. + content: + application/json-seq: + schema: + $ref: "#/components/schemas/Log" + examples: + JSON-SEQ: + $ref: "#/components/examples/LogJSONSeq" + application/jsonl: + schema: + $ref: "#/components/schemas/Log" + examples: + JSONL: + $ref: "#/components/examples/LogJSONPerLine" + application/x-ndjson: + schema: + $ref: "#/components/schemas/Log" + examples: + NDJSON: + $ref: "#/components/examples/LogJSONPerLine" +``` + +Our `application/json-seq` example has to be an external document because of the use of both newlines and of the unprintable Record Separator (`0x1E`) character, which cannot be escaped in YAML block literals: + +```jsonseq +0x1E{ + "timestamp": "1985-04-12T23:20:50.52Z", + "level": 1, + "message": "Hi!" +} +0x1E{ + "timestamp": "1985-04-12T23:20:51.37Z", + "level": 1, + "message": "Bye!" +} +``` + +##### Server-Sent Event Streams + +For this example, assume that the generic event schema provided in the [Special Considerations for Server-Sent Events](#special-considerations-for-server-sent-events) section is available at `#/components/schemas/Event`: + +```yaml +description: A request body to add a stream of typed data. +required: true +content: + text/event-stream: + itemSchema: + $ref: "#/components/schemas/Event" + required: [event] + oneOf: + - properties: + event: + const: addString + - properties: + event: + const: addInt64 + data: + $comment: | + Since the `data` field is a string, + we need a format to signal that it + should be handled as a 64-bit integer. + format: int64 + - properties: + event: + const: addJson + data: + $comment: | + These content fields indicate + that the string value should + be parsed and validated as a + JSON document (since JSON is not + a binary format, `contentEncoding` + is not needed) + contentMediaType: application/json + contentSchema: + type: object + required: [foo] + properties: + foo: + type: integer +``` + +The following `text/event-stream` document is an example of a valid request body for the above example: + +```eventstream +event: addString +data: This data is formatted +data: across two lines +retry: 5 + +event: addInt64 +data: 1234.5678 +unknownField: this is ignored + +: This is a comment +event: addJSON +data: {"foo": 42} +``` + +To more clearly see how this stream is handled, the following is the equivalent JSON Lines document, which shows how the numeric and JSON data are handled as strings, and how unknown fields and comments are ignored and not passed to schema validation: + +```jsonl +{"event": "addString", "data": "This data is formatted\nacross two lines", "retry": 5} +{"event": "addInt64", "data": "1234.5678"} +{"event": "addJSON", "data": "{\"foo\": 42}"} +``` + +#### Considerations for File Uploads + +In contrast to OpenAPI 2.0, `file` input/output content in OAS 3.x is described with the same semantics as any other schema type. + +In contrast to OAS 3.0, the `format` keyword has no effect on the content-encoding of the schema in OAS 3.1. Instead, JSON Schema's `contentEncoding` and `contentMediaType` keywords are used. See [Working With Binary Data](#working-with-binary-data) for how to model various scenarios with these keywords, and how to migrate from the previous `format` usage. + +Examples: + +Content transferred in binary (octet-stream) MAY omit `schema`: + +```yaml +# a PNG image as a binary file: +content: + image/png: {} +``` + +```yaml +# an arbitrary binary file: +content: + application/octet-stream: {} +``` + +```yaml +# arbitrary JSON without constraints beyond being syntactically valid: +content: + application/json: {} +``` + +These examples apply to either input payloads of file uploads or response payloads. + +A `requestBody` for submitting a file in a `POST` operation may look like the following example: + +```yaml +requestBody: + content: + application/octet-stream: {} +``` + +In addition, specific media types MAY be specified: + +```yaml +# multiple, specific media types may be specified: +requestBody: + content: + # a binary file of type png or jpeg + image/jpeg: {} + image/png: {} +``` + +To upload multiple files, a `multipart` media type MUST be used as shown under [Example: Multipart Form with Multiple Files](#example-multipart-form-with-multiple-files). + +### Encoding Object + +A single encoding definition applied to a single value, with the mapping of Encoding Objects to values determined by the [Media Type Object](@media-type-object) as described under [Encoding Usage and Restrictions](#encoding-usage-and-restrictions). + +See [Appendix B](#appendix-b-data-type-conversion) for a discussion of converting values of various types to string representations. + +See [Appendix E](#appendix-e-percent-encoding-and-form-media-types) for a detailed examination of percent-encoding concerns for form media types. + +#### Fixed Fields + +##### Common Fixed Fields + +These fields MAY be used either with or without the RFC6570-style serialization fields defined in the next section below. + +| Field Name | Type | Description | +| ---- | :----: | ---- | +| contentType | `string` | The `Content-Type` for encoding a specific property. The value is a comma-separated list, each element of which is either a specific media type (e.g. `image/png`) or a wildcard media type (e.g. `image/*`). The default value depends on the type as shown in the table below. | +| headers | Map[`string`, [Header Object](#header-object) \| [Reference Object](#reference-object)] | A map allowing additional information to be provided as headers. `Content-Type` is described separately and SHALL be ignored in this section. This field SHALL be ignored if the media type is not a `multipart`. | +| encoding | Map[`string`, [Encoding Object](#encoding-object)] | Applies nested Encoding Objects in the same manner as the [Media Type Object](#media-type-object)'s `encoding` field. | +| prefixEncoding | [[Encoding Object](#encoding-object)] | Applies nested Encoding Objects in the same manner as the [Media Type Object](#media-type-object)'s `prefixEncoding` field. | +| itemEncoding | [Encoding Object](#encoding-object) | Applies nested Encoding Objects in the same manner as the [Media Type Object](#media-type-object)'s `itemEncoding` field. | + +This object MAY be extended with [Specification Extensions](#specification-extensions). + +The default values for `contentType` are as follows, where an _n/a_ in the `contentEncoding` column means that the presence or value of `contentEncoding` is irrelevant. +This table is based on the value to which the Encoding Object is being applied as defined under [Encoding Usage and Restrictions](#encoding-usage-and-restrictions). +Note that in the case of [Encoding By Name](#encoding-by-name), this value is the array item for properties of type `"array"`, and the entire value for all other types. +Therefore the `array` row in this table applies only to array values inside of a top-level array when encoding by name. + +| `type` | `contentEncoding` | Default `contentType` | +| ---- | ---- | ---- | +| [_absent_](#working-with-binary-data) | _n/a_ | `application/octet-stream` | +| `string` | _present_ | `application/octet-stream` | +| `string` | _absent_ | `text/plain` | +| `number`, `integer`, or `boolean` | _n/a_ | `text/plain` | +| `object` | _n/a_ | `application/json` | +| `array` | _n/a_ | `application/json` | + +Determining how to handle a `type` value of `null` depends on how `null` values are being serialized. +If `null` values are entirely omitted, then the `contentType` is irrelevant. +See [Appendix B](#appendix-b-data-type-conversion) for a discussion of data type conversion options. + +##### Fixed Fields for RFC6570-style Serialization + +| Field Name | Type | Description | +| ---- | :----: | ---- | +| style | `string` | Describes how a specific property value will be serialized depending on its type. See [Parameter Object](#parameter-object) for details on the [`style`](#parameter-style) field. The behavior follows the same values as `query` parameters, including the default value of `"form"` which applies only when `contentType` is _not_ being used due to one or both of `explode` or `allowReserved` being explicitly specified. Note that the initial `?` used in query strings is not used in `application/x-www-form-urlencoded` message bodies, and MUST be removed (if using an RFC6570 implementation) or simply not added (if constructing the string manually). This field SHALL be ignored if the media type is not `application/x-www-form-urlencoded` or `multipart/form-data`. If a value is explicitly defined, then the value of [`contentType`](#encoding-content-type) (implicit or explicit) SHALL be ignored. | +| explode | `boolean` | When this is true, property values of type `array` or `object` generate separate parameters for each value of the array, or key-value-pair of the map. For other types of properties, or when [`style`](#encoding-style) is `"deepObject"`, this field has no effect. When `style` is `"form"`, the default value is `true`. For all other styles, the default value is `false`. This field SHALL be ignored if the media type is not `application/x-www-form-urlencoded` or `multipart/form-data`. If a value is explicitly defined, then the value of [`contentType`](#encoding-content-type) (implicit or explicit) SHALL be ignored. | +| allowReserved | `boolean` | When this is true, parameter values are serialized using reserved expansion, as defined by [RFC6570](https://datatracker.ietf.org/doc/html/rfc6570#section-3.2.3), which allows [RFC3986's reserved character set](https://datatracker.ietf.org/doc/html/rfc3986#section-2.2), as well as percent-encoded triples, to pass through unchanged, while still percent-encoding all other disallowed characters (including `%` outside of percent-encoded triples). Applications are still responsible for percent-encoding reserved characters that are not allowed in the target media type; see [URL Percent-Encoding](#url-percent-encoding) for details. The default value is `false`. This field SHALL be ignored if the media type is not `application/x-www-form-urlencoded` or `multipart/form-data`. If a value is explicitly defined, then the value of [`contentType`](#encoding-content-type) (implicit or explicit) SHALL be ignored. | + +When using RFC6570-style serialization for `multipart/form-data`, URI percent-encoding MUST NOT be applied, and the value of `allowReserved` has no effect. +See also [Appendix C: Using RFC6570 Implementations](#appendix-c-using-rfc6570-based-serialization) for additional guidance. + +Note that the presence of at least one of `style`, `explode`, or `allowReserved` with an explicit value is equivalent to using `schema` with `in: "query"` Parameter Objects. +The absence of all three of those fields is the equivalent of using `content`, but with the media type specified in `contentType` rather than through a Media Type Object. + +#### Nested Encoding + +Nested formats requiring encoding, most notably nested `multipart/mixed`, can be supported with this Object's `encoding`, `prefixEncoding`, and / or `itemEncoding` fields. +Implementations MUST support one level of nesting, and MAY support additional levels. + +#### Encoding the `x-www-form-urlencoded` Media Type + +To work with content using form url encoding via [[WHATWG-URL]], use the `application/x-www-form-urlencoded` media type in the [Media Type Object](#media-type-object). +This configuration means that the content MUST be percent-encoded per [[WHATWG-URL]]'s rules for that media type, after any complex objects have been serialized to a string representation. + +See [Appendix E](#appendix-e-percent-encoding-and-form-media-types) for a detailed examination of percent-encoding concerns for form media types. + +##### Example: URL Encoded Form with JSON Values + +When there is no [`encoding`](#media-type-encoding) field, the serialization strategy is based on the Encoding Object's default values: + +```yaml +requestBody: + content: + application/x-www-form-urlencoded: + schema: + type: object + properties: + id: + type: string + format: uuid + address: + type: object + properties: {} +``` + +With this example, consider an `id` of `f81d4fae-7dec-11d0-a765-00a0c91e6bf6` and a US-style address (with ZIP+4) as follows: + +```json +{ + "streetAddress": "123 Example Dr.", + "city": "Somewhere", + "state": "CA", + "zip": "99999+1234" +} +``` + +Assuming the most compact representation of the JSON value (with unnecessary whitespace removed), we would expect to see the following request body, where space characters have been replaced with `+` and `+`, `"`, `:`, `,`, `{`, and `}` have been percent-encoded to `%2B`, `%22`, `%3A`, `%2C`, `%7B`, and `%7D`, respectively: + +```uri +id=f81d4fae-7dec-11d0-a765-00a0c91e6bf6&address=%7B%22streetAddress%22%3A%22123+Example+Dr.%22%2C%22city%22%3A%22Somewhere%22%2C%22state%22%3A%22CA%22%2C%22zip%22%3A%2299999%2B1234%22%7D +``` + +Note that the `id` keyword is treated as `text/plain` per the [Encoding Object](#encoding-object)'s default behavior, and is serialized as-is. +If it were treated as `application/json`, then the serialized value would be a JSON string including quotation marks, which would be percent-encoded as `%22`. + +Here is the `id` parameter (without `address`) serialized as `application/json` instead of `text/plain`, and then encoded per [[WHATWG-URL]]'s `form-urlencoded` rules: + +```uri +id=%22f81d4fae-7dec-11d0-a765-00a0c91e6bf6%22 +``` + +##### Example: URL Encoded Form with Binary Values + +Note that `application/x-www-form-urlencoded` is a text format, which requires base64-encoding any binary data: + +```yaml +requestBody: + content: + application/x-www-form-urlencoded: + schema: + type: object + properties: + name: + type: string + icon: + # The default content type with `contentEncoding` present + # is `application/octet-stream`, so we need to set the correct + # image media type(s) in the Encoding Object. + type: string + contentEncoding: base64url + encoding: + icon: + contentType: image/png, image/jpeg +``` + +Given a name of `example` and a solid red 2x2-pixel PNG for `icon`, this +would produce a request body of: + +```uri +name=example&icon=iVBORw0KGgoAAAANSUhEUgAAAAIAAAACCAIAAAD91JpzAAAABGdBTUEAALGPC_xhBQAAADhlWElmTU0AKgAAAAgAAYdpAAQAAAABAAAAGgAAAAAAAqACAAQAAAABAAAAAqADAAQAAAABAAAAAgAAAADO0J6QAAAAEElEQVQIHWP8zwACTGCSAQANHQEDqtPptQAAAABJRU5ErkJggg%3D%3D +``` + +Note that the `=` padding characters at the end need to be percent-encoded, even with the "URL safe" `contentEncoding: base64url`. +Some base64-decoding implementations may be able to use the string without the padding per [RFC4648](https://datatracker.ietf.org/doc/html/rfc4648#section-3.2). +However, this is not guaranteed, so it may be more interoperable to keep the padding and rely on percent-decoding. + +#### Encoding `multipart` Media Types + +See [Encoding Usage and Restrictions](#encoding-usage-and-restrictions) for guidance on correlating schema properties with parts. + +Note that there are significant restrictions on what headers can be used with `multipart` media types in general ([RFC2046](https://www.rfc-editor.org/rfc/rfc2046.html#section-5.1)) and `multi-part/form-data` in particular ([RFC7578](https://www.rfc-editor.org/rfc/rfc7578.html#section-4.8)). + +##### Handling Multiple `contentType` Values + +When multiple values are provided for `contentType`, parsing remains straightforward as the part's actual `Content-Type` is included in the document. + +For encoding and serialization, implementations MUST provide a mechanism for applications to indicate which media type is intended. +Implementations MAY choose to offer media type sniffing ([[SNIFF]]) as an alternative, but this MUST NOT be the default behavior due to the security risks inherent in the process. + +##### `Content-Transfer-Encoding` and `contentEncoding` + +Using `contentEncoding` for a multipart field is equivalent to specifying an [Encoding Object](#encoding-object) with a `headers` field containing `Content-Transfer-Encoding` with a schema that requires the value used in `contentEncoding`. +If `contentEncoding` is used for a multipart field that has an Encoding Object with a `headers` field containing `Content-Transfer-Encoding` with a schema that disallows the value from `contentEncoding`, the result is undefined for serialization and parsing. + +Note that as stated in [Working with Binary Data](#working-with-binary-data), if the Encoding Object's `contentType`, whether set explicitly or implicitly through its default value rules, disagrees with the `contentMediaType` in a Schema Object, the `contentMediaType` SHALL be ignored. +Because of this, and because the Encoding Object's `contentType` defaulting rules do not take the Schema Object's`contentMediaType` into account, the use of `contentMediaType` with an Encoding Object is NOT RECOMMENDED. + +Note also that `Content-Transfer-Encoding` is deprecated for `multipart/form-data` ([RFC7578](https://www.rfc-editor.org/rfc/rfc7578.html#section-4.7)) where binary data is supported, as it is in HTTP. + +See [Appendix E](#appendix-e-percent-encoding-and-form-media-types) for a detailed examination of percent-encoding concerns for form media types. + +##### Example: Basic Multipart Form + +When the `encoding` field is _not_ used, the encoding is determined by the Encoding Object's defaults: + +```yaml +requestBody: + content: + multipart/form-data: + schema: + type: object + properties: + # default content type for a string without `contentEncoding` + # is `text/plain` + id: + type: string + format: uuid + + # default content type for a schema without `type` + # is `application/octet-stream` + profileImage: {} + + # for arrays, the `encoding` field applies the Encoding Object + # to each item individually and determines the default content type + # based on the type in the `items` subschema, which in this example + # is an object, so the default content type for each item is + # `application/json` + addresses: + type: array + items: + $ref: '#/components/schemas/Address' +``` + +##### Example: Multipart Form with Encoding Objects + +Using `encoding`, we can set more specific types for binary data, or non-JSON formats for complex values. +We can also describe headers for each part: + +```yaml +requestBody: + content: + multipart/form-data: + schema: + type: object + properties: + # No Encoding Object, so use default `text/plain` + id: + type: string + format: uuid + + # Encoding Object overrides the default `application/json` content type + # for each item in the array with `application/xml; charset=utf-8` + addresses: + description: addresses in XML format + type: array + items: + $ref: '#/components/schemas/Address' + + # Encoding Object accepts only PNG or JPEG, and also describes + # a custom header for just this part in the multipart format + profileImage: {} + + encoding: + addresses: + contentType: application/xml; charset=utf-8 + profileImage: + contentType: image/png, image/jpeg + headers: + X-Rate-Limit-Limit: + description: The number of allowed requests in the current period + schema: + type: integer +``` + +##### Example: Multipart Form with Multiple Files + +In accordance with [RFC7578](https://www.rfc-editor.org/rfc/rfc7578.html#section-4.3), multiple files for a single form field are uploaded using the same name (`file` in this example) for each file's part: + +```yaml +requestBody: + content: + multipart/form-data: + schema: + properties: + # The property name `file` will be used for all files. + file: + type: array + items: {} +``` + +As seen in the [Encoding Object's `contentType` field documentation](#encoding-content-type), the empty schema for `items` indicates a media type of `application/octet-stream`. + +##### Example: Ordered, Unnamed Multipart + +A `multipart/mixed` payload consisting of a JSON metadata document followed by an image which the metadata describes: + +```yaml +multipart/mixed: + schema: + type: array + prefixItems: + - # default content type for objects + # is `application/json` + type: object + properties: + author: + type: string + created: + type: string + format: datetime + copyright: + type: string + license: + type: string + - # default content type for a schema without `type` + # is `application/octet-stream`, which we need + # to override. + {} + prefixEncoding: + - # Encoding Object defaults are correct for JSON + {} + - contentType: image/* +``` + +##### Example: Ordered Multipart With Required Header + +As described in [[?RFC2557]], a set of resources making up a web page can be sent in a `multipart/related` payload, preserving links from the `text/html` document to subsidiary resources such as scripts, style sheets, and images by defining a `Content-Location` header for each page. +The first part is used as the root resource (unless using `Content-ID`, which RFC2557 advises against and is forbidden in this example), so we use `prefixItems` and `prefixEncoding` to define that it must be an HTML resource, and then allow any of several different types of resources in any order to follow. + +The `Content-Location` header is defined using `content: {text/plain: {...}}` to avoid percent-encoding its URI value; see [Appendix D](appendix-d-serializing-headers-and-cookies) for further details. + +```yaml +components: + headers: + RFC2557NoContentId: + description: Use Content-Location instead of Content-ID + schema: false + RFC2557ContentLocation: + required: true + content: + text/plain: + schema: + $comment: Use a full URI (not a relative reference) + type: string + format: uri + requestBodies: + RFC2557: + content: + multipart/related; type=text/html: + schema: + prefixItems: + - type: string + items: + anyOf: + - type: string + - $comment: To allow binary, this must always pass + prefixEncoding: + - contentType: text/html + headers: + Content-ID: + $ref: '#/components/headers/RFC2557NoContentId' + Content-Location: + $ref: '#/components/headers/RFC2557ContentLocation' + itemEncoding: + contentType: text/css,text/javascript,image/* + headers: + Content-ID: + $ref: '#/components/headers/RFC2557NoContentId' + Content-Location: + $ref: '#/components/headers/RFC2557ContentLocation' +``` + +##### Example: Streaming Multipart + +This example assumes a device that takes large sets of pictures and streams them to the caller. +Unlike the previous example, we use `itemSchema` here because the expectation is that each image is processed as it arrives (or in small batches), since we know that buffering the entire stream will take too much memory. + +```yaml +multipart/mixed: + itemSchema: + $comment: A single data image from the device + itemEncoding: + contentType: image/jpg +``` + +##### Example: Streaming Byte Ranges + +For `multipart/byteranges` [[RFC9110]] [Section 14.6](https://www.rfc-editor.org/rfc/rfc9110.html#section-14.6), a `Content-Range` header is required: + +See [Appendix D](appendix-d-serializing-headers-and-cookies) for an explanation of why `content: {text/plain: {...}}` is used to describe the header value. + +```yaml +multipart/byteranges: + itemSchema: + $comment: A single range of bytes from a video + itemEncoding: + contentType: video/mp4 + headers: + Content-Range: + required: true + content: + text/plain: + schema: + # The `pattern` regular expression that would + # be included in practice is omitted for simplicity + type: string +``` + +##### Example: Nested `multipart/mixed` + +This defines a two-part `multipart/mixed` where the first part is a JSON array and the second part is a nested `multipart/mixed` document. +The nested parts are XML, plain text, and a PNG image. + +```yaml +multipart/mixed: + schema: + type: array + prefixItems: + - type: array + - type: array + prefixItems: + - type: object + - type: string + - {} + prefixEncoding: + - {} # Accept the default application/json + - contentType: multipart/mixed + prefixEncoding: + - contentType: application/xml + - {} # Accept the default text/plain + - contentType: image/png +``` + +### Responses Object + +A container for the expected responses of an operation. +The container maps a HTTP response code to the expected response. + +The documentation is not necessarily expected to cover all possible HTTP response codes because they may not be known in advance. +However, documentation is expected to cover a successful operation response and any known errors. + +The `default` MAY be used as a default Response Object for all HTTP codes +that are not covered individually by the Responses Object. + +The Responses Object MUST contain at least one response code, and if only one +response code is provided it SHOULD be the response for a successful operation +call. + +#### Fixed Fields + +| Field Name | Type | Description | +| ---- | :----: | ---- | +| default | [Response Object](#response-object) \| [Reference Object](#reference-object) | The documentation of responses other than the ones declared for specific HTTP response codes. Use this field to cover undeclared responses. | + +#### Patterned Fields + +| Field Pattern | Type | Description | +| ---- | :----: | ---- | +| [HTTP Status Code](#http-status-codes) | [Response Object](#response-object) \| [Reference Object](#reference-object) | Any [HTTP status code](#http-status-codes) can be used as the property name, but only one property per code, to describe the expected response for that HTTP status code. This field MUST be enclosed in quotation marks (for example, "200") for compatibility between JSON and YAML. To define a range of response codes, this field MAY contain the uppercase wildcard character `X`. For example, `2XX` represents all response codes between `200` and `299`. Only the following range definitions are allowed: `1XX`, `2XX`, `3XX`, `4XX`, and `5XX`. If a response is defined using an explicit code, the explicit code definition takes precedence over the range definition for that code. | + +This object MAY be extended with [Specification Extensions](#specification-extensions). + +#### HTTP Status Codes + +The HTTP Status Codes are used to indicate the status of the executed operation. +Status codes SHOULD be selected from the available status codes registered in the [IANA Status Code Registry](https://www.iana.org/assignments/http-status-codes/http-status-codes.xhtml). + +#### Responses Object Example + +A 200 response for a successful operation and a default response for others (implying an error): + +```yaml +'200': + description: a pet to be returned + content: + application/json: + schema: + $ref: '#/components/schemas/Pet' +default: + description: Unexpected error + content: + application/json: + schema: + $ref: '#/components/schemas/ErrorModel' +``` + +### Response Object + +Describes a single response from an API operation, including design-time, static +`links` to operations based on the response. + +#### Fixed Fields + +| Field Name | Type | Description | +| ---- | :----: | ---- | +| summary | `string` | A short summary of the meaning of the response. | +| description | `string` | A description of the response. [CommonMark syntax](https://spec.commonmark.org/) MAY be used for rich text representation. | +| headers | Map[`string`, [Header Object](#header-object) \| [Reference Object](#reference-object)] | Maps a header name to its definition. [RFC9110](https://www.rfc-editor.org/rfc/rfc9110.html#section-5.1) states header names are case-insensitive. If a response header is defined with the name `"Content-Type"`, it SHALL be ignored. | +| content | Map[`string`, [Media Type Object](#media-type-object) \| [Reference Object](#reference-object)] | A map containing descriptions of potential response payloads. The key is a media type or [media type range](https://www.rfc-editor.org/rfc/rfc9110.html#appendix-A) and the value describes it. For responses that match multiple keys, only the most specific key is applicable. e.g. `"text/plain"` overrides `"text/*"` | +| links | Map[`string`, [Link Object](#link-object) \| [Reference Object](#reference-object)] | A map of operations links that can be followed from the response. The key of the map is a short name for the link, following the naming constraints of the names for [Component Objects](#components-object). | + +This object MAY be extended with [Specification Extensions](#specification-extensions). + +#### Response Object Examples + +Response of an array of a complex type: + +```yaml +description: A complex object array response +content: + application/json: + schema: + type: array + items: + $ref: '#/components/schemas/VeryComplexType' +``` + +Response with a string type: + +```yaml +description: A simple string response +content: + text/plain: + schema: + type: string +``` + +Plain text response with headers: + +```yaml +description: A simple string response +content: + text/plain: + schema: + type: string + example: 'whoa!' +headers: + X-Rate-Limit-Limit: + description: The number of allowed requests in the current period + schema: + type: integer + X-Rate-Limit-Remaining: + description: The number of remaining requests in the current period + schema: + type: integer + X-Rate-Limit-Reset: + description: The number of seconds left in the current period + schema: + type: integer +``` + +Response with no return value: + +```yaml +description: object created +``` + +### Callback Object + +A map of possible out-of band callbacks related to the parent operation. +Each value in the map is a [Path Item Object](#path-item-object) that describes a set of requests that may be initiated by the API provider and the expected responses. +The key value used to identify the Path Item Object is an expression, evaluated at runtime, that identifies a URL to use for the callback operation. + +To describe incoming requests from the API provider independent from another API call, use the [`webhooks`](#oas-webhooks) field. + +#### Patterned Fields + +| Field Pattern | Type | Description | +| ---- | :----: | ---- | +| {expression} | [Path Item Object](#path-item-object) | A Path Item Object used to define a callback request and expected responses. A [complete example](https://learn.openapis.org/examples/v3.0/callback-example.html) is available. | + +This object MAY be extended with [Specification Extensions](#specification-extensions). + +#### Key Expression + +The key that identifies the [Path Item Object](#path-item-object) is a [runtime expression](#runtime-expressions) that can be evaluated in the context of a runtime HTTP request/response to identify the URL to be used for the callback request. +A simple example might be `$request.body#/url`. +However, using a [runtime expression](#runtime-expressions) the complete HTTP message can be accessed. +This includes accessing any part of a body that a JSON Pointer [RFC6901](https://tools.ietf.org/html/rfc6901) can reference. + +For example, given the following HTTP request: + +```http +POST /subscribe/myevent?queryUrl=https://clientdomain.com/stillrunning HTTP/1.1 +Host: example.org +Content-Type: application/json +Content-Length: 188 + +{ + "failedUrl": "https://clientdomain.com/failed", + "successUrls": [ + "https://clientdomain.com/fast", + "https://clientdomain.com/medium", + "https://clientdomain.com/slow" + ] +} +``` + +resulting in: + +```http +201 Created +Location: https://example.org/subscription/1 +``` + +The following examples show how the various expressions evaluate, assuming the callback operation has a path parameter named `eventType` and a query parameter named `queryUrl`. + +| Expression | Value | +| ---- | :---- | +| $url | | +| $method | POST | +| $request.path.eventType | myevent | +| $request.query.queryUrl | | +| $request.header.content-type | application/json | +| $request.body#/failedUrl | | +| $request.body#/successUrls/1 | | +| $response.header.Location | | + +#### Callback Object Examples + +The following example uses the user provided `queryUrl` query string parameter to define the callback URL. This is similar to a [webhook](#oas-webhooks), but differs in that the callback only occurs because of the initial request that sent the `queryUrl`. + +```yaml +myCallback: + '{$request.query.queryUrl}': + post: + requestBody: + description: Callback payload + content: + application/json: + schema: + $ref: '#/components/schemas/SomePayload' + responses: + '200': + description: callback successfully processed +``` + +The following example shows a callback where the server is hard-coded, but the query string parameters are populated from the `id` and `email` property in the request body. + +```yaml +transactionCallback: + 'http://notificationServer.com?transactionId={$request.body#/id}&email={$request.body#/email}': + post: + requestBody: + description: Callback payload + content: + application/json: + schema: + $ref: '#/components/schemas/SomePayload' + responses: + '200': + description: callback successfully processed +``` + +### Example Object + +An object grouping an internal or external example value with basic `summary` and `description` metadata. +The examples can show either data suitable for schema validation, or serialized data as required by the containing [Media Type Object](#media-type-object), [Parameter Object](#parameter-object), or [Header Object](#header-object). +This object is typically used in fields named `examples` (plural), and is a [referenceable](#reference-object) alternative to older `example` (singular) fields that do not support referencing or metadata. +The various fields and types of examples are explained in more detail under [Working With Examples](#working-with-examples). + +#### Fixed Fields + +| Field Name | Type | Description | +| ---- | :----: | ---- | +| summary | `string` | Short description for the example. | +| description | `string` | Long description for the example. [CommonMark syntax](https://spec.commonmark.org/) MAY be used for rich text representation. | +| dataValue | Any | An example of the data structure that MUST be valid according to the relevant [Schema Object](#schema-object). If this field is present, `value` MUST be absent. | +| serializedValue | `string` | An example of the serialized form of the value, including encoding and escaping as described under [Validating Examples](#validating-examples). If `dataValue` is present, then this field SHOULD contain the serialization of the given data. Otherwise, it SHOULD be the valid serialization of a data value that itself MUST be valid as described for `dataValue`. This field SHOULD NOT be used if the serialization format is JSON, as the data form is easier to work with. If this field is present, `value`, and `externalValue` MUST be absent. | +| externalValue | `string` | A URI that identifies the serialized example in a separate document, allowing for values not easily or readably expressed as a Unicode string. If `dataValue` is present, then this field SHOULD identify a serialization of the given data. Otherwise, the value SHOULD be the valid serialization of a data value that itself MUST be valid as described for `dataValue`. If this field is present, `serializedValue` and `value` MUST be absent. See also the rules for resolving [Relative References](#relative-references-in-api-description-uris). | +| value | Any | Embedded literal example. The `value` field and `externalValue` field are mutually exclusive. To represent examples of media types that cannot naturally be represented in JSON or YAML, use a string value to contain the example, escaping where necessary.

**Deprecated for non-JSON serialization targets:** Use `dataValue` and/or `serializedValue`, which both have unambiguous syntax and semantics, instead. | + +This object MAY be extended with [Specification Extensions](#specification-extensions). + +In all cases, the example value SHOULD be compatible with the schema of its associated value. +Tooling implementations MAY choose to validate compatibility automatically, and reject the example value(s) if incompatible. +See [Validating Examples](#validating-examples) for the exact meaning of "compatible" for each field in this Object. + +#### Working with Examples + +Example Objects can be used in [Parameter Objects](#parameter-object), [Header Objects](#header-object), and [Media Type Objects](#media-type-object). +In all three Objects, this is done through the `examples` (plural) field. +However, there are several other ways to provide examples: The `example` (singular) field that is mutually exclusive with `examples` in all three Objects, and two keywords (the deprecated singular `example` and the current plural `examples`, which takes an array of examples) in the [Schema Object](#schema-object) that appears in the `schema` field of all three Objects. +We will refer to the singular `example` field in the Parameter, Header, or Media Type Object, which has the same behavior as a single Example Object with only the `value` field, as the "shorthand `example`" field. +Each of these fields has slightly different considerations. + +##### JSON-Compatible and `value`-Safe Examples + +The `value` and the shorthand `example` field are intended to have the same _semantics_ as `serializedValue` (or `externalValue`), while allowing a more convenient _syntax_ when there is no difference between a JSON (or [JSON-compatible YAML](#format)) representation and the final serialized form. +When using this syntax for `application/json` or any `+json` media type, these fields effectively behave like `dataValue`, as the serialization is trivial, and they are safe to use. + +For data that consists of a single string, and a serialization target such as `text/plain` where the string is guaranteed to be serialized without any further escaping, these fields are also safe to use. + +For other serialization targets, the ambiguity of the phrase "naturally be represented in JSON or YAML," as well as past errors in the parameter style examples table, have resulted in inconsistencies in the support and usage of these fields. +In practice, this has resulted in the `value` and shorthand `example` fields having implementation-defined behavior for non-JSON targets; OAD authors SHOULD use other fields to ensure interoperability. + +##### Choosing Which Field(s) to Use + +Keeping in mind the caveats from the previous section, and that the shorthand `example` can be used in place of `value` if there is only one Example Object involved, use the following guidelines to determine which field to use. + +To show an example as it would be validated by a Schema Object: + +* Use the Schema Object's `examples` array (from JSON Schema draft 2020-12) if the intent is to keep the example with the validating schema. + * Use the Schema Object's `example` (singular) only if compatibility with OAS v3.0 or earlier is required. +* Use the Example Object's `dataValue` field if the intent is to associate the example with an example of its serialization, or if it is desirable to maintain it separately from the schema. + * Use the Example Object's `value` field only if compatibility with OAS v3.1 or earlier is needed and the value can be "naturally represented in JSON or YAML" without any changes (such as percent-encoding) between the validation-ready value and the serialized representation. + +To show an example as it would be serialized in order to construct an HTTP/1.1 message: + +* Use the Example Object's `serializedValue` if the serialization can be represented as a valid Unicode string, and there is no need to demonstrate the exact character encoding to be used. + * Use the string form of `value` only if compatibility with OAS v3.1 or earlier is needed. +* Use the Example Object's `externalValue` for all other values, or if it is desirable to maintain the example separately from the OpenAPI document. + +The `serializedValue` and `externalValue` fields both MUST show the serialized form of the data. +For Media Type Objects, this is a document of the appropriate media type, with any Encoding Object effects applied. +For Parameter and Header Objects using `schema` and `style` rather than a Media Type Object, see [Style Examples](#style-examples) for what constitutes a serialized value. + +##### Criteria for `serializedExample` + +A serialization can be represented as a valid Unicode string in `serializedValue` if any of the following are true of the serialization: + +* It is for a media type that supports a `charset` parameter that indicates any Unicode encoding (UTF-8, UTF-16, etc.), or any valid subset of such an encoding, such as US-ASCII. +* It is for a format (such as URIs or HTTP fields) or character-based media type that requires or defaults to a Unicode encoding, or any valid subset of such an encoding, such as US-ASCII, and this is not overridden by `charset`. +* It is for a compound format where all parts meet at least one of the above criteria, e.g. a `multipart/mixed` media type with parts that are `application/json` (a media type that defaults to UTF-8) and `application/xml; charset=utf-8` (a media type with an explicit `charset` parameter). + +In all of these cases, the conversion from the character set of the OAD (presumed to be UTF-8 as the only interoperable character set for JSON, and therefore also for JSON-compatible YAML as noted in [[RFC9512]] [Section 3.4](https://www.rfc-editor.org/rfc/rfc9512.html#section-3.4)) first to Unicode code points and then to the actual serialization character set is well-defined. + +For `externalValue`, if the character set is neither explicitly stated nor determined by the format or media type specification, implementations SHOULD assume UTF-8. + +##### Validating Examples + +Tooling implementations MAY choose to validate compatibility automatically, and reject the example value(s) if incompatible. +For examples that are in schema-ready data form, this is straightforward. + +With serialized examples, some formats allow multiple possible valid representations of the same data, including in scenarios noted in [Appendix B](#appendix-b-data-type-conversion). +In some cases, parsing the serialized example and validating the resulting data can eliminate the ambiguity, but in a few cases parsing is also ambiguous. +Therefore, OAD authors are cautioned that validation of certain serialized examples is by necessity a best-effort feature. + +#### Example Object Examples + +##### JSON Examples + +When writing in YAML, JSON syntax can be used for `dataValue` (as shown in the `noRating` example) but is not required. +While this example shows the behavior of both `dataValue` and `serializedValue` for JSON (in the 'withRating` example), in most cases only the data form is needed. + +```yaml +content: + application/json: + schema: + type: object + required: + - author + - title + properties: + author: + type: string + title: + type: string + rating: + type: number + minimum: 1 + maximum: 5 + multipleOf: 0.5 + examples: + noRating: + summary: A not-yet-rated work + dataValue: + author: A. Writer + title: The Newest Book + withRating: + summary: A work with an average rating of 4.5 stars + dataValue: + author: A. Writer + title: An Older Book + rating: 4.5 + serializedValue: | + { + "author": "A. Writer", + "title": "An Older Book", + "rating": 4.5 + } +``` + +##### Binary Examples + +Fully binary data is shown using `externalValue`: + +```yaml +content: + image/png: + schema: {} + examples: + Red: + externalValue: ./examples/2-by-2-red-pixels.png +``` + +##### Boolean Query Parameter Examples + +Since there is no standard for serializing boolean values (as discussed in [Appendix B](#appendix-b-data-type-conversion)), this example uses `dataValue` and `serializedValue` to show how booleans are serialized for this particular parameter: + +```yaml +name: flag +in: query +required: true +schema: + type: boolean +examples: + "true": + dataValue: true + serializedValue: flag=true + "false": + dataValue: false + serializedValue: flag=false +``` + +### Link Object + +The Link Object represents a possible design-time link for a response. +The presence of a link does not guarantee the caller's ability to successfully invoke it, rather it provides a known relationship and traversal mechanism between responses and other operations. + +Unlike _dynamic_ links (i.e. links provided **in** the response payload), the OAS linking mechanism does not require link information in the runtime response. + +For computing links and providing instructions to execute them, a [runtime expression](#runtime-expressions) is used for accessing values in an operation and using them as parameters while invoking the linked operation. + +#### Fixed Fields + +| Field Name | Type | Description | +| ---- | :----: | ---- | +| operationRef | `string` | A URI reference to an OAS operation. This field is mutually exclusive of the `operationId` field, and MUST point to an [Operation Object](#operation-object). Relative `operationRef` values MAY be used to locate an existing [Operation Object](#operation-object) in the OpenAPI Description. | +| operationId | `string` | The name of an _existing_, resolvable OAS operation, as defined with a unique `operationId`. This field is mutually exclusive of the `operationRef` field. | +| parameters | Map[`string`, Any \| [{expression}](#runtime-expressions)] | A map representing parameters to pass to an operation as specified with `operationId` or identified via `operationRef`. The key is the parameter name to be used (optionally qualified with the parameter location, e.g. `path.id` for an `id` parameter in the path), whereas the value can be a constant or an expression to be evaluated and passed to the linked operation. | +| requestBody | Any \| [{expression}](#runtime-expressions) | A literal value or [{expression}](#runtime-expressions) to use as a request body when calling the target operation. | +| description | `string` | A description of the link. [CommonMark syntax](https://spec.commonmark.org/) MAY be used for rich text representation. | +| server | [Server Object](#server-object) | A server object to be used by the target operation. | + +This object MAY be extended with [Specification Extensions](#specification-extensions). + +A linked operation MUST be identified using either an `operationRef` or `operationId`. +The identified or referenced operation MUST be unique, and in the case of an `operationId`, it MUST be resolved within the scope of the OpenAPI Description (OAD). +Because of the potential for name clashes, the `operationRef` syntax is preferred for multi-document OADs. +However, because use of an operation depends on its URL path template in the [Paths Object](#paths-object), operations from any [Path Item Object](#path-item-object) that is referenced multiple times within the OAD cannot be resolved unambiguously. +In such ambiguous cases, the resulting behavior is implementation-defined and MAY result in an error. + +Note that it is not possible to provide a constant value to `parameters` that matches the syntax of a runtime expression. +It is possible to have ambiguous parameter names, e.g. `name: "id", in: "path"` and `name: "path.id", in: "query"`; this is NOT RECOMMENDED and the behavior is implementation-defined, however implementations SHOULD prefer the qualified interpretation (`path.id` as a path parameter), as the names can always be qualified to disambiguate them (e.g. using `query.path.id` for the query parameter). + +#### Examples + +Computing a link from a request operation where the `$request.path.id` is used to pass a request parameter to the linked operation. + +```yaml +paths: + /users/{id}: + parameters: + - name: id + in: path + required: true + description: the user identifier, as userId + schema: + type: string + get: + responses: + '200': + description: the user being returned + content: + application/json: + schema: + type: object + properties: + uuid: # the unique user id + type: string + format: uuid + links: + address: + # the target link operationId + operationId: getUserAddress + parameters: + # get the `id` field from the request path parameter named "id" + userid: $request.path.id + # the path item of the linked operation + /users/{userid}/address: + parameters: + - name: userid + in: path + required: true + description: the user identifier, as userId + schema: + type: string + # linked operation + get: + operationId: getUserAddress + responses: + '200': + description: the user's address +``` + +When a runtime expression fails to evaluate, no parameter value is passed to the target operation. + +Values from the response body can be used to drive a linked operation. + +```yaml +links: + address: + operationId: getUserAddressByUUID + parameters: + # get the `uuid` field from the `uuid` field in the response body + userUuid: $response.body#/uuid +``` + +Clients follow all links at their discretion. +Neither permissions nor the capability to make a successful call to that link is guaranteed +solely by the existence of a relationship. + +##### `operationRef` Examples + +As the `operationId` is an optional field in an [Operation Object](#operation-object), references MAY instead be made through a URI reference with `operationRef`. +Note that both of these examples reference operations that can be identified via the [Paths Object](#paths-object) to ensure that the operation's path template is unambiguous. + +A relative URI reference `operationRef`: + +```yaml +links: + UserRepositories: + # returns array of '#/components/schemas/repository' + operationRef: '#/paths/~12.0~1repositories~1%7Busername%7D/get' + parameters: + username: $response.body#/username +``` + +A non-relative URI `operationRef`: + +```yaml +links: + UserRepositories: + # returns array of '#/components/schemas/repository' + operationRef: https://na2.gigantic-server.com/#/paths/~12.0~1repositories~1%7Busername%7D/get + parameters: + username: $response.body#/username +``` + +Note that in the use of `operationRef` the _escaped forward-slash_ (`~1`) is necessary when +using JSON Pointer in URI fragments, and it is necessary to URL-encode `{` and `}` as `%7B` and `%7D`, respectively. +The unescaped, percent-decoded path template in the above examples would be `/2.0/repositories/{username}`. + +#### Runtime Expressions + +Runtime expressions allow defining values based on information that will only be available within the HTTP message in an actual API call. +This mechanism is used by [Link Objects](#link-object) and [Callback Objects](#callback-object). + +The runtime expression is defined by the following [ABNF](https://tools.ietf.org/html/rfc5234) syntax + +```abnf + expression = "$url" / "$method" / "$statusCode" / "$request." source / "$response." source + source = header-reference / query-reference / path-reference / body-reference + header-reference = "header." token + query-reference = "query." name + path-reference = "path." name + body-reference = "body" ["#" json-pointer ] + json-pointer = *( "/" reference-token ) + reference-token = *( unescaped / escaped ) + unescaped = %x00-2E / %x30-7D / %x7F-10FFFF + ; %x2F ('/') and %x7E ('~') are excluded from 'unescaped' + escaped = "~" ( "0" / "1" ) + ; representing '~' and '/', respectively + name = *char + token = 1*tchar + tchar = "!" / "#" / "$" / "%" / "&" / "'" / "*" / "+" / "-" / "." + / "^" / "_" / "`" / "|" / "~" / DIGIT / ALPHA +``` + +Here, `json-pointer` is taken from [RFC6901](https://tools.ietf.org/html/rfc6901), `char` from [RFC8259](https://tools.ietf.org/html/rfc8259#section-7) and `token` from [RFC9110](https://www.rfc-editor.org/rfc/rfc9110.html#section-5.6.2). + +The `name` identifier is case-sensitive, whereas `token` is not. + +The table below provides examples of runtime expressions and examples of their use in a value: + +##### Example Expressions + +| Source Location | example expression | notes | +| ---- | :---- | :---- | +| HTTP Method | `$method` | The allowable values for the `$method` will be those for the HTTP operation. | +| Requested media type | `$request.header.accept` | | +| Request parameter | `$request.path.id` | Request parameters MUST be declared in the `parameters` section of the parent operation or they cannot be evaluated. This includes request headers. | +| Request body property | `$request.body#/user/uuid` | In operations which accept payloads, references may be made to portions of the `requestBody` or the entire body. | +| Request URL | `$url` | | +| Response value | `$response.body#/status` | In operations which return payloads, references may be made to portions of the response body or the entire body. | +| Response header | `$response.header.Server` | Single header values only are available | + +Runtime expressions preserve the type of the referenced value. +Expressions can be embedded into string values by surrounding the expression with `{}` curly braces. + +### Header Object + +Describes a single header for [HTTP responses](#response-headers) and for [individual parts in `multipart` representations](#encoding-headers); see the relevant [Response Object](#response-object) and [Encoding Object](#encoding-object) documentation for restrictions on which headers can be described. + +The Header Object follows the structure of the [Parameter Object](#parameter-object), including determining its serialization strategy based on whether `schema` or `content` is present, with the following changes: + +1. `name` MUST NOT be specified, it is given in the corresponding `headers` map. +1. `in` MUST NOT be specified, it is implicitly in `header`. +1. All traits that are affected by the location MUST be applicable to a location of `header` (for example, [`style`](#parameter-style)). This means that `allowEmptyValue` MUST NOT be used, and `style`, if used, MUST be limited to `"simple"`. + +#### Fixed Fields + +##### Common Fixed Fields + +These fields MAY be used with either `content` or `schema`. + +The `example` and `examples` fields are mutually exclusive; see [Working with Examples](#working-with-examples) for guidance on validation requirements. + +| Field Name | Type | Description | +| ---- | :----: | ---- | +| description | `string` | A brief description of the header. This could contain examples of use. [CommonMark syntax](https://spec.commonmark.org/) MAY be used for rich text representation. | +| required | `boolean` | Determines whether this header is mandatory. The default value is `false`. | +| deprecated | `boolean` | Specifies that the header is deprecated and SHOULD be transitioned out of usage. Default value is `false`. | +| example | Any | Example of the header's potential value; see [Working With Examples](#working-with-examples). | +| examples | Map[ `string`, [Example Object](#example-object) \| [Reference Object](#reference-object)] | Examples of the header's potential value; see [Working With Examples](#working-with-examples). | + +This object MAY be extended with [Specification Extensions](#specification-extensions). + +##### Fixed Fields for use with `schema` + +For simpler scenarios, a [`schema`](#header-schema) and [`style`](#header-style) can describe the structure and syntax of the header. + +When serializing headers with `schema`, URI percent-encoding MUST NOT be applied; if using an RFC6570 implementation that automatically applies it, it MUST be removed before use. +Implementations MUST pass header values through unchanged rather than attempting to automatically quote header values, as the quoting rules vary too widely among different headers; see [Appendix D](#appendix-d-serializing-headers-and-cookies) for guidance on quoting and escaping. + +| Field Name | Type | Description | +| ---- | :----: | ---- | +| style | `string` | Describes how the header value will be serialized. The default (and only legal value for headers) is `"simple"`. | +| explode | `boolean` | When this is true, header values of type `array` or `object` generate a single header whose value is a comma-separated list of the array items or key-value pairs of the map, see [Style Examples](#style-examples). For other data types this field has no effect. The default value is `false`. | +| schema | [Schema Object](#schema-object) | The schema defining the type used for the header. | + +See also [Appendix C: Using RFC6570-Based Serialization](#appendix-c-using-rfc6570-based-serialization) for additional guidance. + +##### Fixed Fields for use with `content` + +For more complex scenarios, the [`content`](#header-content) field can define the media type and schema of the header, as well as give examples of its use. + +| Field Name | Type | Description | +| ---- | :----: | ---- | +| content | Map[`string`, [Media Type Object](#media-type-object) \| [Reference Object](#reference-object)] | A map containing the representations for the header. The key is the media type and the value describes it. The map MUST only contain one entry. | + +#### Modeling Link Headers + +[[!RFC9264]] defines the `application/linkset` and `application/linkset+json` media types. +The former is exactly the format of HTTP link header values except allowing additional whitespace for readability, while the latter is an equivalent JSON representation of such headers. + +To use either of these media types, the `schema` in the [Media Type Object](#media-type-object) MUST describe the links as they would be structured in the `application/linkset+json` format. +If the Media Type Object's parent key is `application/linkset+json`, then the serialization is trivial, however this format cannot be used in the HTTP `Link` header. +If the Media Type Object's parent key is `application/linkset`, then the serialization MUST be the equivalent representation of the `schema`-modeled links in the `application/linkset` format. +If the `application/linkset` Media Type Object is used in the `content` field of a Header Object (or a Parameter Object with `in: "header"`), the serialization MUST be made compatible with the HTTP field syntax as described by [[!RFC9264]] [Section 4.1](https://www.rfc-editor.org/rfc/rfc9264.html#name-http-link-document-format-a). + +The following example shows how the same data model can be used for a collection pagination linkset either in JSON format as message content, or in the HTTP `Link` header: + +```yaml +components: + schemas: + SimpleLinkContext: + type: array + items: + type: object + required: + - href + properties: + href: + type: string + format: uri-reference + CollectionLinks: + type: object + required: + - linkset + properties: + linkset: + type: array + items: + type: object + required: [first, prev, next, last] + properties: + anchor: + type: string + format: uri + additionalProperties: + $ref: '#/components/schemas/SimpleLinkContext' + responses: + CollectionWithLinks: + content: + application/json: + schema: + type: array + headers: + Link: + required: true + content: + application/linkset: + schema: + $ref: '#/components/schemas/CollectionLinks' + StandaloneJsonLinkset: + content: + application/linkset+json: + schema: + $ref: '#/components/mediaTypes/CollectionLinks' +``` + +#### Representing the `Set-Cookie` Header + +The `Set-Cookie` header is noted in [[!RFC9110]] [Section 5.3](https://www.rfc-editor.org/rfc/rfc9110.html#section-5.3) as an exception to the normal rules of headers with multiple values. + +For most headers using the general syntax defined in RFC9110, the multiple-line and comma-separated single-line forms are interchangeable, meaning that this: + +```http +Accept-Encoding: compress;q=0.5 +Accept-Encoding: gzip;q=1.0 +``` + +is interchangeable with the one-line form that works well with the OAS's `style: "simple"` option: + +```http +Accept-Encoding: compress;q=0.5,gzip;q=1.0 +``` + +The OAS models such multi-value headers using the one-line form as it matches the behavior of `style: "simple"`, and works well when using `content` as the values are completely separate from the header name, but it does not matter which form is used in an actual HTTP message. + +As also noted in the RFC, `Set-Cookie` is an exception as it allows unquoted, non-escaped commas in its values, and can only use the one-value-per-line form. +For HTTP messages, this is purely a serialization concern, and no more of a problem than a message that uses the multi-line form of any other header. + +However, because examples and values modeled with `content` do not incorporate the header name, for these fields `Set-Cookie` MUST be handled by placing each value on a separate line, without the header name or the `:` delimiter. + +Note also that any URI percent-encoding, base64 encoding, or other escaping MUST be performed prior to supplying the data to OAS tooling; see [Appendix D](appendix-d-serializing-headers-and-cookies) for details. + +The following example shows two different ways to describe `Set-Cookie` headers that require cookies named `"lang"` and `"foo"`, as well as a `"urlSafeData"` cookie that is expected to be percent-encoded. The first uses `content` in order to show exactly how such examples are formatted, but also notes the limitations of schema constraints with multi-line text. The second shows the use of `style: "simple"`, which produces the same serialized example text (with each line corresponding to one `Set-Cookie:` line in the HTTP response), but allows schema constraints on each cookie; note that the percent-encoding is already applied in the `dataValue` field of the example: + +```yaml +components: + headers: + SetCookieWithContent: + content: + text/plain: + schema: + # Due to lack of support for multiline regular expressions + # in the `pattern` keyword, not much validation can be done. + type: string + examples: + WithExpires: + # This demonstrates that the text is required to be provided + # in the final format, and is not changed by serialization. + # In practice, it is not necessary to show both value fields. + # Note that only the comma (%2C) would need to be percent-encoded + # if percent-encoding were only being done to make the value + # a valid cookie, as space (%20) and the exclamation point (%21) + # are allowed in cookies, but not in URLs. See the cookie + # input parameter examples for an example of encoding only + # what is needed for the cookie syntax. + dataValue: | + lang=en-US; Expires=Wed, 09 Jun 2021 10:18:14 GMT + foo=bar; Expires=Wed, 09 Jun 2021 10:18:14 GMT + urlSafeData: Hello%2C%20world%21 + serializedValue: | + lang=en-US; Expires=Wed, 09 Jun 2021 10:18:14 GMT + foo=bar; Expires=Wed, 09 Jun 2021 10:18:14 GMT + urlSafeData: Hello%2C%20world%21 + SetCookieWithSchemaAndStyle: + schema: + type: object + required: + - lang + - foo + - urlSafeData + properties: + urlSafeData: + type: string + pattern: ^[-_.%a-zA-Z0-9]+(;|$) + additionalProperties: + $comment: Require an Expires parameter + pattern: "; *Expires=" + style: simple + explode: true + examples: + SetCookies: + dataValue: { + "lang": "en-US; Expires=Wed, 09 Jun 2021 10:18:14 GMT" + "foo": "bar; Expires=Wed, 09 Jun 2021 10:18:14 GMT" + "urlSafeData": "Hello%2C%20world%21" + } + serializedValue: | + lang=en-US; Expires=Wed, 09 Jun 2021 10:18:14 GMT + foo=bar; Expires=Wed, 09 Jun 2021 10:18:14 GMT + urlSafeData: Hello%2C%20world%21 +``` + +In an HTTP message, the serialized example would look like: + +```http +Set-Cookie: lang=en-US; Expires=Wed, 09 Jun 2021 10:18:14 GM +Set-Cookie: foo=bar; Expires=Wed, 09 Jun 2021 10:18:14 GMT +Set-Cookie: urlSafeData=Hello%2C%20world%21 +``` + +#### Header Object Example + +A simple header of type `integer`: + +```yaml +X-Rate-Limit-Limit: + description: The number of allowed requests in the current period + schema: + type: integer +``` + +Requiring that a strong `ETag` header (with a value starting with `"` rather than `W/`) is present. + +```yaml +ETag: + required: true + schema: + type: string + # Note that quotation marks are part of the + # ETag value, unlike many other headers that + # use a quoted string purely for managing + # reserved characters. + pattern: ^" + example: '"xyzzy"' +``` + +### Tag Object + +Adds metadata to a single tag that is used by the [Operation Object](#operation-object). +It is not mandatory to have a Tag Object per tag defined in the Operation Object instances. + +#### Fixed Fields + +| Field Name | Type | Description | +| ---- | :----: | ---- | +| name | `string` | **REQUIRED**. The name of the tag. Use this value in the `tags` array of an Operation. | +| summary | `string` | A short summary of the tag, used for display purposes. | +| description | `string` | A description for the tag. [CommonMark syntax](https://spec.commonmark.org/) MAY be used for rich text representation. | +| externalDocs | [External Documentation Object](#external-documentation-object) | Additional external documentation for this tag. | +| parent | `string` | The `name` of a tag that this tag is nested under. The named tag MUST exist in the API description, and circular references between parent and child tags MUST NOT be used. | +| kind | `string` | A machine-readable string to categorize what sort of tag it is. Any string value can be used; common uses are `nav` for Navigation, `badge` for visible badges, `audience` for APIs used by different groups. A [registry of the most commonly used values](https://spec.openapis.org/registry/tag-kind/) is available. | + +This object MAY be extended with [Specification Extensions](#specification-extensions). + +#### Tag Object Example + +```yaml +tags: + - name: account-updates + summary: Account Updates + description: Account update operations + kind: nav + + - name: partner + summary: Partner + description: Operations available to the partners network + parent: external + kind: audience + + - name: external + summary: External + description: Operations available to external consumers + kind: audience +``` + +### Reference Object + +A simple object to allow referencing other components in the OpenAPI Description, internally and externally. + +The `$ref` string value contains a URI [RFC3986](https://tools.ietf.org/html/rfc3986), which identifies the value being referenced. + +See the rules for resolving [Relative References](#relative-references-in-api-description-uris). + +#### Fixed Fields + +| Field Name | Type | Description | +| ---- | :----: | ---- | +| $ref | `string` | **REQUIRED**. The reference identifier. This MUST be in the form of a URI. | +| summary | `string` | A short summary which by default SHOULD override that of the referenced component. If the referenced object-type does not allow a `summary` field, then this field has no effect. | +| description | `string` | A description which by default SHOULD override that of the referenced component. [CommonMark syntax](https://spec.commonmark.org/) MAY be used for rich text representation. If the referenced object-type does not allow a `description` field, then this field has no effect. | + +This object cannot be extended with additional properties, and any properties added SHALL be ignored. + +Note that this restriction on additional properties is a difference between Reference Objects and [Schema Objects](#schema-object) that contain a `$ref` keyword. + +#### Reference Object Example + +```yaml +$ref: '#/components/schemas/Pet' +``` + +#### Relative Schema Document Example + +```yaml +$ref: Pet.yaml +``` + +#### Relative Documents with Embedded Schema Example + +```yaml +$ref: definitions.yaml#/Pet +``` + +### Schema Object + +The Schema Object allows the definition of input and output data types. +These types can be objects, but also primitives and arrays. This object is a superset of the [JSON Schema Specification Draft 2020-12](https://www.ietf.org/archive/id/draft-bhutton-json-schema-01.html). The empty schema (which allows any instance to validate) MAY be represented by the boolean value `true` and a schema which allows no instance to validate MAY be represented by the boolean value `false`. + +For more information about the keywords, see [JSON Schema Core](https://www.ietf.org/archive/id/draft-bhutton-json-schema-01.html) and [JSON Schema Validation](https://www.ietf.org/archive/id/draft-bhutton-json-schema-validation-01.html). + +Unless stated otherwise, the keyword definitions follow those of JSON Schema and do not add any additional semantics; this includes keywords such as `$schema`, `$id`, `$ref`, and `$dynamicRef` being URIs rather than URLs. +Where JSON Schema indicates that behavior is defined by the application (e.g. for annotations), OAS also defers the definition of semantics to the application consuming the OpenAPI document. + +#### JSON Schema Keywords + +The OpenAPI Schema Object [dialect](https://www.ietf.org/archive/id/draft-bhutton-json-schema-01.html#section-4.3.3) is defined as requiring the [OAS base vocabulary](#base-vocabulary), in addition to the vocabularies as specified in the JSON Schema Specification Draft 2020-12 [general purpose meta-schema](https://www.ietf.org/archive/id/draft-bhutton-json-schema-01.html#section-8). + +The OpenAPI Schema Object dialect for this version of the specification is identified by the URI `https://spec.openapis.org/oas/3.1/dialect/base` (the "OAS dialect schema id"). + +The following keywords are taken from the JSON Schema specification but their definitions have been extended by the OAS: + +* description - [CommonMark syntax](https://spec.commonmark.org/) MAY be used for rich text representation. +* format - See [Data Type Formats](#data-type-format) for further details. While relying on JSON Schema's defined formats, the OAS offers a few additional predefined formats. + +In addition to the JSON Schema keywords comprising the OAS dialect, the Schema Object supports keywords from any other vocabularies, or entirely arbitrary properties. + +JSON Schema implementations MAY choose to treat keywords defined by the OpenAPI Specification's base vocabulary as [unknown keywords](https://www.ietf.org/archive/id/draft-bhutton-json-schema-01.html#section-4.3.1), due to its inclusion in the OAS dialect with a [`$vocabulary`](https://www.ietf.org/archive/id/draft-bhutton-json-schema-01.html#section-8.1.2) value of `false`. +The OAS base vocabulary is comprised of the following keywords: + +#### Fixed Fields + +| Field Name | Type | Description | +| ---- | :----: | ---- | +| discriminator | [Discriminator Object](#discriminator-object) | The discriminator provides a "hint" for which of a set of schemas a payload is expected to satisfy. See [Composition and Inheritance](#composition-and-inheritance-polymorphism) for more details. | +| xml | [XML Object](#xml-object) | Adds additional metadata to describe the XML representation of this schema. | +| externalDocs | [External Documentation Object](#external-documentation-object) | Additional external documentation for this schema. | +| example | Any | A free-form field to include an example of an instance for this schema. To represent examples that cannot be naturally represented in JSON or YAML, a string value can be used to contain the example with escaping where necessary.

**Deprecated:** The `example` field has been deprecated in favor of the JSON Schema `examples` keyword. Use of `example` is discouraged, and later versions of this specification may remove it. | + +This object MAY be extended with [Specification Extensions](#specification-extensions), though as noted, additional properties MAY omit the `x-` prefix within this object. + +#### Data Types + +Data types in the OAS are based on the types defined by the [JSON Schema Validation Specification Draft 2020-12](https://www.ietf.org/archive/id/draft-bhutton-json-schema-validation-01.html#section-6.1.1): +"null", "boolean", "object", "array", "number", "string", or "integer". +Models are defined using the [Schema Object](#schema-object), which is a superset of the JSON Schema Specification Draft 2020-12. + +JSON Schema keywords and `format` values operate on JSON "instances" which may be one of the six JSON data types, "null", "boolean", "object", "array", "number", or "string", with certain keywords and formats only applying to a specific type. For example, the `pattern` keyword and the `date-time` format only apply to strings, and treat any instance of the other five types as _automatically valid._ This means JSON Schema keywords and formats do **NOT** implicitly require the expected type. Use the `type` keyword to explicitly constrain the type. + +Note that the `type` keyword allows `"integer"` as a value for convenience, but keyword and format applicability does not recognize integers as being of a distinct JSON type from other numbers because [[RFC8259|JSON]] itself does not make that distinction. Since there is no distinct JSON integer type, JSON Schema defines integers mathematically. This means that both `1` and `1.0` are [equivalent](https://www.ietf.org/archive/id/draft-bhutton-json-schema-01.html#section-4.2.2), and are both considered to be integers. + +##### Data Type Format + +As defined by the [JSON Schema Validation specification](https://www.ietf.org/archive/id/draft-bhutton-json-schema-validation-01.html#section-7.3), data types can have an optional modifier keyword: `format`. As described in that specification, `format` is treated as a non-validating annotation by default; the ability to validate `format` varies across implementations. + +The OpenAPI Initiative also hosts a [Format Registry](https://spec.openapis.org/registry/format/) for formats defined by OAS users and other specifications. Support for any registered format is strictly OPTIONAL, and support for one registered format does not imply support for any others. + +Types that are not accompanied by a `format` keyword follow the type definition in the JSON Schema. Tools that do not recognize a specific `format` MAY default back to the `type` alone, as if the `format` is not specified. +For the purpose of [JSON Schema validation](https://www.ietf.org/archive/id/draft-bhutton-json-schema-validation-01.html#section-7.1), each format should specify the set of JSON data types for which it applies. In this registry, these types are shown in the "JSON Data Type" column. + +The formats defined by the OAS are: + +| `format` | JSON Data Type | Comments | +| ---- | ---- | ---- | +| `int32` | number | signed 32 bits | +| `int64` | number | signed 64 bits (a.k.a long) | +| `float` | number | | +| `double` | number | | +| `password` | string | A hint to obscure the value. | + +As noted under [Data Type](#data-types), both `type: number` and `type: integer` are considered to be numbers in the data model. + +#### Parsing and Serializing + +API data has several forms: + +1. The serialized form, which is either a document of a particular media type, an HTTP header value, or part of a URI. +2. The data form, intended for use with a [Schema Object](#schema-object). +3. The application form, which incorporates any additional information conveyed by JSON Schema keywords such as `format` and `contentType`, and possibly additional information such as class hierarchies that are beyond the scope of this specification, although they MAY be based on specification elements such as the [Discriminator Object](#discriminator-object) or guidance regarding [Data Modeling Techniques](#data-modeling-techniques). + +##### JSON Data + +JSON-serialized data is nearly equivalent to the data form because the [JSON Schema data model](https://www.ietf.org/archive/id/draft-bhutton-json-schema-01.html#section-4.2.1) is nearly equivalent to the JSON representation. +The serialized UTF-8 JSON string `{"when": "1985-04-12T23:20:50.52"}` represents an object with one data field, named `when`, with a string value, `1985-04-12T23:20:50.52`. + +The exact application form is beyond the scope of this specification, as can be shown with the following schema for our JSON instance: + +```yaml +type: object +properties: + when: + type: string + format: date-time +``` + +Some applications might leave the string as a string regardless of programming language, while others might notice the `format` and use it as a `datetime.datetime` instance in Python, or a `java.time.ZonedDateTime` in Java. +This specification only requires that the data is valid according to the schema, and that [annotations](#extended-validation-with-annotations) such as `format` are available in accordance with the JSON Schema specification. + +##### Non-JSON Data + +Non-JSON serializations can be substantially different from their corresponding data form, and might require several steps to parse. + +To continue our "when" example, if we serialized the object as `application/x-www-form-urlencoded`, it would appear as the ASCII string `when=1985-04-12T23%3A20%3A50.52`. +This example is still straightforward to use as it is all string data, and the only differences from JSON are the URI percent-encoding and the delimiter syntax (`=` instead of JSON punctuation and quoting). + +However, many non-JSON text-based formats can be complex, requiring examination of the appropriate schema(s) in order to correctly parse the text into a schema-ready data structure. +Serializing data into such formats requires either examining the schema-validated data or performing the same schema inspections. + +When inspecting schemas, given a starting point schema, implementations MUST examine that schema and all schemas that can be reached from it by following only `$ref` and `allOf` keywords. +These schemas are guaranteed to apply to any instance. +When searching schemas for `type`, if the `type` keyword's value is a list of types and the serialized value can be successfully parsed as more than one of the types in the list, and no other findable `type` keyword disambiguates the actual required type, the behavior is implementation-defined. +Schema Objects that do not contain `type` MUST be considered to allow all types, regardless of which other keywords are present (e.g. `maximum` applies to numbers, but _does not_ require the instance to be a number). + +Implementations MAY inspect subschemas or possible reference targets of other keywords such as `oneOf` or `$dynamicRef`, but MUST NOT attempt to resolve ambiguities. +For example, if an implementation opts to inspect `anyOf`, the schema: + +```yaml +anyOf: +- type: number + minimum: 0 +- type: number + maximum: 100 +``` + +unambiguously indicates a numeric type, but the schema: + +```yaml +anyOf: +- type: number +- maximum: 100 +``` + +does not, because the second subschema allows all types. + +Due to these limited requirements for searching schemas, serializers that have access to validated data MUST inspect the data if possible; implementations that either do not work with runtime data (such as code generators) or cannot access validated data for some reason MUST fall back to schema inspection. + +Recall also that in JSON Schema, keywords that apply to a specific type (e.g. `pattern` applies to strings, `minimum` applies to numbers) _do not_ require or imply that the data will actually be of that type. + +As an example of these processes, given these OpenAPI components: + +```yaml +components: + requestBodies: + Form: + content: + application/x-www-form-urlencoded: + schema: + $ref: "#/components/schemas/FormData" + encoding: + extra: + contentType: application/xml + schemas: + FormData: + type: object + properties: + code: + allOf: + - type: [string, number] + pattern: "1" + minimum: 0 + - type: string + pattern: "2" + count: + type: integer + extra: + type: object +``` + +And this request body to parse into its data form: + +```uri +code=1234&count=42&extra=%3Cinfo%3Eabc%3C/info%3E +``` + +We must first search the schema for `properties` or other property-defining keywords, and then use each property schema as a starting point for a search for that property's `type` keyword, as follows (the exact order is implementation-defined): + +* `#/components/requestBodies/Form/content/application~1x-www-form-urlencoded/schema` (initial starting point schema, only `$ref`) +* `#/components/schemas/FormData` (follow `$ref`, found `properties`) +* `#/components/schemas/FormData/properties/code` (starting point schema for `code` property) +* `#/components/schemas/FormData/properties/code/allOf/0` (follow `allOf`, found `type: [string, number]`) +* `#/components/schemas/FormData/properties/code/allOf/1` (follow `allOf`, found `type: string`) +* `#/components/schemas/FormData/properties/count` (starting point schema for `count` property, found `type: integer`) +* `#/components/schemas/FormData/properties/extra` (starting point schema for `extra` property, found `type: object`) + +Note that for `code` we first found an ambiguous `type`, but then found another `type` keyword that ensures only one of the two possibilities is valid. + +From this inspection, we determine that `code` is a string that happens to look like a number, while `count` needs to be parsed into a number _prior_ to schema validation. +Furthermore, the `extra` string is in fact an XML serialization of an object containing an `info` property. +This means that the data form of this serialization is equivalent to the following JSON object: + +```json +{ + "code": "1234", + "count": 42 + "extra": { + "info": "abc" + } +} +``` + +Serializing this object also requires correlating properties with [Encoding Objects](#encoding-object), and may require inspection to determine a default value of the `contentType` field. +If validated data is not available, the schema inspection process is identical to that shown for parsing. + +In this example, both `code` and `count` are of primitive type and do not appear in the `encoding` field, and are therefore serialized as plain text. +However, the `extra` field is an object, which would by default be serialized as JSON, but the `extra` entry in the `encoding` field tells use to serialize it as XML instead. + +##### Working with Binary Data + +The OAS can describe either _raw_ or _encoded_ binary data. + +* **raw binary** is used where unencoded binary data is allowed, such as when sending a binary payload as the entire HTTP message body, or as part of a `multipart/*` payload that allows binary parts +* **encoded binary** is used where binary data is embedded in a text-only format such as `application/json` or `application/x-www-form-urlencoded` (either as a message body or in the URL query string). + +In the following table showing how to use Schema Object keywords for binary data, we use `image/png` as an example binary media type. Any binary media type, including `application/octet-stream`, is sufficient to indicate binary content. + +| Keyword | Raw | Encoded | Comments | +| ---- | ---- | ---- | ---- | +| `type` | _omit_ | `string` | raw binary is [outside of `type`](https://www.ietf.org/archive/id/draft-bhutton-json-schema-01.html#section-4.2.3) | +| `contentMediaType` | `image/png` | `image/png` | can sometimes be omitted if redundant (see below) | +| `contentEncoding` | _omit_ | `base64` or `base64url` | other encodings are [allowed](https://www.ietf.org/archive/id/draft-bhutton-json-schema-validation-01.html#section-8.3) | + +Note that the encoding indicated by `contentEncoding`, which inflates the size of data in order to represent it as 7-bit ASCII text, is unrelated to HTTP's `Content-Encoding` header, which indicates whether and how a message body has been compressed and is applied after all content serialization described in this section has occurred. Since HTTP allows unencoded binary message bodies, there is no standardized HTTP header for indicating base64 or similar encoding of an entire message body. + +Using a `contentEncoding` of `base64url` ensures that URL encoding (as required in the query string and in message bodies of type `application/x-www-form-urlencoded`) does not need to further encode any part of the already-encoded binary data. + +The `contentMediaType` keyword is redundant if the media type is already set: + +* as the key for a [Media Type Object](#media-type-object) +* in the `contentType` field of an [Encoding Object](#encoding-object) + +If the [Schema Object](#schema-object) will be processed by a non-OAS-aware JSON Schema implementation, it may be useful to include `contentMediaType` even if it is redundant. However, if `contentMediaType` contradicts a relevant Media Type Object or Encoding Object, then `contentMediaType` SHALL be ignored. + +See [Complete vs Streaming Content](#complete-vs-streaming-content) for guidance on streaming binary payloads. + +###### Schema Evaluation and Binary Data + +Few JSON Schema implementations directly support working with binary data, as doing so is not a mandatory part of that specification. + +OAS Implementations that do not have access to a binary-instance-supporting JSON Schema implementation MUST examine schemas and apply them in accordance with [Working with Binary Data](#working-with-binary-data). +When the entire instance is binary, this is straightforward as few keywords are relevant. + +However, `multipart` media types can mix binary and text-based data, leaving implementations with two options for schema evaluations: + +1. Use a placeholder value, on the assumption that no assertions will apply to the binary data and no conditional schema keywords will cause the schema to treat the placeholder value differently (e.g. a part that could be either plain text or binary might behave unexpectedly if a string is used as a binary placeholder, as it would likely be treated as plain text and subject to different subschemas and keywords). +2. Inspect the schema(s) to find the appropriate keywords (`properties`, `prefixItems`, etc.) in order to break up the subschemas and apply them separately to binary and JSON-compatible data. + +###### Migrating Binary Descriptions from OAS 3.0 + +The following table shows how to migrate from OAS 3.0 binary data descriptions, continuing to use `image/png` as the example binary media type: + +| OAS < 3.1 | OAS >= 3.1 | Comments | +| ---- | ---- | ---- | +| type: string
format: binary | contentMediaType: image/png | if redundant, can be omitted, often resulting in an empty [Schema Object](#schema-object) | +| type: string
format: byte | type: string
contentMediaType: image/png
contentEncoding: base64 | note that `base64url` can be used to avoid re-encoding the base64 string to be URL-safe | + +#### Extended Validation with Annotations + +JSON Schema Draft 2020-12 supports [collecting annotations](https://www.ietf.org/archive/id/draft-bhutton-json-schema-01.html#section-7.7.1), including [treating unrecognized keywords as annotations](https://www.ietf.org/archive/id/draft-bhutton-json-schema-01.html#section-6.5). +OAS implementations MAY use such annotations, including [extensions](https://spec.openapis.org/registry/extension/) not recognized as part of a declared JSON Schema vocabulary, as the basis for further validation. +Note that JSON Schema Draft 2020-12 does not require an `x-` prefix for extensions. + +##### Non-Validating Constraint Keywords + +The [`format` keyword (when using default format-annotation vocabulary)](https://www.ietf.org/archive/id/draft-bhutton-json-schema-validation-01.html#section-7.2.1) and the [`contentMediaType`, `contentEncoding`, and `contentSchema` keywords](https://www.ietf.org/archive/id/draft-bhutton-json-schema-validation-01.html#section-8.2) define constraints on the data, but are treated as annotations instead of being validated directly. +Extended validation is one way that these constraints MAY be enforced. + +##### Validating `readOnly` and `writeOnly` + +The `readOnly` and `writeOnly` keywords are annotations, as JSON Schema is not aware of how the data it is validating is being used. +Validation of these keywords MAY be done by checking the annotation, the read or write direction, and (if relevant) the current value of the field. +[JSON Schema Validation Draft 2020-12 Section 9.4](https://www.ietf.org/archive/id/draft-bhutton-json-schema-validation-01.html#section-9.4) defines the expectations of these keywords, including that a resource (described as the "owning authority") MAY either ignore a `readOnly` field or treat it as an error. + +Fields that are both required and read-only are an example of when it is beneficial to ignore a `readOnly: true` constraint in a PUT, particularly if the value has not been changed. +This allows correctly requiring the field on a GET and still using the same representation and schema with PUT. +Even when read-only fields are not required, stripping them is burdensome for clients, particularly when the JSON data is complex or deeply nested. + +Note that the behavior of `readOnly` in particular differs from that specified by version 3.0 of this specification. + +#### Data Modeling Techniques + +##### Composition and Inheritance (Polymorphism) + +The OpenAPI Specification allows combining and extending model definitions using the `allOf` keyword of JSON Schema, in effect offering model composition. +`allOf` takes an array of object definitions that are validated _independently_ but together compose a single object. + +While composition offers model extensibility, it does not imply a hierarchy between the models. + +JSON Schema also provides the `anyOf` and `oneOf` keywords, which allow defining multiple schemas where at least one or exactly one of them must be valid, respectively. +As is the case with `allOf`, the schemas are validated _independently_. +These keywords can be used to describe polymorphism, where a single field can accept multiple types of values. + +The OpenAPI specification extends the JSON Schema support for polymorphism by adding the [`discriminator`](#schema-discriminator) field whose value is a [Discriminator Object](#discriminator-object). +When used, the Discriminator Object indicates the name of the property that hints which schema of an `anyOf` or `oneOf` is expected to validate the structure of the model. +The discriminating property MAY be defined as required or optional, but when defined as an optional property the Discriminator Object MUST include a `defaultMapping` field that specifies which schema of the `anyOf` or `oneOf`, or which schema that references the current schema in an `allOf`, is expected to validate the structure of the model when the discriminating property is not present. + +There are two ways to define the value of a discriminating property for an inheriting instance. + +* Use the schema name. +* [Override the schema name](#discriminator-mapping) by overriding the property with a new value. If a new value exists, this takes precedence over the schema name. + +##### Generic (Template) Data Structures + +Implementations SHOULD support defining generic or template data structures using JSON Schema's dynamic referencing feature: + +* `$dynamicAnchor` identifies a set of possible schemas (including a default placeholder schema) to which a `$dynamicRef` can resolve +* `$dynamicRef` resolves to the first matching `$dynamicAnchor` encountered on its path from the schema entry point to the reference, as described in the JSON Schema specification + +An example is included in the [Schema Object Examples](#schema-object-examples) section below, and further information can be found on the Learn OpenAPI site's ["Dynamic References"](https://learn.openapis.org/referencing/dynamic.html) page. + +##### Annotated Enumerations + +The Schema Object's `enum` keyword does not allow associating descriptions or other information with individual values. + +Implementations MAY support recognizing a `oneOf` or `anyOf` where each subschema in the keyword's array consists of a `const` keyword and annotations such as `title` or `description` as an enumerated type with additional information. The exact behavior of this pattern beyond what is required by JSON Schema is implementation-defined. + +##### XML Modeling + +The [xml](#schema-xml) field allows extra definitions when translating the JSON definition to XML. +The [XML Object](#xml-object) contains additional information about the available options. + +#### Specifying Schema Dialects + +It is important for tooling to be able to determine which dialect or meta-schema any given resource wishes to be processed with: JSON Schema Core, JSON Schema Validation, OpenAPI Schema dialect, or some custom meta-schema. + +The `$schema` keyword MAY be present in any Schema Object that is a [schema resource root](https://www.ietf.org/archive/id/draft-bhutton-json-schema-01.html#section-4.3.5), and if present MUST be used to determine which dialect should be used when processing the schema. This allows use of Schema Objects which comply with other drafts of JSON Schema than the default Draft 2020-12 support. Tooling MUST support the OAS dialect schema id, and MAY support additional values of `$schema`. + +To allow use of a different default `$schema` value for all Schema Objects contained within an OAS document, a `jsonSchemaDialect` value may be set within the OpenAPI Object. If this default is not set, then the OAS dialect schema id MUST be used for these Schema Objects. The value of `$schema` within a resource root Schema Object always overrides any default. + +For standalone JSON Schema documents that do not set `$schema`, or for Schema Objects in OpenAPI description documents that are _not_ [complete documents](#openapi-description-structure), the dialect SHOULD be assumed to be the OAS dialect. +However, for maximum interoperability, it is RECOMMENDED that OpenAPI description authors explicitly set the dialect through `$schema` in such documents. + +#### Schema Object Examples + +##### Primitive Example + +```yaml +type: string +format: email +``` + +##### Simple Model + +```yaml +type: object +required: + - name +properties: + name: + type: string + address: + $ref: '#/components/schemas/Address' + age: + type: integer + format: int32 + minimum: 0 +``` + +##### Model with Map/Dictionary Properties + +For a simple string to string mapping: + +```yaml +type: object +additionalProperties: + type: string +``` + +For a string to model mapping: + +```yaml +type: object +additionalProperties: + $ref: '#/components/schemas/ComplexModel' +``` + +##### Model with Annotated Enumeration + +```yaml +oneOf: + - const: RGB + title: Red, Green, Blue + description: Specify colors with the red, green, and blue additive color model + - const: CMYK + title: Cyan, Magenta, Yellow, Black + description: Specify colors with the cyan, magenta, yellow, and black subtractive color model +``` + +##### Model with Example + +```yaml +type: object +properties: + id: + type: integer + format: int64 + name: + type: string +required: + - name +examples: + - name: Puma + id: 1 +``` + +##### Models with Composition + +```yaml +components: + schemas: + ErrorModel: + type: object + required: + - message + - code + properties: + message: + type: string + code: + type: integer + minimum: 100 + maximum: 600 + ExtendedErrorModel: + allOf: + - $ref: '#/components/schemas/ErrorModel' + - type: object + required: + - rootCause + properties: + rootCause: + type: string +``` + +##### Models with Polymorphism Support + +The following example describes a `Pet` model that can represent either a cat or a dog, as distinguished by the `petType` property. Each type of pet has other properties beyond those of the base `Pet` model. An instance without a `petType` property, or with a `petType` property that does not match either `cat` or `dog`, is invalid. + +```yaml +components: + schemas: + Pet: + type: object + properties: + name: + type: string + required: + - name + - petType + oneOf: + - $ref: '#/components/schemas/Cat' + - $ref: '#/components/schemas/Dog' + Cat: + description: A pet cat + type: object + properties: + petType: + const: 'cat' + huntingSkill: + type: string + description: The measured skill for hunting + enum: + - clueless + - lazy + - adventurous + - aggressive + required: + - huntingSkill + Dog: + description: A pet dog + type: object + properties: + petType: + const: 'dog' + packSize: + type: integer + format: int32 + description: the size of the pack the dog is from + default: 0 + minimum: 0 + required: + - packSize +``` + +##### Models with Polymorphism Support and a Discriminator Object + +The following example extends the example of the previous section by adding a [Discriminator Object](#discriminator-object) to the `Pet` schema. Note that the Discriminator Object is only a hint to the consumer of the API and does not change the validation outcome of the schema. + +```yaml +components: + schemas: + Pet: + type: object + discriminator: + propertyName: petType + mapping: + cat: '#/components/schemas/Cat' + dog: '#/components/schemas/Dog' + properties: + name: + type: string + required: + - name + - petType + oneOf: + - $ref: '#/components/schemas/Cat' + - $ref: '#/components/schemas/Dog' + Cat: + description: A pet cat + type: object + properties: + petType: + const: 'cat' + huntingSkill: + type: string + description: The measured skill for hunting + enum: + - clueless + - lazy + - adventurous + - aggressive + required: + - huntingSkill + Dog: + description: A pet dog + type: object + properties: + petType: + const: 'dog' + packSize: + type: integer + format: int32 + description: the size of the pack the dog is from + default: 0 + minimum: 0 + required: + - petType + - packSize +``` + +##### Models with Polymorphism Support using `allOf` and a Discriminator Object + +It is also possible to describe polymorphic models using `allOf`. The following example uses `allOf` with a [Discriminator Object](#discriminator-object) to describe a polymorphic `Pet` model. + +```yaml +components: + schemas: + Pet: + type: object + discriminator: + propertyName: petType + properties: + name: + type: string + petType: + type: string + required: + - name + - petType + Cat: # "Cat" will be used as the discriminating value + description: A representation of a cat + allOf: + - $ref: '#/components/schemas/Pet' + - type: object + properties: + huntingSkill: + type: string + description: The measured skill for hunting + enum: + - clueless + - lazy + - adventurous + - aggressive + required: + - huntingSkill + Dog: # "Dog" will be used as the discriminating value + description: A representation of a dog + allOf: + - $ref: '#/components/schemas/Pet' + - type: object + properties: + packSize: + type: integer + format: int32 + description: the size of the pack the dog is from + default: 0 + minimum: 0 + required: + - packSize +``` + +##### Generic Data Structure Model + +```yaml +components: + schemas: + genericArrayComponent: + $id: fully_generic_array + type: array + items: + $dynamicRef: '#generic-array' + $defs: + allowAll: + $dynamicAnchor: generic-array + numberArray: + $id: array_of_numbers + $ref: fully_generic_array + $defs: + numbersOnly: + $dynamicAnchor: generic-array + type: number + stringArray: + $id: array_of_strings + $ref: fully_generic_array + $defs: + stringsOnly: + $dynamicAnchor: generic-array + type: string + objWithTypedArray: + $id: obj_with_typed_array + type: object + required: + - dataType + - data + properties: + dataType: + enum: + - string + - number + oneOf: + - properties: + dataType: + const: string + data: + $ref: array_of_strings + - properties: + dataType: + const: number + data: + $ref: array_of_numbers +``` + +### Discriminator Object + +When request bodies or response payloads may be one of a number of different schemas, these should use the JSON Schema `anyOf` or `oneOf` keywords to describe the possible schemas (see [Composition and Inheritance](#composition-and-inheritance-polymorphism)). + +A polymorphic schema MAY include a Discriminator Object, which defines the name of the property that may be used as a hint for which schema of the `anyOf` or `oneOf`, or which schema that references the current schema in an `allOf`, is expected to validate the structure of the model. +This hint can be used to aid in serialization, deserialization, and validation. +The Discriminator Object does this by implicitly or explicitly associating the possible values of a named property with alternative schemas. + +Note that `discriminator` MUST NOT change the validation outcome of the schema. + +#### Fixed Fields + +| Field Name | Type | Description | +| ---- | :----: | ---- | +| propertyName | `string` | **REQUIRED**. The name of the discriminating property in the payload that will hold the discriminating value. The discriminating property MAY be defined as required or optional, but when defined as optional the Discriminator Object MUST include a `defaultMapping` field that specifies which schema is expected to validate the structure of the model when the discriminating property is not present. | +| mapping | Map[`string`, `string`] | An object to hold mappings between payload values and schema names or URI references. | +| defaultMapping | `string` | The schema name or URI reference to a schema that is expected to validate the structure of the model when the discriminating property is not present in the payload or contains a value for which there is no explicit or implicit mapping. | + +This object MAY be extended with [Specification Extensions](#specification-extensions). + +#### Conditions for Using the Discriminator Object + +The Discriminator Object is legal only when using one of the composite keywords `oneOf`, `anyOf`, `allOf`. + +In both the `oneOf` and `anyOf` use cases, where those keywords are adjacent to `discriminator`, all possible schemas MUST be listed explicitly. + +To avoid redundancy, the discriminator MAY be added to a parent schema definition, and all schemas building on the parent schema via an `allOf` construct may be used as an alternate schema. + +The `allOf` form of `discriminator` is _only_ useful for non-validation use cases; validation with the parent schema with this form of `discriminator` _does not_ perform a search for child schemas or use them in validation in any way. +This is because `discriminator` cannot change the validation outcome, and no standard JSON Schema keyword connects the parent schema to the child schemas. + +The behavior of any configuration of `oneOf`, `anyOf`, `allOf` and `discriminator` that is not described above is undefined. + +#### Options for Mapping Values to Schemas + +The value of the property named in `propertyName` is used as the name of the associated schema under the [Components Object](#components-object), _unless_ a `mapping` is present for that value. +The `mapping` entry maps a specific property value to either a different schema component name, or to a schema identified by a URI. +When using implicit or explicit schema component names, inline `oneOf` or `anyOf` subschemas are not considered. +The behavior of a `mapping` value or `defaultMapping` value that is both a valid schema name and a valid relative URI reference is implementation-defined, but it is RECOMMENDED that it be treated as a schema name. +To ensure that an ambiguous value (e.g. `"foo"`) is treated as a relative URI reference by all implementations, authors MUST prefix it with the `"."` path segment (e.g. `"./foo"`). + +Mapping keys MUST be string values, but tooling MAY convert response values to strings for comparison. +However, the exact nature of such conversions are implementation-defined. + +#### Optional Discriminating Property + +When the discriminating property is defined as optional, the [Discriminator Object](#discriminator-object) MUST include a `defaultMapping` field that specifies a schema that is expected to validate the structure of the model when the discriminating property is not present in the payload or contains a value for which there is no explicit or implicit mapping. This allows the schema to still be validated correctly even if the discriminating property is missing. + +The primary use case for an optional discriminating property is to allow a schema to be extended with a discriminator without breaking existing clients that do not provide the discriminating property. + +When the discriminating property is defined as optional, it is important that each subschema that defines a value for the discriminating property also define the property as required, since this is no longer enforced by the parent schema. + +The `defaultMapping` schema is also expected to validate the structure of the model when the discriminating property is present but contains a value for which there is no explicit or implicit mapping. This is typically expressed in the `defaultMapping` schema by excluding any instances with mapped values of the discriminating property, e.g. + +```yaml +OtherPet: + type: object + properties: + petType: + not: + enum: ['cat', 'dog'] +``` + +This prevents the `defaultMapping` schema from validating a payload that includes the discriminating property with a mapped discriminating value, which would cause a validation to fail when polymorphism is described using the `oneOf` JSON schema keyword. + +#### Examples + +For these examples, assume all schemas are in the [entry document](#openapi-description-structure) of the OAD; for handling of `discriminator` in referenced documents see [Resolving Implicit Connections](#resolving-implicit-connections). + +In OAS 3.x, a response payload MAY be described to be exactly one of any number of types: + +```yaml +MyResponseType: + oneOf: + - $ref: '#/components/schemas/Cat' + - $ref: '#/components/schemas/Dog' + - $ref: '#/components/schemas/Lizard' +``` + +which means a valid payload has to match exactly one of the schemas described by `Cat`, `Dog`, or `Lizard`. Deserialization of a `oneOf` can be a costly operation, as it requires determining which schema matches the payload and thus should be used in deserialization. This problem also exists for `anyOf` schemas. A `discriminator` can be used as a "hint" to improve the efficiency of selection of the matching schema. The [Discriminator Object](#discriminator-object) cannot change the validation result of the `oneOf`, it can only help make the deserialization more efficient and provide better error messaging. We can specify the exact field that tells us which schema is expected to match the instance: + +```yaml +MyResponseType: + oneOf: + - $ref: '#/components/schemas/Cat' + - $ref: '#/components/schemas/Dog' + - $ref: '#/components/schemas/Lizard' + discriminator: + propertyName: petType +``` + +The expectation now is that a property with name `petType` _MUST_ be present in the response payload, and the value will correspond to the name of a schema defined in the OpenAPI Description. Thus the response payload: + +```json +{ + "id": 12345, + "petType": "Cat" +} +``` + +will indicate that the `Cat` schema is expected to match this payload. + +In scenarios where the value of the discriminating property does not match the schema name or implicit mapping is not possible, an optional `mapping` definition can be used: + +```yaml +MyResponseType: + oneOf: + - $ref: '#/components/schemas/Cat' + - $ref: '#/components/schemas/Dog' + - $ref: '#/components/schemas/Lizard' + - $ref: https://gigantic-server.com/schemas/Monster/schema.json + discriminator: + propertyName: petType + mapping: + dog: '#/components/schemas/Dog' + monster: https://gigantic-server.com/schemas/Monster/schema.json +``` + +Here the discriminating value of `dog` will map to the schema `#/components/schemas/Dog`, rather than the default (implicit) value of `#/components/schemas/dog`. If the discriminating value does not match an implicit or explicit mapping, no schema can be determined and validation SHOULD fail. + +When used in conjunction with the `anyOf` construct, the use of the discriminator can avoid ambiguity for serializers/deserializers where multiple schemas may satisfy a single payload. + +When the discriminating property is defined as optional, the Discriminator Object has to include a `defaultMapping` field that specifies a schema of the `anyOf` or `oneOf` is expected to validate the structure of the model when the discriminating property is not present in the payload. This allows the schema to still be validated correctly even if the discriminator property is missing. + +For example: + +```yaml +MyResponseType: + oneOf: + - $ref: '#/components/schemas/Cat' + - $ref: '#/components/schemas/Dog' + - $ref: '#/components/schemas/Lizard' + - $ref: '#/components/schemas/OtherPet' + discriminator: + propertyName: petType + defaultMapping: OtherPet +OtherPet: + type: object + properties: + petType: + not: + enum: ['Cat', 'Dog', 'Lizard'] +``` + +In this example, if the `petType` property is not present in the payload, or if the value of `petType` is not "Cat", "Dog", or "Lizard", then the payload should validate against the `OtherPet` schema. + +This example shows the `allOf` usage, which avoids needing to reference all child schemas in the parent: + +```yaml +components: + schemas: + Pet: + type: object + required: + - petType + properties: + petType: + type: string + discriminator: + propertyName: petType + mapping: + dog: Dog + Cat: + allOf: + - $ref: '#/components/schemas/Pet' + - type: object + # all other properties specific to a `Cat` + properties: + name: + type: string + Dog: + allOf: + - $ref: '#/components/schemas/Pet' + - type: object + # all other properties specific to a `Dog` + properties: + bark: + type: string + Lizard: + allOf: + - $ref: '#/components/schemas/Pet' + - type: object + # all other properties specific to a `Lizard` + properties: + lovesRocks: + type: boolean +``` + +Validated against the `Pet` schema, a payload like this: + +```json +{ + "petType": "Cat", + "name": "Misty" +} +``` + +will indicate that the `#/components/schemas/Cat` schema is expected to match. Likewise this payload: + +```json +{ + "petType": "dog", + "bark": "soft" +} +``` + +will map to `#/components/schemas/Dog` because the `dog` entry in the `mapping` element maps to `Dog` which is the schema name for `#/components/schemas/Dog`. + +### XML Object + +A metadata object that allows for more fine-tuned XML model definitions. +When using a Schema Object with XML, if no XML Object is present, the behavior is determined by the XML Object's default field values. + +#### Fixed Fields + +| Field Name | Type | Description | +| ---- | :----: | ---- | +| nodeType | `string` | One of `element`, `attribute`, `text`, `cdata`, or `none`, as explained under [XML Node Types](#xml-node-types). The default value is `none` if `$ref`, `$dynamicRef`, or `type: "array"` is present in the [Schema Object](#schema-object) containing the XML Object, and `element` otherwise. | +| name | `string` | Sets the name of the element/attribute corresponding to the schema, replacing the name that was inferred as described under [XML Node Names](#xml-node-names). This field SHALL be ignored if the `nodeType` is `text`, `cdata`, or `none`. | +| namespace | `string` | The IRI ([[RFC3987]]) of the namespace definition. Value MUST be in the form of a non-relative IRI. | +| prefix | `string` | The prefix to be used for the [name](#xml-name). | +| attribute | `boolean` | Declares whether the property definition translates to an attribute instead of an element. Default value is `false`. If `nodeType` is present, this field MUST NOT be present.

**Deprecated:** Use `nodeType: "attribute"` instead of `attribute: true` | +| wrapped | `boolean` | MAY be used only for an array definition. Signifies whether the array is wrapped (for example, ``) or unwrapped (``). Default value is `false`. The definition takes effect only when defined alongside `type` being `"array"` (outside the `items`). If `nodeType` is present, this field MUST NOT be present.

**Deprecated:** Use `nodeType: "element"` instead of `wrapped: true` | + +Note that when generating an XML document from object data, the order of the nodes is undefined. +Use `prefixItems` to control node ordering as shown under [Ordered Elements and Text](#ordered-elements-and-text). + +See [Appendix B](#appendix-b-data-type-conversion) for a discussion of converting values of various types to string representations. + +This object MAY be extended with [Specification Extensions](#specification-extensions). + +#### XML Node Types + +Each Schema Object describes a particular type of XML [[!DOM]] [node](https://dom.spec.whatwg.org/#interface-node) which is specified by the `nodeType` field, which has the following possible values. +Except for the special value `none`, these values have numeric equivalents in the DOM specification which are given in parentheses after the name: + +* `element` (1): The schema represents an element and describes its contents +* `attribute` (2): The schema represents an attribute and describes its value +* `text` (3): The schema represents a text node (parsed character data) +* `cdata` (4): The schema represents a CDATA section +* `none`: The schema does not correspond to any node in the XML document, and the nodes corresponding to its subschema(s) are included directly under its parent schema's node + +The `none` type is useful for JSON Schema constructs that require more Schema Objects than XML nodes, such as a schema containing only `$ref` that exists to facilitate re-use rather than imply any structure. + +##### Modeling Element Lists + +For historical compatibility, schemas of `type: "array"` default to `nodeType: "none"`, placing the nodes for each array item directly under the parent node. +This also aligns with the inferred naming behavior defined under [XML Node Names](#xml-node-names). + +To produce an element wrapping the list, set an explicit `nodeType: "element"` on the `type: "array"` schema. +When doing so, it is advisable to set an explicit name on either the wrapping element or the item elements to avoid them having the same inferred name. +See examples for expected behavior. + +##### Implicit and Explicit `text` Nodes + +If an `element` node has a primitive type, then the schema also produces an implicit `text` node described by the schema for the contents of the `element` node named by the property name (or `name` field). + +Explicit `text` nodes are necessary if an element has both attributes and content. + +Note that placing two `text` nodes adjacent to each other is ambiguous for parsing, and the resulting behavior is implementation-defined. + +#### XML Node Names + +The `element` and `attribute` node types require a name, which MUST be inferred from the schema as follows, unless overridden by the `name` field: + +* For schemas directly under the [Components Object's](#components-object) `schemas` field, the component name is the inferred name. +* For property schemas, and for array item schemas under a property schema, the property name is the inferred name. +* In all other cases, such as an inline schema under a [Media Type Object's](#media-type-object) `schema` field, no name can be inferred and an XML Object with a `name` field MUST be present. + +Note that when using arrays, singular vs plural forms are _not_ inferred, and must be set explicitly. + +#### Namespace Limitations + +The `namespace` field is intended to match the syntax of [XML namespaces](https://www.w3.org/TR/xml-names11/), although there are a few caveats: + +* Versions 3.1.0, 3.0.3, and earlier of this specification erroneously used the term "absolute URI" instead of "non-relative URI" ("non-relative IRI" as of OAS v3.2.0), so authors using namespaces that include a fragment should check tooling support carefully. +* XML allows but discourages relative IRI-references, while this specification outright forbids them. + +#### Handling `null` Values + +XML does not, by default, have a concept equivalent to `null`, and to preserve compatibility with version 3.1.1 and earlier of this specification, the behavior of serializing `null` values is implementation-defined. + +However, implementations SHOULD handle `null` values as follows: + +* For elements, produce an empty element with an `xsi:nil="true"` attribute. +* For attributes, omit the attribute. +* For text and CDATA sections, see [Appendix B](#appendix-b-data-type-conversion) for a discussion of serializing non-text values to text. + +Note that for attributes, this makes either a `null` value or a missing property serialize to an omitted attribute. +As the Schema Object validates the in-memory representation, this allows handling the combination of `null` and a required property. +However, because there is no distinct way to represent `null` as an attribute, it is RECOMMENDED to make attribute properties optional rather than use `null`. + +To ensure correct round-trip behavior, when parsing an element that omits an attribute, implementations SHOULD set the corresponding property to `null` if the schema allows for that value (e.g. `type: ["number", "null"]`), and omit the property otherwise (e.g.`type: "number"`). + +#### XML Object Examples + +The Schema Objects are followed by an example XML representation produced for the schema shown. +For examples using `attribute` or `wrapped`, please see version 3.1 of the OpenAPI Specification. + +##### No XML Object + +Basic string property without an XML Object, using `serializedValue` (the remaining examples will use `externalValue` so that the XML form can be shown with syntax highlighting): + +```yaml +application/xml: + schema: + type: object + xml: + name: document + properties: + animals: + type: string + examples: + pets: + dataValue: + animals: dog, cat, hamster + serializedValue: | + + dog, cat, hamster + +``` + +Basic string array property (`nodeType` is `none` by default): + +```yaml +application/xml: + schema: + type: object + xml: + name: document + properties: + animals: + type: array + items: + type: string + examples: + pets: + dataValue: + animals: + - dog + - cat + - hamster + externalValue: ./examples/pets.xml +``` + +Where `./examples/pets.xml` would be: + +```xml + + dog + cat + hamster + +``` + +##### XML Name Replacement + +```yaml +application/xml: + schema: + type: object + xml: + name: document + properties: + animals: + type: string + xml: + name: animal + examples: + pets: + dataValue: + animals: + - dog + - cat + - hamster + externalValue: ./examples/pets.xml +``` + +Where `./examples/pets.xml` would be: + +```xml + + dog + cat + hamster + +``` + +##### XML Attribute, Prefix and Namespace + +Note that the name of the root XML element comes from the component name. + +```yaml +components: + schemas: + Person: + type: object + properties: + id: + type: integer + format: int32 + xml: + nodeType: attribute + name: + type: string + xml: + namespace: https://example.com/schema/sample + prefix: sample + requestBodies: + Person: + content: + application/xml: + schema: + $ref: "#/components/schemas/Person" + examples: + Person: + dataValue: + id: 123 + name: example + externalValue: ./examples/Person.xml +``` + +Where `./examples/Person.xml` would be: + +```xml + + example + +``` + +##### XML Arrays + +Changing the element names: + +```yaml +application/xml: + schema: + type: object + xml: + name: document + properties: + animals: + type: array + items: + type: string + xml: + name: animal + examples: + pets: + dataValue: + animals: + - dog + - cat + - hamster + externalValue: ./examples/pets.xml +``` + +Where `./examples/pets.xml` would be: + +```xml + + dog + cat + hamster + +``` + +The `name` field for the `type: "array"` schema has no effect because the default `nodeType` for that object is `none`: + +```yaml +application/xml: + schema: + type: object + xml: + name: document + properties: + animals: + type: array + xml: + name: aliens + items: + type: string + xml: + name: animal + examples: + pets: + dataValue: + animals: + - dog + - cat + - hamster + externalValue: ./examples/pets.xml +``` + +Where `./examples/pets.xml` would be: + +```xml + + dog + cat + hamster + +``` + +Even when a wrapping element is explicitly created by setting `nodeType` to `element`, if a name is not explicitly defined, the same name will be used for both the wrapping element and the list item elements: + +```yaml +application/xml: + schema: + type: object + xml: + name: document + properties: + animals: + type: array + xml: + nodeType: element + items: + type: string + examples: + pets: + dataValue: + animals: + - dog + - cat + - hamster + externalValue: ./examples/pets.xml +``` + +Where `./examples/pets.xml` would be: + +```xml + + + dog + cat + hamster + + +``` + +To overcome the naming problem in the example above, the following definition can be used: + +```yaml +application/xml: + schema: + type: object + xml: + name: document + properties: + animals: + type: array + xml: + nodeType: element + items: + type: string + xml: + name: animal + examples: + pets: + dataValue: + animals: + - dog + - cat + - hamster + externalValue: ./examples/pets.xml +``` + +Where `./examples/pets.xml` would be: + +```xml + + + dog + cat + hamster + + +``` + +Affecting both wrapping element and item element names: + +```yaml +application/xml: + schema: + type: object + xml: + name: document + properties: + animals: + type: array + xml: + name: aliens + nodeType: element + items: + type: string + xml: + name: animal + examples: + pets: + dataValue: + animals: + - dog + - cat + - hamster + externalValue: ./examples/pets.xml +``` + +Where `./examples/pets.xml` would be: + +```xml + + + dog + cat + hamster + + +``` + +If we change the wrapping element name but not the item element names: + +```yaml +application/xml: + schema: + type: object + xml: + name: document + properties: + animals: + type: array + xml: + name: aliens + nodeType: element + items: + type: string + examples: + pets: + dataValue: + animals: + - dog + - cat + - hamster + externalValue: ./examples/pets.xml +``` + +Where `./examples/pets.xml` would be: + +```xml + + + dog + cat + hamster + + +``` + +##### Elements With Attributes And Text + +```yaml +application/xml: + schema: + type: array + xml: + nodeType: element + name: animals + items: + xml: + name: animal + properties: + kind: + type: string + xml: + nodeType: attribute + name: + type: string + xml: + nodeType: text + examples: + pets: + dataValue: + - kind: Cat + name: Fluffy + - kind: Dog + name: Fido +``` + +Where `./examples/pets.xml` would be: + +```xml + + Fluffy + Fido + +``` + +##### Referenced Element With CDATA + +In this example, no element is created for the Schema Object that contains only the `$ref`, as its `nodeType` defaults to `none`. +It is necessary to create a subschema for the CDATA section as otherwise the content would be treated as an implicit node of type `text`. + +```yaml +components: + schemas: + Documentation: + type: object + properties: + content: + type: string + contentMediaType: text/html + xml: + nodeType: cdata + responses: + content: + application/xml: + schema: + $ref: "#/components/schemas/Documentation" + examples: + docs: + dataValue: + content: Awesome Docs + externalValue: ./examples/docs.xml +``` + +Where `./examples/docs.xml` would be: + +```xml + + Awesome Docs]]> + +``` + +Alternatively, the named root element could be set at the point of use and the root element disabled on the component (note that in this example, the same `dataValue` is used in two places with different serializations shown with `externalValue`): + +```yaml +paths: + /docs: + get: + responses: + "200": + content: + application/xml: + schema: + xml: + nodeType: element + name: StoredDocument + $ref: "#/components/schemas/Documentation" + examples: + stored: + dataValue: + content: Awesome Docs + externalValue: ./examples/stored.xml + put: + requestBody: + required: true + content: + application/xml: + schema: + xml: + nodeType: element + name: UpdatedDocument + $ref: "#/components/schemas/Documentation" + examples: + updated: + dataValue: + content: Awesome Docs + externalValue: ./examples/updated.xml + responses: + "201": {} +components: + schemas: + Documentation: + xml: + nodeType: none + type: object + properties: + content: + type: string + contentMediaType: text/html + xml: + nodeType: cdata +``` + +where `./examples/stored.xml` would be: + +```xml + + Awesome Docs]]> + +``` + +and `./examples/updated.xml` would be: + +```xml + + Awesome Docs]]> + +``` + +##### Ordered Elements and Text + +To control the exact order of elements, use the `prefixItems` keyword. +With this approach, it is necessary to set the element names using the XML Object as they would otherwise all inherit the parent's name despite being different elements in a specific order. +It is also necessary to set `nodeType: "element"` explicitly on the array in order to get an element containing the sequence. + +This first ordered example shows a sequence of elements, as well as the recommended serialization of `null` for elements: + +```yaml +application/xml: + schema: + xml: + nodeType: element + name: OneTwoThree + type: array + minLength: 3 + maxLength: 3 + prefixItems: + - xml: + name: One + type: string + - xml: + name: Two + type: object + required: + - unit + - value + properties: + unit: + type: string + xml: + nodeType: attribute + value: + type: number + xml: + nodeType: text + - xml: + name: Three + type: + - boolean + - "null" + examples: + OneTwoThree: + dataValue: + - Some text + - unit: cubits + value: 42 + null + ] + externalValue: ./examples/OneTwoThree.xml +``` + +Where `./examples/OneTwoThree.xml` would be: + +```xml + + Some text + 42 + + +``` + +In this next example, the `name` needs to be set for the element, while the `nodeType` needs to be set for the text nodes. + +```yaml +application/xml: + schema: + xml: + nodeType: element + name: Report + type: array + prefixItems: + - xml: + nodeType: text + type: string + - xml: + name: data + type: number + - xml: + nodeType: text + type: string + examples: + Report: + dataValue: + - Some preamble text. + - 42 + - Some postamble text. + externalValue: ./examples/Report.xml +``` + +Where `./examples/Report.xml` would be: + +```xml +Some preamble text.42Some postamble text. +``` + +##### XML With `null` Values + +Recall that the schema validates the in-memory data, not the XML document itself. +This example does not define properties for `"related"` as it is showing how +empty objects and `null` are handled. + +```yaml +application/xml: + schema: + xml: + name: product + type: object + required: + - count + - description + - related + properties: + count: + type: + - number + - "null" + xml: + nodeType: attribute + rating: + type: string + xml: + nodeType: attribute + description: + type: string + related: + type: + - object + - "null" + examples: + productWithNulls: + dataValue: + count: null + description: Thing + related: null + externalValue: ./examples/productWithNulls.xml + productNoNulls: + dataValue: + count: 42 + description: Thing + related: {} + externalValue: ./examples/productNoNulls.xml +``` + +Where `./examples/productWithNulls.xml` would be: + +```xml + + Thing + + +``` + +and `./examples/productNoNulls.xml` would be: + +```xml + + Thing + + +``` + +### Security Scheme Object + +Defines a security scheme that can be used by the operations. + +Supported schemes are HTTP authentication, an API key (either as a header, a cookie parameter or as a query parameter), mutual TLS (use of a client certificate), OAuth2's common flows (implicit, password, client credentials and authorization code) as defined in [RFC6749](https://tools.ietf.org/html/rfc6749), OAuth2 device authorization flow as defined in [RFC8628](https://tools.ietf.org/html/rfc8628), and [[OpenID-Connect-Core]]. +Please note that as of 2020, the implicit flow is about to be deprecated by [OAuth 2.0 Security Best Current Practice](https://tools.ietf.org/html/draft-ietf-oauth-security-topics). Recommended for most use cases is Authorization Code Grant flow with PKCE. + +#### Fixed Fields + +| Field Name | Type | Applies To | Description | +| ---- | :----: | ---- | ---- | +| type | `string` | Any | **REQUIRED**. The type of the security scheme. Valid values are `"apiKey"`, `"http"`, `"mutualTLS"`, `"oauth2"`, `"openIdConnect"`. | +| description | `string` | Any | A description for security scheme. [CommonMark syntax](https://spec.commonmark.org/) MAY be used for rich text representation. | +| name | `string` | `apiKey` | **REQUIRED**. The name of the header, query or cookie parameter to be used. | +| in | `string` | `apiKey` | **REQUIRED**. The location of the API key. Valid values are `"query"`, `"header"`, or `"cookie"`. | +| scheme | `string` | `http` | **REQUIRED**. The name of the HTTP Authentication scheme to be used in the [Authorization header as defined in RFC9110](https://www.rfc-editor.org/rfc/rfc9110.html#section-16.4.1). The values used SHOULD be registered in the [IANA Authentication Scheme registry](https://www.iana.org/assignments/http-authschemes/http-authschemes.xhtml). The value is case-insensitive, as defined in [RFC9110](https://www.rfc-editor.org/rfc/rfc9110.html#section-11.1). | +| bearerFormat | `string` | `http` (`"bearer"`) | A hint to the client to identify how the bearer token is formatted. Bearer tokens are usually generated by an authorization server, so this information is primarily for documentation purposes. | +| flows | [OAuth Flows Object](#oauth-flows-object) | `oauth2` | **REQUIRED**. An object containing configuration information for the flow types supported. | +| openIdConnectUrl | `string` | `openIdConnect` | **REQUIRED**. [Well-known URL](https://openid.net/specs/openid-connect-discovery-1_0.html#ProviderConfig) to discover the [[OpenID-Connect-Discovery]] [provider metadata](https://openid.net/specs/openid-connect-discovery-1_0.html#ProviderMetadata). | +| oauth2MetadataUrl | `string` | `oauth2` | URL to the OAuth2 authorization server metadata [RFC8414](https://datatracker.ietf.org/doc/html/rfc8414). TLS is required. | +| deprecated | `boolean` | Any | Declares this security scheme to be deprecated. Consumers SHOULD refrain from usage of the declared scheme. Default value is `false`. | + +This object MAY be extended with [Specification Extensions](#specification-extensions). + +#### Security Scheme Object Examples + +##### Basic Authentication Example + +```yaml +type: http +scheme: basic +``` + +##### API Key Example + +```yaml +type: apiKey +name: api-key +in: header +``` + +##### JWT Bearer Example + +```yaml +type: http +scheme: bearer +bearerFormat: JWT +``` + +##### MutualTLS Example + +```yaml +type: mutualTLS +description: Cert must be signed by example.com CA +``` + +##### Implicit OAuth2 Example + +```yaml +type: oauth2 +flows: + implicit: + authorizationUrl: https://example.com/api/oauth/dialog + scopes: + write:pets: modify pets in your account + read:pets: read your pets +``` + +### OAuth Flows Object + +Allows configuration of the supported OAuth Flows. + +#### Fixed Fields + +| Field Name | Type | Description | +| ---- | :----: | ---- | +| implicit | [OAuth Flow Object](#oauth-flow-object) | Configuration for the OAuth Implicit flow | +| password | [OAuth Flow Object](#oauth-flow-object) | Configuration for the OAuth Resource Owner Password flow | +| clientCredentials | [OAuth Flow Object](#oauth-flow-object) | Configuration for the OAuth Client Credentials flow. Previously called `application` in OpenAPI 2.0. | +| authorizationCode | [OAuth Flow Object](#oauth-flow-object) | Configuration for the OAuth Authorization Code flow. Previously called `accessCode` in OpenAPI 2.0. | +| deviceAuthorization | [OAuth Flow Object](#oauth-flow-object) | Configuration for the OAuth Device Authorization flow. | + +This object MAY be extended with [Specification Extensions](#specification-extensions). + +### OAuth Flow Object + +Configuration details for a supported OAuth Flow + +#### Fixed Fields + +| Field Name | Type | Applies To | Description | +| ---- | :----: | ---- | ---- | +| authorizationUrl | `string` | `oauth2` (`"implicit"`, `"authorizationCode"`) | **REQUIRED**. The authorization URL to be used for this flow. This MUST be in the form of a URL. The OAuth2 standard requires the use of TLS. | +| deviceAuthorizationUrl | `string` | `oauth2` (`"deviceAuthorization"`) | **REQUIRED**. The device authorization URL to be used for this flow. This MUST be in the form of a URL. The OAuth2 standard requires the use of TLS. | +| tokenUrl | `string` | `oauth2` (`"password"`, `"clientCredentials"`, `"authorizationCode"`, `"deviceAuthorization"`) | **REQUIRED**. The token URL to be used for this flow. This MUST be in the form of a URL. The OAuth2 standard requires the use of TLS. | +| refreshUrl | `string` | `oauth2` | The URL to be used for obtaining refresh tokens. This MUST be in the form of a URL. The OAuth2 standard requires the use of TLS. | +| scopes | Map[`string`, `string`] | `oauth2` | **REQUIRED**. The available scopes for the OAuth2 security scheme. A map between the scope name and a short description for it. The map MAY be empty. | + +This object MAY be extended with [Specification Extensions](#specification-extensions). + +#### OAuth Flow Object Example + +```yaml +type: oauth2 +flows: + implicit: + authorizationUrl: https://example.com/api/oauth/dialog + scopes: + write:pets: modify pets in your account + read:pets: read your pets + authorizationCode: + authorizationUrl: https://example.com/api/oauth/dialog + tokenUrl: https://example.com/api/oauth/token + scopes: + write:pets: modify pets in your account + read:pets: read your pets +``` + +### Security Requirement Object + +Lists the required security schemes to execute this operation. + +The name used for each property MUST either correspond to a security scheme declared in the [Security Schemes](#components-security-schemes) under the [Components Object](#components-object), or be the URI of a Security Scheme Object. +Property names that are identical to a component name under the Components Object MUST be treated as a component name. +To reference a Security Scheme with a single-segment relative URI reference (e.g. `foo`) that collides with a component name (e.g. `#/components/securitySchemes/foo`), use the `.` path segment (e.g. `./foo`). + +Using a Security Scheme component name that appears to be a URI is NOT RECOMMENDED, as the precedence of component-name-matching over URI resolution, which is necessary to maintain compatibility with prior OAS versions, is counter-intuitive. See also [Security Considerations](#security-considerations). + +A Security Requirement Object MAY refer to multiple security schemes in which case all schemes MUST be satisfied for a request to be authorized. +This enables support for scenarios where multiple query parameters or HTTP headers are required to convey security information. + +When the `security` field is defined on the [OpenAPI Object](#openapi-object) or [Operation Object](#operation-object) and contains multiple Security Requirement Objects, only one of the entries in the list needs to be satisfied to authorize the request. +This enables support for scenarios where the API allows multiple, independent security schemes. + +An empty Security Requirement Object (`{}`) indicates anonymous access is supported. + +#### Patterned Fields + +| Field Pattern | Type | Description | +| ---- | :----: | ---- | +| {name} | [`string`] | Each name or URI MUST correspond to a security scheme as described above. If the security scheme is of type `"oauth2"` or `"openIdConnect"`, then the value is a list of scope names required for the execution, and the list MAY be empty if authorization does not require a specified scope. For other security scheme types, the array MAY contain a list of role names which are required for the execution, but are not otherwise defined or exchanged in-band. | + +#### Security Requirement Object Examples + +See also [Implicit Connection Resolution Examples](#implicit-connection-resolution-examples) in [Appendix G: Parsing and Resolution Guidance](#appendix-g-parsing-and-resolution-guidance) for an example using Security Requirement Objects in multi-document OpenAPI Descriptions. + +##### Non-OAuth2 Security Requirement + +```yaml +api_key: [] +``` + +##### OAuth2 Security Requirement + +This example uses a component name for the Security Scheme. + +```yaml +petstore_auth: + - write:pets + - read:pets +``` + +##### Optional OAuth2 Security + +This example uses a relative URI reference for the Security Scheme. + +Optional OAuth2 security as would be defined in an OpenAPI Object or an Operation Object: + +```yaml +security: + - {} + - petstore_auth: + - write:pets + - read:pets +``` + +## Specification Extensions + +While the OpenAPI Specification tries to accommodate most use cases, additional data can be added to extend the specification at certain points. + +The extensions properties are implemented as patterned fields that are always prefixed by `x-`. + +| Field Pattern | Type | Description | +| ---- | :--: | ---- | +| ^x- | Any | Allows extensions to the OpenAPI Schema. The field name MUST begin with `x-`, for example, `x-internal-id`. Field names beginning `x-oai-` and `x-oas-` are reserved for uses defined by the [OpenAPI Initiative](https://www.openapis.org/). The value can be any valid JSON value (`null`, a primitive, an array, or an object.) | + +The OpenAPI Initiative maintains several [[OpenAPI-Registry|extension registries]], including registries for [individual extension keywords](https://spec.openapis.org/registry/extension/) and [extension keyword namespaces](https://spec.openapis.org/registry/namespace/). + +Extensions are one of the best ways to prove the viability of proposed additions to the specification. +It is therefore RECOMMENDED that implementations be designed for extensibility to support community experimentation. + +Support for any one extension is OPTIONAL, and support for one extension does not imply support for others. + +## Security Considerations + +### OpenAPI Description Formats + +OpenAPI Descriptions use a combination of JSON, YAML, and JSON Schema, and therefore share their security considerations: + +* [JSON](https://www.iana.org/assignments/media-types/application/json) +* [YAML](https://www.iana.org/assignments/media-types/application/yaml) +* [JSON Schema Core](https://www.ietf.org/archive/id/draft-bhutton-json-schema-01.html#section-13) +* [JSON Schema Validation](https://www.ietf.org/archive/id/draft-bhutton-json-schema-validation-01.html#section-10) + +### Tooling and Usage Scenarios + +In addition, OpenAPI Descriptions are processed by a wide variety of tooling for numerous different purposes, such as client code generation, documentation generation, server side routing, and API testing. OpenAPI Description authors must consider the risks of the scenarios where the OpenAPI Description may be used. + +### Security Schemes + +An OpenAPI Description describes the security schemes used to protect the resources it defines. The security schemes available offer varying degrees of protection. Factors such as the sensitivity of the data and the potential impact of a security breach should guide the selection of security schemes for the API resources. Some security schemes, such as basic auth and OAuth Implicit flow, are supported for compatibility with existing APIs. However, their inclusion in OpenAPI does not constitute an endorsement of their use, particularly for highly sensitive data or operations. + +The rules for connecting a [Security Requirement Object](#security-requirement-object) to a [Security Scheme Object](#security-scheme-object) under a [Components Object](#components-object) are ambiguous in a way that could be exploited. Specifically: + +* It is implementation-defined whether a component name used by a Security Requirement Object in a referenced document is resolved from the entry document (RECOMMENDED) or the referenced document. +* A Security Requirement Object that uses a URI to identify a Security Scheme Object can have the URI resolution hijacked by providing a Security Scheme component name identical to the URI, as the name lookup behavior takes precedence over URI resolution for compatibility with previous versions of the OAS. + +### Security Filtering + +Some objects in the OpenAPI Specification MAY be declared and remain empty, or be completely removed, even though they are inherently the core of the API documentation. + +The reasoning is to allow an additional layer of access control over the documentation. +While not part of the specification itself, certain libraries MAY choose to allow access to parts of the documentation based on some form of authentication/authorization. + +Two examples of this: + +1. The [Paths Object](#paths-object) MAY be present but empty. It may be counterintuitive, but this may tell the viewer that they got to the right place, but can't access any documentation. They would still have access to at least the [Info Object](#info-object) which may contain additional information regarding authentication. +2. The [Path Item Object](#path-item-object) MAY be empty. In this case, the viewer will be aware that the path exists, but will not be able to see any of its operations or parameters. This is different from hiding the path itself from the [Paths Object](#paths-object), because the user will be aware of its existence. This allows the documentation provider to finely control what the viewer can see. + +### Handling External Resources + +OpenAPI Descriptions may contain references to external resources that may be dereferenced automatically by consuming tools. External resources may be hosted on different domains that may be untrusted. + +### Handling Reference Cycles + +References in an OpenAPI Description may cause a cycle. Tooling must detect and handle cycles to prevent resource exhaustion. + +### Markdown and HTML Sanitization + +Certain fields allow the use of Markdown which can contain HTML including script. It is the responsibility of tooling to appropriately sanitize the Markdown. + +## Appendix A: Revision History + +| Version | Date | Notes | +| ---- | ---- | ---- | +| 3.2.0 | 2025-09-19 | Release of the OpenAPI Specification 3.2.0 | +| 3.1.2 | 2025-09-19 | Patch release of the OpenAPI Specification 3.1.2 | +| 3.1.1 | 2024-10-24 | Patch release of the OpenAPI Specification 3.1.1 | +| 3.1.0 | 2021-02-15 | Release of the OpenAPI Specification 3.1.0 | +| 3.1.0-rc1 | 2020-10-08 | rc1 of the 3.1 specification | +| 3.1.0-rc0 | 2020-06-18 | rc0 of the 3.1 specification | +| 3.0.4 | 2024-10-24 | Patch release of the OpenAPI Specification 3.0.4 | +| 3.0.3 | 2020-02-20 | Patch release of the OpenAPI Specification 3.0.3 | +| 3.0.2 | 2018-10-08 | Patch release of the OpenAPI Specification 3.0.2 | +| 3.0.1 | 2017-12-06 | Patch release of the OpenAPI Specification 3.0.1 | +| 3.0.0 | 2017-07-26 | Release of the OpenAPI Specification 3.0.0 | +| 3.0.0-rc2 | 2017-06-16 | rc2 of the 3.0 specification | +| 3.0.0-rc1 | 2017-04-27 | rc1 of the 3.0 specification | +| 3.0.0-rc0 | 2017-02-28 | Implementer's Draft of the 3.0 specification | +| 2.0 | 2015-12-31 | Donation of Swagger 2.0 to the OpenAPI Initiative | +| 2.0 | 2014-09-08 | Release of Swagger 2.0 | +| 1.2 | 2014-03-14 | Initial release of the formal document. | +| 1.1 | 2012-08-22 | Release of Swagger 1.1 | +| 1.0 | 2011-08-10 | First release of the Swagger Specification | + +## Appendix B: Data Type Conversion + +Serializing typed data to plain text, which can occur in `text/plain` message bodies or `multipart` parts, as well as in the `application/x-www-form-urlencoded` format in either URL query strings or message bodies, involves significant implementation- or application-defined behavior. + +[Schema Objects](#schema-object) validate data based on the [JSON Schema data model](https://www.ietf.org/archive/id/draft-bhutton-json-schema-01.html#section-4.2.1), which only recognizes four primitive data types: strings (which are [only broadly interoperable as UTF-8](https://datatracker.ietf.org/doc/html/rfc7159#section-8.1)), numbers, booleans, and `null`. +Notably, integers are not a distinct type from other numbers, with `type: "integer"` being a convenience defined mathematically, rather than based on the presence or absence of a decimal point in any string representation. + +The [Parameter Object](#parameter-object), [Header Object](#header-object), and [Encoding Object](#encoding-object) offer features to control how to arrange values from array or object types. +They can also be used to control how strings are further encoded to avoid reserved or illegal characters. +However, there is no general-purpose specification for converting schema-validated non-UTF-8 primitive data types (or entire arrays or objects) to strings. + +Two cases do offer standards-based guidance: + +* [RFC3987](https://datatracker.ietf.org/doc/html/rfc3987#section-3.1) provides guidance for converting non-Unicode strings to UTF-8, particularly in the context of URIs (and by extension, the form media types which use the same encoding rules) +* [RFC6570](https://www.rfc-editor.org/rfc/rfc6570#section-2.3) specifies which values, including but not limited to `null`, are considered _undefined_ and therefore treated specially in the expansion process when serializing based on that specification + +Implementations of RFC6570 often have their own conventions for converting non-string values, but these are implementation-specific and not defined by the RFC itself. +This is one reason for the OpenAPI Specification to leave these conversions as implementation-defined: It allows using RFC6570 implementations regardless of how they choose to perform the conversions. + +To control the serialization of numbers, booleans, and `null` (or other values RFC6570 deems to be undefined) more precisely, schemas can be defined as `type: "string"` and constrained using `pattern`, `enum`, `format`, and other keywords to communicate how applications must pre-convert their data prior to schema validation. +The resulting strings would not require any further type conversion. + +The `format` keyword can assist in serialization. +Some formats (such as `date-time`) are unambiguous, while others (such as [`decimal`](https://spec.openapis.org/registry/format/decimal.html) in the [Format Registry](https://spec.openapis.org/registry/format/)) are less clear. +However, care must be taken with `format` to ensure that the specific formats are supported by all relevant tools as unrecognized formats are ignored. + +Requiring input as pre-formatted, schema-validated strings also improves round-trip interoperability as not all programming languages and environments support the same data types. + +## Appendix C: Using RFC6570-Based Serialization + +Serialization is defined in terms of [RFC6570](https://www.rfc-editor.org/rfc/rfc6570) URI Templates in three scenarios: + +| Object | Condition | +| ---- | ---- | +| [Parameter Object](#parameter-object) | When `schema` is present | +| [Header Object](#header-object) | When `schema` is present | +| [Encoding Object](#encoding-object) | When encoding for `application/x-www-form-urlencoded` and any of `style`, `explode`, or `allowReserved` are used | + +Implementations of this specification MAY use an implementation of RFC6570 to perform variable expansion, however, some caveats apply. + +Note that when using `style: "form"` RFC6570 expansion to produce an `application/x-www-form-urlencoded` HTTP message body, it is necessary to remove the `?` prefix that is produced to satisfy the URI query string syntax. + +When using `style` and similar keywords to produce a `multipart/form-data` body, the query string names are placed in the `name` parameter of the `Content-Disposition` part header, and the values are placed in the corresponding part body; the `?`, `=`, and `&` characters are not used, and URI percent encoding is not applied, regardless of the value of `allowReserved`. +Note that while [RFC7578](https://datatracker.ietf.org/doc/html/rfc7578) allows using [[RFC3986]] percent-encoding in "file names", it does not otherwise address the use of percent-encoding within the format. +Users are expected to provide names and data with any escaping necessary for conformance with RFC7578 already applied. + +Note also that not all RFC6570 implementations support all four levels of operators, all of which are needed to fully support the OpenAPI Specification's usage. +Using an implementation with a lower level of support will require additional manual construction of URI Templates to work around the limitations. + +### Equivalences Between Fields and RFC6570 Operators + +Certain field values translate to RFC6570 [operators](https://datatracker.ietf.org/doc/html/rfc6570#section-2.2) (or lack thereof): + +| field | value | equivalent | +| ---- | ---- | ---- | +| style | `"simple"` | _n/a_ | +| style | `"matrix"` | `;` prefix operator | +| style | `"label"` | `.` prefix operator | +| style | `"form"` | `?` prefix operator | +| allowReserved | `false` | _n/a_ | +| allowReserved | `true` | `+` prefix operator | +| explode | `false` | _n/a_ | +| explode | `true` | `*` modifier suffix | + +Multiple `style: "form"` parameters are equivalent to a single RFC6570 [variable list](https://www.rfc-editor.org/rfc/rfc6570#section-2.2) using the `?` prefix operator: + +```yaml +parameters: +- name: foo + in: query + schema: + type: object + explode: true +- name: bar + in: query + schema: + type: string +``` + +This example is equivalent to RFC6570's `{?foo*,bar}`, and **NOT** `{?foo*}{&bar}`. The latter is problematic because if `foo` is not defined, the result will be an invalid URI. +The `&` prefix operator has no equivalent in the Parameter Object. + +Note that RFC6570 does not specify behavior for compound values beyond the single level addressed by `explode`. The result of using objects or arrays where no behavior is clearly specified for them is implementation-defined. + +### Delimiters in Parameter Values + +Delimiters used by RFC6570 expansion, such as the `,` used to join arrays or object values with `style: "simple"`, are all automatically percent-encoded as long as `allowReserved` is `false`. +Note that since RFC6570 does not define a way to parse variables based on a URI Template, users must take care to first split values by delimiter before percent-decoding values that might contain the delimiter character. + +When `allowReserved` is `true`, both percent-encoding (prior to joining values with a delimiter) and percent-decoding (after splitting on the delimiter) must be done manually at the correct time. + +See [Appendix E](#appendix-e-percent-encoding-and-form-media-types) for additional guidance on handling delimiters for `style` values with no RFC6570 equivalent that already need to be percent-encoded when used as delimiters. + +### Non-RFC6570 Field Values and Combinations + +Configurations with no direct [RFC6570](https://datatracker.ietf.org/doc/html/rfc6570) equivalent SHOULD also be handled according to RFC6570. +Implementations MAY create a properly delimited URI Template with variables for individual names and values using RFC6570 regular or reserved expansion (based on `allowReserved`). + +This includes: + +* the styles `pipeDelimited`, `spaceDelimited`, and `deepObject`, which have no equivalents at all +* the combination of the style `form` with `allowReserved: true`, which is not allowed because only one prefix operator can be used at a time +* any parameter name that is not a legal RFC6570 variable name + +The Parameter Object's `name` field has a much more permissive syntax than RFC6570 [variable name syntax](https://www.rfc-editor.org/rfc/rfc6570#section-2.3). +A parameter name that includes characters outside of the allowed RFC6570 variable character set MUST be percent-encoded before it can be used in a URI Template. + +### Examples + +Let's say we want to use the following data in a form query string, where `formulas` is exploded, and `words` is not: + +```yaml +formulas: + a: x+y + b: x/y + c: x^y +words: +- math +- is +- fun +``` + +#### RFC6570-Equivalent Expansion + +This array of Parameter Objects uses regular `style: "form"` expansion, fully supported by [RFC6570](https://datatracker.ietf.org/doc/html/rfc6570): + +```yaml +parameters: +- name: formulas + in: query + schema: + type: object + additionalProperties: + type: string + explode: true +- name: words + in: query + schema: + type: array + items: + type: string +``` + +This translates to the following URI Template: + +```uritemplate +{?formulas*,words} +``` + +when expanded with the data given earlier, we get: + +```uri +?a=x%2By&b=x%2Fy&c=x%5Ey&words=math,is,fun +``` + +#### Expansion with Non-RFC6570-Supported Options + +But now let's say that (for some reason), we really want that `/` in the `b` formula to show up as-is in the query string, and we want our words to be space-separated like in a written phrase. +To do that, we'll add `allowReserved: true` to `formulas`, and change to `style: "spaceDelimited"` for `words`: + +```yaml +parameters: +- name: formulas + in: query + schema: + type: object + additionalProperties: + type: string + explode: true + allowReserved: true +- name: words + in: query + style: spaceDelimited + explode: false + schema: + type: array + items: + type: string +``` + +We can't combine the `?` and `+` RFC6570 [prefixes](https://datatracker.ietf.org/doc/html/rfc6570#section-2.4.1), and there's no way with RFC6570 to replace the `,` separator with a space character. +So we need to restructure the data to fit a manually constructed URI Template that passes all of the pieces through the right sort of expansion. + +Here is one such template, using a made-up convention of `words.0` for the first entry in the words value, `words.1` for the second, and `words.2` for the third: + +```uritemplate +?a={+a}&b={+b}&c={+c}&words={words.0} {words.1} {words.2} +``` + +RFC6570 [mentions](https://www.rfc-editor.org/rfc/rfc6570.html#section-2.4.2) the use of `.` "to indicate name hierarchy in substructures," but does not define any specific naming convention or behavior for it. +Since the `.` usage is not automatic, we'll need to construct an appropriate input structure for this new template. + +We'll also need to pre-process the values for `formulas` because while `/` and most other reserved characters are allowed in the query string by RFC3986, `[`, `]`, and `#` [are not](https://datatracker.ietf.org/doc/html/rfc3986#appendix-A), and `&`, `=`, and `+` all have [special behavior](https://url.spec.whatwg.org/#application/x-www-form-urlencoded) in the `application/x-www-form-urlencoded` format, which is what we are using in the query string. + +Setting `allowReserved: true` does _not_ make reserved characters that are not allowed in URIs allowed, it just allows them to be _passed through expansion unchanged_, for example because some other specification has defined a particular meaning for them. + +Therefore, users still need to percent-encode any reserved characters that are _not_ being passed through due to a special meaning because reserved expansion does not know which reserved characters are being used, and which should still be percent-encoded. +However, reserved expansion, unlike regular expansion, _will_ leave the pre-percent-encoded triples unchanged. +See also [Appendix E](#appendix-e-percent-encoding-and-form-media-types) for further guidance on percent-encoding and form media types, including guidance on handling the delimiter characters for `spaceDelimited`, `pipeDelimited`, and `deepObject` in parameter names and values. + +So here is our data structure that arranges the names and values to suit the template above, where values for `formulas` have `[]#&=+` pre-percent encoded (although only `+` appears in this example): + +```yaml +a: x%2By +b: x/y +c: x^y +words.0: math +words.1: is +words.2: fun +``` + +Expanding our manually assembled template with our restructured data yields the following query string: + +```uri +?a=x%2By&b=x/y&c=x%5Ey&words=math%20is%20fun +``` + +The `/` and the pre-percent-encoded `%2B` have been left alone, but the disallowed `^` character (inside a value) and space characters (in the template but outside of the expanded variables) were percent-encoded. + +#### Undefined Values and Manual URI Template Construction + +Care must be taken when manually constructing templates to handle the values that RFC6570 [considers to be _undefined_](https://datatracker.ietf.org/doc/html/rfc6570#section-2.3) correctly: + +```yaml +formulas: {} +words: +- hello +- world +``` + +Using this data with our original RFC6570-friendly URI Template, `{?formulas*,words}`, produces the following: + +```uri +?words=hello,world +``` + +This means that the manually constructed URI Template and restructured data need to leave out the `formulas` object entirely so that the `words` parameter is the first and only parameter in the query string. + +Restructured data: + +```yaml +words.0: hello +words.1: world +``` + +Manually constructed URI Template: + +```uritemplate +?words={words.0} {words.1} +``` + +Result: + +```uri +?words=hello%20world +``` + +#### Illegal Variable Names as Parameter Names + +In this example, the heart emoji is not legal in URI Template names (or URIs): + +```yaml +parameters: +- name: ❤️ + in: query + schema: + type: string +``` + +We can't just pass `❤️: "love!"` to an RFC6570 implementation. +Instead, we have to pre-percent-encode the name (which is a six-octet UTF-8 sequence) in both the data and the URI Template: + +```yaml +"%E2%9D%A4%EF%B8%8F": love! +``` + +```uritemplate +{?%E2%9D%A4%EF%B8%8F} +``` + +This will expand to the result: + +```uri +?%E2%9D%A4%EF%B8%8F=love%21 +``` + +## Appendix D: Serializing Headers and Cookies + +HTTP headers have inconsistent rules regarding what characters are allowed, and how some or all disallowed characters can be escaped and included. +While the `quoted-string` ABNF rule given in [[RFC9110]] [Section 5.4.6](https://www.rfc-editor.org/rfc/rfc9110.html#section-5.6.4) is the most common escaping solution, it is not sufficiently universal to apply automatically. +For example, a strong `ETag` looks like `"foo"` (with quotes, regardless of the contents), and a weak `ETag` looks like `W/"foo"` (note that only part of the value is quoted); the contents of the quotes for this header are also not escaped in the way `quoted-string` contents are. + +For this reason, any data being passed to a header by way of a [Parameter](#parameter-object) or [Header](#header-object) Object needs to be quoted and escaped prior to passing it to the OAS implementation, and the parsed header values are expected to contain the quotes and escapes. + +### Percent-Encoding and Cookies + +[RFC6570](https://www.rfc-editor.org/rfc/rfc6570)'s percent-encoding behavior is not always appropriate for `in: "cookie"` parameters. +While percent-encoding seems more common as an escaping mechanism than the base64 encoding (`contentEncoding`: "base64") recommended by [[RFC6265]], [section 5.6 of draft-ietf-httpbis-rfc6265bis-20](https://www.ietf.org/archive/id/draft-ietf-httpbis-rfc6265bis-20.html#section-5.6), the proposed update to that RFC notes that cookies sent in the `Set-Cookie` response header that appear to be percent-encoded MUST NOT be decoded when stored by the client, which would mean that they are already encoded when retrieved from that storage for use in the `Cookie` request header. +The behavior of `style: "cookie"` assumes this usage, and _does not_ apply or remove percent-encoding. + +If automatic percent-encoding is desired, `style: "form"` with a primitive value or with the non-default `explode` value of `false` provides this behavior. +However, note that the default value of `explode: true` for `style: "form"` with non-primitive values uses the wrong delimiter for cookies (`&` instead of `;` followed by a single space) to set multiple cookie values. +Using `style: "form"` with `in: "cookie"` via an RFC6570 implementation requires stripping the `?` prefix, as when producing `application/x-www-form-urlencoded` message bodies. +To allow the full use of `style: "form"` with `in: "cookie"`, use the `allowReserved` field. + +## Appendix E: Percent-Encoding and Form Media Types + +_**NOTE:** In this section, the `application/x-www-form-urlencoded` and `multipart/form-data` media types are abbreviated as `form-urlencoded` and `form-data`, respectively, for readability._ + +Percent-encoding is used in URIs and media types that derive their syntax from URIs. +The fundamental rules of percent-encoding are: + +* The set of characters that MUST be encoded varies depending on which version of which specification you use, and (for URIs) in which part of the URI the character appears. +* The way an unencoded `+` character is decoded depends on whether you are using `application/x-www-form-urlencoded` rules or more general URI rules; this is the only time where choice of decoding algorithm can change the outcome. +* Encoding more characters than necessary is always safe in terms of the decoding process, but may produce non-normalized URIs. +* In practice, some systems tolerate or even expect unencoded characters that some or all percent-encoding specifications require to be encoded; this can cause interoperability issues with more strictly compliant implementations. + +The rest of this appendix provides more detailed guidance based on the above rules. + +### Percent-Encoding Character Classes + +This process is concerned with three classes of characters, the names of which vary among specifications but are defined as follows for the purposes of this section: + +* _unreserved_ characters do not need to be percent-encoded; while it is safe to percent-encode them, doing so produces a URI that is [not normalized](https://datatracker.ietf.org/doc/html/rfc3986#section-6.2.2.2) +* _reserved_ characters either have special behavior in the URI syntax (such as delimiting components) or are reserved for other specifications that need to define special behavior (e.g. `form-urlencoded` defines special behavior for `=`, `&`, and `+`) +* _unsafe_ characters are known to cause problems when parsing URIs in certain environments + +Unless otherwise specified, this section uses RFC3986's definition of [reserved](https://datatracker.ietf.org/doc/html/rfc3986#section-2.2) and [unreserved](https://datatracker.ietf.org/doc/html/rfc3986#section-2.3), and defines the unsafe set as all characters not included in either of those sets. + +### Percent-Encoding and `form-urlencoded` + +Each URI component (such as the query string) considers some of the reserved characters to be unsafe, either because they serve as delimiters between the components (e.g. `#`), or (in the case of `[` and `]`) were historically considered globally unsafe but were later given reserved status for limited purposes. + +Reserved characters with no special meaning defined within a component can be left un-percent encoded. +However, other specifications can define special meanings, requiring percent-encoding for those characters outside of the additional special meanings. + +The `form-urlencoded` media type defines special meanings for `=` and `&` as delimiters, and `+` as the replacement for the space character (instead of its percent-encoded form of `%20`). +This means that while these three characters are reserved-but-allowed in query strings by RFC3986, they must be percent-encoded in `form-urlencoded` query strings except when used for their `form-urlencoded` purposes; see [Appendix C](#appendix-c-using-rfc6570-based-serialization) for an example of handling `+` in form values. + +### Percent-Encoding and `form-data` + +[RFC7578](https://datatracker.ietf.org/doc/html/rfc7578#section-2) suggests RFC3986-based percent-encoding as a mechanism to keep text-based per-part header data such as file names within the ASCII character set. +This suggestion was not part of older (pre-2015) specifications for `form-data`, so care must be taken to ensure interoperability. +Users wishing to use percent-encoding in this way MUST provide the data in percent-encoded form, as percent-encoding is not automatically applied for this media type regardless of which Encoding Object fields are used. + +The `form-data` media type allows arbitrary text or binary data in its parts, so percent-encoding or similar escaping is not needed in general. + +### Generating and Validating URIs and `form-urlencoded` Strings + +URI percent encoding and the `form-urlencoded` media type have complex specification histories spanning multiple revisions and, in some cases, conflicting claims of ownership by different standards bodies. +Unfortunately, these specifications each define slightly different percent-encoding rules, which need to be taken into account if the URIs or `form-urlencoded` message bodies will be subject to strict validation. +(Note that many URI parsers do not perform validation by default, if at all.) + +This specification normatively cites the following relevant standards: + +| Specification | Date | OAS Usage | Percent-Encoding | Notes | +| ---- | ---- | ---- | ---- | ---- | +| [RFC3986](https://www.rfc-editor.org/rfc/rfc3986) | 01/2005 | URI/URL syntax, including non-`form-urlencoded` content-based serialization | [[RFC3986]] | obsoletes [[?RFC1738]], [[?RFC2396]] | +| [RFC6570](https://www.rfc-editor.org/rfc/rfc6570) | 03/2012 | style-based serialization | [[RFC3986]] | does not use `+` for query strings | +| [WHATWG-URL Section 5](https://url.spec.whatwg.org/#application/x-www-form-urlencoded) | "living" standard | content-based `form/url-encoded` serialization, including HTTP message contents | [WHATWG-URL Section 1.3](https://url.spec.whatwg.org/#application-x-www-form-urlencoded-percent-encode-set) | obsoletes [[?RFC1866]], [[?HTML401]] | + +Style-based serialization with percent-encoding is used in the [Parameter Object](#parameter-object) when `schema` is present, and in the [Encoding Object](#encoding-object) when at least one of `style`, `explode`, or `allowReserved` is present. +See [Appendix C](#appendix-c-using-rfc6570-based-serialization) for more details of RFC6570's two different approaches to percent-encoding, including an example involving `+`. + +Content-based serialization is defined by the [Media Type Object](#media-type-object), and used with the [Parameter Object](#parameter-object) and [Header Object](#header-object) when the `content` field is present, and with the [Encoding Object](#encoding-object) based on the `contentType` field when the fields `style`, `explode`, and `allowReserved` are absent. +For use in URIs, each part is encoded based on the media type (e.g. `text/plain` or `application/json`), and must then be percent-encoded for use in a `form-urlencoded` string (in form-style query strings), or for general URI use in other URL components, unless the media type already incorporates URI percent-encoding. + +#### Interoperability with Historical Specifications + +Prior versions of this specification required [[?RFC1866]] and its use of [[?RFC1738]] percent-encoding rules in place of [[WHATWG-URL]]. +The [[WHATWG-URL]] `form-urlencoded` rules represent the current browser consensus on that media type, and avoid the ambiguity introduced by unclear paraphrasing of RFC1738 in RFC1866. + +Users needing conformance with RFC1866/RFC1738 are advised to check their tooling and library behavior carefully. + +#### Interoperability with Web Browser Environments + +WHATWG is a [web browser-oriented](https://whatwg.org/faq#what-is-the-whatwg-working-on) standards group that has defined a "URL Living Standard" for parsing and serializing URLs in a browser context, including parsing and serializing `form-urlencoded` data. +WHATWG's percent-encoding rules for query strings are different depending on whether the query string is [being treated as `form-urlencoded`](https://url.spec.whatwg.org/#application-x-www-form-urlencoded-percent-encode-set) (where it requires more percent-encoding than [[?RFC1738]]) or [as part of the generic syntax](https://url.spec.whatwg.org/#query-percent-encode-set), where its requirements differ from [[RFC3986]]. + +This specification only depends on WHATWG for its `form-urlencoded` specification. +Implementations using the query string in other ways are advised that, the distinctions between WHATWG's non-`form-urlencoded` query string rules and RFC3986 require careful consideration, incorporating both WHATWG's percent-encoding sets and their set of valid Unicode code points for URLs; see [Percent-Encoding and Illegal or Reserved Delimiters](#percent-encoding-and-illegal-or-reserved-delimiters) for more information. + +### Decoding URIs and `form-urlencoded` Strings + +The percent-decoding algorithm does not care which characters were or were not percent-decoded, which means that URIs percent-encoded according to any specification will be decoded correctly. + +Similarly, all `form-urlencoded` decoding algorithms simply add `+`-for-space handling to the percent-decoding algorithm, and will work regardless of the encoding specification used. + +However, care must be taken to use `form-urlencoded` decoding if `+` represents a space, and to use regular percent-decoding if `+` represents itself as a literal value. + +### Percent-Encoding and Illegal or Reserved Delimiters + +The `[`, `]`, `|`, and space characters, which are used as delimiters for the `deepObject`, `pipeDelimited`, and `spaceDelimited` styles, respectively, all MUST be percent-encoded to comply with [[RFC3986]]. +This requires users to pre-encode the character(s) in some other way in parameter names and values to distinguish them from the delimiter usage when using one of these styles. + +The space character is always illegal and encoded in some way by all implementations of all versions of the relevant standards. +While one could use the `form-urlencoded` convention of `+` to distinguish spaces in parameter names and values from `spaceDelimited` delimiters encoded as `%20`, the specifications define the decoding as a single pass, making it impossible to distinguish the different usages in the decoded result unless a non-standard parsing algorithm is used that separates based on one delimiter before decoding the other. +Any such non-standard parsing approach will not be interoperable across all tools. + +Some environments use `[`, `]`, and possibly `|` unencoded in query strings without apparent difficulties. +WHATWG's generic query string rules do not require percent-encoding them in non-`form-urlencoded` query strings, although it also excludes them from the set of valid URL Unicode code points. +Code that relies on leaving these delimiters unencoded, while using regular percent-encoding for them within names and values, is not guaranteed to be interoperable across all implementations. + +For maximum interoperability, it is RECOMMENDED to either define and document an additional escape convention while percent-encoding the delimiters for these styles, or to avoid these styles entirely. +The exact method of additional encoding/escaping is left to the API designer, and is expected to be performed before serialization and encoding described in this specification, and reversed after this specification's encoding and serialization steps are reversed. +This keeps it outside of the processes governed by this specification. + +## Appendix F: Examples of Base URI Determination and Reference Resolution + +This section shows each of the four possible sources of base URIs, followed by an example with a relative `$self` and `$id`. + +### Base URI Within Content + +A base URI within the resource's content ([RFC3986](https://tools.ietf.org/html/rfc3986#section-5.1.1)) is the highest-precedence source of a base URI. +For OpenAPI documents, this source is the OpenAPI Object's `$self` field, while for Schema Objects that contain a `$id`, or are a subschema of a Schema Object containing a `$id`, the source is the `$id` field: + +Assume the retrieval URI of the following document is `file://home/someone/src/api/openapi.yaml`: + +```yaml +openapi: 3.2.0 +$self: https://example.com/api/openapi +info: + title: Example API + version: 1.0 +paths: + /foo: + get: + requestBody: + $ref: "shared/foo#/components/requestBodies/Foo" +``` + +Assume the retrieval URI for the following document is `https://git.example.com/shared/blob/main/shared/foo.yaml`: + +```yaml +openapi: 3.2.0 +$self: https://example.com/api/shared/foo +info: + title: Shared components for all APIs + version: 1.0 +components: + requestBodies: + Foo: + content: + application/json: + schema: + $ref: ../schemas/foo + schemas: + Foo: + $id: https://example.com/api/schemas/foo + properties: + bar: + $ref: bar + Bar: + $id: https://example.com/api/schemas/bar + type: string +``` + +In this example, the retrieval URIs are irrelevant because both documents define `$self`. + +The relative `$ref` in the first document is resolved against `$self` to produce `https://example.com/api/shared/foo#/components/requestBodies/Foo`. +The portion of that URI before the `#` matches the `$self` of the second document, so the reference target is resolved to `#/components/requestBodies/Foo` in that second document. + +In that document, the `$ref` in the Request Body Object is resolved using that document's `$self` as the base URI, producing `https://example.com/api/schemas/foo`. +This matches the `$id` at `#/components/schemas/Foo/$id` so it points to that Schema Object. +That Schema Object has a subschema with `$ref: bar`, which is resolved against the `$id` to produce `https://example.com/api/schemas/bar`, which matches the `$id` at `#/components/schemas/Bar/$id`. + +To guarantee interoperability, Schema Objects containing an `$id`, or that are under a schema containing an `$id`, MUST be referenced by the nearest such `$id` for the non-fragment part of the reference. +As the JSON Schema specification notes, using a base URI other than the nearest `$id` and crossing that `$id` with a JSON Pointer fragment [is not interoperable](https://www.ietf.org/archive/id/draft-bhutton-json-schema-01.html#name-json-pointer-fragments-and-). + +Note also that it is impossible for the reference at `#/components/schemas/Foo/properties/bar/$ref` to reference the schema at `#/components/schemas/Bar` using _only_ a JSON Pointer fragment, as the JSON Pointer would be resolved relative to `https://example.com/api/schemas/foo`, not to the OpenAPI document's base URI from `$self`. + +### Base URI From Encapsulating Entity + +If no base URI can be determined within the content, the next location to search is any encapsulating entity ([RFC3986](https://tools.ietf.org/html/rfc3986#section-5.1.2)). + +This is common for Schema Objects encapsulated within an OpenAPI document. +An example of an OpenAPI Object itself being encapsulated in another entity would be a `multipart/related` archive ([[?RFC2557]]), such as the following `multipart/related; boundary="boundary-example"; type="application/openapi+yaml"` document. +Note that this is purely an example, and support for such multipart documents or any other format that could encapsulate an OpenAPI Object is not a requirement of this specification. + +RFC2557 was written to allow sending hyperlinked sets of documents as email attachments, in which case there would not be a retrieval URI for the multipart attachment (although the format could also be used in HTTP as well). + +```multipart +--boundary-example +Content-Type: application/openapi+yaml +Content-Location: https://example.com/api/openapi.yaml + +openapi: 3.2.0 +info: + title: Example API + version: 1.0 + externalDocs: + url: docs.html +components: + requestBodies: + Foo: + content: + application/json: + schema: + $ref: "#/components/api/schemas/Foo" + schemas: + Foo: + properties: + bar: + $ref: schemas/bar +--boundary-example +Content-Type: application/schema+json +Content-Location: https://example.com/api/schemas/bar + +{ + "type": "string" +} +--boundary-example +Content-Type: text/html +Content-Location: https://example.com/api/docs.html + + + + API Documentation + + +

Awesome documentation goes here

+ + +--boundary-example +``` + +In this example, the URI for each part, which also serves as its base URI, comes from the part's `Content-Location` header as specified by RFC2557. +Since the Schema Object at `#/components/schemas/Foo` does not contain an `$id`, the reference in its subschema uses the OpenAPI document's base URI, which is taken from the `Content-Location` header of its part within the `multipart/related` format. +The resulting reference to `https://example.com/schemas/bar` matches the `Content-Location` header of the second part, which according to RFC2557 allows the reference target to be located within the multipart archive. + +Similarly, the `url` field of the [External Documentation Object](#external-documentation-object) is resolved against the base URI from `Content-Location`, producing `https://example.com/api/docs.html` which matches the `Content-Location` of the third part. + +### Base URI From the Retrieval URI + +If no base URI is provided from either of the previous sources, the next source is the retrieval URI ([RFC3986](https://tools.ietf.org/html/rfc3986#section-5.1.3)). + +Assume this document was retrieved from `https://example.com/api/openapis.yaml`: + +```yaml +openapi: 3.2.0 +info: + title: Example API + version: 1.0 +components: + requestBodies: + Foo: + content: + application/json: + schema: + $ref: schemas/foo +``` + +Assume this document was retrieved from `https://example.com/api/schemas/foo`: + +```json +{ + "type": "object", + "properties": { + "bar": { + "type": "string" + } + } +} +``` + +Resolving the `$ref: schemas/foo` against the retrieval URI of the OpenAPI document produces `https://example.com/api/schemas/foo`, the retrieval URI of the JSON Schema document. + +### Application-Specific Default Base URI + +When constructing an OpenAPI document in memory that does not have a `$self`, or an encapsulating entity, or a retrieval URI, applications can resolve internal (fragment-only) references by assuming a default base URI ([RFC3986](https://tools.ietf.org/html/rfc3986#section-5.1.4)). +While this sort of internal resolution can be performed in practice without choosing a base URI, choosing one, such as a URN with a randomly generated UUID (e.g. `urn:uuid:f26cdaad-3193-4398-a838-4ecb7326c4c5`) avoids the need to implement it as a special case. + +### Resolving Relative `$self` and `$id` + +Let's re-consider the first example in this appendix, but with relative URI references for `$self` and `$id`, and retrieval URIs that support that relative usage: + + +Assume that the following is retrieved from `https://staging.example.com/api/openapi`: + +```yaml +openapi: 3.2.0 +$self: /api/openapi +info: + title: Example API + version: 1.0 +paths: + /foo: + get: + requestBody: + $ref: "shared/foo#/components/requestBodies/Foo" +``` + +Assume the retrieval URI for the following document is `https://staging.example.com/api/shared/foo`: + +```yaml +openapi: 3.2.0 +$self: /api/shared/foo +info: + title: Shared components for all APIs + version: 1.0 +components: + requestBodies: + Foo: + content: + application/json: + schema: + $ref: ../schemas/foo + schemas: + Foo: + $id: /api/schemas/foo + properties: + bar: + $ref: bar + Bar: + $id: /api/schemas/bar + type: string +``` + +In this example, all of the `$self` and `$id` values are relative URI references consisting of an absolute path. +This allows the retrieval URI to set the host (and scheme), in this case `https://staging.example.com`, resulting in the first document's `$self` being `https://staging.example.com/openapi`, and the second document's `$self` being `https://staging.example.com/api/shared/foo`, with `$id` values of `https://staging.example.com/api/schemas/foo` and `https://staging.example.com/api/schemas/bar`. +Relative `$self` and `$id` values of this sort allow the same set of documents to work when deployed to other hosts, e.g. `https://example.com` (production) or `https://localhost:8080` (local development). + +## Appendix G: Parsing and Resolution Guidance + +Implementations MAY support complete-document parsing in any of the following ways: + +* Detecting OpenAPI or JSON Schema documents using media types +* Detecting OpenAPI documents through the root `openapi` field +* Detecting JSON Schema documents through detecting keywords or otherwise successfully parsing the document in accordance with the JSON Schema specification + +Additional mechanisms can be used to support documents with Objects other than an OpenAPI Object or a Schema Object at the root, but note that the resulting behavior is implementation-defined: + +* Detecting a document containing a referenceable Object at its root based on the expected type of the reference +* Allowing users to configure the type of documents that might be loaded due to a reference to a non-root Object + +### Warnings Regarding Fragmentary Parsing + +Implementations that parse referenced fragments of OpenAPI content without regard for the content of the rest of the containing document will miss keywords that change the meaning and behavior of the reference target. +In particular, failing to take into account keywords that change the base URI introduces security risks by causing references to resolve to unintended URIs, with unpredictable results. +While some implementations support this sort of parsing due to the requirements of past versions of this specification, in version 3.1 and later, the result of parsing fragments in isolation is _undefined_ and likely to contradict the requirements of this specification. + +While it is possible to structure certain OpenAPI Descriptions to ensure that they will behave correctly when references are parsed as isolated fragments, depending on this is NOT RECOMMENDED. +This specification does not explicitly enumerate the conditions under which such behavior is safe and provides no guarantee for continued safety in any future versions of the OAS. + +### Conflicts Between Field Types and Reference Contexts + +JSON or YAML objects within an OAD are interpreted as specific Objects (such as [Operation Objects](#operation-object), [Response Objects](#response-object), [Reference Objects](#reference-object), etc.) based on their context. Depending on how references are arranged, a given JSON or YAML object can be interpreted in multiple different contexts: + +* As the root object of the [entry document](#openapi-description-structure), which is always interpreted as an OpenAPI Object +* As the Object type implied by its parent Object's field within the document +* As a reference target, with the Object type matching the reference source's context + +If the same JSON/YAML object is parsed multiple times and the respective contexts require it to be parsed as _different_ Object types, the resulting behavior is _implementation defined_, and MAY be treated as an error if detected. An example would be referencing an empty Schema Object under `#/components/schemas` where a Path Item Object is expected, as an empty object is valid for both types. For maximum interoperability, it is RECOMMENDED that OpenAPI Description authors avoid such scenarios. + +### Guidance Regarding Implicit Connections + +The following Objects and Fields involve the use of implicit connections: + +| Source | Target | Alternative | +| ---- | ---- | ---- | +| [Security Requirement Object](#security-requirement-object) `{name}` | [Security Scheme Object](#security-scheme-object) name under the [Components Object](#components-object) | _n/a_ | +| [Discriminator Object](#discriminator-object) `mapping` _(implicit, or explicit name syntax)_ | [Schema Object](#schema-object) name under the Components Object | `mapping` _(explicit URI syntax)_ | +| [Operation Object](#operation-object) `tags` | [Tag Object](#tag-object) `name` (in the [OpenAPI Object](#openapi-object)'s `tags` array) | _n/a_ | +| [Link Object](#link-object) `operationId` | [Operation Object](#operation-object) `operationId` | `operationRef` | + +An additional implicit connection involves appending the templated URL paths of the [Paths Object](#paths-object) to the appropriate [Server Object](#server-object)'s `url` field. +This connection is unambiguous because only the entry document's Paths Object contributes URLs to the described API. + +The implicit connections in the Security Requirement Object and Discriminator Object rely on the _component name_, which is the name of the property holding the component in the appropriately typed sub-object of the Components Object. +For example, the component name of the Schema Object at `#/components/schemas/Foo` is `Foo`. +The implicit connection of `tags` in the Operation Object uses the `name` field of Tag Objects, which (like the Components Object) are found under the root OpenAPI Object. +This means resolving component names and tag names both depend on starting from the correct OpenAPI Object. + +For resolving component and tag name connections from a referenced (non-entry) document, it is RECOMMENDED that tools resolve from the entry document, rather than the current document. +Resolving component and tag name connections from a referenced (non-entry) document to the entry document as recommended under [Resolving Implicit Connections](#resolving-implicit-connections) allows components and Tag Objects to be defined next to the API's deployment information in the top-level array of Server Objects and treated as an interface for referenced documents to access. + +For Security Requirement Objects and Discriminator Objects, it is also possible to keep the resolution within the referenced document by using the URI-reference form that these Objects offer. + +There are no URI-based alternatives for the Operation Object's `tags` field. +OAD authors are advised to use external solutions such as the OpenAPI Initiative's Overlay Specification to simulate sharing [Tag Objects](#tag-object) across multiple documents. + +#### Implicit Connection Resolution Examples + +This section shows how to retrieve an HTTP-accessible multi-document OpenAPI Description (OAD) and resolve a [Security Requirement Object](#security-requirement-object) in the referenced (non-entry) document. +The behavior for Discriminator Object non-URI mappings and for the Operation Object's `tags` field operate on the same principles. + +First, the [entry document](#openapi-description-structure) is where parsing begins. It defines the `MySecurity` security scheme to be JWT-based, and it defines a Path Item as a reference to a component in another document: + +```http +GET /api/description/openapi HTTP/1.1 +Host: www.example.com +Accept: application/openapi+json +``` + +```json +"components": { + "securitySchemes": { + "MySecurity": { + "type": "http", + "scheme": "bearer", + "bearerFormat": "JWT" + } + } +}, +"paths": { + "/foo": { + "$ref": "other#/components/pathItems/Foo" + } +} +``` + +```http +GET /api/description/openapi HTTP/1.1 +Host: www.example.com +Accept: application/openapi+yaml +``` + +```yaml +components: + securitySchemes: + MySecurity: + type: http + scheme: bearer + bearerFormat: JWT +paths: + /foo: + $ref: 'other#/components/pathItems/Foo' +``` + +This entry document references another document, `other`, without using a file extension. This gives the client the flexibility to choose an acceptable format on a resource-by-resource basis, assuming both representations are available: + +```http +GET /api/description/other HTTP/1.1 +Host: www.example.com +Accept: application/openapi+json +``` + +```json +"components": { + "securitySchemes": { + "MySecurity": { + "type": "http", + "scheme": "basic" + } + }, + "pathItems": { + "Foo": { + "get": { + "security": [ + "MySecurity": [] + ] + } + } + } +} +``` + +```http +GET /api/description/other HTTP/1.1 +Host: www.example.com +Accept: application/openapi+yaml +``` + +```yaml +components: + securitySchemes: + MySecurity: + type: http + scheme: basic + pathItems: + Foo: + get: + security: + - MySecurity: [] +``` + +In the `other` document, the referenced path item has a Security Requirement for a Security Scheme, `MySecurity`. The same Security Scheme exists in the original entry document. As outlined in [Resolving Implicit Connections](#resolving-implicit-connections), `MySecurity` is resolved with an [implementation-defined behavior](#undefined-and-implementation-defined-behavior), but the section formally recommends that tools resolve component names from the [entry document](#openapi-description-structure). As with all implementation-defined behavior, it is important to check tool documentation to determine which behavior is supported.