-- | -- Module: Data.Swagger -- Maintainer: Nickolay Kudasov <nickolay@getshoptv.com> -- Stability: experimental -- -- Swagger™ is a project used to describe and document RESTful APIs. -- -- The Swagger specification defines a set of files required to describe such an API. -- These files can then be used by the Swagger-UI project to display the API -- and Swagger-Codegen to generate clients in various languages. -- Additional utilities can also take advantage of the resulting files, such as testing tools. module Data.Swagger ( -- * How to use this library -- $howto -- ** @'Monoid'@ instances -- $monoids -- ** Lenses and prisms -- $lens -- ** Schema specification -- $schema -- ** Manipulation -- $manipulation -- ** Validation -- $validation -- * Re-exports module Data.Swagger.Lens, module Data.Swagger.Optics, module Data.Swagger.Operation, module Data.Swagger.ParamSchema, module Data.Swagger.Schema, module Data.Swagger.Schema.Validation, -- * Swagger specification Swagger(..), Host(..), Scheme(..), -- ** Info types Info(..), Contact(..), License(..), -- ** PathItem PathItem(..), -- ** Operations Operation(..), Tag(..), TagName, -- ** Types and formats SwaggerType(..), Format, Definitions, CollectionFormat(..), -- ** Parameters Param(..), ParamAnySchema(..), ParamOtherSchema(..), ParamLocation(..), ParamName, Header(..), HeaderName, Example(..), -- ** Schemas ParamSchema(..), Schema(..), NamedSchema(..), SwaggerItems(..), Xml(..), Pattern, AdditionalProperties(..), -- ** Responses Responses(..), Response(..), HttpStatusCode, -- ** Security SecurityScheme(..), SecuritySchemeType(..), SecurityRequirement(..), SecurityDefinitions(..), -- *** API key ApiKeyParams(..), ApiKeyLocation(..), -- *** OAuth2 OAuth2Params(..), OAuth2Flow(..), AuthorizationURL, TokenURL, -- ** External documentation ExternalDocs(..), -- ** References Reference(..), Referenced(..), -- ** Miscellaneous MimeList(..), URL(..), ) where import Data.Swagger.Lens import Data.Swagger.Optics () import Data.Swagger.Operation import Data.Swagger.ParamSchema import Data.Swagger.Schema import Data.Swagger.Schema.Validation import Data.Swagger.Internal -- $setup -- >>> import Control.Lens -- >>> import Data.Aeson -- >>> import Data.Monoid -- >>> import Data.Proxy -- >>> import GHC.Generics -- >>> :set -XDeriveGeneric -- >>> :set -XOverloadedStrings -- >>> :set -XOverloadedLists -- >>> :set -fno-warn-missing-methods -- $howto -- -- This section explains how to use this library to work with Swagger specification. -- $monoids -- -- Virtually all types representing Swagger specification have @'Monoid'@ instances. -- The @'Monoid'@ type class provides two methods — @'mempty'@ and @'mappend'@. -- -- In this library you can use @'mempty'@ for a default/empty value. For instance: -- -- >>> encode (mempty :: Swagger) -- "{\"swagger\":\"2.0\",\"info\":{\"title\":\"\",\"version\":\"\"}}" -- -- As you can see some spec properties (e.g. @"version"@) are there even when the spec is empty. -- That is because these properties are actually required ones. -- -- You /should/ always override the default (empty) value for these properties, -- although it is not strictly necessary: -- -- >>> encode mempty { _infoTitle = "Todo API", _infoVersion = "1.0" } -- "{\"title\":\"Todo API\",\"version\":\"1.0\"}" -- -- You can merge two values using @'mappend'@ or its infix version @('<>')@: -- -- >>> encode $ mempty { _infoTitle = "Todo API" } <> mempty { _infoVersion = "1.0" } -- "{\"title\":\"Todo API\",\"version\":\"1.0\"}" -- -- This can be useful for combining specifications of endpoints into a whole API specification: -- -- @ -- \-\- /account subAPI specification -- accountAPI :: Swagger -- -- \-\- /task subAPI specification -- taskAPI :: Swagger -- -- \-\- while API specification is just a combination -- \-\- of subAPIs' specifications -- api :: Swagger -- api = accountAPI <> taskAPI -- @ -- $lens -- -- Note: if you're working with the <https://hackage.haskell.org/package/optics optics> library, take a look at "Data.Swagger.Optics". -- -- Since @'Swagger'@ has a fairly complex structure, lenses and prisms are used -- to work comfortably with it. In combination with @'Monoid'@ instances, lenses -- make it fairly simple to construct/modify any part of the specification: -- -- >>> :{ -- encode $ (mempty :: Swagger) -- & definitions .~ [ ("User", mempty & type_ ?~ SwaggerString) ] -- & paths .~ -- [ ("/user", mempty & get ?~ (mempty -- & produces ?~ MimeList ["application/json"] -- & at 200 ?~ ("OK" & _Inline.schema ?~ Ref (Reference "User")) -- & at 404 ?~ "User info not found")) ] -- :} -- "{\"swagger\":\"2.0\",\"info\":{\"title\":\"\",\"version\":\"\"},\"paths\":{\"/user\":{\"get\":{\"produces\":[\"application/json\"],\"responses\":{\"200\":{\"description\":\"OK\",\"schema\":{\"$ref\":\"#/definitions/User\"}},\"404\":{\"description\":\"User info not found\"}}}}},\"definitions\":{\"User\":{\"type\":\"string\"}}}" -- -- In the snippet above we declare an API with a single path @/user@. This path provides method @GET@ -- which produces @application/json@ output. It should respond with code @200@ and body specified -- by schema @User@ which is defined in @'definitions'@ property of swagger specification. -- Alternatively it may respond with code @404@ meaning that user info is not found. -- -- For convenience, @swagger2@ uses /classy field lenses/. It means that -- field accessor names can be overloaded for different types. One such -- common field is @'description'@. Many components of a Swagger specification -- can have descriptions, and you can use the same name for them: -- -- >>> encode $ (mempty :: Response) & description .~ "No content" -- "{\"description\":\"No content\"}" -- >>> :{ -- encode $ (mempty :: Schema) -- & type_ ?~ SwaggerBoolean -- & description ?~ "To be or not to be" -- :} -- "{\"description\":\"To be or not to be\",\"type\":\"boolean\"}" -- -- @'ParamSchema'@ is basically the /base schema specification/ and many types contain it (see @'HasParamSchema'@). -- So for convenience, all @'ParamSchema'@ fields are transitively made fields of the type that has it. -- For example, you can use @'type_'@ to access @'SwaggerType'@ of @'Header'@ schema without having to use @'paramSchema'@: -- -- >>> encode $ (mempty :: Header) & type_ ?~ SwaggerNumber -- "{\"type\":\"number\"}" -- -- Additionally, to simplify working with @'Response'@, both @'Operation'@ and @'Responses'@ -- have direct access to it via @'at' code@. Example: -- -- >>> :{ -- encode $ (mempty :: Operation) -- & at 404 ?~ "Not found" -- :} -- "{\"responses\":{\"404\":{\"description\":\"Not found\"}}}" -- -- You might've noticed that @'type_'@ has an extra underscore in its name -- compared to, say, @'description'@ field accessor. -- This is because @type@ is a keyword in Haskell. -- A few other field accessors are modified in this way: -- -- - @'in_'@, @'type_'@, @'default_'@ (as keywords); -- - @'maximum_'@, @'minimum_'@, @'head_'@ (as conflicting with @Prelude@); -- - @'enum_'@ (as conflicting with @Control.Lens@). -- $schema -- -- @'ParamSchema'@ and @'Schema'@ are the two core types for data model specification. -- -- @'ParamSchema' t@ specifies all the common properties, available for every data schema. -- The @t@ parameter imposes some restrictions on @type@ and @items@ properties (see @'SwaggerType'@ and @'SwaggerItems'@). -- -- @'Schema'@ is used for request and response bodies and allows specifying objects -- with properties in addition to what @'ParamSchema'@ provides. -- -- In most cases you will have a Haskell data type for which you would like to -- define a corresponding schema. To facilitate this use case -- @swagger2@ provides two classes for schema encoding. -- Both these classes provide means to encode /types/ as Swagger /schemas/. -- -- @'ToParamSchema'@ is intended to be used for primitive API endpoint parameters, -- such as query parameters, headers and URL path pieces. -- Its corresponding value-encoding class is @'ToHttpApiData'@ (from @http-api-data@ package). -- -- @'ToSchema'@ is used for request and response bodies and mostly differ from -- primitive parameters by allowing objects/mappings in addition to primitive types and arrays. -- Its corresponding value-encoding class is @'ToJSON'@ (from @aeson@ package). -- -- While lenses and prisms make it easy to define schemas, it might be that you don't need to: -- @'ToSchema'@ and @'ToParamSchema'@ classes both have default @'Generic'@-based implementations! -- -- @'ToSchema'@ default implementation is also aligned with @'ToJSON'@ default implementation with -- the only difference being for sum encoding. @'ToJSON'@ defaults sum encoding to @'defaultTaggedObject'@, -- while @'ToSchema'@ defaults to something which corresponds to @'ObjectWithSingleField'@. This is due to -- @'defaultTaggedObject'@ behavior being hard to specify in Swagger. -- -- Here's an example showing @'ToJSON'@–@'ToSchema'@ correspondance: -- -- >>> data Person = Person { name :: String, age :: Integer } deriving Generic -- >>> instance ToJSON Person -- >>> instance ToSchema Person -- >>> encode (Person "David" 28) -- "{\"age\":28,\"name\":\"David\"}" -- >>> encode $ toSchema (Proxy :: Proxy Person) -- "{\"required\":[\"name\",\"age\"],\"properties\":{\"name\":{\"type\":\"string\"},\"age\":{\"type\":\"integer\"}},\"type\":\"object\"}" -- -- Please note that not all valid Haskell data types will have a proper swagger schema. For example while we can derive a -- schema for basic enums like -- -- >>> data SampleEnum = ChoiceOne | ChoiceTwo deriving Generic -- >>> instance ToSchema SampleEnum -- >>> instance ToJSON SampleEnum -- -- and for sum types that have constructors with values -- -- >>> data SampleSumType = ChoiceInt Int | ChoiceString String deriving Generic -- >>> instance ToSchema SampleSumType -- >>> instance ToJSON SampleSumType -- -- we can not derive a valid schema for a mix of the above. The following will result in a type error -- -- >>> data BadMixedType = ChoiceBool Bool | JustTag deriving Generic -- >>> instance ToSchema BadMixedType -- ... -- ... error: -- ... • Cannot derive Generic-based Swagger Schema for BadMixedType -- ... BadMixedType is a mixed sum type (has both unit and non-unit constructors). -- ... Swagger does not have a good representation for these types. -- ... Use genericDeclareNamedSchemaUnrestricted if you want to derive schema -- ... that matches aeson's Generic-based toJSON, -- ... but that's not supported by some Swagger tools. -- ... -- ... In the instance declaration for ‘ToSchema BadMixedType’ -- -- We can use 'genericDeclareNamedSchemaUnrestricted' to try our best to represent this type as a Swagger Schema and match 'ToJSON': -- -- >>> data BadMixedType = ChoiceBool Bool | JustTag deriving Generic -- >>> instance ToSchema BadMixedType where declareNamedSchema = genericDeclareNamedSchemaUnrestricted defaultSchemaOptions -- >>> instance ToJSON BadMixedType -- -- $manipulation -- Sometimes you have to work with an imported or generated @'Swagger'@. -- For instance, <servant-swagger http://hackage.haskell.org/package/servant-swagger> generates basic @'Swagger'@ -- for a type-level servant API. -- -- Lenses and prisms can be used to manipulate such specification to add additional information, tags, extra responses, etc. -- To facilitate common needs, @"Data.Swagger.Operation"@ module provides useful helpers. -- $validation -- While @'ToParamSchema'@ and @'ToSchema'@ provide means to easily obtain schemas for Haskell types, -- there is no static mechanism to ensure those instances correspond to the @'ToHttpApiData'@ or @'ToJSON'@ instances. -- -- @"Data.Swagger.Schema.Validation"@ addresses @'ToJSON'@/@'ToSchema'@ validation.