mirror of
https://github.com/hasura/graphql-engine.git
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c861f0b09d
PR-URL: https://github.com/hasura/graphql-engine-mono/pull/3443 GitOrigin-RevId: 92ab7ccc004fedb149f336b0585e6f002e08e2a9
590 lines
27 KiB
Haskell
590 lines
27 KiB
Haskell
{-# LANGUAGE LambdaCase #-}
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{-# LANGUAGE OverloadedStrings #-}
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-- |
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-- Module : Hasura.Server.OpenAPI
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-- Description : Builds an OpenAPI specification for the REST endpoints from a SchemaCache via the `declareOpenApiSpec` function.
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--
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-- The implementation currently iterates over the endpoints building up `EndpointData` for each then exposes this as an OpenAPI Schema.
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--
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-- Most functions are in the `Declare` monad so that they can add new component definitions on the fly that can be referenced.
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-- This is especially useful for the params and request body documentation.
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--
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-- The response body recurses over the SelectionSet Fields associated with an endpoint and looks up types by name in
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-- a `RemoteSchemaIntrospection` result generated from the `SchemaCache`.
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--
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-- Response bodies are mostly delcared inline, since the associated query will likely be unique and determine the fields
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-- contained in the response.
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module Hasura.Server.OpenAPI (serveJSON) where
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import Control.Lens
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import Data.Aeson qualified as J
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import Data.Aeson.Ordered qualified as JO
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import Data.HashMap.Strict qualified as Map
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import Data.HashMap.Strict.InsOrd qualified as OMap
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import Data.List.NonEmpty qualified as NE
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import Data.OpenApi
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import Data.OpenApi.Declare
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import Data.Set qualified as Set
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import Data.Text qualified as T
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import Data.Text.Extended (commaSeparated)
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import Data.Text.NonEmpty
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import Hasura.GraphQL.Analyse (Analysis (Analysis, _aFields, _aVars), FieldAnalysis (FieldAnalysis, _fFields), FieldDef (FieldInfo, FieldList), analyzeGraphqlQuery)
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import Hasura.GraphQL.Context
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import Hasura.GraphQL.Namespace (mkUnNamespacedRootFieldAlias)
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import Hasura.GraphQL.Parser.Schema (Variable)
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import Hasura.GraphQL.RemoteServer (introspectionQuery, parseIntrospectionResult)
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import Hasura.GraphQL.Transport.HTTP.Protocol
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import Hasura.Prelude hiding (get, put)
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import Hasura.RQL.IR.Root
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import Hasura.RQL.Types.Endpoint
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import Hasura.RQL.Types.QueryCollection
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import Hasura.RQL.Types.RemoteSchema
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import Hasura.RQL.Types.SchemaCache
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import Hasura.Session (adminRoleName)
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import Language.GraphQL.Draft.Syntax qualified as G
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import Network.HTTP.Media.MediaType ((//))
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data EndpointData = EndpointData
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{ _edUrl :: String,
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_edMethod :: [Text],
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_edVarList :: [Referenced Param],
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_edProperties :: InsOrdHashMap Text (Referenced Schema),
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_edResponse :: Maybe Response,
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_edDescription :: Text, -- contains API comments and graphql query
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_edName :: Text
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}
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deriving (Show)
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-- * Response Body Related Functions.
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{-
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Example stepthrough initiated by call to getSelectionSchema:
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* Endpoint insert_foo
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* getExecutableDefinitions -> List (Normally 1 entry)
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* ExecutableDefinitionOperation -> OperationDefinitionTyped -> TypedOperationDefinition (_todType = OperationTypeMutation)
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* _todSelectionSet ->
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[SelectionField
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(Field{ _fName = Name{unName = "insert_foo"},
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_fSelectionSet
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= [SelectionField
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(Field{ _fName = Name{unName = "returning"},
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_fSelectionSet
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= [..., SelectionField
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(Field{ _fName = Name{unName = "id"},
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_fSelectionSet = []}),
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* Lookup introspection schema, Under mutation_root (inferred from operationtype = OperationTypeMutation)
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RemoteSchemaIntrospection
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(fromList
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[..., (Name{unName = "mutation_root"},
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TypeDefinitionObject
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(ObjectTypeDefinition{_otdDescription =
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Just (Description{unDescription = "mutation root"}),
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_otdName = Name{unName = "mutation_root"},
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_otdImplementsInterfaces = [], _otdDirectives = [],
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_otdFieldsDefinition =
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[..., FieldDefinition{_fldDescription = Just (Description{unDescription = "insert data into the table: \"foo\""}),
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_fldName = Name{unName = "insert_foo"},
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_fldType = TypeNamed (Nullability{unNullability = True}) (Name{unName = "foo_mutation_response"}),
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* Find that type for insert_foo field in mutation_root is named type "foo_mutation_response"
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* Look up "foo_mutation_response" in introspection schema:
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(Name{unName = "foo_mutation_response"},
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TypeDefinitionObject
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(ObjectTypeDefinition{_otdDescription = Just (Description{unDescription = "response of any mutation on the table \"foo\""}),
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_otdName = Name{unName = "foo_mutation_response"},
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_otdFieldsDefinition =
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[..., FieldDefinition{_fldDescription =
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Just
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(Description{unDescription =
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"data from the rows affected by the mutation"}),
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_fldName = Name{unName = "returning"},
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_fldArgumentsDefinition = [],
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_fldType =
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TypeList (Nullability{unNullability = False})
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(TypeNamed
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(Nullability{unNullability = False})
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(Name{unName = "foo"})),
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_fldDirectives = []}]})),
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* Find first referenced sub-field "returning"
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* It has type (TypeNamed (Name{unName = "foo"})),
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* Look up "foo" in Introspection Schema: ...,
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(Name{unName = "foo"},
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TypeDefinitionObject
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(ObjectTypeDefinition{_otdDescription = Just (Description{unDescription = "columns and relationships of \"foo\""}),
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_otdName = Name{unName = "foo"}, _otdImplementsInterfaces = [],
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_otdFieldsDefinition =
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[ ..., FieldDefinition{_fldDescription = Nothing,
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_fldName = Name{unName = "id"},
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_fldType = TypeNamed (Nullability{unNullability = False}) (Name{unName = "uuid"}),
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* Lookup first sub-sub field by SelectionSet field name "id"
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* See that it has type: TypeNamed (Name{unName = "uuid"})
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* See that there are no sub-sub-sub fields
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* declare type uuid by looking up its definition
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(Name{unName = "uuid"},
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TypeDefinitionScalar
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(ScalarTypeDefinition{_stdDescription = Nothing,
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_stdName = Name{unName = "uuid"}, _stdDirectives = []})),
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* reference type name from components in output
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... Proceed with other sub-fields and fields
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-}
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-- FIXME: There should only be one definition associated. Find a way to signal an error here otherwise.
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mdDefinitions :: EndpointMetadata GQLQueryWithText -> [G.ExecutableDefinition G.Name]
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mdDefinitions = G.getExecutableDefinitions . unGQLQuery . getGQLQuery . _edQuery . _ceDefinition
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mkResponse :: [Text] -> String -> Maybe RemoteSchemaIntrospection -> Analysis G.Name -> Declare (Definitions Schema) (Maybe Response)
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mkResponse _ _ Nothing _ = pure Nothing
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mkResponse epMethods epUrl (Just rs) Analysis {..} = do
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fs <- getSelectionSchema rs (OMap.toList _aFields)
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pure $
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Just $
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mempty
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& content .~ OMap.singleton ("application" // "json") (mempty & schema ?~ Inline fs)
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& description .~ "Responses for " <> commaSeparated epMethods <> " " <> T.pack epUrl
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getSelectionSchema :: RemoteSchemaIntrospection -> [(G.Name, (FieldDef, Maybe (FieldAnalysis var)))] -> Declare (Definitions Schema) Schema
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getSelectionSchema rs fields = do
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ps <- traverse (pure . G.unName . fst &&&& (\(fN, (td, fA)) -> getDefinitionSchema rs fN td fA {- (\(fN,(td,fA)) -> pure $ (G.unName fN,) $ getDefinitionSchema rs td fA) -})) fields
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pure $ mempty & properties .~ OMap.fromList (map (second Inline) ps)
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-- | A helper function to set the pattern field in Schema
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-- Why not lens `pattern`? hlint doesn't like the name `pattern`
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-- https://github.com/ndmitchell/hlint/issues/607
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setPattern :: Maybe Pattern -> Schema -> Schema
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setPattern p s = s {_schemaPattern = p}
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getDefinitionSchema ::
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RemoteSchemaIntrospection ->
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G.Name ->
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FieldDef ->
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Maybe (FieldAnalysis var) ->
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Declare (Definitions Schema) Schema
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getDefinitionSchema rs tn fd fA =
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typeToSchemaM
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fd
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( \case
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(G.TypeDefinitionInterface _) -> pure $ mempty & description ?~ "Unsupported field type TypeDefinitionInterface: " <> G.unName tn
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(G.TypeDefinitionUnion _) -> pure $ mempty & description ?~ "Unsupported field type TypeDefinitionUnion: " <> G.unName tn
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(G.TypeDefinitionEnum _) -> pure $ mempty & description ?~ "Unsupported field type TypeDefinitionEnum: " <> G.unName tn
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(G.TypeDefinitionInputObject _) -> pure $ mempty & description ?~ "Unsupported field type TypeDefinitionInputObject: " <> G.unName tn
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(G.TypeDefinitionObject _) ->
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case fA of
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Nothing -> pure $ mempty & description ?~ "Field analysis not found"
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Just FieldAnalysis {..} -> do
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ps <- traverse (pure . G.unName . fst &&&& (\(fN, (td', fA')) -> getDefinitionSchema rs fN td' fA')) (OMap.toList _fFields)
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pure $
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mempty
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& properties .~ OMap.fromList (map (second Inline) ps)
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& type_ ?~ OpenApiObject
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(G.TypeDefinitionScalar std) -> do
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let (refType, patt) = referenceType True (T.toLower $ G.unName $ G._stdName std)
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pure $
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mempty
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& title ?~ G.unName (G._stdName std)
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& description .~ (G.unDescription <$> G._stdDescription std)
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& type_ .~ refType
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& setPattern patt
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)
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typeToSchemaM :: Monad m => FieldDef -> (G.TypeDefinition [G.Name] RemoteSchemaInputValueDefinition -> m Schema) -> m Schema
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typeToSchemaM (FieldInfo _nullability tName) k = k tName
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typeToSchemaM (FieldList n t) k = do
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t' <- typeToSchemaM t k
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pure $
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mempty
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& nullable ?~ G.unNullability n
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& type_ ?~ OpenApiArray
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& items ?~ OpenApiItemsObject (Inline t') -- TODO: Why do we assume objects here?
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infixl 7 &&&&
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(&&&&) :: Applicative f => (t -> f a1) -> (t -> f a2) -> t -> f (a1, a2)
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f &&&& g = \a -> (,) <$> f a <*> g a
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-- * URL / Query Params and Request Body Functions
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-- There could be an additional partitioning scheme besides referentiality to support more types in Params
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getParams :: Analysis G.Name -> EndpointUrl -> [Referenced Param]
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getParams Analysis {..} eURL = varDetails =<< Map.toList _aVars
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where
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pathVars = map T.tail $ concat $ splitPath pure (const []) eURL -- NOTE: URL Variable name ':' prefix is removed for `elem` lookup.
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varDetails (_vdName, (_vdType, _vdDefaultValue)) =
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let vName = G.unName _vdName
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isRequired = not $ G.isNullable _vdType
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in case getType _vdType of
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Left _foo -> [] -- Complex types are not allowed as params
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Right (vdType, patt) ->
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pure $
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Inline $
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mkParam
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vName
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(if isRequired then Just $ "_\"" <> vName <> "\" is required (enter it either in parameters or request body)_" else Nothing)
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Nothing
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(if vName `elem` pathVars then ParamPath else ParamQuery)
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Nothing
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(gqlToJsonValue <$> _vdDefaultValue)
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(Just vdType)
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patt
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getType :: G.GType -> Either G.GType (OpenApiType, Maybe Pattern)
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getType gt@(G.TypeNamed _ na) = case referenceType True t of
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(Nothing, _) -> Left gt
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(Just typ, patt) -> Right (typ, patt)
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where
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t = T.toLower $ G.unName na
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getType t = Left t -- Non scalar types are deferred to reference types for processing using introspection
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mkProperties :: Maybe RemoteSchemaIntrospection -> Analysis G.Name -> Declare (Definitions Schema) (InsOrdHashMap Text (Referenced Schema))
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mkProperties sd Analysis {..} = OMap.fromList <$> traverse (mkProperty sdMap) ds
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where
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ds = Map.toList _aVars
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sdMap = case sd of
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Nothing -> OMap.empty
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Just (RemoteSchemaIntrospection sd') -> OMap.fromList $ map (first G.unName) $ Map.toList sd'
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mkProperty :: InsOrdHashMap Text (G.TypeDefinition [G.Name] RemoteSchemaInputValueDefinition) -> (G.Name, (G.GType, Maybe (G.Value Void))) -> Declare (Definitions Schema) (Text, Referenced Schema)
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mkProperty sd (_vdName, (_vdType, _vdDefaultValue)) = do
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d <- case getType _vdType of
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Left t -> handleRefType sd t
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Right (vdType, patt) ->
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pure $
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Inline $
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mempty
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& nullable ?~ G.isNullable _vdType
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& type_ ?~ vdType
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& default_ .~ fmap gqlToJsonValue _vdDefaultValue
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& setPattern patt
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pure (G.unName _vdName, d)
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handleRefType :: OMap.InsOrdHashMap Text (G.TypeDefinition a RemoteSchemaInputValueDefinition) -> G.GType -> Declare (Definitions Schema) (Referenced Schema)
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handleRefType sd = \case
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G.TypeNamed nullability nameWrapper -> do
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let n = G.unName nameWrapper
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declareReference nullability n sd
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pure $ Ref $ Reference n
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G.TypeList nullability subType -> do
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st <- handleRefType sd subType
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pure $
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Inline $
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mempty
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& nullable ?~ (G.unNullability nullability && G.isNullable subType)
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& type_ ?~ OpenApiArray
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& items ?~ OpenApiItemsObject st
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-- TODO: No reference types should be nullable and only references to reference types
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declareReference :: G.Nullability -> Text -> OMap.InsOrdHashMap Text (G.TypeDefinition a RemoteSchemaInputValueDefinition) -> Declare (Definitions Schema) ()
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declareReference nullability n ts = do
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isAvailable <- referenceAvailable n
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unless isAvailable do
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for_ (OMap.lookup n ts) \t -> do
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let properties' = getPropertyReferences ts (typeProperties t)
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result <-
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declare $
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OMap.singleton n $
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let (refType, patt) = referenceType (null properties') (T.toLower n)
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in mempty
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& nullable ?~ G.unNullability nullability
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& description .~ typeDescription t
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& properties .~ properties'
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& type_ .~ refType
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& setPattern patt
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void $ processProperties ts (typeProperties t)
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pure result
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referenceAvailable :: Text -> DeclareT (Definitions Schema) Identity Bool
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referenceAvailable n = OMap.member n <$> look
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getPropertyReferences :: InsOrdHashMap Text (G.TypeDefinition a RemoteSchemaInputValueDefinition) -> Maybe [RemoteSchemaInputValueDefinition] -> InsOrdHashMap Text (Referenced Schema)
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getPropertyReferences _ Nothing = mempty
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getPropertyReferences sd (Just ds) =
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let ds' = fmap (processProperty' sd) ds
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in OMap.fromList ds'
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processProperty' :: InsOrdHashMap Text (G.TypeDefinition a RemoteSchemaInputValueDefinition) -> RemoteSchemaInputValueDefinition -> (Text, Referenced Schema)
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processProperty' sd (RemoteSchemaInputValueDefinition d _preset) =
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let n = G._ivdName d
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t = G._ivdType d
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rt = handleRefType' sd t
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in (G.unName n, rt)
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handleRefType' :: OMap.InsOrdHashMap Text (G.TypeDefinition a RemoteSchemaInputValueDefinition) -> G.GType -> Referenced Schema
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handleRefType' sd = \case
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G.TypeNamed _nullability nameWrapper ->
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let n = G.unName nameWrapper
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in Ref $ Reference n
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G.TypeList nullability subType ->
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let st = handleRefType' sd subType
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in Inline $
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mempty
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& nullable ?~ (G.unNullability nullability && G.isNullable subType)
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& type_ ?~ OpenApiArray
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& items ?~ OpenApiItemsObject st
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typeDescription :: G.TypeDefinition possibleTypes inputType -> Maybe Text
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typeDescription = \case
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(G.TypeDefinitionScalar o) -> G.unDescription <$> G._stdDescription o
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(G.TypeDefinitionObject o) -> G.unDescription <$> G._otdDescription o
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(G.TypeDefinitionInterface o) -> G.unDescription <$> G._itdDescription o
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(G.TypeDefinitionUnion o) -> G.unDescription <$> G._utdDescription o
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(G.TypeDefinitionEnum o) -> G.unDescription <$> G._etdDescription o
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(G.TypeDefinitionInputObject o) -> G.unDescription <$> G._iotdDescription o
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typeName :: G.TypeDefinition possibleTypes inputType -> Text
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typeName = \case
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(G.TypeDefinitionScalar o) -> G.unName (G._stdName o)
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(G.TypeDefinitionObject o) -> G.unName (G._otdName o)
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(G.TypeDefinitionInterface o) -> G.unName (G._itdName o)
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(G.TypeDefinitionUnion o) -> G.unName (G._utdName o)
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(G.TypeDefinitionEnum o) -> G.unName (G._etdName o)
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(G.TypeDefinitionInputObject o) -> G.unName (G._iotdName o)
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typeProperties :: G.TypeDefinition possibleTypes RemoteSchemaInputValueDefinition -> Maybe [RemoteSchemaInputValueDefinition]
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typeProperties = \case
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(G.TypeDefinitionScalar _) -> Nothing
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(G.TypeDefinitionInterface _) -> Nothing
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(G.TypeDefinitionUnion _) -> Nothing
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(G.TypeDefinitionEnum _) -> Nothing
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(G.TypeDefinitionInputObject o) -> Just $ G._iotdValueDefinitions o
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(G.TypeDefinitionObject _) -> Nothing
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-- TODO: Can we reuse something from rest module to handle this?
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-- TODO: referenceType could be improved, instead of using Bool (to indicate if it is object or scalar),
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-- we can do something better
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referenceType :: Bool -> Text -> (Maybe OpenApiType, Maybe Pattern)
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referenceType False = const (Just OpenApiObject, Nothing)
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referenceType True = \case
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"int" -> (Just OpenApiInteger, Nothing)
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"float" -> (Just OpenApiNumber, Nothing)
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"double" -> (Just OpenApiNumber, Nothing)
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"uuid" -> (Just OpenApiString, Just "[a-f0-9]{8}-[a-f0-9]{4}-4[a-f0-9]{3}-[89aAbB][a-f0-9]{3}-[a-f0-9]{12}")
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"bool" -> (Just OpenApiBoolean, Nothing)
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"boolean" -> (Just OpenApiBoolean, Nothing)
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"string" -> (Just OpenApiString, Nothing)
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"id" -> (Just OpenApiString, Nothing)
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_ -> (Nothing, Nothing)
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processProperties :: InsOrdHashMap Text (G.TypeDefinition a RemoteSchemaInputValueDefinition) -> Maybe [RemoteSchemaInputValueDefinition] -> DeclareT (Definitions Schema) Identity (InsOrdHashMap Text (Referenced Schema))
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processProperties _ Nothing = pure mempty
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processProperties sd (Just ds) = do
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ds' <- traverse (processProperty sd) ds
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pure $ OMap.fromList ds'
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processProperty :: InsOrdHashMap Text (G.TypeDefinition a RemoteSchemaInputValueDefinition) -> RemoteSchemaInputValueDefinition -> DeclareT (Definitions Schema) Identity (Text, Referenced Schema)
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processProperty sd (RemoteSchemaInputValueDefinition d _preset) = do
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let n = G._ivdName d
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t = G._ivdType d
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rt <- handleRefType sd t
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pure (G.unName n, rt)
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getGQLQueryFromTrie :: EndpointMetadata GQLQueryWithText -> Text
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getGQLQueryFromTrie = getGQLQueryText . _edQuery . _ceDefinition
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mkParam :: Text -> Maybe Text -> Maybe Bool -> ParamLocation -> Maybe Bool -> Maybe J.Value -> Maybe OpenApiType -> Maybe Pattern -> Param
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mkParam nameP desc req loc allowEmpty def varType patt =
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mempty
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& name .~ nameP
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& description .~ desc
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& required .~ req
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& in_ .~ loc
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& allowEmptyValue .~ allowEmpty
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& schema
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?~ Inline
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( mempty
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& default_ .~ def
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& type_ .~ varType
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& setPattern patt
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)
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gqlToJsonValue :: G.Value Void -> J.Value
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gqlToJsonValue = \case
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G.VNull -> J.Null
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G.VInt n -> J.toJSON n
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G.VFloat sci -> J.toJSON sci
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G.VString txt -> J.toJSON txt
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G.VBoolean b -> J.toJSON b
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G.VEnum ev -> J.toJSON ev
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G.VList lst -> J.toJSON $ gqlToJsonValue <$> lst
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G.VObject obj -> J.toJSON $ gqlToJsonValue <$> obj
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-- * Top level schema construction
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getComment :: EndpointMetadata GQLQueryWithText -> Text
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getComment d = comment
|
|
where
|
|
gql = getGQLQueryFromTrie d
|
|
comment = case _ceComment d of
|
|
(Just c) -> c <> "\n***\nThe GraphQl query for this endpoint is:\n``` graphql\n" <> gql <> "\n```"
|
|
Nothing -> "***\nThe GraphQl query for this endpoint is:\n``` graphql\n" <> gql <> "\n```"
|
|
|
|
getURL :: EndpointMetadata GQLQueryWithText -> Text
|
|
getURL d =
|
|
"/api/rest/" <> T.intercalate "/" pathComponents
|
|
where
|
|
pathComponents = splitPath formatVariable id . _ceUrl $ d
|
|
formatVariable variable = "{" <> dropColonPrefix variable <> "}"
|
|
dropColonPrefix = T.drop 1
|
|
|
|
extractEndpointInfo :: Maybe RemoteSchemaIntrospection -> EndpointMethod -> EndpointMetadata GQLQueryWithText -> Declare (Definitions Schema) EndpointData
|
|
extractEndpointInfo sd method d = do
|
|
_edProperties <- mkProperties sd _analysis
|
|
_edResponse <- mkResponse _edMethod _edUrl sd _analysis
|
|
pure EndpointData {..}
|
|
where
|
|
_eDef = mdDefinitions d
|
|
-- mdDefinition returns a list, but there should only be one definition associated, so it is safe to fold
|
|
_analysis = fromMaybe mempty (fold $ mapMaybe (\e -> fmap (analyzeGraphqlQuery e) sd) _eDef)
|
|
_edUrl = T.unpack . getURL $ d
|
|
_edVarList = getParams _analysis (_ceUrl d)
|
|
_edDescription = getComment d
|
|
_edName = unNonEmptyText $ unEndpointName $ _ceName d
|
|
_edMethod = [unEndpointMethod method] -- NOTE: Methods are grouped with into matching endpoints - Name used for grouping.
|
|
|
|
getEndpointsData :: Maybe RemoteSchemaIntrospection -> SchemaCache -> Declare (Definitions Schema) [EndpointData]
|
|
getEndpointsData sd sc = do
|
|
let endpointTrie = scEndpoints sc
|
|
methodMaps = leaves endpointTrie
|
|
endpointsWithMethods = concatMap (\(m, s) -> map (m,) (Set.toList s)) $ concatMap (Map.toList . _unMultiMap) methodMaps
|
|
|
|
endpointsWithInfo <- traverse (uncurry (extractEndpointInfo sd)) endpointsWithMethods
|
|
|
|
let endpointsGrouped = NE.groupBy (\a b -> _edName a == _edName b) endpointsWithInfo
|
|
|
|
pure $ map squashEndpointGroup endpointsGrouped
|
|
|
|
squashEndpointGroup :: NonEmpty EndpointData -> EndpointData
|
|
squashEndpointGroup g = (NE.head g) {_edMethod = concatMap _edMethod g}
|
|
|
|
getSchemaIntrospection :: SchemaCache -> Maybe RemoteSchemaIntrospection
|
|
getSchemaIntrospection SchemaCache {..} = do
|
|
RoleContext {..} <- Map.lookup adminRoleName scGQLContext
|
|
fieldMap <- either (const Nothing) Just $ gqlQueryParser _rctxDefault $ fmap (fmap nameToVariable) $ G._todSelectionSet $ _grQuery introspectionQuery
|
|
RFRaw v <- OMap.lookup (mkUnNamespacedRootFieldAlias $$(G.litName "__schema")) fieldMap
|
|
fmap irDoc $ parseIntrospectionResult $ J.object [("data", J.object [("__schema", JO.fromOrdered v)])]
|
|
where
|
|
-- This value isn't used but we give it a type to be more clear about what is being ignored
|
|
nameToVariable :: G.Name -> Variable
|
|
nameToVariable = undefined
|
|
|
|
serveJSON :: SchemaCache -> OpenApi
|
|
serveJSON sc = spec & components . schemas .~ defs
|
|
where
|
|
(defs, spec) = runDeclare (declareOpenApiSpec sc) mempty
|
|
|
|
-- | If all variables are scalar or optional then the entire request body can be marked as optional
|
|
isRequestBodyRequired :: EndpointData -> Bool
|
|
isRequestBodyRequired ed = not $ all isNotRequired (_edProperties ed)
|
|
where
|
|
-- The use of isNotRequired here won't work with list types since they are inline, but contain references
|
|
isNotRequired (Inline Schema {..}) = isScalarType _schemaType || (Just True == _schemaNullable)
|
|
isNotRequired (Ref _) = False -- Not all `Ref` are non nullable, imagine two endpoints using the same Ref one being nullable and other not
|
|
isScalarType :: Maybe OpenApiType -> Bool
|
|
isScalarType Nothing = False
|
|
isScalarType (Just t) = case t of
|
|
OpenApiString -> True
|
|
OpenApiNumber -> True
|
|
OpenApiInteger -> True
|
|
OpenApiBoolean -> True
|
|
OpenApiArray -> False
|
|
OpenApiNull -> False
|
|
OpenApiObject -> False
|
|
|
|
-- * Entry point
|
|
|
|
declareOpenApiSpec :: SchemaCache -> Declare (Definitions Schema) OpenApi
|
|
declareOpenApiSpec sc = do
|
|
let _schemaIntrospection = getSchemaIntrospection sc
|
|
warnings = case _schemaIntrospection of
|
|
Nothing -> "\n\n⚠️ Schema introspection failed"
|
|
_ -> ""
|
|
|
|
mkRequestBody :: EndpointData -> RequestBody
|
|
mkRequestBody ed =
|
|
mempty
|
|
& description ?~ "Query parameters can also be provided in the request body as a JSON object"
|
|
& required ?~ isRequestBodyRequired ed
|
|
& content
|
|
.~ OMap.singleton
|
|
("application" // "json")
|
|
( mempty
|
|
& schema
|
|
?~ Inline
|
|
( mempty
|
|
& type_ ?~ OpenApiObject
|
|
& properties .~ _edProperties ed
|
|
)
|
|
)
|
|
|
|
mkOperation :: EndpointData -> Operation
|
|
mkOperation ed =
|
|
mempty
|
|
& description ?~ _edDescription ed
|
|
& summary ?~ _edName ed
|
|
& parameters .~ (Inline xHasuraAdminSecret : _edVarList ed)
|
|
& requestBody .~ toMaybe (not (null (_edProperties ed))) (Inline (mkRequestBody ed))
|
|
& responses .~ Responses Nothing (maybe mempty (OMap.singleton 200 . Inline) (_edResponse ed))
|
|
where
|
|
toMaybe b a = if b then Just a else Nothing
|
|
|
|
getOPName :: EndpointData -> Text -> Maybe Operation
|
|
getOPName ed methodType =
|
|
if methodType `elem` _edMethod ed
|
|
then Just $ mkOperation ed
|
|
else Nothing
|
|
|
|
xHasuraAdminSecret :: Param
|
|
xHasuraAdminSecret =
|
|
mkParam
|
|
"x-hasura-admin-secret"
|
|
(Just "Your x-hasura-admin-secret will be used for authentication of the API request.")
|
|
Nothing
|
|
ParamHeader
|
|
Nothing
|
|
Nothing
|
|
(Just OpenApiString)
|
|
Nothing
|
|
|
|
generatePathItem :: EndpointData -> PathItem
|
|
generatePathItem ed =
|
|
let pathData =
|
|
mempty
|
|
& get .~ getOPName ed "GET"
|
|
& post .~ getOPName ed "POST"
|
|
& put .~ getOPName ed "PUT"
|
|
& delete .~ getOPName ed "DELETE"
|
|
& patch .~ getOPName ed "PATCH"
|
|
completePathData =
|
|
if pathData == mempty
|
|
then
|
|
mempty
|
|
& post
|
|
?~ mkOperation
|
|
ed
|
|
{ _edDescription =
|
|
"⚠️ Method("
|
|
<> tshow (_edMethod ed)
|
|
<> ") not supported, defaulting to POST\n\n"
|
|
<> _edDescription ed
|
|
}
|
|
else pathData
|
|
in completePathData
|
|
|
|
endpointLst <- getEndpointsData _schemaIntrospection sc
|
|
|
|
let mkOpenAPISchema :: [EndpointData] -> InsOrdHashMap FilePath PathItem
|
|
mkOpenAPISchema edLst = foldl (\hm ed -> OMap.insertWith (<>) (_edUrl ed) (generatePathItem ed) hm) mempty edLst
|
|
|
|
openAPIPaths = mkOpenAPISchema endpointLst
|
|
|
|
return $
|
|
mempty
|
|
& paths .~ openAPIPaths
|
|
& info . title .~ "Rest Endpoints"
|
|
& info . description ?~ "This OpenAPI specification is automatically generated by Hasura." <> warnings
|