module Hasura.GraphQL.Schema.Action ( actionExecute , actionAsyncMutation , actionAsyncQuery ) where import Hasura.Prelude import qualified Data.Aeson as J import qualified Data.HashMap.Strict as Map import qualified Language.GraphQL.Draft.Syntax as G import Data.Has import Data.Text.Extended import Data.Text.NonEmpty import qualified Hasura.GraphQL.Parser as P import qualified Hasura.GraphQL.Parser.Internal.Parser as P import qualified Hasura.RQL.DML.Internal as RQL import qualified Hasura.RQL.IR.Select as RQL import Hasura.Backends.Postgres.SQL.Types import Hasura.Backends.Postgres.Types.Column import Hasura.Base.Error import Hasura.GraphQL.Parser (FieldParser, InputFieldsParser, Kind (..), Parser, UnpreparedValue (..)) import Hasura.GraphQL.Parser.Class import Hasura.GraphQL.Schema.Backend import Hasura.GraphQL.Schema.Common import Hasura.GraphQL.Schema.Select import Hasura.RQL.Types import Hasura.Session -- | actionExecute is used to execute either a query action or a synchronous -- mutation action. A query action or a synchronous mutation action accepts -- the field name and input arguments and a selectionset. The -- input argument and selectionset types are defined by the user. -- -- -- > action_name(action_input_arguments) { -- > col1: col1_type -- > col2: col2_type -- > } actionExecute :: forall r m n . MonadBuildSchema ('Postgres 'Vanilla) r m n => NonObjectTypeMap -> ActionInfo -> m (Maybe (FieldParser n (AnnActionExecution ('Postgres 'Vanilla) (RQL.RemoteSelect UnpreparedValue) (UnpreparedValue ('Postgres 'Vanilla))))) actionExecute nonObjectTypeMap actionInfo = runMaybeT do roleName <- askRoleName guard (roleName == adminRoleName || roleName `Map.member` permissions) let fieldName = unActionName actionName description = G.Description <$> comment inputArguments <- lift $ actionInputArguments nonObjectTypeMap $ _adArguments definition selectionSet <- lift $ actionOutputFields outputType outputObject stringifyNum <- asks $ qcStringifyNum . getter pure $ P.subselection fieldName description inputArguments selectionSet <&> \(argsJson, fields) -> AnnActionExecution { _aaeName = actionName , _aaeFields = fields , _aaePayload = argsJson , _aaeOutputType = _adOutputType definition , _aaeOutputFields = getActionOutputFields outputObject , _aaeDefinitionList = mkDefinitionList outputObject , _aaeWebhook = _adHandler definition , _aaeHeaders = _adHeaders definition , _aaeForwardClientHeaders = _adForwardClientHeaders definition , _aaeStrfyNum = stringifyNum , _aaeTimeOut = _adTimeout definition , _aaeSource = getActionSourceInfo outputObject , _aaeRequestTransform = _aiRequestTransform actionInfo } where ActionInfo actionName (outputType, outputObject) definition permissions _ comment _ = actionInfo -- | actionAsyncMutation is used to execute a asynchronous mutation action. An -- asynchronous action expects the field name and the input arguments to the -- action. A selectionset is *not* expected. An action ID (UUID) will be -- returned after performing the action -- -- > action_name(action_input_arguments) actionAsyncMutation :: forall m n r. (MonadSchema n m, MonadTableInfo r m, MonadRole r m) => NonObjectTypeMap -> ActionInfo -> m (Maybe (FieldParser n AnnActionMutationAsync)) actionAsyncMutation nonObjectTypeMap actionInfo = runMaybeT do roleName <- lift askRoleName guard $ roleName == adminRoleName || roleName `Map.member` permissions inputArguments <- lift $ actionInputArguments nonObjectTypeMap $ _adArguments definition let fieldName = unActionName actionName description = G.Description <$> comment pure $ P.selection fieldName description inputArguments actionIdParser <&> AnnActionMutationAsync actionName forwardClientHeaders where ActionInfo actionName _ definition permissions forwardClientHeaders comment _ = actionInfo -- | actionAsyncQuery is used to query/subscribe to the result of an -- asynchronous mutation action. The only input argument to an -- asynchronous mutation action is the action ID (UUID) and a selection -- set is expected, the selection set contains 4 fields namely 'id', -- 'created_at','errors' and 'output'. The result of the action can be queried -- through the 'output' field. -- -- > action_name (id: UUID!) { -- > id: UUID! -- > created_at: timestampz! -- > errors: JSON -- > output: user_defined_type! -- > } actionAsyncQuery :: forall r m n . MonadBuildSchema ('Postgres 'Vanilla) r m n => ActionInfo -> m (Maybe (FieldParser n (AnnActionAsyncQuery ('Postgres 'Vanilla) (RQL.RemoteSelect UnpreparedValue) (UnpreparedValue ('Postgres 'Vanilla))))) actionAsyncQuery actionInfo = runMaybeT do roleName <- askRoleName guard $ roleName == adminRoleName || roleName `Map.member` permissions actionOutputParser <- lift $ actionOutputFields outputType outputObject createdAtFieldParser <- lift $ columnParser @('Postgres 'Vanilla) (ColumnScalar PGTimeStampTZ) (G.Nullability False) errorsFieldParser <- lift $ columnParser @('Postgres 'Vanilla) (ColumnScalar PGJSON) (G.Nullability True) let fieldName = unActionName actionName description = G.Description <$> comment actionIdInputField = P.field idFieldName (Just idFieldDescription) actionIdParser allFieldParsers = let idField = P.selection_ idFieldName (Just idFieldDescription) actionIdParser $> AsyncId createdAtField = P.selection_ $$(G.litName "created_at") (Just "the time at which this action was created") createdAtFieldParser $> AsyncCreatedAt errorsField = P.selection_ $$(G.litName "errors") (Just "errors related to the invocation") errorsFieldParser $> AsyncErrors outputField = P.subselection_ $$(G.litName "output") (Just "the output fields of this action") actionOutputParser <&> AsyncOutput in [idField, createdAtField, errorsField, outputField] selectionSet = let outputTypeName = unActionName actionName desc = G.Description $ "fields of action: " <>> actionName in P.selectionSet outputTypeName (Just desc) allFieldParsers <&> parsedSelectionsToFields AsyncTypename stringifyNum <- asks $ qcStringifyNum . getter pure $ P.subselection fieldName description actionIdInputField selectionSet <&> \(idArg, fields) -> AnnActionAsyncQuery { _aaaqName = actionName , _aaaqActionId = idArg , _aaaqOutputType = _adOutputType definition , _aaaqFields = fields , _aaaqDefinitionList = mkDefinitionList outputObject , _aaaqStringifyNum = stringifyNum , _aaaqForwardClientHeaders = forwardClientHeaders , _aaaqSource = getActionSourceInfo outputObject } where ActionInfo actionName (outputType, outputObject) definition permissions forwardClientHeaders comment dataTransform = actionInfo idFieldName = $$(G.litName "id") idFieldDescription = "the unique id of an action" -- | Async action's unique id actionIdParser :: MonadParse n => Parser 'Both n ActionId actionIdParser = ActionId <$> P.uuid actionOutputFields :: forall r m n . MonadBuildSchema ('Postgres 'Vanilla) r m n => G.GType -> AnnotatedObjectType -> m (Parser 'Output n (AnnotatedFields ('Postgres 'Vanilla))) actionOutputFields outputType annotatedObject = do let outputObject = _aotDefinition annotatedObject scalarOrEnumFields = map outputFieldParser $ toList $ _otdFields outputObject relationshipFields <- forM (_otdRelationships outputObject) $ traverse relationshipFieldParser let allFieldParsers = scalarOrEnumFields <> maybe [] (concat . catMaybes . toList) relationshipFields outputTypeName = unObjectTypeName $ _otdName outputObject outputTypeDescription = _otdDescription outputObject pure $ outputParserModifier outputType $ P.selectionSet outputTypeName outputTypeDescription allFieldParsers <&> parsedSelectionsToFields RQL.AFExpression where outputParserModifier :: G.GType -> Parser 'Output n a -> Parser 'Output n a outputParserModifier = \case G.TypeNamed (G.Nullability True) _ -> P.nullableParser G.TypeNamed (G.Nullability False) _ -> P.nonNullableParser G.TypeList (G.Nullability True) t -> P.nullableParser . P.multiple . outputParserModifier t G.TypeList (G.Nullability False) t -> P.nonNullableParser . P.multiple . outputParserModifier t outputFieldParser :: ObjectFieldDefinition (G.GType, AnnotatedObjectFieldType) -> FieldParser n (AnnotatedField ('Postgres 'Vanilla)) outputFieldParser (ObjectFieldDefinition name _ description (gType, objectFieldType)) = let fieldName = unObjectFieldName name selection = P.selection_ fieldName description $ case objectFieldType of AOFTScalar def -> customScalarParser def AOFTEnum def -> customEnumParser def pgColumnInfo = ColumnInfo (unsafePGCol $ G.unName fieldName) fieldName 0 (ColumnScalar PGJSON) (G.isNullable gType) Nothing in P.wrapFieldParser gType selection $> RQL.mkAnnColumnField pgColumnInfo Nothing Nothing relationshipFieldParser :: TypeRelationship (TableInfo ('Postgres 'Vanilla)) (ColumnInfo ('Postgres 'Vanilla)) -> m (Maybe [FieldParser n (AnnotatedField ('Postgres 'Vanilla))]) relationshipFieldParser (TypeRelationship relName relType sourceName tableInfo fieldMapping) = runMaybeT do let tableName = _tciName $ _tiCoreInfo tableInfo fieldName = unRelationshipName relName tableRelName = RelName $ mkNonEmptyTextUnsafe $ G.unName fieldName columnMapping = Map.fromList $ do (k, v) <- Map.toList fieldMapping pure (unsafePGCol $ G.unName $ unObjectFieldName k, pgiColumn v) roleName <- lift askRoleName tablePerms <- hoistMaybe $ RQL.getPermInfoMaybe roleName PASelect tableInfo case relType of ObjRel -> do let desc = Just $ G.Description "An object relationship" selectionSetParser <- lift $ tableSelectionSet sourceName tableInfo tablePerms pure $ pure $ P.nonNullableField $ P.subselection_ fieldName desc selectionSetParser <&> \fields -> RQL.AFObjectRelation $ RQL.AnnRelationSelectG tableRelName columnMapping $ RQL.AnnObjectSelectG fields tableName $ (fmap partialSQLExpToUnpreparedValue <$> spiFilter tablePerms) ArrRel -> do let desc = Just $ G.Description "An array relationship" otherTableParser <- lift $ selectTable sourceName tableInfo fieldName desc tablePerms let arrayRelField = otherTableParser <&> \selectExp -> RQL.AFArrayRelation $ RQL.ASSimple $ RQL.AnnRelationSelectG tableRelName columnMapping selectExp relAggFieldName = fieldName <> $$(G.litName "_aggregate") relAggDesc = Just $ G.Description "An aggregate relationship" tableAggField <- lift $ selectTableAggregate sourceName tableInfo relAggFieldName relAggDesc tablePerms pure $ catMaybes [ Just arrayRelField , fmap (RQL.AFArrayRelation . RQL.ASAggregate . RQL.AnnRelationSelectG tableRelName columnMapping) <$> tableAggField ] mkDefinitionList :: AnnotatedObjectType -> [(PGCol, ScalarType ('Postgres 'Vanilla))] mkDefinitionList AnnotatedObjectType{..} = flip map (toList _otdFields) $ \ObjectFieldDefinition{..} -> (unsafePGCol . G.unName . unObjectFieldName $ _ofdName,) $ case Map.lookup _ofdName fieldReferences of Nothing -> fieldTypeToScalarType $ snd _ofdType Just columnInfo -> unsafePGColumnToBackend $ pgiType columnInfo where ObjectTypeDefinition{..} = _aotDefinition fieldReferences = Map.unions $ map _trFieldMapping $ maybe [] toList _otdRelationships actionInputArguments :: forall m n r. (MonadSchema n m, MonadTableInfo r m) => NonObjectTypeMap -> [ArgumentDefinition (G.GType, NonObjectCustomType)] -> m (InputFieldsParser n J.Value) actionInputArguments nonObjectTypeMap arguments = do argumentParsers <- for arguments $ \argument -> do let ArgumentDefinition argumentName (gType, nonObjectType) argumentDescription = argument name = unArgumentName argumentName (name,) <$> argumentParser name argumentDescription gType nonObjectType pure $ J.Object <$> inputFieldsToObject argumentParsers where inputFieldsToObject :: [(G.Name, InputFieldsParser n (Maybe J.Value))] -> InputFieldsParser n J.Object inputFieldsToObject inputFields = let mkTuple (name, parser) = fmap (G.unName name,) <$> parser in Map.fromList . catMaybes <$> traverse mkTuple inputFields argumentParser :: G.Name -> Maybe G.Description -> G.GType -> NonObjectCustomType -> m (InputFieldsParser n (Maybe J.Value)) argumentParser name description gType nonObjectType = do let mkResult :: forall k. ('Input P.<: k) => Parser k n J.Value -> InputFieldsParser n (Maybe J.Value) mkResult = mkArgumentInputFieldParser name description gType case nonObjectType of -- scalar and enum parsers are not recursive and need not be memoized NOCTScalar def -> pure $ mkResult $ customScalarParser def NOCTEnum def -> pure $ mkResult $ customEnumParser def -- input objects however may recursively contain one another NOCTInputObject (InputObjectTypeDefinition (InputObjectTypeName objectName) objectDesc inputFields) -> mkResult <$> memoizeOn 'actionInputArguments objectName do inputFieldsParsers <- forM (toList inputFields) \(InputObjectFieldDefinition (InputObjectFieldName fieldName) fieldDesc (GraphQLType fieldType)) -> do nonObjectFieldType <- Map.lookup (G.getBaseType fieldType) nonObjectTypeMap `onNothing` throw500 "object type for a field found in custom input object type" (fieldName,) <$> argumentParser fieldName fieldDesc fieldType nonObjectFieldType pure $ P.object objectName objectDesc $ J.Object <$> inputFieldsToObject inputFieldsParsers mkArgumentInputFieldParser :: forall m k. (MonadParse m, 'Input P.<: k) => G.Name -> Maybe G.Description -> G.GType -> Parser k m J.Value -> InputFieldsParser m (Maybe J.Value) mkArgumentInputFieldParser name description gType parser = if G.isNullable gType then P.fieldOptional name description modifiedParser else Just <$> P.field name description modifiedParser where modifiedParser = parserModifier gType parser parserModifier :: G.GType -> Parser k m J.Value -> Parser k m J.Value parserModifier = \case G.TypeNamed nullable _ -> nullableModifier nullable G.TypeList nullable ty -> nullableModifier nullable . fmap J.toJSON . P.list . parserModifier ty where nullableModifier = bool (fmap J.toJSON) (fmap J.toJSON . P.nullable) . G.unNullability customScalarParser :: MonadParse m => AnnotatedScalarType -> Parser 'Both m J.Value customScalarParser = \case ASTCustom ScalarTypeDefinition{..} -> if | _stdName == idScalar -> J.toJSON <$> P.identifier | _stdName == intScalar -> J.toJSON <$> P.int | _stdName == floatScalar -> J.toJSON <$> P.float | _stdName == stringScalar -> J.toJSON <$> P.string | _stdName == boolScalar -> J.toJSON <$> P.boolean | otherwise -> P.jsonScalar _stdName _stdDescription ASTReusedScalar name pgScalarType -> let schemaType = P.NonNullable $ P.TNamed $ P.mkDefinition name Nothing P.TIScalar in P.Parser { pType = schemaType , pParser = P.valueToJSON (P.toGraphQLType schemaType) >=> either (parseErrorWith ParseFailed . qeError) (pure . scalarValueToJSON @('Postgres 'Vanilla)) . parseScalarValue @('Postgres 'Vanilla) pgScalarType } customEnumParser :: MonadParse m => EnumTypeDefinition -> Parser 'Both m J.Value customEnumParser (EnumTypeDefinition typeName description enumValues) = let enumName = unEnumTypeName typeName enumValueDefinitions = enumValues <&> \enumValue -> let valueName = G.unEnumValue $ _evdValue enumValue in (, J.toJSON valueName) $ P.mkDefinition valueName (_evdDescription enumValue) P.EnumValueInfo in P.enum enumName description enumValueDefinitions