{-# LANGUAGE TemplateHaskell #-} module Hasura.GraphQL.RemoteServer ( fetchRemoteSchema, execRemoteGQ, ) where import Control.Arrow.Extended (left) import Control.Exception (try) import Control.Lens (set, (^.)) import Data.Aeson ((.:), (.:?)) import Data.Aeson qualified as J import Data.ByteString.Lazy qualified as BL import Data.Environment qualified as Env import Data.FileEmbed (makeRelativeToProject) import Data.HashMap.Strict.Extended qualified as Map import Data.HashSet qualified as Set import Data.List.Extended (duplicates) import Data.Text qualified as T import Data.Text.Extended (dquoteList, (<<>)) import Hasura.Base.Error import Hasura.GraphQL.Parser.Monad (Parse, runSchemaT) import Hasura.GraphQL.Parser.Name qualified as GName import Hasura.GraphQL.Schema.Common import Hasura.GraphQL.Schema.NamingCase import Hasura.GraphQL.Schema.Options (SchemaOptions (..)) import Hasura.GraphQL.Schema.Options qualified as Options import Hasura.GraphQL.Schema.Remote (buildRemoteParser) import Hasura.GraphQL.Schema.Typename import Hasura.GraphQL.Transport.HTTP.Protocol import Hasura.HTTP import Hasura.Prelude import Hasura.RQL.DDL.Headers (makeHeadersFromConf) import Hasura.RQL.Types.Common import Hasura.RQL.Types.RemoteSchema import Hasura.RQL.Types.SchemaCache import Hasura.RQL.Types.SourceCustomization import Hasura.Server.Utils import Hasura.Session import Hasura.Tracing qualified as Tracing import Language.GraphQL.Draft.Parser qualified as G import Language.GraphQL.Draft.Syntax qualified as G import Language.Haskell.TH.Syntax qualified as TH import Network.HTTP.Client.Transformable qualified as HTTP import Network.URI (URI) import Network.Wreq qualified as Wreq ------------------------------------------------------------------------------- -- Core API -- | Make an introspection query to the remote graphql server for the data we -- need to present and stitch the remote schema. This powers add_remote_schema, -- and also is called by schema cache rebuilding code in "Hasura.RQL.DDL.Schema.Cache". fetchRemoteSchema :: forall m. (MonadIO m, MonadError QErr m, Tracing.MonadTrace m) => Env.Environment -> HTTP.Manager -> RemoteSchemaName -> ValidatedRemoteSchemaDef -> m RemoteSchemaCtx fetchRemoteSchema env manager _rscName rsDef@ValidatedRemoteSchemaDef {..} = do (_, _, _rscRawIntrospectionResult) <- execRemoteGQ env manager adminUserInfo [] rsDef introspectionQuery -- Parse the JSON into flat GraphQL type AST. FromIntrospection _rscIntroOriginal <- J.eitherDecode _rscRawIntrospectionResult `onLeft` (throwRemoteSchema . T.pack) -- Possibly transform type names from the remote schema, per the user's 'RemoteSchemaDef'. let rsCustomizer = getCustomizer (addDefaultRoots _rscIntroOriginal) _vrsdCustomization validateSchemaCustomizations rsCustomizer (irDoc _rscIntroOriginal) -- At this point, we can't resolve remote relationships; we store an empty map. let _rscRemoteRelationships = mempty _rscInfo = RemoteSchemaInfo {..} -- Check that the parsed GraphQL type info is valid by running the schema -- generation. The result is discarded, as the local schema will be built -- properly for each role at schema generation time, but this allows us to -- quickly reject an invalid schema. void $ flip runReaderT minimumValidContext $ runSchemaT $ buildRemoteParser @_ @_ @Parse _rscIntroOriginal _rscRemoteRelationships _rscInfo -- The 'rawIntrospectionResult' contains the 'Bytestring' response of -- the introspection result of the remote server. We store this in the -- 'RemoteSchemaCtx' because we can use this when the 'introspect_remote_schema' -- is called by simple encoding the result to JSON. return RemoteSchemaCtx { _rscPermissions = mempty, .. } where -- If there is no explicit mutation or subscription root type we need to check for -- objects type definitions with the default names "Mutation" and "Subscription". -- If found, we add the default roots explicitly to the IntrospectionResult. -- This simplifies the customization code. addDefaultRoots :: IntrospectionResult -> IntrospectionResult addDefaultRoots IntrospectionResult {..} = IntrospectionResult { irMutationRoot = getRootTypeName GName._Mutation irMutationRoot, irSubscriptionRoot = getRootTypeName GName._Subscription irSubscriptionRoot, .. } where getRootTypeName defaultName providedName = providedName <|> (defaultName <$ lookupObject irDoc defaultName) -- Minimum valid information required to run schema generation for -- the remote schema. minimumValidContext = ( adminRoleName :: RoleName, mempty :: CustomizeRemoteFieldName, mempty :: MkTypename, mempty :: MkRootFieldName, HasuraCase, SchemaOptions { -- doesn't apply to remote schemas soStringifyNumbers = Options.Don'tStringifyNumbers, -- doesn't apply to remote schemas soDangerousBooleanCollapse = Options.DangerouslyCollapseBooleans, -- we don't support remote schemas in Relay, but the check is -- performed ahead of time, meaning that the value here is -- irrelevant -- doesn't apply to remote schemas soInferFunctionPermissions = Options.InferFunctionPermissions, -- doesn't apply to remote schemas soOptimizePermissionFilters = Options.Don'tOptimizePermissionFilters }, SchemaContext HasuraSchema ignoreRemoteRelationship ) -- | Sends a GraphQL query to the given server. execRemoteGQ :: ( MonadIO m, MonadError QErr m, Tracing.MonadTrace m ) => Env.Environment -> HTTP.Manager -> UserInfo -> [HTTP.Header] -> ValidatedRemoteSchemaDef -> GQLReqOutgoing -> -- | Returns the response body and headers, along with the time taken for the -- HTTP request to complete m (DiffTime, [HTTP.Header], BL.ByteString) execRemoteGQ env manager userInfo reqHdrs rsdef gqlReq@GQLReq {..} = do let gqlReqUnparsed = renderGQLReqOutgoing gqlReq when (G._todType _grQuery == G.OperationTypeSubscription) $ throwRemoteSchema "subscription to remote server is not supported" confHdrs <- makeHeadersFromConf env hdrConf let clientHdrs = bool [] (mkClientHeadersForward reqHdrs) fwdClientHdrs -- filter out duplicate headers -- priority: conf headers > resolved userinfo vars > client headers hdrMaps = [ Map.fromList confHdrs, Map.fromList userInfoToHdrs, Map.fromList clientHdrs ] headers = Map.toList $ foldr Map.union Map.empty hdrMaps finalHeaders = addDefaultHeaders headers initReq <- onLeft (HTTP.mkRequestEither $ tshow url) (throwRemoteSchemaHttp webhookEnvRecord) let req = initReq & set HTTP.method "POST" & set HTTP.headers finalHeaders & set HTTP.body (Just $ J.encode gqlReqUnparsed) & set HTTP.timeout (HTTP.responseTimeoutMicro (timeout * 1000000)) Tracing.tracedHttpRequest req \req' -> do (time, res) <- withElapsedTime $ liftIO $ try $ HTTP.performRequest req' manager resp <- onLeft res (throwRemoteSchemaHttp webhookEnvRecord) pure (time, mkSetCookieHeaders resp, resp ^. Wreq.responseBody) where ValidatedRemoteSchemaDef webhookEnvRecord hdrConf fwdClientHdrs timeout _mPrefix = rsdef url = _envVarValue webhookEnvRecord userInfoToHdrs = sessionVariablesToHeaders $ _uiSession userInfo ------------------------------------------------------------------------------- -- Validation validateSchemaCustomizations :: forall m. MonadError QErr m => RemoteSchemaCustomizer -> RemoteSchemaIntrospection -> m () validateSchemaCustomizations remoteSchemaCustomizer remoteSchemaIntrospection = do validateSchemaCustomizationsConsistent remoteSchemaCustomizer remoteSchemaIntrospection validateSchemaCustomizationsDistinct remoteSchemaCustomizer remoteSchemaIntrospection validateSchemaCustomizationsConsistent :: forall m. MonadError QErr m => RemoteSchemaCustomizer -> RemoteSchemaIntrospection -> m () validateSchemaCustomizationsConsistent remoteSchemaCustomizer (RemoteSchemaIntrospection typeDefinitions) = do traverse_ validateInterfaceFields typeDefinitions where customizeFieldName = remoteSchemaCustomizeFieldName remoteSchemaCustomizer validateInterfaceFields :: G.TypeDefinition [G.Name] a -> m () validateInterfaceFields = \case G.TypeDefinitionInterface G.InterfaceTypeDefinition {..} -> for_ _itdPossibleTypes $ \typeName -> for_ _itdFieldsDefinition $ \G.FieldDefinition {..} -> do let interfaceCustomizedFieldName = runCustomizeRemoteFieldName customizeFieldName _itdName _fldName typeCustomizedFieldName = runCustomizeRemoteFieldName customizeFieldName typeName _fldName when (interfaceCustomizedFieldName /= typeCustomizedFieldName) $ throwRemoteSchema $ "Remote schema customization inconsistency: field name mapping for field " <> _fldName <<> " of interface " <> _itdName <<> " is inconsistent with mapping for type " <> typeName <<> ". Interface field name maps to " <> interfaceCustomizedFieldName <<> ". Type field name maps to " <> typeCustomizedFieldName <<> "." _ -> pure () validateSchemaCustomizationsDistinct :: forall m. MonadError QErr m => RemoteSchemaCustomizer -> RemoteSchemaIntrospection -> m () validateSchemaCustomizationsDistinct remoteSchemaCustomizer (RemoteSchemaIntrospection typeDefinitions) = do validateTypeMappingsAreDistinct traverse_ validateFieldMappingsAreDistinct typeDefinitions where customizeTypeName = remoteSchemaCustomizeTypeName remoteSchemaCustomizer customizeFieldName = runCustomizeRemoteFieldName (remoteSchemaCustomizeFieldName remoteSchemaCustomizer) validateTypeMappingsAreDistinct :: m () validateTypeMappingsAreDistinct = do let dups = duplicates $ runMkTypename customizeTypeName <$> Map.keys typeDefinitions unless (Set.null dups) $ throwRemoteSchema $ "Type name mappings are not distinct; the following types appear more than once: " <> dquoteList dups validateFieldMappingsAreDistinct :: G.TypeDefinition a b -> m () validateFieldMappingsAreDistinct = \case G.TypeDefinitionInterface G.InterfaceTypeDefinition {..} -> do let dups = duplicates $ customizeFieldName _itdName . G._fldName <$> _itdFieldsDefinition unless (Set.null dups) $ throwRemoteSchema $ "Field name mappings for interface type " <> _itdName <<> " are not distinct; the following fields appear more than once: " <> dquoteList dups G.TypeDefinitionObject G.ObjectTypeDefinition {..} -> do let dups = duplicates $ customizeFieldName _otdName . G._fldName <$> _otdFieldsDefinition unless (Set.null dups) $ throwRemoteSchema $ "Field name mappings for object type " <> _otdName <<> " are not distinct; the following fields appear more than once: " <> dquoteList dups _ -> pure () ------------------------------------------------------------------------------- -- Introspection introspectionQuery :: GQLReqOutgoing introspectionQuery = $( do fp <- makeRelativeToProject "src-rsr/introspection.json" TH.qAddDependentFile fp eitherResult <- TH.runIO $ J.eitherDecodeFileStrict fp either fail TH.lift $ do r@GQLReq {..} <- eitherResult op <- left (T.unpack . showQErr) $ getSingleOperation r pure GQLReq {_grQuery = op, ..} ) -- | Parsing the introspection query result. We use this newtype wrapper to -- avoid orphan instances and parse JSON in the way that we need for GraphQL -- introspection results. newtype FromIntrospection a = FromIntrospection {fromIntrospection :: a} deriving (Show, Eq, Generic, Functor) instance J.FromJSON (FromIntrospection G.Description) where parseJSON = fmap (FromIntrospection . G.Description) . J.parseJSON instance J.FromJSON (FromIntrospection G.ScalarTypeDefinition) where parseJSON = J.withObject "ScalarTypeDefinition" $ \o -> do kind <- o .: "kind" name <- o .: "name" desc <- o .:? "description" when (kind /= "SCALAR") $ kindErr kind "scalar" let desc' = fmap fromIntrospection desc r = G.ScalarTypeDefinition desc' name [] return $ FromIntrospection r instance J.FromJSON (FromIntrospection (G.ObjectTypeDefinition G.InputValueDefinition)) where parseJSON = J.withObject "ObjectTypeDefinition" $ \o -> do kind <- o .: "kind" name <- o .: "name" desc <- o .:? "description" fields <- o .:? "fields" interfaces :: Maybe [FromIntrospection (G.InterfaceTypeDefinition [G.Name] G.InputValueDefinition)] <- o .:? "interfaces" when (kind /= "OBJECT") $ kindErr kind "object" let implIfaces = map G._itdName $ maybe [] (fmap fromIntrospection) interfaces flds = maybe [] (fmap fromIntrospection) fields desc' = fmap fromIntrospection desc r = G.ObjectTypeDefinition desc' name implIfaces [] flds return $ FromIntrospection r instance (J.FromJSON (FromIntrospection a)) => J.FromJSON (FromIntrospection (G.FieldDefinition a)) where parseJSON = J.withObject "FieldDefinition" $ \o -> do name <- o .: "name" desc <- o .:? "description" args <- o .: "args" _type <- o .: "type" let desc' = fmap fromIntrospection desc r = G.FieldDefinition desc' name (fmap fromIntrospection args) (fromIntrospection _type) [] return $ FromIntrospection r instance J.FromJSON (FromIntrospection G.GType) where parseJSON = J.withObject "GType" $ \o -> do kind <- o .: "kind" mName <- o .:? "name" mType <- o .:? "ofType" r <- case (kind, mName, mType) of ("NON_NULL", _, Just typ) -> return $ mkNotNull (fromIntrospection typ) ("NON_NULL", _, Nothing) -> pErr "NON_NULL should have `ofType`" ("LIST", _, Just typ) -> return $ G.TypeList (G.Nullability True) (fromIntrospection typ) ("LIST", _, Nothing) -> pErr "LIST should have `ofType`" (_, Just name, _) -> return $ G.TypeNamed (G.Nullability True) name _ -> pErr $ "kind: " <> kind <> " should have name" return $ FromIntrospection r where mkNotNull typ = case typ of G.TypeList _ ty -> G.TypeList (G.Nullability False) ty G.TypeNamed _ n -> G.TypeNamed (G.Nullability False) n instance J.FromJSON (FromIntrospection G.InputValueDefinition) where parseJSON = J.withObject "InputValueDefinition" $ \o -> do name <- o .: "name" desc <- o .:? "description" _type <- o .: "type" defVal <- o .:? "defaultValue" let desc' = fmap fromIntrospection desc let defVal' = fmap fromIntrospection defVal r = G.InputValueDefinition desc' name (fromIntrospection _type) defVal' [] return $ FromIntrospection r instance J.FromJSON (FromIntrospection (G.Value Void)) where parseJSON = J.withText "Value Void" $ \t -> let parseValueConst = G.runParser G.value in FromIntrospection <$> onLeft (parseValueConst t) (fail . T.unpack) instance J.FromJSON (FromIntrospection (G.InterfaceTypeDefinition [G.Name] G.InputValueDefinition)) where parseJSON = J.withObject "InterfaceTypeDefinition" $ \o -> do kind <- o .: "kind" name <- o .: "name" desc <- o .:? "description" fields <- o .:? "fields" possibleTypes :: Maybe [FromIntrospection (G.ObjectTypeDefinition G.InputValueDefinition)] <- o .:? "possibleTypes" let flds = maybe [] (fmap fromIntrospection) fields desc' = fmap fromIntrospection desc possTps = map G._otdName $ maybe [] (fmap fromIntrospection) possibleTypes when (kind /= "INTERFACE") $ kindErr kind "interface" -- TODO (non PDV) track which interfaces implement which other interfaces, after a -- GraphQL spec > Jun 2018 is released. let r = G.InterfaceTypeDefinition desc' name [] flds possTps return $ FromIntrospection r instance J.FromJSON (FromIntrospection G.UnionTypeDefinition) where parseJSON = J.withObject "UnionTypeDefinition" $ \o -> do kind <- o .: "kind" name <- o .: "name" desc <- o .:? "description" possibleTypes :: [FromIntrospection (G.ObjectTypeDefinition G.InputValueDefinition)] <- o .: "possibleTypes" let possibleTypes' = map G._otdName $ fmap fromIntrospection possibleTypes desc' = fmap fromIntrospection desc when (kind /= "UNION") $ kindErr kind "union" let r = G.UnionTypeDefinition desc' name [] possibleTypes' return $ FromIntrospection r instance J.FromJSON (FromIntrospection G.EnumTypeDefinition) where parseJSON = J.withObject "EnumTypeDefinition" $ \o -> do kind <- o .: "kind" name <- o .: "name" desc <- o .:? "description" vals <- o .: "enumValues" when (kind /= "ENUM") $ kindErr kind "enum" let desc' = fmap fromIntrospection desc let r = G.EnumTypeDefinition desc' name [] (fmap fromIntrospection vals) return $ FromIntrospection r instance J.FromJSON (FromIntrospection G.EnumValueDefinition) where parseJSON = J.withObject "EnumValueDefinition" $ \o -> do name <- o .: "name" desc <- o .:? "description" let desc' = fmap fromIntrospection desc let r = G.EnumValueDefinition desc' name [] return $ FromIntrospection r instance J.FromJSON (FromIntrospection (G.InputObjectTypeDefinition G.InputValueDefinition)) where parseJSON = J.withObject "InputObjectTypeDefinition" $ \o -> do kind <- o .: "kind" name <- o .: "name" desc <- o .:? "description" mInputFields <- o .:? "inputFields" let inputFields = maybe [] (fmap fromIntrospection) mInputFields let desc' = fmap fromIntrospection desc when (kind /= "INPUT_OBJECT") $ kindErr kind "input_object" let r = G.InputObjectTypeDefinition desc' name [] inputFields return $ FromIntrospection r instance J.FromJSON (FromIntrospection (G.TypeDefinition [G.Name] G.InputValueDefinition)) where parseJSON = J.withObject "TypeDefinition" $ \o -> do kind :: Text <- o .: "kind" r <- case kind of "SCALAR" -> G.TypeDefinitionScalar . fromIntrospection <$> J.parseJSON (J.Object o) "OBJECT" -> G.TypeDefinitionObject . fromIntrospection <$> J.parseJSON (J.Object o) "INTERFACE" -> G.TypeDefinitionInterface . fromIntrospection <$> J.parseJSON (J.Object o) "UNION" -> G.TypeDefinitionUnion . fromIntrospection <$> J.parseJSON (J.Object o) "ENUM" -> G.TypeDefinitionEnum . fromIntrospection <$> J.parseJSON (J.Object o) "INPUT_OBJECT" -> G.TypeDefinitionInputObject . fromIntrospection <$> J.parseJSON (J.Object o) _ -> pErr $ "unknown kind: " <> kind return $ FromIntrospection r instance J.FromJSON (FromIntrospection IntrospectionResult) where parseJSON = J.withObject "SchemaDocument" $ \o -> do _data <- o .: "data" schema <- _data .: "__schema" -- the list of types types <- schema .: "types" -- query root queryType <- schema .: "queryType" queryRoot <- queryType .: "name" -- mutation root mMutationType <- schema .:? "mutationType" mutationRoot <- case mMutationType of Nothing -> return Nothing Just mutType -> do mutRoot <- mutType .: "name" return $ Just mutRoot -- subscription root mSubsType <- schema .:? "subscriptionType" subsRoot <- case mSubsType of Nothing -> return Nothing Just subsType -> do subRoot <- subsType .: "name" return $ Just subRoot let types' = (fmap . fmap . fmap) -- presets are only defined for non-admin roles, -- an admin will not have any presets -- defined and the admin will be the one, -- who'll be adding the remote schema, -- hence presets are set to `Nothing` (`RemoteSchemaInputValueDefinition` Nothing) types r = IntrospectionResult (RemoteSchemaIntrospection $ Map.fromListOn getTypeName $ fromIntrospection <$> types') queryRoot mutationRoot subsRoot return $ FromIntrospection r ------------------------------------------------------------------------------- -- Customization getCustomizer :: IntrospectionResult -> Maybe RemoteSchemaCustomization -> RemoteSchemaCustomizer getCustomizer _ Nothing = identityCustomizer getCustomizer IntrospectionResult {..} (Just RemoteSchemaCustomization {..}) = RemoteSchemaCustomizer {..} where rootTypeNames = if isNothing _rscRootFieldsNamespace then Set.fromList $ catMaybes [Just irQueryRoot, irMutationRoot, irSubscriptionRoot] else mempty -- root type names should not be prefixed or suffixed unless -- there is a custom root namespace field protectedTypeNames = GName.builtInScalars <> rootTypeNames nameFilter name = not $ "__" `T.isPrefixOf` G.unName name || name `Set.member` protectedTypeNames mkPrefixSuffixMap :: Maybe G.Name -> Maybe G.Name -> [G.Name] -> HashMap G.Name G.Name mkPrefixSuffixMap mPrefix mSuffix names = Map.fromList $ case (mPrefix, mSuffix) of (Nothing, Nothing) -> [] (Just prefix, Nothing) -> map (\name -> (name, prefix <> name)) names (Nothing, Just suffix) -> map (\name -> (name, name <> suffix)) names (Just prefix, Just suffix) -> map (\name -> (name, prefix <> name <> suffix)) names RemoteSchemaIntrospection typeDefinitions = irDoc typesToRename = filter nameFilter $ Map.keys typeDefinitions -- NOTE: We are creating a root type name mapping, this will be used to -- prefix the root field names with the root field namespace. We are doing -- this inorder to reduce typename conflicts while adding the root field -- namespace. Please note that this will have lower precedence order than -- the _rtcMapping. This means that a user can still change the root type -- name. rootTypeNameMap = mkPrefixSuffixMap _rscRootFieldsNamespace Nothing $ catMaybes [Just irQueryRoot, irMutationRoot, irSubscriptionRoot] typeRenameMap = case _rscTypeNames of Nothing -> rootTypeNameMap Just RemoteTypeCustomization {..} -> _rtcMapping <> rootTypeNameMap <> mkPrefixSuffixMap _rtcPrefix _rtcSuffix typesToRename typeFieldMap :: HashMap G.Name [G.Name] -- typeName -> fieldNames typeFieldMap = Map.mapMaybe getFieldsNames typeDefinitions where getFieldsNames = \case G.TypeDefinitionObject G.ObjectTypeDefinition {..} -> Just $ G._fldName <$> _otdFieldsDefinition G.TypeDefinitionInterface G.InterfaceTypeDefinition {..} -> Just $ G._fldName <$> _itdFieldsDefinition _ -> Nothing mkFieldRenameMap RemoteFieldCustomization {..} fieldNames = _rfcMapping <> mkPrefixSuffixMap _rfcPrefix _rfcSuffix fieldNames fieldRenameMap = case _rscFieldNames of Nothing -> Map.empty Just fieldNameCustomizations -> let customizationMap = Map.fromList $ map (\rfc -> (_rfcParentType rfc, rfc)) fieldNameCustomizations in Map.intersectionWith mkFieldRenameMap customizationMap typeFieldMap _rscNamespaceFieldName = _rscRootFieldsNamespace _rscCustomizeTypeName = typeRenameMap _rscCustomizeFieldName = fieldRenameMap ------------------------------------------------------------------------------ -- Local error handling pErr :: (MonadFail m) => Text -> m a pErr = fail . T.unpack kindErr :: (MonadFail m) => Text -> Text -> m a kindErr gKind eKind = pErr $ "Invalid `kind: " <> gKind <> "` in " <> eKind throwRemoteSchema :: QErrM m => Text -> m a throwRemoteSchema = throw400 RemoteSchemaError throwRemoteSchemaHttp :: QErrM m => EnvRecord URI -> HTTP.HttpException -> m a throwRemoteSchemaHttp urlEnvRecord exception = throwError $ (baseError urlEnvRecord) { qeInternal = Just $ ExtraInternal $ J.toJSON $ HttpException exception } where baseError val = err400 RemoteSchemaError (httpExceptMsg val) httpExceptMsg val = "HTTP exception occurred while sending the request to " <> tshow (_envVarName val)