{-# LANGUAGE QuasiQuotes #-} {-# LANGUAGE ViewPatterns #-} module Hasura.GraphQL.Schema ( buildGQLContext, ) where import Control.Concurrent.Extended (forConcurrentlyEIO) import Control.Lens.Extended import Data.Aeson.Ordered qualified as JO import Data.Has import Data.HashMap.Strict qualified as Map import Data.HashSet qualified as Set import Data.List.Extended (duplicates) import Data.Text.Extended import Data.Text.NonEmpty qualified as NT import Hasura.Base.Error import Hasura.GraphQL.Context import Hasura.GraphQL.Execute.Types import Hasura.GraphQL.Namespace import Hasura.GraphQL.Parser ( Kind (..), Parser, Schema (..), UnpreparedValue (..), ) import Hasura.GraphQL.Parser qualified as P import Hasura.GraphQL.Parser.Class import Hasura.GraphQL.Parser.Constants qualified as G import Hasura.GraphQL.Parser.Internal.Parser (FieldParser (..)) import Hasura.GraphQL.Parser.Schema.Convert (convertToSchemaIntrospection) import Hasura.GraphQL.Schema.Backend import Hasura.GraphQL.Schema.Common import Hasura.GraphQL.Schema.Instances () import Hasura.GraphQL.Schema.Introspect import Hasura.GraphQL.Schema.Postgres import Hasura.GraphQL.Schema.Remote (buildRemoteParser) import Hasura.GraphQL.Schema.Select import Hasura.GraphQL.Schema.Table import Hasura.Prelude import Hasura.RQL.IR import Hasura.RQL.Types.Action import Hasura.RQL.Types.Backend import Hasura.RQL.Types.Common import Hasura.RQL.Types.CustomTypes import Hasura.RQL.Types.Function import Hasura.RQL.Types.Metadata.Object import Hasura.RQL.Types.QueryTags import Hasura.RQL.Types.RemoteSchema import Hasura.RQL.Types.SchemaCache hiding (askTableInfo) import Hasura.RQL.Types.Source import Hasura.RQL.Types.SourceCustomization import Hasura.RQL.Types.Table import Hasura.SQL.AnyBackend qualified as AB import Hasura.SQL.Tag (HasTag) import Hasura.Server.Types import Hasura.Session import Language.GraphQL.Draft.Syntax qualified as G ------------------------------------------------------------------------------- -- Building contexts -- | Builds the full GraphQL context for a given query type. -- -- A 'GQLContext' stores how an incoming request should be processed: how to -- translate each incoming field of a request into a corresponding semantic -- representation. There is a different one per 'Role', as each role might have -- different permissions, and therefore not access to the same set of objects in -- the schema. -- -- This function takes all necessary information from the metadata, and the -- 'GraphQLQueryType', and builds all relevant contexts: a hash map from -- 'RoleName' to their 'GQLContext' and the "default" context for -- unauthenticated users. -- -- When building the schema for each role, we treat the remote schemas as -- "second-class citizens" compared to sources; more specifically, we attempt to -- detect whether the inclusion of a given remote schema would result in root -- fields conflict, and only keep schemas that don't generate any. This results -- in a partial schema being available to the users, and a better error message -- than would arise from 'safeSelectionSet'. buildGQLContext :: forall m. ( MonadError QErr m, MonadIO m ) => ServerConfigCtx -> GraphQLQueryType -> SourceCache -> HashMap RemoteSchemaName (RemoteSchemaCtx, MetadataObject) -> ActionCache -> AnnotatedCustomTypes -> m ( G.SchemaIntrospection, HashMap RoleName (RoleContext GQLContext), GQLContext, HashSet InconsistentMetadata ) buildGQLContext ServerConfigCtx {..} queryType sources allRemoteSchemas allActions customTypes = do let remoteSchemasRoles = concatMap (Map.keys . _rscPermissions . fst . snd) $ Map.toList allRemoteSchemas nonTableRoles = Set.insert adminRoleName $ (allActionInfos ^.. folded . aiPermissions . to Map.keys . folded) <> Set.fromList (bool mempty remoteSchemasRoles $ _sccRemoteSchemaPermsCtx == RemoteSchemaPermsEnabled) allActionInfos = Map.elems allActions allTableRoles = Set.fromList $ getTableRoles =<< Map.elems sources allRoles = nonTableRoles <> allTableRoles defaultNC = fromMaybe HasuraCase _sccDefaultNamingConvention roleContexts <- -- Buld role contexts in parallel. We'd prefer deterministic parallelism -- but that isn't really acheivable (see mono #3829). NOTE: the admin role -- will still be a bottleneck here, even on huge_schema which has many -- roles. fmap Map.fromList $ forConcurrentlyEIO 10 (Set.toList allRoles) $ \role -> (role,) <$> case queryType of QueryHasura -> buildRoleContext (_sccSQLGenCtx, queryType, _sccFunctionPermsCtx) sources allRemoteSchemas allActionInfos customTypes role _sccRemoteSchemaPermsCtx _sccExperimentalFeatures (bool StreamingSubscriptionsDisabled StreamingSubscriptionsEnabled $ EFStreamingSubscriptions `elem` _sccExperimentalFeatures) defaultNC QueryRelay -> (,mempty,G.SchemaIntrospection mempty) <$> buildRelayRoleContext (_sccSQLGenCtx, queryType, _sccFunctionPermsCtx) sources allActionInfos customTypes role _sccExperimentalFeatures defaultNC adminIntrospection <- case Map.lookup adminRoleName roleContexts of Just (_context, _errors, introspection) -> pure introspection Nothing -> throw500 "buildGQLContext failed to build for the admin role" (unauthenticated, unauthenticatedRemotesErrors) <- unauthenticatedContext allRemoteSchemas _sccRemoteSchemaPermsCtx pure ( adminIntrospection, view _1 <$> roleContexts, unauthenticated, Set.unions $ unauthenticatedRemotesErrors : map (view _2) (Map.elems roleContexts) ) -- | Build the @QueryHasura@ context for a given role. buildRoleContext :: forall m. (MonadError QErr m, MonadIO m) => (SQLGenCtx, GraphQLQueryType, FunctionPermissionsCtx) -> SourceCache -> HashMap RemoteSchemaName (RemoteSchemaCtx, MetadataObject) -> [ActionInfo] -> AnnotatedCustomTypes -> RoleName -> RemoteSchemaPermsCtx -> Set.HashSet ExperimentalFeature -> StreamingSubscriptionsCtx -> NamingCase -> m ( RoleContext GQLContext, HashSet InconsistentMetadata, G.SchemaIntrospection ) buildRoleContext options sources remotes allActionInfos customTypes role remoteSchemaPermsCtx expFeatures streamingSubscriptionsCtx globalDefaultNC = do let ( SQLGenCtx stringifyNum dangerousBooleanCollapse optimizePermissionFilters, queryType, functionPermsCtx ) = options roleQueryContext = QueryContext stringifyNum dangerousBooleanCollapse queryType functionPermsCtx remoteSchemaPermsCtx optimizePermissionFilters runMonadSchema role roleQueryContext sources (fst <$> remotes) $ do -- build all sources (sourcesQueryFields, sourcesMutationFrontendFields, sourcesMutationBackendFields, subscriptionFields) <- fmap mconcat $ traverse (buildBackendSource buildSource) $ toList sources -- build all remote schemas -- we only keep the ones that don't result in a name conflict (remoteSchemaFields, remoteSchemaErrors) <- buildAndValidateRemoteSchemas remotes sourcesQueryFields sourcesMutationBackendFields role remoteSchemaPermsCtx let remotesQueryFields = concatMap piQuery remoteSchemaFields remotesMutationFields = concat $ mapMaybe piMutation remoteSchemaFields remotesSubscriptionFields = concat $ mapMaybe piSubscription remoteSchemaFields mutationParserFrontend <- buildMutationParser remotesMutationFields allActionInfos customTypes sourcesMutationFrontendFields mutationParserBackend <- buildMutationParser remotesMutationFields allActionInfos customTypes sourcesMutationBackendFields subscriptionParser <- buildSubscriptionParser subscriptionFields allActionInfos customTypes remotesSubscriptionFields queryParserFrontend <- buildQueryParser sourcesQueryFields remotesQueryFields allActionInfos customTypes mutationParserFrontend subscriptionParser queryParserBackend <- buildQueryParser sourcesQueryFields remotesQueryFields allActionInfos customTypes mutationParserBackend subscriptionParser -- In order to catch errors early, we attempt to generate the data -- required for introspection, which ends up doing a few correctness -- checks in the GraphQL schema. Furthermore, we want to persist this -- information in the case of the admin role. introspectionSchema <- do result <- convertToSchemaIntrospection <$> buildIntrospectionSchema (P.parserType queryParserBackend) (P.parserType <$> mutationParserBackend) (P.parserType <$> subscriptionParser) pure $ -- TODO(nicuveo): we treat the admin role differently in this function, -- which is a bit inelegant; we might want to refactor this function and -- split it into several steps, so that we can make a separate function for -- the admin role that reuses the common parts and avoid such tests. if role == adminRoleName then result else G.SchemaIntrospection mempty void $ buildIntrospectionSchema (P.parserType queryParserFrontend) (P.parserType <$> mutationParserFrontend) (P.parserType <$> subscriptionParser) -- (since we're running this in parallel in caller, be strict) let !frontendContext = GQLContext (finalizeParser queryParserFrontend) (finalizeParser <$> mutationParserFrontend) (finalizeParser <$> subscriptionParser) !backendContext = GQLContext (finalizeParser queryParserBackend) (finalizeParser <$> mutationParserBackend) (finalizeParser <$> subscriptionParser) pure ( RoleContext frontendContext $ Just backendContext, remoteSchemaErrors, introspectionSchema ) where buildSource :: forall b. BackendSchema b => SourceInfo b -> ConcreteSchemaT m ( [FieldParser (P.ParseT Identity) (NamespacedField (QueryRootField UnpreparedValue))], [FieldParser (P.ParseT Identity) (NamespacedField (MutationRootField UnpreparedValue))], [FieldParser (P.ParseT Identity) (NamespacedField (MutationRootField UnpreparedValue))], [FieldParser (P.ParseT Identity) (NamespacedField (QueryRootField UnpreparedValue))] ) buildSource (SourceInfo sourceName tables functions sourceConfig queryTagsConfig sourceCustomization') = withSourceCustomization sourceCustomization (namingConventionSupport @b) globalDefaultNC do let validFunctions = takeValidFunctions functions validTables = takeValidTables tables mkTypename <- asks getter uncustomizedQueryFields <- buildQueryFields sourceName sourceConfig validTables validFunctions queryTagsConfig uncustomizedStreamSubscriptionFields <- case streamingSubscriptionsCtx of StreamingSubscriptionsEnabled -> buildTableStreamSubscriptionFields sourceName sourceConfig validTables queryTagsConfig StreamingSubscriptionsDisabled -> pure mempty (,,,) <$> customizeFields sourceCustomization (mkTypename <> P.MkTypename (<> G.__query)) (pure uncustomizedQueryFields) <*> customizeFields sourceCustomization (mkTypename <> P.MkTypename (<> G.__mutation_frontend)) (buildMutationFields Frontend sourceName sourceConfig validTables validFunctions queryTagsConfig) <*> customizeFields sourceCustomization (mkTypename <> P.MkTypename (<> G.__mutation_backend)) (buildMutationFields Backend sourceName sourceConfig validTables validFunctions queryTagsConfig) <*> customizeFields sourceCustomization (mkTypename <> P.MkTypename (<> G.__subscription)) (pure $ uncustomizedStreamSubscriptionFields <> uncustomizedQueryFields) where sourceCustomization = if EFNamingConventions `elem` expFeatures then sourceCustomization' else sourceCustomization' {_scNamingConventions = Nothing} buildRelayRoleContext :: forall m. (MonadError QErr m, MonadIO m) => (SQLGenCtx, GraphQLQueryType, FunctionPermissionsCtx) -> SourceCache -> [ActionInfo] -> AnnotatedCustomTypes -> RoleName -> Set.HashSet ExperimentalFeature -> NamingCase -> m (RoleContext GQLContext) buildRelayRoleContext options sources allActionInfos customTypes role expFeatures globalDefaultNC = do let ( SQLGenCtx stringifyNum dangerousBooleanCollapse optimizePermissionFilters, queryType, functionPermsCtx ) = options -- TODO: At the time of writing this, remote schema queries are not supported in relay. -- When they are supported, we should get do what `buildRoleContext` does. Since, they -- are not supported yet, we use `mempty` below for `RemoteSchemaMap`. roleQueryContext = QueryContext stringifyNum dangerousBooleanCollapse queryType functionPermsCtx RemoteSchemaPermsDisabled optimizePermissionFilters runMonadSchema role roleQueryContext sources mempty do fieldsList <- traverse (buildBackendSource buildSource) $ toList sources -- Add node root field. -- FIXME: for now this is PG-only. This isn't a problem yet since for now only PG supports relay. -- To fix this, we'd need to first generalize `nodeField`. nodeField_ <- fmap NotNamespaced <$> nodeField let (queryPGFields', mutationFrontendFields, mutationBackendFields) = mconcat fieldsList queryPGFields = nodeField_ : queryPGFields' -- Remote schema mutations aren't exposed in relay because many times it throws -- the conflicting definitions error between the relay types like `Node`, `PageInfo` etc mutationParserFrontend <- buildMutationParser mempty allActionInfos customTypes mutationFrontendFields mutationParserBackend <- buildMutationParser mempty allActionInfos customTypes mutationBackendFields subscriptionParser <- buildSubscriptionParser queryPGFields [] customTypes [] queryParserFrontend <- queryWithIntrospectionHelper queryPGFields mutationParserFrontend subscriptionParser queryParserBackend <- queryWithIntrospectionHelper queryPGFields mutationParserBackend subscriptionParser -- In order to catch errors early, we attempt to generate the data -- required for introspection, which ends up doing a few correctness -- checks in the GraphQL schema. void $ buildIntrospectionSchema (P.parserType queryParserBackend) (P.parserType <$> mutationParserBackend) (P.parserType <$> subscriptionParser) void $ buildIntrospectionSchema (P.parserType queryParserFrontend) (P.parserType <$> mutationParserFrontend) (P.parserType <$> subscriptionParser) let frontendContext = GQLContext (finalizeParser queryParserFrontend) (finalizeParser <$> mutationParserFrontend) (finalizeParser <$> subscriptionParser) backendContext = GQLContext (finalizeParser queryParserBackend) (finalizeParser <$> mutationParserBackend) (finalizeParser <$> subscriptionParser) pure $ RoleContext frontendContext $ Just backendContext where buildSource :: forall b. BackendSchema b => SourceInfo b -> ConcreteSchemaT m ( [FieldParser (P.ParseT Identity) (NamespacedField (QueryRootField UnpreparedValue))], [FieldParser (P.ParseT Identity) (NamespacedField (MutationRootField UnpreparedValue))], [FieldParser (P.ParseT Identity) (NamespacedField (MutationRootField UnpreparedValue))] ) buildSource (SourceInfo sourceName tables functions sourceConfig queryTagsConfig sourceCustomization') = withSourceCustomization sourceCustomization (namingConventionSupport @b) globalDefaultNC do let validFunctions = takeValidFunctions functions validTables = takeValidTables tables mkTypename <- asks getter (,,) <$> customizeFields sourceCustomization (mkTypename <> P.MkTypename (<> G.__query)) (buildRelayQueryFields sourceName sourceConfig validTables validFunctions queryTagsConfig) <*> customizeFields sourceCustomization (mkTypename <> P.MkTypename (<> G.__mutation_frontend)) (buildMutationFields Frontend sourceName sourceConfig validTables validFunctions queryTagsConfig) <*> customizeFields sourceCustomization (mkTypename <> P.MkTypename (<> G.__mutation_backend)) (buildMutationFields Backend sourceName sourceConfig validTables validFunctions queryTagsConfig) where sourceCustomization = if EFNamingConventions `elem` expFeatures then sourceCustomization' else sourceCustomization' {_scNamingConventions = Nothing} -- | Builds the schema context for unauthenticated users. -- -- This context is used whenever the user queries the engine with a role that is -- unknown, and therefore not present in the context map. Before remote schema -- permissions were introduced, remotes were considered to be a public entity, -- and we therefore allowed an unknown role also to query the remotes. To -- maintain backwards compatibility, we check if remote schema permissions are -- enabled; remote schemas will only be available to unauthenticated users if -- permissions aren't enabled. unauthenticatedContext :: forall m. ( MonadError QErr m, MonadIO m ) => HashMap RemoteSchemaName (RemoteSchemaCtx, MetadataObject) -> RemoteSchemaPermsCtx -> m (GQLContext, HashSet InconsistentMetadata) unauthenticatedContext allRemotes remoteSchemaPermsCtx = do -- Since remote schemas can theoretically join against tables, we need to give -- some fake data to 'runMonadSchema' in order to trick it into successfully -- building a restricted schema; namely, we erase all remote relationships -- from the remote schema contexts, meaning that all the information that is -- needed for sources is completely irrelevant and filled with default values. let fakeQueryContext = QueryContext LeaveNumbersAlone -- stringifyNum doesn't apply to remotes True -- booleanCollapse doesn't apply to remotes QueryHasura FunctionPermissionsInferred -- function permissions don't apply to remotes remoteSchemaPermsCtx False -- chosen arbitrarily to be as improbable as possible fakeRole = mkRoleNameSafe [NT.nonEmptyTextQQ|MyNameIsOzymandiasKingOfKingsLookOnMyWorksYeMightyAndDespair|] -- we delete all references to remote joins alteredRemoteSchemas = allRemotes <&> first \context -> context {_rscRemoteRelationships = mempty} runMonadSchema fakeRole fakeQueryContext mempty mempty do (queryFields, mutationFields, subscriptionFields, remoteErrors) <- case remoteSchemaPermsCtx of RemoteSchemaPermsEnabled -> -- Permissions are enabled, unauthenticated users have access to nothing. pure ([], [], [], mempty) RemoteSchemaPermsDisabled -> do -- Permissions are disabled, unauthenticated users have access to remote schemas. (remoteFields, remoteSchemaErrors) <- buildAndValidateRemoteSchemas alteredRemoteSchemas [] [] fakeRole remoteSchemaPermsCtx pure ( fmap (fmap RFRemote) <$> concatMap piQuery remoteFields, fmap (fmap RFRemote) <$> concat (mapMaybe piMutation remoteFields), fmap (fmap RFRemote) <$> concat (mapMaybe piSubscription remoteFields), remoteSchemaErrors ) mutationParser <- whenMaybe (not $ null mutationFields) $ P.safeSelectionSet mutationRoot (Just $ G.Description "mutation root") mutationFields <&> fmap (flattenNamespaces . fmap typenameToNamespacedRawRF) subscriptionParser <- whenMaybe (not $ null subscriptionFields) $ P.safeSelectionSet subscriptionRoot (Just $ G.Description "subscription root") subscriptionFields <&> fmap (flattenNamespaces . fmap typenameToNamespacedRawRF) queryParser <- queryWithIntrospectionHelper queryFields mutationParser Nothing void $ buildIntrospectionSchema (P.parserType queryParser) (P.parserType <$> mutationParser) (P.parserType <$> subscriptionParser) pure (GQLContext (finalizeParser queryParser) (finalizeParser <$> mutationParser) (finalizeParser <$> subscriptionParser), remoteErrors) ------------------------------------------------------------------------------- -- Building parser fields buildAndValidateRemoteSchemas :: forall m. ( MonadError QErr m, MonadIO m ) => HashMap RemoteSchemaName (RemoteSchemaCtx, MetadataObject) -> [FieldParser (P.ParseT Identity) (NamespacedField (QueryRootField UnpreparedValue))] -> [FieldParser (P.ParseT Identity) (NamespacedField (MutationRootField UnpreparedValue))] -> RoleName -> RemoteSchemaPermsCtx -> ConcreteSchemaT m ([RemoteSchemaParser (P.ParseT Identity)], HashSet InconsistentMetadata) buildAndValidateRemoteSchemas remotes sourcesQueryFields sourcesMutationFields role remoteSchemaPermsCtx = runWriterT $ foldlM step [] (Map.elems remotes) where getFieldName = P.getName . fDefinition sourcesQueryFieldNames = getFieldName <$> sourcesQueryFields sourcesMutationFieldNames = getFieldName <$> sourcesMutationFields step validatedSchemas (remoteSchemaContext, metadataId) = do let previousSchemasQueryFieldNames = map getFieldName $ concatMap piQuery validatedSchemas previousSchemasMutationFieldNames = map getFieldName $ concat $ mapMaybe piMutation validatedSchemas reportInconsistency reason = tell $ Set.singleton $ InconsistentObject reason Nothing metadataId maybeParser <- lift $ buildRemoteSchemaParser remoteSchemaPermsCtx role remoteSchemaContext case maybeParser of Nothing -> pure validatedSchemas Just remoteSchemaParser -> do (_, inconsistencies) <- listen $ do let newSchemaQueryFieldNames = map getFieldName $ piQuery remoteSchemaParser newSchemaMutationFieldNames = foldMap (map getFieldName) $ piMutation remoteSchemaParser -- First we check for conflicts in query_root: -- - between this remote and the previous ones: for_ (duplicates $ newSchemaQueryFieldNames <> previousSchemasQueryFieldNames) \name -> reportInconsistency $ "Duplicate remote field " <> squote name -- - between this remote and the sources: for_ (duplicates $ newSchemaQueryFieldNames <> sourcesQueryFieldNames) $ \name -> reportInconsistency $ "Field cannot be overwritten by remote field " <> squote name -- Ditto, but for mutations - i.e. with mutation_root: unless (null newSchemaMutationFieldNames) do -- - between this remote and the previous ones: for_ (duplicates $ newSchemaMutationFieldNames <> previousSchemasMutationFieldNames) $ \name -> reportInconsistency $ "Duplicate remote field " <> squote name -- - between this remote and the sources: for_ (duplicates $ newSchemaMutationFieldNames <> sourcesMutationFieldNames) $ \name -> reportInconsistency $ "Field cannot be overwritten by remote field " <> squote name -- No need to check for conflicts between subscription fields, since -- remote subscriptions aren't supported yet. -- Only add this new remote to the list if there was no error pure $ if Set.null inconsistencies then remoteSchemaParser : validatedSchemas else validatedSchemas buildRemoteSchemaParser :: forall m. (MonadError QErr m, MonadIO m) => RemoteSchemaPermsCtx -> RoleName -> RemoteSchemaCtx -> ConcreteSchemaT m (Maybe (RemoteSchemaParser (P.ParseT Identity))) buildRemoteSchemaParser remoteSchemaPermsCtx roleName context = do let maybeIntrospection = getIntrospectionResult remoteSchemaPermsCtx roleName context for maybeIntrospection \introspection -> buildRemoteParser introspection (_rscRemoteRelationships context) (_rscInfo context) buildQueryFields :: forall b r m n. MonadBuildSchema b r m n => SourceName -> SourceConfig b -> TableCache b -> FunctionCache b -> Maybe QueryTagsConfig -> m [P.FieldParser n (QueryRootField UnpreparedValue)] buildQueryFields sourceName sourceConfig tables (takeExposedAs FEAQuery -> functions) queryTagsConfig = do roleName <- asks getter functionPermsCtx <- asks $ qcFunctionPermsContext . getter tableSelectExpParsers <- for (Map.toList tables) \(tableName, tableInfo) -> do tableIdentifierName <- getTableIdentifierName @b tableInfo mkRF $ buildTableQueryFields sourceName tableName tableInfo tableIdentifierName functionSelectExpParsers <- for (Map.toList functions) \(functionName, functionInfo) -> runMaybeT $ do guard $ roleName == adminRoleName || roleName `Map.member` _fiPermissions functionInfo || functionPermsCtx == FunctionPermissionsInferred let targetTableName = _fiReturnType functionInfo lift $ mkRF $ buildFunctionQueryFields sourceName functionName functionInfo targetTableName pure $ concat $ tableSelectExpParsers <> catMaybes functionSelectExpParsers where mkRF = mkRootField sourceName sourceConfig queryTagsConfig QDBR buildTableStreamSubscriptionFields :: forall b r m n. MonadBuildSchema b r m n => SourceName -> SourceConfig b -> TableCache b -> Maybe QueryTagsConfig -> m [P.FieldParser n (QueryRootField UnpreparedValue)] buildTableStreamSubscriptionFields sourceName sourceConfig tables queryTagsConfig = do tableSelectExpParsers <- for (Map.toList tables) \(tableName, tableInfo) -> do tableGQLName <- getTableIdentifierName @b tableInfo mkRF $ buildTableStreamingSubscriptionFields sourceName tableName tableInfo tableGQLName pure $ concat tableSelectExpParsers where mkRF = mkRootField sourceName sourceConfig queryTagsConfig QDBR buildRelayQueryFields :: forall b r m n. MonadBuildSchema b r m n => SourceName -> SourceConfig b -> TableCache b -> FunctionCache b -> Maybe QueryTagsConfig -> m [P.FieldParser n (QueryRootField UnpreparedValue)] buildRelayQueryFields sourceName sourceConfig tables (takeExposedAs FEAQuery -> functions) queryTagsConfig = do tableConnectionFields <- for (Map.toList tables) \(tableName, tableInfo) -> runMaybeT do tableIdentifierName <- getTableIdentifierName @b tableInfo pkeyColumns <- hoistMaybe $ tableInfo ^? tiCoreInfo . tciPrimaryKey . _Just . pkColumns lift $ mkRF $ buildTableRelayQueryFields sourceName tableName tableInfo tableIdentifierName pkeyColumns functionConnectionFields <- for (Map.toList functions) $ \(functionName, functionInfo) -> runMaybeT do let returnTableName = _fiReturnType functionInfo -- FIXME: only extract the TableInfo once to avoid redundant cache lookups returnTableInfo <- lift $ askTableInfo sourceName returnTableName pkeyColumns <- MaybeT $ (^? tiCoreInfo . tciPrimaryKey . _Just . pkColumns) <$> pure returnTableInfo lift $ mkRF $ buildFunctionRelayQueryFields sourceName functionName functionInfo returnTableName pkeyColumns pure $ concat $ catMaybes $ tableConnectionFields <> functionConnectionFields where mkRF = mkRootField sourceName sourceConfig queryTagsConfig QDBR buildMutationFields :: forall b r m n. MonadBuildSchema b r m n => Scenario -> SourceName -> SourceConfig b -> TableCache b -> FunctionCache b -> Maybe QueryTagsConfig -> m [P.FieldParser n (MutationRootField UnpreparedValue)] buildMutationFields scenario sourceName sourceConfig tables (takeExposedAs FEAMutation -> functions) queryTagsConfig = do roleName <- asks getter tableMutations <- for (Map.toList tables) \(tableName, tableInfo) -> do tableIdentifierName <- getTableIdentifierName @b tableInfo inserts <- mkRF (MDBR . MDBInsert) $ buildTableInsertMutationFields scenario sourceName tableName tableInfo tableIdentifierName updates <- mkRF (MDBR . MDBUpdate) $ buildTableUpdateMutationFields @b sourceName tableName tableInfo tableIdentifierName deletes <- mkRF (MDBR . MDBDelete) $ buildTableDeleteMutationFields sourceName tableName tableInfo tableIdentifierName pure $ concat [inserts, updates, deletes] functionMutations <- for (Map.toList functions) \(functionName, functionInfo) -> runMaybeT $ do let targetTableName = _fiReturnType functionInfo -- A function exposed as mutation must have a function permission -- configured for the role. See Note [Function Permissions] guard $ -- when function permissions are inferred, we don't expose the -- mutation functions for non-admin roles. See Note [Function Permissions] roleName == adminRoleName || roleName `Map.member` (_fiPermissions functionInfo) lift $ mkRF MDBR $ buildFunctionMutationFields sourceName functionName functionInfo targetTableName pure $ concat $ tableMutations <> catMaybes functionMutations where mkRF :: forall a db remote action raw. (a -> db b) -> m [FieldParser n a] -> m [FieldParser n (RootField db remote action raw)] mkRF = mkRootField sourceName sourceConfig queryTagsConfig ---------------------------------------------------------------- -- Building root parser from fields -- | Prepare the parser for query-type GraphQL requests, but with introspection -- for queries, mutations and subscriptions built in. buildQueryParser :: forall r m n. MonadBuildSchemaBase r m n => [P.FieldParser n (NamespacedField (QueryRootField UnpreparedValue))] -> [P.FieldParser n (NamespacedField (RemoteSchemaRootField (RemoteRelationshipField UnpreparedValue) RemoteSchemaVariable))] -> [ActionInfo] -> AnnotatedCustomTypes -> Maybe (Parser 'Output n (RootFieldMap (MutationRootField UnpreparedValue))) -> Maybe (Parser 'Output n (RootFieldMap (QueryRootField UnpreparedValue))) -> m (Parser 'Output n (RootFieldMap (QueryRootField UnpreparedValue))) buildQueryParser sourceQueryFields remoteQueryFields allActions customTypes mutationParser subscriptionParser = do actionQueryFields <- concat <$> traverse (buildActionQueryFields customTypes) allActions let allQueryFields = sourceQueryFields <> fmap (fmap NotNamespaced) actionQueryFields <> fmap (fmap $ fmap RFRemote) remoteQueryFields queryWithIntrospectionHelper allQueryFields mutationParser subscriptionParser -- | Builds a @Schema@ at query parsing time parseBuildIntrospectionSchema :: MonadParse m => P.Type 'Output -> Maybe (P.Type 'Output) -> Maybe (P.Type 'Output) -> m Schema parseBuildIntrospectionSchema q m s = qerrAsMonadParse $ buildIntrospectionSchema q m s where qerrAsMonadParse :: MonadParse m => Except QErr a -> m a qerrAsMonadParse action = case runExcept action of Right a -> pure a Left QErr {..} -> withPath (++ qePath) $ parseErrorWith qeCode qeError queryWithIntrospectionHelper :: forall n m. (MonadSchema n m, MonadError QErr m) => [P.FieldParser n (NamespacedField (QueryRootField UnpreparedValue))] -> Maybe (Parser 'Output n (RootFieldMap (MutationRootField UnpreparedValue))) -> Maybe (Parser 'Output n (RootFieldMap (QueryRootField UnpreparedValue))) -> m (Parser 'Output n (RootFieldMap (QueryRootField UnpreparedValue))) queryWithIntrospectionHelper basicQueryFP mutationP subscriptionP = do let -- Per the GraphQL spec: -- * "The query root operation type must be provided and must be an Object type." (§3.2.1) -- * "An Object type must define one or more fields." (§3.6, type validation) -- Those two requirements cannot both be met when a service is mutations-only, and does not -- provide any query. In such a case, to meet both of those, we introduce a placeholder query -- in the schema. placeholderText = "There are no queries available to the current role. Either there are no sources or remote schemas configured, or the current role doesn't have the required permissions." placeholderField = NotNamespaced (RFRaw $ JO.String placeholderText) <$ P.selection_ G._no_queries_available (Just $ G.Description placeholderText) P.string fixedQueryFP = if null basicQueryFP then [placeholderField] else basicQueryFP basicQueryP <- queryRootFromFields fixedQueryFP let buildIntrospectionResponse printResponseFromSchema = do partialSchema <- parseBuildIntrospectionSchema (P.parserType basicQueryP) (P.parserType <$> mutationP) (P.parserType <$> subscriptionP) pure $ NotNamespaced $ RFRaw $ printResponseFromSchema partialSchema introspection = [schema, typeIntrospection] <&> (`P.bindField` buildIntrospectionResponse) {-# INLINE introspection #-} partialQueryFields = fixedQueryFP ++ introspection P.safeSelectionSet queryRoot Nothing partialQueryFields <&> fmap (flattenNamespaces . fmap typenameToNamespacedRawRF) queryRootFromFields :: forall n m. (MonadError QErr m, MonadParse n) => [P.FieldParser n (NamespacedField (QueryRootField UnpreparedValue))] -> m (Parser 'Output n (RootFieldMap (QueryRootField UnpreparedValue))) queryRootFromFields fps = P.safeSelectionSet queryRoot Nothing fps <&> fmap (flattenNamespaces . fmap typenameToNamespacedRawRF) -- | Prepare the parser for subscriptions. Every postgres query field is -- exposed as a subscription along with fields to get the status of -- asynchronous actions. buildSubscriptionParser :: forall r m n. MonadBuildSchemaBase r m n => [P.FieldParser n (NamespacedField (QueryRootField UnpreparedValue))] -> [ActionInfo] -> AnnotatedCustomTypes -> [P.FieldParser n (NamespacedField (RemoteSchemaRootField (RemoteRelationshipField UnpreparedValue) RemoteSchemaVariable))] -> m (Maybe (Parser 'Output n (RootFieldMap (QueryRootField UnpreparedValue)))) buildSubscriptionParser sourceSubscriptionFields allActions customTypes remoteSubscriptionFields = do actionSubscriptionFields <- fmap (fmap NotNamespaced) . concat <$> traverse (buildActionSubscriptionFields customTypes) allActions let subscriptionFields = sourceSubscriptionFields <> actionSubscriptionFields <> fmap (fmap $ fmap RFRemote) remoteSubscriptionFields whenMaybe (not $ null subscriptionFields) $ P.safeSelectionSet subscriptionRoot Nothing subscriptionFields <&> fmap (flattenNamespaces . fmap typenameToNamespacedRawRF) buildMutationParser :: forall r m n. MonadBuildSchemaBase r m n => [P.FieldParser n (NamespacedField (RemoteSchemaRootField (RemoteRelationshipField UnpreparedValue) RemoteSchemaVariable))] -> [ActionInfo] -> AnnotatedCustomTypes -> [P.FieldParser n (NamespacedField (MutationRootField UnpreparedValue))] -> m (Maybe (Parser 'Output n (RootFieldMap (MutationRootField UnpreparedValue)))) buildMutationParser allRemotes allActions customTypes mutationFields = do actionParsers <- concat <$> traverse (buildActionMutationFields customTypes) allActions let mutationFieldsParser = mutationFields <> (fmap NotNamespaced <$> actionParsers) <> (fmap (fmap RFRemote) <$> allRemotes) whenMaybe (not $ null mutationFieldsParser) $ P.safeSelectionSet mutationRoot (Just $ G.Description "mutation root") mutationFieldsParser <&> fmap (flattenNamespaces . fmap typenameToNamespacedRawRF) ------------------------------------------------------------------------------- -- Local helpers -- | Apply a source's customization options to a list of its fields. customizeFields :: forall f n db remote action. (Functor f, MonadParse n) => SourceCustomization -> P.MkTypename -> f [FieldParser n (RootField db remote action JO.Value)] -> f [FieldParser n (NamespacedField (RootField db remote action JO.Value))] customizeFields SourceCustomization {..} = fmap . customizeNamespace (_rootfcNamespace =<< _scRootFields) (const typenameToRawRF) -- | All the 'BackendSchema' methods produce something of the form @m -- [FieldParser n a]@, where @a@ is something specific to what is being parsed -- by the given method. -- -- In order to build the complete schema these must be -- homogenised and be annotated with query-tag data, which this function makes -- easy. mkRootField :: forall b m n a db remote action raw. (HasTag b, Functor m, Functor n) => SourceName -> SourceConfig b -> Maybe QueryTagsConfig -> (a -> db b) -> m [FieldParser n a] -> m [FieldParser n (RootField db remote action raw)] mkRootField sourceName sourceConfig queryTagsConfig inj = fmap ( map ( fmap ( RFDB sourceName . AB.mkAnyBackend @b . SourceConfigWith sourceConfig queryTagsConfig . inj ) ) ) takeExposedAs :: FunctionExposedAs -> FunctionCache b -> FunctionCache b takeExposedAs x = Map.filter ((== x) . _fiExposedAs) subscriptionRoot :: G.Name subscriptionRoot = G._subscription_root mutationRoot :: G.Name mutationRoot = G._mutation_root queryRoot :: G.Name queryRoot = G._query_root finalizeParser :: Parser 'Output (P.ParseT Identity) a -> ParserFn a finalizeParser parser = runIdentity . P.runParseT . P.runParser parser type ConcreteSchemaT m a = P.SchemaT (P.ParseT Identity) ( ReaderT ( RoleName, SourceCache, QueryContext, P.MkTypename, MkRootFieldName, CustomizeRemoteFieldName, RemoteSchemaMap, NamingCase ) m ) a runMonadSchema :: forall m a. Monad m => RoleName -> QueryContext -> SourceCache -> RemoteSchemaMap -> ConcreteSchemaT m a -> m a runMonadSchema roleName queryContext sources remotes m = P.runSchemaT m `runReaderT` (roleName, sources, queryContext, mempty, mempty, mempty, remotes, HasuraCase) buildBackendSource :: (forall b. BackendSchema b => SourceInfo b -> r) -> AB.AnyBackend SourceInfo -> r buildBackendSource f e = AB.dispatchAnyBackend @BackendSchema e f typenameToNamespacedRawRF :: P.ParsedSelection (NamespacedField (RootField db remote action JO.Value)) -> NamespacedField (RootField db remote action JO.Value) typenameToNamespacedRawRF = P.handleTypename $ NotNamespaced . RFRaw . JO.String . toTxt typenameToRawRF :: P.ParsedSelection (RootField db remote action JO.Value) -> RootField db remote action JO.Value typenameToRawRF = P.handleTypename $ RFRaw . JO.String . toTxt