{-# LANGUAGE Arrows #-} {-# LANGUAGE OverloadedLabels #-} {-# LANGUAGE UndecidableInstances #-} -- | Top-level functions concerned specifically with operations on the schema cache, such as -- rebuilding it from the catalog and incorporating schema changes. See the module documentation for -- "Hasura.RQL.DDL.Schema" for more details. -- -- __Note__: this module is __mutually recursive__ with other @Hasura.RQL.DDL.Schema.*@ modules, which -- both define pieces of the implementation of building the schema cache and define handlers that -- trigger schema cache rebuilds. module Hasura.RQL.DDL.Schema.Cache ( RebuildableSchemaCache, lastBuiltSchemaCache, buildRebuildableSchemaCache, buildRebuildableSchemaCacheWithReason, CacheRWT, runCacheRWT, mkBooleanPermissionMap, ) where import Control.Arrow.Extended import Control.Lens hiding ((.=)) import Control.Monad.Trans.Control (MonadBaseControl) import Control.Monad.Unique import Control.Retry qualified as Retry import Data.Aeson import Data.Align (align) import Data.Dependent.Map qualified as DMap import Data.Either (isLeft) import Data.Environment qualified as Env import Data.HashMap.Strict.Extended qualified as M import Data.HashMap.Strict.InsOrd qualified as OMap import Data.HashSet qualified as HS import Data.HashSet.InsOrd qualified as HSIns import Data.Proxy import Data.Set qualified as S import Data.Text.Extended import Data.These (These (..)) import Data.Time.Clock (getCurrentTime) import Database.PG.Query qualified as Q import Hasura.Backends.Postgres.Connection import Hasura.Backends.Postgres.DDL.Source (initCatalogForSource) import Hasura.Base.Error import Hasura.GraphQL.Execute.Types import Hasura.GraphQL.Schema (buildGQLContext) import Hasura.Incremental qualified as Inc import Hasura.Metadata.Class import Hasura.Prelude import Hasura.RQL.DDL.Action import Hasura.RQL.DDL.CustomTypes import Hasura.RQL.DDL.EventTrigger (buildEventTriggerInfo) import Hasura.RQL.DDL.InheritedRoles (resolveInheritedRole) import Hasura.RQL.DDL.RemoteRelationship (PartiallyResolvedSource (..)) import Hasura.RQL.DDL.RemoteSchema import Hasura.RQL.DDL.RemoteSchema.Permission (resolveRoleBasedRemoteSchema) import Hasura.RQL.DDL.ScheduledTrigger import Hasura.RQL.DDL.Schema.Cache.Common import Hasura.RQL.DDL.Schema.Cache.Dependencies import Hasura.RQL.DDL.Schema.Cache.Fields import Hasura.RQL.DDL.Schema.Cache.Permission import Hasura.RQL.DDL.Schema.Function import Hasura.RQL.DDL.Schema.Table import Hasura.RQL.Types hiding (fmFunction, tmTable) import Hasura.RQL.Types.Eventing.Backend import Hasura.RQL.Types.Roles.Internal (CheckPermission (..)) import Hasura.SQL.AnyBackend qualified as AB import Hasura.SQL.Tag import Hasura.SQL.Tag qualified as Tag import Hasura.Server.Types ( ExperimentalFeature (..), MaintenanceMode (..), ) import Hasura.Server.Version (HasVersion) import Hasura.Session import Hasura.Tracing qualified as Tracing import Language.GraphQL.Draft.Syntax qualified as G import Network.HTTP.Client.Manager (HasHttpManagerM (..)) {- Note [Roles Inheritance] ~~~~~~~~~~~~~~~~~~~~~~~~~~~ Roles may have parent roles defined from which they can inherit permission and this is called as roles inheritance. Roles which have parents can also be parents of other roles. So, cycle in roles should be disallowed and this is done in the `orderRoles` function. When the metadata contains a permission for a role for a entity, then it will override the inherited permission, if any. Roles inheritance work differently for different features: 1. Select permissions ~~~~~~~~~~~~~~~~~~~~~ See note [Inherited roles architecture for read queries] 2. Mutation permissions and remote schema permissions ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ For mutation and remote schema permissions, an inherited role can only inherit permission from its parent roles when the relevant parts of the permissions are equal i.e. the non-relevant parts are discarded for the equality, for example, in two remote schema permissions the order of the fields in an Object type is discarded. When an inherited role cannot inherit permission from its parents due to a conflict, then we mark the inherited role and the entity (remote schema or table) combination as inconsistent in the metadata. 3. Actions and Custom function permissions ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ Currently, actions and custom function permissions can be thought of as a boolean. Either a role has permission to the entity or it doesn't, so in these cases there's no possiblity of a conflict. An inherited role will have access to the action/function if any one of the parents have permission to access the action/function. -} buildRebuildableSchemaCache :: HasVersion => Env.Environment -> Metadata -> CacheBuild RebuildableSchemaCache buildRebuildableSchemaCache = buildRebuildableSchemaCacheWithReason CatalogSync buildRebuildableSchemaCacheWithReason :: HasVersion => BuildReason -> Env.Environment -> Metadata -> CacheBuild RebuildableSchemaCache buildRebuildableSchemaCacheWithReason reason env metadata = do result <- flip runReaderT reason $ Inc.build (buildSchemaCacheRule env) (metadata, initialInvalidationKeys) pure $ RebuildableSchemaCache (Inc.result result) initialInvalidationKeys (Inc.rebuildRule result) newtype CacheRWT m a = -- The CacheInvalidations component of the state could actually be collected using WriterT, but -- WriterT implementations prior to transformers-0.5.6.0 (which added -- Control.Monad.Trans.Writer.CPS) are leaky, and we don’t have that yet. CacheRWT (StateT (RebuildableSchemaCache, CacheInvalidations) m a) deriving ( Functor, Applicative, Monad, MonadIO, MonadUnique, MonadReader r, MonadError e, MonadTx, UserInfoM, HasHttpManagerM, HasSystemDefined, MonadMetadataStorage, MonadMetadataStorageQueryAPI, Tracing.MonadTrace, HasServerConfigCtx ) deriving instance (MonadBase IO m) => MonadBase IO (CacheRWT m) deriving instance (MonadBaseControl IO m) => MonadBaseControl IO (CacheRWT m) runCacheRWT :: Functor m => RebuildableSchemaCache -> CacheRWT m a -> m (a, RebuildableSchemaCache, CacheInvalidations) runCacheRWT cache (CacheRWT m) = runStateT m (cache, mempty) <&> \(v, (newCache, invalidations)) -> (v, newCache, invalidations) instance MonadTrans CacheRWT where lift = CacheRWT . lift instance (Monad m) => CacheRM (CacheRWT m) where askSchemaCache = CacheRWT $ gets (lastBuiltSchemaCache . (^. _1)) instance ( MonadIO m, MonadError QErr m, HasHttpManagerM m, MonadResolveSource m, HasServerConfigCtx m ) => CacheRWM (CacheRWT m) where buildSchemaCacheWithOptions buildReason invalidations metadata = CacheRWT do (RebuildableSchemaCache lastBuiltSC invalidationKeys rule, oldInvalidations) <- get let metadataVersion = scMetadataResourceVersion lastBuiltSC newInvalidationKeys = invalidateKeys invalidations invalidationKeys result <- lift $ runCacheBuildM $ flip runReaderT buildReason $ Inc.build rule (metadata, newInvalidationKeys) let schemaCache = (Inc.result result) {scMetadataResourceVersion = metadataVersion} prunedInvalidationKeys = pruneInvalidationKeys schemaCache newInvalidationKeys !newCache = RebuildableSchemaCache schemaCache prunedInvalidationKeys (Inc.rebuildRule result) !newInvalidations = oldInvalidations <> invalidations put (newCache, newInvalidations) where -- Prunes invalidation keys that no longer exist in the schema to avoid leaking memory by -- hanging onto unnecessary keys. pruneInvalidationKeys schemaCache = over ikRemoteSchemas $ M.filterWithKey \name _ -> -- see Note [Keep invalidation keys for inconsistent objects] name `elem` getAllRemoteSchemas schemaCache setMetadataResourceVersionInSchemaCache resourceVersion = CacheRWT $ do (rebuildableSchemaCache, invalidations) <- get put ( rebuildableSchemaCache { lastBuiltSchemaCache = (lastBuiltSchemaCache rebuildableSchemaCache) { scMetadataResourceVersion = Just resourceVersion } }, invalidations ) buildSchemaCacheRule :: -- Note: by supplying BuildReason via MonadReader, it does not participate in caching, which is -- what we want! ( HasVersion, ArrowChoice arr, Inc.ArrowDistribute arr, Inc.ArrowCache m arr, MonadIO m, MonadUnique m, MonadBaseControl IO m, MonadError QErr m, MonadReader BuildReason m, HasHttpManagerM m, MonadResolveSource m, HasServerConfigCtx m ) => Env.Environment -> (Metadata, InvalidationKeys) `arr` SchemaCache buildSchemaCacheRule env = proc (metadata, invalidationKeys) -> do invalidationKeysDep <- Inc.newDependency -< invalidationKeys -- Step 1: Process metadata and collect dependency information. (outputs, collectedInfo) <- runWriterA buildAndCollectInfo -< (metadata, invalidationKeysDep) let (inconsistentObjects, unresolvedDependencies) = partitionCollectedInfo collectedInfo -- Step 2: Resolve dependency information and drop dangling dependents. (resolvedOutputs, dependencyInconsistentObjects, resolvedDependencies) <- resolveDependencies -< (outputs, unresolvedDependencies) -- Step 3: Build the GraphQL schema. (gqlContext, gqlContextUnauth, gqlSchemaInconsistentObjects) <- bindA -< buildGQLContext QueryHasura (_boSources resolvedOutputs) (_boRemoteSchemas resolvedOutputs) (_boActions resolvedOutputs) (_actNonObjects $ _boCustomTypes resolvedOutputs) -- Step 4: Build the relay GraphQL schema (relayContext, relayContextUnauth, relaySchemaInconsistentObjects) <- bindA -< buildGQLContext QueryRelay (_boSources resolvedOutputs) (_boRemoteSchemas resolvedOutputs) (_boActions resolvedOutputs) (_actNonObjects $ _boCustomTypes resolvedOutputs) let duplicateVariables :: EndpointMetadata a -> Bool duplicateVariables m = any ((> 1) . length) $ group $ sort $ catMaybes $ splitPath Just (const Nothing) (_ceUrl m) endpointObjId :: EndpointMetadata q -> MetadataObjId endpointObjId md = MOEndpoint (_ceName md) endpointObject :: EndpointMetadata q -> MetadataObject endpointObject md = MetadataObject (endpointObjId md) (toJSON $ OMap.lookup (_ceName md) $ _metaRestEndpoints metadata) -- Cases of urls that generate invalid segments: hasInvalidSegments :: EndpointMetadata query -> Bool hasInvalidSegments m = any (`elem` ["", ":"]) (splitPath id id (_ceUrl m)) ceUrlTxt = toTxt . _ceUrl endpoints = buildEndpointsTrie (M.elems $ _boEndpoints resolvedOutputs) duplicateF md = DuplicateRestVariables (ceUrlTxt md) (endpointObject md) duplicateRestVariables = map duplicateF $ filter duplicateVariables (M.elems $ _boEndpoints resolvedOutputs) invalidF md = InvalidRestSegments (ceUrlTxt md) (endpointObject md) invalidRestSegments = map invalidF $ filter hasInvalidSegments (M.elems $ _boEndpoints resolvedOutputs) ambiguousF' ep = MetadataObject (endpointObjId ep) (toJSON ep) ambiguousF mds = AmbiguousRestEndpoints (commaSeparated $ map _ceUrl mds) (map ambiguousF' mds) ambiguousRestEndpoints = map (ambiguousF . S.elems . snd) $ ambiguousPathsGrouped endpoints returnA -< SchemaCache { scSources = _boSources resolvedOutputs, scActions = _boActions resolvedOutputs, -- TODO this is not the right value: we should track what part of the schema -- we can stitch without consistencies, I think. scRemoteSchemas = fmap fst (_boRemoteSchemas resolvedOutputs), -- remoteSchemaMap scAllowlist = _boAllowlist resolvedOutputs, -- , scCustomTypes = _boCustomTypes resolvedOutputs scGQLContext = gqlContext, scUnauthenticatedGQLContext = gqlContextUnauth, scRelayContext = relayContext, scUnauthenticatedRelayContext = relayContextUnauth, -- , scGCtxMap = gqlSchema -- , scDefaultRemoteGCtx = remoteGQLSchema scDepMap = resolvedDependencies, scCronTriggers = _boCronTriggers resolvedOutputs, scEndpoints = endpoints, scInconsistentObjs = inconsistentObjects <> dependencyInconsistentObjects <> toList gqlSchemaInconsistentObjects <> toList relaySchemaInconsistentObjects <> duplicateRestVariables <> invalidRestSegments <> ambiguousRestEndpoints, scApiLimits = _boApiLimits resolvedOutputs, scMetricsConfig = _boMetricsConfig resolvedOutputs, scMetadataResourceVersion = Nothing, scSetGraphqlIntrospectionOptions = _metaSetGraphqlIntrospectionOptions metadata, scTlsAllowlist = _boTlsAllowlist resolvedOutputs } where getSourceConfigIfNeeded :: forall b arr m. ( ArrowChoice arr, Inc.ArrowCache m arr, ArrowWriter (Seq CollectedInfo) arr, MonadIO m, MonadResolveSource m, BackendMetadata b ) => ( Inc.Dependency (HashMap SourceName Inc.InvalidationKey), SourceName, SourceConnConfiguration b ) `arr` Maybe (SourceConfig b) getSourceConfigIfNeeded = Inc.cache proc (invalidationKeys, sourceName, sourceConfig) -> do let metadataObj = MetadataObject (MOSource sourceName) $ toJSON sourceName Inc.dependOn -< Inc.selectKeyD sourceName invalidationKeys (| withRecordInconsistency ( liftEitherA <<< bindA -< resolveSourceConfig @b sourceName sourceConfig env ) |) metadataObj resolveSourceIfNeeded :: forall b arr m. ( ArrowChoice arr, Inc.ArrowCache m arr, ArrowWriter (Seq CollectedInfo) arr, MonadIO m, MonadBaseControl IO m, MonadResolveSource m, BackendMetadata b ) => ( Inc.Dependency (HashMap SourceName Inc.InvalidationKey), SourceMetadata b ) `arr` Maybe (ResolvedSource b) resolveSourceIfNeeded = Inc.cache proc (invalidationKeys, sourceMetadata) -> do let sourceName = _smName sourceMetadata metadataObj = MetadataObject (MOSource sourceName) $ toJSON sourceName maybeSourceConfig <- getSourceConfigIfNeeded @b -< (invalidationKeys, sourceName, _smConfiguration sourceMetadata) case maybeSourceConfig of Nothing -> returnA -< Nothing Just sourceConfig -> (| withRecordInconsistency ( liftEitherA <<< bindA -< resolveDatabaseMetadata sourceConfig ) |) metadataObj -- impl notes (swann): -- -- as our cache invalidation key (in a sense) we use the number of event triggers -- present, rerunning catalog init when this changes. this is correct, because we -- only care about the transition from zero event triggers to nonzero (not -- necessarily one, as Anon has observed, because replace_metadata can add multiple -- event triggers in one go) -- -- a future optimisation would be to cache, on a per-source basis, whether or not -- the event catalog itself exists, and to then trigger catalog init when an event -- trigger is created _but only if_ this cached information says the event catalog -- doesn't already exist. initCatalogIfNeeded :: forall b arr m. ( ArrowChoice arr, Inc.ArrowCache m arr, MonadIO m, MonadBaseControl IO m, BackendMetadata b, HasServerConfigCtx m, MonadError QErr m ) => (Int, SourceConfig b) `arr` RecreateEventTriggers initCatalogIfNeeded = Inc.cache proc (numEventTriggers, sc) -> do arrM id -< do if numEventTriggers > 0 then do case backendTag @b of Tag.PostgresVanillaTag -> do migrationTime <- liftIO getCurrentTime maintenanceMode <- _sccMaintenanceMode <$> askServerConfigCtx let initCatalogAction = runExceptT $ runTx (_pscExecCtx sc) Q.ReadWrite (initCatalogForSource maintenanceMode migrationTime) -- The `initCatalogForSource` action is retried here because -- in cloud there will be multiple workers (graphql-engine instances) -- trying to migrate the source catalog, when needed. This introduces -- a race condition as both the workers try to migrate the source catalog -- concurrently and when one of them succeeds the other ones will fail -- and be in an inconsistent state. To avoid the inconsistency, we retry -- migrating the catalog on error and in the retry `initCatalogForSource` -- will see that the catalog is already migrated, so it won't attempt the -- migration again liftEither =<< Retry.retrying ( Retry.constantDelay (fromIntegral $ diffTimeToMicroSeconds $ seconds $ Seconds 10) <> Retry.limitRetries 3 ) (const $ return . isLeft) (const initCatalogAction) -- TODO: When event triggers are supported on new databases, -- the initialization of the source catalog should also return -- if the event triggers are to be re-created or not, essentially -- replacing the `RETDoNothing` below _ -> pure RETDoNothing else pure RETDoNothing buildSource :: forall b arr m. ( ArrowChoice arr, Inc.ArrowDistribute arr, Inc.ArrowCache m arr, ArrowWriter (Seq CollectedInfo) arr, MonadBaseControl IO m, HasServerConfigCtx m, MonadIO m, MonadError QErr m, MonadReader BuildReason m, BackendMetadata b, BackendEventTrigger b ) => ( HashMap SourceName (AB.AnyBackend PartiallyResolvedSource), SourceMetadata b, SourceConfig b, HashMap (TableName b) (TableCoreInfoG b (ColumnInfo b) (ColumnInfo b)), DBTablesMetadata b, DBFunctionsMetadata b, RemoteSchemaMap, Inc.Dependency InvalidationKeys, OrderedRoles ) `arr` BackendSourceInfo buildSource = proc (allSources, sourceMetadata, sourceConfig, tablesRawInfo, _dbTables, dbFunctions, remoteSchemaMap, invalidationKeys, orderedRoles) -> do let SourceMetadata source tables functions _ queryTagsConfig = sourceMetadata tablesMetadata = OMap.elems tables (_, nonColumnInputs, permissions) = unzip3 $ map mkTableInputs tablesMetadata eventTriggers = map (_tmTable &&& OMap.elems . _tmEventTriggers) tablesMetadata alignTableMap :: HashMap (TableName b) a -> HashMap (TableName b) c -> HashMap (TableName b) (a, c) alignTableMap = M.intersectionWith (,) metadataInvalidationKey = Inc.selectD #_ikMetadata invalidationKeys numEventTriggers = sum $ map (length . snd) eventTriggers recreateEventTriggers <- initCatalogIfNeeded @b -< (numEventTriggers, sourceConfig) -- relationships and computed fields let nonColumnsByTable = mapFromL _nctiTable nonColumnInputs tableCoreInfos :: HashMap (TableName b) (TableCoreInfo b) <- (| Inc.keyed ( \_ (tableRawInfo, nonColumnInput) -> do let columns = _tciFieldInfoMap tableRawInfo allFields :: FieldInfoMap (FieldInfo b) <- addNonColumnFields -< (allSources, source, tablesRawInfo, columns, remoteSchemaMap, dbFunctions, nonColumnInput) returnA -< (tableRawInfo {_tciFieldInfoMap = allFields}) ) |) (tablesRawInfo `alignTableMap` nonColumnsByTable) tableCoreInfosDep <- Inc.newDependency -< tableCoreInfos -- permissions and event triggers tableCache <- (| Inc.keyed ( \_ ((tableCoreInfo, permissionInputs), (_, eventTriggerConfs)) -> do let tableFields = _tciFieldInfoMap tableCoreInfo permissionInfos <- buildTablePermissions -< (Proxy :: Proxy b, source, tableCoreInfosDep, tableFields, permissionInputs, orderedRoles) eventTriggerInfos <- buildTableEventTriggers -< (source, sourceConfig, tableCoreInfo, eventTriggerConfs, metadataInvalidationKey, recreateEventTriggers) returnA -< TableInfo tableCoreInfo permissionInfos eventTriggerInfos ) |) (tableCoreInfos `alignTableMap` mapFromL _tpiTable permissions `alignTableMap` mapFromL fst eventTriggers) -- sql functions functionCache <- (mapFromL _fmFunction (OMap.elems functions) >- returnA) >-> (| Inc.keyed ( \_ (FunctionMetadata qf config functionPermissions) -> do let systemDefined = SystemDefined False definition = toJSON $ TrackFunction @b qf metadataObject = MetadataObject ( MOSourceObjId source $ AB.mkAnyBackend $ SMOFunction @b qf ) definition schemaObject = SOSourceObj source $ AB.mkAnyBackend $ SOIFunction @b qf addFunctionContext e = "in function " <> qf <<> ": " <> e (| withRecordInconsistency ( (| modifyErrA ( do let funcDefs = fromMaybe [] $ M.lookup qf dbFunctions rawfunctionInfo <- bindErrorA -< handleMultipleFunctions @b qf funcDefs let metadataPermissions = mapFromL _fpmRole functionPermissions permissionsMap = mkBooleanPermissionMap FunctionPermissionInfo metadataPermissions orderedRoles (functionInfo, dep) <- bindErrorA -< buildFunctionInfo source qf systemDefined config permissionsMap rawfunctionInfo recordDependencies -< (metadataObject, schemaObject, [dep]) returnA -< functionInfo ) |) addFunctionContext ) |) metadataObject ) |) >-> (\infos -> M.catMaybes infos >- returnA) returnA -< AB.mkAnyBackend $ SourceInfo source tableCache functionCache sourceConfig queryTagsConfig buildAndCollectInfo :: forall arr m. ( ArrowChoice arr, Inc.ArrowDistribute arr, Inc.ArrowCache m arr, ArrowWriter (Seq CollectedInfo) arr, MonadIO m, MonadUnique m, MonadError QErr m, MonadReader BuildReason m, MonadBaseControl IO m, HasHttpManagerM m, HasServerConfigCtx m, MonadResolveSource m ) => (Metadata, Inc.Dependency InvalidationKeys) `arr` BuildOutputs buildAndCollectInfo = proc (metadata, invalidationKeys) -> do let Metadata sources remoteSchemas collections allowlists customTypes actions cronTriggers endpoints apiLimits metricsConfig inheritedRoles _introspectionDisabledRoles networkConfig = metadata actionRoles = map _apmRole . _amPermissions =<< OMap.elems actions remoteSchemaRoles = map _rspmRole . _rsmPermissions =<< OMap.elems remoteSchemas sourceRoles = HS.fromList $ concat $ OMap.elems sources >>= \e -> AB.dispatchAnyBackend @Backend e \(SourceMetadata _ tables _functions _ _) -> do table <- OMap.elems tables pure $ OMap.keys (_tmInsertPermissions table) <> OMap.keys (_tmSelectPermissions table) <> OMap.keys (_tmUpdatePermissions table) <> OMap.keys (_tmDeletePermissions table) inheritedRoleNames = OMap.keys inheritedRoles allRoleNames = sourceRoles <> HS.fromList (remoteSchemaRoles <> actionRoles <> inheritedRoleNames) remoteSchemaPermissions = let remoteSchemaPermsList = OMap.toList $ _rsmPermissions <$> remoteSchemas in concat $ flip map remoteSchemaPermsList $ ( \(remoteSchemaName, remoteSchemaPerms) -> flip map remoteSchemaPerms $ \(RemoteSchemaPermissionMetadata role defn comment) -> AddRemoteSchemaPermission remoteSchemaName role defn comment ) -- roles which have some kind of permission (action/remote schema/table/function) set in the metadata let metadataRoles = mapFromL _rRoleName $ (`Role` ParentRoles mempty) <$> toList allRoleNames resolvedInheritedRoles <- buildInheritedRoles -< (allRoleNames, OMap.elems inheritedRoles) let allRoles = resolvedInheritedRoles `M.union` metadataRoles orderedRoles <- bindA -< orderRoles $ M.elems allRoles isInheritedRolesEnabled <- bindA -< (EFInheritedRoles `elem`) . _sccExperimentalFeatures <$> askServerConfigCtx -- remote schemas let remoteSchemaInvalidationKeys = Inc.selectD #_ikRemoteSchemas invalidationKeys remoteSchemaMap <- buildRemoteSchemas -< (remoteSchemaInvalidationKeys, OMap.elems remoteSchemas) -- remote schema permissions remoteSchemaCache <- (remoteSchemaMap >- returnA) >-> ( \info -> (info, M.groupOn _arspRemoteSchema remoteSchemaPermissions) >- alignExtraRemoteSchemaInfo mkRemoteSchemaPermissionMetadataObject ) >-> (| Inc.keyed ( \_ ((remoteSchemaCtx, metadataObj), remoteSchemaPerms) -> do metadataPermissionsMap <- buildRemoteSchemaPermissions -< (remoteSchemaCtx, remoteSchemaPerms) -- convert to the intermediate form `CheckPermission` whose `Semigroup` -- instance is used to combine permissions let metadataCheckPermissionsMap = CPDefined <$> metadataPermissionsMap allRolesUnresolvedPermissionsMap <- bindA -< if isInheritedRolesEnabled then foldM ( \accumulatedRolePermMap (Role roleName (ParentRoles parentRoles)) -> do rolePermission <- onNothing (M.lookup roleName accumulatedRolePermMap) $ do parentRolePermissions <- for (toList parentRoles) $ \role -> onNothing (M.lookup role accumulatedRolePermMap) $ throw500 $ "remote schema permissions: bad ordering of roles, could not find the permission of role: " <>> role let combinedPermission = sconcat <$> nonEmpty parentRolePermissions pure $ fromMaybe CPUndefined combinedPermission pure $ M.insert roleName rolePermission accumulatedRolePermMap ) metadataCheckPermissionsMap (_unOrderedRoles orderedRoles) else pure metadataCheckPermissionsMap -- traverse through `allRolesUnresolvedPermissionsMap` to record any inconsistencies (if exists) resolvedPermissions <- (| traverseA ( \(roleName, checkPermission) -> do let inconsistentRoleEntity = InconsistentRemoteSchemaPermission $ _rscName remoteSchemaCtx resolvedCheckPermission <- resolveCheckPermission -< (checkPermission, roleName, inconsistentRoleEntity) returnA -< (roleName, resolvedCheckPermission) ) |) (M.toList allRolesUnresolvedPermissionsMap) returnA -< ( remoteSchemaCtx { _rscPermissions = M.mapMaybe id $ M.fromList resolvedPermissions }, metadataObj ) ) |) let remoteSchemaCtxMap = M.map fst remoteSchemaMap -- sources are build in two steps -- first we resolve them, and build the table cache partiallyResolvedSources <- (| Inc.keyed ( \_ exists -> AB.dispatchAnyBackendArrow @BackendMetadata @BackendMetadata ( proc (sourceMetadata, invalidationKeys) -> do let sourceName = _smName sourceMetadata sourceInvalidationsKeys = Inc.selectD #_ikSources invalidationKeys maybeResolvedSource <- resolveSourceIfNeeded -< (sourceInvalidationsKeys, sourceMetadata) case maybeResolvedSource of Nothing -> returnA -< Nothing Just (source :: ResolvedSource b) -> do let metadataInvalidationKey = Inc.selectD #_ikMetadata invalidationKeys (tableInputs, _, _) = unzip3 $ map mkTableInputs $ OMap.elems $ _smTables sourceMetadata tablesCoreInfo <- buildTableCache -< ( sourceName, _rsConfig source, _rsTables source, tableInputs, metadataInvalidationKey ) returnA -< Just $ AB.mkAnyBackend @b $ PartiallyResolvedSource sourceMetadata source tablesCoreInfo ) -< (exists, invalidationKeys) ) |) (M.fromList $ OMap.toList sources) >-> (\infos -> M.catMaybes infos >- returnA) -- then we can build the entire source output -- we need to have the table cache of all sources to build cross-sources relationships sourcesOutput <- (| Inc.keyed ( \_ exists -> AB.dispatchAnyBackendArrow @BackendMetadata @BackendEventTrigger ( proc ( partiallyResolvedSource :: PartiallyResolvedSource b, (allResolvedSources, invalidationKeys, remoteSchemaCtxMap, orderedRoles) ) -> do let PartiallyResolvedSource sourceMetadata resolvedSource tablesInfo = partiallyResolvedSource ResolvedSource sourceConfig tablesMeta functionsMeta scalars = resolvedSource so <- buildSource -< ( allResolvedSources, sourceMetadata, sourceConfig, tablesInfo, tablesMeta, functionsMeta, remoteSchemaCtxMap, invalidationKeys, orderedRoles ) returnA -< (so, DMap.singleton (backendTag @b) $ ScalarSet scalars) ) -< ( exists, (partiallyResolvedSources, invalidationKeys, remoteSchemaCtxMap, orderedRoles) ) ) |) partiallyResolvedSources -- allow list let allowList = allowlists & HSIns.toList & map _crCollection & map (\cn -> maybe [] (_cdQueries . _ccDefinition) $ OMap.lookup cn collections) & concat & map (queryWithoutTypeNames . getGQLQuery . _lqQuery) & HS.fromList resolvedEndpoints <- buildInfoMap fst mkEndpointMetadataObject buildEndpoint -< (collections, OMap.toList endpoints) -- custom types let scalarsMap = mconcat $ map snd $ M.elems sourcesOutput sourcesCache = M.map fst sourcesOutput maybeResolvedCustomTypes <- (| withRecordInconsistency ( bindErrorA -< resolveCustomTypes sourcesCache customTypes scalarsMap ) |) (MetadataObject MOCustomTypes $ toJSON customTypes) -- actions let actionList = OMap.elems actions (actionCache, annotatedCustomTypes) <- case maybeResolvedCustomTypes of Just resolvedCustomTypes -> do actionCache' <- buildActions -< ((resolvedCustomTypes, scalarsMap, orderedRoles), actionList) returnA -< (actionCache', resolvedCustomTypes) -- If the custom types themselves are inconsistent, we can’t really do -- anything with actions, so just mark them all inconsistent. Nothing -> do recordInconsistencies -< ( map mkActionMetadataObject actionList, "custom types are inconsistent" ) returnA -< (M.empty, emptyAnnotatedCustomTypes) cronTriggersMap <- buildCronTriggers -< ((), OMap.elems cronTriggers) returnA -< BuildOutputs { _boSources = M.map fst sourcesOutput, _boActions = actionCache, _boRemoteSchemas = remoteSchemaCache, _boAllowlist = allowList, _boCustomTypes = annotatedCustomTypes, _boCronTriggers = cronTriggersMap, _boEndpoints = resolvedEndpoints, _boApiLimits = apiLimits, _boMetricsConfig = metricsConfig, _boRoles = mapFromL _rRoleName $ _unOrderedRoles orderedRoles, _boTlsAllowlist = (networkTlsAllowlist networkConfig) } mkEndpointMetadataObject (name, createEndpoint) = let objectId = MOEndpoint name in MetadataObject objectId (toJSON createEndpoint) buildEndpoint :: (ArrowChoice arr, ArrowKleisli m arr, MonadError QErr m, ArrowWriter (Seq CollectedInfo) arr) => (InsOrdHashMap CollectionName CreateCollection, (EndpointName, CreateEndpoint)) `arr` Maybe (EndpointMetadata GQLQueryWithText) buildEndpoint = proc (collections, e@(name, createEndpoint)) -> do let endpoint = createEndpoint -- QueryReference collName queryName = _edQuery endpoint addContext err = "in endpoint " <> toTxt (unEndpointName name) <> ": " <> err (| withRecordInconsistency ( (| modifyErrA (bindErrorA -< resolveEndpoint collections endpoint) |) addContext ) |) (mkEndpointMetadataObject e) resolveEndpoint :: QErrM m => InsOrdHashMap CollectionName CreateCollection -> EndpointMetadata QueryReference -> m (EndpointMetadata GQLQueryWithText) resolveEndpoint collections = traverse $ \(QueryReference collName queryName) -> do collection <- onNothing (OMap.lookup collName collections) (throw400 NotExists $ "collection with name " <> toTxt collName <> " does not exist") listedQuery <- flip onNothing ( throw400 NotExists $ "query with name " <> toTxt queryName <> " does not exist in collection " <> toTxt collName ) $ find ((== queryName) . _lqName) (_cdQueries (_ccDefinition collection)) let lq@(GQLQueryWithText lqq) = _lqQuery listedQuery ds = G.getExecutableDefinitions $ unGQLQuery $ snd lqq case ds of [G.ExecutableDefinitionOperation (G.OperationDefinitionTyped d)] | G._todType d == G.OperationTypeSubscription -> throw405 $ "query with name " <> toTxt queryName <> " is a subscription" | otherwise -> pure () [] -> throw400 BadRequest $ "query with name " <> toTxt queryName <> " has no definitions." _ -> throw400 BadRequest $ "query with name " <> toTxt queryName <> " has multiple definitions." pure lq mkEventTriggerMetadataObject :: forall b a c. Backend b => (a, SourceName, c, TableName b, RecreateEventTriggers, EventTriggerConf b) -> MetadataObject mkEventTriggerMetadataObject (_, source, _, table, _, eventTriggerConf) = let objectId = MOSourceObjId source $ AB.mkAnyBackend $ SMOTableObj @b table $ MTOTrigger $ etcName eventTriggerConf definition = object ["table" .= table, "configuration" .= eventTriggerConf] in MetadataObject objectId definition mkCronTriggerMetadataObject catalogCronTrigger = let definition = toJSON catalogCronTrigger in MetadataObject (MOCronTrigger (ctName catalogCronTrigger)) definition mkActionMetadataObject (ActionMetadata name comment defn _ metadataTransform) = MetadataObject (MOAction name) (toJSON $ CreateAction name defn comment metadataTransform) mkRemoteSchemaMetadataObject remoteSchema = MetadataObject (MORemoteSchema (_rsmName remoteSchema)) (toJSON remoteSchema) mkInheritedRoleMetadataObject inheritedRole@(Role roleName _) = MetadataObject (MOInheritedRole roleName) (toJSON inheritedRole) alignExtraRemoteSchemaInfo :: forall a b arr. (ArrowChoice arr, Inc.ArrowDistribute arr, ArrowWriter (Seq CollectedInfo) arr) => (b -> MetadataObject) -> ( M.HashMap RemoteSchemaName a, M.HashMap RemoteSchemaName [b] ) `arr` M.HashMap RemoteSchemaName (a, [b]) alignExtraRemoteSchemaInfo mkMetadataObject = proc (baseInfo, extraInfo) -> do combinedInfo <- (| Inc.keyed (\remoteSchemaName infos -> combine -< (remoteSchemaName, infos)) |) (align baseInfo extraInfo) returnA -< M.catMaybes combinedInfo where combine :: (RemoteSchemaName, These a [b]) `arr` Maybe (a, [b]) combine = proc (remoteSchemaName, infos) -> case infos of This base -> returnA -< Just (base, []) These base extras -> returnA -< Just (base, extras) That extras -> do let errorMessage = "remote schema " <> unRemoteSchemaName remoteSchemaName <<> " does not exist" recordInconsistencies -< (map mkMetadataObject extras, errorMessage) returnA -< Nothing buildRemoteSchemaPermissions :: ( ArrowChoice arr, Inc.ArrowDistribute arr, ArrowWriter (Seq CollectedInfo) arr, Inc.ArrowCache m arr, MonadError QErr m ) => (RemoteSchemaCtx, [AddRemoteSchemaPermission]) `arr` M.HashMap RoleName IntrospectionResult buildRemoteSchemaPermissions = buildInfoMap _arspRole mkRemoteSchemaPermissionMetadataObject buildRemoteSchemaPermission where buildRemoteSchemaPermission = proc (remoteSchemaCtx, remoteSchemaPerm) -> do let AddRemoteSchemaPermission rsName roleName defn _ = remoteSchemaPerm metadataObject = mkRemoteSchemaPermissionMetadataObject remoteSchemaPerm schemaObject = SORemoteSchemaPermission rsName roleName providedSchemaDoc = _rspdSchema defn addPermContext err = "in remote schema permission for role " <> roleName <<> ": " <> err (| withRecordInconsistency ( (| modifyErrA ( do bindErrorA -< when (roleName == adminRoleName) $ throw400 ConstraintViolation $ "cannot define permission for admin role" (resolvedSchemaIntrospection, dependencies) <- bindErrorA -< resolveRoleBasedRemoteSchema providedSchemaDoc remoteSchemaCtx recordDependencies -< (metadataObject, schemaObject, dependencies) returnA -< resolvedSchemaIntrospection ) |) addPermContext ) |) metadataObject buildTableEventTriggers :: forall arr m b. ( ArrowChoice arr, Inc.ArrowDistribute arr, ArrowWriter (Seq CollectedInfo) arr, Inc.ArrowCache m arr, MonadIO m, MonadError QErr m, MonadBaseControl IO m, MonadReader BuildReason m, HasServerConfigCtx m, BackendMetadata b, BackendEventTrigger b ) => ( SourceName, SourceConfig b, TableCoreInfo b, [EventTriggerConf b], Inc.Dependency Inc.InvalidationKey, RecreateEventTriggers ) `arr` (EventTriggerInfoMap b) buildTableEventTriggers = proc (source, sourceConfig, tableInfo, eventTriggerConfs, metadataInvalidationKey, recreateEventTriggers) -> buildInfoMap (etcName . (^. _6)) (mkEventTriggerMetadataObject @b) buildEventTrigger -< (tableInfo, map (metadataInvalidationKey,source,sourceConfig,_tciName tableInfo,recreateEventTriggers,) eventTriggerConfs) where buildEventTrigger = proc (tableInfo, (metadataInvalidationKey, source, sourceConfig, table, recreateEventTriggers, eventTriggerConf)) -> do let triggerName = etcName eventTriggerConf metadataObject = mkEventTriggerMetadataObject @b (metadataInvalidationKey, source, sourceConfig, table, recreateEventTriggers, eventTriggerConf) schemaObjectId = SOSourceObj source $ AB.mkAnyBackend $ SOITableObj @b table $ TOTrigger triggerName addTriggerContext e = "in event trigger " <> triggerName <<> ": " <> e (| withRecordInconsistency ( (| modifyErrA ( do (info, dependencies) <- bindErrorA -< buildEventTriggerInfo @b env source table eventTriggerConf let tableColumns = M.mapMaybe (^? _FIColumn) (_tciFieldInfoMap tableInfo) recreateTriggerIfNeeded -< (metadataInvalidationKey, table, M.elems tableColumns, triggerName, etcDefinition eventTriggerConf, sourceConfig, recreateEventTriggers) recordDependencies -< (metadataObject, schemaObjectId, dependencies) returnA -< info ) |) (addTableContext @b table . addTriggerContext) ) |) metadataObject recreateTriggerIfNeeded = Inc.cache proc ( metadataInvalidationKey, tableName, tableColumns, triggerName, triggerDefinition, sourceConfig, recreateEventTriggers ) -> do -- We want to make sure we re-create event triggers in postgres database on -- `reload_metadata` metadata query request Inc.dependOn -< metadataInvalidationKey bindA -< do buildReason <- ask serverConfigCtx <- askServerConfigCtx -- we don't modify the existing event trigger definitions in the maintenance mode when ( (buildReason == CatalogUpdate || recreateEventTriggers == RETRecreate) && _sccMaintenanceMode serverConfigCtx == MaintenanceModeDisabled ) $ liftEitherM $ createTableEventTrigger serverConfigCtx sourceConfig tableName tableColumns triggerName triggerDefinition buildCronTriggers :: ( ArrowChoice arr, Inc.ArrowDistribute arr, ArrowWriter (Seq CollectedInfo) arr, Inc.ArrowCache m arr, MonadError QErr m ) => ((), [CronTriggerMetadata]) `arr` HashMap TriggerName CronTriggerInfo buildCronTriggers = buildInfoMap ctName mkCronTriggerMetadataObject buildCronTrigger where buildCronTrigger = proc (_, cronTrigger) -> do let triggerName = triggerNameToTxt $ ctName cronTrigger addCronTriggerContext e = "in cron trigger " <> triggerName <> ": " <> e (| withRecordInconsistency ( (| modifyErrA (bindErrorA -< resolveCronTrigger env cronTrigger) |) addCronTriggerContext ) |) (mkCronTriggerMetadataObject cronTrigger) buildInheritedRoles :: ( ArrowChoice arr, Inc.ArrowDistribute arr, ArrowWriter (Seq CollectedInfo) arr, Inc.ArrowCache m arr, MonadError QErr m ) => (HashSet RoleName, [InheritedRole]) `arr` HashMap RoleName Role buildInheritedRoles = buildInfoMap _rRoleName mkInheritedRoleMetadataObject buildInheritedRole where buildInheritedRole = proc (allRoles, inheritedRole) -> do let addInheritedRoleContext e = "in inherited role " <> roleNameToTxt (_rRoleName inheritedRole) <> ": " <> e metadataObject = mkInheritedRoleMetadataObject inheritedRole schemaObject = SORole $ _rRoleName inheritedRole (| withRecordInconsistency ( (| modifyErrA ( do (resolvedInheritedRole, dependencies) <- bindA -< resolveInheritedRole allRoles inheritedRole recordDependencies -< (metadataObject, schemaObject, dependencies) returnA -< resolvedInheritedRole ) |) addInheritedRoleContext ) |) metadataObject buildActions :: ( ArrowChoice arr, Inc.ArrowDistribute arr, Inc.ArrowCache m arr, ArrowWriter (Seq CollectedInfo) arr ) => ( (AnnotatedCustomTypes, DMap.DMap BackendTag ScalarSet, OrderedRoles), [ActionMetadata] ) `arr` HashMap ActionName ActionInfo buildActions = buildInfoMap _amName mkActionMetadataObject buildAction where buildAction = proc ((resolvedCustomTypes, scalarsMap, orderedRoles), action) -> do let ActionMetadata name comment def actionPermissions metadataTransform = action addActionContext e = "in action " <> name <<> "; " <> e (| withRecordInconsistency ( (| modifyErrA ( do (resolvedDef, outObject) <- liftEitherA <<< bindA -< runExceptT $ resolveAction env resolvedCustomTypes def scalarsMap let permissionInfos = map (ActionPermissionInfo . _apmRole) actionPermissions metadataPermissionMap = mapFromL _apiRole permissionInfos permissionsMap = mkBooleanPermissionMap ActionPermissionInfo metadataPermissionMap orderedRoles forwardClientHeaders = _adForwardClientHeaders resolvedDef outputType = unGraphQLType $ _adOutputType def returnA -< ActionInfo name (outputType, outObject) resolvedDef permissionsMap forwardClientHeaders comment metadataTransform ) |) addActionContext ) |) (mkActionMetadataObject action) buildRemoteSchemas :: ( ArrowChoice arr, Inc.ArrowDistribute arr, ArrowWriter (Seq CollectedInfo) arr, Inc.ArrowCache m arr, MonadIO m, MonadUnique m, HasHttpManagerM m ) => ( Inc.Dependency (HashMap RemoteSchemaName Inc.InvalidationKey), [RemoteSchemaMetadata] ) `arr` HashMap RemoteSchemaName (RemoteSchemaCtx, MetadataObject) buildRemoteSchemas = buildInfoMapPreservingMetadata _rsmName mkRemoteSchemaMetadataObject buildRemoteSchema where -- We want to cache this call because it fetches the remote schema over HTTP, and we don’t -- want to re-run that if the remote schema definition hasn’t changed. buildRemoteSchema = Inc.cache proc (invalidationKeys, remoteSchema@(RemoteSchemaMetadata name defn comment _)) -> do -- TODO is it strange how we convert from RemoteSchemaMetadata back -- to AddRemoteSchemaQuery here? Document types please. let addRemoteSchemaQuery = AddRemoteSchemaQuery name defn comment Inc.dependOn -< Inc.selectKeyD name invalidationKeys (| withRecordInconsistency ( liftEitherA <<< bindA -< runExceptT $ noopTrace $ addRemoteSchemaP2Setup env addRemoteSchemaQuery ) |) (mkRemoteSchemaMetadataObject remoteSchema) -- TODO continue propagating MonadTrace up calls so that we can get tracing for remote schema introspection. -- This will require modifying CacheBuild. noopTrace = Tracing.runTraceTWithReporter Tracing.noReporter "buildSchemaCacheRule" {- Note [Keep invalidation keys for inconsistent objects] ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ After building the schema cache, we prune InvalidationKeys for objects that no longer exist in the schema to avoid leaking memory for objects that have been dropped. However, note that we *don’t* want to drop keys for objects that are simply inconsistent! Why? The object is still in the metadata, so next time we reload it, we’ll reprocess that object. We want to reuse the cache if its definition hasn’t changed, but if we dropped the invalidation key, it will incorrectly be reprocessed (since the invalidation key changed from present to absent). -}