{-# 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 , withMetadataCheck ) where import Hasura.Prelude import qualified Data.Environment as Env import qualified Data.HashMap.Strict.Extended as M import qualified Data.HashMap.Strict.InsOrd as OMap import qualified Data.HashSet as HS import qualified Data.HashSet.InsOrd as HSIns import qualified Database.PG.Query as Q import Control.Arrow.Extended import Control.Lens hiding ((.=)) import Control.Monad.Trans.Control (MonadBaseControl) import Control.Monad.Unique import Data.Aeson import Data.Text.Extended import Network.HTTP.Client.Extended import qualified Hasura.Incremental as Inc import qualified Hasura.Tracing as Tracing import Hasura.Backends.Postgres.Connection import Hasura.Backends.Postgres.SQL.Types import Hasura.GraphQL.Execute.Types import Hasura.GraphQL.Schema (buildGQLContext) import Hasura.Metadata.Class import Hasura.RQL.DDL.Action import Hasura.RQL.DDL.CustomTypes import Hasura.RQL.DDL.Deps import Hasura.RQL.DDL.EventTrigger 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.Common import Hasura.RQL.DDL.Schema.Diff import Hasura.RQL.DDL.Schema.Function import Hasura.RQL.DDL.Schema.Source import Hasura.RQL.DDL.Schema.Table import Hasura.RQL.Types hiding (fmFunction, tmTable) import Hasura.Server.Version (HasVersion) import Hasura.Session 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, HasSQLGenCtx, HasSystemDefined, MonadMetadataStorage , MonadMetadataStorageQueryAPI, HasRemoteSchemaPermsCtx, Tracing.MonadTrace) 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, HasSQLGenCtx m , HasRemoteSchemaPermsCtx m, MonadResolveSource m) => CacheRWM (CacheRWT m) where buildSchemaCacheWithOptions buildReason invalidations metadata = CacheRWT do (RebuildableSchemaCache _ invalidationKeys rule, oldInvalidations) <- get let newInvalidationKeys = invalidateKeys invalidations invalidationKeys result <- lift $ runCacheBuildM $ flip runReaderT buildReason $ Inc.build rule (metadata, newInvalidationKeys) let schemaCache = Inc.result result 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 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, HasSQLGenCtx m , HasRemoteSchemaPermsCtx m, MonadResolveSource 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, gqlSchemaInconsistentObjects) <- runWriterA buildGQLContext -< ( QueryHasura , _boSources resolvedOutputs , _boRemoteSchemas resolvedOutputs , _boActions resolvedOutputs , _actNonObjects $ _boCustomTypes resolvedOutputs ) -- Step 4: Build the relay GraphQL schema (relayContext, relaySchemaInconsistentObjects) <- runWriterA buildGQLContext -< ( QueryRelay , _boSources resolvedOutputs , _boRemoteSchemas resolvedOutputs , _boActions resolvedOutputs , _actNonObjects $ _boCustomTypes resolvedOutputs ) returnA -< SchemaCache { scPostgres = _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 = fst gqlContext , scUnauthenticatedGQLContext = snd gqlContext , scRelayContext = fst relayContext , scUnauthenticatedRelayContext = snd relayContext -- , scGCtxMap = gqlSchema -- , scDefaultRemoteGCtx = remoteGQLSchema , scDepMap = resolvedDependencies , scCronTriggers = _boCronTriggers resolvedOutputs , scInconsistentObjs = inconsistentObjects <> dependencyInconsistentObjects <> toList gqlSchemaInconsistentObjects <> toList relaySchemaInconsistentObjects } where resolveSourceIfNeeded :: ( ArrowChoice arr, Inc.ArrowCache m arr , ArrowWriter (Seq CollectedInfo) arr , MonadIO m, MonadBaseControl IO m , MonadResolveSource m ) => ( Inc.Dependency (HashMap SourceName Inc.InvalidationKey) , SourceMetadata ) `arr` Maybe ResolvedPGSource resolveSourceIfNeeded = Inc.cache proc (invalidationKeys, sourceMetadata) -> do let sourceName = _smName sourceMetadata metadataObj = MetadataObject (MOSource sourceName) $ toJSON sourceName Inc.dependOn -< Inc.selectKeyD sourceName invalidationKeys (| withRecordInconsistency ( liftEitherA <<< bindA -< resolveSource sourceName $ _smConfiguration sourceMetadata) |) metadataObj buildSource :: ( ArrowChoice arr, Inc.ArrowDistribute arr, Inc.ArrowCache m arr , ArrowWriter (Seq CollectedInfo) arr, MonadBaseControl IO m , HasSQLGenCtx m, MonadIO m, MonadError QErr m, MonadReader BuildReason m) => ( SourceMetadata , SourceConfig 'Postgres , DBTablesMetadata 'Postgres , PostgresFunctionsMetadata , RemoteSchemaMap , Inc.Dependency InvalidationKeys ) `arr` SourceInfo 'Postgres buildSource = proc (sourceMetadata, sourceConfig, pgTables, pgFunctions, remoteSchemaMap, invalidationKeys) -> do let SourceMetadata source tables functions _ = sourceMetadata (tableInputs, nonColumnInputs, permissions) = unzip3 $ map mkTableInputs $ OMap.elems tables eventTriggers = map (_tmTable &&& (OMap.elems . _tmEventTriggers)) (OMap.elems tables) -- HashMap k a -> HashMap k b -> HashMap k (a, b) alignTableMap = M.intersectionWith (,) metadataInvalidationKey = Inc.selectD #_ikMetadata invalidationKeys -- tables tableRawInfos <- buildTableCache -< ( source, sourceConfig, pgTables , tableInputs, metadataInvalidationKey ) -- relationships and computed fields let nonColumnsByTable = mapFromL _nctiTable nonColumnInputs tableCoreInfos <- (| Inc.keyed (\_ (tableRawInfo, nonColumnInput) -> do let columns = _tciFieldInfoMap tableRawInfo allFields <- addNonColumnFields -< (source, tableRawInfos, columns, remoteSchemaMap, pgFunctions, nonColumnInput) returnA -< (tableRawInfo {_tciFieldInfoMap = allFields})) |) (tableRawInfos `alignTableMap` nonColumnsByTable) tableCoreInfosDep <- Inc.newDependency -< tableCoreInfos -- permissions and event triggers tableCache <- (| Inc.keyed (\_ ((tableCoreInfo, permissionInputs), (_, eventTriggerConfs)) -> do let tableFields = _tciFieldInfoMap tableCoreInfo permissionInfos <- buildTablePermissions -< (source, tableCoreInfosDep, tableFields, permissionInputs) eventTriggerInfos <- buildTableEventTriggers -< (source, sourceConfig, tableCoreInfo, eventTriggerConfs, metadataInvalidationKey) 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) -> do let systemDefined = SystemDefined False definition = toJSON $ TrackFunction qf metadataObject = MetadataObject (MOSourceObjId source $ SMOFunction qf) definition schemaObject = SOSourceObj source $ SOIFunction qf addFunctionContext e = "in function " <> qf <<> ": " <> e (| withRecordInconsistency ( (| modifyErrA (do let funcDefs = fromMaybe [] $ M.lookup qf pgFunctions rawfi <- bindErrorA -< handleMultipleFunctions qf funcDefs (fi, dep) <- bindErrorA -< mkFunctionInfo source qf systemDefined config rawfi recordDependencies -< (metadataObject, schemaObject, [dep]) returnA -< fi) |) addFunctionContext) |) metadataObject) |) >-> (\infos -> M.catMaybes infos >- returnA) returnA -< SourceInfo source tableCache functionCache sourceConfig buildAndCollectInfo :: ( 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, HasSQLGenCtx m, MonadResolveSource m) => (Metadata, Inc.Dependency InvalidationKeys) `arr` BuildOutputs buildAndCollectInfo = proc (metadata, invalidationKeys) -> do let Metadata sources remoteSchemas collections allowlists customTypes actions cronTriggers = metadata remoteSchemaPermissions = let remoteSchemaPermsList = OMap.toList $ _rsmPermissions <$> remoteSchemas in concat $ flip map remoteSchemaPermsList $ (\(remoteSchemaName, remoteSchemaPerms) -> flip map remoteSchemaPerms $ \(RemoteSchemaPermissionMetadata role defn comment) -> AddRemoteSchemaPermissions remoteSchemaName role defn comment ) -- 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 permissionInfo <- buildRemoteSchemaPermissions -< (remoteSchemaCtx, remoteSchemaPerms) returnA -< (remoteSchemaCtx { _rscPermissions = permissionInfo } , metadataObj) ) |) sourcesOutput <- (| Inc.keyed (\_ sourceMetadata -> do let sourceInvalidationsKeys = Inc.selectD #_ikSources invalidationKeys maybeResolvedSource <- resolveSourceIfNeeded -< (sourceInvalidationsKeys, sourceMetadata) case maybeResolvedSource of Nothing -> returnA -< Nothing Just (ResolvedPGSource pgSourceConfig tablesMeta functionsMeta pgScalars) -> do so <- buildSource -< ( sourceMetadata, pgSourceConfig, tablesMeta, functionsMeta , M.map fst remoteSchemaMap, invalidationKeys ) returnA -< Just (so, pgScalars)) |) (M.fromList $ OMap.toList sources) >-> (\infos -> M.catMaybes infos >- returnA) -- 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 -- custom types let pgScalars = mconcat $ map snd $ M.elems sourcesOutput sourcesCache = M.map fst sourcesOutput maybeResolvedCustomTypes <- (| withRecordInconsistency (bindErrorA -< resolveCustomTypes sourcesCache customTypes pgScalars) |) (MetadataObject MOCustomTypes $ toJSON customTypes) -- -- actions let actionList = OMap.elems actions (actionCache, annotatedCustomTypes) <- case maybeResolvedCustomTypes of Just resolvedCustomTypes -> do actionCache' <- buildActions -< ((resolvedCustomTypes, pgScalars), 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 } mkEventTriggerMetadataObject (_, source, _, table, eventTriggerConf) = let objectId = MOSourceObjId source $ SMOTableObj 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 _) = MetadataObject (MOAction name) (toJSON $ CreateAction name defn comment) mkRemoteSchemaMetadataObject remoteSchema = MetadataObject (MORemoteSchema (_rsmName remoteSchema)) (toJSON remoteSchema) 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, [AddRemoteSchemaPermissions]) `arr` (M.HashMap RoleName IntrospectionResult) buildRemoteSchemaPermissions = buildInfoMap _arspRole mkRemoteSchemaPermissionMetadataObject buildRemoteSchemaPermission where buildRemoteSchemaPermission = proc (remoteSchemaCtx, remoteSchemaPerm) -> do let AddRemoteSchemaPermissions 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 :: ( ArrowChoice arr, Inc.ArrowDistribute arr, ArrowWriter (Seq CollectedInfo) arr , Inc.ArrowCache m arr, MonadIO m, MonadError QErr m, MonadBaseControl IO m , MonadReader BuildReason m, HasSQLGenCtx m) => ( SourceName, SourceConfig 'Postgres, TableCoreInfo 'Postgres , [EventTriggerConf], Inc.Dependency Inc.InvalidationKey ) `arr` EventTriggerInfoMap buildTableEventTriggers = proc (source, sourceConfig, tableInfo, eventTriggerConfs, metadataInvalidationKey) -> buildInfoMap (etcName . (^. _5)) mkEventTriggerMetadataObject buildEventTrigger -< (tableInfo, map (metadataInvalidationKey, source, sourceConfig, _tciName tableInfo,) eventTriggerConfs) where buildEventTrigger = proc (tableInfo, (metadataInvalidationKey, source, sourceConfig, table, eventTriggerConf)) -> do let triggerName = etcName eventTriggerConf metadataObject = mkEventTriggerMetadataObject (metadataInvalidationKey, source, sourceConfig, table, eventTriggerConf) schemaObjectId = SOSourceObj source $ SOITableObj table $ TOTrigger triggerName addTriggerContext e = "in event trigger " <> triggerName <<> ": " <> e (| withRecordInconsistency ( (| modifyErrA (do (info, dependencies) <- bindErrorA -< mkEventTriggerInfo env source table eventTriggerConf let tableColumns = M.mapMaybe (^? _FIColumn) (_tciFieldInfoMap tableInfo) recreateTriggerIfNeeded -< (metadataInvalidationKey, table, M.elems tableColumns, triggerName, etcDefinition eventTriggerConf, sourceConfig) recordDependencies -< (metadataObject, schemaObjectId, dependencies) returnA -< info) |) (addTableContext table . addTriggerContext)) |) metadataObject recreateTriggerIfNeeded = Inc.cache proc (metadataInvalidationKey, tableName, tableColumns , triggerName, triggerDefinition, sourceConfig) -> 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 when (buildReason == CatalogUpdate) $ liftEitherM $ runPgSourceWriteTx sourceConfig $ createPostgresTableEventTrigger 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) buildActions :: ( ArrowChoice arr, Inc.ArrowDistribute arr, Inc.ArrowCache m arr , ArrowWriter (Seq CollectedInfo) arr) => ( (AnnotatedCustomTypes 'Postgres, HashSet PGScalarType) , [ActionMetadata] ) `arr` HashMap ActionName (ActionInfo 'Postgres) buildActions = buildInfoMap _amName mkActionMetadataObject buildAction where buildAction = proc ((resolvedCustomTypes, pgScalars), action) -> do let ActionMetadata name comment def actionPermissions = action addActionContext e = "in action " <> name <<> "; " <> e (| withRecordInconsistency ( (| modifyErrA (do (resolvedDef, outObject) <- liftEitherA <<< bindA -< runExceptT $ resolveAction env resolvedCustomTypes def pgScalars let permissionInfos = map (ActionPermissionInfo . _apmRole) actionPermissions permissionMap = mapFromL _apiRole permissionInfos returnA -< ActionInfo name outObject resolvedDef permissionMap comment) |) 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 let addRemoteSchemaQuery = AddRemoteSchemaQuery name defn comment Inc.dependOn -< Inc.selectKeyD name invalidationKeys (| withRecordInconsistency (liftEitherA <<< bindA -< runExceptT $ addRemoteSchemaP2Setup env addRemoteSchemaQuery) |) (mkRemoteSchemaMetadataObject remoteSchema) -- | @'withMetadataCheck' cascade action@ runs @action@ and checks if the schema changed as a -- result. If it did, it checks to ensure the changes do not violate any integrity constraints, and -- if not, incorporates them into the schema cache. withMetadataCheck :: (MonadIO m, MonadBaseControl IO m, MonadError QErr m, CacheRWM m, HasSQLGenCtx m, MetadataM m) => SourceName -> Bool -> Q.TxAccess -> LazyTxT QErr m a -> m a withMetadataCheck source cascade txAccess action = do SourceInfo _ preActionTables preActionFunctions sourceConfig <- askPGSourceCache source (actionResult, metadataUpdater) <- liftEitherM $ runExceptT $ runLazyTx (_pscExecCtx sourceConfig) txAccess $ do -- Drop event triggers so no interference is caused to the sql query forM_ (M.elems preActionTables) $ \tableInfo -> do let eventTriggers = _tiEventTriggerInfoMap tableInfo forM_ (M.keys eventTriggers) (liftTx . delTriggerQ) -- Get the metadata before the sql query, everything, need to filter this (preActionTableMeta, preActionFunctionMeta) <- fetchMeta preActionTables preActionFunctions -- Run the action actionResult <- action -- Get the metadata after the sql query (postActionTableMeta, postActionFunctionMeta) <- fetchMeta preActionTables preActionFunctions let preActionTableMeta' = filter (flip M.member preActionTables . tmTable) preActionTableMeta schemaDiff = getSchemaDiff preActionTableMeta' postActionTableMeta FunctionDiff droppedFuncs alteredFuncs = getFuncDiff preActionFunctionMeta postActionFunctionMeta overloadedFuncs = getOverloadedFuncs (M.keys preActionFunctions) postActionFunctionMeta -- Do not allow overloading functions unless (null overloadedFuncs) $ throw400 NotSupported $ "the following tracked function(s) cannot be overloaded: " <> commaSeparated overloadedFuncs indirectDeps <- getSchemaChangeDeps source schemaDiff -- Report back with an error if cascade is not set when (indirectDeps /= [] && not cascade) $ reportDepsExt indirectDeps [] metadataUpdater <- execWriterT $ do -- Purge all the indirect dependents from state mapM_ (purgeDependentObject >=> tell) indirectDeps -- Purge all dropped functions let purgedFuncs = flip mapMaybe indirectDeps $ \case SOSourceObj _ (SOIFunction qf) -> Just qf _ -> Nothing forM_ (droppedFuncs \\ purgedFuncs) $ tell . dropFunctionInMetadata source -- Process altered functions forM_ alteredFuncs $ \(qf, newTy) -> do when (newTy == FTVOLATILE) $ throw400 NotSupported $ "type of function " <> qf <<> " is altered to \"VOLATILE\" which is not supported now" -- update the metadata with the changes processSchemaChanges preActionTables schemaDiff pure (actionResult, metadataUpdater) -- Build schema cache with updated metadata withNewInconsistentObjsCheck $ buildSchemaCacheWithInvalidations mempty{ciSources = HS.singleton source} metadataUpdater postActionSchemaCache <- askSchemaCache -- Recreate event triggers in hdb_catalog let postActionTables = maybe mempty _pcTables $ M.lookup source $ scPostgres postActionSchemaCache liftEitherM $ runPgSourceWriteTx sourceConfig $ forM_ (M.elems postActionTables) $ \(TableInfo coreInfo _ eventTriggers) -> do let table = _tciName coreInfo columns = getCols $ _tciFieldInfoMap coreInfo forM_ (M.toList eventTriggers) $ \(triggerName, eti) -> do let opsDefinition = etiOpsDef eti mkAllTriggersQ triggerName table columns opsDefinition pure actionResult where processSchemaChanges :: ( MonadError QErr m , CacheRM m , MonadWriter MetadataModifier m ) => TableCache 'Postgres -> SchemaDiff 'Postgres -> m () processSchemaChanges preActionTables schemaDiff = do -- Purge the dropped tables forM_ droppedTables $ \tn -> tell $ MetadataModifier $ metaSources.ix source.smTables %~ OMap.delete tn for_ alteredTables $ \(oldQtn, tableDiff) -> do ti <- onNothing (M.lookup oldQtn preActionTables) (throw500 $ "old table metadata not found in cache : " <>> oldQtn) processTableChanges source (_tiCoreInfo ti) tableDiff where SchemaDiff droppedTables alteredTables = schemaDiff {- 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). -}