module Hasura.RQL.DDL.Metadata ( runReplaceMetadata , runExportMetadata , runClearMetadata , runReloadMetadata , runDumpInternalState , runGetInconsistentMetadata , runDropInconsistentMetadata , runGetCatalogState , runSetCatalogState , module Hasura.RQL.DDL.Metadata.Types ) where import Hasura.Prelude import qualified Data.Aeson.Ordered as AO import qualified Data.HashMap.Strict as HM import qualified Data.HashMap.Strict.InsOrd as OMap import qualified Data.HashSet as HS import qualified Data.List as L import Control.Lens ((^?)) import Data.Aeson import Hasura.Metadata.Class import Hasura.RQL.DDL.Action import Hasura.RQL.DDL.ComputedField import Hasura.RQL.DDL.CustomTypes import Hasura.RQL.DDL.Endpoint import Hasura.RQL.DDL.EventTrigger import Hasura.RQL.DDL.Permission import Hasura.RQL.DDL.Relationship import Hasura.RQL.DDL.RemoteRelationship import Hasura.RQL.DDL.RemoteSchema import Hasura.RQL.DDL.ScheduledTrigger import Hasura.RQL.DDL.Schema import Hasura.EncJSON import Hasura.RQL.DDL.Metadata.Types import Hasura.RQL.Types runClearMetadata :: (MonadIO m, CacheRWM m, MetadataM m, MonadError QErr m) => ClearMetadata -> m EncJSON runClearMetadata _ = do metadata <- getMetadata -- We can infer whether the server is started with `--database-url` option -- (or corresponding env variable) by checking the existence of @'defaultSource' -- in current metadata. let maybeDefaultSourceMetadata = metadata ^? metaSources.ix defaultSource emptyMetadata' = case maybeDefaultSourceMetadata of Nothing -> emptyMetadata Just defaultSourceMetadata -> -- If default postgres source is defined, we need to set metadata -- which contains only default source without any tables and functions. let emptyDefaultSource = SourceMetadata defaultSource mempty mempty $ _smConfiguration defaultSourceMetadata in emptyMetadata & metaSources %~ OMap.insert defaultSource emptyDefaultSource runReplaceMetadata $ RMWithSources emptyMetadata' {- Note [Clear postgres schema for dropped triggers] ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ There was an issue (https://github.com/hasura/graphql-engine/issues/5461) fixed (via https://github.com/hasura/graphql-engine/pull/6137) related to event triggers while replacing metadata in the catalog prior to metadata separation. The metadata separation solves the issue naturally, since the 'hdb_catalog.event_triggers' table is no more in use and new/updated event triggers are processed in building schema cache. But we need to drop the pg trigger and archive events for dropped event triggers. This is handled explicitly in @'runReplaceMetadata' function. -} runReplaceMetadata :: ( QErrM m , CacheRWM m , MetadataM m , MonadIO m ) => ReplaceMetadata -> m EncJSON runReplaceMetadata replaceMetadata = do oldMetadata <- getMetadata metadata <- case replaceMetadata of RMWithSources m -> pure m RMWithoutSources MetadataNoSources{..} -> do defaultSourceMetadata <- onNothing (OMap.lookup defaultSource $ _metaSources oldMetadata) $ throw400 NotSupported $ "cannot import metadata without sources since no default source is defined" let newDefaultSourceMetadata = defaultSourceMetadata { _smTables = _mnsTables , _smFunctions = _mnsFunctions } pure $ Metadata (OMap.singleton defaultSource newDefaultSourceMetadata) _mnsRemoteSchemas _mnsQueryCollections _mnsAllowlist _mnsCustomTypes _mnsActions _mnsCronTriggers (_metaRestEndpoints oldMetadata) putMetadata metadata buildSchemaCacheStrict -- See Note [Clear postgres schema for dropped triggers] for_ (OMap.toList $ _metaSources metadata) $ \(source, newSourceCache) -> onJust (OMap.lookup source $ _metaSources oldMetadata) $ \oldSourceCache -> do let getTriggersMap = OMap.unions . map _tmEventTriggers . OMap.elems . _smTables oldTriggersMap = getTriggersMap oldSourceCache newTriggersMap = getTriggersMap newSourceCache droppedTriggers = OMap.keys $ oldTriggersMap `OMap.difference` newTriggersMap sourceConfig <- askSourceConfig source for_ droppedTriggers $ \name -> liftIO $ runPgSourceWriteTx sourceConfig $ delTriggerQ name >> archiveEvents name pure successMsg runExportMetadata :: forall m . ( QErrM m, MetadataM m) => ExportMetadata -> m EncJSON runExportMetadata _ = do metadata <- getMetadata pure $ AO.toEncJSON . metadataToOrdJSON $ metadata runReloadMetadata :: (QErrM m, CacheRWM m, MetadataM m) => ReloadMetadata -> m EncJSON runReloadMetadata (ReloadMetadata reloadRemoteSchemas reloadSources) = do sc <- askSchemaCache let remoteSchemaInvalidations = case reloadRemoteSchemas of RSReloadAll -> HS.fromList $ getAllRemoteSchemas sc RSReloadList l -> l pgSourcesInvalidations = case reloadSources of RSReloadAll -> HS.fromList $ HM.keys $ scPostgres sc RSReloadList l -> l cacheInvalidations = CacheInvalidations { ciMetadata = True , ciRemoteSchemas = remoteSchemaInvalidations , ciSources = pgSourcesInvalidations } metadata <- getMetadata buildSchemaCacheWithOptions CatalogUpdate cacheInvalidations metadata pure successMsg runDumpInternalState :: (QErrM m, CacheRM m) => DumpInternalState -> m EncJSON runDumpInternalState _ = encJFromJValue <$> askSchemaCache runGetInconsistentMetadata :: (QErrM m, CacheRM m) => GetInconsistentMetadata -> m EncJSON runGetInconsistentMetadata _ = do inconsObjs <- scInconsistentObjs <$> askSchemaCache return $ encJFromJValue $ object [ "is_consistent" .= null inconsObjs , "inconsistent_objects" .= inconsObjs ] runDropInconsistentMetadata :: (QErrM m, CacheRWM m, MetadataM m) => DropInconsistentMetadata -> m EncJSON runDropInconsistentMetadata _ = do sc <- askSchemaCache let inconsSchObjs = L.nub . concatMap imObjectIds $ scInconsistentObjs sc -- Note: when building the schema cache, we try to put dependents after their dependencies in the -- list of inconsistent objects, so reverse the list to start with dependents first. This is not -- perfect — a completely accurate solution would require performing a topological sort — but it -- seems to work well enough for now. metadataModifier <- execWriterT $ mapM_ (tell . purgeMetadataObj) (reverse inconsSchObjs) metadata <- getMetadata putMetadata $ unMetadataModifier metadataModifier $ metadata buildSchemaCacheStrict return successMsg purgeMetadataObj :: MetadataObjId -> MetadataModifier purgeMetadataObj = \case MOSource source -> MetadataModifier $ metaSources %~ OMap.delete source MOSourceObjId source sourceObjId -> case sourceObjId of SMOTable qt -> dropTableInMetadata source qt SMOTableObj qt tableObj -> MetadataModifier $ tableMetadataSetter source qt %~ case tableObj of MTORel rn _ -> dropRelationshipInMetadata rn MTOPerm rn pt -> dropPermissionInMetadata rn pt MTOTrigger trn -> dropEventTriggerInMetadata trn MTOComputedField ccn -> dropComputedFieldInMetadata ccn MTORemoteRelationship rn -> dropRemoteRelationshipInMetadata rn SMOFunction qf -> dropFunctionInMetadata source qf SMOFunctionPermission qf rn -> dropFunctionPermissionInMetadata source qf rn MORemoteSchema rsn -> dropRemoteSchemaInMetadata rsn MORemoteSchemaPermissions rsName role -> dropRemoteSchemaPermissionInMetadata rsName role MOCustomTypes -> clearCustomTypesInMetadata MOAction action -> dropActionInMetadata action -- Nothing MOActionPermission action role -> dropActionPermissionInMetadata action role MOCronTrigger ctName -> dropCronTriggerInMetadata ctName MOEndpoint epName -> dropEndpointInMetadata epName runGetCatalogState :: (MonadMetadataStorageQueryAPI m) => GetCatalogState -> m EncJSON runGetCatalogState _ = encJFromJValue <$> fetchCatalogState runSetCatalogState :: (MonadMetadataStorageQueryAPI m) => SetCatalogState -> m EncJSON runSetCatalogState SetCatalogState{..} = do updateCatalogState _scsType _scsState pure successMsg