{-# LANGUAGE PatternSynonyms #-} {-# LANGUAGE TemplateHaskell #-} -- | -- = Event Triggers -- -- Event triggers are like ordinary SQL triggers, except instead of calling a SQL -- procedure, they call a webhook. The event delivery mechanism involves coordination -- between both the database and graphql-engine: only the SQL database knows -- when the events should fire, but only graphql-engine know how to actually -- deliver them. -- -- Therefore, event triggers are implemented in two parts: -- -- 1. Every event trigger is backed by a bona fide SQL trigger. When the SQL trigger -- fires, it creates a new record in the hdb_catalog.event_log table. -- -- 2. Concurrently, a thread in graphql-engine monitors the hdb_catalog.event_log -- table for new events. When new event(s) are found, it uses the information -- (URL,payload and headers) stored in the event to deliver the event -- to the webhook. -- -- The creation and deletion of SQL trigger itself is managed by the metadata DDL -- APIs (see Hasura.RQL.DDL.EventTrigger), so this module focuses on event delivery. -- -- Most of the subtleties involve guaranteeing reliable delivery of events: -- we guarantee that every event will be delivered at least once, -- even if graphql-engine crashes. This means we have to record the state -- of each event in the database, and we have to retry -- failed requests at a regular (user-configurable) interval. module Hasura.Eventing.EventTrigger ( initEventEngineCtx, processEventQueue, defaultMaxEventThreads, defaultFetchInterval, defaultFetchBatchSize, Event (..), EventEngineCtx (..), LogBehavior (..), HeaderLogBehavior (..), ResponseLogBehavior (..), -- Exported for testing saveLockedEventTriggerEvents, removeEventTriggerEventFromLockedEvents, ) where import Control.Concurrent.Async.Lifted.Safe qualified as LA import Control.Concurrent.Extended (Forever (..), sleep) import Control.Concurrent.STM.TVar import Control.Lens import Control.Monad.Catch (MonadMask, bracket_, finally, mask_) import Control.Monad.STM import Control.Monad.Trans.Control (MonadBaseControl) import Data.Aeson qualified as J import Data.Aeson.TH import Data.Has import Data.HashMap.Strict qualified as M import Data.Set qualified as Set import Data.String import Data.TByteString qualified as TBS import Data.Text qualified as T import Data.Text.Extended import Data.Text.NonEmpty import Data.Time.Clock import Data.Time.Clock qualified as Time import Hasura.Backends.Postgres.SQL.Types hiding (TableName) import Hasura.Base.Error import Hasura.Eventing.Common import Hasura.Eventing.HTTP import Hasura.HTTP (getHTTPExceptionStatus) import Hasura.Logging qualified as L import Hasura.Prelude import Hasura.RQL.DDL.Headers import Hasura.RQL.DDL.Webhook.Transform import Hasura.RQL.Types.Backend import Hasura.RQL.Types.Common import Hasura.RQL.Types.EventTrigger import Hasura.RQL.Types.Eventing.Backend import Hasura.RQL.Types.SchemaCache import Hasura.RQL.Types.Source import Hasura.SQL.AnyBackend qualified as AB import Hasura.SQL.Backend import Hasura.Server.Metrics (ServerMetrics (..)) import Hasura.Server.Types import Hasura.Tracing qualified as Tracing import Network.HTTP.Client.Transformable qualified as HTTP import System.Metrics.Distribution qualified as EKG.Distribution import System.Metrics.Gauge qualified as EKG.Gauge newtype EventInternalErr = EventInternalErr QErr deriving (Show, Eq) instance L.ToEngineLog EventInternalErr L.Hasura where toEngineLog (EventInternalErr qerr) = (L.LevelError, L.eventTriggerLogType, J.toJSON qerr) {- Note [Maintenance mode] ~~~~~~~~~~~~~~~~~~~~~~~~~~ Maintenance mode is a mode in which users can upgrade their graphql-engine without any down time. More on maintenance mode can be found here: https://github.com/hasura/graphql-engine-mono/issues/431. Basically, there are a few main things that maintenance mode boils down to: 1. No operation that may change the metadata will be allowed. 2. Migrations are not applied when the graphql-engine is started, so the catalog schema will be in the older version. 3. Event triggers should continue working in the new code with the older catalog schema i.e it should work even if there are any schema changes to the `hdb_catalog.event_log` table. #1 and #2 are fairly self-explanatory. For #3, we need to support fetching events depending upon the catalog version. So, fetch events works in the following way now: 1. Check if maintenance mode is enabled 2. If maintenance mode is enabled then read the catalog version from the DB and accordingly fire the appropriate query to the events log table. When maintenance mode is disabled, we query the events log table according to the latest catalog, we do not read the catalog version for this. -} -- | See Note [Maintenance Mode] data EventEngineCtx = EventEngineCtx { _eeCtxEventThreadsCapacity :: TVar Int, _eeCtxFetchInterval :: DiffTime, _eeCtxFetchSize :: NonNegativeInt } data DeliveryInfo = DeliveryInfo { diCurrentRetry :: Int, diMaxRetries :: Int } deriving (Show, Eq) $(deriveJSON hasuraJSON {omitNothingFields = True} ''DeliveryInfo) newtype QualifiedTableStrict = QualifiedTableStrict { getQualifiedTable :: QualifiedTable } deriving (Show, Eq) instance J.ToJSON QualifiedTableStrict where toJSON (QualifiedTableStrict (QualifiedObject sn tn)) = J.object [ "schema" J..= sn, "name" J..= tn ] data EventPayload (b :: BackendType) = EventPayload { epId :: EventId, epTable :: TableName b, epTrigger :: TriggerMetadata, epEvent :: J.Value, epDeliveryInfo :: DeliveryInfo, epCreatedAt :: Time.UTCTime } deriving (Generic) deriving instance Backend b => Show (EventPayload b) deriving instance Backend b => Eq (EventPayload b) instance Backend b => J.ToJSON (EventPayload b) where toJSON = J.genericToJSON hasuraJSON {omitNothingFields = True} defaultMaxEventThreads :: Int defaultMaxEventThreads = 100 defaultFetchInterval :: DiffTime defaultFetchInterval = seconds 1 defaultFetchBatchSize :: NonNegativeInt defaultFetchBatchSize = unsafeNonNegativeInt 100 initEventEngineCtx :: Int -> DiffTime -> NonNegativeInt -> STM EventEngineCtx initEventEngineCtx maxT _eeCtxFetchInterval _eeCtxFetchSize = do _eeCtxEventThreadsCapacity <- newTVar maxT return $ EventEngineCtx {..} saveLockedEventTriggerEvents :: MonadIO m => SourceName -> [EventId] -> TVar (HashMap SourceName (Set.Set EventId)) -> m () saveLockedEventTriggerEvents sourceName eventIds lockedEvents = liftIO $ atomically $ do lockedEventsVals <- readTVar lockedEvents case M.lookup sourceName lockedEventsVals of Nothing -> writeTVar lockedEvents $! M.singleton sourceName (Set.fromList eventIds) Just _ -> writeTVar lockedEvents $! M.insertWith Set.union sourceName (Set.fromList eventIds) lockedEventsVals removeEventTriggerEventFromLockedEvents :: MonadIO m => SourceName -> EventId -> TVar (HashMap SourceName (Set.Set EventId)) -> m () removeEventTriggerEventFromLockedEvents sourceName eventId lockedEvents = liftIO $ atomically $ do lockedEventsVals <- readTVar lockedEvents writeTVar lockedEvents $! M.adjust (Set.delete eventId) sourceName lockedEventsVals type BackendEventWithSource = AB.AnyBackend EventWithSource type FetchEventArguments = ([BackendEventWithSource], Int, Bool) -- | Service events from our in-DB queue. -- -- There are a few competing concerns and constraints here; we want to... -- - fetch events in batches for lower DB pressure -- - don't fetch more than N at a time (since that can mean: space leak, less -- effective scale out, possible double sends for events we've checked out -- on exit (TODO clean shutdown procedure)) -- - try not to cause webhook workers to stall waiting on DB fetch -- - limit webhook HTTP concurrency per HASURA_GRAPHQL_EVENTS_HTTP_POOL_SIZE processEventQueue :: forall m. ( MonadIO m, Tracing.HasReporter m, MonadBaseControl IO m, LA.Forall (LA.Pure m), MonadMask m ) => L.Logger L.Hasura -> LogBehavior -> HTTP.Manager -> IO SchemaCache -> EventEngineCtx -> LockedEventsCtx -> ServerMetrics -> MaintenanceMode -> m (Forever m) processEventQueue logger logBehavior httpMgr getSchemaCache EventEngineCtx {..} LockedEventsCtx {leEvents} serverMetrics maintenanceMode = do events0 <- popEventsBatch return $ Forever (events0, 0, False) go where fetchBatchSize = getNonNegativeInt _eeCtxFetchSize popEventsBatch :: m [BackendEventWithSource] popEventsBatch = do {- SELECT FOR UPDATE .. SKIP LOCKED can throw serialization errors in RepeatableRead: https://stackoverflow.com/a/53289263/1911889 We can avoid this safely by running it in ReadCommitted as Postgres will recheck the predicate condition if a row is updated concurrently: https://www.postgresql.org/docs/9.5/transaction-iso.html#XACT-READ-COMMITTED Every other action on an event_log row (like post-processing, archival, etc) are single writes (no R-W or W-R) so it is safe to perform them in ReadCommitted as well (the writes will then acquire some serial order). Any serial order of updates to a row will lead to an eventually consistent state as the row will have (delivered=t or error=t or archived=t) after a fixed number of tries (assuming it begins with locked='f'). -} allSources <- scSources <$> liftIO getSchemaCache liftIO . fmap concat $ -- fetch pending events across all the sources asynchronously LA.forConcurrently (M.toList allSources) \(sourceName, sourceCache) -> AB.dispatchAnyBackend @BackendEventTrigger sourceCache \(SourceInfo _sourceName tableCache _functionCache sourceConfig _queryTagsConfig _sourceCustomization :: SourceInfo b) -> do let tables = M.elems tableCache triggerMap = _tiEventTriggerInfoMap <$> tables eventTriggerCount = sum (M.size <$> triggerMap) triggerNames = concat $ M.keys <$> triggerMap -- only process events for this source if at least one event trigger exists if eventTriggerCount > 0 then ( runExceptT (fetchUndeliveredEvents @b sourceConfig sourceName triggerNames maintenanceMode (FetchBatchSize fetchBatchSize)) >>= \case Right events -> do _ <- liftIO $ EKG.Distribution.add (smNumEventsFetchedPerBatch serverMetrics) (fromIntegral $ length events) eventsFetchedTime <- liftIO getCurrentTime saveLockedEventTriggerEvents sourceName (eId <$> events) leEvents return $ map (\event -> AB.mkAnyBackend @b $ EventWithSource event sourceConfig sourceName eventsFetchedTime) events Left err -> do liftIO $ L.unLogger logger $ EventInternalErr err pure [] ) else pure [] -- !!! CAREFUL !!! -- The logic here in particular is subtle and has been fixed, broken, -- and fixed again in several different ways, several times. -- !!! CAREFUL !!! -- -- work on this batch of events while prefetching the next. Recurse after we've forked workers -- for each in the batch, minding the requested pool size. go :: FetchEventArguments -> m FetchEventArguments go (events, !fullFetchCount, !alreadyWarned) = do -- process events ASAP until we've caught up; only then can we sleep when (null events) . liftIO $ sleep _eeCtxFetchInterval -- Prefetch next events payload while concurrently working through our current batch. -- NOTE: we probably don't need to prefetch so early, but probably not -- worth the effort for something more fine-tuned eventsNext <- LA.withAsync popEventsBatch $ \eventsNextA -> do -- process approximately in order, minding HASURA_GRAPHQL_EVENTS_HTTP_POOL_SIZE: forM_ events $ \eventWithSource -> -- NOTE: we implement a logical bracket pattern here with the -- increment and decrement of _eeCtxEventThreadsCapacity which -- depends on not putting anything that can throw in the body here: AB.dispatchAnyBackend @BackendEventTrigger eventWithSource \(eventWithSource' :: EventWithSource b) -> mask_ $ do liftIO $ atomically $ do -- block until < HASURA_GRAPHQL_EVENTS_HTTP_POOL_SIZE threads: capacity <- readTVar _eeCtxEventThreadsCapacity check $ capacity > 0 writeTVar _eeCtxEventThreadsCapacity (capacity - 1) -- since there is some capacity in our worker threads, we can launch another: let restoreCapacity = liftIO $ atomically $ modifyTVar' _eeCtxEventThreadsCapacity (+ 1) t <- LA.async $ flip runReaderT (logger, httpMgr) $ processEvent eventWithSource' `finally` -- NOTE!: this needs to happen IN THE FORKED THREAD: restoreCapacity LA.link t -- return when next batch ready; some 'processEvent' threads may be running. LA.wait eventsNextA let lenEvents = length events if | lenEvents == fetchBatchSize -> do -- If we've seen N fetches in a row from the DB come back full (i.e. only limited -- by our LIMIT clause), then we say we're clearly falling behind: let clearlyBehind = fullFetchCount >= 3 unless alreadyWarned $ when clearlyBehind $ L.unLogger logger $ L.UnstructuredLog L.LevelWarn $ fromString $ "Events processor may not be keeping up with events generated in postgres, " <> "or we're working on a backlog of events. Consider increasing " <> "HASURA_GRAPHQL_EVENTS_HTTP_POOL_SIZE" return (eventsNext, (fullFetchCount + 1), (alreadyWarned || clearlyBehind)) | otherwise -> do when (lenEvents /= fetchBatchSize && alreadyWarned) $ -- emit as warning in case users are only logging warning severity and saw above L.unLogger logger $ L.UnstructuredLog L.LevelWarn $ fromString $ "It looks like the events processor is keeping up again." return (eventsNext, 0, False) processEvent :: forall io r b. ( MonadIO io, MonadReader r io, Has HTTP.Manager r, Has (L.Logger L.Hasura) r, Tracing.HasReporter io, MonadMask io, BackendEventTrigger b ) => EventWithSource b -> io () processEvent (EventWithSource e sourceConfig sourceName eventFetchedTime) = do -- Track Queue Time of Event (in seconds). See `smEventQueueTime` -- Queue Time = Time when the event was fetched from DB - Time when the event is being processed eventProcessTime <- liftIO getCurrentTime let eventQueueTime = realToFrac $ diffUTCTime eventProcessTime eventFetchedTime _ <- liftIO $ EKG.Distribution.add (smEventQueueTime serverMetrics) eventQueueTime cache <- liftIO getSchemaCache tracingCtx <- liftIO (Tracing.extractEventContext (eEvent e)) let spanName eti = "Event trigger: " <> unNonEmptyText (unTriggerName (etiName eti)) runTraceT = maybe Tracing.runTraceT Tracing.runTraceTInContext tracingCtx maintenanceModeVersionEither :: Either QErr (Maybe MaintenanceModeVersion) <- case maintenanceMode of MaintenanceModeEnabled -> do runExceptT (getMaintenanceModeVersion @b sourceConfig) <&> \case Left err -> Left err Right maintenanceModeVersion -> Right $ Just maintenanceModeVersion MaintenanceModeDisabled -> return $ Right Nothing case maintenanceModeVersionEither of Left maintenanceModeVersionErr -> logQErr maintenanceModeVersionErr Right maintenanceModeVersion -> case getEventTriggerInfoFromEvent cache e of Left err -> do -- This rare error can happen in the following known cases: -- i) schema cache is not up-to-date (due to some bug, say during schema syncing across multiple instances) -- ii) the event trigger is dropped when this event was just fetched logQErr $ err500 Unexpected err currentTime <- liftIO getCurrentTime -- For such an event, we unlock the event and retry after a minute runExceptT (setRetry sourceConfig e (addUTCTime 60 currentTime) maintenanceModeVersion) >>= flip onLeft logQErr Right eti -> runTraceT (spanName eti) do let webhook = wciCachedValue $ etiWebhookInfo eti retryConf = etiRetryConf eti timeoutSeconds = fromMaybe defaultTimeoutSeconds (rcTimeoutSec retryConf) httpTimeout = HTTP.responseTimeoutMicro (timeoutSeconds * 1000000) (headers, logHeaders) = prepareHeaders logBehavior (etiHeaders eti) ep = createEventPayload retryConf e payload = J.encode $ J.toJSON ep extraLogCtx = ExtraLogContext (epId ep) (Just $ etiName eti) requestTransform = etiRequestTransform eti responseTransform = mkResponseTransform <$> etiResponseTransform eti eitherReqRes <- runExceptT $ mkRequest headers httpTimeout payload requestTransform webhook >>= \reqDetails -> do let request = extractRequest reqDetails logger' res details = logHTTPForET res extraLogCtx details logBehavior -- Event Triggers have a configuration parameter called -- HASURA_GRAPHQL_EVENTS_HTTP_WORKERS, which is used -- to control the concurrency of http delivery. -- This bracket is used to increment and decrement an -- HTTP Worker EKG Gauge for the duration of the -- request invocation resp <- bracket_ (liftIO $ EKG.Gauge.inc $ smNumEventHTTPWorkers serverMetrics) (liftIO $ EKG.Gauge.dec $ smNumEventHTTPWorkers serverMetrics) (invokeRequest reqDetails responseTransform (_rdSessionVars reqDetails) logger') pure (request, resp) case eitherReqRes of Right (req, resp) -> let reqBody = fromMaybe J.Null $ view HTTP.body req >>= J.decode @J.Value in processSuccess sourceConfig e logHeaders reqBody maintenanceModeVersion resp >>= flip onLeft logQErr Left (HTTPError reqBody err) -> processError @b sourceConfig e retryConf logHeaders reqBody maintenanceModeVersion err >>= flip onLeft logQErr Left (TransformationError _ err) -> do L.unLogger logger $ L.UnstructuredLog L.LevelError (TBS.fromLBS $ J.encode err) -- Record an Event Error recordError' @b sourceConfig e Nothing PESetError maintenanceModeVersion >>= flip onLeft logQErr -- removing an event from the _eeCtxLockedEvents after the event has been processed: removeEventTriggerEventFromLockedEvents sourceName (eId e) leEvents createEventPayload :: RetryConf -> Event b -> EventPayload b createEventPayload retryConf e = EventPayload { epId = eId e, epTable = eTable e, epTrigger = eTrigger e, epEvent = eEvent e, epDeliveryInfo = DeliveryInfo { diCurrentRetry = eTries e, diMaxRetries = rcNumRetries retryConf }, epCreatedAt = eCreatedAt e } processSuccess :: forall b m a. (MonadIO m, BackendEventTrigger b) => SourceConfig b -> Event b -> [HeaderConf] -> J.Value -> Maybe MaintenanceModeVersion -> HTTPResp a -> m (Either QErr ()) processSuccess sourceConfig e reqHeaders ep maintenanceModeVersion resp = do let respBody = hrsBody resp respHeaders = hrsHeaders resp respStatus = hrsStatus resp eid = eId e invocation = mkInvocation eid ep (Just respStatus) reqHeaders respBody respHeaders recordSuccess @b sourceConfig e invocation maintenanceModeVersion processError :: forall b m a. ( MonadIO m, BackendEventTrigger b ) => SourceConfig b -> Event b -> RetryConf -> [HeaderConf] -> J.Value -> Maybe MaintenanceModeVersion -> HTTPErr a -> m (Either QErr ()) processError sourceConfig e retryConf reqHeaders ep maintenanceModeVersion err = do let invocation = case err of HClient httpException -> let statusMaybe = getHTTPExceptionStatus httpException in mkInvocation (eId e) ep statusMaybe reqHeaders (TBS.fromLBS (J.encode httpException)) [] HStatus errResp -> do let respPayload = hrsBody errResp respHeaders = hrsHeaders errResp respStatus = hrsStatus errResp mkInvocation (eId e) ep (Just respStatus) reqHeaders respPayload respHeaders HOther detail -> do let errMsg = TBS.fromLBS $ J.encode detail mkInvocation (eId e) ep (Just 500) reqHeaders errMsg [] retryOrError <- retryOrSetError e retryConf err recordError @b sourceConfig e invocation retryOrError maintenanceModeVersion retryOrSetError :: MonadIO m => Event b -> RetryConf -> HTTPErr a -> m ProcessEventError retryOrSetError e retryConf err = do let mretryHeader = getRetryAfterHeaderFromError err tries = eTries e mretryHeaderSeconds = mretryHeader >>= parseRetryHeader triesExhausted = tries >= rcNumRetries retryConf noRetryHeader = isNothing mretryHeaderSeconds -- current_try = tries + 1 , allowed_total_tries = rcNumRetries retryConf + 1 if triesExhausted && noRetryHeader then pure PESetError else do currentTime <- liftIO getCurrentTime let delay = fromMaybe (rcIntervalSec retryConf) mretryHeaderSeconds diff = fromIntegral delay retryTime = addUTCTime diff currentTime pure $ PESetRetry retryTime where getRetryAfterHeaderFromError (HStatus resp) = getRetryAfterHeaderFromResp resp getRetryAfterHeaderFromError _ = Nothing parseRetryHeader = mfilter (> 0) . readMaybe . T.unpack mkInvocation :: EventId -> J.Value -> Maybe Int -> [HeaderConf] -> TBS.TByteString -> [HeaderConf] -> Invocation 'EventType mkInvocation eid ep statusMaybe reqHeaders respBody respHeaders = let resp = case statusMaybe of Nothing -> mkClientErr respBody Just status -> if status >= 200 && status < 300 then mkResp status respBody respHeaders else mkClientErr respBody in Invocation eid statusMaybe (mkWebhookReq ep reqHeaders invocationVersionET) resp logQErr :: (MonadReader r m, Has (L.Logger L.Hasura) r, MonadIO m) => QErr -> m () logQErr err = do logger :: L.Logger L.Hasura <- asks getter L.unLogger logger $ EventInternalErr err getEventTriggerInfoFromEvent :: forall b. Backend b => SchemaCache -> Event b -> Either Text (EventTriggerInfo b) getEventTriggerInfoFromEvent sc e = do let table = eTable e mTableInfo = unsafeTableInfo @b (eSource e) table $ scSources sc tableInfo <- onNothing mTableInfo $ Left ("table '" <> table <<> "' not found") let triggerName = tmName $ eTrigger e mEventTriggerInfo = M.lookup triggerName (_tiEventTriggerInfoMap tableInfo) onNothing mEventTriggerInfo $ Left ( "event trigger '" <> triggerNameToTxt triggerName <> "' on table '" <> table <<> "' not found" )