Fix fetching missing state (#2163)

* Check that we have a populated state snapshot when determining if we closed the gap * Do the same in the query API * Use HasState more opportunistically * Try to avoid falling down the hole of using a trustworthy but empty state snapshot for non-create events * Refactor missing state and make sure that we really solve the problem for the new event * Comments * Review comments * Tweak that check again * Tidy up that create check further * Fix build hopefully * Update sendOutliers to use OrderAuthAndStateEvents * Don't go out of bounds on missingEvents
2024-11-22 11:41:38 +00:00 · 2022-02-10 10:05:14 +00:00 · 2022-02-10 10:05:14 +00:00 · 2782ae3d56
commit 2782ae3d56
parent 9130156b13
6 changed files with 227 additions and 126 deletions
--- a/roomserver/internal/input/input_events.go
+++ b/roomserver/internal/input/input_events.go
@ -255,13 +255,32 @@ func (r *Inputer) processRoomEvent(
 				hadEvents:  map[string]bool{},
 				haveEvents: map[string]*gomatrixserverlib.HeaderedEvent{},
 			}
-			if err := missingState.processEventWithMissingState(ctx, event, headered.RoomVersion); err != nil {
+			if stateSnapshot, err := missingState.processEventWithMissingState(ctx, event, headered.RoomVersion); err != nil {
 				// Something went wrong with retrieving the missing state, so we can't
 				// really do anything with the event other than reject it at this point.
 				isRejected = true
 				rejectionErr = fmt.Errorf("missingState.processEventWithMissingState: %w", err)
 			} else if stateSnapshot != nil {
 				// We retrieved some state and we ended up having to call /state_ids for
 				// the new event in question (probably because closing the gap by using
 				// /get_missing_events didn't do what we hoped) so we'll instead overwrite
 				// the state snapshot with the newly resolved state.
 				missingPrev = false
 				input.HasState = true
 				input.StateEventIDs = make([]string, 0, len(stateSnapshot.StateEvents))
 				for _, e := range stateSnapshot.StateEvents {
 					input.StateEventIDs = append(input.StateEventIDs, e.EventID())
 				}
 			} else {
 				// We retrieved some state and it would appear that rolling forward the
 				// state did everything we needed it to do, so we can just resolve the
 				// state for the event in the normal way.
 				missingPrev = false
 			}
 		} else {
 			// We're missing prev events or state for the event, but for some reason
 			// we don't know any servers to ask. In this case we can't do anything but
 			// reject the event and hope that it gets unrejected later.
 			isRejected = true
 			rejectionErr = fmt.Errorf("missing prev events and no other servers to ask")
 		}
@ -299,7 +318,7 @@ func (r *Inputer) processRoomEvent(
 		return rollbackTransaction, fmt.Errorf("updater.RoomInfo missing for room %s", event.RoomID())
 	}
-	if !missingPrev && stateAtEvent.BeforeStateSnapshotNID == 0 {
+	if input.HasState || (!missingPrev && stateAtEvent.BeforeStateSnapshotNID == 0) {
 		// We haven't calculated a state for this event yet.
 		// Lets calculate one.
 		err = r.calculateAndSetState(ctx, updater, input, roomInfo, &stateAtEvent, event, isRejected)
--- a/roomserver/internal/input/input_missing.go
+++ b/roomserver/internal/input/input_missing.go
@ -40,9 +40,10 @@ type missingStateReq struct {
 // processEventWithMissingState is the entrypoint for a missingStateReq
 // request, as called from processRoomEvent.
 // nolint:gocyclo
 func (t *missingStateReq) processEventWithMissingState(
 	ctx context.Context, e *gomatrixserverlib.Event, roomVersion gomatrixserverlib.RoomVersion,
-) error {
+) (*parsedRespState, error) {
 	// We are missing the previous events for this events.
 	// This means that there is a gap in our view of the history of the
 	// room. There two ways that we can handle such a gap:
@ -68,15 +69,15 @@ func (t *missingStateReq) processEventWithMissingState(
 	// - fill in the gap completely then process event `e` returning no backwards extremity
 	// - fail to fill in the gap and tell us to terminate the transaction err=not nil
 	// - fail to fill in the gap and tell us to fetch state at the new backwards extremity, and to not terminate the transaction
-	newEvents, isGapFilled, err := t.getMissingEvents(ctx, e, roomVersion)
+	newEvents, isGapFilled, prevStatesKnown, err := t.getMissingEvents(ctx, e, roomVersion)
 	if err != nil {
-		return fmt.Errorf("t.getMissingEvents: %w", err)
+		return nil, fmt.Errorf("t.getMissingEvents: %w", err)
 	}
 	if len(newEvents) == 0 {
-		return fmt.Errorf("expected to find missing events but didn't")
+		return nil, fmt.Errorf("expected to find missing events but didn't")
 	}
 	if isGapFilled {
-		logger.Infof("gap filled by /get_missing_events, injecting %d new events", len(newEvents))
+		logger.Infof("Gap filled by /get_missing_events, injecting %d new events", len(newEvents))
 		// we can just inject all the newEvents as new as we may have only missed 1 or 2 events and have filled
 		// in the gap in the DAG
 		for _, newEvent := range newEvents {
@ -88,82 +89,31 @@ func (t *missingStateReq) processEventWithMissingState(
 			})
 			if err != nil {
 				if _, ok := err.(types.RejectedError); !ok {
-					return fmt.Errorf("t.inputer.processRoomEvent (filling gap): %w", err)
+					return nil, fmt.Errorf("t.inputer.processRoomEvent (filling gap): %w", err)
 				}
 			}
 		}
 		return nil
 	}
 	// If we filled the gap *and* we know the state before the prev events
 	// then there's nothing else to do, we have everything we need to deal
 	// with the new event.
 	if isGapFilled && prevStatesKnown {
 		logger.Infof("Gap filled and state found for all prev events")
 		return nil, nil
 	}
 	// Otherwise, if we've reached this point, it's possible that we've
 	// either not closed the gap, or we did but we still don't seem to
 	// know the events before the new event. Start by looking up the
 	// state at the event at the back of the gap and we'll try to roll
 	// forward the state first.
 	backwardsExtremity := newEvents[0]
 	newEvents = newEvents[1:]
-	type respState struct {
+	resolvedState, err := t.lookupResolvedStateBeforeEvent(ctx, backwardsExtremity, roomVersion)
-		// A snapshot is considered trustworthy if it came from our own roomserver.
+	if err != nil {
-		// That's because the state will have been through state resolution once
+		return nil, fmt.Errorf("t.lookupState (backwards extremity): %w", err)
 		// already in QueryStateAfterEvent.
 		trustworthy bool
 		*parsedRespState
 	}
 	// at this point we know we're going to have a gap: we need to work out the room state at the new backwards extremity.
 	// Therefore, we cannot just query /state_ids with this event to get the state before. Instead, we need to query
 	// the state AFTER all the prev_events for this event, then apply state resolution to that to get the state before the event.
 	var states []*respState
 	for _, prevEventID := range backwardsExtremity.PrevEventIDs() {
 		// Look up what the state is after the backward extremity. This will either
 		// come from the roomserver, if we know all the required events, or it will
 		// come from a remote server via /state_ids if not.
 		prevState, trustworthy, lerr := t.lookupStateAfterEvent(ctx, roomVersion, backwardsExtremity.RoomID(), prevEventID)
 		if lerr != nil {
 			logger.WithError(lerr).Errorf("Failed to lookup state after prev_event: %s", prevEventID)
 			return lerr
 		}
 		// Append the state onto the collected state. We'll run this through the
 		// state resolution next.
 		states = append(states, &respState{trustworthy, prevState})
 	}
 	// Now that we have collected all of the state from the prev_events, we'll
 	// run the state through the appropriate state resolution algorithm for the
 	// room if needed. This does a couple of things:
 	// 1. Ensures that the state is deduplicated fully for each state-key tuple
 	// 2. Ensures that we pick the latest events from both sets, in the case that
 	//    one of the prev_events is quite a bit older than the others
 	resolvedState := &parsedRespState{}
 	switch len(states) {
 	case 0:
 		extremityIsCreate := backwardsExtremity.Type() == gomatrixserverlib.MRoomCreate && backwardsExtremity.StateKeyEquals("")
 		if !extremityIsCreate {
 			// There are no previous states and this isn't the beginning of the
 			// room - this is an error condition!
 			logger.Errorf("Failed to lookup any state after prev_events")
 			return fmt.Errorf("expected %d states but got %d", len(backwardsExtremity.PrevEventIDs()), len(states))
 		}
 	case 1:
 		// There's only one previous state - if it's trustworthy (came from a
 		// local state snapshot which will already have been through state res),
 		// use it as-is. There's no point in resolving it again.
 		if states[0].trustworthy {
 			resolvedState = states[0].parsedRespState
 			break
 		}
 		// Otherwise, if it isn't trustworthy (came from federation), run it through
 		// state resolution anyway for safety, in case there are duplicates.
 		fallthrough
 	default:
 		respStates := make([]*parsedRespState, len(states))
 		for i := range states {
 			respStates[i] = states[i].parsedRespState
 		}
 		// There's more than one previous state - run them all through state res
 		t.roomsMu.Lock(e.RoomID())
 		resolvedState, err = t.resolveStatesAndCheck(ctx, roomVersion, respStates, backwardsExtremity)
 		t.roomsMu.Unlock(e.RoomID())
 		if err != nil {
 			logger.WithError(err).Errorf("Failed to resolve state conflicts for event %s", backwardsExtremity.EventID())
 			return err
 		}
 	}
 	hadEvents := map[string]bool{}
@ -173,30 +123,37 @@ func (t *missingStateReq) processEventWithMissingState(
 	}
 	t.hadEventsMutex.Unlock()
-	// Send outliers first so we can send the new backwards extremity without causing errors
+	sendOutliers := func(resolvedState *parsedRespState) error {
-	outliers, err := gomatrixserverlib.OrderAuthAndStateEvents(resolvedState.AuthEvents, resolvedState.StateEvents, roomVersion)
+		outliers, oerr := gomatrixserverlib.OrderAuthAndStateEvents(resolvedState.AuthEvents, resolvedState.StateEvents, roomVersion)
-	if err != nil {
+		if oerr != nil {
-		return err
+			return fmt.Errorf("gomatrixserverlib.OrderAuthAndStateEvents: %w", oerr)
 	}
 	var outlierRoomEvents []api.InputRoomEvent
 	for _, outlier := range outliers {
 		if hadEvents[outlier.EventID()] {
 			continue
 		}
-		outlierRoomEvents = append(outlierRoomEvents, api.InputRoomEvent{
+		var outlierRoomEvents []api.InputRoomEvent
-			Kind:   api.KindOutlier,
+		for _, outlier := range outliers {
-			Event:  outlier.Headered(roomVersion),
+			if hadEvents[outlier.EventID()] {
-			Origin: t.origin,
+				continue
-		})
+			}
-	}
+			outlierRoomEvents = append(outlierRoomEvents, api.InputRoomEvent{
-	// TODO: we could do this concurrently?
+				Kind:   api.KindOutlier,
-	for _, ire := range outlierRoomEvents {
+				Event:  outlier.Headered(roomVersion),
-		_, err = t.inputer.processRoomEvent(ctx, t.db, &ire)
+				Origin: t.origin,
-		if err != nil {
+			})
-			if _, ok := err.(types.RejectedError); !ok {
+		}
-				return fmt.Errorf("t.inputer.processRoomEvent (outlier): %w", err)
+		for _, ire := range outlierRoomEvents {
 			_, err = t.inputer.processRoomEvent(ctx, t.db, &ire)
 			if err != nil {
 				if _, ok := err.(types.RejectedError); !ok {
 					return fmt.Errorf("t.inputer.processRoomEvent (outlier): %w", err)
 				}
 			}
 		}
 		return nil
 	}
 	// Send outliers first so we can send the state along with the new backwards
 	// extremity without any missing auth events.
 	if err = sendOutliers(resolvedState); err != nil {
 		return nil, fmt.Errorf("sendOutliers: %w", err)
 	}
 	// Now send the backward extremity into the roomserver with the
@ -217,7 +174,7 @@ func (t *missingStateReq) processEventWithMissingState(
 	})
 	if err != nil {
 		if _, ok := err.(types.RejectedError); !ok {
-			return fmt.Errorf("t.inputer.processRoomEvent (backward extremity): %w", err)
+			return nil, fmt.Errorf("t.inputer.processRoomEvent (backward extremity): %w", err)
 		}
 	}
@ -234,12 +191,109 @@ func (t *missingStateReq) processEventWithMissingState(
 		})
 		if err != nil {
 			if _, ok := err.(types.RejectedError); !ok {
-				return fmt.Errorf("t.inputer.processRoomEvent (fast forward): %w", err)
+				return nil, fmt.Errorf("t.inputer.processRoomEvent (fast forward): %w", err)
 			}
 		}
 	}
-	return nil
+	// Finally, check again if we know everything we need to know in order to
 	// make forward progress. If the prev state is known then we consider the
 	// rolled forward state to be sufficient — we now know all of the state
 	// before the prev events. If we don't then we need to look up the state
 	// before the new event as well, otherwise we will never make any progress.
 	if t.isPrevStateKnown(ctx, e) {
 		return nil, nil
 	}
 	// If we still haven't got the state for the prev events then we'll go and
 	// ask the federation for it if needed.
 	resolvedState, err = t.lookupResolvedStateBeforeEvent(ctx, e, roomVersion)
 	if err != nil {
 		return nil, fmt.Errorf("t.lookupState (new event): %w", err)
 	}
 	// Send the outliers for the retrieved state.
 	if err = sendOutliers(resolvedState); err != nil {
 		return nil, fmt.Errorf("sendOutliers: %w", err)
 	}
 	// Then return the resolved state, for which the caller can replace the
 	// HasState with the event IDs to create a new state snapshot when we
 	// process the new event.
 	return resolvedState, nil
 }
 func (t *missingStateReq) lookupResolvedStateBeforeEvent(ctx context.Context, e *gomatrixserverlib.Event, roomVersion gomatrixserverlib.RoomVersion) (*parsedRespState, error) {
 	type respState struct {
 		// A snapshot is considered trustworthy if it came from our own roomserver.
 		// That's because the state will have been through state resolution once
 		// already in QueryStateAfterEvent.
 		trustworthy bool
 		*parsedRespState
 	}
 	// at this point we know we're going to have a gap: we need to work out the room state at the new backwards extremity.
 	// Therefore, we cannot just query /state_ids with this event to get the state before. Instead, we need to query
 	// the state AFTER all the prev_events for this event, then apply state resolution to that to get the state before the event.
 	var states []*respState
 	for _, prevEventID := range e.PrevEventIDs() {
 		// Look up what the state is after the backward extremity. This will either
 		// come from the roomserver, if we know all the required events, or it will
 		// come from a remote server via /state_ids if not.
 		prevState, trustworthy, err := t.lookupStateAfterEvent(ctx, roomVersion, e.RoomID(), prevEventID)
 		if err != nil {
 			return nil, fmt.Errorf("t.lookupStateAfterEvent: %w", err)
 		}
 		// Append the state onto the collected state. We'll run this through the
 		// state resolution next.
 		states = append(states, &respState{trustworthy, prevState})
 	}
 	// Now that we have collected all of the state from the prev_events, we'll
 	// run the state through the appropriate state resolution algorithm for the
 	// room if needed. This does a couple of things:
 	// 1. Ensures that the state is deduplicated fully for each state-key tuple
 	// 2. Ensures that we pick the latest events from both sets, in the case that
 	//    one of the prev_events is quite a bit older than the others
 	resolvedState := &parsedRespState{}
 	switch len(states) {
 	case 0:
 		extremityIsCreate := e.Type() == gomatrixserverlib.MRoomCreate && e.StateKeyEquals("")
 		if !extremityIsCreate {
 			// There are no previous states and this isn't the beginning of the
 			// room - this is an error condition!
 			return nil, fmt.Errorf("expected %d states but got %d", len(e.PrevEventIDs()), len(states))
 		}
 	case 1:
 		// There's only one previous state - if it's trustworthy (came from a
 		// local state snapshot which will already have been through state res),
 		// use it as-is. There's no point in resolving it again. Only trust a
 		// trustworthy state snapshot if it actually contains some state for all
 		// non-create events, otherwise we need to resolve what came from federation.
 		isCreate := e.Type() == gomatrixserverlib.MRoomCreate && e.StateKeyEquals("")
 		if states[0].trustworthy && (isCreate || len(states[0].StateEvents) > 0) {
 			resolvedState = states[0].parsedRespState
 			break
 		}
 		// Otherwise, if it isn't trustworthy (came from federation), run it through
 		// state resolution anyway for safety, in case there are duplicates.
 		fallthrough
 	default:
 		respStates := make([]*parsedRespState, len(states))
 		for i := range states {
 			respStates[i] = states[i].parsedRespState
 		}
 		// There's more than one previous state - run them all through state res
 		var err error
 		t.roomsMu.Lock(e.RoomID())
 		resolvedState, err = t.resolveStatesAndCheck(ctx, roomVersion, respStates, e)
 		t.roomsMu.Unlock(e.RoomID())
 		if err != nil {
 			return nil, fmt.Errorf("t.resolveStatesAndCheck: %w", err)
 		}
 	}
 	return resolvedState, nil
 }
 // lookupStateAfterEvent returns the room state after `eventID`, which is the state before eventID with the state of `eventID` (if it's a state event)
@ -408,7 +462,7 @@ retryAllowedState:
 // get missing events for `e`. If `isGapFilled`=true then `newEvents` contains all the events to inject,
 // without `e`. If `isGapFilled=false` then `newEvents` contains the response to /get_missing_events
-func (t *missingStateReq) getMissingEvents(ctx context.Context, e *gomatrixserverlib.Event, roomVersion gomatrixserverlib.RoomVersion) (newEvents []*gomatrixserverlib.Event, isGapFilled bool, err error) {
+func (t *missingStateReq) getMissingEvents(ctx context.Context, e *gomatrixserverlib.Event, roomVersion gomatrixserverlib.RoomVersion) (newEvents []*gomatrixserverlib.Event, isGapFilled, prevStateKnown bool, err error) {
 	logger := util.GetLogger(ctx).WithField("event_id", e.EventID()).WithField("room_id", e.RoomID())
 	latest := t.db.LatestEvents()
@ -435,7 +489,7 @@ func (t *missingStateReq) getMissingEvents(ctx context.Context, e *gomatrixserve
 			if errors.Is(err, context.DeadlineExceeded) {
 				select {
 				case <-ctx.Done(): // the parent request context timed out
-					return nil, false, context.DeadlineExceeded
+					return nil, false, false, context.DeadlineExceeded
 				default: // this request exceed its own timeout
 					continue
 				}
@ -448,7 +502,7 @@ func (t *missingStateReq) getMissingEvents(ctx context.Context, e *gomatrixserve
 			"%s pushed us an event but %d server(s) couldn't give us details about prev_events via /get_missing_events - dropping this event until it can",
 			t.origin, len(t.servers),
 		)
-		return nil, false, missingPrevEventsError{
+		return nil, false, false, missingPrevEventsError{
 			eventID: e.EventID(),
 			err:     err,
 		}
@ -457,17 +511,9 @@ func (t *missingStateReq) getMissingEvents(ctx context.Context, e *gomatrixserve
 	// Make sure events from the missingResp are using the cache - missing events
 	// will be added and duplicates will be removed.
 	logger.Debugf("get_missing_events returned %d events", len(missingResp.Events))
-	missingEvents := make([]*gomatrixserverlib.Event, len(missingResp.Events))
+	missingEvents := make([]*gomatrixserverlib.Event, 0, len(missingResp.Events))
-	for i, evJSON := range missingResp.Events {
+	for _, ev := range missingResp.Events.UntrustedEvents(roomVersion) {
-		ev, err := gomatrixserverlib.NewEventFromUntrustedJSON(evJSON, roomVersion)
+		missingEvents = append(missingEvents, t.cacheAndReturn(ev.Headered(roomVersion)).Unwrap())
 		if err != nil {
 			logger.WithError(err).WithField("event", string(evJSON)).Warn("NewEventFromUntrustedJSON: failed")
 			return nil, false, missingPrevEventsError{
 				eventID: e.EventID(),
 				err:     err,
 			}
 		}
 		missingEvents[i] = t.cacheAndReturn(ev.Headered(roomVersion)).Unwrap()
 	}
 	// topologically sort and sanity check that we are making forward progress
@ -489,27 +535,51 @@ Event:
 			"%s pushed us an event but couldn't give us details about prev_events via /get_missing_events - dropping this event until it can",
 			t.origin,
 		)
-		return nil, false, missingPrevEventsError{
+		return nil, false, false, missingPrevEventsError{
 			eventID: e.EventID(),
 			err:     err,
 		}
 	}
 	if len(newEvents) == 0 {
-		return nil, false, nil // TODO: error instead?
+		return nil, false, false, nil // TODO: error instead?
 	}
 	// now check if we can fill the gap. Look to see if we have state snapshot IDs for the earliest event
 	earliestNewEvent := newEvents[0]
-	if state, err := t.db.StateAtEventIDs(ctx, []string{earliestNewEvent.EventID()}); err != nil || len(state) == 0 {
+
-		if earliestNewEvent.Type() == gomatrixserverlib.MRoomCreate && earliestNewEvent.StateKeyEquals("") {
+	// If we retrieved back to the beginning of the room then there's nothing else
-			// we got to the beginning of the room so there will be no state! It's all good we can process this
+	// to do - we closed the gap.
-			return newEvents, true, nil
+	if len(earliestNewEvent.PrevEventIDs()) == 0 && earliestNewEvent.Type() == gomatrixserverlib.MRoomCreate && earliestNewEvent.StateKeyEquals("") {
-		}
+		return newEvents, true, t.isPrevStateKnown(ctx, e), nil
 		// we don't have the state at this earliest event from /g_m_e so we won't have state for later events either
 		return newEvents, false, nil
 	}
-	// StateAtEventIDs returned some kind of state for the earliest event so we can fill in the gap!
+
-	return newEvents, true, nil
+	// If our backward extremity was not a known event to us then we obviously didn't
 	// close the gap.
 	if state, err := t.db.StateAtEventIDs(ctx, []string{earliestNewEvent.EventID()}); err != nil || len(state) == 0 && state[0].BeforeStateSnapshotNID == 0 {
 		return newEvents, false, false, nil
 	}
 	// At this point we are satisfied that we know the state both at the earliest
 	// retrieved event and at the prev events of the new event.
 	return newEvents, true, t.isPrevStateKnown(ctx, e), nil
 }
 func (t *missingStateReq) isPrevStateKnown(ctx context.Context, e *gomatrixserverlib.Event) bool {
 	expected := len(e.PrevEventIDs())
 	state, err := t.db.StateAtEventIDs(ctx, e.PrevEventIDs())
 	if err != nil || len(state) != expected {
 		// We didn't get as many state snapshots as we expected, or there was an error,
 		// so we haven't completely solved the problem for the new event.
 		return false
 	}
 	// Check to see if we have a populated state snapshot for all of the prev events.
 	for _, stateAtEvent := range state {
 		if stateAtEvent.BeforeStateSnapshotNID == 0 {
 			// One of the prev events still has unknown state, so we haven't really
 			// solved the problem.
 			return false
 		}
 	}
 	return true
 }
 func (t *missingStateReq) lookupMissingStateViaState(
--- a/roomserver/internal/query/query.go
+++ b/roomserver/internal/query/query.go
@ -150,7 +150,7 @@ func (r *Queryer) QueryMissingAuthPrevEvents(
 	for _, prevEventID := range request.PrevEventIDs {
 		state, err := r.DB.StateAtEventIDs(ctx, []string{prevEventID})
-		if err != nil || len(state) == 0 {
+		if err != nil || len(state) == 0 || (!state[0].IsCreate() && state[0].BeforeStateSnapshotNID == 0) {
 			response.MissingPrevEventIDs = append(response.MissingPrevEventIDs, prevEventID)
 		}
 	}
--- a/roomserver/storage/shared/room_updater.go
+++ b/roomserver/storage/shared/room_updater.go
@ -187,6 +187,12 @@ func (u *RoomUpdater) EventIDs(
 	return u.d.EventsTable.BulkSelectEventID(ctx, u.txn, eventNIDs)
 }
 func (u *RoomUpdater) EventNIDs(
 	ctx context.Context, eventIDs []string,
 ) (map[string]types.EventNID, error) {
 	return u.d.eventNIDs(ctx, u.txn, eventIDs)
 }
 func (u *RoomUpdater) StateAtEventIDs(
 	ctx context.Context, eventIDs []string,
 ) ([]types.StateAtEvent, error) {
--- a/roomserver/storage/shared/storage.go
+++ b/roomserver/storage/shared/storage.go
@ -603,6 +603,8 @@ func (d *Database) storeEvent(
 			if err == sql.ErrNoRows {
 				// We've already inserted the event so select the numeric event ID
 				eventNID, stateNID, err = d.EventsTable.SelectEvent(ctx, txn, event.EventID())
 			} else if err != nil {
 				return fmt.Errorf("d.EventsTable.InsertEvent: %w", err)
 			}
 			if err != nil {
 				return fmt.Errorf("d.EventsTable.SelectEvent: %w", err)
--- a/roomserver/types/types.go
+++ b/roomserver/types/types.go
@ -83,6 +83,10 @@ type StateKeyTuple struct {
 	EventStateKeyNID EventStateKeyNID
 }
 func (a StateKeyTuple) IsCreate() bool {
 	return a.EventTypeNID == MRoomCreateNID && a.EventStateKeyNID == EmptyStateKeyNID
 }
 // LessThan returns true if this state key is less than the other state key.
 // The ordering is arbitrary and is used to implement binary search and to efficiently deduplicate entries.
 func (a StateKeyTuple) LessThan(b StateKeyTuple) bool {