// Copyright 2018 New Vector Ltd // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. package sqlite3 import ( "context" "database/sql" "github.com/matrix-org/dendrite/internal/sqlutil" rstypes "github.com/matrix-org/dendrite/roomserver/types" "github.com/matrix-org/dendrite/syncapi/storage/tables" "github.com/matrix-org/dendrite/syncapi/types" ) const outputRoomEventsTopologySchema = ` -- Stores output room events received from the roomserver. CREATE TABLE IF NOT EXISTS syncapi_output_room_events_topology ( event_id TEXT PRIMARY KEY, topological_position BIGINT NOT NULL, stream_position BIGINT NOT NULL, room_id TEXT NOT NULL, UNIQUE(topological_position, room_id, stream_position) ); -- The topological order will be used in events selection and ordering -- CREATE UNIQUE INDEX IF NOT EXISTS syncapi_event_topological_position_idx ON syncapi_output_room_events_topology(topological_position, stream_position, room_id); ` const insertEventInTopologySQL = "" + "INSERT INTO syncapi_output_room_events_topology (event_id, topological_position, room_id, stream_position)" + " VALUES ($1, $2, $3, $4)" + " ON CONFLICT DO NOTHING" const selectEventIDsInRangeASCSQL = "" + "SELECT event_id, topological_position, stream_position FROM syncapi_output_room_events_topology" + " WHERE room_id = $1 AND (" + "(topological_position > $2 AND topological_position < $3) OR" + "(topological_position = $4 AND stream_position >= $5)" + ") ORDER BY topological_position ASC, stream_position ASC LIMIT $6" const selectEventIDsInRangeDESCSQL = "" + "SELECT event_id, topological_position, stream_position FROM syncapi_output_room_events_topology" + " WHERE room_id = $1 AND (" + "(topological_position > $2 AND topological_position < $3) OR" + "(topological_position = $4 AND stream_position <= $5)" + ") ORDER BY topological_position DESC, stream_position DESC LIMIT $6" const selectPositionInTopologySQL = "" + "SELECT topological_position, stream_position FROM syncapi_output_room_events_topology" + " WHERE event_id = $1" const selectStreamToTopologicalPositionAscSQL = "" + "SELECT topological_position FROM syncapi_output_room_events_topology WHERE room_id = $1 AND stream_position >= $2 ORDER BY topological_position ASC LIMIT 1;" const selectStreamToTopologicalPositionDescSQL = "" + "SELECT topological_position FROM syncapi_output_room_events_topology WHERE room_id = $1 AND stream_position <= $2 ORDER BY topological_position DESC LIMIT 1;" const purgeEventsTopologySQL = "" + "DELETE FROM syncapi_output_room_events_topology WHERE room_id = $1" type outputRoomEventsTopologyStatements struct { db *sql.DB insertEventInTopologyStmt *sql.Stmt selectEventIDsInRangeASCStmt *sql.Stmt selectEventIDsInRangeDESCStmt *sql.Stmt selectPositionInTopologyStmt *sql.Stmt selectStreamToTopologicalPositionAscStmt *sql.Stmt selectStreamToTopologicalPositionDescStmt *sql.Stmt purgeEventsTopologyStmt *sql.Stmt } func NewSqliteTopologyTable(db *sql.DB) (tables.Topology, error) { s := &outputRoomEventsTopologyStatements{ db: db, } _, err := db.Exec(outputRoomEventsTopologySchema) if err != nil { return nil, err } return s, sqlutil.StatementList{ {&s.insertEventInTopologyStmt, insertEventInTopologySQL}, {&s.selectEventIDsInRangeASCStmt, selectEventIDsInRangeASCSQL}, {&s.selectEventIDsInRangeDESCStmt, selectEventIDsInRangeDESCSQL}, {&s.selectPositionInTopologyStmt, selectPositionInTopologySQL}, {&s.selectStreamToTopologicalPositionAscStmt, selectStreamToTopologicalPositionAscSQL}, {&s.selectStreamToTopologicalPositionDescStmt, selectStreamToTopologicalPositionDescSQL}, {&s.purgeEventsTopologyStmt, purgeEventsTopologySQL}, }.Prepare(db) } // insertEventInTopology inserts the given event in the room's topology, based // on the event's depth. func (s *outputRoomEventsTopologyStatements) InsertEventInTopology( ctx context.Context, txn *sql.Tx, event *rstypes.HeaderedEvent, pos types.StreamPosition, ) (types.StreamPosition, error) { _, err := sqlutil.TxStmt(txn, s.insertEventInTopologyStmt).ExecContext( ctx, event.EventID(), event.Depth(), event.RoomID().String(), pos, ) return types.StreamPosition(event.Depth()), err } // SelectEventIDsInRange selects the IDs of events which positions are within a // given range in a given room's topological order. Returns the start/end topological tokens for // the returned eventIDs. // Returns an empty slice if no events match the given range. func (s *outputRoomEventsTopologyStatements) SelectEventIDsInRange( ctx context.Context, txn *sql.Tx, roomID string, minDepth, maxDepth, maxStreamPos types.StreamPosition, limit int, chronologicalOrder bool, ) (eventIDs []string, start, end types.TopologyToken, err error) { // Decide on the selection's order according to whether chronological order // is requested or not. var stmt *sql.Stmt if chronologicalOrder { stmt = sqlutil.TxStmt(txn, s.selectEventIDsInRangeASCStmt) } else { stmt = sqlutil.TxStmt(txn, s.selectEventIDsInRangeDESCStmt) } // Query the event IDs. rows, err := stmt.QueryContext(ctx, roomID, minDepth, maxDepth, maxDepth, maxStreamPos, limit) if err == sql.ErrNoRows { // If no event matched the request, return an empty slice. return []string{}, start, end, nil } else if err != nil { return } // Return the IDs. var eventID string var token types.TopologyToken var tokens []types.TopologyToken for rows.Next() { if err = rows.Scan(&eventID, &token.Depth, &token.PDUPosition); err != nil { return } eventIDs = append(eventIDs, eventID) tokens = append(tokens, token) } // The values are already ordered by SQL, so we can use them as is. if len(tokens) > 0 { start = tokens[0] end = tokens[len(tokens)-1] } return } // selectPositionInTopology returns the position of a given event in the // topology of the room it belongs to. func (s *outputRoomEventsTopologyStatements) SelectPositionInTopology( ctx context.Context, txn *sql.Tx, eventID string, ) (pos types.StreamPosition, spos types.StreamPosition, err error) { stmt := sqlutil.TxStmt(txn, s.selectPositionInTopologyStmt) err = stmt.QueryRowContext(ctx, eventID).Scan(&pos, &spos) return } // SelectStreamToTopologicalPosition returns the closest position of a given event // in the topology of the room it belongs to from the given stream position. func (s *outputRoomEventsTopologyStatements) SelectStreamToTopologicalPosition( ctx context.Context, txn *sql.Tx, roomID string, streamPos types.StreamPosition, backwardOrdering bool, ) (topoPos types.StreamPosition, err error) { if backwardOrdering { err = sqlutil.TxStmt(txn, s.selectStreamToTopologicalPositionDescStmt).QueryRowContext(ctx, roomID, streamPos).Scan(&topoPos) } else { err = sqlutil.TxStmt(txn, s.selectStreamToTopologicalPositionAscStmt).QueryRowContext(ctx, roomID, streamPos).Scan(&topoPos) } return } func (s *outputRoomEventsTopologyStatements) PurgeEventsTopology( ctx context.Context, txn *sql.Tx, roomID string, ) error { _, err := sqlutil.TxStmt(txn, s.purgeEventsTopologyStmt).ExecContext(ctx, roomID) return err }