// Read (as much as possible of) a chunk of binary log events starting the given startingCoordinates func readBinlogEventsChunk(instanceKey *InstanceKey, startingCoordinates BinlogCoordinates) ([]BinlogEvent, error) { events := []BinlogEvent{} db, err := db.OpenTopology(instanceKey.Hostname, instanceKey.Port) if err != nil { return events, err } commandToken := math.TernaryString(startingCoordinates.Type == BinaryLog, "binlog", "relaylog") if startingCoordinates.LogFile == "" { return events, log.Errorf("readBinlogEventsChunk: empty binlog file name for %+v.", *instanceKey) } query := fmt.Sprintf("show %s events in '%s' FROM %d LIMIT %d", commandToken, startingCoordinates.LogFile, startingCoordinates.LogPos, config.Config.BinlogEventsChunkSize) err = sqlutils.QueryRowsMap(db, query, func(m sqlutils.RowMap) error { binlogEvent := BinlogEvent{} binlogEvent.Coordinates.LogFile = m.GetString("Log_name") binlogEvent.Coordinates.LogPos = m.GetInt64("Pos") binlogEvent.Coordinates.Type = startingCoordinates.Type binlogEvent.NextEventPos = m.GetInt64("End_log_pos") binlogEvent.EventType = m.GetString("Event_type") binlogEvent.Info = m.GetString("Info") events = append(events, binlogEvent) return nil }) return events, err }
// ScanInstanceRow executes a read-a-single-row query on a given MySQL topology instance func ScanInstanceRow(instanceKey *InstanceKey, query string, dest ...interface{}) error { db, err := db.OpenTopology(instanceKey.Hostname, instanceKey.Port) if err != nil { return err } err = db.QueryRow(query).Scan(dest...) return err }
// ExecInstanceNoPrepare executes a given query on the given MySQL topology instance, without using prepared statements func ExecInstanceNoPrepare(instanceKey *InstanceKey, query string, args ...interface{}) (sql.Result, error) { db, err := db.OpenTopology(instanceKey.Hostname, instanceKey.Port) if err != nil { return nil, err } res, err := sqlutils.ExecNoPrepare(db, query, args...) return res, err }
// EmptyCommitInstance issues an empty COMMIT on a given instance func EmptyCommitInstance(instanceKey *InstanceKey) error { db, err := db.OpenTopology(instanceKey.Hostname, instanceKey.Port) if err != nil { return err } tx, err := db.Begin() if err != nil { return err } err = tx.Commit() if err != nil { return err } return err }
// Try and find the last position of a pseudo GTID query entry in the given binary log. // Also return the full text of that entry. // maxCoordinates is the position beyond which we should not read. This is relevant when reading relay logs; in particular, // the last relay log. We must be careful not to scan for Pseudo-GTID entries past the position executed by the SQL thread. // maxCoordinates == nil means no limit. func getLastPseudoGTIDEntryInBinlog(pseudoGTIDRegexp *regexp.Regexp, instanceKey *InstanceKey, binlog string, binlogType BinlogType, minCoordinates *BinlogCoordinates, maxCoordinates *BinlogCoordinates) (*BinlogCoordinates, string, error) { if binlog == "" { return nil, "", log.Errorf("getLastPseudoGTIDEntryInBinlog: empty binlog file name for %+v. maxCoordinates = %+v", *instanceKey, maxCoordinates) } binlogCoordinates := BinlogCoordinates{LogFile: binlog, LogPos: 0, Type: binlogType} db, err := db.OpenTopology(instanceKey.Hostname, instanceKey.Port) if err != nil { return nil, "", err } moreRowsExpected := true var nextPos int64 = 0 var relyLogMinPos int64 = 0 if minCoordinates != nil && minCoordinates.LogFile == binlog { log.Debugf("getLastPseudoGTIDEntryInBinlog: starting with %+v", *minCoordinates) nextPos = minCoordinates.LogPos relyLogMinPos = minCoordinates.LogPos } step := 0 entryText := "" for moreRowsExpected { query := "" if binlogCoordinates.Type == BinaryLog { query = fmt.Sprintf("show binlog events in '%s' FROM %d LIMIT %d", binlog, nextPos, config.Config.BinlogEventsChunkSize) } else { query = fmt.Sprintf("show relaylog events in '%s' FROM %d LIMIT %d,%d", binlog, relyLogMinPos, (step * config.Config.BinlogEventsChunkSize), config.Config.BinlogEventsChunkSize) } moreRowsExpected = false queryRowsFunc := sqlutils.QueryRowsMap if config.Config.BufferBinlogEvents { queryRowsFunc = sqlutils.QueryRowsMapBuffered } err = queryRowsFunc(db, query, func(m sqlutils.RowMap) error { moreRowsExpected = true nextPos = m.GetInt64("End_log_pos") binlogEntryInfo := m.GetString("Info") if pseudoGTIDMatches(pseudoGTIDRegexp, binlogEntryInfo) { if maxCoordinates != nil && maxCoordinates.SmallerThan(&BinlogCoordinates{LogFile: binlog, LogPos: m.GetInt64("Pos")}) { // past the limitation moreRowsExpected = false return nil } binlogCoordinates.LogPos = m.GetInt64("Pos") entryText = binlogEntryInfo // Found a match. But we keep searching: we're interested in the LAST entry, and, alas, // we can only search in ASCENDING order... } return nil }) if err != nil { return nil, "", err } step++ } // Not found? return nil. an error is reserved to SQL problems. if binlogCoordinates.LogPos == 0 { return nil, "", nil } return &binlogCoordinates, entryText, err }
// SearchEntryInBinlog Given a binlog entry text (query), search it in the given binary log of a given instance func SearchEntryInBinlog(pseudoGTIDRegexp *regexp.Regexp, instanceKey *InstanceKey, binlog string, entryText string, monotonicPseudoGTIDEntries bool, minBinlogCoordinates *BinlogCoordinates) (BinlogCoordinates, bool, error) { binlogCoordinates := BinlogCoordinates{LogFile: binlog, LogPos: 0, Type: BinaryLog} if binlog == "" { return binlogCoordinates, false, log.Errorf("SearchEntryInBinlog: empty binlog file name for %+v", *instanceKey) } db, err := db.OpenTopology(instanceKey.Hostname, instanceKey.Port) if err != nil { return binlogCoordinates, false, err } moreRowsExpected := true skipRestOfBinlog := false alreadyMatchedAscendingPseudoGTID := false var nextPos int64 = 0 if minBinlogCoordinates != nil && minBinlogCoordinates.LogFile == binlog { log.Debugf("SearchEntryInBinlog: starting with %+v", *minBinlogCoordinates) nextPos = minBinlogCoordinates.LogPos } for moreRowsExpected { query := fmt.Sprintf("show binlog events in '%s' FROM %d LIMIT %d", binlog, nextPos, config.Config.BinlogEventsChunkSize) // We don't know in advance when we will hit the end of the binlog. We will implicitly understand it when our // `show binlog events` query does not return any row. moreRowsExpected = false queryRowsFunc := sqlutils.QueryRowsMap if config.Config.BufferBinlogEvents { queryRowsFunc = sqlutils.QueryRowsMapBuffered } err = queryRowsFunc(db, query, func(m sqlutils.RowMap) error { if binlogCoordinates.LogPos != 0 { // Entry found! skipRestOfBinlog = true return nil } if skipRestOfBinlog { return nil } moreRowsExpected = true nextPos = m.GetInt64("End_log_pos") binlogEntryInfo := m.GetString("Info") // if binlogEntryInfo == entryText { // found it! binlogCoordinates.LogPos = m.GetInt64("Pos") } else if monotonicPseudoGTIDEntries && !alreadyMatchedAscendingPseudoGTID { // This part assumes we're searching for Pseudo-GTID.Typically that is the case, however this function can // also be used for generic searches through the binary log. // More heavyweight computation here. Need to verify whether the binlog entry we have is a pseudo-gtid entry // We only want to check for ASCENDING once in the top of the binary log. // If we find the first entry to be higher than the searched one, clearly we are done. // If not, then by virtue of binary logs, we still have to full-scan the entrie binlog sequentially; we // do not check again for ASCENDING (no point), so we save up CPU energy wasted in regexp. if pseudoGTIDMatches(pseudoGTIDRegexp, binlogEntryInfo) { alreadyMatchedAscendingPseudoGTID = true log.Debugf("Matched ascending Pseudo-GTID entry in %+v", binlog) if binlogEntryInfo > entryText { // Entries ascending, and current entry is larger than the one we are searching for. // There is no need to scan further on. We can skip the entire binlog log.Debugf(`Pseudo GTID entries are monotonic and we hit "%+v" > "%+v"; skipping binlog %+v`, m.GetString("Info"), entryText, binlogCoordinates.LogFile) skipRestOfBinlog = true return nil } } } return nil }) if err != nil { return binlogCoordinates, (binlogCoordinates.LogPos != 0), err } if skipRestOfBinlog { return binlogCoordinates, (binlogCoordinates.LogPos != 0), err } } return binlogCoordinates, (binlogCoordinates.LogPos != 0), err }