// Copyright (c) 2020 Shivaram Lingamneni // released under the MIT license package mysql import ( "context" "database/sql" "encoding/json" "errors" "fmt" "io" "runtime/debug" "strings" "sync" "sync/atomic" "time" _ "github.com/go-sql-driver/mysql" "github.com/oragono/oragono/irc/history" "github.com/oragono/oragono/irc/logger" "github.com/oragono/oragono/irc/utils" ) var ( ErrDisallowed = errors.New("disallowed") ) const ( // maximum length in bytes of any message target (nickname or channel name) in its // canonicalized (i.e., casefolded) state: MaxTargetLength = 64 // latest schema of the db latestDbSchema = "2" keySchemaVersion = "db.version" // minor version indicates rollback-safe upgrades, i.e., // you can downgrade oragono and everything will work latestDbMinorVersion = "2" keySchemaMinorVersion = "db.minorversion" cleanupRowLimit = 50 cleanupPauseTime = 10 * time.Minute ) type e struct{} type MySQL struct { timeout int64 trackAccountMessages uint32 db *sql.DB logger *logger.Manager insertHistory *sql.Stmt insertSequence *sql.Stmt insertConversation *sql.Stmt insertCorrespondent *sql.Stmt insertAccountMessage *sql.Stmt stateMutex sync.Mutex config Config wakeForgetter chan e } func (mysql *MySQL) Initialize(logger *logger.Manager, config Config) { mysql.logger = logger mysql.wakeForgetter = make(chan e, 1) mysql.SetConfig(config) } func (mysql *MySQL) SetConfig(config Config) { atomic.StoreInt64(&mysql.timeout, int64(config.Timeout)) var trackAccountMessages uint32 if config.TrackAccountMessages { trackAccountMessages = 1 } atomic.StoreUint32(&mysql.trackAccountMessages, trackAccountMessages) mysql.stateMutex.Lock() mysql.config = config mysql.stateMutex.Unlock() } func (mysql *MySQL) getExpireTime() (expireTime time.Duration) { mysql.stateMutex.Lock() expireTime = mysql.config.ExpireTime mysql.stateMutex.Unlock() return } func (m *MySQL) Open() (err error) { var address string if m.config.SocketPath != "" { address = fmt.Sprintf("unix(%s)", m.config.SocketPath) } else if m.config.Port != 0 { address = fmt.Sprintf("tcp(%s:%d)", m.config.Host, m.config.Port) } m.db, err = sql.Open("mysql", fmt.Sprintf("%s:%s@%s/%s", m.config.User, m.config.Password, address, m.config.HistoryDatabase)) if err != nil { return err } err = m.fixSchemas() if err != nil { return err } err = m.prepareStatements() if err != nil { return err } go m.cleanupLoop() go m.forgetLoop() return nil } func (mysql *MySQL) fixSchemas() (err error) { _, err = mysql.db.Exec(`CREATE TABLE IF NOT EXISTS metadata ( key_name VARCHAR(32) primary key, value VARCHAR(32) NOT NULL ) CHARSET=ascii COLLATE=ascii_bin;`) if err != nil { return err } var schema string err = mysql.db.QueryRow(`select value from metadata where key_name = ?;`, keySchemaVersion).Scan(&schema) if err == sql.ErrNoRows { err = mysql.createTables() if err != nil { return } _, err = mysql.db.Exec(`insert into metadata (key_name, value) values (?, ?);`, keySchemaVersion, latestDbSchema) if err != nil { return } _, err = mysql.db.Exec(`insert into metadata (key_name, value) values (?, ?);`, keySchemaMinorVersion, latestDbMinorVersion) if err != nil { return } return } else if err == nil && schema != latestDbSchema { // TODO figure out what to do about schema changes return fmt.Errorf("incompatible schema: got %s, expected %s", schema, latestDbSchema) } else if err != nil { return err } var minorVersion string err = mysql.db.QueryRow(`select value from metadata where key_name = ?;`, keySchemaMinorVersion).Scan(&minorVersion) if err == sql.ErrNoRows { // XXX for now, the only minor version upgrade is the account tracking tables err = mysql.createComplianceTables() if err != nil { return } err = mysql.createCorrespondentsTable() if err != nil { return } _, err = mysql.db.Exec(`insert into metadata (key_name, value) values (?, ?);`, keySchemaMinorVersion, latestDbMinorVersion) if err != nil { return } } else if err == nil && minorVersion == "1" { // upgrade from 2.1 to 2.2: create the correspondents table err = mysql.createCorrespondentsTable() if err != nil { return } _, err = mysql.db.Exec(`update metadata set value = ? where key_name = ?;`, latestDbMinorVersion, keySchemaMinorVersion) if err != nil { return } } else if err == nil && minorVersion != latestDbMinorVersion { // TODO: if minorVersion < latestDbMinorVersion, upgrade, // if latestDbMinorVersion < minorVersion, ignore because backwards compatible } return } func (mysql *MySQL) createTables() (err error) { _, err = mysql.db.Exec(`CREATE TABLE history ( id BIGINT UNSIGNED NOT NULL AUTO_INCREMENT PRIMARY KEY, data BLOB NOT NULL, msgid BINARY(16) NOT NULL, KEY (msgid(4)) ) CHARSET=ascii COLLATE=ascii_bin;`) if err != nil { return err } _, err = mysql.db.Exec(fmt.Sprintf(`CREATE TABLE sequence ( id BIGINT UNSIGNED NOT NULL AUTO_INCREMENT PRIMARY KEY, target VARBINARY(%[1]d) NOT NULL, nanotime BIGINT UNSIGNED NOT NULL, history_id BIGINT NOT NULL, KEY (target, nanotime), KEY (history_id) ) CHARSET=ascii COLLATE=ascii_bin;`, MaxTargetLength)) if err != nil { return err } _, err = mysql.db.Exec(fmt.Sprintf(`CREATE TABLE conversations ( id BIGINT UNSIGNED NOT NULL AUTO_INCREMENT PRIMARY KEY, target VARBINARY(%[1]d) NOT NULL, correspondent VARBINARY(%[1]d) NOT NULL, nanotime BIGINT UNSIGNED NOT NULL, history_id BIGINT NOT NULL, KEY (target, correspondent, nanotime), KEY (history_id) ) CHARSET=ascii COLLATE=ascii_bin;`, MaxTargetLength)) if err != nil { return err } err = mysql.createCorrespondentsTable() if err != nil { return err } err = mysql.createComplianceTables() if err != nil { return err } return nil } func (mysql *MySQL) createCorrespondentsTable() (err error) { _, err = mysql.db.Exec(fmt.Sprintf(`CREATE TABLE correspondents ( id BIGINT UNSIGNED NOT NULL AUTO_INCREMENT PRIMARY KEY, target VARBINARY(%[1]d) NOT NULL, correspondent VARBINARY(%[1]d) NOT NULL, nanotime BIGINT UNSIGNED NOT NULL, UNIQUE KEY (target, correspondent), KEY (target, nanotime), KEY (nanotime) ) CHARSET=ascii COLLATE=ascii_bin;`, MaxTargetLength)) return } func (mysql *MySQL) createComplianceTables() (err error) { _, err = mysql.db.Exec(fmt.Sprintf(`CREATE TABLE account_messages ( history_id BIGINT UNSIGNED NOT NULL PRIMARY KEY, account VARBINARY(%[1]d) NOT NULL, KEY (account, history_id) ) CHARSET=ascii COLLATE=ascii_bin;`, MaxTargetLength)) if err != nil { return err } _, err = mysql.db.Exec(fmt.Sprintf(`CREATE TABLE forget ( id BIGINT UNSIGNED NOT NULL AUTO_INCREMENT PRIMARY KEY, account VARBINARY(%[1]d) NOT NULL ) CHARSET=ascii COLLATE=ascii_bin;`, MaxTargetLength)) if err != nil { return err } return nil } func (mysql *MySQL) cleanupLoop() { defer func() { if r := recover(); r != nil { mysql.logger.Error("mysql", fmt.Sprintf("Panic in cleanup routine: %v\n%s", r, debug.Stack())) time.Sleep(cleanupPauseTime) go mysql.cleanupLoop() } }() for { expireTime := mysql.getExpireTime() if expireTime != 0 { for { startTime := time.Now() rowsDeleted, err := mysql.doCleanup(expireTime) elapsed := time.Now().Sub(startTime) mysql.logError("error during row cleanup", err) // keep going as long as we're accomplishing significant work // (don't busy-wait on small numbers of rows expiring): if rowsDeleted < (cleanupRowLimit / 10) { break } // crude backpressure mechanism: if the database is slow, // give it time to process other queries time.Sleep(elapsed) } } time.Sleep(cleanupPauseTime) } } func (mysql *MySQL) doCleanup(age time.Duration) (count int, err error) { ctx, cancel := context.WithTimeout(context.Background(), cleanupPauseTime) defer cancel() ids, maxNanotime, err := mysql.selectCleanupIDs(ctx, age) if len(ids) == 0 { mysql.logger.Debug("mysql", "found no rows to clean up") return } mysql.logger.Debug("mysql", fmt.Sprintf("deleting %d history rows, max age %s", len(ids), utils.NanoToTimestamp(maxNanotime))) if maxNanotime != 0 { mysql.deleteCorrespondents(ctx, maxNanotime) } return len(ids), mysql.deleteHistoryIDs(ctx, ids) } func (mysql *MySQL) deleteHistoryIDs(ctx context.Context, ids []uint64) (err error) { // can't use ? binding for a variable number of arguments, build the IN clause manually var inBuf strings.Builder inBuf.WriteByte('(') for i, id := range ids { if i != 0 { inBuf.WriteRune(',') } fmt.Fprintf(&inBuf, "%d", id) } inBuf.WriteRune(')') inClause := inBuf.String() _, err = mysql.db.ExecContext(ctx, fmt.Sprintf(`DELETE FROM conversations WHERE history_id in %s;`, inClause)) if err != nil { return } _, err = mysql.db.ExecContext(ctx, fmt.Sprintf(`DELETE FROM sequence WHERE history_id in %s;`, inClause)) if err != nil { return } if mysql.isTrackingAccountMessages() { _, err = mysql.db.ExecContext(ctx, fmt.Sprintf(`DELETE FROM account_messages WHERE history_id in %s;`, inClause)) if err != nil { return } } _, err = mysql.db.ExecContext(ctx, fmt.Sprintf(`DELETE FROM history WHERE id in %s;`, inClause)) if err != nil { return } return } func (mysql *MySQL) selectCleanupIDs(ctx context.Context, age time.Duration) (ids []uint64, maxNanotime int64, err error) { rows, err := mysql.db.QueryContext(ctx, ` SELECT history.id, sequence.nanotime FROM history LEFT JOIN sequence ON history.id = sequence.history_id ORDER BY history.id LIMIT ?;`, cleanupRowLimit) if err != nil { return } defer rows.Close() // a history ID may have 0-2 rows in sequence: 1 for a channel entry, // 2 for a DM, 0 if the data is inconsistent. therefore, deduplicate // and delete anything that doesn't have a sequence entry: idset := make(map[uint64]struct{}, cleanupRowLimit) threshold := time.Now().Add(-age).UnixNano() for rows.Next() { var id uint64 var nanotime sql.NullInt64 err = rows.Scan(&id, &nanotime) if err != nil { return } if !nanotime.Valid || nanotime.Int64 < threshold { idset[id] = struct{}{} if nanotime.Valid && nanotime.Int64 > maxNanotime { maxNanotime = nanotime.Int64 } } } ids = make([]uint64, len(idset)) i := 0 for id := range idset { ids[i] = id i++ } return } func (mysql *MySQL) deleteCorrespondents(ctx context.Context, threshold int64) { result, err := mysql.db.ExecContext(ctx, `DELETE FROM correspondents WHERE nanotime <= (?);`, threshold) if err != nil { mysql.logError("error deleting correspondents", err) } else { count, err := result.RowsAffected() if err != nil { mysql.logger.Debug(fmt.Sprintf("deleted %d correspondents entries", count)) } } } // wait for forget queue items and process them one by one func (mysql *MySQL) forgetLoop() { defer func() { if r := recover(); r != nil { mysql.logger.Error("mysql", fmt.Sprintf("Panic in forget routine: %v\n%s", r, debug.Stack())) time.Sleep(cleanupPauseTime) go mysql.forgetLoop() } }() for { for { found, err := mysql.doForget() mysql.logError("error processing forget", err) if err != nil { time.Sleep(cleanupPauseTime) } if !found { break } } <-mysql.wakeForgetter } } // dequeue an item from the forget queue and process it func (mysql *MySQL) doForget() (found bool, err error) { id, account, err := func() (id int64, account string, err error) { ctx, cancel := context.WithTimeout(context.Background(), cleanupPauseTime) defer cancel() row := mysql.db.QueryRowContext(ctx, `SELECT forget.id, forget.account FROM forget LIMIT 1;`) err = row.Scan(&id, &account) if err == sql.ErrNoRows { return 0, "", nil } return }() if err != nil || account == "" { return false, err } found = true var count int for { start := time.Now() count, err = mysql.doForgetIteration(account) elapsed := time.Since(start) if err != nil { return true, err } if count == 0 { break } time.Sleep(elapsed) } mysql.logger.Debug("mysql", "forget complete for account", account) ctx, cancel := context.WithTimeout(context.Background(), cleanupPauseTime) defer cancel() _, err = mysql.db.ExecContext(ctx, `DELETE FROM forget where id = ?;`, id) return } func (mysql *MySQL) doForgetIteration(account string) (count int, err error) { ctx, cancel := context.WithTimeout(context.Background(), cleanupPauseTime) defer cancel() rows, err := mysql.db.QueryContext(ctx, ` SELECT account_messages.history_id FROM account_messages WHERE account_messages.account = ? LIMIT ?;`, account, cleanupRowLimit) if err != nil { return } defer rows.Close() var ids []uint64 for rows.Next() { var id uint64 err = rows.Scan(&id) if err != nil { return } ids = append(ids, id) } if len(ids) == 0 { return } mysql.logger.Debug("mysql", fmt.Sprintf("deleting %d history rows from account %s", len(ids), account)) err = mysql.deleteHistoryIDs(ctx, ids) return len(ids), err } func (mysql *MySQL) prepareStatements() (err error) { mysql.insertHistory, err = mysql.db.Prepare(`INSERT INTO history (data, msgid) VALUES (?, ?);`) if err != nil { return } mysql.insertSequence, err = mysql.db.Prepare(`INSERT INTO sequence (target, nanotime, history_id) VALUES (?, ?, ?);`) if err != nil { return } mysql.insertConversation, err = mysql.db.Prepare(`INSERT INTO conversations (target, correspondent, nanotime, history_id) VALUES (?, ?, ?, ?);`) if err != nil { return } mysql.insertCorrespondent, err = mysql.db.Prepare(`INSERT INTO correspondents (target, correspondent, nanotime) VALUES (?, ?, ?) ON DUPLICATE KEY UPDATE nanotime = GREATEST(nanotime, ?);`) if err != nil { return } mysql.insertAccountMessage, err = mysql.db.Prepare(`INSERT INTO account_messages (history_id, account) VALUES (?, ?);`) if err != nil { return } return } func (mysql *MySQL) getTimeout() time.Duration { return time.Duration(atomic.LoadInt64(&mysql.timeout)) } func (mysql *MySQL) isTrackingAccountMessages() bool { return atomic.LoadUint32(&mysql.trackAccountMessages) != 0 } func (mysql *MySQL) logError(context string, err error) (quit bool) { if err != nil { mysql.logger.Error("mysql", context, err.Error()) return true } return false } func (mysql *MySQL) Forget(account string) { if mysql.db == nil || account == "" { return } ctx, cancel := context.WithTimeout(context.Background(), mysql.getTimeout()) defer cancel() _, err := mysql.db.ExecContext(ctx, `INSERT INTO forget (account) VALUES (?);`, account) if mysql.logError("can't insert into forget table", err) { return } // wake up the forget goroutine if it's blocked: select { case mysql.wakeForgetter <- e{}: default: } } func (mysql *MySQL) AddChannelItem(target string, item history.Item, account string) (err error) { if mysql.db == nil { return } if target == "" { return utils.ErrInvalidParams } ctx, cancel := context.WithTimeout(context.Background(), mysql.getTimeout()) defer cancel() id, err := mysql.insertBase(ctx, item) if err != nil { return } err = mysql.insertSequenceEntry(ctx, target, item.Message.Time.UnixNano(), id) if err != nil { return } err = mysql.insertAccountMessageEntry(ctx, id, account) if err != nil { return } return } func (mysql *MySQL) insertSequenceEntry(ctx context.Context, target string, messageTime int64, id int64) (err error) { _, err = mysql.insertSequence.ExecContext(ctx, target, messageTime, id) mysql.logError("could not insert sequence entry", err) return } func (mysql *MySQL) insertConversationEntry(ctx context.Context, target, correspondent string, messageTime int64, id int64) (err error) { _, err = mysql.insertConversation.ExecContext(ctx, target, correspondent, messageTime, id) mysql.logError("could not insert conversations entry", err) return } func (mysql *MySQL) insertCorrespondentsEntry(ctx context.Context, target, correspondent string, messageTime int64, historyId int64) (err error) { _, err = mysql.insertCorrespondent.ExecContext(ctx, target, correspondent, messageTime, messageTime) mysql.logError("could not insert conversations entry", err) return } func (mysql *MySQL) insertBase(ctx context.Context, item history.Item) (id int64, err error) { value, err := marshalItem(&item) if mysql.logError("could not marshal item", err) { return } msgidBytes, err := decodeMsgid(item.Message.Msgid) if mysql.logError("could not decode msgid", err) { return } result, err := mysql.insertHistory.ExecContext(ctx, value, msgidBytes) if mysql.logError("could not insert item", err) { return } id, err = result.LastInsertId() if mysql.logError("could not insert item", err) { return } return } func (mysql *MySQL) insertAccountMessageEntry(ctx context.Context, id int64, account string) (err error) { if account == "" || !mysql.isTrackingAccountMessages() { return } _, err = mysql.insertAccountMessage.ExecContext(ctx, id, account) mysql.logError("could not insert account-message entry", err) return } func (mysql *MySQL) AddDirectMessage(sender, senderAccount, recipient, recipientAccount string, item history.Item) (err error) { if mysql.db == nil { return } if senderAccount == "" && recipientAccount == "" { return } if sender == "" || recipient == "" { return utils.ErrInvalidParams } ctx, cancel := context.WithTimeout(context.Background(), mysql.getTimeout()) defer cancel() id, err := mysql.insertBase(ctx, item) if err != nil { return } nanotime := item.Message.Time.UnixNano() if senderAccount != "" { err = mysql.insertSequenceEntry(ctx, senderAccount, nanotime, id) if err != nil { return } err = mysql.insertConversationEntry(ctx, senderAccount, recipient, nanotime, id) if err != nil { return } err = mysql.insertCorrespondentsEntry(ctx, senderAccount, recipient, nanotime, id) if err != nil { return } } if recipientAccount != "" && sender != recipient { err = mysql.insertSequenceEntry(ctx, recipientAccount, nanotime, id) if err != nil { return } err = mysql.insertConversationEntry(ctx, recipientAccount, sender, nanotime, id) if err != nil { return } err = mysql.insertCorrespondentsEntry(ctx, recipientAccount, sender, nanotime, id) if err != nil { return } } err = mysql.insertAccountMessageEntry(ctx, id, senderAccount) if err != nil { return } return } // note that accountName is the unfolded name func (mysql *MySQL) DeleteMsgid(msgid, accountName string) (err error) { if mysql.db == nil { return nil } ctx, cancel := context.WithTimeout(context.Background(), mysql.getTimeout()) defer cancel() _, id, data, err := mysql.lookupMsgid(ctx, msgid, true) if err != nil { return } if accountName != "*" { var item history.Item err = unmarshalItem(data, &item) // delete if the entry is corrupt if err == nil && item.AccountName != accountName { return ErrDisallowed } } err = mysql.deleteHistoryIDs(ctx, []uint64{id}) mysql.logError("couldn't delete msgid", err) return } func (mysql *MySQL) Export(account string, writer io.Writer) { if mysql.db == nil { return } var err error var lastSeen uint64 for { rows := func() (count int) { ctx, cancel := context.WithTimeout(context.Background(), cleanupPauseTime) defer cancel() rows, rowsErr := mysql.db.QueryContext(ctx, ` SELECT account_messages.history_id, history.data, sequence.target FROM account_messages INNER JOIN history ON history.id = account_messages.history_id INNER JOIN sequence ON account_messages.history_id = sequence.history_id WHERE account_messages.account = ? AND account_messages.history_id > ? LIMIT ?`, account, lastSeen, cleanupRowLimit) if rowsErr != nil { err = rowsErr return } defer rows.Close() for rows.Next() { var id uint64 var blob, jsonBlob []byte var target string var item history.Item err = rows.Scan(&id, &blob, &target) if err != nil { return } err = unmarshalItem(blob, &item) if err != nil { return } item.CfCorrespondent = target jsonBlob, err = json.Marshal(item) if err != nil { return } count++ if lastSeen < id { lastSeen = id } writer.Write(jsonBlob) writer.Write([]byte{'\n'}) } return }() if rows == 0 || err != nil { break } } mysql.logError("could not export history", err) return } func (mysql *MySQL) lookupMsgid(ctx context.Context, msgid string, includeData bool) (result time.Time, id uint64, data []byte, err error) { // in theory, we could optimize out a roundtrip to the database by using a subquery instead: // sequence.nanotime > ( // SELECT sequence.nanotime FROM sequence, history // WHERE sequence.history_id = history.id AND history.msgid = ? // LIMIT 1) // however, this doesn't handle the BETWEEN case with one or two msgids, where we // don't initially know whether the interval is going forwards or backwards. to simplify // the logic, resolve msgids to timestamps "manually" in all cases, using a separate query. decoded, err := decodeMsgid(msgid) if err != nil { return } cols := `sequence.nanotime` if includeData { cols = `sequence.nanotime, sequence.history_id, history.data` } row := mysql.db.QueryRowContext(ctx, fmt.Sprintf(` SELECT %s FROM sequence INNER JOIN history ON history.id = sequence.history_id WHERE history.msgid = ? LIMIT 1;`, cols), decoded) var nanotime int64 if !includeData { err = row.Scan(&nanotime) } else { err = row.Scan(&nanotime, &id, &data) } if err != sql.ErrNoRows { mysql.logError("could not resolve msgid to time", err) } if err != nil { return } result = time.Unix(0, nanotime).UTC() return } func (mysql *MySQL) selectItems(ctx context.Context, query string, args ...interface{}) (results []history.Item, err error) { rows, err := mysql.db.QueryContext(ctx, query, args...) if mysql.logError("could not select history items", err) { return } defer rows.Close() for rows.Next() { var blob []byte var item history.Item err = rows.Scan(&blob) if mysql.logError("could not scan history item", err) { return } err = unmarshalItem(blob, &item) if mysql.logError("could not unmarshal history item", err) { return } results = append(results, item) } return } func (mysql *MySQL) betweenTimestamps(ctx context.Context, target, correspondent string, after, before, cutoff time.Time, limit int) (results []history.Item, err error) { useSequence := correspondent == "" table := "sequence" if !useSequence { table = "conversations" } after, before, ascending := history.MinMaxAsc(after, before, cutoff) direction := "ASC" if !ascending { direction = "DESC" } var queryBuf strings.Builder args := make([]interface{}, 0, 6) fmt.Fprintf(&queryBuf, "SELECT history.data from history INNER JOIN %[1]s ON history.id = %[1]s.history_id WHERE", table) if useSequence { fmt.Fprintf(&queryBuf, " sequence.target = ?") args = append(args, target) } else { fmt.Fprintf(&queryBuf, " conversations.target = ? AND conversations.correspondent = ?") args = append(args, target) args = append(args, correspondent) } if !after.IsZero() { fmt.Fprintf(&queryBuf, " AND %s.nanotime > ?", table) args = append(args, after.UnixNano()) } if !before.IsZero() { fmt.Fprintf(&queryBuf, " AND %s.nanotime < ?", table) args = append(args, before.UnixNano()) } fmt.Fprintf(&queryBuf, " ORDER BY %[1]s.nanotime %[2]s LIMIT ?;", table, direction) args = append(args, limit) results, err = mysql.selectItems(ctx, queryBuf.String(), args...) if err == nil && !ascending { history.Reverse(results) } return } func (mysql *MySQL) listCorrespondentsInternal(ctx context.Context, target string, after, before, cutoff time.Time, limit int) (results []history.CorrespondentListing, err error) { after, before, ascending := history.MinMaxAsc(after, before, cutoff) direction := "ASC" if !ascending { direction = "DESC" } var queryBuf strings.Builder args := make([]interface{}, 0, 4) queryBuf.WriteString(`SELECT correspondents.correspondent, correspondents.nanotime from correspondents WHERE target = ?`) args = append(args, target) if !after.IsZero() { queryBuf.WriteString(" AND correspondents.nanotime > ?") args = append(args, after.UnixNano()) } if !before.IsZero() { queryBuf.WriteString(" AND correspondents.nanotime < ?") args = append(args, before.UnixNano()) } fmt.Fprintf(&queryBuf, " ORDER BY correspondents.nanotime %s LIMIT ?;", direction) args = append(args, limit) query := queryBuf.String() rows, err := mysql.db.QueryContext(ctx, query, args...) if err != nil { return } defer rows.Close() var correspondent string var nanotime int64 for rows.Next() { err = rows.Scan(&correspondent, &nanotime) if err != nil { return } results = append(results, history.CorrespondentListing{ CfCorrespondent: correspondent, Time: time.Unix(0, nanotime), }) } if !ascending { history.ReverseCorrespondents(results) } return } func (mysql *MySQL) Close() { // closing the database will close our prepared statements as well if mysql.db != nil { mysql.db.Close() } mysql.db = nil } // implements history.Sequence, emulating a single history buffer (for a channel, // a single user's DMs, or a DM conversation) type mySQLHistorySequence struct { mysql *MySQL target string correspondent string cutoff time.Time } func (s *mySQLHistorySequence) Between(start, end history.Selector, limit int) (results []history.Item, err error) { ctx, cancel := context.WithTimeout(context.Background(), s.mysql.getTimeout()) defer cancel() startTime := start.Time if start.Msgid != "" { startTime, _, _, err = s.mysql.lookupMsgid(ctx, start.Msgid, false) if err != nil { return nil, err } } endTime := end.Time if end.Msgid != "" { endTime, _, _, err = s.mysql.lookupMsgid(ctx, end.Msgid, false) if err != nil { return nil, err } } results, err = s.mysql.betweenTimestamps(ctx, s.target, s.correspondent, startTime, endTime, s.cutoff, limit) return results, err } func (s *mySQLHistorySequence) Around(start history.Selector, limit int) (results []history.Item, err error) { return history.GenericAround(s, start, limit) } func (seq *mySQLHistorySequence) ListCorrespondents(start, end history.Selector, limit int) (results []history.CorrespondentListing, err error) { ctx, cancel := context.WithTimeout(context.Background(), seq.mysql.getTimeout()) defer cancel() // TODO accept msgids here? startTime := start.Time endTime := end.Time results, err = seq.mysql.listCorrespondentsInternal(ctx, seq.target, startTime, endTime, seq.cutoff, limit) seq.mysql.logError("could not read correspondents", err) return } func (mysql *MySQL) MakeSequence(target, correspondent string, cutoff time.Time) history.Sequence { return &mySQLHistorySequence{ target: target, correspondent: correspondent, mysql: mysql, cutoff: cutoff, } }