package ledis import ( "bytes" "errors" "github.com/siddontang/go/log" "github.com/siddontang/go/snappy" "github.com/siddontang/ledisdb/rpl" "github.com/siddontang/ledisdb/store" "io" "time" ) const ( maxReplLogSize = 1 * 1024 * 1024 ) var ( ErrLogMissed = errors.New("log is pured in server") ) func (l *Ledis) ReplicationUsed() bool { return l.r != nil } func (l *Ledis) handleReplication() error { l.wLock.Lock() defer l.wLock.Unlock() l.rwg.Add(1) rl := &rpl.Log{} var err error for { if err = l.r.NextNeedCommitLog(rl); err != nil { if err != rpl.ErrNoBehindLog { log.Error("get next commit log err, %s", err.Error) return err } else { l.rwg.Done() return nil } } else { l.rbatch.Rollback() if rl.Compression == 1 { //todo optimize if rl.Data, err = snappy.Decode(nil, rl.Data); err != nil { log.Error("decode log error %s", err.Error()) return err } } if bd, err := store.NewBatchData(rl.Data); err != nil { log.Error("decode batch log error %s", err.Error()) return err } else if err = bd.Replay(l.rbatch); err != nil { log.Error("replay batch log error %s", err.Error()) } l.commitLock.Lock() if err = l.rbatch.Commit(); err != nil { log.Error("commit log error %s", err.Error()) } else if err = l.r.UpdateCommitID(rl.ID); err != nil { log.Error("update commit id error %s", err.Error()) } l.commitLock.Unlock() if err != nil { return err } } } } func (l *Ledis) onReplication() { defer l.wg.Done() l.noticeReplication() for { select { case <-l.rc: l.handleReplication() case <-l.quit: return } } } func (l *Ledis) WaitReplication() error { if !l.ReplicationUsed() { return ErrRplNotSupport } l.noticeReplication() l.rwg.Wait() for i := 0; i < 100; i++ { b, err := l.r.CommitIDBehind() if err != nil { return err } else if b { l.noticeReplication() l.rwg.Wait() time.Sleep(100 * time.Millisecond) } else { return nil } } return errors.New("wait replication too many times") } func (l *Ledis) StoreLogsFromReader(rb io.Reader) error { if !l.ReplicationUsed() { return ErrRplNotSupport } else if !l.cfg.Readonly { return ErrRplInRDWR } log := &rpl.Log{} for { if err := log.Decode(rb); err != nil { if err == io.EOF { break } else { return err } } if err := l.r.StoreLog(log); err != nil { return err } } l.noticeReplication() return nil } func (l *Ledis) noticeReplication() { AsyncNotify(l.rc) } func (l *Ledis) StoreLogsFromData(data []byte) error { rb := bytes.NewReader(data) return l.StoreLogsFromReader(rb) } func (l *Ledis) ReadLogsTo(startLogID uint64, w io.Writer) (n int, nextLogID uint64, err error) { if !l.ReplicationUsed() { // no replication log nextLogID = 0 err = ErrRplNotSupport return } var firtID, lastID uint64 firtID, err = l.r.FirstLogID() if err != nil { return } if startLogID < firtID { err = ErrLogMissed return } lastID, err = l.r.LastLogID() if err != nil { return } nextLogID = startLogID log := &rpl.Log{} for i := startLogID; i <= lastID; i++ { if err = l.r.GetLog(i, log); err != nil { return } if err = log.Encode(w); err != nil { return } nextLogID = i + 1 n += log.Size() if n > maxReplLogSize { break } } return } // try to read events, if no events read, try to wait the new event singal until timeout seconds func (l *Ledis) ReadLogsToTimeout(startLogID uint64, w io.Writer, timeout int, quitCh chan struct{}) (n int, nextLogID uint64, err error) { n, nextLogID, err = l.ReadLogsTo(startLogID, w) if err != nil { return } else if n != 0 { return } //no events read select { case <-l.r.WaitLog(): case <-time.After(time.Duration(timeout) * time.Second): case <-quitCh: return } return l.ReadLogsTo(startLogID, w) } func (l *Ledis) propagate(rl *rpl.Log) { for _, h := range l.rhs { h(rl) } } type NewLogEventHandler func(rl *rpl.Log) func (l *Ledis) AddNewLogEventHandler(h NewLogEventHandler) error { if !l.ReplicationUsed() { return ErrRplNotSupport } l.rhs = append(l.rhs, h) return nil } func (l *Ledis) ReplicationStat() (*rpl.Stat, error) { if !l.ReplicationUsed() { return nil, ErrRplNotSupport } return l.r.Stat() }