package rpl import ( "encoding/binary" "github.com/siddontang/go/log" "github.com/siddontang/go/snappy" "github.com/siddontang/ledisdb/config" "os" "path" "sync" "time" ) type Stat struct { FirstID uint64 LastID uint64 CommitID uint64 } type Replication struct { m sync.Mutex cfg *config.Config s LogStore commitID uint64 commitLog *os.File quit chan struct{} wg sync.WaitGroup nc chan struct{} ncm sync.Mutex } func NewReplication(cfg *config.Config) (*Replication, error) { if len(cfg.Replication.Path) == 0 { cfg.Replication.Path = path.Join(cfg.DataDir, "rpl") } base := cfg.Replication.Path r := new(Replication) r.quit = make(chan struct{}) r.nc = make(chan struct{}) r.cfg = cfg var err error switch cfg.Replication.StoreName { case "goleveldb": if r.s, err = NewGoLevelDBStore(path.Join(base, "wal"), cfg.Replication.SyncLog); err != nil { return nil, err } default: if r.s, err = NewFileStore(path.Join(base, "ldb"), cfg); err != nil { return nil, err } } if r.commitLog, err = os.OpenFile(path.Join(base, "commit.log"), os.O_RDWR|os.O_CREATE, 0644); err != nil { return nil, err } if s, _ := r.commitLog.Stat(); s.Size() == 0 { r.commitID = 0 } else if err = binary.Read(r.commitLog, binary.BigEndian, &r.commitID); err != nil { return nil, err } r.wg.Add(1) go r.run() return r, nil } func (r *Replication) Close() error { close(r.quit) r.wg.Wait() r.m.Lock() defer r.m.Unlock() if r.s != nil { r.s.Close() r.s = nil } if err := r.updateCommitID(r.commitID, true); err != nil { log.Error("update commit id err %s", err.Error()) } if r.commitLog != nil { r.commitLog.Close() r.commitLog = nil } return nil } func (r *Replication) Log(data []byte) (*Log, error) { if r.cfg.Replication.Compression { //todo optimize var err error if data, err = snappy.Encode(nil, data); err != nil { return nil, err } } r.m.Lock() defer r.m.Unlock() lastID, err := r.s.LastID() if err != nil { return nil, err } commitId := r.commitID if lastID < commitId { lastID = commitId } else if lastID > commitId { return nil, ErrCommitIDBehind } l := new(Log) l.ID = lastID + 1 l.CreateTime = uint32(time.Now().Unix()) if r.cfg.Replication.Compression { l.Compression = 1 } else { l.Compression = 0 } l.Data = data if err = r.s.StoreLog(l); err != nil { return nil, err } r.ncm.Lock() close(r.nc) r.nc = make(chan struct{}) r.ncm.Unlock() return l, nil } func (r *Replication) WaitLog() <-chan struct{} { r.ncm.Lock() ch := r.nc r.ncm.Unlock() return ch } func (r *Replication) StoreLog(log *Log) error { r.m.Lock() defer r.m.Unlock() return r.s.StoreLog(log) } func (r *Replication) FirstLogID() (uint64, error) { r.m.Lock() defer r.m.Unlock() id, err := r.s.FirstID() return id, err } func (r *Replication) LastLogID() (uint64, error) { r.m.Lock() defer r.m.Unlock() id, err := r.s.LastID() return id, err } func (r *Replication) LastCommitID() (uint64, error) { r.m.Lock() id := r.commitID r.m.Unlock() return id, nil } func (r *Replication) UpdateCommitID(id uint64) error { r.m.Lock() defer r.m.Unlock() return r.updateCommitID(id, r.cfg.Replication.SyncLog == 2) } func (r *Replication) Stat() (*Stat, error) { r.m.Lock() defer r.m.Unlock() s := &Stat{} var err error if s.FirstID, err = r.s.FirstID(); err != nil { return nil, err } if s.LastID, err = r.s.LastID(); err != nil { return nil, err } s.CommitID = r.commitID return s, nil } func (r *Replication) updateCommitID(id uint64, force bool) error { if force { if _, err := r.commitLog.Seek(0, os.SEEK_SET); err != nil { return err } if err := binary.Write(r.commitLog, binary.BigEndian, id); err != nil { return err } } r.commitID = id return nil } func (r *Replication) CommitIDBehind() (bool, error) { r.m.Lock() defer r.m.Unlock() id, err := r.s.LastID() if err != nil { return false, err } return id > r.commitID, nil } func (r *Replication) GetLog(id uint64, log *Log) error { return r.s.GetLog(id, log) } func (r *Replication) NextNeedCommitLog(log *Log) error { r.m.Lock() defer r.m.Unlock() id, err := r.s.LastID() if err != nil { return err } if id <= r.commitID { return ErrNoBehindLog } return r.s.GetLog(r.commitID+1, log) } func (r *Replication) Clear() error { return r.ClearWithCommitID(0) } func (r *Replication) ClearWithCommitID(id uint64) error { r.m.Lock() defer r.m.Unlock() if err := r.s.Clear(); err != nil { return err } return r.updateCommitID(id, true) } func (r *Replication) run() { defer r.wg.Done() syncTc := time.NewTicker(1 * time.Second) purgeTc := time.NewTicker(1 * time.Hour) for { select { case <-purgeTc.C: n := (r.cfg.Replication.ExpiredLogDays * 24 * 3600) r.m.Lock() err := r.s.PurgeExpired(int64(n)) r.m.Unlock() if err != nil { log.Error("purge expired log error %s", err.Error()) } case <-syncTc.C: if r.cfg.Replication.SyncLog == 1 { r.m.Lock() err := r.s.Sync() r.m.Unlock() if err != nil { log.Error("sync store error %s", err.Error()) } } if r.cfg.Replication.SyncLog != 2 { //we will sync commit id every 1 second r.m.Lock() err := r.updateCommitID(r.commitID, true) r.m.Unlock() if err != nil { log.Error("sync commitid error %s", err.Error()) } } case <-r.quit: syncTc.Stop() purgeTc.Stop() return } } }