package store import ( "github.com/siddontang/ledisdb/config" "github.com/siddontang/ledisdb/store/driver" "sync" "time" ) type DB struct { db driver.IDB name string st *Stat cfg *config.Config lastCommit time.Time m sync.Mutex } func (db *DB) Close() error { return db.db.Close() } func (db *DB) String() string { return db.name } func (db *DB) NewIterator() *Iterator { db.st.IterNum.Add(1) it := new(Iterator) it.it = db.db.NewIterator() it.st = db.st return it } func (db *DB) Get(key []byte) ([]byte, error) { v, err := db.db.Get(key) db.st.statGet(v, err) return v, err } func (db *DB) Put(key []byte, value []byte) error { db.st.PutNum.Add(1) if db.needSyncCommit() { return db.db.SyncPut(key, value) } else { return db.db.Put(key, value) } } func (db *DB) Delete(key []byte) error { db.st.DeleteNum.Add(1) if db.needSyncCommit() { return db.db.SyncDelete(key) } else { return db.db.Delete(key) } } func (db *DB) NewWriteBatch() *WriteBatch { db.st.BatchNum.Add(1) wb := new(WriteBatch) wb.wb = db.db.NewWriteBatch() wb.st = db.st wb.db = db return wb } func (db *DB) NewSnapshot() (*Snapshot, error) { db.st.SnapshotNum.Add(1) var err error s := &Snapshot{} if s.ISnapshot, err = db.db.NewSnapshot(); err != nil { return nil, err } s.st = db.st return s, nil } func (db *DB) Compact() error { db.st.CompactNum.Add(1) t := time.Now() err := db.db.Compact() db.st.CompactTotalTime.Add(time.Now().Sub(t)) return err } func (db *DB) RangeIterator(min []byte, max []byte, rangeType uint8) *RangeLimitIterator { return NewRangeLimitIterator(db.NewIterator(), &Range{min, max, rangeType}, &Limit{0, -1}) } func (db *DB) RevRangeIterator(min []byte, max []byte, rangeType uint8) *RangeLimitIterator { return NewRevRangeLimitIterator(db.NewIterator(), &Range{min, max, rangeType}, &Limit{0, -1}) } //count < 0, unlimit. // //offset must >= 0, if < 0, will get nothing. func (db *DB) RangeLimitIterator(min []byte, max []byte, rangeType uint8, offset int, count int) *RangeLimitIterator { return NewRangeLimitIterator(db.NewIterator(), &Range{min, max, rangeType}, &Limit{offset, count}) } //count < 0, unlimit. // //offset must >= 0, if < 0, will get nothing. func (db *DB) RevRangeLimitIterator(min []byte, max []byte, rangeType uint8, offset int, count int) *RangeLimitIterator { return NewRevRangeLimitIterator(db.NewIterator(), &Range{min, max, rangeType}, &Limit{offset, count}) } func (db *DB) Begin() (*Tx, error) { tx, err := db.db.Begin() if err != nil { return nil, err } db.st.TxNum.Add(1) return &Tx{tx, db.st}, nil } func (db *DB) Stat() *Stat { return db.st } func (db *DB) needSyncCommit() bool { if db.cfg.DBSyncCommit == 0 { return false } else if db.cfg.DBSyncCommit == 2 { return true } else { n := time.Now() need := false db.m.Lock() if n.Sub(db.lastCommit) > time.Second { need = true } db.lastCommit = n db.m.Unlock() return need } }