package ledis import ( "encoding/json" "fmt" "github.com/siddontang/go-log/log" "github.com/siddontang/ledisdb/leveldb" "sync" "time" ) type DB struct { l *Ledis db *leveldb.DB index uint8 kvTx *tx listTx *tx hashTx *tx zsetTx *tx binTx *tx } type Ledis struct { sync.Mutex cfg *Config ldb *leveldb.DB dbs [MaxDBNumber]*DB binlog *BinLog quit chan struct{} jobs *sync.WaitGroup } func OpenWithJsonConfig(configJson json.RawMessage) (*Ledis, error) { var cfg Config if err := json.Unmarshal(configJson, &cfg); err != nil { return nil, err } return Open(&cfg) } func Open(cfg *Config) (*Ledis, error) { if len(cfg.DataDir) == 0 { return nil, fmt.Errorf("must set correct data_dir") } ldb, err := leveldb.Open(cfg.NewDBConfig()) if err != nil { return nil, err } l := new(Ledis) l.quit = make(chan struct{}) l.jobs = new(sync.WaitGroup) l.ldb = ldb if cfg.BinLog.Use { println("binlog will be refactored later, use your own risk!!!") l.binlog, err = NewBinLog(cfg.NewBinLogConfig()) if err != nil { return nil, err } } else { l.binlog = nil } for i := uint8(0); i < MaxDBNumber; i++ { l.dbs[i] = newDB(l, i) } l.activeExpireCycle() return l, nil } func newDB(l *Ledis, index uint8) *DB { d := new(DB) d.l = l d.db = l.ldb d.index = index d.kvTx = newTx(l) d.listTx = newTx(l) d.hashTx = newTx(l) d.zsetTx = newTx(l) d.binTx = newTx(l) return d } func (l *Ledis) Close() { close(l.quit) l.jobs.Wait() l.ldb.Close() if l.binlog != nil { l.binlog.Close() l.binlog = nil } } func (l *Ledis) Select(index int) (*DB, error) { if index < 0 || index >= int(MaxDBNumber) { return nil, fmt.Errorf("invalid db index %d", index) } return l.dbs[index], nil } func (l *Ledis) FlushAll() error { for index, db := range l.dbs { if _, err := db.FlushAll(); err != nil { log.Error("flush db %d error %s", index, err.Error()) } } return nil } // very dangerous to use func (l *Ledis) DataDB() *leveldb.DB { return l.ldb } func (l *Ledis) activeExpireCycle() { var executors []*elimination = make([]*elimination, len(l.dbs)) for i, db := range l.dbs { executors[i] = db.newEliminator() } l.jobs.Add(1) go func() { tick := time.NewTicker(1 * time.Second) end := false done := make(chan struct{}) for !end { select { case <-tick.C: go func() { for _, eli := range executors { eli.active() } done <- struct{}{} }() <-done case <-l.quit: end = true break } } tick.Stop() l.jobs.Done() }() }