package ledis import ( "encoding/binary" "errors" "github.com/siddontang/ledisdb/leveldb" "time" ) var ( errExpMetaKey = errors.New("invalid expire meta key") errExpTimeKey = errors.New("invalid expire time key") ) type retireCallback func(*tx, []byte) int64 type elimination struct { db *DB exp2Tx []*tx exp2Retire []retireCallback } var errExpType = errors.New("invalid expire type") func (db *DB) expEncodeTimeKey(dataType byte, key []byte, when int64) []byte { buf := make([]byte, len(key)+11) buf[0] = db.index buf[1] = expTimeType buf[2] = dataType pos := 3 binary.BigEndian.PutUint64(buf[pos:], uint64(when)) pos += 8 copy(buf[pos:], key) return buf } func (db *DB) expEncodeMetaKey(dataType byte, key []byte) []byte { buf := make([]byte, len(key)+3) buf[0] = db.index buf[1] = expMetaType buf[2] = dataType pos := 3 copy(buf[pos:], key) return buf } func (db *DB) expDecodeMetaKey(mk []byte) (byte, []byte, error) { if len(mk) <= 3 || mk[0] != db.index || mk[1] != expMetaType { return 0, nil, errExpMetaKey } return mk[2], mk[3:], nil } func (db *DB) expDecodeTimeKey(tk []byte) (byte, []byte, int64, error) { if len(tk) < 11 || tk[0] != db.index || tk[1] != expTimeType { return 0, nil, 0, errExpTimeKey } return tk[2], tk[11:], int64(binary.BigEndian.Uint64(tk[3:])), nil } func (db *DB) expire(t *tx, dataType byte, key []byte, duration int64) { db.expireAt(t, dataType, key, time.Now().Unix()+duration) } func (db *DB) expireAt(t *tx, dataType byte, key []byte, when int64) { mk := db.expEncodeMetaKey(dataType, key) tk := db.expEncodeTimeKey(dataType, key, when) t.Put(tk, mk) t.Put(mk, PutInt64(when)) } func (db *DB) ttl(dataType byte, key []byte) (t int64, err error) { mk := db.expEncodeMetaKey(dataType, key) if t, err = Int64(db.db.Get(mk)); err != nil || t == 0 { t = -1 } else { t -= time.Now().Unix() if t <= 0 { t = -1 } // if t == -1 : to remove ???? } return t, err } func (db *DB) rmExpire(t *tx, dataType byte, key []byte) (int64, error) { mk := db.expEncodeMetaKey(dataType, key) if v, err := db.db.Get(mk); err != nil { return 0, err } else if v == nil { return 0, nil } else if when, err2 := Int64(v, nil); err2 != nil { return 0, err2 } else { tk := db.expEncodeTimeKey(dataType, key, when) t.Delete(mk) t.Delete(tk) return 1, nil } } func (db *DB) expFlush(t *tx, dataType byte) (err error) { minKey := make([]byte, 3) minKey[0] = db.index minKey[1] = expTimeType minKey[2] = dataType maxKey := make([]byte, 3) maxKey[0] = db.index maxKey[1] = expMetaType maxKey[2] = dataType + 1 _, err = db.flushRegion(t, minKey, maxKey) err = t.Commit() return } ////////////////////////////////////////////////////////// // ////////////////////////////////////////////////////////// func newEliminator(db *DB) *elimination { eli := new(elimination) eli.db = db eli.exp2Tx = make([]*tx, maxDataType) eli.exp2Retire = make([]retireCallback, maxDataType) return eli } func (eli *elimination) regRetireContext(dataType byte, t *tx, onRetire retireCallback) { // todo .. need to ensure exist - mapExpMetaType[expType] eli.exp2Tx[dataType] = t eli.exp2Retire[dataType] = onRetire } // call by outside ... (from *db to another *db) func (eli *elimination) active() { now := time.Now().Unix() db := eli.db dbGet := db.db.Get minKey := db.expEncodeTimeKey(noneType, nil, 0) maxKey := db.expEncodeTimeKey(maxDataType, nil, now) it := db.db.RangeLimitIterator(minKey, maxKey, leveldb.RangeROpen, 0, -1) for ; it.Valid(); it.Next() { tk := it.RawKey() mk := it.RawValue() dt, k, _, err := db.expDecodeTimeKey(tk) if err != nil { continue } t := eli.exp2Tx[dt] onRetire := eli.exp2Retire[dt] if tk == nil || onRetire == nil { continue } t.Lock() if exp, err := Int64(dbGet(mk)); err == nil { // check expire again if exp <= now { onRetire(t, k) t.Delete(tk) t.Delete(mk) t.Commit() } } t.Unlock() } it.Close() return }