package ledis import ( "container/list" "encoding/binary" "errors" "github.com/siddontang/go/hack" "github.com/siddontang/ledisdb/store" "sync" "time" ) const ( listHeadSeq int32 = 1 listTailSeq int32 = 2 listMinSeq int32 = 1000 listMaxSeq int32 = 1<<31 - 1000 listInitialSeq int32 = listMinSeq + (listMaxSeq-listMinSeq)/2 ) var errLMetaKey = errors.New("invalid lmeta key") var errListKey = errors.New("invalid list key") var errListSeq = errors.New("invalid list sequence, overflow") func (db *DB) lEncodeMetaKey(key []byte) []byte { buf := make([]byte, len(key)+1+len(db.indexVarBuf)) pos := copy(buf, db.indexVarBuf) buf[pos] = LMetaType pos++ copy(buf[pos:], key) return buf } func (db *DB) lDecodeMetaKey(ek []byte) ([]byte, error) { pos, err := db.checkKeyIndex(ek) if err != nil { return nil, err } if pos+1 > len(ek) || ek[pos] != LMetaType { return nil, errLMetaKey } pos++ return ek[pos:], nil } func (db *DB) lEncodeListKey(key []byte, seq int32) []byte { buf := make([]byte, len(key)+7+len(db.indexVarBuf)) pos := copy(buf, db.indexVarBuf) buf[pos] = ListType pos++ binary.BigEndian.PutUint16(buf[pos:], uint16(len(key))) pos += 2 copy(buf[pos:], key) pos += len(key) binary.BigEndian.PutUint32(buf[pos:], uint32(seq)) return buf } func (db *DB) lDecodeListKey(ek []byte) (key []byte, seq int32, err error) { pos := 0 pos, err = db.checkKeyIndex(ek) if err != nil { return } if pos+1 > len(ek) || ek[pos] != ListType { err = errListKey return } pos++ if pos+2 > len(ek) { err = errListKey return } keyLen := int(binary.BigEndian.Uint16(ek[pos:])) pos += 2 if keyLen+pos+4 != len(ek) { err = errListKey return } key = ek[pos : pos+keyLen] seq = int32(binary.BigEndian.Uint32(ek[pos+keyLen:])) return } func (db *DB) lpush(key []byte, whereSeq int32, args ...[]byte) (int64, error) { if err := checkKeySize(key); err != nil { return 0, err } var headSeq int32 var tailSeq int32 var size int32 var err error t := db.listBatch t.Lock() defer t.Unlock() metaKey := db.lEncodeMetaKey(key) headSeq, tailSeq, size, err = db.lGetMeta(nil, metaKey) if err != nil { return 0, err } var pushCnt int = len(args) if pushCnt == 0 { return int64(size), nil } var seq int32 = headSeq var delta int32 = -1 if whereSeq == listTailSeq { seq = tailSeq delta = 1 } // append elements if size > 0 { seq += delta } for i := 0; i < pushCnt; i++ { ek := db.lEncodeListKey(key, seq+int32(i)*delta) t.Put(ek, args[i]) } seq += int32(pushCnt-1) * delta if seq <= listMinSeq || seq >= listMaxSeq { return 0, errListSeq } // set meta info if whereSeq == listHeadSeq { headSeq = seq } else { tailSeq = seq } db.lSetMeta(metaKey, headSeq, tailSeq) err = t.Commit() if err == nil { db.lSignalAsReady(key, pushCnt) } return int64(size) + int64(pushCnt), err } func (db *DB) lpop(key []byte, whereSeq int32) ([]byte, error) { if err := checkKeySize(key); err != nil { return nil, err } t := db.listBatch t.Lock() defer t.Unlock() var headSeq int32 var tailSeq int32 var err error metaKey := db.lEncodeMetaKey(key) headSeq, tailSeq, _, err = db.lGetMeta(nil, metaKey) if err != nil { return nil, err } var value []byte var seq int32 = headSeq if whereSeq == listTailSeq { seq = tailSeq } itemKey := db.lEncodeListKey(key, seq) value, err = db.bucket.Get(itemKey) if err != nil { return nil, err } if whereSeq == listHeadSeq { headSeq += 1 } else { tailSeq -= 1 } t.Delete(itemKey) size := db.lSetMeta(metaKey, headSeq, tailSeq) if size == 0 { db.rmExpire(t, HashType, key) } err = t.Commit() return value, err } // ps : here just focus on deleting the list data, // any other likes expire is ignore. func (db *DB) lDelete(t *batch, key []byte) int64 { mk := db.lEncodeMetaKey(key) var headSeq int32 var tailSeq int32 var err error it := db.bucket.NewIterator() defer it.Close() headSeq, tailSeq, _, err = db.lGetMeta(it, mk) if err != nil { return 0 } var num int64 = 0 startKey := db.lEncodeListKey(key, headSeq) stopKey := db.lEncodeListKey(key, tailSeq) rit := store.NewRangeIterator(it, &store.Range{startKey, stopKey, store.RangeClose}) for ; rit.Valid(); rit.Next() { t.Delete(rit.RawKey()) num++ } t.Delete(mk) return num } func (db *DB) lGetMeta(it *store.Iterator, ek []byte) (headSeq int32, tailSeq int32, size int32, err error) { var v []byte if it != nil { v = it.Find(ek) } else { v, err = db.bucket.Get(ek) } if err != nil { return } else if v == nil { headSeq = listInitialSeq tailSeq = listInitialSeq size = 0 return } else { headSeq = int32(binary.LittleEndian.Uint32(v[0:4])) tailSeq = int32(binary.LittleEndian.Uint32(v[4:8])) size = tailSeq - headSeq + 1 } return } func (db *DB) lSetMeta(ek []byte, headSeq int32, tailSeq int32) int32 { t := db.listBatch var size int32 = tailSeq - headSeq + 1 if size < 0 { // todo : log error + panic } else if size == 0 { t.Delete(ek) } else { buf := make([]byte, 8) binary.LittleEndian.PutUint32(buf[0:4], uint32(headSeq)) binary.LittleEndian.PutUint32(buf[4:8], uint32(tailSeq)) t.Put(ek, buf) } return size } func (db *DB) lExpireAt(key []byte, when int64) (int64, error) { t := db.listBatch t.Lock() defer t.Unlock() if llen, err := db.LLen(key); err != nil || llen == 0 { return 0, err } else { db.expireAt(t, ListType, key, when) if err := t.Commit(); err != nil { return 0, err } } return 1, nil } func (db *DB) LIndex(key []byte, index int32) ([]byte, error) { if err := checkKeySize(key); err != nil { return nil, err } var seq int32 var headSeq int32 var tailSeq int32 var err error metaKey := db.lEncodeMetaKey(key) it := db.bucket.NewIterator() defer it.Close() headSeq, tailSeq, _, err = db.lGetMeta(it, metaKey) if err != nil { return nil, err } if index >= 0 { seq = headSeq + index } else { seq = tailSeq + index + 1 } sk := db.lEncodeListKey(key, seq) v := it.Find(sk) return v, nil } func (db *DB) LLen(key []byte) (int64, error) { if err := checkKeySize(key); err != nil { return 0, err } ek := db.lEncodeMetaKey(key) _, _, size, err := db.lGetMeta(nil, ek) return int64(size), err } func (db *DB) LPop(key []byte) ([]byte, error) { return db.lpop(key, listHeadSeq) } func (db *DB) LPush(key []byte, args ...[]byte) (int64, error) { return db.lpush(key, listHeadSeq, args...) } func (db *DB) LRange(key []byte, start int32, stop int32) ([][]byte, error) { if err := checkKeySize(key); err != nil { return nil, err } var headSeq int32 var llen int32 var err error metaKey := db.lEncodeMetaKey(key) it := db.bucket.NewIterator() defer it.Close() if headSeq, _, llen, err = db.lGetMeta(it, metaKey); err != nil { return nil, err } if start < 0 { start = llen + start } if stop < 0 { stop = llen + stop } if start < 0 { start = 0 } if start > stop || start >= llen { return [][]byte{}, nil } if stop >= llen { stop = llen - 1 } limit := (stop - start) + 1 headSeq += start v := make([][]byte, 0, limit) startKey := db.lEncodeListKey(key, headSeq) rit := store.NewRangeLimitIterator(it, &store.Range{ Min: startKey, Max: nil, Type: store.RangeClose}, &store.Limit{ Offset: 0, Count: int(limit)}) for ; rit.Valid(); rit.Next() { v = append(v, rit.Value()) } return v, nil } func (db *DB) RPop(key []byte) ([]byte, error) { return db.lpop(key, listTailSeq) } func (db *DB) RPush(key []byte, args ...[]byte) (int64, error) { return db.lpush(key, listTailSeq, args...) } func (db *DB) LClear(key []byte) (int64, error) { if err := checkKeySize(key); err != nil { return 0, err } t := db.listBatch t.Lock() defer t.Unlock() num := db.lDelete(t, key) db.rmExpire(t, ListType, key) err := t.Commit() return num, err } func (db *DB) LMclear(keys ...[]byte) (int64, error) { t := db.listBatch t.Lock() defer t.Unlock() for _, key := range keys { if err := checkKeySize(key); err != nil { return 0, err } db.lDelete(t, key) db.rmExpire(t, ListType, key) } err := t.Commit() return int64(len(keys)), err } func (db *DB) lFlush() (drop int64, err error) { t := db.listBatch t.Lock() defer t.Unlock() return db.flushType(t, ListType) } func (db *DB) LExpire(key []byte, duration int64) (int64, error) { if duration <= 0 { return 0, errExpireValue } return db.lExpireAt(key, time.Now().Unix()+duration) } func (db *DB) LExpireAt(key []byte, when int64) (int64, error) { if when <= time.Now().Unix() { return 0, errExpireValue } return db.lExpireAt(key, when) } func (db *DB) LTTL(key []byte) (int64, error) { if err := checkKeySize(key); err != nil { return -1, err } return db.ttl(ListType, key) } func (db *DB) LPersist(key []byte) (int64, error) { if err := checkKeySize(key); err != nil { return 0, err } t := db.listBatch t.Lock() defer t.Unlock() n, err := db.rmExpire(t, ListType, key) if err != nil { return 0, err } err = t.Commit() return n, err } func (db *DB) lEncodeMinKey() []byte { return db.lEncodeMetaKey(nil) } func (db *DB) lEncodeMaxKey() []byte { ek := db.lEncodeMetaKey(nil) ek[len(ek)-1] = LMetaType + 1 return ek } func (db *DB) BLPop(keys [][]byte, timeout time.Duration) ([]interface{}, error) { return db.lblockPop(keys, listHeadSeq, timeout) } func (db *DB) BRPop(keys [][]byte, timeout time.Duration) ([]interface{}, error) { return db.lblockPop(keys, listTailSeq, timeout) } func (db *DB) LKeyExists(key []byte) (int64, error) { if err := checkKeySize(key); err != nil { return 0, err } sk := db.lEncodeMetaKey(key) v, err := db.bucket.Get(sk) if v != nil && err == nil { return 1, nil } return 0, err } func (db *DB) lblockPop(keys [][]byte, whereSeq int32, timeout time.Duration) ([]interface{}, error) { ch := make(chan []byte) bkeys := [][]byte{} for _, key := range keys { v, err := db.lpop(key, whereSeq) if err != nil { return nil, err } else if v != nil { return []interface{}{key, v}, nil } else { db.lbkeys.wait(key, ch) bkeys = append(bkeys, key) } } if len(bkeys) == 0 { return nil, nil } defer func() { for _, key := range bkeys { db.lbkeys.unwait(key, ch) } }() deadT := time.Now().Add(timeout) for { if timeout == 0 { key := <-ch if v, err := db.lpop(key, whereSeq); err != nil { return nil, err } else if v == nil { continue } else { return []interface{}{key, v}, nil } } else { d := deadT.Sub(time.Now()) if d < 0 { return nil, nil } select { case key := <-ch: if v, err := db.lpop(key, whereSeq); err != nil { return nil, err } else if v == nil { db.lbkeys.wait(key, ch) continue } else { return []interface{}{key, v}, nil } case <-time.After(d): return nil, nil } } } } func (db *DB) lSignalAsReady(key []byte, num int) { db.lbkeys.signal(key, num) } type lbKeyCh chan<- []byte type lBlockKeys struct { sync.Mutex keys map[string]*list.List } func newLBlockKeys() *lBlockKeys { l := new(lBlockKeys) l.keys = make(map[string]*list.List) return l } func (l *lBlockKeys) signal(key []byte, num int) { l.Lock() defer l.Unlock() s := hack.String(key) chs, ok := l.keys[s] if !ok { return } var n *list.Element i := 0 for e := chs.Front(); e != nil && i < num; e = n { ch := e.Value.(lbKeyCh) n = e.Next() select { case ch <- key: chs.Remove(e) i++ default: //waiter unwait chs.Remove(e) } } if chs.Len() == 0 { delete(l.keys, s) } } func (l *lBlockKeys) wait(key []byte, ch lbKeyCh) { l.Lock() defer l.Unlock() s := hack.String(key) chs, ok := l.keys[s] if !ok { chs = list.New() l.keys[s] = chs } chs.PushBack(ch) } func (l *lBlockKeys) unwait(key []byte, ch lbKeyCh) { l.Lock() defer l.Unlock() s := hack.String(key) chs, ok := l.keys[s] if !ok { return } else { var n *list.Element for e := chs.Front(); e != nil; e = n { c := e.Value.(lbKeyCh) n = e.Next() if c == ch { chs.Remove(e) } } if chs.Len() == 0 { delete(l.keys, s) } } }