Exemplo n.º 1
0
func (op *ObjectPath) NsGroupStatusIndex(group_number uint32) []byte {
	return dbutil.BytesConcat([]byte{NsObjectGroupStatus}, op.BucketBytes(), dbutil.Uint32ToBytes(group_number))
}
Exemplo n.º 2
0
func (op *ObjectPath) NsLogCounterIndex(group_number uint32) []byte {
	return dbutil.BytesConcat([]byte{NsObjectLogCounter}, op.BucketBytes(), dbutil.Uint32ToBytes(group_number))
}
Exemplo n.º 3
0
func (op *ObjectPath) NsLogEntryIndex(group_number uint32, num uint64) []byte {
	return dbutil.BytesConcat([]byte{NsObjectLogEntry}, op.BucketBytes(), dbutil.Uint32ToBytes(group_number), dbutil.Uint64ToBytes(num))
}
Exemplo n.º 4
0
func (db *DB) ObjectDocSchemaSync(fold string, schema skv.ObjectDocSchema) *skv.Reply {

	_obj_doc_global_locker.Lock()
	defer _obj_doc_global_locker.Unlock()

	var (
		rpl  = skv.NewReply("")
		key  = skv.ObjectDocFoldKey(fold)
		prev skv.ObjectDocSchema
	)

	if len(schema.Indexes) > skv.ObjectDocSchemaMaxIndex {
		rpl.Status = skv.ReplyBadArgument
		return rpl
	}

	if rs := db.RawGet(skv.ObjectDocSchemaKey(key)); rs.Status == skv.ReplyOK {
		rs.JsonDecode(&prev)
	}

	for i, ei := range schema.Indexes {
		ei.Column = skv.ObjectDocIndexStringFilter(ei.Column)
		schema.Indexes[i] = ei
	}

	for _, pi := range prev.Indexes {

		removed, changed := true, false

		for j, ei := range schema.Indexes {

			if pi.Column == ei.Column {

				removed = false

				if pi.Type != ei.Type ||
					pi.Length != ei.Length ||
					pi.Unique != ei.Unique ||
					pi.AutoIncr != ei.AutoIncr {

					changed = true
				}

				ei.Seq = pi.Seq

				schema.Indexes[j] = ei

				break
			}
		}

		if removed || changed {

			objIdxKeyPrefix, limit := skv.ObjectDocIndexFieldPrefix(key, pi.Seq), 1000

			// fmt.Println("WARN CLEAN prev INDEXES", pi.Column)
			for {

				rs := db.RawScan(objIdxKeyPrefix, objIdxKeyPrefix, uint32(limit)).Hash()

				if len(rs) > 0 {
					batch := new(leveldb.Batch)

					for _, entry := range rs {
						batch.Delete(entry.Key)
					}

					db.ldb.Write(batch, nil)
				}

				if len(rs) < limit {
					break
				}
			}
		}
	}

	for i, ei := range schema.Indexes {

		reidx := true

		for _, pi := range prev.Indexes {

			if pi.Column == ei.Column {

				ei.Seq = pi.Seq

				schema.Indexes[i] = ei

				if pi.Type == ei.Type &&
					pi.Length == ei.Length &&
					pi.Unique == ei.Unique &&
					pi.AutoIncr == ei.AutoIncr &&
					pi.Seq > 0 {

					reidx = false
				}

				break
			}
		}

		//
		for _, ci := range schema.Indexes {

			if ei.Seq == ci.Seq && ei.Column != ci.Column {
				ei.Seq = 0
				schema.Indexes[i] = ei
				break
			}
		}

		if ei.Seq == 0 {

			reidx = true

			for j := uint8(1); j <= 255; j++ {

				dup := false

				for _, ci := range schema.Indexes {

					if j == ci.Seq && ei.Column != ci.Column {
						dup = true
						break
					}
				}

				if !dup {
					ei.Seq = j
					schema.Indexes[i] = ei
					break
				}
			}
		}

		if reidx && ei.Seq > 0 {

			// fmt.Println("WARN NEW INDEXES", ei.Column, ei.Seq)

			offset, limit := "", 1000

			for {

				rs := db.ObjectScan(fold, offset, "", uint32(limit)).ObjectList()

				batch := new(leveldb.Batch)

				for _, entry := range rs {

					var obj map[string]interface{}
					if err := entry.Data.JsonDecode(&obj); err == nil {

						for mk, mv := range obj {

							mk = skv.ObjectDocIndexStringFilter(mk)

							if mk != ei.Column {
								continue
							}

							if bs, ok := skv.ObjectDocIndexValue(&ei, reflect.ValueOf(mv)); ok {
								batch.Put(dbutil.BytesConcat(skv.ObjectDocIndexFieldPrefix(key, ei.Seq), bs, entry.Key), []byte{})
							}

							break
						}

						offset = dbutil.BytesToHexString(entry.Key)
					}
				}

				db.ldb.Write(batch, nil)

				if len(rs) < limit {
					break
				}
			}
		}
	}

	skey := string(key)

	rpl = db._raw_put_json(skv.ObjectDocSchemaKey(key), schema, 0)
	if rpl.Status == skv.ReplyOK {
		_obj_doc_indexes[skey] = schema
	}

	return rpl
}