package dao import ( "bytes" "context" "encoding/binary" "errors" "fmt" iocore "io" "github.com/nspcc-dev/neo-go/pkg/core/block" "github.com/nspcc-dev/neo-go/pkg/core/state" "github.com/nspcc-dev/neo-go/pkg/core/storage" "github.com/nspcc-dev/neo-go/pkg/core/transaction" "github.com/nspcc-dev/neo-go/pkg/io" "github.com/nspcc-dev/neo-go/pkg/smartcontract/trigger" "github.com/nspcc-dev/neo-go/pkg/util" "github.com/nspcc-dev/neo-go/pkg/util/slice" ) // HasTransaction errors. var ( // ErrAlreadyExists is returned when transaction exists in dao. ErrAlreadyExists = errors.New("transaction already exists") // ErrHasConflicts is returned when transaction is in the list of conflicting // transactions which are already in dao. ErrHasConflicts = errors.New("transaction has conflicts") ) // Simple is memCached wrapper around DB, simple DAO implementation. type Simple struct { Version Version Store *storage.MemCachedStore private bool keyBuf []byte dataBuf *io.BufBinWriter } // NewSimple creates new simple dao using provided backend store. func NewSimple(backend storage.Store, stateRootInHeader bool, p2pSigExtensions bool) *Simple { st := storage.NewMemCachedStore(backend) return newSimple(st, stateRootInHeader, p2pSigExtensions) } func newSimple(st *storage.MemCachedStore, stateRootInHeader bool, p2pSigExtensions bool) *Simple { return &Simple{ Version: Version{ StoragePrefix: storage.STStorage, StateRootInHeader: stateRootInHeader, P2PSigExtensions: p2pSigExtensions, }, Store: st, } } // GetBatch returns currently accumulated DB changeset. func (dao *Simple) GetBatch() *storage.MemBatch { return dao.Store.GetBatch() } // GetWrapped returns new DAO instance with another layer of wrapped // MemCachedStore around the current DAO Store. func (dao *Simple) GetWrapped() *Simple { d := NewSimple(dao.Store, dao.Version.StateRootInHeader, dao.Version.P2PSigExtensions) d.Version = dao.Version return d } // GetPrivate returns new DAO instance with another layer of private // MemCachedStore around the current DAO Store. func (dao *Simple) GetPrivate() *Simple { d := &Simple{} *d = *dao // Inherit everything... d.Store = storage.NewPrivateMemCachedStore(dao.Store) // except storage, wrap another layer. d.private = true return d } // GetAndDecode performs get operation and decoding with serializable structures. func (dao *Simple) GetAndDecode(entity io.Serializable, key []byte) error { entityBytes, err := dao.Store.Get(key) if err != nil { return err } reader := io.NewBinReaderFromBuf(entityBytes) entity.DecodeBinary(reader) return reader.Err } // putWithBuffer performs put operation using buf as a pre-allocated buffer for serialization. func (dao *Simple) putWithBuffer(entity io.Serializable, key []byte, buf *io.BufBinWriter) error { entity.EncodeBinary(buf.BinWriter) if buf.Err != nil { return buf.Err } dao.Store.Put(key, buf.Bytes()) return nil } func (dao *Simple) makeContractIDKey(id int32) []byte { key := dao.getKeyBuf(5) key[0] = byte(storage.STContractID) binary.BigEndian.PutUint32(key[1:], uint32(id)) return key } // DeleteContractID deletes contract's id to hash mapping. func (dao *Simple) DeleteContractID(id int32) { dao.Store.Delete(dao.makeContractIDKey(id)) } // PutContractID adds a mapping from contract's ID to its hash. func (dao *Simple) PutContractID(id int32, hash util.Uint160) { dao.Store.Put(dao.makeContractIDKey(id), hash.BytesBE()) } // GetContractScriptHash retrieves contract's hash given its ID. func (dao *Simple) GetContractScriptHash(id int32) (util.Uint160, error) { var data = new(util.Uint160) if err := dao.GetAndDecode(data, dao.makeContractIDKey(id)); err != nil { return *data, err } return *data, nil } // -- start NEP-17 transfer info. func (dao *Simple) makeTTIKey(acc util.Uint160) []byte { key := dao.getKeyBuf(1 + util.Uint160Size) key[0] = byte(storage.STTokenTransferInfo) copy(key[1:], acc.BytesBE()) return key } // GetTokenTransferInfo retrieves NEP-17 transfer info from the cache. func (dao *Simple) GetTokenTransferInfo(acc util.Uint160) (*state.TokenTransferInfo, error) { key := dao.makeTTIKey(acc) bs := state.NewTokenTransferInfo() err := dao.GetAndDecode(bs, key) if err != nil && err != storage.ErrKeyNotFound { return nil, err } return bs, nil } // PutTokenTransferInfo saves NEP-17 transfer info in the cache. func (dao *Simple) PutTokenTransferInfo(acc util.Uint160, bs *state.TokenTransferInfo) error { return dao.putTokenTransferInfo(acc, bs, dao.getDataBuf()) } func (dao *Simple) putTokenTransferInfo(acc util.Uint160, bs *state.TokenTransferInfo, buf *io.BufBinWriter) error { return dao.putWithBuffer(bs, dao.makeTTIKey(acc), buf) } // -- end NEP-17 transfer info. // -- start transfer log. func (dao *Simple) getTokenTransferLogKey(acc util.Uint160, newestTimestamp uint64, index uint32, isNEP11 bool) []byte { key := dao.getKeyBuf(1 + util.Uint160Size + 8 + 4) if isNEP11 { key[0] = byte(storage.STNEP11Transfers) } else { key[0] = byte(storage.STNEP17Transfers) } copy(key[1:], acc.BytesBE()) binary.BigEndian.PutUint64(key[1+util.Uint160Size:], newestTimestamp) binary.BigEndian.PutUint32(key[1+util.Uint160Size+8:], index) return key } // SeekNEP17TransferLog executes f for each NEP-17 transfer in log starting from // the transfer with the newest timestamp up to the oldest transfer. It continues // iteration until false is returned from f. The last non-nil error is returned. func (dao *Simple) SeekNEP17TransferLog(acc util.Uint160, newestTimestamp uint64, f func(*state.NEP17Transfer) (bool, error)) error { key := dao.getTokenTransferLogKey(acc, newestTimestamp, 0, false) prefixLen := 1 + util.Uint160Size var seekErr error dao.Store.Seek(storage.SeekRange{ Prefix: key[:prefixLen], Start: key[prefixLen : prefixLen+8], Backwards: true, }, func(k, v []byte) bool { lg := &state.TokenTransferLog{Raw: v} cont, err := lg.ForEachNEP17(f) if err != nil { seekErr = err } return cont }) return seekErr } // SeekNEP11TransferLog executes f for each NEP-11 transfer in log starting from // the transfer with the newest timestamp up to the oldest transfer. It continues // iteration until false is returned from f. The last non-nil error is returned. func (dao *Simple) SeekNEP11TransferLog(acc util.Uint160, newestTimestamp uint64, f func(*state.NEP11Transfer) (bool, error)) error { key := dao.getTokenTransferLogKey(acc, newestTimestamp, 0, true) prefixLen := 1 + util.Uint160Size var seekErr error dao.Store.Seek(storage.SeekRange{ Prefix: key[:prefixLen], Start: key[prefixLen : prefixLen+8], Backwards: true, }, func(k, v []byte) bool { lg := &state.TokenTransferLog{Raw: v} cont, err := lg.ForEachNEP11(f) if err != nil { seekErr = err } return cont }) return seekErr } // GetTokenTransferLog retrieves transfer log from the cache. func (dao *Simple) GetTokenTransferLog(acc util.Uint160, newestTimestamp uint64, index uint32, isNEP11 bool) (*state.TokenTransferLog, error) { key := dao.getTokenTransferLogKey(acc, newestTimestamp, index, isNEP11) value, err := dao.Store.Get(key) if err != nil { if err == storage.ErrKeyNotFound { return new(state.TokenTransferLog), nil } return nil, err } return &state.TokenTransferLog{Raw: value}, nil } // PutTokenTransferLog saves given transfer log in the cache. func (dao *Simple) PutTokenTransferLog(acc util.Uint160, start uint64, index uint32, isNEP11 bool, lg *state.TokenTransferLog) { key := dao.getTokenTransferLogKey(acc, start, index, isNEP11) dao.Store.Put(key, lg.Raw) } // -- end transfer log. // -- start notification event. func (dao *Simple) makeExecutableKey(hash util.Uint256) []byte { key := dao.getKeyBuf(1 + util.Uint256Size) key[0] = byte(storage.DataExecutable) copy(key[1:], hash.BytesBE()) return key } // GetAppExecResults gets application execution results with the specified trigger from the // given store. func (dao *Simple) GetAppExecResults(hash util.Uint256, trig trigger.Type) ([]state.AppExecResult, error) { key := dao.makeExecutableKey(hash) bs, err := dao.Store.Get(key) if err != nil { return nil, err } r := io.NewBinReaderFromBuf(bs) switch r.ReadB() { case storage.ExecBlock: _, err = block.NewTrimmedFromReader(dao.Version.StateRootInHeader, r) if err != nil { return nil, err } case storage.ExecTransaction: _ = r.ReadU32LE() tx := &transaction.Transaction{} tx.DecodeBinary(r) } if r.Err != nil { return nil, r.Err } result := make([]state.AppExecResult, 0, 2) for { aer := new(state.AppExecResult) aer.DecodeBinary(r) if r.Err != nil { if r.Err == iocore.EOF { break } return nil, r.Err } if aer.Trigger&trig != 0 { result = append(result, *aer) } } return result, nil } // -- end notification event. // -- start storage item. // GetStorageItem returns StorageItem if it exists in the given store. func (dao *Simple) GetStorageItem(id int32, key []byte) state.StorageItem { b, err := dao.Store.Get(dao.makeStorageItemKey(id, key)) if err != nil { return nil } return b } // PutStorageItem puts given StorageItem for given id with given // key into the given store. func (dao *Simple) PutStorageItem(id int32, key []byte, si state.StorageItem) { stKey := dao.makeStorageItemKey(id, key) dao.Store.Put(stKey, si) } // DeleteStorageItem drops storage item for the given id with the // given key from the store. func (dao *Simple) DeleteStorageItem(id int32, key []byte) { stKey := dao.makeStorageItemKey(id, key) dao.Store.Delete(stKey) } // GetStorageItems returns all storage items for a given id. func (dao *Simple) GetStorageItems(id int32) ([]state.StorageItemWithKey, error) { return dao.GetStorageItemsWithPrefix(id, nil) } // GetStorageItemsWithPrefix returns all storage items with given id for a // given scripthash. func (dao *Simple) GetStorageItemsWithPrefix(id int32, prefix []byte) ([]state.StorageItemWithKey, error) { var siArr []state.StorageItemWithKey saveToArr := func(k, v []byte) bool { // Cut prefix and hash. // #1468, but don't need to copy here, because it is done by Store. siArr = append(siArr, state.StorageItemWithKey{ Key: k, Item: state.StorageItem(v), }) return true } dao.Seek(id, storage.SeekRange{Prefix: prefix}, saveToArr) return siArr, nil } // Seek executes f for all storage items matching a given `rng` (matching given prefix and // starting from the point specified). If key or value is to be used outside of f, they // may not be copied. Seek continues iterating until false is returned from f. func (dao *Simple) Seek(id int32, rng storage.SeekRange, f func(k, v []byte) bool) { rng.Prefix = slice.Copy(dao.makeStorageItemKey(id, rng.Prefix)) // f() can use dao too. dao.Store.Seek(rng, func(k, v []byte) bool { return f(k[len(rng.Prefix):], v) }) } // SeekAsync sends all storage items matching a given `rng` (matching given prefix and // starting from the point specified) to a channel and returns the channel. // Resulting keys and values may not be copied. func (dao *Simple) SeekAsync(ctx context.Context, id int32, rng storage.SeekRange) chan storage.KeyValue { rng.Prefix = slice.Copy(dao.makeStorageItemKey(id, rng.Prefix)) return dao.Store.SeekAsync(ctx, rng, true) } // makeStorageItemKey returns a key used to store StorageItem in the DB. func (dao *Simple) makeStorageItemKey(id int32, key []byte) []byte { // 1 for prefix + 4 for Uint32 + len(key) for key buf := dao.getKeyBuf(5 + len(key)) buf[0] = byte(dao.Version.StoragePrefix) binary.LittleEndian.PutUint32(buf[1:], uint32(id)) copy(buf[5:], key) return buf } // -- end storage item. // -- other. // GetBlock returns Block by the given hash if it exists in the store. func (dao *Simple) GetBlock(hash util.Uint256) (*block.Block, error) { return dao.getBlock(dao.makeExecutableKey(hash)) } func (dao *Simple) getBlock(key []byte) (*block.Block, error) { b, err := dao.Store.Get(key) if err != nil { return nil, err } r := io.NewBinReaderFromBuf(b) if r.ReadB() != storage.ExecBlock { return nil, errors.New("internal DB inconsistency") } block, err := block.NewTrimmedFromReader(dao.Version.StateRootInHeader, r) if err != nil { return nil, err } return block, nil } // Version represents current dao version. type Version struct { StoragePrefix storage.KeyPrefix StateRootInHeader bool P2PSigExtensions bool P2PStateExchangeExtensions bool KeepOnlyLatestState bool Value string } const ( stateRootInHeaderBit = 1 << iota p2pSigExtensionsBit p2pStateExchangeExtensionsBit keepOnlyLatestStateBit ) // FromBytes decodes v from a byte-slice. func (v *Version) FromBytes(data []byte) error { if len(data) == 0 { return errors.New("missing version") } i := 0 for ; i < len(data) && data[i] != '\x00'; i++ { } if i == len(data) { v.Value = string(data) return nil } if len(data) != i+3 { return errors.New("version is invalid") } v.Value = string(data[:i]) v.StoragePrefix = storage.KeyPrefix(data[i+1]) v.StateRootInHeader = data[i+2]&stateRootInHeaderBit != 0 v.P2PSigExtensions = data[i+2]&p2pSigExtensionsBit != 0 v.P2PStateExchangeExtensions = data[i+2]&p2pStateExchangeExtensionsBit != 0 v.KeepOnlyLatestState = data[i+2]&keepOnlyLatestStateBit != 0 return nil } // Bytes encodes v to a byte-slice. func (v *Version) Bytes() []byte { var mask byte if v.StateRootInHeader { mask |= stateRootInHeaderBit } if v.P2PSigExtensions { mask |= p2pSigExtensionsBit } if v.P2PStateExchangeExtensions { mask |= p2pStateExchangeExtensionsBit } if v.KeepOnlyLatestState { mask |= keepOnlyLatestStateBit } return append([]byte(v.Value), '\x00', byte(v.StoragePrefix), mask) } func (dao *Simple) mkKeyPrefix(k storage.KeyPrefix) []byte { b := dao.getKeyBuf(1) b[0] = byte(k) return b } // GetVersion attempts to get the current version stored in the // underlying store. func (dao *Simple) GetVersion() (Version, error) { var version Version data, err := dao.Store.Get(dao.mkKeyPrefix(storage.SYSVersion)) if err == nil { err = version.FromBytes(data) } return version, err } // GetCurrentBlockHeight returns the current block height found in the // underlying store. func (dao *Simple) GetCurrentBlockHeight() (uint32, error) { b, err := dao.Store.Get(dao.mkKeyPrefix(storage.SYSCurrentBlock)) if err != nil { return 0, err } return binary.LittleEndian.Uint32(b[32:36]), nil } // GetCurrentHeaderHeight returns the current header height and hash from // the underlying store. func (dao *Simple) GetCurrentHeaderHeight() (i uint32, h util.Uint256, err error) { var b []byte b, err = dao.Store.Get(dao.mkKeyPrefix(storage.SYSCurrentHeader)) if err != nil { return } i = binary.LittleEndian.Uint32(b[32:36]) h, err = util.Uint256DecodeBytesLE(b[:32]) return } // GetStateSyncPoint returns current state synchronisation point P. func (dao *Simple) GetStateSyncPoint() (uint32, error) { b, err := dao.Store.Get(dao.mkKeyPrefix(storage.SYSStateSyncPoint)) if err != nil { return 0, err } return binary.LittleEndian.Uint32(b), nil } // GetStateSyncCurrentBlockHeight returns current block height stored during state // synchronisation process. func (dao *Simple) GetStateSyncCurrentBlockHeight() (uint32, error) { b, err := dao.Store.Get(dao.mkKeyPrefix(storage.SYSStateSyncCurrentBlockHeight)) if err != nil { return 0, err } return binary.LittleEndian.Uint32(b), nil } // GetHeaderHashes returns a sorted list of header hashes retrieved from // the given underlying store. func (dao *Simple) GetHeaderHashes() ([]util.Uint256, error) { var hashes = make([]util.Uint256, 0) var seekErr error dao.Store.Seek(storage.SeekRange{ Prefix: dao.mkKeyPrefix(storage.IXHeaderHashList), }, func(k, v []byte) bool { newHashes, err := read2000Uint256Hashes(v) if err != nil { seekErr = fmt.Errorf("failed to read batch of 2000 header hashes: %w", err) return false } hashes = append(hashes, newHashes...) return true }) return hashes, seekErr } // GetTransaction returns Transaction and its height by the given hash // if it exists in the store. It does not return dummy transactions. func (dao *Simple) GetTransaction(hash util.Uint256) (*transaction.Transaction, uint32, error) { key := dao.makeExecutableKey(hash) b, err := dao.Store.Get(key) if err != nil { return nil, 0, err } if len(b) < 6 { return nil, 0, errors.New("bad transaction bytes") } if b[0] != storage.ExecTransaction { return nil, 0, errors.New("internal DB inconsistency") } if b[5] == transaction.DummyVersion { return nil, 0, storage.ErrKeyNotFound } r := io.NewBinReaderFromBuf(b) _ = r.ReadB() var height = r.ReadU32LE() tx := &transaction.Transaction{} tx.DecodeBinary(r) if r.Err != nil { return nil, 0, r.Err } return tx, height, nil } // PutVersion stores the given version in the underlying store. func (dao *Simple) PutVersion(v Version) { dao.Version = v dao.Store.Put(dao.mkKeyPrefix(storage.SYSVersion), v.Bytes()) } // PutCurrentHeader stores current header. func (dao *Simple) PutCurrentHeader(h util.Uint256, index uint32) { buf := dao.getDataBuf() buf.WriteBytes(h.BytesLE()) buf.WriteU32LE(index) dao.Store.Put(dao.mkKeyPrefix(storage.SYSCurrentHeader), buf.Bytes()) } // PutStateSyncPoint stores current state synchronisation point P. func (dao *Simple) PutStateSyncPoint(p uint32) { buf := dao.getDataBuf() buf.WriteU32LE(p) dao.Store.Put(dao.mkKeyPrefix(storage.SYSStateSyncPoint), buf.Bytes()) } // PutStateSyncCurrentBlockHeight stores current block height during state synchronisation process. func (dao *Simple) PutStateSyncCurrentBlockHeight(h uint32) { buf := dao.getDataBuf() buf.WriteU32LE(h) dao.Store.Put(dao.mkKeyPrefix(storage.SYSStateSyncCurrentBlockHeight), buf.Bytes()) } // read2000Uint256Hashes attempts to read 2000 Uint256 hashes from // the given byte array. func read2000Uint256Hashes(b []byte) ([]util.Uint256, error) { r := bytes.NewReader(b) br := io.NewBinReaderFromIO(r) hashes := make([]util.Uint256, 0) br.ReadArray(&hashes) if br.Err != nil { return nil, br.Err } return hashes, nil } func (dao *Simple) mkHeaderHashKey(h uint32) []byte { b := dao.getKeyBuf(1 + 4) b[0] = byte(storage.IXHeaderHashList) binary.BigEndian.PutUint32(b[1:], h) return b } // StoreHeaderHashes pushes a batch of header hashes into the store. func (dao *Simple) StoreHeaderHashes(hashes []util.Uint256, height uint32) error { key := dao.mkHeaderHashKey(height) buf := dao.getDataBuf() buf.WriteArray(hashes) if buf.Err != nil { return buf.Err } dao.Store.Put(key, buf.Bytes()) return nil } // HasTransaction returns nil if the given store does not contain the given // Transaction hash. It returns an error in case if transaction is in chain // or in the list of conflicting transactions. func (dao *Simple) HasTransaction(hash util.Uint256) error { key := dao.makeExecutableKey(hash) bytes, err := dao.Store.Get(key) if err != nil { return nil } if len(bytes) < 6 { return nil } if bytes[5] == transaction.DummyVersion { return ErrHasConflicts } return ErrAlreadyExists } // StoreAsBlock stores given block as DataBlock. It can reuse given buffer for // the purpose of value serialization. func (dao *Simple) StoreAsBlock(block *block.Block, aer1 *state.AppExecResult, aer2 *state.AppExecResult) error { var ( key = dao.makeExecutableKey(block.Hash()) buf = dao.getDataBuf() ) buf.WriteB(storage.ExecBlock) b, err := block.Trim() if err != nil { return err } buf.WriteBytes(b) if aer1 != nil { aer1.EncodeBinary(buf.BinWriter) } if aer2 != nil { aer2.EncodeBinary(buf.BinWriter) } if buf.Err != nil { return buf.Err } dao.Store.Put(key, buf.Bytes()) return nil } // DeleteBlock removes block from dao. It's not atomic, so make sure you're // using private MemCached instance here. func (dao *Simple) DeleteBlock(h util.Uint256) error { key := dao.makeExecutableKey(h) b, err := dao.getBlock(key) if err != nil { return err } err = dao.storeHeader(key, &b.Header) if err != nil { return err } for _, tx := range b.Transactions { copy(key[1:], tx.Hash().BytesBE()) dao.Store.Delete(key) if dao.Version.P2PSigExtensions { for _, attr := range tx.GetAttributes(transaction.ConflictsT) { hash := attr.Value.(*transaction.Conflicts).Hash copy(key[1:], hash.BytesBE()) dao.Store.Delete(key) } } } return nil } // StoreHeader saves block header into the store. func (dao *Simple) StoreHeader(h *block.Header) error { return dao.storeHeader(dao.makeExecutableKey(h.Hash()), h) } func (dao *Simple) storeHeader(key []byte, h *block.Header) error { buf := dao.getDataBuf() buf.WriteB(storage.ExecBlock) h.EncodeBinary(buf.BinWriter) buf.BinWriter.WriteB(0) if buf.Err != nil { return buf.Err } dao.Store.Put(key, buf.Bytes()) return nil } // StoreAsCurrentBlock stores a hash of the given block with prefix // SYSCurrentBlock. It can reuse given buffer for the purpose of value // serialization. func (dao *Simple) StoreAsCurrentBlock(block *block.Block) { buf := dao.getDataBuf() h := block.Hash() h.EncodeBinary(buf.BinWriter) buf.WriteU32LE(block.Index) dao.Store.Put(dao.mkKeyPrefix(storage.SYSCurrentBlock), buf.Bytes()) } // StoreAsTransaction stores given TX as DataTransaction. It also stores transactions // given tx has conflicts with as DataTransaction with dummy version. It can reuse given // buffer for the purpose of value serialization. func (dao *Simple) StoreAsTransaction(tx *transaction.Transaction, index uint32, aer *state.AppExecResult) error { key := dao.makeExecutableKey(tx.Hash()) buf := dao.getDataBuf() buf.WriteB(storage.ExecTransaction) buf.WriteU32LE(index) tx.EncodeBinary(buf.BinWriter) if aer != nil { aer.EncodeBinary(buf.BinWriter) } if buf.Err != nil { return buf.Err } dao.Store.Put(key, buf.Bytes()) if dao.Version.P2PSigExtensions { var value []byte for _, attr := range tx.GetAttributes(transaction.ConflictsT) { hash := attr.Value.(*transaction.Conflicts).Hash copy(key[1:], hash.BytesBE()) if value == nil { buf.Reset() buf.WriteB(storage.ExecTransaction) buf.WriteU32LE(index) buf.BinWriter.WriteB(transaction.DummyVersion) value = buf.Bytes() } dao.Store.Put(key, value) } } return nil } func (dao *Simple) getKeyBuf(len int) []byte { if dao.private { if dao.keyBuf == nil { dao.keyBuf = make([]byte, 0, 1+4+storage.MaxStorageKeyLen) // Prefix, uint32, key. } return dao.keyBuf[:len] // Should have enough capacity. } return make([]byte, len) } func (dao *Simple) getDataBuf() *io.BufBinWriter { if dao.private { if dao.dataBuf == nil { dao.dataBuf = io.NewBufBinWriter() } dao.dataBuf.Reset() return dao.dataBuf } return io.NewBufBinWriter() } // Persist flushes all the changes made into the (supposedly) persistent // underlying store. It doesn't block accesses to DAO from other threads. func (dao *Simple) Persist() (int, error) { return dao.Store.Persist() } // PersistSync flushes all the changes made into the (supposedly) persistent // underlying store. It's a synchronous version of Persist that doesn't allow // other threads to work with DAO while flushing the Store. func (dao *Simple) PersistSync() (int, error) { return dao.Store.PersistSync() }