package db import ( "encoding/binary" "fmt" "regexp" "strconv" dbm "github.com/tendermint/tm-db" tmsync "github.com/tendermint/tendermint/libs/sync" "github.com/tendermint/tendermint/light/store" tmproto "github.com/tendermint/tendermint/proto/tendermint/types" "github.com/tendermint/tendermint/types" ) var ( sizeKey = []byte("size") ) type dbs struct { db dbm.DB prefix string mtx tmsync.RWMutex size uint16 } // New returns a Store that wraps any DB (with an optional prefix in case you // want to use one DB with many light clients). func New(db dbm.DB, prefix string) store.Store { size := uint16(0) bz, err := db.Get(sizeKey) if err == nil && len(bz) > 0 { size = unmarshalSize(bz) } return &dbs{db: db, prefix: prefix, size: size} } // SaveLightBlock persists LightBlock to the db. // // Safe for concurrent use by multiple goroutines. func (s *dbs) SaveLightBlock(lb *types.LightBlock) error { if lb.Height <= 0 { panic("negative or zero height") } lbpb, err := lb.ToProto() if err != nil { return fmt.Errorf("unable to convert light block to protobuf: %w", err) } lbBz, err := lbpb.Marshal() if err != nil { return fmt.Errorf("marshalling LightBlock: %w", err) } s.mtx.Lock() defer s.mtx.Unlock() b := s.db.NewBatch() defer b.Close() if err = b.Set(s.lbKey(lb.Height), lbBz); err != nil { return err } if err = b.Set(sizeKey, marshalSize(s.size+1)); err != nil { return err } if err = b.WriteSync(); err != nil { return err } s.size++ return nil } // DeleteLightBlockAndValidatorSet deletes the LightBlock from // the db. // // Safe for concurrent use by multiple goroutines. func (s *dbs) DeleteLightBlock(height int64) error { if height <= 0 { panic("negative or zero height") } s.mtx.Lock() defer s.mtx.Unlock() b := s.db.NewBatch() defer b.Close() if err := b.Delete(s.lbKey(height)); err != nil { return err } if err := b.Set(sizeKey, marshalSize(s.size-1)); err != nil { return err } if err := b.WriteSync(); err != nil { return err } s.size-- return nil } // LightBlock retrieves the LightBlock at the given height. // // Safe for concurrent use by multiple goroutines. func (s *dbs) LightBlock(height int64) (*types.LightBlock, error) { if height <= 0 { panic("negative or zero height") } bz, err := s.db.Get(s.lbKey(height)) if err != nil { panic(err) } if len(bz) == 0 { return nil, store.ErrLightBlockNotFound } var lbpb tmproto.LightBlock err = lbpb.Unmarshal(bz) if err != nil { return nil, fmt.Errorf("unmarshal error: %w", err) } lightBlock, err := types.LightBlockFromProto(&lbpb) if err != nil { return nil, fmt.Errorf("proto conversion error: %w", err) } return lightBlock, err } // LastLightBlockHeight returns the last LightBlock height stored. // // Safe for concurrent use by multiple goroutines. func (s *dbs) LastLightBlockHeight() (int64, error) { itr, err := s.db.ReverseIterator( s.lbKey(1), append(s.lbKey(1<<63-1), byte(0x00)), ) if err != nil { panic(err) } defer itr.Close() for itr.Valid() { key := itr.Key() _, height, ok := parseLbKey(key) if ok { return height, nil } itr.Next() } return -1, itr.Error() } // FirstLightBlockHeight returns the first LightBlock height stored. // // Safe for concurrent use by multiple goroutines. func (s *dbs) FirstLightBlockHeight() (int64, error) { itr, err := s.db.Iterator( s.lbKey(1), append(s.lbKey(1<<63-1), byte(0x00)), ) if err != nil { panic(err) } defer itr.Close() for itr.Valid() { key := itr.Key() _, height, ok := parseLbKey(key) if ok { return height, nil } itr.Next() } return -1, itr.Error() } // LightBlockBefore iterates over light blocks until it finds a block before // the given height. It returns ErrLightBlockNotFound if no such block exists. // // Safe for concurrent use by multiple goroutines. func (s *dbs) LightBlockBefore(height int64) (*types.LightBlock, error) { if height <= 0 { panic("negative or zero height") } itr, err := s.db.ReverseIterator( s.lbKey(1), s.lbKey(height), ) if err != nil { panic(err) } defer itr.Close() for itr.Valid() { key := itr.Key() _, existingHeight, ok := parseLbKey(key) if ok { return s.LightBlock(existingHeight) } itr.Next() } if err = itr.Error(); err != nil { return nil, err } return nil, store.ErrLightBlockNotFound } // Prune prunes header & validator set pairs until there are only size pairs // left. // // Safe for concurrent use by multiple goroutines. func (s *dbs) Prune(size uint16) error { // 1) Check how many we need to prune. s.mtx.RLock() sSize := s.size s.mtx.RUnlock() if sSize <= size { // nothing to prune return nil } numToPrune := sSize - size // 2) Iterate over headers and perform a batch operation. itr, err := s.db.Iterator( s.lbKey(1), append(s.lbKey(1<<63-1), byte(0x00)), ) if err != nil { panic(err) } defer itr.Close() b := s.db.NewBatch() defer b.Close() pruned := 0 for itr.Valid() && numToPrune > 0 { key := itr.Key() _, height, ok := parseLbKey(key) if ok { if err = b.Delete(s.lbKey(height)); err != nil { return err } } itr.Next() numToPrune-- pruned++ } if err = itr.Error(); err != nil { return err } err = b.WriteSync() if err != nil { return err } // 3) Update size. s.mtx.Lock() defer s.mtx.Unlock() s.size -= uint16(pruned) if wErr := s.db.SetSync(sizeKey, marshalSize(s.size)); wErr != nil { return fmt.Errorf("failed to persist size: %w", wErr) } return nil } // Size returns the number of header & validator set pairs. // // Safe for concurrent use by multiple goroutines. func (s *dbs) Size() uint16 { s.mtx.RLock() defer s.mtx.RUnlock() return s.size } func (s *dbs) lbKey(height int64) []byte { return []byte(fmt.Sprintf("lb/%s/%020d", s.prefix, height)) } var keyPattern = regexp.MustCompile(`^(lb)/([^/]*)/([0-9]+)$`) func parseKey(key []byte) (part string, prefix string, height int64, ok bool) { submatch := keyPattern.FindSubmatch(key) if submatch == nil { return "", "", 0, false } part = string(submatch[1]) prefix = string(submatch[2]) height, err := strconv.ParseInt(string(submatch[3]), 10, 64) if err != nil { return "", "", 0, false } ok = true // good! return } func parseLbKey(key []byte) (prefix string, height int64, ok bool) { var part string part, prefix, height, ok = parseKey(key) if part != "lb" { return "", 0, false } return } func marshalSize(size uint16) []byte { bs := make([]byte, 2) binary.LittleEndian.PutUint16(bs, size) return bs } func unmarshalSize(bz []byte) uint16 { return binary.LittleEndian.Uint16(bz) }