package sync import ( "fmt" "sync/atomic" "time" "github.com/ethereum/go-ethereum/common" "github.com/ethereum/go-ethereum/rlp" protobuf "github.com/golang/protobuf/proto" syncpb "github.com/harmony-one/harmony/p2p/stream/protocols/sync/message" sttypes "github.com/harmony-one/harmony/p2p/stream/types" libp2p_network "github.com/libp2p/go-libp2p-core/network" "github.com/pkg/errors" "github.com/rs/zerolog" ) // syncStream is the structure for a stream running sync protocol. type syncStream struct { // Basic stream *sttypes.BaseStream protocol *Protocol chain chainHelper // pipeline channels reqC chan *syncpb.Request respC chan *syncpb.Response // close related fields. Concurrent call of close is possible. closeC chan struct{} closeStat uint32 logger zerolog.Logger } // wrapStream wraps the raw libp2p stream to syncStream func (p *Protocol) wrapStream(raw libp2p_network.Stream) *syncStream { bs := sttypes.NewBaseStream(raw) logger := p.logger.With(). Str("ID", string(bs.ID())). Str("Remote Protocol", string(bs.ProtoID())). Logger() return &syncStream{ BaseStream: bs, protocol: p, chain: newChainHelper(p.chain, p.schedule), reqC: make(chan *syncpb.Request, 100), respC: make(chan *syncpb.Response, 100), closeC: make(chan struct{}), closeStat: 0, logger: logger, } } func (st *syncStream) run() { st.logger.Info().Str("StreamID", string(st.ID())).Msg("running sync protocol on stream") defer st.logger.Info().Str("StreamID", string(st.ID())).Msg("end running sync protocol on stream") go st.handleReqLoop() go st.handleRespLoop() st.readMsgLoop() } // readMsgLoop is the loop func (st *syncStream) readMsgLoop() { for { msg, err := st.readMsg() if err != nil { if err := st.Close(); err != nil { st.logger.Err(err).Msg("failed to close sync stream") } return } st.deliverMsg(msg) } } // deliverMsg process the delivered message and forward to the corresponding channel func (st *syncStream) deliverMsg(msg protobuf.Message) { syncMsg := msg.(*syncpb.Message) if syncMsg == nil { st.logger.Info().Str("message", msg.String()).Msg("received unexpected sync message") return } if req := syncMsg.GetReq(); req != nil { go func() { select { case st.reqC <- req: case <-time.After(1 * time.Minute): st.logger.Warn().Str("request", req.String()). Msg("request handler severely jammed, message dropped") } }() } if resp := syncMsg.GetResp(); resp != nil { go func() { select { case st.respC <- resp: case <-time.After(1 * time.Minute): st.logger.Warn().Str("response", resp.String()). Msg("response handler severely jammed, message dropped") } }() } return } func (st *syncStream) handleReqLoop() { for { select { case req := <-st.reqC: st.protocol.rl.LimitRequest(st.ID()) err := st.handleReq(req) if err != nil { st.logger.Info().Err(err).Str("request", req.String()). Msg("handle request error. Closing stream") if err := st.Close(); err != nil { st.logger.Err(err).Msg("failed to close sync stream") } return } case <-st.closeC: return } } } func (st *syncStream) handleRespLoop() { for { select { case resp := <-st.respC: st.handleResp(resp) case <-st.closeC: return } } } // Close stops the stream handling and closes the underlying stream func (st *syncStream) Close() error { notClosed := atomic.CompareAndSwapUint32(&st.closeStat, 0, 1) if !notClosed { // Already closed by another goroutine. Directly return return nil } if err := st.protocol.sm.RemoveStream(st.ID()); err != nil { st.logger.Err(err).Str("stream ID", string(st.ID())). Msg("failed to remove sync stream on close") } close(st.closeC) return st.BaseStream.Close() } // ResetOnClose reset the stream on close func (st *syncStream) ResetOnClose() error { notClosed := atomic.CompareAndSwapUint32(&st.closeStat, 0, 1) if !notClosed { // Already closed by another goroutine. Directly return return nil } close(st.closeC) return st.BaseStream.ResetOnClose() } func (st *syncStream) handleReq(req *syncpb.Request) error { if gnReq := req.GetGetBlockNumberRequest(); gnReq != nil { return st.handleGetBlockNumberRequest(req.ReqId) } if ghReq := req.GetGetBlockHashesRequest(); ghReq != nil { return st.handleGetBlockHashesRequest(req.ReqId, ghReq) } if bnReq := req.GetGetBlocksByNumRequest(); bnReq != nil { return st.handleGetBlocksByNumRequest(req.ReqId, bnReq) } if bhReq := req.GetGetBlocksByHashesRequest(); bhReq != nil { return st.handleGetBlocksByHashesRequest(req.ReqId, bhReq) } // unsupported request type resp := syncpb.MakeErrorResponseMessage(req.ReqId, errUnknownReqType) return st.writeMsg(resp) } func (st *syncStream) handleGetBlockNumberRequest(rid uint64) error { resp := st.computeBlockNumberResp(rid) if err := st.writeMsg(resp); err != nil { return errors.Wrap(err, "[GetBlockNumber]: writeMsg") } return nil } func (st *syncStream) handleGetBlockHashesRequest(rid uint64, req *syncpb.GetBlockHashesRequest) error { resp, err := st.computeGetBlockHashesResp(rid, req.Nums) if err != nil { resp = syncpb.MakeErrorResponseMessage(rid, err) } if writeErr := st.writeMsg(resp); writeErr != nil { if err == nil { err = writeErr } else { err = fmt.Errorf("%v; [writeMsg] %v", err.Error(), writeErr) } } return errors.Wrap(err, "[GetBlockHashes]") } func (st *syncStream) handleGetBlocksByNumRequest(rid uint64, req *syncpb.GetBlocksByNumRequest) error { resp, err := st.computeRespFromBlockNumber(rid, req.Nums) if resp == nil && err != nil { resp = syncpb.MakeErrorResponseMessage(rid, err) } if writeErr := st.writeMsg(resp); writeErr != nil { if err == nil { err = writeErr } else { err = fmt.Errorf("%v; [writeMsg] %v", err.Error(), writeErr) } } return errors.Wrap(err, "[GetBlocksByNumber]") } func (st *syncStream) handleGetBlocksByHashesRequest(rid uint64, req *syncpb.GetBlocksByHashesRequest) error { hashes := bytesToHashes(req.BlockHashes) resp, err := st.computeRespFromBlockHashes(rid, hashes) if resp == nil && err != nil { resp = syncpb.MakeErrorResponseMessage(rid, err) } if writeErr := st.writeMsg(resp); writeErr != nil { if err == nil { err = writeErr } else { err = fmt.Errorf("%v; [writeMsg] %v", err.Error(), writeErr) } } return errors.Wrap(err, "[GetBlocksByHashes]") } func (st *syncStream) handleResp(resp *syncpb.Response) { st.protocol.rm.DeliverResponse(st.ID(), &syncResponse{resp}) } func (st *syncStream) readMsg() (*syncpb.Message, error) { b, err := st.ReadBytes() if err != nil { return nil, err } var msg = &syncpb.Message{} if err := protobuf.Unmarshal(b, msg); err != nil { return nil, err } return msg, nil } func (st *syncStream) writeMsg(msg *syncpb.Message) error { b, err := protobuf.Marshal(msg) if err != nil { return err } return st.WriteBytes(b) } func (st *syncStream) computeBlockNumberResp(rid uint64) *syncpb.Message { bn := st.chain.getCurrentBlockNumber() return syncpb.MakeGetBlockNumberResponseMessage(rid, bn) } func (st syncStream) computeGetBlockHashesResp(rid uint64, bns []uint64) (*syncpb.Message, error) { if len(bns) > GetBlockHashesAmountCap { err := fmt.Errorf("GetBlockHashes amount exceed cap: %v>%v", len(bns), GetBlockHashesAmountCap) return nil, err } hashes := st.chain.getBlockHashes(bns) return syncpb.MakeGetBlockHashesResponseMessage(rid, hashes), nil } func (st *syncStream) computeRespFromBlockNumber(rid uint64, bns []uint64) (*syncpb.Message, error) { if len(bns) > GetBlocksByNumAmountCap { err := fmt.Errorf("GetBlocksByNum amount exceed cap: %v>%v", len(bns), GetBlocksByNumAmountCap) return nil, err } blocks, err := st.chain.getBlocksByNumber(bns) if err != nil { return nil, err } var ( blocksBytes = make([][]byte, 0, len(blocks)) sigs = make([][]byte, 0, len(blocks)) ) for _, block := range blocks { bb, err := rlp.EncodeToBytes(block) if err != nil { return nil, err } blocksBytes = append(blocksBytes, bb) var sig []byte if block != nil { sig = block.GetCurrentCommitSig() } sigs = append(sigs, sig) } return syncpb.MakeGetBlocksByNumResponseMessage(rid, blocksBytes, sigs), nil } func (st *syncStream) computeRespFromBlockHashes(rid uint64, hs []common.Hash) (*syncpb.Message, error) { if len(hs) > GetBlocksByHashesAmountCap { err := fmt.Errorf("GetBlockByHashes amount exceed cap: %v > %v", len(hs), GetBlocksByHashesAmountCap) return nil, err } blocks, err := st.chain.getBlocksByHashes(hs) if err != nil { return nil, err } var ( blocksBytes = make([][]byte, 0, len(blocks)) sigs = make([][]byte, 0, len(blocks)) ) for _, block := range blocks { bb, err := rlp.EncodeToBytes(block) if err != nil { return nil, err } blocksBytes = append(blocksBytes, bb) var sig []byte if block != nil { sig = block.GetCurrentCommitSig() } sigs = append(sigs, sig) } return syncpb.MakeGetBlocksByHashesResponseMessage(rid, blocksBytes, sigs), nil } func bytesToHashes(bs [][]byte) []common.Hash { hs := make([]common.Hash, 0, len(bs)) for _, b := range bs { var h common.Hash copy(h[:], b) hs = append(hs, h) } return hs }