package rpc import ( "context" "github.com/pkg/errors" "github.com/ethereum/go-ethereum/common" "github.com/ethereum/go-ethereum/common/hexutil" "github.com/ethereum/go-ethereum/crypto" "github.com/ethereum/go-ethereum/rlp" "github.com/ethereum/go-ethereum/rpc" "github.com/harmony-one/harmony/core" "github.com/harmony-one/harmony/core/types" "github.com/harmony-one/harmony/hmy" common2 "github.com/harmony-one/harmony/internal/common" nodeconfig "github.com/harmony-one/harmony/internal/configs/node" "github.com/harmony-one/harmony/internal/utils" eth "github.com/harmony-one/harmony/rpc/eth" v1 "github.com/harmony-one/harmony/rpc/v1" v2 "github.com/harmony-one/harmony/rpc/v2" staking "github.com/harmony-one/harmony/staking/types" ) // PublicPoolService provides an API to access the Harmony node's transaction pool. // It offers only methods that operate on public data that is freely available to anyone. type PublicPoolService struct { hmy *hmy.Harmony version Version } // NewPublicPoolAPI creates a new API for the RPC interface func NewPublicPoolAPI(hmy *hmy.Harmony, version Version) rpc.API { return rpc.API{ Namespace: version.Namespace(), Version: APIVersion, Service: &PublicPoolService{hmy, version}, Public: true, } } // SendRawTransaction will add the signed transaction to the transaction pool. // The sender is responsible for signing the transaction and using the correct nonce. func (s *PublicPoolService) SendRawTransaction( ctx context.Context, encodedTx hexutil.Bytes, ) (common.Hash, error) { // DOS prevention if len(encodedTx) >= types.MaxEncodedPoolTransactionSize { err := errors.Wrapf(core.ErrOversizedData, "encoded tx size: %d", len(encodedTx)) return common.Hash{}, err } var tx *types.Transaction var txHash common.Hash if s.version == Eth { ethTx := new(types.EthTransaction) if err := rlp.DecodeBytes(encodedTx, ethTx); err != nil { return common.Hash{}, err } txHash = ethTx.Hash() tx = ethTx.ConvertToHmy() } else { tx = new(types.Transaction) if err := rlp.DecodeBytes(encodedTx, tx); err != nil { return common.Hash{}, err } txHash = tx.Hash() } // Verify chainID if err := s.verifyChainID(tx); err != nil { return common.Hash{}, err } // Submit transaction if err := s.hmy.SendTx(ctx, tx); err != nil { utils.Logger().Warn().Err(err).Msg("Could not submit transaction") return txHash, err } // Log submission if tx.To() == nil { signer := types.MakeSigner(s.hmy.ChainConfig(), s.hmy.CurrentBlock().Epoch()) ethSigner := types.NewEIP155Signer(s.hmy.ChainConfig().EthCompatibleChainID) if tx.IsEthCompatible() { signer = ethSigner } from, err := types.Sender(signer, tx) if err != nil { return common.Hash{}, err } addr := crypto.CreateAddress(from, tx.Nonce()) utils.Logger().Info(). Str("fullhash", tx.Hash().Hex()). Str("hashByType", tx.HashByType().Hex()). Str("contract", common2.MustAddressToBech32(addr)). Msg("Submitted contract creation") } else { utils.Logger().Info(). Str("fullhash", tx.Hash().Hex()). Str("hashByType", tx.HashByType().Hex()). Str("recipient", tx.To().Hex()). Interface("tx", tx). Msg("Submitted transaction") } // Response output is the same for all versions return txHash, nil } func (s *PublicPoolService) verifyChainID(tx *types.Transaction) error { nodeChainID := s.hmy.ChainConfig().ChainID ethChainID := nodeconfig.GetDefaultConfig().GetNetworkType().ChainConfig().EthCompatibleChainID if tx.ChainID().Cmp(ethChainID) != 0 && tx.ChainID().Cmp(nodeChainID) != 0 { return errors.Wrapf( ErrInvalidChainID, "blockchain chain id:%s, given %s", nodeChainID.String(), tx.ChainID().String(), ) } return nil } // SendRawStakingTransaction will add the signed transaction to the transaction pool. // The sender is responsible for signing the transaction and using the correct nonce. func (s *PublicPoolService) SendRawStakingTransaction( ctx context.Context, encodedTx hexutil.Bytes, ) (common.Hash, error) { // DOS prevention if len(encodedTx) >= types.MaxEncodedPoolTransactionSize { err := errors.Wrapf(core.ErrOversizedData, "encoded tx size: %d", len(encodedTx)) return common.Hash{}, err } // Verify staking transaction type & chain tx := new(staking.StakingTransaction) if err := rlp.DecodeBytes(encodedTx, tx); err != nil { return common.Hash{}, err } c := s.hmy.ChainConfig().ChainID if id := tx.ChainID(); id.Cmp(c) != 0 { return common.Hash{}, errors.Wrapf( ErrInvalidChainID, "blockchain chain id:%s, given %s", c.String(), id.String(), ) } // Submit transaction if err := s.hmy.SendStakingTx(ctx, tx); err != nil { utils.Logger().Warn().Err(err).Msg("Could not submit staking transaction") return tx.Hash(), err } // Log submission utils.Logger().Info(). Str("fullhash", tx.Hash().Hex()). Msg("Submitted Staking transaction") // Response output is the same for all versions return tx.Hash(), nil } // GetPoolStats returns stats for the tx-pool func (s *PublicPoolService) GetPoolStats( ctx context.Context, ) (StructuredResponse, error) { pendingCount, queuedCount := s.hmy.GetPoolStats() // Response output is the same for all versions return StructuredResponse{ "executable-count": pendingCount, "non-executable-count": queuedCount, }, nil } // PendingTransactions returns the plain transactions that are in the transaction pool func (s *PublicPoolService) PendingTransactions( ctx context.Context, ) ([]StructuredResponse, error) { // Fetch all pending transactions (stx & plain tx) pending, err := s.hmy.GetPoolTransactions() if err != nil { return nil, err } // Only format and return plain transactions according to the version transactions := []StructuredResponse{} for i := range pending { if plainTx, ok := pending[i].(*types.Transaction); ok { var tx interface{} switch s.version { case V1: tx, err = v1.NewTransaction(plainTx, common.Hash{}, 0, 0, 0) if err != nil { utils.Logger().Debug(). Err(err). Msgf("%v error at %v", LogTag, "PendingTransactions") continue // Legacy behavior is to not return error here } case V2: tx, err = v2.NewTransaction(plainTx, common.Hash{}, 0, 0, 0) if err != nil { utils.Logger().Debug(). Err(err). Msgf("%v error at %v", LogTag, "PendingTransactions") continue // Legacy behavior is to not return error here } case Eth: tx, err = eth.NewTransaction(plainTx.ConvertToEth(), common.Hash{}, 0, 0, 0) if err != nil { utils.Logger().Debug(). Err(err). Msgf("%v error at %v", LogTag, "PendingTransactions") continue // Legacy behavior is to not return error here } default: return nil, ErrUnknownRPCVersion } rpcTx, err := NewStructuredResponse(tx) if err == nil { transactions = append(transactions, rpcTx) } else { // Legacy behavior is to not return error here utils.Logger().Debug(). Err(err). Msgf("%v error at %v", LogTag, "PendingTransactions") } } else if _, ok := pending[i].(*staking.StakingTransaction); ok { continue // Do not return staking transactions here. } else { return nil, types.ErrUnknownPoolTxType } } return transactions, nil } // PendingStakingTransactions returns the staking transactions that are in the transaction pool func (s *PublicPoolService) PendingStakingTransactions( ctx context.Context, ) ([]StructuredResponse, error) { // Fetch all pending transactions (stx & plain tx) pending, err := s.hmy.GetPoolTransactions() if err != nil { return nil, err } // Only format and return staking transactions according to the version transactions := []StructuredResponse{} for i := range pending { if _, ok := pending[i].(*types.Transaction); ok { continue // Do not return plain transactions here } else if stakingTx, ok := pending[i].(*staking.StakingTransaction); ok { var tx interface{} switch s.version { case V1: tx, err = v1.NewStakingTransaction(stakingTx, common.Hash{}, 0, 0, 0) if err != nil { utils.Logger().Debug(). Err(err). Msgf("%v error at %v", LogTag, "PendingStakingTransactions") continue // Legacy behavior is to not return error here } case V2: tx, err = v2.NewStakingTransaction(stakingTx, common.Hash{}, 0, 0, 0) if err != nil { utils.Logger().Debug(). Err(err). Msgf("%v error at %v", LogTag, "PendingStakingTransactions") continue // Legacy behavior is to not return error here } default: return nil, ErrUnknownRPCVersion } rpcTx, err := NewStructuredResponse(tx) if err == nil { transactions = append(transactions, rpcTx) } else { // Legacy behavior is to not return error here utils.Logger().Debug(). Err(err). Msgf("%v error at %v", LogTag, "PendingStakingTransactions") } } else { return nil, types.ErrUnknownPoolTxType } } return transactions, nil } // GetCurrentTransactionErrorSink .. func (s *PublicPoolService) GetCurrentTransactionErrorSink( ctx context.Context, ) ([]StructuredResponse, error) { // For each transaction error in the error sink, format the response (same format for all versions) formattedErrors := []StructuredResponse{} for _, txError := range s.hmy.GetCurrentTransactionErrorSink() { formattedErr, err := NewStructuredResponse(txError) if err != nil { return nil, err } formattedErrors = append(formattedErrors, formattedErr) } return formattedErrors, nil } // GetCurrentStakingErrorSink .. func (s *PublicPoolService) GetCurrentStakingErrorSink( ctx context.Context, ) ([]StructuredResponse, error) { // For each staking tx error in the error sink, format the response (same format for all versions) formattedErrors := []StructuredResponse{} for _, txErr := range s.hmy.GetCurrentStakingErrorSink() { formattedErr, err := NewStructuredResponse(txErr) if err != nil { return nil, err } formattedErrors = append(formattedErrors, formattedErr) } return formattedErrors, nil } // GetPendingCXReceipts .. func (s *PublicPoolService) GetPendingCXReceipts( ctx context.Context, ) ([]StructuredResponse, error) { // For each cx receipt, format the response (same format for all versions) formattedReceipts := []StructuredResponse{} for _, receipts := range s.hmy.GetPendingCXReceipts() { formattedReceipt, err := NewStructuredResponse(receipts) if err != nil { return nil, err } formattedReceipts = append(formattedReceipts, formattedReceipt) } return formattedReceipts, nil }