package services import ( "context" "encoding/json" "fmt" "math/big" "github.com/coinbase/rosetta-sdk-go/types" ethCommon "github.com/ethereum/go-ethereum/common" "github.com/ethereum/go-ethereum/common/hexutil" ethRpc "github.com/ethereum/go-ethereum/rpc" "github.com/pkg/errors" "github.com/harmony-one/harmony/internal/params" "github.com/harmony-one/harmony/rosetta/common" "github.com/harmony-one/harmony/rpc" ) // ConstructMetadataOptions is constructed by ConstructionPreprocess for ConstructionMetadata options type ConstructMetadataOptions struct { TransactionMetadata *TransactionMetadata `json:"transaction_metadata"` OperationType string `json:"operation_type,omitempty"` GasPriceMultiplier *float64 `json:"gas_price_multiplier,omitempty"` } // UnmarshalFromInterface .. func (m *ConstructMetadataOptions) UnmarshalFromInterface(metadata interface{}) error { var T ConstructMetadataOptions dat, err := json.Marshal(metadata) if err != nil { return err } if err := json.Unmarshal(dat, &T); err != nil { return err } if T.TransactionMetadata == nil { return fmt.Errorf("transaction metadata is required") } if T.OperationType == "" { return fmt.Errorf("operation type is required") } *m = T return nil } // ConstructionPreprocess implements the /construction/preprocess endpoint. // Note that `request.MaxFee` is never considered for this construction implementation. func (s *ConstructAPI) ConstructionPreprocess( ctx context.Context, request *types.ConstructionPreprocessRequest, ) (*types.ConstructionPreprocessResponse, *types.Error) { if err := assertValidNetworkIdentifier(request.NetworkIdentifier, s.hmy.ShardID); err != nil { return nil, err } txMetadata := &TransactionMetadata{} if request.Metadata != nil { if err := txMetadata.UnmarshalFromInterface(request.Metadata); err != nil { return nil, common.NewError(common.InvalidTransactionConstructionError, map[string]interface{}{ "message": errors.WithMessage(err, "invalid transaction metadata").Error(), }) } } if txMetadata.FromShardID != nil && *txMetadata.FromShardID != s.hmy.ShardID { return nil, common.NewError(common.InvalidTransactionConstructionError, map[string]interface{}{ "message": fmt.Sprintf("expect from shard ID to be %v", s.hmy.ShardID), }) } components, rosettaError := GetOperationComponents(request.Operations) if rosettaError != nil { return nil, rosettaError } if components.From == nil { return nil, common.NewError(common.InvalidTransactionConstructionError, map[string]interface{}{ "message": "sender address is not found for given operations", }) } if txMetadata.ToShardID != nil && txMetadata.FromShardID != nil && components.Type != common.NativeCrossShardTransferOperation && *txMetadata.ToShardID != *txMetadata.FromShardID { return nil, common.NewError(common.InvalidTransactionConstructionError, map[string]interface{}{ "message": "given from & to shard are different for a native same shard transfer", }) } if request.SuggestedFeeMultiplier != nil && *request.SuggestedFeeMultiplier < 1 { return nil, common.NewError(common.InvalidTransactionConstructionError, map[string]interface{}{ "message": "given gas price multiplier must be at least 1", }) } options, err := types.MarshalMap(ConstructMetadataOptions{ TransactionMetadata: txMetadata, OperationType: components.Type, GasPriceMultiplier: request.SuggestedFeeMultiplier, }) if err != nil { return nil, common.NewError(common.CatchAllError, map[string]interface{}{ "message": err.Error(), }) } if _, err := getAddress(components.From); err != nil { return nil, common.NewError(common.InvalidTransactionConstructionError, map[string]interface{}{ "message": err.Error(), }) } return &types.ConstructionPreprocessResponse{ Options: options, RequiredPublicKeys: []*types.AccountIdentifier{ components.From, }, }, nil } // ConstructMetadata with a set of operations will construct a valid transaction type ConstructMetadata struct { Nonce uint64 `json:"nonce"` GasLimit uint64 `json:"gas_limit"` GasPrice *big.Int `json:"gas_price"` ContractCode hexutil.Bytes `json:"contract_code"` EvmReturn hexutil.Bytes `json:"evm_return"` EvmErrorMessage string `json:"evm_error_message"` Transaction *TransactionMetadata `json:"transaction_metadata"` } // UnmarshalFromInterface .. func (m *ConstructMetadata) UnmarshalFromInterface(blockArgs interface{}) error { var T ConstructMetadata dat, err := json.Marshal(blockArgs) if err != nil { return err } if err := json.Unmarshal(dat, &T); err != nil { return err } if T.GasPrice == nil { return fmt.Errorf("gas price is required") } if T.Transaction == nil { return fmt.Errorf("transaction metadata is required") } *m = T return nil } // ConstructionMetadata implements the /construction/metadata endpoint. func (s *ConstructAPI) ConstructionMetadata( ctx context.Context, request *types.ConstructionMetadataRequest, ) (*types.ConstructionMetadataResponse, *types.Error) { if err := assertValidNetworkIdentifier(request.NetworkIdentifier, s.hmy.ShardID); err != nil { return nil, err } options := &ConstructMetadataOptions{} if err := options.UnmarshalFromInterface(request.Options); err != nil { return nil, common.NewError(common.InvalidTransactionConstructionError, map[string]interface{}{ "message": errors.WithMessage(err, "invalid metadata option(s)").Error(), }) } if len(request.PublicKeys) != 1 { return nil, common.NewError(common.InvalidTransactionConstructionError, map[string]interface{}{ "message": "require sender public key only", }) } senderAddr, rosettaError := getAddressFromPublicKey(request.PublicKeys[0]) if rosettaError != nil { return nil, rosettaError } nonce, err := s.hmy.GetPoolNonce(ctx, *senderAddr) if err != nil { return nil, common.NewError(common.CatchAllError, map[string]interface{}{ "message": err.Error(), }) } currBlock, err := s.hmy.BlockByNumber(ctx, ethRpc.LatestBlockNumber) if err != nil { return nil, common.NewError(common.CatchAllError, map[string]interface{}{ "message": err.Error(), }) } if options.OperationType == common.NativeCrossShardTransferOperation && !s.hmy.BlockChain.Config().AcceptsCrossTx(currBlock.Epoch()) { return nil, common.NewError(common.InvalidTransactionConstructionError, map[string]interface{}{ "message": "cross-shard transaction is not accepted yet", }) } data := hexutil.Bytes{} if options.TransactionMetadata.Data != nil { var err error if data, err = hexutil.Decode(*options.TransactionMetadata.Data); err != nil { return nil, common.NewError(common.InvalidTransactionConstructionError, map[string]interface{}{ "message": errors.WithMessage(err, "invalid tx data format").Error(), }) } } var contractAddress ethCommon.Address if options.TransactionMetadata.ContractAccountIdentifier != nil { contractAddress, err = getAddress(options.TransactionMetadata.ContractAccountIdentifier) if err != nil { return nil, common.NewError(common.InvalidTransactionConstructionError, map[string]interface{}{ "message": errors.WithMessage(err, "unable to get provided contract address").Error(), }) } } state, _, err := s.hmy.StateAndHeaderByNumber(ctx, ethRpc.LatestBlockNumber) if state == nil || err != nil { return nil, common.NewError(common.BlockNotFoundError, map[string]interface{}{ "message": "block state not found for latest block", }) } var estGasUsed uint64 if !isStakingOperation(options.OperationType) { if options.OperationType == common.ContractCreationOperation { estGasUsed, err = rpc.EstimateGas(ctx, s.hmy, rpc.CallArgs{From: senderAddr, Data: &data}, nil) estGasUsed *= 2 // HACK to account for imperfect contract creation estimation } else { estGasUsed, err = rpc.EstimateGas( ctx, s.hmy, rpc.CallArgs{From: senderAddr, To: &contractAddress, Data: &data}, nil, ) } } else { return nil, common.NewError(common.InvalidTransactionConstructionError, map[string]interface{}{ "message": "staking operations are not supported", }) } if err != nil { return nil, common.NewError(common.InvalidTransactionConstructionError, map[string]interface{}{ "message": errors.WithMessage(err, "invalid transaction data").Error(), }) } gasMul := float64(1) if options.GasPriceMultiplier != nil && *options.GasPriceMultiplier > 1 { gasMul = *options.GasPriceMultiplier } sugNativeFee, sugNativePrice := getSuggestedNativeFeeAndPrice(gasMul, new(big.Int).SetUint64(estGasUsed)) evmErrorMsg := "" evmReturn := hexutil.Bytes{} if len(data) > 0 && (options.OperationType == common.ContractCreationOperation || options.OperationType == common.NativeTransferOperation) { gas := hexutil.Uint64(estGasUsed) callArgs := rpc.CallArgs{ From: senderAddr, Data: &data, Gas: &gas, } if options.OperationType == common.NativeTransferOperation { callArgs.To = &contractAddress } evmExe, err := rpc.DoEVMCall( ctx, s.hmy, callArgs, ethRpc.LatestBlockNumber, rpc.CallTimeout, ) if err != nil { return nil, common.NewError(common.CatchAllError, map[string]interface{}{ "message": errors.WithMessage(err, "unable to execute EVM").Error(), }) } if evmExe.VMErr != nil { evmErrorMsg = evmExe.VMErr.Error() } evmReturn = evmExe.ReturnData sugNativeFee, sugNativePrice = getSuggestedNativeFeeAndPrice(gasMul, new(big.Int).SetUint64(evmExe.UsedGas)) } metadata, err := types.MarshalMap(ConstructMetadata{ Nonce: nonce, GasPrice: sugNativePrice, GasLimit: estGasUsed, Transaction: options.TransactionMetadata, ContractCode: state.GetCode(contractAddress), EvmErrorMessage: evmErrorMsg, EvmReturn: evmReturn, }) if err != nil { return nil, common.NewError(common.CatchAllError, map[string]interface{}{ "message": err.Error(), }) } return &types.ConstructionMetadataResponse{ Metadata: metadata, SuggestedFee: sugNativeFee, }, nil } // getSuggestedNativeFeeAndPrice .. func getSuggestedNativeFeeAndPrice( gasMul float64, estGasUsed *big.Int, ) ([]*types.Amount, *big.Int) { if estGasUsed == nil { estGasUsed = big.NewInt(0).SetUint64(params.TxGas) } if gasMul < 1 { gasMul = 1 } gasPriceFloat := big.NewFloat(0).Mul(big.NewFloat(DefaultGasPrice), big.NewFloat(gasMul)) gasPriceTruncated, _ := gasPriceFloat.Uint64() gasPrice := new(big.Int).SetUint64(gasPriceTruncated) return []*types.Amount{ { Value: fmt.Sprintf("%v", new(big.Int).Mul(gasPrice, estGasUsed)), Currency: &common.NativeCurrency, }, }, gasPrice } // isStakingOperation .. func isStakingOperation(op string) bool { for _, stakingOp := range common.StakingOperationTypes { if stakingOp == op { return true } } return false }