package services import ( "fmt" "math/big" "github.com/coinbase/rosetta-sdk-go/types" ethcommon "github.com/ethereum/go-ethereum/common" hmytypes "github.com/harmony-one/harmony/core/types" "github.com/harmony-one/harmony/internal/utils" "github.com/harmony-one/harmony/rosetta/common" rpcV2 "github.com/harmony-one/harmony/rpc/v2" "github.com/harmony-one/harmony/staking" stakingTypes "github.com/harmony-one/harmony/staking/types" ) // GetNativeOperationsFromTransaction for one of the following transactions: // contract creation, cross-shard sender, same-shard transfer. // Native operations only include operations that affect the native currency balance of an account. func GetNativeOperationsFromTransaction( tx *hmytypes.Transaction, receipt *hmytypes.Receipt, ) ([]*types.Operation, *types.Error) { senderAddress, err := tx.SenderAddress() if err != nil { senderAddress = FormatDefaultSenderAddress } accountID, rosettaError := newAccountIdentifier(senderAddress) if rosettaError != nil { return nil, rosettaError } // All operations excepts for cross-shard tx payout expend gas gasExpended := new(big.Int).Mul(new(big.Int).SetUint64(receipt.GasUsed), tx.GasPrice()) gasOperations := newNativeOperations(gasExpended, accountID) // Handle different cases of plain transactions var txOperations []*types.Operation if tx.To() == nil { txOperations, rosettaError = newContractCreationNativeOperations( gasOperations[0].OperationIdentifier, tx, receipt, senderAddress, ) } else if tx.ShardID() != tx.ToShardID() { txOperations, rosettaError = newCrossShardSenderTransferNativeOperations( gasOperations[0].OperationIdentifier, tx, senderAddress, ) } else { txOperations, rosettaError = newTransferNativeOperations( gasOperations[0].OperationIdentifier, tx, receipt, senderAddress, ) } if rosettaError != nil { return nil, rosettaError } return append(gasOperations, txOperations...), nil } // GetOperationsFromStakingTransaction for all staking directives // Note that only native operations can come from staking transactions. func GetOperationsFromStakingTransaction( tx *stakingTypes.StakingTransaction, receipt *hmytypes.Receipt, ) ([]*types.Operation, *types.Error) { senderAddress, err := tx.SenderAddress() if err != nil { senderAddress = FormatDefaultSenderAddress } accountID, rosettaError := newAccountIdentifier(senderAddress) if rosettaError != nil { return nil, rosettaError } // All operations excepts for cross-shard tx payout expend gas gasExpended := new(big.Int).Mul(new(big.Int).SetUint64(receipt.GasUsed), tx.GasPrice()) gasOperations := newNativeOperations(gasExpended, accountID) // Format staking message for metadata using decimal numbers (hence usage of rpcV2) rpcStakingTx, err := rpcV2.NewStakingTransaction(tx, ethcommon.Hash{}, 0, 0, 0) if err != nil { return nil, common.NewError(common.CatchAllError, map[string]interface{}{ "message": err.Error(), }) } metadata, err := types.MarshalMap(rpcStakingTx.Msg) if err != nil { return nil, common.NewError(common.CatchAllError, map[string]interface{}{ "message": err.Error(), }) } // Set correct amount depending on staking message directive that apply balance changes INSTANTLY var amount *types.Amount switch tx.StakingType() { case stakingTypes.DirectiveCreateValidator: if amount, rosettaError = getAmountFromCreateValidatorMessage(tx.Data()); rosettaError != nil { return nil, rosettaError } case stakingTypes.DirectiveDelegate: if amount, rosettaError = getAmountFromDelegateMessage(receipt, tx.Data()); rosettaError != nil { return nil, rosettaError } case stakingTypes.DirectiveCollectRewards: if amount, rosettaError = getAmountFromCollectRewards(receipt, senderAddress); rosettaError != nil { return nil, rosettaError } default: amount = &types.Amount{ Value: "0", // All other staking transactions do not apply balance changes instantly or at all Currency: &common.NativeCurrency, } } return append(gasOperations, &types.Operation{ OperationIdentifier: &types.OperationIdentifier{ Index: gasOperations[0].OperationIdentifier.Index + 1, }, RelatedOperations: []*types.OperationIdentifier{ gasOperations[0].OperationIdentifier, }, Type: tx.StakingType().String(), Status: common.SuccessOperationStatus.Status, Account: accountID, Amount: amount, Metadata: metadata, }), nil } func getAmountFromCreateValidatorMessage(data []byte) (*types.Amount, *types.Error) { msg, err := stakingTypes.RLPDecodeStakeMsg(data, stakingTypes.DirectiveCreateValidator) if err != nil { return nil, common.NewError(common.CatchAllError, map[string]interface{}{ "message": err.Error(), }) } stkMsg, ok := msg.(*stakingTypes.CreateValidator) if !ok { return nil, common.NewError(common.CatchAllError, map[string]interface{}{ "message": "unable to parse staking message for create validator tx", }) } return &types.Amount{ Value: negativeBigValue(stkMsg.Amount), Currency: &common.NativeCurrency, }, nil } func getAmountFromDelegateMessage(receipt *hmytypes.Receipt, data []byte) (*types.Amount, *types.Error) { msg, err := stakingTypes.RLPDecodeStakeMsg(data, stakingTypes.DirectiveDelegate) if err != nil { return nil, common.NewError(common.CatchAllError, map[string]interface{}{ "message": err.Error(), }) } stkMsg, ok := msg.(*stakingTypes.Delegate) if !ok { return nil, common.NewError(common.CatchAllError, map[string]interface{}{ "message": "unable to parse staking message for delegate tx", }) } deductedAmt := stkMsg.Amount logs := hmytypes.FindLogsWithTopic(receipt, staking.DelegateTopic) for _, log := range logs { if len(log.Data) > ethcommon.AddressLength && log.Address == stkMsg.DelegatorAddress { // Remove re-delegation amount as funds were never credited to account's balance. deductedAmt = new(big.Int).Sub(deductedAmt, new(big.Int).SetBytes(log.Data[ethcommon.AddressLength:])) } } return &types.Amount{ Value: negativeBigValue(deductedAmt), Currency: &common.NativeCurrency, }, nil } func getAmountFromCollectRewards( receipt *hmytypes.Receipt, senderAddress ethcommon.Address, ) (*types.Amount, *types.Error) { var amount *types.Amount logs := hmytypes.FindLogsWithTopic(receipt, staking.CollectRewardsTopic) for _, log := range logs { if log.Address == senderAddress { amount = &types.Amount{ Value: big.NewInt(0).SetBytes(log.Data).String(), Currency: &common.NativeCurrency, } break } } if amount == nil { return nil, common.NewError(common.CatchAllError, map[string]interface{}{ "message": fmt.Sprintf("collect rewards amount not found for %v", senderAddress), }) } return amount, nil } // newTransferNativeOperations extracts & formats the native operation(s) for plain transaction, // including contract transactions. func newTransferNativeOperations( startingOperationID *types.OperationIdentifier, tx *hmytypes.Transaction, receipt *hmytypes.Receipt, senderAddress ethcommon.Address, ) ([]*types.Operation, *types.Error) { if tx.To() == nil { return nil, common.NewError(common.CatchAllError, nil) } receiverAddress := *tx.To() // Common elements opType := common.NativeTransferOperation opStatus := common.SuccessOperationStatus.Status if receipt.Status == hmytypes.ReceiptStatusFailed { if len(tx.Data()) > 0 { opStatus = common.ContractFailureOperationStatus.Status } else { // Should never see a failed non-contract related transaction on chain opStatus = common.FailureOperationStatus.Status utils.Logger().Warn().Msgf("Failed transaction on chain: %v", tx.Hash().String()) } } // Subtraction operation elements subOperationID := &types.OperationIdentifier{ Index: startingOperationID.Index + 1, } subRelatedID := []*types.OperationIdentifier{ startingOperationID, } subAccountID, rosettaError := newAccountIdentifier(senderAddress) if rosettaError != nil { return nil, rosettaError } subAmount := &types.Amount{ Value: negativeBigValue(tx.Value()), Currency: &common.NativeCurrency, } // Addition operation elements addOperationID := &types.OperationIdentifier{ Index: subOperationID.Index + 1, } addRelatedID := []*types.OperationIdentifier{ subOperationID, } addAccountID, rosettaError := newAccountIdentifier(receiverAddress) if rosettaError != nil { return nil, rosettaError } addAmount := &types.Amount{ Value: tx.Value().String(), Currency: &common.NativeCurrency, } return []*types.Operation{ { OperationIdentifier: subOperationID, RelatedOperations: subRelatedID, Type: opType, Status: opStatus, Account: subAccountID, Amount: subAmount, }, { OperationIdentifier: addOperationID, RelatedOperations: addRelatedID, Type: opType, Status: opStatus, Account: addAccountID, Amount: addAmount, }, }, nil } // newCrossShardSenderTransferNativeOperations extracts & formats the native operation(s) // for cross-shard-tx on the sender's shard. func newCrossShardSenderTransferNativeOperations( startingOperationID *types.OperationIdentifier, tx *hmytypes.Transaction, senderAddress ethcommon.Address, ) ([]*types.Operation, *types.Error) { if tx.To() == nil { return nil, common.NewError(common.CatchAllError, nil) } senderAccountID, rosettaError := newAccountIdentifier(senderAddress) if rosettaError != nil { return nil, rosettaError } receiverAccountID, rosettaError := newAccountIdentifier(*tx.To()) if rosettaError != nil { return nil, rosettaError } metadata, err := types.MarshalMap(common.CrossShardTransactionOperationMetadata{ From: senderAccountID, To: receiverAccountID, }) if err != nil { return nil, common.NewError(common.CatchAllError, map[string]interface{}{ "message": err.Error(), }) } return []*types.Operation{ { OperationIdentifier: &types.OperationIdentifier{ Index: startingOperationID.Index + 1, }, RelatedOperations: []*types.OperationIdentifier{ startingOperationID, }, Type: common.NativeCrossShardTransferOperation, Status: common.SuccessOperationStatus.Status, Account: senderAccountID, Amount: &types.Amount{ Value: negativeBigValue(tx.Value()), Currency: &common.NativeCurrency, }, Metadata: metadata, }, }, nil } // newContractCreationNativeOperations extracts & formats the native operation(s) for a contract creation tx func newContractCreationNativeOperations( startingOperationID *types.OperationIdentifier, tx *hmytypes.Transaction, txReceipt *hmytypes.Receipt, senderAddress ethcommon.Address, ) ([]*types.Operation, *types.Error) { // TODO: correct the contract creation transaction... // Set execution status as necessary status := common.SuccessOperationStatus.Status if txReceipt.Status == hmytypes.ReceiptStatusFailed { status = common.ContractFailureOperationStatus.Status } contractAddressID, rosettaError := newAccountIdentifier(txReceipt.ContractAddress) if rosettaError != nil { return nil, rosettaError } // Subtraction operation elements subOperationID := &types.OperationIdentifier{ Index: startingOperationID.Index + 1, } subRelatedID := []*types.OperationIdentifier{ startingOperationID, } subAccountID, rosettaError := newAccountIdentifier(senderAddress) if rosettaError != nil { return nil, rosettaError } subAmount := &types.Amount{ Value: negativeBigValue(tx.Value()), Currency: &common.NativeCurrency, } // Addition operation elements addOperationID := &types.OperationIdentifier{ Index: subOperationID.Index + 1, } addRelatedID := []*types.OperationIdentifier{ subOperationID, } addAmount := &types.Amount{ Value: tx.Value().String(), Currency: &common.NativeCurrency, } return []*types.Operation{ { OperationIdentifier: subOperationID, RelatedOperations: subRelatedID, Type: common.ContractCreationOperation, Status: status, Account: subAccountID, Amount: subAmount, }, { OperationIdentifier: addOperationID, RelatedOperations: addRelatedID, Type: common.ContractCreationOperation, Status: status, Account: contractAddressID, Amount: addAmount, }, }, nil } // newNativeOperations creates a new operation with the gas fee as the first operation. // Note: the gas fee is gasPrice * gasUsed. func newNativeOperations( gasFeeInATTO *big.Int, accountID *types.AccountIdentifier, ) []*types.Operation { return []*types.Operation{ { OperationIdentifier: &types.OperationIdentifier{ Index: 0, // gas operation is always first }, Type: common.ExpendGasOperation, Status: common.SuccessOperationStatus.Status, Account: accountID, Amount: &types.Amount{ Value: negativeBigValue(gasFeeInATTO), Currency: &common.NativeCurrency, }, }, } }