forked from cerc-io/laconicd-deprecated
266 lines
9.2 KiB
Go
266 lines
9.2 KiB
Go
package types
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import (
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"bytes"
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"context"
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"fmt"
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"math/big"
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"strings"
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abci "github.com/tendermint/tendermint/abci/types"
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tmtypes "github.com/tendermint/tendermint/types"
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errorsmod "cosmossdk.io/errors"
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"github.com/cosmos/cosmos-sdk/client"
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errortypes "github.com/cosmos/cosmos-sdk/types/errors"
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evmtypes "github.com/cerc-io/laconicd/x/evm/types"
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feemarkettypes "github.com/cerc-io/laconicd/x/feemarket/types"
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"github.com/ethereum/go-ethereum/common"
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"github.com/ethereum/go-ethereum/common/hexutil"
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"github.com/ethereum/go-ethereum/common/math"
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ethtypes "github.com/ethereum/go-ethereum/core/types"
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"github.com/ethereum/go-ethereum/params"
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)
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// ExceedBlockGasLimitError defines the error message when tx execution exceeds the block gas limit.
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// The tx fee is deducted in ante handler, so it shouldn't be ignored in JSON-RPC API.
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const ExceedBlockGasLimitError = "out of gas in location: block gas meter; gasWanted:"
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// RawTxToEthTx returns a evm MsgEthereum transaction from raw tx bytes.
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func RawTxToEthTx(clientCtx client.Context, txBz tmtypes.Tx) ([]*evmtypes.MsgEthereumTx, error) {
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tx, err := clientCtx.TxConfig.TxDecoder()(txBz)
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if err != nil {
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return nil, errorsmod.Wrap(errortypes.ErrJSONUnmarshal, err.Error())
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}
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ethTxs := make([]*evmtypes.MsgEthereumTx, len(tx.GetMsgs()))
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for i, msg := range tx.GetMsgs() {
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ethTx, ok := msg.(*evmtypes.MsgEthereumTx)
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if !ok {
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return nil, fmt.Errorf("invalid message type %T, expected %T", msg, &evmtypes.MsgEthereumTx{})
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}
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ethTx.Hash = ethTx.AsTransaction().Hash().Hex()
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ethTxs[i] = ethTx
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}
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return ethTxs, nil
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}
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// EthHeaderFromTendermint is an util function that returns an Ethereum Header
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// from a tendermint Header.
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func EthHeaderFromTendermint(header tmtypes.Header, bloom ethtypes.Bloom, baseFee *big.Int) *ethtypes.Header {
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txHash := ethtypes.EmptyRootHash
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if len(header.DataHash) == 0 {
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txHash = common.BytesToHash(header.DataHash)
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}
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return ðtypes.Header{
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ParentHash: common.BytesToHash(header.LastBlockID.Hash.Bytes()),
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UncleHash: ethtypes.EmptyUncleHash,
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Coinbase: common.BytesToAddress(header.ProposerAddress),
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Root: common.BytesToHash(header.AppHash),
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TxHash: txHash,
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ReceiptHash: ethtypes.EmptyRootHash,
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Bloom: bloom,
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Difficulty: big.NewInt(0),
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Number: big.NewInt(header.Height),
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GasLimit: 0,
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GasUsed: 0,
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Time: uint64(header.Time.UTC().Unix()),
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Extra: []byte{},
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MixDigest: common.Hash{},
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Nonce: ethtypes.BlockNonce{},
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BaseFee: baseFee,
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}
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}
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// BlockMaxGasFromConsensusParams returns the gas limit for the current block from the chain consensus params.
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func BlockMaxGasFromConsensusParams(goCtx context.Context, clientCtx client.Context, blockHeight int64) (int64, error) {
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resConsParams, err := clientCtx.Client.ConsensusParams(goCtx, &blockHeight)
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if err != nil {
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return int64(^uint32(0)), err
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}
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gasLimit := resConsParams.ConsensusParams.Block.MaxGas
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if gasLimit == -1 {
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// Sets gas limit to max uint32 to not error with javascript dev tooling
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// This -1 value indicating no block gas limit is set to max uint64 with geth hexutils
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// which errors certain javascript dev tooling which only supports up to 53 bits
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gasLimit = int64(^uint32(0))
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}
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return gasLimit, nil
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}
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// FormatBlock creates an ethereum block from a tendermint header and ethereum-formatted
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// transactions.
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func FormatBlock(
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header tmtypes.Header, size int, gasLimit int64,
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gasUsed *big.Int, transactions []interface{}, bloom ethtypes.Bloom,
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validatorAddr common.Address, baseFee *big.Int,
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) map[string]interface{} {
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var transactionsRoot common.Hash
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if len(transactions) == 0 {
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transactionsRoot = ethtypes.EmptyRootHash
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} else {
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transactionsRoot = common.BytesToHash(header.DataHash)
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}
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result := map[string]interface{}{
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"number": hexutil.Uint64(header.Height),
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"hash": hexutil.Bytes(header.Hash()),
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"parentHash": common.BytesToHash(header.LastBlockID.Hash.Bytes()),
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"nonce": ethtypes.BlockNonce{}, // PoW specific
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"sha3Uncles": ethtypes.EmptyUncleHash, // No uncles in Tendermint
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"logsBloom": bloom,
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"stateRoot": hexutil.Bytes(header.AppHash),
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"miner": validatorAddr,
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"mixHash": common.Hash{},
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"difficulty": (*hexutil.Big)(big.NewInt(0)),
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"extraData": "0x",
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"size": hexutil.Uint64(size),
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"gasLimit": hexutil.Uint64(gasLimit), // Static gas limit
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"gasUsed": (*hexutil.Big)(gasUsed),
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"timestamp": hexutil.Uint64(header.Time.Unix()),
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"transactionsRoot": transactionsRoot,
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"receiptsRoot": ethtypes.EmptyRootHash,
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"uncles": []common.Hash{},
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"transactions": transactions,
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"totalDifficulty": (*hexutil.Big)(big.NewInt(0)),
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}
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if baseFee != nil {
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result["baseFeePerGas"] = (*hexutil.Big)(baseFee)
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}
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return result
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}
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// NewTransactionFromMsg returns a transaction that will serialize to the RPC
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// representation, with the given location metadata set (if available).
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func NewTransactionFromMsg(
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msg *evmtypes.MsgEthereumTx,
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blockHash common.Hash,
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blockNumber, index uint64,
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baseFee *big.Int,
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chainID *big.Int,
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) (*RPCTransaction, error) {
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tx := msg.AsTransaction()
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return NewRPCTransaction(tx, blockHash, blockNumber, index, baseFee, chainID)
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}
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// NewTransactionFromData returns a transaction that will serialize to the RPC
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// representation, with the given location metadata set (if available).
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func NewRPCTransaction(
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tx *ethtypes.Transaction, blockHash common.Hash, blockNumber, index uint64, baseFee *big.Int,
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chainID *big.Int,
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) (*RPCTransaction, error) {
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// Determine the signer. For replay-protected transactions, use the most permissive
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// signer, because we assume that signers are backwards-compatible with old
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// transactions. For non-protected transactions, the homestead signer signer is used
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// because the return value of ChainId is zero for those transactions.
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var signer ethtypes.Signer
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if tx.Protected() {
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signer = ethtypes.LatestSignerForChainID(tx.ChainId())
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} else {
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signer = ethtypes.HomesteadSigner{}
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}
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from, _ := ethtypes.Sender(signer, tx)
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v, r, s := tx.RawSignatureValues()
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result := &RPCTransaction{
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Type: hexutil.Uint64(tx.Type()),
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From: from,
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Gas: hexutil.Uint64(tx.Gas()),
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GasPrice: (*hexutil.Big)(tx.GasPrice()),
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Hash: tx.Hash(),
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Input: hexutil.Bytes(tx.Data()),
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Nonce: hexutil.Uint64(tx.Nonce()),
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To: tx.To(),
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Value: (*hexutil.Big)(tx.Value()),
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V: (*hexutil.Big)(v),
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R: (*hexutil.Big)(r),
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S: (*hexutil.Big)(s),
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ChainID: (*hexutil.Big)(chainID),
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}
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if blockHash != (common.Hash{}) {
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result.BlockHash = &blockHash
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result.BlockNumber = (*hexutil.Big)(new(big.Int).SetUint64(blockNumber))
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result.TransactionIndex = (*hexutil.Uint64)(&index)
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}
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switch tx.Type() {
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case ethtypes.AccessListTxType:
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al := tx.AccessList()
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result.Accesses = &al
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result.ChainID = (*hexutil.Big)(tx.ChainId())
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case ethtypes.DynamicFeeTxType:
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al := tx.AccessList()
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result.Accesses = &al
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result.ChainID = (*hexutil.Big)(tx.ChainId())
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result.GasFeeCap = (*hexutil.Big)(tx.GasFeeCap())
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result.GasTipCap = (*hexutil.Big)(tx.GasTipCap())
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// if the transaction has been mined, compute the effective gas price
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if baseFee != nil && blockHash != (common.Hash{}) {
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// price = min(tip, gasFeeCap - baseFee) + baseFee
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price := math.BigMin(new(big.Int).Add(tx.GasTipCap(), baseFee), tx.GasFeeCap())
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result.GasPrice = (*hexutil.Big)(price)
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} else {
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result.GasPrice = (*hexutil.Big)(tx.GasFeeCap())
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}
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}
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return result, nil
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}
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// BaseFeeFromEvents parses the feemarket basefee from cosmos events
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func BaseFeeFromEvents(events []abci.Event) *big.Int {
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for _, event := range events {
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if event.Type != feemarkettypes.EventTypeFeeMarket {
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continue
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}
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for _, attr := range event.Attributes {
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if bytes.Equal(attr.Key, []byte(feemarkettypes.AttributeKeyBaseFee)) {
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result, success := new(big.Int).SetString(string(attr.Value), 10)
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if success {
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return result
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}
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return nil
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}
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}
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}
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return nil
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}
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// CheckTxFee is an internal function used to check whether the fee of
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// the given transaction is _reasonable_(under the cap).
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func CheckTxFee(gasPrice *big.Int, gas uint64, cap float64) error {
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// Short circuit if there is no cap for transaction fee at all.
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if cap == 0 {
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return nil
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}
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totalfee := new(big.Float).SetInt(new(big.Int).Mul(gasPrice, new(big.Int).SetUint64(gas)))
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// 1 photon in 10^18 aphoton
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oneToken := new(big.Float).SetInt(big.NewInt(params.Ether))
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// quo = rounded(x/y)
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feeEth := new(big.Float).Quo(totalfee, oneToken)
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// no need to check error from parsing
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feeFloat, _ := feeEth.Float64()
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if feeFloat > cap {
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return fmt.Errorf("tx fee (%.2f ether) exceeds the configured cap (%.2f ether)", feeFloat, cap)
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}
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return nil
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}
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// TxExceedBlockGasLimit returns true if the tx exceeds block gas limit.
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func TxExceedBlockGasLimit(res *abci.ResponseDeliverTx) bool {
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return strings.Contains(res.Log, ExceedBlockGasLimitError)
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}
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// TxSuccessOrExceedsBlockGasLimit returnsrue if the transaction was successful
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// or if it failed with an ExceedBlockGasLimit error
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func TxSuccessOrExceedsBlockGasLimit(res *abci.ResponseDeliverTx) bool {
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return res.Code == 0 || TxExceedBlockGasLimit(res)
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}
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