607 lines
22 KiB
Go
607 lines
22 KiB
Go
package ante
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import (
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"errors"
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"math"
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"math/big"
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"strconv"
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sdkmath "cosmossdk.io/math"
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sdk "github.com/cosmos/cosmos-sdk/types"
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sdkerrors "github.com/cosmos/cosmos-sdk/types/errors"
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authante "github.com/cosmos/cosmos-sdk/x/auth/ante"
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ethermint "github.com/evmos/ethermint/types"
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evmkeeper "github.com/evmos/ethermint/x/evm/keeper"
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"github.com/evmos/ethermint/x/evm/statedb"
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evmtypes "github.com/evmos/ethermint/x/evm/types"
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"github.com/ethereum/go-ethereum/common"
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ethtypes "github.com/ethereum/go-ethereum/core/types"
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)
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// EthSigVerificationDecorator validates an ethereum signatures
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type EthSigVerificationDecorator struct {
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evmKeeper EVMKeeper
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}
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// NewEthSigVerificationDecorator creates a new EthSigVerificationDecorator
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func NewEthSigVerificationDecorator(ek EVMKeeper) EthSigVerificationDecorator {
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return EthSigVerificationDecorator{
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evmKeeper: ek,
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}
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}
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// AnteHandle validates checks that the registered chain id is the same as the one on the message, and
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// that the signer address matches the one defined on the message.
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// It's not skipped for RecheckTx, because it set `From` address which is critical from other ante handler to work.
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// Failure in RecheckTx will prevent tx to be included into block, especially when CheckTx succeed, in which case user
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// won't see the error message.
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func (esvd EthSigVerificationDecorator) AnteHandle(ctx sdk.Context, tx sdk.Tx, simulate bool, next sdk.AnteHandler) (newCtx sdk.Context, err error) {
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chainID := esvd.evmKeeper.ChainID()
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chainCfg := esvd.evmKeeper.GetChainConfig(ctx)
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ethCfg := chainCfg.EthereumConfig(chainID)
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blockNum := big.NewInt(ctx.BlockHeight())
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signer := ethtypes.MakeSigner(ethCfg, blockNum)
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for _, msg := range tx.GetMsgs() {
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msgEthTx, ok := msg.(*evmtypes.MsgEthereumTx)
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if !ok {
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return ctx, sdkerrors.Wrapf(sdkerrors.ErrUnknownRequest, "invalid message type %T, expected %T", msg, (*evmtypes.MsgEthereumTx)(nil))
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}
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allowUnprotectedTxs := esvd.evmKeeper.GetAllowUnprotectedTxs(ctx)
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ethTx := msgEthTx.AsTransaction()
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if !allowUnprotectedTxs && !ethTx.Protected() {
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return ctx, sdkerrors.Wrapf(
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sdkerrors.ErrNotSupported,
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"rejected unprotected Ethereum txs. Please EIP155 sign your transaction to protect it against replay-attacks")
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}
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sender, err := signer.Sender(ethTx)
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if err != nil {
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return ctx, sdkerrors.Wrapf(
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sdkerrors.ErrorInvalidSigner,
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"couldn't retrieve sender address from the ethereum transaction: %s",
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err.Error(),
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)
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}
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// set up the sender to the transaction field if not already
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msgEthTx.From = sender.Hex()
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}
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return next(ctx, tx, simulate)
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}
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// EthAccountVerificationDecorator validates an account balance checks
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type EthAccountVerificationDecorator struct {
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ak evmtypes.AccountKeeper
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evmKeeper EVMKeeper
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}
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// NewEthAccountVerificationDecorator creates a new EthAccountVerificationDecorator
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func NewEthAccountVerificationDecorator(ak evmtypes.AccountKeeper, ek EVMKeeper) EthAccountVerificationDecorator {
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return EthAccountVerificationDecorator{
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ak: ak,
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evmKeeper: ek,
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}
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}
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// AnteHandle validates checks that the sender balance is greater than the total transaction cost.
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// The account will be set to store if it doesn't exis, i.e cannot be found on store.
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// This AnteHandler decorator will fail if:
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// - any of the msgs is not a MsgEthereumTx
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// - from address is empty
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// - account balance is lower than the transaction cost
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func (avd EthAccountVerificationDecorator) AnteHandle(
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ctx sdk.Context,
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tx sdk.Tx,
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simulate bool,
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next sdk.AnteHandler,
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) (newCtx sdk.Context, err error) {
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if !ctx.IsCheckTx() {
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return next(ctx, tx, simulate)
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}
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for i, msg := range tx.GetMsgs() {
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msgEthTx, ok := msg.(*evmtypes.MsgEthereumTx)
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if !ok {
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return ctx, sdkerrors.Wrapf(sdkerrors.ErrUnknownRequest, "invalid message type %T, expected %T", msg, (*evmtypes.MsgEthereumTx)(nil))
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}
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txData, err := evmtypes.UnpackTxData(msgEthTx.Data)
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if err != nil {
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return ctx, sdkerrors.Wrapf(err, "failed to unpack tx data any for tx %d", i)
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}
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// sender address should be in the tx cache from the previous AnteHandle call
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from := msgEthTx.GetFrom()
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if from.Empty() {
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return ctx, sdkerrors.Wrap(sdkerrors.ErrInvalidAddress, "from address cannot be empty")
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}
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// check whether the sender address is EOA
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fromAddr := common.BytesToAddress(from)
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acct := avd.evmKeeper.GetAccount(ctx, fromAddr)
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if acct == nil {
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acc := avd.ak.NewAccountWithAddress(ctx, from)
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avd.ak.SetAccount(ctx, acc)
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acct = statedb.NewEmptyAccount()
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} else if acct.IsContract() {
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return ctx, sdkerrors.Wrapf(sdkerrors.ErrInvalidType,
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"the sender is not EOA: address %s, codeHash <%s>", fromAddr, acct.CodeHash)
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}
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if err := evmkeeper.CheckSenderBalance(sdkmath.NewIntFromBigInt(acct.Balance), txData); err != nil {
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return ctx, sdkerrors.Wrap(err, "failed to check sender balance")
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}
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}
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return next(ctx, tx, simulate)
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}
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// EthGasConsumeDecorator validates enough intrinsic gas for the transaction and
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// gas consumption.
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type EthGasConsumeDecorator struct {
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evmKeeper EVMKeeper
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maxGasWanted uint64
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}
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// NewEthGasConsumeDecorator creates a new EthGasConsumeDecorator
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func NewEthGasConsumeDecorator(
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evmKeeper EVMKeeper,
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maxGasWanted uint64,
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) EthGasConsumeDecorator {
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return EthGasConsumeDecorator{
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evmKeeper,
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maxGasWanted,
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}
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}
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// AnteHandle validates that the Ethereum tx message has enough to cover intrinsic gas
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// (during CheckTx only) and that the sender has enough balance to pay for the gas cost.
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//
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// Intrinsic gas for a transaction is the amount of gas that the transaction uses before the
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// transaction is executed. The gas is a constant value plus any cost inccured by additional bytes
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// of data supplied with the transaction.
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//
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// This AnteHandler decorator will fail if:
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// - the message is not a MsgEthereumTx
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// - sender account cannot be found
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// - transaction's gas limit is lower than the intrinsic gas
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// - user doesn't have enough balance to deduct the transaction fees (gas_limit * gas_price)
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// - transaction or block gas meter runs out of gas
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// - sets the gas meter limit
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func (egcd EthGasConsumeDecorator) AnteHandle(ctx sdk.Context, tx sdk.Tx, simulate bool, next sdk.AnteHandler) (sdk.Context, error) {
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chainCfg := egcd.evmKeeper.GetChainConfig(ctx)
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ethCfg := chainCfg.EthereumConfig(egcd.evmKeeper.ChainID())
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blockHeight := big.NewInt(ctx.BlockHeight())
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homestead := ethCfg.IsHomestead(blockHeight)
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istanbul := ethCfg.IsIstanbul(blockHeight)
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london := ethCfg.IsLondon(blockHeight)
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gasWanted := uint64(0)
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var events sdk.Events
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// Use the lowest priority of all the messages as the final one.
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minPriority := int64(math.MaxInt64)
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for _, msg := range tx.GetMsgs() {
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msgEthTx, ok := msg.(*evmtypes.MsgEthereumTx)
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if !ok {
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return ctx, sdkerrors.Wrapf(sdkerrors.ErrUnknownRequest, "invalid message type %T, expected %T", msg, (*evmtypes.MsgEthereumTx)(nil))
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}
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txData, err := evmtypes.UnpackTxData(msgEthTx.Data)
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if err != nil {
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return ctx, sdkerrors.Wrap(err, "failed to unpack tx data")
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}
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if ctx.IsCheckTx() && egcd.maxGasWanted != 0 {
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// We can't trust the tx gas limit, because we'll refund the unused gas.
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if txData.GetGas() > egcd.maxGasWanted {
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gasWanted += egcd.maxGasWanted
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} else {
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gasWanted += txData.GetGas()
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}
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} else {
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gasWanted += txData.GetGas()
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}
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evmDenom := egcd.evmKeeper.GetEVMDenom(ctx)
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fees, priority, err := egcd.evmKeeper.DeductTxCostsFromUserBalance(
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ctx,
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*msgEthTx,
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txData,
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evmDenom,
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homestead,
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istanbul,
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london,
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)
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if err != nil {
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return ctx, sdkerrors.Wrapf(err, "failed to deduct transaction costs from user balance")
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}
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events = append(events, sdk.NewEvent(sdk.EventTypeTx, sdk.NewAttribute(sdk.AttributeKeyFee, fees.String())))
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if priority < minPriority {
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minPriority = priority
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}
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}
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// TODO: change to typed events
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ctx.EventManager().EmitEvents(events)
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// TODO: deprecate after https://github.com/cosmos/cosmos-sdk/issues/9514 is fixed on SDK
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blockGasLimit := ethermint.BlockGasLimit(ctx)
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// NOTE: safety check
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if blockGasLimit > 0 {
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// generate a copy of the gas pool (i.e block gas meter) to see if we've run out of gas for this block
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// if current gas consumed is greater than the limit, this funcion panics and the error is recovered on the Baseapp
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gasPool := sdk.NewGasMeter(blockGasLimit)
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gasPool.ConsumeGas(ctx.GasMeter().GasConsumedToLimit(), "gas pool check")
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}
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// Set ctx.GasMeter with a limit of GasWanted (gasLimit)
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gasConsumed := ctx.GasMeter().GasConsumed()
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ctx = ctx.WithGasMeter(ethermint.NewInfiniteGasMeterWithLimit(gasWanted))
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ctx.GasMeter().ConsumeGas(gasConsumed, "copy gas consumed")
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newCtx := ctx.WithPriority(minPriority)
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// we know that we have enough gas on the pool to cover the intrinsic gas
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return next(newCtx, tx, simulate)
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}
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// CanTransferDecorator checks if the sender is allowed to transfer funds according to the EVM block
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// context rules.
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type CanTransferDecorator struct {
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evmKeeper EVMKeeper
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}
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// NewCanTransferDecorator creates a new CanTransferDecorator instance.
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func NewCanTransferDecorator(evmKeeper EVMKeeper) CanTransferDecorator {
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return CanTransferDecorator{
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evmKeeper: evmKeeper,
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}
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}
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// AnteHandle creates an EVM from the message and calls the BlockContext CanTransfer function to
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// see if the address can execute the transaction.
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func (ctd CanTransferDecorator) AnteHandle(ctx sdk.Context, tx sdk.Tx, simulate bool, next sdk.AnteHandler) (sdk.Context, error) {
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params := ctd.evmKeeper.GetParams(ctx)
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ethCfg := params.ChainConfig.EthereumConfig(ctd.evmKeeper.ChainID())
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signer := ethtypes.MakeSigner(ethCfg, big.NewInt(ctx.BlockHeight()))
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for _, msg := range tx.GetMsgs() {
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msgEthTx, ok := msg.(*evmtypes.MsgEthereumTx)
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if !ok {
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return ctx, sdkerrors.Wrapf(sdkerrors.ErrUnknownRequest, "invalid message type %T, expected %T", msg, (*evmtypes.MsgEthereumTx)(nil))
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}
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baseFee := ctd.evmKeeper.GetBaseFee(ctx, ethCfg)
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coreMsg, err := msgEthTx.AsMessage(signer, baseFee)
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if err != nil {
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return ctx, sdkerrors.Wrapf(
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err,
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"failed to create an ethereum core.Message from signer %T", signer,
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)
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}
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// NOTE: pass in an empty coinbase address and nil tracer as we don't need them for the check below
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cfg := &evmtypes.EVMConfig{
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ChainConfig: ethCfg,
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Params: params,
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CoinBase: common.Address{},
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BaseFee: baseFee,
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}
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stateDB := statedb.New(ctx, ctd.evmKeeper, statedb.NewEmptyTxConfig(common.BytesToHash(ctx.HeaderHash().Bytes())))
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evm := ctd.evmKeeper.NewEVM(ctx, coreMsg, cfg, evmtypes.NewNoOpTracer(), stateDB)
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// check that caller has enough balance to cover asset transfer for **topmost** call
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// NOTE: here the gas consumed is from the context with the infinite gas meter
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if coreMsg.Value().Sign() > 0 && !evm.Context().CanTransfer(stateDB, coreMsg.From(), coreMsg.Value()) {
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return ctx, sdkerrors.Wrapf(
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sdkerrors.ErrInsufficientFunds,
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"failed to transfer %s from address %s using the EVM block context transfer function",
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coreMsg.Value(),
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coreMsg.From(),
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)
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}
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if evmtypes.IsLondon(ethCfg, ctx.BlockHeight()) {
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if baseFee == nil {
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return ctx, sdkerrors.Wrap(
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evmtypes.ErrInvalidBaseFee,
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"base fee is supported but evm block context value is nil",
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)
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}
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if coreMsg.GasFeeCap().Cmp(baseFee) < 0 {
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return ctx, sdkerrors.Wrapf(
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sdkerrors.ErrInsufficientFee,
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"max fee per gas less than block base fee (%s < %s)",
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coreMsg.GasFeeCap(), baseFee,
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)
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}
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}
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}
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return next(ctx, tx, simulate)
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}
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// EthIncrementSenderSequenceDecorator increments the sequence of the signers.
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type EthIncrementSenderSequenceDecorator struct {
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ak evmtypes.AccountKeeper
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}
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// NewEthIncrementSenderSequenceDecorator creates a new EthIncrementSenderSequenceDecorator.
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func NewEthIncrementSenderSequenceDecorator(ak evmtypes.AccountKeeper) EthIncrementSenderSequenceDecorator {
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return EthIncrementSenderSequenceDecorator{
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ak: ak,
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}
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}
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// AnteHandle handles incrementing the sequence of the signer (i.e sender). If the transaction is a
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// contract creation, the nonce will be incremented during the transaction execution and not within
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// this AnteHandler decorator.
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func (issd EthIncrementSenderSequenceDecorator) AnteHandle(ctx sdk.Context, tx sdk.Tx, simulate bool, next sdk.AnteHandler) (sdk.Context, error) {
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for _, msg := range tx.GetMsgs() {
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msgEthTx, ok := msg.(*evmtypes.MsgEthereumTx)
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if !ok {
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return ctx, sdkerrors.Wrapf(sdkerrors.ErrUnknownRequest, "invalid message type %T, expected %T", msg, (*evmtypes.MsgEthereumTx)(nil))
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}
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txData, err := evmtypes.UnpackTxData(msgEthTx.Data)
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if err != nil {
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return ctx, sdkerrors.Wrap(err, "failed to unpack tx data")
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}
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// increase sequence of sender
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acc := issd.ak.GetAccount(ctx, msgEthTx.GetFrom())
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if acc == nil {
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return ctx, sdkerrors.Wrapf(
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sdkerrors.ErrUnknownAddress,
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"account %s is nil", common.BytesToAddress(msgEthTx.GetFrom().Bytes()),
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)
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}
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nonce := acc.GetSequence()
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// we merged the nonce verification to nonce increment, so when tx includes multiple messages
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// with same sender, they'll be accepted.
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if txData.GetNonce() != nonce {
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return ctx, sdkerrors.Wrapf(
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sdkerrors.ErrInvalidSequence,
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"invalid nonce; got %d, expected %d", txData.GetNonce(), nonce,
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)
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}
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if err := acc.SetSequence(nonce + 1); err != nil {
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return ctx, sdkerrors.Wrapf(err, "failed to set sequence to %d", acc.GetSequence()+1)
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}
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issd.ak.SetAccount(ctx, acc)
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}
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return next(ctx, tx, simulate)
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}
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// EthValidateBasicDecorator is adapted from ValidateBasicDecorator from cosmos-sdk, it ignores ErrNoSignatures
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type EthValidateBasicDecorator struct {
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evmKeeper EVMKeeper
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}
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// NewEthValidateBasicDecorator creates a new EthValidateBasicDecorator
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func NewEthValidateBasicDecorator(ek EVMKeeper) EthValidateBasicDecorator {
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return EthValidateBasicDecorator{
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evmKeeper: ek,
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}
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}
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// AnteHandle handles basic validation of tx
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func (vbd EthValidateBasicDecorator) AnteHandle(ctx sdk.Context, tx sdk.Tx, simulate bool, next sdk.AnteHandler) (sdk.Context, error) {
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// no need to validate basic on recheck tx, call next antehandler
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if ctx.IsReCheckTx() {
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return next(ctx, tx, simulate)
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}
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err := tx.ValidateBasic()
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// ErrNoSignatures is fine with eth tx
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if err != nil && !errors.Is(err, sdkerrors.ErrNoSignatures) {
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return ctx, sdkerrors.Wrap(err, "tx basic validation failed")
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}
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// For eth type cosmos tx, some fields should be veified as zero values,
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// since we will only verify the signature against the hash of the MsgEthereumTx.Data
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wrapperTx, ok := tx.(protoTxProvider)
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if !ok {
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return ctx, sdkerrors.Wrapf(sdkerrors.ErrUnknownRequest, "invalid tx type %T, didn't implement interface protoTxProvider", tx)
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}
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protoTx := wrapperTx.GetProtoTx()
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body := protoTx.Body
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if body.Memo != "" || body.TimeoutHeight != uint64(0) || len(body.NonCriticalExtensionOptions) > 0 {
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return ctx, sdkerrors.Wrap(sdkerrors.ErrInvalidRequest,
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"for eth tx body Memo TimeoutHeight NonCriticalExtensionOptions should be empty")
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}
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if len(body.ExtensionOptions) != 1 {
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return ctx, sdkerrors.Wrap(sdkerrors.ErrInvalidRequest, "for eth tx length of ExtensionOptions should be 1")
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}
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txFee := sdk.Coins{}
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txGasLimit := uint64(0)
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chainCfg := vbd.evmKeeper.GetChainConfig(ctx)
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chainID := vbd.evmKeeper.ChainID()
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ethCfg := chainCfg.EthereumConfig(chainID)
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baseFee := vbd.evmKeeper.GetBaseFee(ctx, ethCfg)
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enableCreate := vbd.evmKeeper.GetEnableCreate(ctx)
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enableCall := vbd.evmKeeper.GetEnableCall(ctx)
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evmDenom := vbd.evmKeeper.GetEVMDenom(ctx)
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for _, msg := range protoTx.GetMsgs() {
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msgEthTx, ok := msg.(*evmtypes.MsgEthereumTx)
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if !ok {
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return ctx, sdkerrors.Wrapf(sdkerrors.ErrUnknownRequest, "invalid message type %T, expected %T", msg, (*evmtypes.MsgEthereumTx)(nil))
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}
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// Validate `From` field
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if msgEthTx.From != "" {
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return ctx, sdkerrors.Wrapf(sdkerrors.ErrInvalidRequest, "invalid From %s, expect empty string", msgEthTx.From)
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}
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txGasLimit += msgEthTx.GetGas()
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txData, err := evmtypes.UnpackTxData(msgEthTx.Data)
|
|
if err != nil {
|
|
return ctx, sdkerrors.Wrap(err, "failed to unpack MsgEthereumTx Data")
|
|
}
|
|
|
|
// return error if contract creation or call are disabled through governance
|
|
if !enableCreate && txData.GetTo() == nil {
|
|
return ctx, sdkerrors.Wrap(evmtypes.ErrCreateDisabled, "failed to create new contract")
|
|
} else if !enableCall && txData.GetTo() != nil {
|
|
return ctx, sdkerrors.Wrap(evmtypes.ErrCallDisabled, "failed to call contract")
|
|
}
|
|
|
|
if baseFee == nil && txData.TxType() == ethtypes.DynamicFeeTxType {
|
|
return ctx, sdkerrors.Wrap(ethtypes.ErrTxTypeNotSupported, "dynamic fee tx not supported")
|
|
}
|
|
|
|
txFee = txFee.Add(sdk.NewCoin(evmDenom, sdkmath.NewIntFromBigInt(txData.Fee())))
|
|
}
|
|
|
|
authInfo := protoTx.AuthInfo
|
|
if len(authInfo.SignerInfos) > 0 {
|
|
return ctx, sdkerrors.Wrap(sdkerrors.ErrInvalidRequest, "for eth tx AuthInfo SignerInfos should be empty")
|
|
}
|
|
|
|
if authInfo.Fee.Payer != "" || authInfo.Fee.Granter != "" {
|
|
return ctx, sdkerrors.Wrap(sdkerrors.ErrInvalidRequest, "for eth tx AuthInfo Fee payer and granter should be empty")
|
|
}
|
|
|
|
if !authInfo.Fee.Amount.IsEqual(txFee) {
|
|
return ctx, sdkerrors.Wrapf(sdkerrors.ErrInvalidRequest, "invalid AuthInfo Fee Amount (%s != %s)", authInfo.Fee.Amount, txFee)
|
|
}
|
|
|
|
if authInfo.Fee.GasLimit != txGasLimit {
|
|
return ctx, sdkerrors.Wrapf(sdkerrors.ErrInvalidRequest, "invalid AuthInfo Fee GasLimit (%d != %d)", authInfo.Fee.GasLimit, txGasLimit)
|
|
}
|
|
|
|
sigs := protoTx.Signatures
|
|
if len(sigs) > 0 {
|
|
return ctx, sdkerrors.Wrap(sdkerrors.ErrInvalidRequest, "for eth tx Signatures should be empty")
|
|
}
|
|
|
|
return next(ctx, tx, simulate)
|
|
}
|
|
|
|
// EthSetupContextDecorator is adapted from SetUpContextDecorator from cosmos-sdk, it ignores gas consumption
|
|
// by setting the gas meter to infinite
|
|
type EthSetupContextDecorator struct {
|
|
evmKeeper EVMKeeper
|
|
}
|
|
|
|
func NewEthSetUpContextDecorator(evmKeeper EVMKeeper) EthSetupContextDecorator {
|
|
return EthSetupContextDecorator{
|
|
evmKeeper: evmKeeper,
|
|
}
|
|
}
|
|
|
|
func (esc EthSetupContextDecorator) AnteHandle(ctx sdk.Context, tx sdk.Tx, simulate bool, next sdk.AnteHandler) (newCtx sdk.Context, err error) {
|
|
// all transactions must implement GasTx
|
|
_, ok := tx.(authante.GasTx)
|
|
if !ok {
|
|
return newCtx, sdkerrors.Wrap(sdkerrors.ErrTxDecode, "Tx must be GasTx")
|
|
}
|
|
|
|
newCtx = ctx.WithGasMeter(sdk.NewInfiniteGasMeter())
|
|
// Reset transient gas used to prepare the execution of current cosmos tx.
|
|
// Transient gas-used is necessary to sum the gas-used of cosmos tx, when it contains multiple eth msgs.
|
|
esc.evmKeeper.ResetTransientGasUsed(ctx)
|
|
return next(newCtx, tx, simulate)
|
|
}
|
|
|
|
// EthMempoolFeeDecorator will check if the transaction's effective fee is at least as large
|
|
// as the local validator's minimum gasFee (defined in validator config).
|
|
// If fee is too low, decorator returns error and tx is rejected from mempool.
|
|
// Note this only applies when ctx.CheckTx = true
|
|
// If fee is high enough or not CheckTx, then call next AnteHandler
|
|
// CONTRACT: Tx must implement FeeTx to use MempoolFeeDecorator
|
|
type EthMempoolFeeDecorator struct {
|
|
evmKeeper EVMKeeper
|
|
}
|
|
|
|
func NewEthMempoolFeeDecorator(ek EVMKeeper) EthMempoolFeeDecorator {
|
|
return EthMempoolFeeDecorator{
|
|
evmKeeper: ek,
|
|
}
|
|
}
|
|
|
|
// AnteHandle ensures that the provided fees meet a minimum threshold for the validator,
|
|
// if this is a CheckTx. This is only for local mempool purposes, and thus
|
|
// is only ran on check tx.
|
|
// It only do the check if london hardfork not enabled or feemarket not enabled, because in that case feemarket will take over the task.
|
|
func (mfd EthMempoolFeeDecorator) AnteHandle(ctx sdk.Context, tx sdk.Tx, simulate bool, next sdk.AnteHandler) (newCtx sdk.Context, err error) {
|
|
if ctx.IsCheckTx() && !simulate {
|
|
chainCfg := mfd.evmKeeper.GetChainConfig(ctx)
|
|
ethCfg := chainCfg.EthereumConfig(mfd.evmKeeper.ChainID())
|
|
baseFee := mfd.evmKeeper.GetBaseFee(ctx, ethCfg)
|
|
evmDenom := mfd.evmKeeper.GetEVMDenom(ctx)
|
|
|
|
if baseFee == nil {
|
|
for _, msg := range tx.GetMsgs() {
|
|
ethMsg, ok := msg.(*evmtypes.MsgEthereumTx)
|
|
if !ok {
|
|
return ctx, sdkerrors.Wrapf(sdkerrors.ErrUnknownRequest, "invalid message type %T, expected %T", msg, (*evmtypes.MsgEthereumTx)(nil))
|
|
}
|
|
|
|
feeAmt := ethMsg.GetFee()
|
|
glDec := sdk.NewDec(int64(ethMsg.GetGas()))
|
|
requiredFee := ctx.MinGasPrices().AmountOf(evmDenom).Mul(glDec)
|
|
if sdk.NewDecFromBigInt(feeAmt).LT(requiredFee) {
|
|
return ctx, sdkerrors.Wrapf(sdkerrors.ErrInsufficientFee, "insufficient fees; got: %s required: %s", feeAmt, requiredFee)
|
|
}
|
|
}
|
|
}
|
|
}
|
|
|
|
return next(ctx, tx, simulate)
|
|
}
|
|
|
|
// EthEmitEventDecorator emit events in ante handler in case of tx execution failed (out of block gas limit).
|
|
type EthEmitEventDecorator struct {
|
|
evmKeeper EVMKeeper
|
|
}
|
|
|
|
// NewEthEmitEventDecorator creates a new EthEmitEventDecorator
|
|
func NewEthEmitEventDecorator(evmKeeper EVMKeeper) EthEmitEventDecorator {
|
|
return EthEmitEventDecorator{evmKeeper}
|
|
}
|
|
|
|
// AnteHandle emits some basic events for the eth messages
|
|
func (eeed EthEmitEventDecorator) AnteHandle(ctx sdk.Context, tx sdk.Tx, simulate bool, next sdk.AnteHandler) (newCtx sdk.Context, err error) {
|
|
// After eth tx passed ante handler, the fee is deducted and nonce increased, it shouldn't be ignored by json-rpc,
|
|
// we need to emit some basic events at the very end of ante handler to be indexed by tendermint.
|
|
txIndex := eeed.evmKeeper.GetTxIndexTransient(ctx)
|
|
for i, msg := range tx.GetMsgs() {
|
|
msgEthTx, ok := msg.(*evmtypes.MsgEthereumTx)
|
|
if !ok {
|
|
return ctx, sdkerrors.Wrapf(sdkerrors.ErrUnknownRequest, "invalid message type %T, expected %T", msg, (*evmtypes.MsgEthereumTx)(nil))
|
|
}
|
|
|
|
// emit ethereum tx hash as event, should be indexed by tm tx indexer for query purpose.
|
|
// it's emitted in ante handler so we can query failed transaction (out of block gas limit).
|
|
ctx.EventManager().EmitEvent(sdk.NewEvent(
|
|
evmtypes.EventTypeEthereumTx,
|
|
sdk.NewAttribute(evmtypes.AttributeKeyEthereumTxHash, msgEthTx.Hash),
|
|
sdk.NewAttribute(evmtypes.AttributeKeyTxIndex, strconv.FormatUint(txIndex+uint64(i), 10)),
|
|
))
|
|
}
|
|
|
|
return next(ctx, tx, simulate)
|
|
}
|