package ante_test import ( "encoding/json" "fmt" "math" "math/big" "testing" "time" sdkmath "cosmossdk.io/math" "github.com/stretchr/testify/suite" "github.com/cosmos/cosmos-sdk/codec" "github.com/cosmos/cosmos-sdk/x/auth/migrations/legacytx" types2 "github.com/cosmos/cosmos-sdk/x/bank/types" types3 "github.com/cosmos/cosmos-sdk/x/staking/types" "github.com/ethereum/go-ethereum/crypto" "github.com/evmos/ethermint/ethereum/eip712" "github.com/evmos/ethermint/types" "github.com/ethereum/go-ethereum/common" ethtypes "github.com/ethereum/go-ethereum/core/types" "github.com/cosmos/cosmos-sdk/client" "github.com/cosmos/cosmos-sdk/client/tx" codectypes "github.com/cosmos/cosmos-sdk/codec/types" kmultisig "github.com/cosmos/cosmos-sdk/crypto/keys/multisig" cryptotypes "github.com/cosmos/cosmos-sdk/crypto/types" "github.com/cosmos/cosmos-sdk/crypto/types/multisig" "github.com/cosmos/cosmos-sdk/simapp" "github.com/cosmos/cosmos-sdk/testutil/testdata" sdk "github.com/cosmos/cosmos-sdk/types" txtypes "github.com/cosmos/cosmos-sdk/types/tx" "github.com/cosmos/cosmos-sdk/types/tx/signing" sdkante "github.com/cosmos/cosmos-sdk/x/auth/ante" authsigning "github.com/cosmos/cosmos-sdk/x/auth/signing" authtx "github.com/cosmos/cosmos-sdk/x/auth/tx" authtypes "github.com/cosmos/cosmos-sdk/x/auth/types" cryptocodec "github.com/evmos/ethermint/crypto/codec" "github.com/evmos/ethermint/crypto/ethsecp256k1" "github.com/cosmos/cosmos-sdk/crypto/keys/ed25519" evtypes "github.com/cosmos/cosmos-sdk/x/evidence/types" "github.com/cosmos/cosmos-sdk/x/feegrant" types5 "github.com/cosmos/cosmos-sdk/x/gov/types/v1beta1" "github.com/evmos/ethermint/app" ante "github.com/evmos/ethermint/app/ante" "github.com/evmos/ethermint/encoding" "github.com/evmos/ethermint/tests" "github.com/evmos/ethermint/x/evm/statedb" evmtypes "github.com/evmos/ethermint/x/evm/types" feemarkettypes "github.com/evmos/ethermint/x/feemarket/types" tmproto "github.com/tendermint/tendermint/proto/tendermint/types" ) type AnteTestSuite struct { suite.Suite ctx sdk.Context app *app.EthermintApp clientCtx client.Context anteHandler sdk.AnteHandler ethSigner ethtypes.Signer enableFeemarket bool enableLondonHF bool evmParamsOption func(*evmtypes.Params) } const TestGasLimit uint64 = 100000 func (suite *AnteTestSuite) StateDB() *statedb.StateDB { return statedb.New(suite.ctx, suite.app.EvmKeeper, statedb.NewEmptyTxConfig(common.BytesToHash(suite.ctx.HeaderHash().Bytes()))) } func (suite *AnteTestSuite) SetupTest() { checkTx := false suite.app = app.Setup(checkTx, func(app *app.EthermintApp, genesis simapp.GenesisState) simapp.GenesisState { if suite.enableFeemarket { // setup feemarketGenesis params feemarketGenesis := feemarkettypes.DefaultGenesisState() feemarketGenesis.Params.EnableHeight = 1 feemarketGenesis.Params.NoBaseFee = false // Verify feeMarket genesis err := feemarketGenesis.Validate() suite.Require().NoError(err) genesis[feemarkettypes.ModuleName] = app.AppCodec().MustMarshalJSON(feemarketGenesis) } evmGenesis := evmtypes.DefaultGenesisState() evmGenesis.Params.AllowUnprotectedTxs = false if !suite.enableLondonHF { maxInt := sdkmath.NewInt(math.MaxInt64) evmGenesis.Params.ChainConfig.LondonBlock = &maxInt evmGenesis.Params.ChainConfig.ArrowGlacierBlock = &maxInt evmGenesis.Params.ChainConfig.GrayGlacierBlock = &maxInt evmGenesis.Params.ChainConfig.MergeNetsplitBlock = &maxInt } if suite.evmParamsOption != nil { suite.evmParamsOption(&evmGenesis.Params) } genesis[evmtypes.ModuleName] = app.AppCodec().MustMarshalJSON(evmGenesis) return genesis }) suite.ctx = suite.app.BaseApp.NewContext(checkTx, tmproto.Header{Height: 2, ChainID: "ethermint_9000-1", Time: time.Now().UTC()}) suite.ctx = suite.ctx.WithMinGasPrices(sdk.NewDecCoins(sdk.NewDecCoin(evmtypes.DefaultEVMDenom, sdk.OneInt()))) suite.ctx = suite.ctx.WithBlockGasMeter(sdk.NewGasMeter(1000000000000000000)) suite.app.EvmKeeper.WithChainID(suite.ctx) infCtx := suite.ctx.WithGasMeter(sdk.NewInfiniteGasMeter()) suite.app.AccountKeeper.SetParams(infCtx, authtypes.DefaultParams()) encodingConfig := encoding.MakeConfig(app.ModuleBasics) // We're using TestMsg amino encoding in some tests, so register it here. encodingConfig.Amino.RegisterConcrete(&testdata.TestMsg{}, "testdata.TestMsg", nil) eip712.SetEncodingConfig(encodingConfig) suite.clientCtx = client.Context{}.WithTxConfig(encodingConfig.TxConfig) anteHandler, err := ante.NewAnteHandler(ante.HandlerOptions{ AccountKeeper: suite.app.AccountKeeper, BankKeeper: suite.app.BankKeeper, EvmKeeper: suite.app.EvmKeeper, FeegrantKeeper: suite.app.FeeGrantKeeper, IBCKeeper: suite.app.IBCKeeper, FeeMarketKeeper: suite.app.FeeMarketKeeper, SignModeHandler: encodingConfig.TxConfig.SignModeHandler(), SigGasConsumer: ante.DefaultSigVerificationGasConsumer, }) suite.Require().NoError(err) suite.anteHandler = anteHandler suite.ethSigner = ethtypes.LatestSignerForChainID(suite.app.EvmKeeper.ChainID()) } func TestAnteTestSuite(t *testing.T) { suite.Run(t, &AnteTestSuite{ enableLondonHF: true, }) } func (s *AnteTestSuite) BuildTestEthTx( from common.Address, to common.Address, amount *big.Int, input []byte, gasPrice *big.Int, gasFeeCap *big.Int, gasTipCap *big.Int, accesses *ethtypes.AccessList, ) *evmtypes.MsgEthereumTx { chainID := s.app.EvmKeeper.ChainID() nonce := s.app.EvmKeeper.GetNonce( s.ctx, common.BytesToAddress(from.Bytes()), ) msgEthereumTx := evmtypes.NewTx( chainID, nonce, &to, amount, TestGasLimit, gasPrice, gasFeeCap, gasTipCap, input, accesses, ) msgEthereumTx.From = from.String() return msgEthereumTx } // CreateTestTx is a helper function to create a tx given multiple inputs. func (suite *AnteTestSuite) CreateTestTx( msg *evmtypes.MsgEthereumTx, priv cryptotypes.PrivKey, accNum uint64, signCosmosTx bool, unsetExtensionOptions ...bool, ) authsigning.Tx { return suite.CreateTestTxBuilder(msg, priv, accNum, signCosmosTx).GetTx() } // CreateTestTxBuilder is a helper function to create a tx builder given multiple inputs. func (suite *AnteTestSuite) CreateTestTxBuilder( msg *evmtypes.MsgEthereumTx, priv cryptotypes.PrivKey, accNum uint64, signCosmosTx bool, unsetExtensionOptions ...bool, ) client.TxBuilder { var option *codectypes.Any var err error if len(unsetExtensionOptions) == 0 { option, err = codectypes.NewAnyWithValue(&evmtypes.ExtensionOptionsEthereumTx{}) suite.Require().NoError(err) } txBuilder := suite.clientCtx.TxConfig.NewTxBuilder() builder, ok := txBuilder.(authtx.ExtensionOptionsTxBuilder) suite.Require().True(ok) if len(unsetExtensionOptions) == 0 { builder.SetExtensionOptions(option) } err = msg.Sign(suite.ethSigner, tests.NewSigner(priv)) suite.Require().NoError(err) msg.From = "" err = builder.SetMsgs(msg) suite.Require().NoError(err) txData, err := evmtypes.UnpackTxData(msg.Data) suite.Require().NoError(err) fees := sdk.NewCoins(sdk.NewCoin(evmtypes.DefaultEVMDenom, sdkmath.NewIntFromBigInt(txData.Fee()))) builder.SetFeeAmount(fees) builder.SetGasLimit(msg.GetGas()) if signCosmosTx { // First round: we gather all the signer infos. We use the "set empty // signature" hack to do that. sigV2 := signing.SignatureV2{ PubKey: priv.PubKey(), Data: &signing.SingleSignatureData{ SignMode: suite.clientCtx.TxConfig.SignModeHandler().DefaultMode(), Signature: nil, }, Sequence: txData.GetNonce(), } sigsV2 := []signing.SignatureV2{sigV2} err = txBuilder.SetSignatures(sigsV2...) suite.Require().NoError(err) // Second round: all signer infos are set, so each signer can sign. signerData := authsigning.SignerData{ ChainID: suite.ctx.ChainID(), AccountNumber: accNum, Sequence: txData.GetNonce(), } sigV2, err = tx.SignWithPrivKey( suite.clientCtx.TxConfig.SignModeHandler().DefaultMode(), signerData, txBuilder, priv, suite.clientCtx.TxConfig, txData.GetNonce(), ) suite.Require().NoError(err) sigsV2 = []signing.SignatureV2{sigV2} err = txBuilder.SetSignatures(sigsV2...) suite.Require().NoError(err) } return txBuilder } func (suite *AnteTestSuite) CreateTestCosmosTxBuilder(gasPrice sdkmath.Int, denom string, msgs ...sdk.Msg) client.TxBuilder { txBuilder := suite.clientCtx.TxConfig.NewTxBuilder() txBuilder.SetGasLimit(TestGasLimit) fees := &sdk.Coins{{Denom: denom, Amount: gasPrice.MulRaw(int64(TestGasLimit))}} txBuilder.SetFeeAmount(*fees) err := txBuilder.SetMsgs(msgs...) suite.Require().NoError(err) return txBuilder } func (suite *AnteTestSuite) CreateTestEIP712TxBuilderMsgSend(from sdk.AccAddress, priv cryptotypes.PrivKey, chainId string, gas uint64, gasAmount sdk.Coins) client.TxBuilder { // Build MsgSend recipient := sdk.AccAddress(common.Address{}.Bytes()) msgSend := types2.NewMsgSend(from, recipient, sdk.NewCoins(sdk.NewCoin(evmtypes.DefaultEVMDenom, sdkmath.NewInt(1)))) return suite.CreateTestEIP712CosmosTxBuilder(from, priv, chainId, gas, gasAmount, msgSend) } func (suite *AnteTestSuite) CreateTestEIP712TxBuilderMsgDelegate(from sdk.AccAddress, priv cryptotypes.PrivKey, chainId string, gas uint64, gasAmount sdk.Coins) client.TxBuilder { // Build MsgSend valEthAddr := tests.GenerateAddress() valAddr := sdk.ValAddress(valEthAddr.Bytes()) msgSend := types3.NewMsgDelegate(from, valAddr, sdk.NewCoin(evmtypes.DefaultEVMDenom, sdkmath.NewInt(20))) return suite.CreateTestEIP712CosmosTxBuilder(from, priv, chainId, gas, gasAmount, msgSend) } func (suite *AnteTestSuite) CreateTestEIP712MsgCreateValidator(from sdk.AccAddress, priv cryptotypes.PrivKey, chainId string, gas uint64, gasAmount sdk.Coins) client.TxBuilder { // Build MsgCreateValidator valAddr := sdk.ValAddress(from.Bytes()) privEd := ed25519.GenPrivKey() msgCreate, err := types3.NewMsgCreateValidator( valAddr, privEd.PubKey(), sdk.NewCoin(evmtypes.DefaultEVMDenom, sdk.NewInt(20)), // TODO: can this values be empty strings? types3.NewDescription("moniker", "indentity", "website", "security_contract", "details"), types3.NewCommissionRates(sdk.OneDec(), sdk.OneDec(), sdk.OneDec()), sdk.OneInt(), ) suite.Require().NoError(err) return suite.CreateTestEIP712CosmosTxBuilder(from, priv, chainId, gas, gasAmount, msgCreate) } func (suite *AnteTestSuite) CreateTestEIP712SubmitProposal(from sdk.AccAddress, priv cryptotypes.PrivKey, chainId string, gas uint64, gasAmount sdk.Coins, deposit sdk.Coins) client.TxBuilder { proposal, ok := types5.ContentFromProposalType("My proposal", "My description", types5.ProposalTypeText) suite.Require().True(ok) msgSubmit, err := types5.NewMsgSubmitProposal(proposal, deposit, from) suite.Require().NoError(err) return suite.CreateTestEIP712CosmosTxBuilder(from, priv, chainId, gas, gasAmount, msgSubmit) } func (suite *AnteTestSuite) CreateTestEIP712GrantAllowance(from sdk.AccAddress, priv cryptotypes.PrivKey, chainId string, gas uint64, gasAmount sdk.Coins) client.TxBuilder { spendLimit := sdk.NewCoins(sdk.NewInt64Coin(evmtypes.DefaultEVMDenom, 10)) threeHours := time.Now().Add(3 * time.Hour) basic := &feegrant.BasicAllowance{ SpendLimit: spendLimit, Expiration: &threeHours, } granted := tests.GenerateAddress() grantedAddr := suite.app.AccountKeeper.NewAccountWithAddress(suite.ctx, granted.Bytes()) msgGrant, err := feegrant.NewMsgGrantAllowance(basic, from, grantedAddr.GetAddress()) suite.Require().NoError(err) return suite.CreateTestEIP712CosmosTxBuilder(from, priv, chainId, gas, gasAmount, msgGrant) } func (suite *AnteTestSuite) CreateTestEIP712MsgEditValidator(from sdk.AccAddress, priv cryptotypes.PrivKey, chainId string, gas uint64, gasAmount sdk.Coins) client.TxBuilder { valAddr := sdk.ValAddress(from.Bytes()) msgEdit := types3.NewMsgEditValidator( valAddr, types3.NewDescription("moniker", "identity", "website", "security_contract", "details"), nil, nil, ) return suite.CreateTestEIP712CosmosTxBuilder(from, priv, chainId, gas, gasAmount, msgEdit) } func (suite *AnteTestSuite) CreateTestEIP712MsgSubmitEvidence(from sdk.AccAddress, priv cryptotypes.PrivKey, chainId string, gas uint64, gasAmount sdk.Coins) client.TxBuilder { pk := ed25519.GenPrivKey() msgEvidence, err := evtypes.NewMsgSubmitEvidence(from, &evtypes.Equivocation{ Height: 11, Time: time.Now().UTC(), Power: 100, ConsensusAddress: pk.PubKey().Address().String(), }) suite.Require().NoError(err) return suite.CreateTestEIP712CosmosTxBuilder(from, priv, chainId, gas, gasAmount, msgEvidence) } // StdSignBytes returns the bytes to sign for a transaction. func StdSignBytes(cdc *codec.LegacyAmino, chainID string, accnum uint64, sequence uint64, timeout uint64, fee legacytx.StdFee, msgs []sdk.Msg, memo string, tip *txtypes.Tip) []byte { msgsBytes := make([]json.RawMessage, 0, len(msgs)) for _, msg := range msgs { legacyMsg, ok := msg.(legacytx.LegacyMsg) if !ok { panic(fmt.Errorf("expected %T when using amino JSON", (*legacytx.LegacyMsg)(nil))) } msgsBytes = append(msgsBytes, json.RawMessage(legacyMsg.GetSignBytes())) } var stdTip *legacytx.StdTip if tip != nil { if tip.Tipper == "" { panic(fmt.Errorf("tipper cannot be empty")) } stdTip = &legacytx.StdTip{Amount: tip.Amount, Tipper: tip.Tipper} } bz, err := cdc.MarshalJSON(legacytx.StdSignDoc{ AccountNumber: accnum, ChainID: chainID, Fee: json.RawMessage(fee.Bytes()), Memo: memo, Msgs: msgsBytes, Sequence: sequence, TimeoutHeight: timeout, Tip: stdTip, }) if err != nil { panic(err) } return sdk.MustSortJSON(bz) } func (suite *AnteTestSuite) CreateTestEIP712CosmosTxBuilder( from sdk.AccAddress, priv cryptotypes.PrivKey, chainId string, gas uint64, gasAmount sdk.Coins, msg sdk.Msg, ) client.TxBuilder { var err error nonce, err := suite.app.AccountKeeper.GetSequence(suite.ctx, from) suite.Require().NoError(err) pc, err := types.ParseChainID(chainId) suite.Require().NoError(err) ethChainId := pc.Uint64() // GenerateTypedData TypedData var ethermintCodec codec.ProtoCodecMarshaler registry := codectypes.NewInterfaceRegistry() types.RegisterInterfaces(registry) ethermintCodec = codec.NewProtoCodec(registry) cryptocodec.RegisterInterfaces(registry) fee := legacytx.NewStdFee(gas, gasAmount) accNumber := suite.app.AccountKeeper.GetAccount(suite.ctx, from).GetAccountNumber() data := legacytx.StdSignBytes(chainId, accNumber, nonce, 0, fee, []sdk.Msg{msg}, "", nil) typedData, err := eip712.WrapTxToTypedData(ethermintCodec, ethChainId, msg, data, &eip712.FeeDelegationOptions{ FeePayer: from, }) suite.Require().NoError(err) sigHash, err := eip712.ComputeTypedDataHash(typedData) suite.Require().NoError(err) // Sign typedData keyringSigner := tests.NewSigner(priv) signature, pubKey, err := keyringSigner.SignByAddress(from, sigHash) suite.Require().NoError(err) signature[crypto.RecoveryIDOffset] += 27 // Transform V from 0/1 to 27/28 according to the yellow paper // Add ExtensionOptionsWeb3Tx extension var option *codectypes.Any option, err = codectypes.NewAnyWithValue(&types.ExtensionOptionsWeb3Tx{ FeePayer: from.String(), TypedDataChainID: ethChainId, FeePayerSig: signature, }) suite.Require().NoError(err) suite.clientCtx.TxConfig.SignModeHandler() txBuilder := suite.clientCtx.TxConfig.NewTxBuilder() builder, ok := txBuilder.(authtx.ExtensionOptionsTxBuilder) suite.Require().True(ok) builder.SetExtensionOptions(option) builder.SetFeeAmount(gasAmount) builder.SetGasLimit(gas) sigsV2 := signing.SignatureV2{ PubKey: pubKey, Data: &signing.SingleSignatureData{ SignMode: signing.SignMode_SIGN_MODE_LEGACY_AMINO_JSON, }, Sequence: nonce, } err = builder.SetSignatures(sigsV2) suite.Require().NoError(err) err = builder.SetMsgs(msg) suite.Require().NoError(err) return builder } // Generate a set of pub/priv keys to be used in creating multi-keys func (suite *AnteTestSuite) GenerateMultipleKeys(n int) ([]cryptotypes.PrivKey, []cryptotypes.PubKey) { privKeys := make([]cryptotypes.PrivKey, n) pubKeys := make([]cryptotypes.PubKey, n) for i := 0; i < n; i++ { privKey, err := ethsecp256k1.GenerateKey() suite.Require().NoError(err) privKeys[i] = privKey pubKeys[i] = privKey.PubKey() } return privKeys, pubKeys } // generateSingleSignature signs the given sign doc bytes using the given signType (EIP-712 or Standard) func (suite *AnteTestSuite) generateSingleSignature(signMode signing.SignMode, privKey cryptotypes.PrivKey, signDocBytes []byte, signType string) (signature signing.SignatureV2) { var ( msg []byte err error ) msg = signDocBytes if signType == "EIP-712" { msg, err = eip712.GetEIP712HashForMsg(signDocBytes) suite.Require().NoError(err) } sigBytes, _ := privKey.Sign(msg) sigData := &signing.SingleSignatureData{ SignMode: signMode, Signature: sigBytes, } return signing.SignatureV2{ PubKey: privKey.PubKey(), Data: sigData, } } // generateMultikeySignatures signs a set of messages using each private key within a given multi-key func (suite *AnteTestSuite) generateMultikeySignatures(signMode signing.SignMode, privKeys []cryptotypes.PrivKey, signDocBytes []byte, signType string) (signatures []signing.SignatureV2) { n := len(privKeys) signatures = make([]signing.SignatureV2, n) for i := 0; i < n; i++ { privKey := privKeys[i] currentType := signType // If mixed type, alternate signing type on each iteration if signType == "mixed" { if i%2 == 0 { currentType = "EIP-712" } else { currentType = "Standard" } } signatures[i] = suite.generateSingleSignature( signMode, privKey, signDocBytes, currentType, ) } return signatures } // RegisterAccount creates an account with the keeper and populates the initial balance func (suite *AnteTestSuite) RegisterAccount(pubKey cryptotypes.PubKey, balance *big.Int) { acc := suite.app.AccountKeeper.NewAccountWithAddress(suite.ctx, sdk.AccAddress(pubKey.Address())) suite.app.AccountKeeper.SetAccount(suite.ctx, acc) suite.app.EvmKeeper.SetBalance(suite.ctx, common.BytesToAddress(pubKey.Address()), balance) } // createSignerBytes generates sign doc bytes using the given parameters func (suite *AnteTestSuite) createSignerBytes(chainId string, signMode signing.SignMode, pubKey cryptotypes.PubKey, txBuilder client.TxBuilder) []byte { acc, err := sdkante.GetSignerAcc(suite.ctx, suite.app.AccountKeeper, sdk.AccAddress(pubKey.Address())) suite.Require().NoError(err) signerInfo := authsigning.SignerData{ Address: sdk.MustBech32ifyAddressBytes(sdk.GetConfig().GetBech32AccountAddrPrefix(), acc.GetAddress().Bytes()), ChainID: chainId, AccountNumber: acc.GetAccountNumber(), Sequence: acc.GetSequence(), PubKey: pubKey, } signerBytes, err := suite.clientCtx.TxConfig.SignModeHandler().GetSignBytes( signMode, signerInfo, txBuilder.GetTx(), ) suite.Require().NoError(err) return signerBytes } // createBaseTxBuilder creates a TxBuilder to be used for Single- or Multi-signing func (suite *AnteTestSuite) createBaseTxBuilder(msg sdk.Msg, gas uint64) client.TxBuilder { txBuilder := suite.clientCtx.TxConfig.NewTxBuilder() txBuilder.SetGasLimit(gas) txBuilder.SetFeeAmount(sdk.NewCoins( sdk.NewCoin("aphoton", sdk.NewInt(10000)), )) err := txBuilder.SetMsgs(msg) suite.Require().NoError(err) txBuilder.SetMemo("") return txBuilder } // CreateTestSignedMultisigTx creates and sign a multi-signed tx for the given message. `signType` indicates whether to use standard signing ("Standard"), // EIP-712 signing ("EIP-712"), or a mix of the two ("mixed"). func (suite *AnteTestSuite) CreateTestSignedMultisigTx(privKeys []cryptotypes.PrivKey, signMode signing.SignMode, msg sdk.Msg, chainId string, gas uint64, signType string) client.TxBuilder { pubKeys := make([]cryptotypes.PubKey, len(privKeys)) for i, privKey := range privKeys { pubKeys[i] = privKey.PubKey() } // Re-derive multikey numKeys := len(privKeys) multiKey := kmultisig.NewLegacyAminoPubKey(numKeys, pubKeys) suite.RegisterAccount(multiKey, big.NewInt(10000000000)) txBuilder := suite.createBaseTxBuilder(msg, gas) // Prepare signature field sig := multisig.NewMultisig(len(pubKeys)) txBuilder.SetSignatures(signing.SignatureV2{ PubKey: multiKey, Data: sig, }) signerBytes := suite.createSignerBytes(chainId, signMode, multiKey, txBuilder) // Sign for each key and update signature field sigs := suite.generateMultikeySignatures(signMode, privKeys, signerBytes, signType) for _, pkSig := range sigs { err := multisig.AddSignatureV2(sig, pkSig, pubKeys) suite.Require().NoError(err) } txBuilder.SetSignatures(signing.SignatureV2{ PubKey: multiKey, Data: sig, }) return txBuilder } func (suite *AnteTestSuite) CreateTestSingleSignedTx(privKey cryptotypes.PrivKey, signMode signing.SignMode, msg sdk.Msg, chainId string, gas uint64, signType string) client.TxBuilder { pubKey := privKey.PubKey() suite.RegisterAccount(pubKey, big.NewInt(10000000000)) txBuilder := suite.createBaseTxBuilder(msg, gas) // Prepare signature field sig := signing.SingleSignatureData{} txBuilder.SetSignatures(signing.SignatureV2{ PubKey: pubKey, Data: &sig, }) signerBytes := suite.createSignerBytes(chainId, signMode, pubKey, txBuilder) sigData := suite.generateSingleSignature(signMode, privKey, signerBytes, signType) txBuilder.SetSignatures(sigData) return txBuilder } func NextFn(ctx sdk.Context, _ sdk.Tx, _ bool) (sdk.Context, error) { return ctx, nil } var _ sdk.Tx = &invalidTx{} type invalidTx struct{} func (invalidTx) GetMsgs() []sdk.Msg { return []sdk.Msg{nil} } func (invalidTx) ValidateBasic() error { return nil }