package keeper_test import ( "encoding/json" "math/big" "strings" . "github.com/onsi/ginkgo/v2" . "github.com/onsi/gomega" "github.com/cosmos/cosmos-sdk/baseapp" "github.com/cosmos/cosmos-sdk/client/tx" codectypes "github.com/cosmos/cosmos-sdk/codec/types" sdk "github.com/cosmos/cosmos-sdk/types" "github.com/cosmos/cosmos-sdk/types/tx/signing" authsigning "github.com/cosmos/cosmos-sdk/x/auth/signing" authtx "github.com/cosmos/cosmos-sdk/x/auth/tx" "github.com/ethereum/go-ethereum/common" ethtypes "github.com/ethereum/go-ethereum/core/types" "github.com/evmos/ethermint/app" "github.com/evmos/ethermint/crypto/ethsecp256k1" "github.com/evmos/ethermint/encoding" "github.com/evmos/ethermint/tests" "github.com/evmos/ethermint/testutil" "github.com/evmos/ethermint/x/feemarket/types" "github.com/cosmos/cosmos-sdk/simapp" banktypes "github.com/cosmos/cosmos-sdk/x/bank/types" evmtypes "github.com/evmos/ethermint/x/evm/types" abci "github.com/tendermint/tendermint/abci/types" "github.com/tendermint/tendermint/libs/log" dbm "github.com/tendermint/tm-db" ) var _ = Describe("Feemarket", func() { var ( privKey *ethsecp256k1.PrivKey msg banktypes.MsgSend ) Describe("Performing Cosmos transactions", func() { Context("with min-gas-prices (local) < MinGasPrices (feemarket param)", func() { BeforeEach(func() { privKey, msg = setupTestWithContext("1", sdk.NewDec(3), sdk.ZeroInt()) }) Context("during CheckTx", func() { It("should reject transactions with gasPrice < MinGasPrices", func() { gasPrice := sdk.NewInt(2) res := checkTx(privKey, &gasPrice, &msg) Expect(res.IsOK()).To(Equal(false), "transaction should have failed") Expect( strings.Contains(res.GetLog(), "provided fee < minimum global fee"), ).To(BeTrue(), res.GetLog()) }) It("should accept transactions with gasPrice >= MinGasPrices", func() { gasPrice := sdk.NewInt(3) res := checkTx(privKey, &gasPrice, &msg) Expect(res.IsOK()).To(Equal(true), "transaction should have succeeded", res.GetLog()) }) }) Context("during DeliverTx", func() { It("should reject transactions with gasPrice < MinGasPrices", func() { gasPrice := sdk.NewInt(2) res := deliverTx(privKey, &gasPrice, &msg) Expect(res.IsOK()).To(Equal(false), "transaction should have failed") Expect( strings.Contains(res.GetLog(), "provided fee < minimum global fee"), ).To(BeTrue(), res.GetLog()) }) It("should accept transactions with gasPrice >= MinGasPrices", func() { gasPrice := sdk.NewInt(3) res := deliverTx(privKey, &gasPrice, &msg) Expect(res.IsOK()).To(Equal(true), "transaction should have succeeded", res.GetLog()) }) }) }) Context("with min-gas-prices (local) == MinGasPrices (feemarket param)", func() { BeforeEach(func() { privKey, msg = setupTestWithContext("3", sdk.NewDec(3), sdk.ZeroInt()) }) Context("during CheckTx", func() { It("should reject transactions with gasPrice < min-gas-prices", func() { gasPrice := sdk.NewInt(2) res := checkTx(privKey, &gasPrice, &msg) Expect(res.IsOK()).To(Equal(false), "transaction should have failed") Expect( strings.Contains(res.GetLog(), "insufficient fee"), ).To(BeTrue(), res.GetLog()) }) It("should accept transactions with gasPrice >= MinGasPrices", func() { gasPrice := sdk.NewInt(3) res := checkTx(privKey, &gasPrice, &msg) Expect(res.IsOK()).To(Equal(true), "transaction should have succeeded", res.GetLog()) }) }) Context("during DeliverTx", func() { It("should reject transactions with gasPrice < MinGasPrices", func() { gasPrice := sdk.NewInt(2) res := deliverTx(privKey, &gasPrice, &msg) Expect(res.IsOK()).To(Equal(false), "transaction should have failed") Expect( strings.Contains(res.GetLog(), "provided fee < minimum global fee"), ).To(BeTrue(), res.GetLog()) }) It("should accept transactions with gasPrice >= MinGasPrices", func() { gasPrice := sdk.NewInt(3) res := deliverTx(privKey, &gasPrice, &msg) Expect(res.IsOK()).To(Equal(true), "transaction should have succeeded", res.GetLog()) }) }) }) Context("with MinGasPrices (feemarket param) < min-gas-prices (local)", func() { BeforeEach(func() { privKey, msg = setupTestWithContext("5", sdk.NewDec(3), sdk.ZeroInt()) }) Context("during CheckTx", func() { It("should reject transactions with gasPrice < MinGasPrices", func() { gasPrice := sdk.NewInt(2) res := checkTx(privKey, &gasPrice, &msg) Expect(res.IsOK()).To(Equal(false), "transaction should have failed") Expect( strings.Contains(res.GetLog(), "insufficient fee"), ).To(BeTrue(), res.GetLog()) }) It("should reject transactions with MinGasPrices < gasPrice < min-gas-prices", func() { gasPrice := sdk.NewInt(4) res := checkTx(privKey, &gasPrice, &msg) Expect(res.IsOK()).To(Equal(false), "transaction should have failed") Expect( strings.Contains(res.GetLog(), "insufficient fee"), ).To(BeTrue(), res.GetLog()) }) It("should accept transactions with gasPrice > min-gas-prices", func() { gasPrice := sdk.NewInt(5) res := checkTx(privKey, &gasPrice, &msg) Expect(res.IsOK()).To(Equal(true), "transaction should have succeeded", res.GetLog()) }) }) Context("during DeliverTx", func() { It("should reject transactions with gasPrice < MinGasPrices", func() { gasPrice := sdk.NewInt(2) res := deliverTx(privKey, &gasPrice, &msg) Expect(res.IsOK()).To(Equal(false), "transaction should have failed") Expect( strings.Contains(res.GetLog(), "provided fee < minimum global fee"), ).To(BeTrue(), res.GetLog()) }) It("should accept transactions with MinGasPrices < gasPrice < than min-gas-prices", func() { gasPrice := sdk.NewInt(4) res := deliverTx(privKey, &gasPrice, &msg) Expect(res.IsOK()).To(Equal(true), "transaction should have succeeded", res.GetLog()) }) It("should accept transactions with gasPrice >= min-gas-prices", func() { gasPrice := sdk.NewInt(5) res := deliverTx(privKey, &gasPrice, &msg) Expect(res.IsOK()).To(Equal(true), "transaction should have succeeded", res.GetLog()) }) }) }) }) Describe("Performing EVM transactions", func() { type txParams struct { gasPrice *big.Int gasFeeCap *big.Int gasTipCap *big.Int accesses *ethtypes.AccessList } type getprices func() txParams Context("with BaseFee (feemarket) < MinGasPrices (feemarket param)", func() { var ( baseFee int64 minGasPrices int64 ) BeforeEach(func() { baseFee = 10_000_000_000 minGasPrices = baseFee + 30_000_000_000 // Note that the tests run the same transactions with `gasLimit = // 100000`. With the fee calculation `Fee = (baseFee + tip) * gasLimit`, // a `minGasPrices = 40_000_000_000` results in `minGlobalFee = // 4000000000000000` privKey, _ = setupTestWithContext("1", sdk.NewDec(minGasPrices), sdk.NewInt(baseFee)) }) Context("during CheckTx", func() { DescribeTable("should reject transactions with EffectivePrice < MinGasPrices", func(malleate getprices) { p := malleate() to := tests.GenerateAddress() msgEthereumTx := buildEthTx(privKey, &to, p.gasPrice, p.gasFeeCap, p.gasTipCap, p.accesses) res := checkEthTx(privKey, msgEthereumTx) Expect(res.IsOK()).To(Equal(false), "transaction should have failed") Expect( strings.Contains(res.GetLog(), "provided fee < minimum global fee"), ).To(BeTrue(), res.GetLog()) }, Entry("legacy tx", func() txParams { return txParams{big.NewInt(minGasPrices - 10_000_000_000), nil, nil, nil} }), Entry("dynamic tx with GasFeeCap < MinGasPrices, no gasTipCap", func() txParams { return txParams{nil, big.NewInt(minGasPrices - 10_000_000_000), big.NewInt(0), ðtypes.AccessList{}} }), Entry("dynamic tx with GasFeeCap < MinGasPrices, max gasTipCap", func() txParams { // Note that max priority fee per gas can't be higher than the max fee per gas (gasFeeCap), i.e. 30_000_000_000) return txParams{nil, big.NewInt(minGasPrices - 10_000_000_000), big.NewInt(30_000_000_000), ðtypes.AccessList{}} }), Entry("dynamic tx with GasFeeCap > MinGasPrices, EffectivePrice < MinGasPrices", func() txParams { return txParams{nil, big.NewInt(minGasPrices + 10_000_000_000), big.NewInt(0), ðtypes.AccessList{}} }), ) DescribeTable("should accept transactions with gasPrice >= MinGasPrices", func(malleate getprices) { p := malleate() to := tests.GenerateAddress() msgEthereumTx := buildEthTx(privKey, &to, p.gasPrice, p.gasFeeCap, p.gasTipCap, p.accesses) res := checkEthTx(privKey, msgEthereumTx) Expect(res.IsOK()).To(Equal(true), "transaction should have succeeded", res.GetLog()) }, Entry("legacy tx", func() txParams { return txParams{big.NewInt(minGasPrices), nil, nil, nil} }), // Note that this tx is not rejected on CheckTx, but not on DeliverTx, // as the baseFee is set to minGasPrices during DeliverTx when baseFee // < minGasPrices Entry("dynamic tx with GasFeeCap > MinGasPrices, EffectivePrice > MinGasPrices", func() txParams { return txParams{nil, big.NewInt(minGasPrices), big.NewInt(30_000_000_000), ðtypes.AccessList{}} }), ) }) Context("during DeliverTx", func() { DescribeTable("should reject transactions with gasPrice < MinGasPrices", func(malleate getprices) { p := malleate() to := tests.GenerateAddress() msgEthereumTx := buildEthTx(privKey, &to, p.gasPrice, p.gasFeeCap, p.gasTipCap, p.accesses) res := deliverEthTx(privKey, msgEthereumTx) Expect(res.IsOK()).To(Equal(false), "transaction should have failed") Expect( strings.Contains(res.GetLog(), "provided fee < minimum global fee"), ).To(BeTrue(), res.GetLog()) }, Entry("legacy tx", func() txParams { return txParams{big.NewInt(minGasPrices - 10_000_000_000), nil, nil, nil} }), Entry("dynamic tx with GasFeeCap < MinGasPrices, no gasTipCap", func() txParams { return txParams{nil, big.NewInt(minGasPrices - 10_000_000_000), big.NewInt(0), ðtypes.AccessList{}} }), Entry("dynamic tx with GasFeeCap < MinGasPrices, max gasTipCap", func() txParams { // Note that max priority fee per gas can't be higher than the max fee per gas (gasFeeCap), i.e. 30_000_000_000) return txParams{nil, big.NewInt(minGasPrices - 10_000_000_000), big.NewInt(30_000_000_000), ðtypes.AccessList{}} }), ) DescribeTable("should accept transactions with gasPrice >= MinGasPrices", func(malleate getprices) { p := malleate() to := tests.GenerateAddress() msgEthereumTx := buildEthTx(privKey, &to, p.gasPrice, p.gasFeeCap, p.gasTipCap, p.accesses) res := deliverEthTx(privKey, msgEthereumTx) Expect(res.IsOK()).To(Equal(true), "transaction should have succeeded", res.GetLog()) }, Entry("legacy tx", func() txParams { return txParams{big.NewInt(minGasPrices + 1), nil, nil, nil} }), Entry("dynamic tx, EffectivePrice > MinGasPrices", func() txParams { return txParams{nil, big.NewInt(minGasPrices + 10_000_000_000), big.NewInt(30_000_000_000), ðtypes.AccessList{}} }), ) }) }) Context("with MinGasPrices (feemarket param) < BaseFee (feemarket)", func() { var ( baseFee int64 minGasPrices int64 ) BeforeEach(func() { baseFee = 10_000_000_000 minGasPrices = baseFee - 5_000_000_000 // Note that the tests run the same transactions with `gasLimit = // 100_000`. With the fee calculation `Fee = (baseFee + tip) * gasLimit`, // a `minGasPrices = 5_000_000_000` results in `minGlobalFee = // 500_000_000_000_000` privKey, _ = setupTestWithContext("1", sdk.NewDec(minGasPrices), sdk.NewInt(baseFee)) }) Context("during CheckTx", func() { DescribeTable("should reject transactions with gasPrice < MinGasPrices", func(malleate getprices) { p := malleate() to := tests.GenerateAddress() msgEthereumTx := buildEthTx(privKey, &to, p.gasPrice, p.gasFeeCap, p.gasTipCap, p.accesses) res := checkEthTx(privKey, msgEthereumTx) Expect(res.IsOK()).To(Equal(false), "transaction should have failed") Expect( strings.Contains(res.GetLog(), "provided fee < minimum global fee"), ).To(BeTrue(), res.GetLog()) }, Entry("legacy tx", func() txParams { return txParams{big.NewInt(minGasPrices - 1_000_000_000), nil, nil, nil} }), Entry("dynamic tx with GasFeeCap < MinGasPrices, no gasTipCap", func() txParams { return txParams{nil, big.NewInt(minGasPrices - 1_000_000_000), big.NewInt(0), ðtypes.AccessList{}} }), Entry("dynamic tx with GasFeeCap < MinGasPrices, max gasTipCap", func() txParams { return txParams{nil, big.NewInt(minGasPrices - 1_000_000_000), big.NewInt(minGasPrices - 1_000_000_000), ðtypes.AccessList{}} }), ) DescribeTable("should reject transactions with MinGasPrices < tx gasPrice < EffectivePrice", func(malleate getprices) { p := malleate() to := tests.GenerateAddress() msgEthereumTx := buildEthTx(privKey, &to, p.gasPrice, p.gasFeeCap, p.gasTipCap, p.accesses) res := checkEthTx(privKey, msgEthereumTx) Expect(res.IsOK()).To(Equal(false), "transaction should have failed") Expect( strings.Contains(res.GetLog(), "insufficient fee"), ).To(BeTrue(), res.GetLog()) }, Entry("legacy tx", func() txParams { return txParams{big.NewInt(baseFee - 1_000_000_000), nil, nil, nil} }), Entry("dynamic tx", func() txParams { return txParams{nil, big.NewInt(baseFee - 1_000_000_000), big.NewInt(0), ðtypes.AccessList{}} }), ) DescribeTable("should accept transactions with gasPrice >= EffectivePrice", func(malleate getprices) { p := malleate() to := tests.GenerateAddress() msgEthereumTx := buildEthTx(privKey, &to, p.gasPrice, p.gasFeeCap, p.gasTipCap, p.accesses) res := checkEthTx(privKey, msgEthereumTx) Expect(res.IsOK()).To(Equal(true), "transaction should have succeeded", res.GetLog()) }, Entry("legacy tx", func() txParams { return txParams{big.NewInt(baseFee), nil, nil, nil} }), Entry("dynamic tx", func() txParams { return txParams{nil, big.NewInt(baseFee), big.NewInt(0), ðtypes.AccessList{}} }), ) }) Context("during DeliverTx", func() { DescribeTable("should reject transactions with gasPrice < MinGasPrices", func(malleate getprices) { p := malleate() to := tests.GenerateAddress() msgEthereumTx := buildEthTx(privKey, &to, p.gasPrice, p.gasFeeCap, p.gasTipCap, p.accesses) res := deliverEthTx(privKey, msgEthereumTx) Expect(res.IsOK()).To(Equal(false), "transaction should have failed") Expect( strings.Contains(res.GetLog(), "provided fee < minimum global fee"), ).To(BeTrue(), res.GetLog()) }, Entry("legacy tx", func() txParams { return txParams{big.NewInt(minGasPrices - 1_000_000_000), nil, nil, nil} }), Entry("dynamic tx", func() txParams { return txParams{nil, big.NewInt(minGasPrices - 1_000_000_000), nil, ðtypes.AccessList{}} }), ) DescribeTable("should reject transactions with MinGasPrices < gasPrice < EffectivePrice", func(malleate getprices) { p := malleate() to := tests.GenerateAddress() msgEthereumTx := buildEthTx(privKey, &to, p.gasPrice, p.gasFeeCap, p.gasTipCap, p.accesses) res := deliverEthTx(privKey, msgEthereumTx) Expect(res.IsOK()).To(Equal(false), "transaction should have failed") Expect( strings.Contains(res.GetLog(), "insufficient fee"), ).To(BeTrue(), res.GetLog()) }, // Note that the baseFee is not 10_000_000_000 anymore but updates to 8_750_000_000 because of the s.Commit Entry("legacy tx", func() txParams { return txParams{big.NewInt(baseFee - 2_000_000_000), nil, nil, nil} }), Entry("dynamic tx", func() txParams { return txParams{nil, big.NewInt(baseFee - 2_000_000_000), big.NewInt(0), ðtypes.AccessList{}} }), ) DescribeTable("should accept transactions with gasPrice >= EffectivePrice", func(malleate getprices) { p := malleate() to := tests.GenerateAddress() msgEthereumTx := buildEthTx(privKey, &to, p.gasPrice, p.gasFeeCap, p.gasTipCap, p.accesses) res := deliverEthTx(privKey, msgEthereumTx) Expect(res.IsOK()).To(Equal(true), "transaction should have succeeded", res.GetLog()) }, Entry("legacy tx", func() txParams { return txParams{big.NewInt(baseFee), nil, nil, nil} }), Entry("dynamic tx", func() txParams { return txParams{nil, big.NewInt(baseFee), big.NewInt(0), ðtypes.AccessList{}} }), ) }) }) }) }) // setupTestWithContext sets up a test chain with an example Cosmos send msg, // given a local (validator config) and a gloabl (feemarket param) minGasPrice func setupTestWithContext(valMinGasPrice string, minGasPrice sdk.Dec, baseFee sdk.Int) (*ethsecp256k1.PrivKey, banktypes.MsgSend) { privKey, msg := setupTest(valMinGasPrice + s.denom) params := types.DefaultParams() params.MinGasPrice = minGasPrice s.app.FeeMarketKeeper.SetParams(s.ctx, params) s.app.FeeMarketKeeper.SetBaseFee(s.ctx, baseFee.BigInt()) s.Commit() return privKey, msg } func setupTest(localMinGasPrices string) (*ethsecp256k1.PrivKey, banktypes.MsgSend) { setupChain(localMinGasPrices) privKey, address := generateKey() amount, ok := sdk.NewIntFromString("10000000000000000000") s.Require().True(ok) initBalance := sdk.Coins{sdk.Coin{ Denom: s.denom, Amount: amount, }} testutil.FundAccount(s.app.BankKeeper, s.ctx, address, initBalance) msg := banktypes.MsgSend{ FromAddress: address.String(), ToAddress: address.String(), Amount: sdk.Coins{sdk.Coin{ Denom: s.denom, Amount: sdk.NewInt(10000), }}, } s.Commit() return privKey, msg } func setupChain(localMinGasPricesStr string) { // Initialize the app, so we can use SetMinGasPrices to set the // validator-specific min-gas-prices setting db := dbm.NewMemDB() newapp := app.NewEthermintApp( log.NewNopLogger(), db, nil, true, map[int64]bool{}, app.DefaultNodeHome, 5, encoding.MakeConfig(app.ModuleBasics), simapp.EmptyAppOptions{}, baseapp.SetMinGasPrices(localMinGasPricesStr), ) genesisState := app.NewTestGenesisState(newapp.AppCodec()) genesisState[types.ModuleName] = newapp.AppCodec().MustMarshalJSON(types.DefaultGenesisState()) stateBytes, err := json.MarshalIndent(genesisState, "", " ") s.Require().NoError(err) // Initialize the chain newapp.InitChain( abci.RequestInitChain{ ChainId: "ethermint_9000-1", Validators: []abci.ValidatorUpdate{}, AppStateBytes: stateBytes, ConsensusParams: app.DefaultConsensusParams, }, ) s.app = newapp s.SetupApp(false) } func generateKey() (*ethsecp256k1.PrivKey, sdk.AccAddress) { address, priv := tests.NewAddrKey() return priv.(*ethsecp256k1.PrivKey), sdk.AccAddress(address.Bytes()) } func getNonce(addressBytes []byte) uint64 { return s.app.EvmKeeper.GetNonce( s.ctx, common.BytesToAddress(addressBytes), ) } func buildEthTx( priv *ethsecp256k1.PrivKey, to *common.Address, gasPrice *big.Int, gasFeeCap *big.Int, gasTipCap *big.Int, accesses *ethtypes.AccessList, ) *evmtypes.MsgEthereumTx { chainID := s.app.EvmKeeper.ChainID() from := common.BytesToAddress(priv.PubKey().Address().Bytes()) nonce := getNonce(from.Bytes()) data := make([]byte, 0) gasLimit := uint64(100000) msgEthereumTx := evmtypes.NewTx( chainID, nonce, to, nil, gasLimit, gasPrice, gasFeeCap, gasTipCap, data, accesses, ) msgEthereumTx.From = from.String() return msgEthereumTx } func prepareEthTx(priv *ethsecp256k1.PrivKey, msgEthereumTx *evmtypes.MsgEthereumTx) []byte { encodingConfig := encoding.MakeConfig(app.ModuleBasics) option, err := codectypes.NewAnyWithValue(&evmtypes.ExtensionOptionsEthereumTx{}) s.Require().NoError(err) txBuilder := encodingConfig.TxConfig.NewTxBuilder() builder, ok := txBuilder.(authtx.ExtensionOptionsTxBuilder) s.Require().True(ok) builder.SetExtensionOptions(option) err = msgEthereumTx.Sign(s.ethSigner, tests.NewSigner(priv)) s.Require().NoError(err) msgEthereumTx.From = "" err = txBuilder.SetMsgs(msgEthereumTx) s.Require().NoError(err) txData, err := evmtypes.UnpackTxData(msgEthereumTx.Data) s.Require().NoError(err) evmDenom := s.app.EvmKeeper.GetParams(s.ctx).EvmDenom fees := sdk.Coins{{Denom: evmDenom, Amount: sdk.NewIntFromBigInt(txData.Fee())}} builder.SetFeeAmount(fees) builder.SetGasLimit(msgEthereumTx.GetGas()) // bz are bytes to be broadcasted over the network bz, err := encodingConfig.TxConfig.TxEncoder()(txBuilder.GetTx()) s.Require().NoError(err) return bz } func checkEthTx(priv *ethsecp256k1.PrivKey, msgEthereumTx *evmtypes.MsgEthereumTx) abci.ResponseCheckTx { bz := prepareEthTx(priv, msgEthereumTx) req := abci.RequestCheckTx{Tx: bz} res := s.app.BaseApp.CheckTx(req) return res } func deliverEthTx(priv *ethsecp256k1.PrivKey, msgEthereumTx *evmtypes.MsgEthereumTx) abci.ResponseDeliverTx { bz := prepareEthTx(priv, msgEthereumTx) req := abci.RequestDeliverTx{Tx: bz} res := s.app.BaseApp.DeliverTx(req) return res } func prepareCosmosTx(priv *ethsecp256k1.PrivKey, gasPrice *sdk.Int, msgs ...sdk.Msg) []byte { encodingConfig := encoding.MakeConfig(app.ModuleBasics) accountAddress := sdk.AccAddress(priv.PubKey().Address().Bytes()) txBuilder := encodingConfig.TxConfig.NewTxBuilder() txBuilder.SetGasLimit(1000000) if gasPrice == nil { _gasPrice := sdk.NewInt(1) gasPrice = &_gasPrice } fees := &sdk.Coins{{Denom: s.denom, Amount: gasPrice.MulRaw(1000000)}} txBuilder.SetFeeAmount(*fees) err := txBuilder.SetMsgs(msgs...) s.Require().NoError(err) seq, err := s.app.AccountKeeper.GetSequence(s.ctx, accountAddress) s.Require().NoError(err) // 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: encodingConfig.TxConfig.SignModeHandler().DefaultMode(), Signature: nil, }, Sequence: seq, } sigsV2 := []signing.SignatureV2{sigV2} err = txBuilder.SetSignatures(sigsV2...) s.Require().NoError(err) // Second round: all signer infos are set, so each signer can sign. accNumber := s.app.AccountKeeper.GetAccount(s.ctx, accountAddress).GetAccountNumber() signerData := authsigning.SignerData{ ChainID: s.ctx.ChainID(), AccountNumber: accNumber, Sequence: seq, } sigV2, err = tx.SignWithPrivKey( encodingConfig.TxConfig.SignModeHandler().DefaultMode(), signerData, txBuilder, priv, encodingConfig.TxConfig, seq, ) s.Require().NoError(err) sigsV2 = []signing.SignatureV2{sigV2} err = txBuilder.SetSignatures(sigsV2...) s.Require().NoError(err) // bz are bytes to be broadcasted over the network bz, err := encodingConfig.TxConfig.TxEncoder()(txBuilder.GetTx()) s.Require().NoError(err) return bz } func checkTx(priv *ethsecp256k1.PrivKey, gasPrice *sdk.Int, msgs ...sdk.Msg) abci.ResponseCheckTx { bz := prepareCosmosTx(priv, gasPrice, msgs...) req := abci.RequestCheckTx{Tx: bz} res := s.app.BaseApp.CheckTx(req) return res } func deliverTx(priv *ethsecp256k1.PrivKey, gasPrice *sdk.Int, msgs ...sdk.Msg) abci.ResponseDeliverTx { bz := prepareCosmosTx(priv, gasPrice, msgs...) req := abci.RequestDeliverTx{Tx: bz} res := s.app.BaseApp.DeliverTx(req) return res }