package keeper_test import ( "math/big" "testing" "github.com/stretchr/testify/suite" sdkmath "cosmossdk.io/math" sdk "github.com/cosmos/cosmos-sdk/types" "github.com/ethereum/go-ethereum/common" "github.com/ethereum/go-ethereum/common/math" "github.com/0glabs/0g-chain/app" "github.com/0glabs/0g-chain/x/evmutil/keeper" "github.com/0glabs/0g-chain/x/evmutil/testutil" "github.com/0glabs/0g-chain/x/evmutil/types" ) type MsgServerSuite struct { testutil.Suite msgServer types.MsgServer } func (suite *MsgServerSuite) SetupTest() { suite.Suite.SetupTest() suite.msgServer = keeper.NewMsgServerImpl(suite.App.GetEvmutilKeeper()) } func TestMsgServerSuite(t *testing.T) { suite.Run(t, new(MsgServerSuite)) } func (suite *MsgServerSuite) TestConvertCoinToERC20() { invoker, err := sdk.AccAddressFromBech32("0g1ffv7nhd3z6sych2qpqkk03ec6hzkmufyhp5hf8") suite.Require().NoError(err) err = suite.App.FundAccount(suite.Ctx, invoker, sdk.NewCoins(sdk.NewCoin("erc20/usdc", sdkmath.NewInt(10000)))) suite.Require().NoError(err) contractAddr := suite.DeployERC20() pair := types.NewConversionPair( contractAddr, "erc20/usdc", ) // Module account should have starting balance pairStartingBal := big.NewInt(10000) err = suite.Keeper.MintERC20( suite.Ctx, pair.GetAddress(), // contractAddr types.NewInternalEVMAddress(types.ModuleEVMAddress), //receiver pairStartingBal, ) suite.Require().NoError(err) type errArgs struct { expectPass bool contains string } tests := []struct { name string msg types.MsgConvertCoinToERC20 errArgs errArgs }{ { "valid", types.NewMsgConvertCoinToERC20( invoker.String(), "0xC02aaA39b223FE8D0A0e5C4F27eAD9083C756Cc2", sdk.NewCoin("erc20/usdc", sdkmath.NewInt(1234)), ), errArgs{ expectPass: true, }, }, { "invalid - odd length hex address", types.NewMsgConvertCoinToERC20( invoker.String(), "0xC02aaA39b223FE8D0A0e5C4F27eAD9083C756Cc", sdk.NewCoin("erc20/usdc", sdkmath.NewInt(1234)), ), errArgs{ expectPass: false, contains: "invalid Receiver address: string is not a hex address", }, }, // Amount coin is not validated by msg_server, but on msg itself } for _, tc := range tests { suite.Run(tc.name, func() { _, err := suite.msgServer.ConvertCoinToERC20(sdk.WrapSDKContext(suite.Ctx), &tc.msg) if tc.errArgs.expectPass { suite.Require().NoError(err) bal := suite.GetERC20BalanceOf( types.ERC20MintableBurnableContract.ABI, pair.GetAddress(), testutil.MustNewInternalEVMAddressFromString(tc.msg.Receiver), ) suite.Require().Equal(tc.msg.Amount.Amount.BigInt(), bal, "balance should match converted amount") // msg server event suite.EventsContains(suite.GetEvents(), sdk.NewEvent( sdk.EventTypeMessage, sdk.NewAttribute(sdk.AttributeKeyModule, types.AttributeValueCategory), sdk.NewAttribute(sdk.AttributeKeySender, tc.msg.Initiator), )) // keeper event suite.EventsContains(suite.GetEvents(), sdk.NewEvent( types.EventTypeConvertCoinToERC20, sdk.NewAttribute(types.AttributeKeyInitiator, tc.msg.Initiator), sdk.NewAttribute(types.AttributeKeyReceiver, tc.msg.Receiver), sdk.NewAttribute(types.AttributeKeyERC20Address, pair.GetAddress().String()), sdk.NewAttribute(types.AttributeKeyAmount, tc.msg.Amount.String()), )) } else { suite.Require().Error(err) suite.Require().Contains(err.Error(), tc.errArgs.contains) } }) } } func (suite *MsgServerSuite) TestConvertERC20ToCoin() { contractAddr := suite.DeployERC20() pair := types.NewConversionPair( contractAddr, "erc20/usdc", ) // give invoker account some erc20 usdc to begin with invoker := testutil.MustNewInternalEVMAddressFromString("0xC02aaA39b223FE8D0A0e5C4F27eAD9083C756Cc2") pairStartingBal := big.NewInt(10_000_000) err := suite.Keeper.MintERC20( suite.Ctx, pair.GetAddress(), // contractAddr invoker, //receiver pairStartingBal, ) suite.Require().NoError(err) invokerCosmosAddr, err := sdk.AccAddressFromHexUnsafe(invoker.String()[2:]) suite.Require().NoError(err) // create user account, otherwise `CallEVMWithData` will fail due to failing to get user account when finding its sequence. err = suite.App.FundAccount(suite.Ctx, invokerCosmosAddr, sdk.NewCoins(sdk.NewCoin(pair.Denom, sdk.ZeroInt()))) suite.Require().NoError(err) type errArgs struct { expectPass bool contains string } tests := []struct { name string msg types.MsgConvertERC20ToCoin approvalAmount *big.Int errArgs errArgs }{ { "valid", types.NewMsgConvertERC20ToCoin( invoker, invokerCosmosAddr, contractAddr, sdkmath.NewInt(10_000), ), math.MaxBig256, errArgs{ expectPass: true, }, }, { "invalid - invalid hex address", types.MsgConvertERC20ToCoin{ Initiator: "0xC02aaA39b223FE8D0A0e5C4F27eAD9083C756Cc", Receiver: invokerCosmosAddr.String(), ZgChainERC20Address: contractAddr.String(), Amount: sdkmath.NewInt(10_000), }, math.MaxBig256, errArgs{ expectPass: false, contains: "invalid initiator address: string is not a hex address", }, }, { "invalid - insufficient coins", types.NewMsgConvertERC20ToCoin( invoker, invokerCosmosAddr, contractAddr, sdkmath.NewIntFromBigInt(pairStartingBal).Add(sdk.OneInt()), ), math.MaxBig256, errArgs{ expectPass: false, contains: "transfer amount exceeds balance", }, }, { "invalid - contract address", types.NewMsgConvertERC20ToCoin( invoker, invokerCosmosAddr, testutil.MustNewInternalEVMAddressFromString("0x7Bbf300890857b8c241b219C6a489431669b3aFA"), sdkmath.NewInt(10_000), ), math.MaxBig256, errArgs{ expectPass: false, contains: "ERC20 token not enabled to convert to sdk.Coin", }, }, } for _, tc := range tests { suite.Run(tc.name, func() { _, err := suite.msgServer.ConvertERC20ToCoin(sdk.WrapSDKContext(suite.Ctx), &tc.msg) if tc.errArgs.expectPass { suite.Require().NoError(err) // validate user balance after conversion bal := suite.GetERC20BalanceOf( types.ERC20MintableBurnableContract.ABI, pair.GetAddress(), testutil.MustNewInternalEVMAddressFromString(tc.msg.Initiator), ) expectedBal := sdkmath.NewIntFromBigInt(pairStartingBal).Sub(tc.msg.Amount) suite.Require().Equal(expectedBal.BigInt(), bal, "user erc20 balance is invalid") // validate user coin balance coinBal := suite.App.GetBankKeeper().GetBalance(suite.Ctx, invokerCosmosAddr, pair.Denom) suite.Require().Equal(tc.msg.Amount, coinBal.Amount, "user coin balance is invalid") // msg server event suite.EventsContains(suite.GetEvents(), sdk.NewEvent( sdk.EventTypeMessage, sdk.NewAttribute(sdk.AttributeKeyModule, types.AttributeValueCategory), sdk.NewAttribute(sdk.AttributeKeySender, tc.msg.Initiator), )) // keeper event suite.EventsContains(suite.GetEvents(), sdk.NewEvent( types.EventTypeConvertERC20ToCoin, sdk.NewAttribute(types.AttributeKeyERC20Address, pair.GetAddress().String()), sdk.NewAttribute(types.AttributeKeyInitiator, tc.msg.Initiator), sdk.NewAttribute(types.AttributeKeyReceiver, tc.msg.Receiver), sdk.NewAttribute(types.AttributeKeyAmount, sdk.NewCoin(pair.Denom, tc.msg.Amount).String()), )) } else { suite.Require().Error(err) suite.Require().Contains(err.Error(), tc.errArgs.contains) } }) } } func (suite *MsgServerSuite) TestConvertCosmosCoinToERC20_InitialContractDeploy() { allowedDenom := "ibc/27394FB092D2ECCD56123C74F36E4C1F926001CEADA9CA97EA622B25F41E5EB2" initialFunding := int64(1e10) fundedAccount := app.RandomAddress() setup := func() { suite.SetupTest() // make the denom allowed for conversion params := suite.Keeper.GetParams(suite.Ctx) params.AllowedCosmosDenoms = types.NewAllowedCosmosCoinERC20Tokens( types.NewAllowedCosmosCoinERC20Token(allowedDenom, "0gChain EVM Atom", "ATOM", 6), ) suite.Keeper.SetParams(suite.Ctx, params) // fund account err := suite.App.FundAccount(suite.Ctx, fundedAccount, sdk.NewCoins( sdk.NewInt64Coin(allowedDenom, initialFunding), )) suite.NoError(err, "failed to initially fund account") } testCases := []struct { name string msg types.MsgConvertCosmosCoinToERC20 amountConverted sdkmath.Int expectedErr string }{ { name: "valid - first conversion deploys contract, send to self", msg: types.NewMsgConvertCosmosCoinToERC20( fundedAccount.String(), common.BytesToAddress(fundedAccount.Bytes()).Hex(), // it's me! sdk.NewInt64Coin(allowedDenom, 5e7), ), amountConverted: sdkmath.NewInt(5e7), expectedErr: "", }, { name: "valid - first conversion deploys contract, send to other", msg: types.NewMsgConvertCosmosCoinToERC20( fundedAccount.String(), testutil.RandomEvmAddress().Hex(), // someone else! sdk.NewInt64Coin(allowedDenom, 9993317), ), amountConverted: sdkmath.NewInt(9993317), expectedErr: "", }, { name: "invalid - un-allowed denom", msg: types.NewMsgConvertCosmosCoinToERC20( app.RandomAddress().String(), testutil.RandomEvmAddress().Hex(), sdk.NewInt64Coin("not-allowed-denom", 1e4), ), expectedErr: "sdk.Coin not enabled to convert to ERC20 token", }, { name: "invalid - bad initiator", msg: types.NewMsgConvertCosmosCoinToERC20( "invalid-0g-address", testutil.RandomEvmAddress().Hex(), sdk.NewInt64Coin(allowedDenom, 1e4), ), expectedErr: "invalid initiator address", }, { name: "invalid - bad receiver", msg: types.NewMsgConvertCosmosCoinToERC20( app.RandomAddress().String(), "invalid-0x-address", sdk.NewInt64Coin(allowedDenom, 1e4), ), expectedErr: "invalid receiver address", }, { name: "invalid - bad receiver", msg: types.NewMsgConvertCosmosCoinToERC20( app.RandomAddress().String(), "invalid-0x-address", sdk.NewInt64Coin(allowedDenom, 1e4), ), expectedErr: "invalid receiver address", }, { name: "invalid - insufficient balance", msg: types.NewMsgConvertCosmosCoinToERC20( fundedAccount.String(), testutil.RandomEvmAddress().Hex(), sdk.NewInt64Coin(allowedDenom, initialFunding+1), ), expectedErr: "insufficient funds", }, // NOTE: a zero amount tx passes in this scope but will fail to pass ValidateBasic() } for _, tc := range testCases { suite.Run(tc.name, func() { // initial setup setup() moduleBalanceBefore := suite.ModuleBalance(allowedDenom) // submit message _, err := suite.msgServer.ConvertCosmosCoinToERC20(suite.Ctx, &tc.msg) // verify error, if expected if tc.expectedErr != "" { suite.ErrorContains(err, tc.expectedErr) // the contract wasn't previously deployed, so still shouldn't be _, found := suite.Keeper.GetDeployedCosmosCoinContract(suite.Ctx, allowedDenom) suite.False(found) return } // verify success suite.NoError(err) initiator := sdk.MustAccAddressFromBech32(tc.msg.Initiator) receiver := testutil.MustNewInternalEVMAddressFromString(tc.msg.Receiver) // initiator no longer has sdk coins cosmosBalanceAfter := suite.BankKeeper.GetBalance(suite.Ctx, initiator, allowedDenom) suite.Equal( sdkmath.NewInt(initialFunding).Sub(tc.amountConverted), cosmosBalanceAfter.Amount, "unexpected sdk.Coin balance of initiator", ) // sdk coins are locked into module moduleBalanceAfter := suite.ModuleBalance(allowedDenom) suite.Equal( moduleBalanceBefore.Add(tc.amountConverted), moduleBalanceAfter, "unexpected module balance", ) // deployed contract address is registered in module store contractAddress, found := suite.Keeper.GetDeployedCosmosCoinContract(suite.Ctx, allowedDenom) suite.True(found, "expected deployed contract address to be registered, found none") // receiver has been minted correct number of tokens erc20Balance, err := suite.Keeper.QueryERC20BalanceOf(suite.Ctx, contractAddress, receiver) suite.NoError(err) suite.Equal(tc.amountConverted.BigInt(), erc20Balance, "unexpected erc20 balance for receiver") // msg server event suite.EventsContains(suite.GetEvents(), sdk.NewEvent( sdk.EventTypeMessage, sdk.NewAttribute(sdk.AttributeKeyModule, types.AttributeValueCategory), sdk.NewAttribute(sdk.AttributeKeySender, initiator.String()), )) // keeper event suite.EventsContains(suite.GetEvents(), sdk.NewEvent( types.EventTypeConvertCosmosCoinToERC20, sdk.NewAttribute(types.AttributeKeyInitiator, initiator.String()), sdk.NewAttribute(types.AttributeKeyReceiver, receiver.String()), sdk.NewAttribute(types.AttributeKeyERC20Address, contractAddress.Hex()), sdk.NewAttribute(types.AttributeKeyAmount, tc.msg.Amount.String()), )) }) } } func (suite *MsgServerSuite) TestConvertCosmosCoinToERC20_AlreadyDeployedContract() { allowedDenom := "ibc/27394FB092D2ECCD56123C74F36E4C1F926001CEADA9CA97EA622B25F41E5EB2" initialFunding := int64(1e10) fundedAccount := app.RandomAddress() amount := sdkmath.NewInt(6e8) receiver1 := types.BytesToInternalEVMAddress(app.RandomAddress().Bytes()) receiver2 := types.BytesToInternalEVMAddress(app.RandomAddress().Bytes()) suite.SetupTest() // make the denom allowed for conversion params := suite.Keeper.GetParams(suite.Ctx) params.AllowedCosmosDenoms = types.NewAllowedCosmosCoinERC20Tokens( types.NewAllowedCosmosCoinERC20Token(allowedDenom, "0gChain EVM Atom", "ATOM", 6), ) suite.Keeper.SetParams(suite.Ctx, params) // fund account err := suite.App.FundAccount(suite.Ctx, fundedAccount, sdk.NewCoins( sdk.NewInt64Coin(allowedDenom, initialFunding), )) suite.NoError(err, "failed to initially fund account") // verify contract is not deployed _, found := suite.Keeper.GetDeployedCosmosCoinContract(suite.Ctx, allowedDenom) suite.False(found) // initial convert deploys contract msg := types.NewMsgConvertCosmosCoinToERC20( fundedAccount.String(), receiver1.Hex(), sdk.NewCoin(allowedDenom, amount), ) _, err = suite.msgServer.ConvertCosmosCoinToERC20(suite.Ctx, &msg) suite.NoError(err) contractAddress, found := suite.Keeper.GetDeployedCosmosCoinContract(suite.Ctx, allowedDenom) suite.True(found) // second convert uses same contract msg.Receiver = receiver2.Hex() _, err = suite.msgServer.ConvertCosmosCoinToERC20(suite.Ctx, &msg) suite.NoError(err) after2ndUseAddress, found := suite.Keeper.GetDeployedCosmosCoinContract(suite.Ctx, allowedDenom) suite.True(found) suite.Equal(contractAddress, after2ndUseAddress, "contract address should remain the same") // check balances bal1, err := suite.Keeper.QueryERC20BalanceOf(suite.Ctx, contractAddress, receiver1) suite.NoError(err) suite.Equal(amount.BigInt(), bal1) bal2, err := suite.Keeper.QueryERC20BalanceOf(suite.Ctx, contractAddress, receiver2) suite.NoError(err) suite.Equal(amount.BigInt(), bal2) // check total supply caller, key := testutil.RandomEvmAccount() totalSupply, err := suite.QueryContract( types.ERC20ZgChainWrappedCosmosCoinContract.ABI, caller, key, contractAddress, "totalSupply", ) suite.NoError(err) suite.Len(totalSupply, 1) suite.Equal(amount.MulRaw(2).BigInt(), totalSupply[0].(*big.Int)) } func (suite *MsgServerSuite) TestConvertCosmosCoinFromERC20() { denom := "magic" tokenInfo := types.NewAllowedCosmosCoinERC20Token(denom, "Cosmos Coin", "MAGIC", 6) initialPosition := sdk.NewInt64Coin(denom, 1e10) initiator := testutil.RandomInternalEVMAddress() var contractAddress types.InternalEVMAddress setup := func() { suite.SetupTest() // allow conversion to the denom params := suite.Keeper.GetParams(suite.Ctx) params.AllowedCosmosDenoms = append(params.AllowedCosmosDenoms, tokenInfo) suite.Keeper.SetParams(suite.Ctx, params) // setup initial position addr := app.RandomAddress() err := suite.App.FundAccount(suite.Ctx, addr, sdk.NewCoins(initialPosition)) suite.NoError(err) err = suite.Keeper.ConvertCosmosCoinToERC20(suite.Ctx, addr, initiator, initialPosition) suite.NoError(err) contractAddress, _ = suite.Keeper.GetDeployedCosmosCoinContract(suite.Ctx, denom) } testCases := []struct { name string msg types.MsgConvertCosmosCoinFromERC20 amountConverted sdkmath.Int expectedErr string }{ { name: "valid - full convert", msg: types.NewMsgConvertCosmosCoinFromERC20( initiator.Hex(), app.RandomAddress().String(), initialPosition, ), amountConverted: initialPosition.Amount, expectedErr: "", }, { name: "valid - partial convert", msg: types.NewMsgConvertCosmosCoinFromERC20( initiator.Hex(), app.RandomAddress().String(), sdk.NewInt64Coin(denom, 123456), ), amountConverted: sdkmath.NewInt(123456), expectedErr: "", }, { name: "invalid - bad initiator", msg: types.NewMsgConvertCosmosCoinFromERC20( "invalid-address", app.RandomAddress().String(), sdk.NewInt64Coin(denom, 123456), ), amountConverted: sdkmath.ZeroInt(), expectedErr: "invalid initiator address", }, { name: "invalid - bad receiver", msg: types.NewMsgConvertCosmosCoinFromERC20( testutil.RandomEvmAddress().Hex(), "invalid-address", sdk.NewInt64Coin(denom, 123456), ), amountConverted: sdkmath.ZeroInt(), expectedErr: "invalid receiver address", }, { name: "invalid - unsupported asset", msg: types.NewMsgConvertCosmosCoinFromERC20( initiator.Hex(), app.RandomAddress().String(), sdk.NewInt64Coin("not-supported", 123456), ), amountConverted: sdkmath.ZeroInt(), expectedErr: "no erc20 contract found", }, { name: "invalid - insufficient funds", msg: types.NewMsgConvertCosmosCoinFromERC20( initiator.Hex(), app.RandomAddress().String(), initialPosition.AddAmount(sdkmath.OneInt()), ), amountConverted: sdkmath.ZeroInt(), expectedErr: "failed to convert to cosmos coins: insufficient funds", }, } for _, tc := range testCases { suite.Run(tc.name, func() { setup() _, err := suite.msgServer.ConvertCosmosCoinFromERC20(suite.Ctx, &tc.msg) if tc.expectedErr != "" { suite.ErrorContains(err, tc.expectedErr) // expect no change in erc20 balance balance, err := suite.Keeper.QueryERC20BalanceOf(suite.Ctx, contractAddress, initiator) suite.NoError(err) suite.BigIntsEqual(initialPosition.Amount.BigInt(), balance, "expected no change in initiator's erc20 balance") // expect no change in module balance suite.Equal(initialPosition.Amount, suite.ModuleBalance(denom), "expected no change in module balance") return } suite.NoError(err) receiver := sdk.MustAccAddressFromBech32(tc.msg.Receiver) // expect receiver to have the sdk coins sdkBalance := suite.BankKeeper.GetBalance(suite.Ctx, receiver, denom) suite.Equal(tc.amountConverted, sdkBalance.Amount) newEvmBalance := initialPosition.SubAmount(tc.amountConverted) // expect initiator to have the balance deducted evmBalance, err := suite.Keeper.QueryERC20BalanceOf(suite.Ctx, contractAddress, initiator) suite.NoError(err) suite.BigIntsEqual(newEvmBalance.Amount.BigInt(), evmBalance, "unexpected initiator final erc20 balance") // expect tokens to be deducted from module account suite.True(newEvmBalance.Amount.Equal(suite.ModuleBalance(denom)), "unexpected module balance") // expect erc20 total supply to reflect new value caller, key := testutil.RandomEvmAccount() totalSupply, err := suite.QueryContract( types.ERC20ZgChainWrappedCosmosCoinContract.ABI, caller, key, contractAddress, "totalSupply", ) suite.NoError(err) suite.BigIntsEqual(newEvmBalance.Amount.BigInt(), totalSupply[0].(*big.Int), "unexpected total supply") }) } } // the test verifies the behavior for when a denom is removed from the params list // after conversions have been made: // - it should prevent more conversions from sdk -> evm for that denom // - existing erc20s should be allowed to get converted back to a sdk.Coins // - allowing the denom again should use existing contract func (suite *MsgServerSuite) TestConvertCosmosCoinForRemovedDenom() { denom := "magic" tokenInfo := types.NewAllowedCosmosCoinERC20Token(denom, "MAGIC COIN", "MAGIC", 6) account := app.RandomAddress() evmAddr := types.BytesToInternalEVMAddress(account.Bytes()) coin := func(amt int64) sdk.Coin { return sdk.NewInt64Coin(denom, amt) } // fund account suite.NoError(suite.App.FundAccount(suite.Ctx, account, sdk.NewCoins(coin(1e10)))) // setup the token as allowed params := suite.Keeper.GetParams(suite.Ctx) params.AllowedCosmosDenoms = append(params.AllowedCosmosDenoms, tokenInfo) suite.Keeper.SetParams(suite.Ctx, params) // convert some coins while its allowed msg := types.NewMsgConvertCosmosCoinToERC20(account.String(), evmAddr.Hex(), coin(5e9)) _, err := suite.msgServer.ConvertCosmosCoinToERC20(suite.Ctx, &msg) suite.NoError(err) // expect contract registered contractAddress, isRegistered := suite.Keeper.GetDeployedCosmosCoinContract(suite.Ctx, denom) suite.True(isRegistered) suite.False(contractAddress.IsNil()) // unregister contract params.AllowedCosmosDenoms = []types.AllowedCosmosCoinERC20Token{} suite.Keeper.SetParams(suite.Ctx, params) suite.Run("disallows sdk -> evm when removed", func() { msg := types.NewMsgConvertCosmosCoinToERC20(account.String(), evmAddr.Hex(), coin(5e9)) _, err := suite.msgServer.ConvertCosmosCoinToERC20(suite.Ctx, &msg) suite.ErrorContains(err, "sdk.Coin not enabled to convert to ERC20 token") }) suite.Run("allows conversion of existing ERC20s", func() { msg := types.NewMsgConvertCosmosCoinFromERC20(evmAddr.Hex(), account.String(), coin(5e9)) _, err := suite.msgServer.ConvertCosmosCoinFromERC20(suite.Ctx, &msg) suite.NoError(err) // should be fully withdrawn erc20Bal, err := suite.Keeper.QueryERC20BalanceOf(suite.Ctx, contractAddress, evmAddr) suite.NoError(err) suite.BigIntsEqual(big.NewInt(0), erc20Bal, "cosmos coins were not converted back") sdkBal := suite.BankKeeper.GetBalance(suite.Ctx, account, denom) suite.Equal(coin(1e10), sdkBal) }) suite.Run("contract stays registered", func() { postDisableContractAddress, found := suite.Keeper.GetDeployedCosmosCoinContract(suite.Ctx, denom) suite.True(found) suite.Equal(contractAddress, postDisableContractAddress) }) suite.Run("re-enable uses original contract", func() { // re-enable contract params.AllowedCosmosDenoms = append(params.AllowedCosmosDenoms, tokenInfo) suite.Keeper.SetParams(suite.Ctx, params) // attempt conversion msg := types.NewMsgConvertCosmosCoinToERC20(account.String(), evmAddr.Hex(), coin(1e10)) _, err := suite.msgServer.ConvertCosmosCoinToERC20(suite.Ctx, &msg) suite.NoError(err) // should have balance on original ERC20 contract erc20Bal, err := suite.Keeper.QueryERC20BalanceOf(suite.Ctx, contractAddress, evmAddr) suite.NoError(err) suite.BigIntsEqual(big.NewInt(1e10), erc20Bal, "cosmos coins were not converted") sdkBal := suite.BankKeeper.GetBalance(suite.Ctx, account, denom) suite.True(sdkBal.IsZero()) }) }