package keeper_test import ( "testing" "github.com/stretchr/testify/require" sdkmath "cosmossdk.io/math" sdk "github.com/cosmos/cosmos-sdk/types" authtypes "github.com/cosmos/cosmos-sdk/x/auth/types" minttypes "github.com/cosmos/cosmos-sdk/x/mint/types" "github.com/0glabs/0g-chain/x/precisebank/types" ) func TestMintCoins_PanicValidations(t *testing.T) { // panic tests for invalid inputs tests := []struct { name string recipientModule string setupFn func(td testData) mintAmount sdk.Coins wantPanic string }{ { "invalid module", "notamodule", func(td testData) { // Make module not found td.ak.EXPECT(). GetModuleAccount(td.ctx, "notamodule"). Return(nil). Once() }, cs(c("ukava", 1000)), "module account notamodule does not exist: unknown address", }, { "no permission", minttypes.ModuleName, func(td testData) { td.ak.EXPECT(). GetModuleAccount(td.ctx, minttypes.ModuleName). Return(authtypes.NewModuleAccount( authtypes.NewBaseAccountWithAddress(sdk.AccAddress{1}), minttypes.ModuleName, // no mint permission )). Once() }, cs(c("ukava", 1000)), "module account mint does not have permissions to mint tokens: unauthorized", }, { "has mint permission", minttypes.ModuleName, func(td testData) { td.ak.EXPECT(). GetModuleAccount(td.ctx, minttypes.ModuleName). Return(authtypes.NewModuleAccount( authtypes.NewBaseAccountWithAddress(sdk.AccAddress{1}), minttypes.ModuleName, // includes minter permission authtypes.Minter, )). Once() // Will call x/bank MintCoins coins td.bk.EXPECT(). MintCoins(td.ctx, minttypes.ModuleName, cs(c("ukava", 1000))). Return(nil). Once() }, cs(c("ukava", 1000)), "", }, { "disallow minting to x/precisebank", types.ModuleName, func(td testData) { // No mock setup needed since this is checked before module // account checks }, cs(c("ukava", 1000)), "module account precisebank cannot be minted to: unauthorized", }, } for _, tt := range tests { t.Run(tt.name, func(t *testing.T) { td := NewMockedTestData(t) tt.setupFn(td) if tt.wantPanic != "" { require.PanicsWithError(t, tt.wantPanic, func() { _ = td.keeper.MintCoins(td.ctx, tt.recipientModule, tt.mintAmount) }) return } require.NotPanics(t, func() { // Not testing errors, only panics for this test _ = td.keeper.MintCoins(td.ctx, tt.recipientModule, tt.mintAmount) }) }) } } func TestMintCoins_Errors(t *testing.T) { // returned errors, not panics tests := []struct { name string recipientModule string setupFn func(td testData) mintAmount sdk.Coins wantError string }{ { "invalid coins", minttypes.ModuleName, func(td testData) { // Valid module account minter td.ak.EXPECT(). GetModuleAccount(td.ctx, minttypes.ModuleName). Return(authtypes.NewModuleAccount( authtypes.NewBaseAccountWithAddress(sdk.AccAddress{1}), minttypes.ModuleName, // includes minter permission authtypes.Minter, )). Once() }, sdk.Coins{sdk.Coin{ Denom: "ukava", Amount: sdk.NewInt(-1000), }}, "-1000ukava: invalid coins", }, } for _, tt := range tests { t.Run(tt.name, func(t *testing.T) { td := NewMockedTestData(t) tt.setupFn(td) require.NotPanics(t, func() { err := td.keeper.MintCoins(td.ctx, tt.recipientModule, tt.mintAmount) if tt.wantError != "" { require.Error(t, err) require.EqualError(t, err, tt.wantError) return } require.NoError(t, err) }) }) } } func TestMintCoins_ExpectedCalls(t *testing.T) { // Tests the expected calls to the bank keeper when minting coins tests := []struct { name string // Only care about starting fractional balance. // MintCoins() doesn't care about the previous integer balance. startFractionalBalance sdkmath.Int mintAmount sdk.Coins // account x/precisebank balance (fractional amount) wantPreciseBalance sdkmath.Int }{ { "passthrough mint - integer denom", sdkmath.ZeroInt(), cs(c("ukava", 1000)), sdkmath.ZeroInt(), }, { "passthrough mint - unrelated denom", sdkmath.ZeroInt(), cs(c("meow", 1000)), sdkmath.ZeroInt(), }, { "no carry - 0 starting fractional", sdkmath.ZeroInt(), cs(c(types.ExtendedCoinDenom, 1000)), sdkmath.NewInt(1000), }, { "no carry - non-zero fractional", sdkmath.NewInt(1_000_000), cs(c(types.ExtendedCoinDenom, 1000)), sdkmath.NewInt(1_001_000), }, { "fractional carry", // max fractional amount types.ConversionFactor().SubRaw(1), cs(c(types.ExtendedCoinDenom, 1)), // +1 to carry sdkmath.ZeroInt(), }, { "fractional carry max", // max fractional amount + max fractional amount types.ConversionFactor().SubRaw(1), cs(ci(types.ExtendedCoinDenom, types.ConversionFactor().SubRaw(1))), types.ConversionFactor().SubRaw(2), }, { "integer with fractional no carry", sdkmath.NewInt(1234), // mint 100 fractional cs(c(types.ExtendedCoinDenom, 100)), sdkmath.NewInt(1234 + 100), }, { "integer with fractional carry", types.ConversionFactor().SubRaw(100), // mint 105 fractional to carry cs(c(types.ExtendedCoinDenom, 105)), sdkmath.NewInt(5), }, } for _, tt := range tests { t.Run(tt.name, func(t *testing.T) { td := NewMockedTestData(t) // Set initial fractional balance // Initial integer balance doesn't matter for this test moduleAddr := sdk.AccAddress{1} td.keeper.SetFractionalBalance( td.ctx, moduleAddr, tt.startFractionalBalance, ) fBal := td.keeper.GetFractionalBalance(td.ctx, moduleAddr) require.Equal(t, tt.startFractionalBalance, fBal) // Always calls GetModuleAccount() to check if module exists & // has permission td.ak.EXPECT(). GetModuleAccount(td.ctx, minttypes.ModuleName). Return(authtypes.NewModuleAccount( authtypes.NewBaseAccountWithAddress( moduleAddr, ), minttypes.ModuleName, // Include minter permissions - not testing permission in // this test authtypes.Minter, )). Once() // ---------------------------------------- // Separate passthrough and extended coins // Determine how much is passed through to x/bank passthroughCoins := tt.mintAmount found, extCoins := tt.mintAmount.Find(types.ExtendedCoinDenom) if found { // Remove extended coin from passthrough coins passthroughCoins = passthroughCoins.Sub(extCoins) } else { extCoins = sdk.NewCoin(types.ExtendedCoinDenom, sdkmath.ZeroInt()) } require.Equalf( t, sdkmath.ZeroInt(), passthroughCoins.AmountOf(types.ExtendedCoinDenom), "expected pass through coins should not include %v", types.ExtendedCoinDenom, ) // ---------------------------------------- // Set expectations for minting passthrough coins // Only expect MintCoins to be called with passthrough coins with non-zero amount if !passthroughCoins.Empty() { t.Logf("Expecting MintCoins(%v)", passthroughCoins) td.bk.EXPECT(). MintCoins(td.ctx, minttypes.ModuleName, passthroughCoins). Return(nil). Once() } // ---------------------------------------- // Set expectations for reserve minting when fractional amounts // are minted & remainder is insufficient mintFractionalAmount := extCoins.Amount.Mod(types.ConversionFactor()) currentRemainder := td.keeper.GetRemainderAmount(td.ctx) causesIntegerCarry := fBal.Add(mintFractionalAmount).GTE(types.ConversionFactor()) remainderEnough := currentRemainder.GTE(mintFractionalAmount) // Optimization: Carry & insufficient remainder is directly minted if causesIntegerCarry && !remainderEnough { extCoins = extCoins.AddAmount(types.ConversionFactor()) } // ---------------------------------------- // Set expectations for minting fractional coins if !extCoins.IsNil() && extCoins.IsPositive() { td.ak.EXPECT(). GetModuleAddress(minttypes.ModuleName). Return(moduleAddr). Once() // Initial integer balance is always 0 for this test mintIntegerAmount := extCoins.Amount.Quo(types.ConversionFactor()) // Minted coins does NOT include roll-over, simply excludes mintCoins := cs(ci(types.IntegerCoinDenom, mintIntegerAmount)) // Only expect MintCoins to be called with mint coins with // non-zero amount. // Will fail if x/bank MintCoins is called with empty coins if !mintCoins.Empty() { t.Logf("Expecting MintCoins(%v)", mintCoins) td.bk.EXPECT(). MintCoins(td.ctx, minttypes.ModuleName, mintCoins). Return(nil). Once() } } if causesIntegerCarry && remainderEnough { td.bk.EXPECT(). SendCoinsFromModuleToModule( td.ctx, types.ModuleName, minttypes.ModuleName, cs(c(types.IntegerCoinDenom, 1)), ). Return(nil). Once() } if !remainderEnough && !causesIntegerCarry { reserveMintCoins := cs(c(types.IntegerCoinDenom, 1)) td.bk.EXPECT(). // Mints to x/precisebank MintCoins(td.ctx, types.ModuleName, reserveMintCoins). Return(nil). Once() } // ---------------------------------------- // Actual call after all setup and expectations require.NotPanics(t, func() { err := td.keeper.MintCoins(td.ctx, minttypes.ModuleName, tt.mintAmount) require.NoError(t, err) }) // Check final fractional balance fBal = td.keeper.GetFractionalBalance(td.ctx, moduleAddr) require.Equal(t, tt.wantPreciseBalance, fBal) }) } }