package keeper_test import ( "fmt" "time" "github.com/cosmos/cosmos-sdk/codec" "github.com/cosmos/cosmos-sdk/store" sdk "github.com/cosmos/cosmos-sdk/types" paramtypes "github.com/cosmos/cosmos-sdk/x/params/types" stakingtypes "github.com/cosmos/cosmos-sdk/x/staking/types" "github.com/stretchr/testify/suite" "github.com/tendermint/tendermint/libs/log" db "github.com/tendermint/tm-db" "github.com/kava-labs/kava/app" cdptypes "github.com/kava-labs/kava/x/cdp/types" tmprototypes "github.com/tendermint/tendermint/proto/tendermint/types" hardtypes "github.com/kava-labs/kava/x/hard/types" "github.com/kava-labs/kava/x/incentive/keeper" "github.com/kava-labs/kava/x/incentive/types" ) // NewTestContext sets up a basic context with an in-memory db func NewTestContext(requiredStoreKeys ...sdk.StoreKey) sdk.Context { memDB := db.NewMemDB() cms := store.NewCommitMultiStore(memDB) for _, key := range requiredStoreKeys { cms.MountStoreWithDB(key, sdk.StoreTypeIAVL, nil) } if err := cms.LoadLatestVersion(); err != nil { panic(err) } return sdk.NewContext(cms, tmprototypes.Header{}, false, log.NewNopLogger()) } // unitTester is a wrapper around suite.Suite, with common functionality for keeper unit tests. // It can be embedded in structs the same way as suite.Suite. type unitTester struct { suite.Suite keeper keeper.Keeper ctx sdk.Context cdc codec.Codec incentiveStoreKey sdk.StoreKey } func (suite *unitTester) SetupSuite() { tApp := app.NewTestApp() suite.cdc = tApp.AppCodec() suite.incentiveStoreKey = sdk.NewKVStoreKey(types.StoreKey) } func (suite *unitTester) SetupTest() { suite.ctx = NewTestContext(suite.incentiveStoreKey) suite.keeper = suite.NewKeeper(&fakeParamSubspace{}, nil, nil, nil, nil, nil, nil) } func (suite *unitTester) TearDownTest() { suite.keeper = keeper.Keeper{} suite.ctx = sdk.Context{} } func (suite *unitTester) NewKeeper(paramSubspace types.ParamSubspace, bk types.BankKeeper, cdpk types.CdpKeeper, hk types.HardKeeper, ak types.AccountKeeper, stk types.StakingKeeper, swk types.SwapKeeper) keeper.Keeper { return keeper.NewKeeper(suite.cdc, suite.incentiveStoreKey, paramSubspace, bk, cdpk, hk, ak, stk, swk) } func (suite *unitTester) storeGlobalBorrowIndexes(indexes types.MultiRewardIndexes) { for _, i := range indexes { suite.keeper.SetHardBorrowRewardIndexes(suite.ctx, i.CollateralType, i.RewardIndexes) } } func (suite *unitTester) storeGlobalSupplyIndexes(indexes types.MultiRewardIndexes) { for _, i := range indexes { suite.keeper.SetHardSupplyRewardIndexes(suite.ctx, i.CollateralType, i.RewardIndexes) } } func (suite *unitTester) storeGlobalDelegatorIndexes(multiRewardIndexes types.MultiRewardIndexes) { // Hardcoded to use bond denom multiRewardIndex, _ := multiRewardIndexes.GetRewardIndex(types.BondDenom) suite.keeper.SetDelegatorRewardIndexes(suite.ctx, types.BondDenom, multiRewardIndex.RewardIndexes) } func (suite *unitTester) storeGlobalSwapIndexes(indexes types.MultiRewardIndexes) { for _, i := range indexes { suite.keeper.SetSwapRewardIndexes(suite.ctx, i.CollateralType, i.RewardIndexes) } } func (suite *unitTester) storeHardClaim(claim types.HardLiquidityProviderClaim) { suite.keeper.SetHardLiquidityProviderClaim(suite.ctx, claim) } func (suite *unitTester) storeDelegatorClaim(claim types.DelegatorClaim) { suite.keeper.SetDelegatorClaim(suite.ctx, claim) } func (suite *unitTester) storeSwapClaim(claim types.SwapClaim) { suite.keeper.SetSwapClaim(suite.ctx, claim) } // fakeParamSubspace is a stub paramSpace to simplify keeper unit test setup. type fakeParamSubspace struct { params types.Params } func (subspace *fakeParamSubspace) GetParamSet(_ sdk.Context, ps paramtypes.ParamSet) { *(ps.(*types.Params)) = subspace.params } func (subspace *fakeParamSubspace) SetParamSet(_ sdk.Context, ps paramtypes.ParamSet) { subspace.params = *(ps.(*types.Params)) } func (subspace *fakeParamSubspace) HasKeyTable() bool { // return true so the keeper does not try to call WithKeyTable, which does nothing return true } func (subspace *fakeParamSubspace) WithKeyTable(paramtypes.KeyTable) paramtypes.Subspace { // return an non-functional subspace to satisfy the interface return paramtypes.Subspace{} } // fakeSwapKeeper is a stub swap keeper. // It can be used to return values to the incentive keeper without having to initialize a full swap keeper. type fakeSwapKeeper struct { poolShares map[string]sdk.Int depositShares map[string](map[string]sdk.Int) } var _ types.SwapKeeper = newFakeSwapKeeper() func newFakeSwapKeeper() *fakeSwapKeeper { return &fakeSwapKeeper{ poolShares: map[string]sdk.Int{}, depositShares: map[string](map[string]sdk.Int){}, } } func (k *fakeSwapKeeper) addPool(id string, shares sdk.Int) *fakeSwapKeeper { k.poolShares[id] = shares return k } func (k *fakeSwapKeeper) addDeposit(poolID string, depositor sdk.AccAddress, shares sdk.Int) *fakeSwapKeeper { if k.depositShares[poolID] == nil { k.depositShares[poolID] = map[string]sdk.Int{} } k.depositShares[poolID][depositor.String()] = shares return k } func (k *fakeSwapKeeper) GetPoolShares(_ sdk.Context, poolID string) (sdk.Int, bool) { shares, ok := k.poolShares[poolID] return shares, ok } func (k *fakeSwapKeeper) GetDepositorSharesAmount(_ sdk.Context, depositor sdk.AccAddress, poolID string) (sdk.Int, bool) { shares, found := k.depositShares[poolID][depositor.String()] return shares, found } // fakeHardKeeper is a stub hard keeper. // It can be used to return values to the incentive keeper without having to initialize a full hard keeper. type fakeHardKeeper struct { borrows fakeHardState deposits fakeHardState } type fakeHardState struct { total sdk.Coins interestFactors map[string]sdk.Dec } func newFakeHardState() fakeHardState { return fakeHardState{ total: nil, interestFactors: map[string]sdk.Dec{}, // initialize map to avoid panics on read } } var _ types.HardKeeper = newFakeHardKeeper() func newFakeHardKeeper() *fakeHardKeeper { return &fakeHardKeeper{ borrows: newFakeHardState(), deposits: newFakeHardState(), } } func (k *fakeHardKeeper) addTotalBorrow(coin sdk.Coin, factor sdk.Dec) *fakeHardKeeper { k.borrows.total = k.borrows.total.Add(coin) k.borrows.interestFactors[coin.Denom] = factor return k } func (k *fakeHardKeeper) addTotalSupply(coin sdk.Coin, factor sdk.Dec) *fakeHardKeeper { k.deposits.total = k.deposits.total.Add(coin) k.deposits.interestFactors[coin.Denom] = factor return k } func (k *fakeHardKeeper) GetBorrowedCoins(_ sdk.Context) (sdk.Coins, bool) { if k.borrows.total == nil { return nil, false } return k.borrows.total, true } func (k *fakeHardKeeper) GetSuppliedCoins(_ sdk.Context) (sdk.Coins, bool) { if k.deposits.total == nil { return nil, false } return k.deposits.total, true } func (k *fakeHardKeeper) GetBorrowInterestFactor(_ sdk.Context, denom string) (sdk.Dec, bool) { f, ok := k.borrows.interestFactors[denom] return f, ok } func (k *fakeHardKeeper) GetSupplyInterestFactor(_ sdk.Context, denom string) (sdk.Dec, bool) { f, ok := k.deposits.interestFactors[denom] return f, ok } func (k *fakeHardKeeper) GetBorrow(_ sdk.Context, _ sdk.AccAddress) (hardtypes.Borrow, bool) { panic("unimplemented") } func (k *fakeHardKeeper) GetDeposit(_ sdk.Context, _ sdk.AccAddress) (hardtypes.Deposit, bool) { panic("unimplemented") } // fakeStakingKeeper is a stub staking keeper. // It can be used to return values to the incentive keeper without having to initialize a full staking keeper. type fakeStakingKeeper struct { delegations stakingtypes.Delegations validators stakingtypes.Validators } var _ types.StakingKeeper = newFakeStakingKeeper() func newFakeStakingKeeper() *fakeStakingKeeper { return &fakeStakingKeeper{} } func (k *fakeStakingKeeper) addBondedTokens(amount int64) *fakeStakingKeeper { if len(k.validators) != 0 { panic("cannot set total bonded if keeper already has validators set") } // add a validator with all the tokens k.validators = append(k.validators, stakingtypes.Validator{ Status: stakingtypes.Bonded, Tokens: sdk.NewInt(amount), }) return k } func (k *fakeStakingKeeper) TotalBondedTokens(_ sdk.Context) sdk.Int { total := sdk.ZeroInt() for _, val := range k.validators { if val.GetStatus() == stakingtypes.Bonded { total = total.Add(val.GetBondedTokens()) } } return total } func (k *fakeStakingKeeper) GetDelegatorDelegations(_ sdk.Context, delegator sdk.AccAddress, maxRetrieve uint16) []stakingtypes.Delegation { return k.delegations } func (k *fakeStakingKeeper) GetValidator(_ sdk.Context, addr sdk.ValAddress) (stakingtypes.Validator, bool) { for _, val := range k.validators { if val.GetOperator().Equals(addr) { return val, true } } return stakingtypes.Validator{}, false } func (k *fakeStakingKeeper) GetValidatorDelegations(_ sdk.Context, valAddr sdk.ValAddress) []stakingtypes.Delegation { var delegations stakingtypes.Delegations for _, d := range k.delegations { if d.GetValidatorAddr().Equals(valAddr) { delegations = append(delegations, d) } } return delegations } // fakeCDPKeeper is a stub cdp keeper. // It can be used to return values to the incentive keeper without having to initialize a full cdp keeper. type fakeCDPKeeper struct { interestFactor *sdk.Dec totalPrincipal sdk.Int } var _ types.CdpKeeper = newFakeCDPKeeper() func newFakeCDPKeeper() *fakeCDPKeeper { return &fakeCDPKeeper{ interestFactor: nil, totalPrincipal: sdk.ZeroInt(), } } func (k *fakeCDPKeeper) addInterestFactor(f sdk.Dec) *fakeCDPKeeper { k.interestFactor = &f return k } func (k *fakeCDPKeeper) addTotalPrincipal(p sdk.Int) *fakeCDPKeeper { k.totalPrincipal = p return k } func (k *fakeCDPKeeper) GetInterestFactor(_ sdk.Context, collateralType string) (sdk.Dec, bool) { if k.interestFactor != nil { return *k.interestFactor, true } return sdk.Dec{}, false } func (k *fakeCDPKeeper) GetTotalPrincipal(_ sdk.Context, collateralType string, principalDenom string) sdk.Int { return k.totalPrincipal } func (k *fakeCDPKeeper) GetCdpByOwnerAndCollateralType(_ sdk.Context, owner sdk.AccAddress, collateralType string) (cdptypes.CDP, bool) { return cdptypes.CDP{}, false } func (k *fakeCDPKeeper) GetCollateral(_ sdk.Context, collateralType string) (cdptypes.CollateralParam, bool) { return cdptypes.CollateralParam{}, false } // Assorted Testing Data // note: amino panics when encoding times ≥ the start of year 10000. var distantFuture = time.Date(9000, 1, 1, 0, 0, 0, 0, time.UTC) func arbitraryCoins() sdk.Coins { return cs(c("btcb", 1)) } func arbitraryAddress() sdk.AccAddress { _, addresses := app.GeneratePrivKeyAddressPairs(1) return addresses[0] } func arbitraryValidatorAddress() sdk.ValAddress { return generateValidatorAddresses(1)[0] } func generateValidatorAddresses(n int) []sdk.ValAddress { _, addresses := app.GeneratePrivKeyAddressPairs(n) var valAddresses []sdk.ValAddress for _, a := range addresses { valAddresses = append(valAddresses, sdk.ValAddress(a)) } return valAddresses } var nonEmptyMultiRewardIndexes = types.MultiRewardIndexes{ { CollateralType: "bnb", RewardIndexes: types.RewardIndexes{ { CollateralType: "hard", RewardFactor: d("0.02"), }, { CollateralType: "ukava", RewardFactor: d("0.04"), }, }, }, { CollateralType: "btcb", RewardIndexes: types.RewardIndexes{ { CollateralType: "hard", RewardFactor: d("0.2"), }, { CollateralType: "ukava", RewardFactor: d("0.4"), }, }, }, } func extractCollateralTypes(indexes types.MultiRewardIndexes) []string { var denoms []string for _, ri := range indexes { denoms = append(denoms, ri.CollateralType) } return denoms } func increaseAllRewardFactors(indexes types.MultiRewardIndexes) types.MultiRewardIndexes { increasedIndexes := make(types.MultiRewardIndexes, len(indexes)) copy(increasedIndexes, indexes) for i := range increasedIndexes { increasedIndexes[i].RewardIndexes = increaseRewardFactors(increasedIndexes[i].RewardIndexes) } return increasedIndexes } func increaseRewardFactors(indexes types.RewardIndexes) types.RewardIndexes { increasedIndexes := make(types.RewardIndexes, len(indexes)) copy(increasedIndexes, indexes) for i := range increasedIndexes { increasedIndexes[i].RewardFactor = increasedIndexes[i].RewardFactor.MulInt64(2) } return increasedIndexes } func appendUniqueMultiRewardIndex(indexes types.MultiRewardIndexes) types.MultiRewardIndexes { const uniqueDenom = "uniquedenom" for _, mri := range indexes { if mri.CollateralType == uniqueDenom { panic(fmt.Sprintf("tried to add unique multi reward index with denom '%s', but denom already existed", uniqueDenom)) } } return append(indexes, types.NewMultiRewardIndex( uniqueDenom, types.RewardIndexes{ { CollateralType: "hard", RewardFactor: d("0.02"), }, { CollateralType: "ukava", RewardFactor: d("0.04"), }, }, ), ) } func appendUniqueEmptyMultiRewardIndex(indexes types.MultiRewardIndexes) types.MultiRewardIndexes { const uniqueDenom = "uniquedenom" for _, mri := range indexes { if mri.CollateralType == uniqueDenom { panic(fmt.Sprintf("tried to add unique multi reward index with denom '%s', but denom already existed", uniqueDenom)) } } return append(indexes, types.NewMultiRewardIndex(uniqueDenom, nil)) } func appendUniqueRewardIndexToFirstItem(indexes types.MultiRewardIndexes) types.MultiRewardIndexes { newIndexes := make(types.MultiRewardIndexes, len(indexes)) copy(newIndexes, indexes) newIndexes[0].RewardIndexes = appendUniqueRewardIndex(newIndexes[0].RewardIndexes) return newIndexes } func appendUniqueRewardIndex(indexes types.RewardIndexes) types.RewardIndexes { const uniqueDenom = "uniquereward" for _, mri := range indexes { if mri.CollateralType == uniqueDenom { panic(fmt.Sprintf("tried to add unique reward index with denom '%s', but denom already existed", uniqueDenom)) } } return append( indexes, types.NewRewardIndex(uniqueDenom, d("0.02")), ) }