package keeper_test import ( "testing" sdk "github.com/cosmos/cosmos-sdk/types" stakingtypes "github.com/cosmos/cosmos-sdk/x/staking/types" "github.com/stretchr/testify/suite" "github.com/kava-labs/kava/x/incentive/types" ) // InitializeHardDelegatorRewardTests runs unit tests for the keeper.InitializeHardDelegatorReward method // // inputs // - claim in store if it exists (only claim.DelegatorRewardIndexes) // - global indexes in store // - delegator function arg // // outputs // - sets or creates a claim type InitializeHardDelegatorRewardTests struct { unitTester } func TestInitializeHardDelegatorReward(t *testing.T) { suite.Run(t, new(InitializeHardDelegatorRewardTests)) } func (suite *InitializeHardDelegatorRewardTests) TestClaimIndexesAreSetWhenClaimDoesNotExist() { globalIndex := arbitraryDelegatorRewardIndexes suite.storeGlobalDelegatorIndexes(globalIndex) delegator := arbitraryAddress() suite.keeper.InitializeHardDelegatorReward(suite.ctx, delegator) syncedClaim, f := suite.keeper.GetHardLiquidityProviderClaim(suite.ctx, delegator) suite.True(f) suite.Equal(globalIndex, syncedClaim.DelegatorRewardIndexes) } func (suite *InitializeHardDelegatorRewardTests) TestClaimIsSyncedAndIndexesAreSetWhenClaimDoesExist() { validatorAddress := arbitraryValidatorAddress() sk := fakeStakingKeeper{ delegations: stakingtypes.Delegations{{ ValidatorAddress: validatorAddress, Shares: d("1000"), }}, validators: stakingtypes.Validators{{ OperatorAddress: validatorAddress, Status: sdk.Bonded, Tokens: i(1000), DelegatorShares: d("1000"), }}, } suite.keeper = suite.NewKeeper(&fakeParamSubspace{}, nil, nil, nil, nil, sk, nil) claim := types.HardLiquidityProviderClaim{ BaseMultiClaim: types.BaseMultiClaim{ Owner: arbitraryAddress(), }, DelegatorRewardIndexes: arbitraryDelegatorRewardIndexes, } suite.storeClaim(claim) // Set the global factor to a value different to one in claim so // we can detect if it is overwritten. rewardIndexes, _ := claim.DelegatorRewardIndexes.Get(types.BondDenom) globalIndexes := increaseRewardFactors(rewardIndexes) // Update the claim object with the new global factor bondIndex, _ := claim.DelegatorRewardIndexes.GetRewardIndexIndex(types.BondDenom) claim.DelegatorRewardIndexes[bondIndex].RewardIndexes = globalIndexes suite.storeGlobalDelegatorIndexes(claim.DelegatorRewardIndexes) suite.keeper.InitializeHardDelegatorReward(suite.ctx, claim.Owner) syncedClaim, _ := suite.keeper.GetHardLiquidityProviderClaim(suite.ctx, claim.Owner) suite.Equal(globalIndexes, syncedClaim.DelegatorRewardIndexes[bondIndex].RewardIndexes) suite.Truef(syncedClaim.Reward.IsAllGT(claim.Reward), "'%s' not greater than '%s'", syncedClaim.Reward, claim.Reward) } // arbitraryDelegatorRewardIndexes contains only one reward index as there is only ever one bond denom var arbitraryDelegatorRewardIndexes = types.MultiRewardIndexes{ types.NewMultiRewardIndex( types.BondDenom, types.RewardIndexes{ types.NewRewardIndex("hard", d("0.2")), types.NewRewardIndex("swp", d("0.2")), }, ), } type fakeStakingKeeper struct { delegations stakingtypes.Delegations validators stakingtypes.Validators } func (k fakeStakingKeeper) TotalBondedTokens(ctx sdk.Context) sdk.Int { panic("unimplemented") } func (k fakeStakingKeeper) GetDelegatorDelegations(ctx sdk.Context, delegator sdk.AccAddress, maxRetrieve uint16) []stakingtypes.Delegation { return k.delegations } func (k fakeStakingKeeper) GetValidator(ctx 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(ctx sdk.Context, valAddr sdk.ValAddress) []stakingtypes.Delegation { var delegations stakingtypes.Delegations for _, d := range k.delegations { if d.ValidatorAddress.Equals(valAddr) { delegations = append(delegations, d) } } return delegations }