0g-chain/x/incentive/keeper/keeper_state_test.go

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package keeper_test
import (
"time"
"github.com/kava-labs/kava/x/incentive/types"
)
func (suite *KeeperTestSuite) TestGetSetDeleteClaims() {
suite.SetupApp()
for claimTypeName, claimTypeValue := range types.ClaimType_value {
suite.Run(claimTypeName, func() {
claimType := types.ClaimType(claimTypeValue)
c := types.NewClaim(
claimType,
suite.addrs[0],
arbitraryCoins(),
nonEmptyMultiRewardIndexes,
)
_, found := suite.keeper.Store.GetClaim(suite.ctx, claimType, suite.addrs[0])
suite.Require().False(found)
suite.Require().NotPanics(func() {
suite.keeper.Store.SetClaim(suite.ctx, c)
})
testC, found := suite.keeper.Store.GetClaim(suite.ctx, claimType, suite.addrs[0])
suite.Require().True(found)
suite.Require().Equal(c, testC)
// Check that other claim types do not exist for the same address
for otherClaimTypeName, otherClaimTypeValue := range types.ClaimType_value {
// Skip the current claim type
if otherClaimTypeValue == claimTypeValue {
continue
}
otherClaimType := types.ClaimType(otherClaimTypeValue)
_, found := suite.keeper.Store.GetClaim(suite.ctx, otherClaimType, suite.addrs[0])
suite.Require().False(found, "claim type %s should not exist", otherClaimTypeName)
}
suite.Require().NotPanics(func() {
suite.keeper.Store.DeleteClaim(suite.ctx, claimType, suite.addrs[0])
})
_, found = suite.keeper.Store.GetClaim(suite.ctx, claimType, suite.addrs[0])
suite.Require().False(found)
})
}
}
func (suite *KeeperTestSuite) TestIterateClaims() {
suite.SetupApp()
var claims types.Claims
// Add 2 of each type of claim
for _, claimTypeValue := range types.ClaimType_value {
c := types.Claims{
types.NewClaim(types.ClaimType(claimTypeValue), suite.addrs[0], arbitraryCoins(), nonEmptyMultiRewardIndexes),
types.NewClaim(types.ClaimType(claimTypeValue), suite.addrs[1], nil, nil),
}
claims = append(claims, c...)
}
for _, claim := range claims {
suite.keeper.Store.SetClaim(suite.ctx, claim)
}
for _, claimTypeValue := range types.ClaimType_value {
claimType := types.ClaimType(claimTypeValue)
// Claims of specific claim type only should be returned
claims := suite.keeper.Store.GetClaims(suite.ctx, claimType)
suite.Require().Len(claims, 2)
suite.Require().Equalf(
claims, types.Claims{
types.NewClaim(claimType, suite.addrs[0], arbitraryCoins(), nonEmptyMultiRewardIndexes),
types.NewClaim(claimType, suite.addrs[1], nil, nil),
},
"GetClaims(%s) should only return claims of those type", claimType,
)
}
allClaims := suite.keeper.Store.GetAllClaims(suite.ctx)
suite.Require().Len(allClaims, len(claims))
suite.Require().ElementsMatch(allClaims, claims, "GetAllClaims() should return claims of all types")
}
func (suite *KeeperTestSuite) TestGetSetRewardAccrualTimes() {
testCases := []struct {
name string
subKey string
accrualTime time.Time
panics bool
}{
{
name: "normal time can be written and read",
subKey: "btc/usdx",
accrualTime: time.Date(1998, 1, 1, 0, 0, 0, 0, time.UTC),
},
{
name: "zero time can be written and read",
subKey: "btc/usdx",
accrualTime: time.Time{},
},
}
for _, tc := range testCases {
suite.Run(tc.name, func() {
suite.SetupApp()
_, found := suite.keeper.Store.GetRewardAccrualTime(suite.ctx, types.CLAIM_TYPE_USDX_MINTING, tc.subKey)
suite.False(found)
setFunc := func() {
suite.keeper.Store.SetRewardAccrualTime(suite.ctx, types.CLAIM_TYPE_USDX_MINTING, tc.subKey, tc.accrualTime)
}
if tc.panics {
suite.Panics(setFunc)
return
} else {
suite.NotPanics(setFunc)
}
for _, claimTypeValue := range types.ClaimType_value {
claimType := types.ClaimType(claimTypeValue)
if claimType == types.CLAIM_TYPE_USDX_MINTING {
continue
}
_, found := suite.keeper.Store.GetRewardAccrualTime(suite.ctx, claimType, tc.subKey)
suite.False(found, "reward accrual time for claim type %s should not exist", claimType)
}
storedTime, found := suite.keeper.Store.GetRewardAccrualTime(suite.ctx, types.CLAIM_TYPE_USDX_MINTING, tc.subKey)
suite.True(found)
suite.Equal(tc.accrualTime, storedTime)
})
}
}
func (suite *KeeperTestSuite) TestGetSetRewardIndexes() {
testCases := []struct {
name string
collateralType string
indexes types.RewardIndexes
wantIndex types.RewardIndexes
panics bool
}{
{
name: "two factors can be written and read",
collateralType: "btc/usdx",
indexes: types.RewardIndexes{
{
CollateralType: "hard",
RewardFactor: d("0.02"),
},
{
CollateralType: "ukava",
RewardFactor: d("0.04"),
},
},
wantIndex: types.RewardIndexes{
{
CollateralType: "hard",
RewardFactor: d("0.02"),
},
{
CollateralType: "ukava",
RewardFactor: d("0.04"),
},
},
},
{
name: "indexes with empty pool name panics",
collateralType: "",
indexes: types.RewardIndexes{
{
CollateralType: "hard",
RewardFactor: d("0.02"),
},
{
CollateralType: "ukava",
RewardFactor: d("0.04"),
},
},
panics: true,
},
{
// this test is to detect any changes in behavior
name: "setting empty indexes does not panic",
collateralType: "btc/usdx",
// Marshalling empty slice results in [] bytes, unmarshalling the []
// empty bytes results in a nil slice instead of an empty slice
indexes: types.RewardIndexes{},
wantIndex: nil,
panics: false,
},
{
// this test is to detect any changes in behavior
name: "setting nil indexes does not panic",
collateralType: "btc/usdx",
indexes: nil,
wantIndex: nil,
panics: false,
},
}
for _, tc := range testCases {
suite.Run(tc.name, func() {
suite.SetupApp()
_, found := suite.keeper.Store.GetRewardIndexesOfClaimType(suite.ctx, types.CLAIM_TYPE_SWAP, tc.collateralType)
suite.False(found)
setFunc := func() {
suite.keeper.Store.SetRewardIndexes(suite.ctx, types.CLAIM_TYPE_SWAP, tc.collateralType, tc.indexes)
}
if tc.panics {
suite.Panics(setFunc)
return
} else {
suite.NotPanics(setFunc)
}
storedIndexes, found := suite.keeper.Store.GetRewardIndexesOfClaimType(suite.ctx, types.CLAIM_TYPE_SWAP, tc.collateralType)
suite.True(found)
suite.Equal(tc.wantIndex, storedIndexes)
for _, otherClaimTypeValue := range types.ClaimType_value {
// Skip swap
if types.ClaimType(otherClaimTypeValue) == types.CLAIM_TYPE_SWAP {
continue
}
otherClaimType := types.ClaimType(otherClaimTypeValue)
// Other claim types should not be affected
_, found := suite.keeper.Store.GetRewardIndexesOfClaimType(suite.ctx, otherClaimType, tc.collateralType)
suite.False(found)
}
})
}
}
func (suite *KeeperTestSuite) TestIterateRewardAccrualTimes() {
suite.SetupApp()
expectedAccrualTimes := nonEmptyAccrualTimes
for _, at := range expectedAccrualTimes {
suite.keeper.Store.SetRewardAccrualTime(suite.ctx, types.CLAIM_TYPE_USDX_MINTING, at.denom, at.time)
}
var actualAccrualTimes []accrualtime
suite.keeper.Store.IterateRewardAccrualTimesByClaimType(suite.ctx, types.CLAIM_TYPE_USDX_MINTING, func(denom string, accrualTime time.Time) bool {
actualAccrualTimes = append(actualAccrualTimes, accrualtime{denom: denom, time: accrualTime})
return false
})
suite.ElementsMatch(expectedAccrualTimes, actualAccrualTimes)
}
func (suite *KeeperTestSuite) TestIterateAllRewardAccrualTimes() {
suite.SetupApp()
var expectedAccrualTimes types.AccrualTimes
for _, claimTypeValue := range types.ClaimType_value {
claimType := types.ClaimType(claimTypeValue)
// Skip invalid claim type
if claimType.Validate() != nil {
continue
}
for _, at := range nonEmptyAccrualTimes {
suite.keeper.Store.SetRewardAccrualTime(suite.ctx, claimType, at.denom, at.time)
expectedAccrualTimes = append(expectedAccrualTimes, types.NewAccrualTime(
claimType,
at.denom,
at.time,
))
}
}
var actualAccrualTimes types.AccrualTimes
suite.keeper.Store.IterateRewardAccrualTimes(
suite.ctx,
func(accrualTime types.AccrualTime) bool {
actualAccrualTimes = append(actualAccrualTimes, accrualTime)
return false
},
)
suite.ElementsMatch(expectedAccrualTimes, actualAccrualTimes)
}
func (suite *KeeperTestSuite) TestIterateRewardIndexes() {
suite.SetupApp()
swapMultiIndexes := types.MultiRewardIndexes{
{
CollateralType: "bnb",
RewardIndexes: types.RewardIndexes{
{
CollateralType: "swap",
RewardFactor: d("0.0000002"),
},
{
CollateralType: "ukava",
RewardFactor: d("0.04"),
},
},
},
{
CollateralType: "btcb",
RewardIndexes: types.RewardIndexes{
{
CollateralType: "hard",
RewardFactor: d("0.02"),
},
},
},
}
earnMultiIndexes := types.MultiRewardIndexes{
{
CollateralType: "usdc",
RewardIndexes: types.RewardIndexes{
{
CollateralType: "usdc",
RewardFactor: d("0.0000002"),
},
{
CollateralType: "ukava",
RewardFactor: d("0.04"),
},
},
},
{
CollateralType: "ukava",
RewardIndexes: types.RewardIndexes{
{
CollateralType: "ukava",
RewardFactor: d("0.02"),
},
},
},
}
for _, mi := range swapMultiIndexes {
suite.keeper.Store.SetRewardIndexes(suite.ctx, types.CLAIM_TYPE_SWAP, mi.CollateralType, mi.RewardIndexes)
}
for _, mi := range earnMultiIndexes {
// These should be excluded when iterating over swap indexes
suite.keeper.Store.SetRewardIndexes(suite.ctx, types.CLAIM_TYPE_EARN, mi.CollateralType, mi.RewardIndexes)
}
actualMultiIndexesMap := make(map[types.ClaimType]types.MultiRewardIndexes)
suite.keeper.Store.IterateRewardIndexesByClaimType(suite.ctx, types.CLAIM_TYPE_SWAP, func(rewardIndex types.TypedRewardIndexes) bool {
actualMultiIndexesMap[rewardIndex.ClaimType] = actualMultiIndexesMap[rewardIndex.ClaimType].With(rewardIndex.CollateralType, rewardIndex.RewardIndexes)
return false
})
suite.Require().Len(actualMultiIndexesMap, 1, "iteration should only include 1 claim type")
suite.Require().Equal(swapMultiIndexes, actualMultiIndexesMap[types.CLAIM_TYPE_SWAP])
}
func (suite *KeeperTestSuite) TestIterateAllRewardIndexes() {
suite.SetupApp()
multiIndexes := types.MultiRewardIndexes{
{
CollateralType: "ukava",
RewardIndexes: types.RewardIndexes{
{
CollateralType: "swap",
RewardFactor: d("0.0000002"),
},
{
CollateralType: "ukava",
RewardFactor: d("0.04"),
},
},
},
{
CollateralType: "usdc",
RewardIndexes: types.RewardIndexes{
{
CollateralType: "hard",
RewardFactor: d("0.02"),
},
},
},
}
for _, claimTypeValue := range types.ClaimType_value {
if types.ClaimType(claimTypeValue) == types.CLAIM_TYPE_UNSPECIFIED {
continue
}
claimType := types.ClaimType(claimTypeValue)
for _, mi := range multiIndexes {
suite.keeper.Store.SetRewardIndexes(suite.ctx, claimType, mi.CollateralType, mi.RewardIndexes)
}
}
actualMultiIndexesMap := make(map[types.ClaimType]types.MultiRewardIndexes)
suite.keeper.Store.IterateRewardIndexes(suite.ctx, func(rewardIndex types.TypedRewardIndexes) bool {
actualMultiIndexesMap[rewardIndex.ClaimType] = actualMultiIndexesMap[rewardIndex.ClaimType].With(rewardIndex.CollateralType, rewardIndex.RewardIndexes)
return false
})
// -1 to exclude the unspecified type
suite.Require().Len(actualMultiIndexesMap, len(types.ClaimType_value)-1)
for claimType, actualMultiIndexes := range actualMultiIndexesMap {
suite.Require().NoError(claimType.Validate())
suite.Require().Equal(multiIndexes, actualMultiIndexes)
}
}