0g-chain/x/incentive/keeper/rewards_test.go
Ruaridh 54c0793ced
Fix delegation claim syncing (#889)
* sync claims on validator state changes and slashes

* add test notes

* update missed sync delegator calls

* tidy up suite addresses initialization

* test claim synced when validator bonds/unbonds

* test validator slashed

* check reward factor increased

* test redelegation sync claim

* revert mistake

* resolve trailing TODOs

* call incentive hooks after hard liquidation

* check global index in tests after delegator reward sync

Co-authored-by: denalimarsh <denalimarsh@gmail.com>
Co-authored-by: karzak <kjydavis3@gmail.com>
2021-03-25 00:10:13 -06:00

3296 lines
143 KiB
Go

package keeper_test
import (
"time"
sdk "github.com/cosmos/cosmos-sdk/types"
"github.com/cosmos/cosmos-sdk/x/params"
"github.com/cosmos/cosmos-sdk/x/staking"
abci "github.com/tendermint/tendermint/abci/types"
"github.com/tendermint/tendermint/crypto/ed25519"
cdptypes "github.com/kava-labs/kava/x/cdp/types"
"github.com/kava-labs/kava/x/committee"
"github.com/kava-labs/kava/x/hard"
hardtypes "github.com/kava-labs/kava/x/hard/types"
"github.com/kava-labs/kava/x/incentive/types"
)
const (
oneYear time.Duration = time.Hour * 24 * 365
)
func (suite *KeeperTestSuite) TestAccumulateUSDXMintingRewards() {
type args struct {
ctype string
rewardsPerSecond sdk.Coin
initialTime time.Time
initialTotalPrincipal sdk.Coin
timeElapsed int
expectedRewardFactor sdk.Dec
}
type test struct {
name string
args args
}
testCases := []test{
{
"7 seconds",
args{
ctype: "bnb-a",
rewardsPerSecond: c("ukava", 122354),
initialTime: time.Date(2020, 12, 15, 14, 0, 0, 0, time.UTC),
initialTotalPrincipal: c("usdx", 1000000000000),
timeElapsed: 7,
expectedRewardFactor: d("0.000000856478000000"),
},
},
{
"1 day",
args{
ctype: "bnb-a",
rewardsPerSecond: c("ukava", 122354),
initialTime: time.Date(2020, 12, 15, 14, 0, 0, 0, time.UTC),
initialTotalPrincipal: c("usdx", 1000000000000),
timeElapsed: 86400,
expectedRewardFactor: d("0.0105713856"),
},
},
{
"0 seconds",
args{
ctype: "bnb-a",
rewardsPerSecond: c("ukava", 122354),
initialTime: time.Date(2020, 12, 15, 14, 0, 0, 0, time.UTC),
initialTotalPrincipal: c("usdx", 1000000000000),
timeElapsed: 0,
expectedRewardFactor: d("0.0"),
},
},
}
for _, tc := range testCases {
suite.Run(tc.name, func() {
suite.SetupWithGenState()
suite.ctx = suite.ctx.WithBlockTime(tc.args.initialTime)
// setup cdp state
cdpKeeper := suite.app.GetCDPKeeper()
cdpKeeper.SetTotalPrincipal(suite.ctx, tc.args.ctype, cdptypes.DefaultStableDenom, tc.args.initialTotalPrincipal.Amount)
// setup incentive state
params := types.NewParams(
types.RewardPeriods{types.NewRewardPeriod(true, tc.args.ctype, tc.args.initialTime, tc.args.initialTime.Add(time.Hour*24*365*4), tc.args.rewardsPerSecond)},
types.MultiRewardPeriods{types.NewMultiRewardPeriod(true, tc.args.ctype, tc.args.initialTime, tc.args.initialTime.Add(time.Hour*24*365*4), cs(tc.args.rewardsPerSecond))},
types.MultiRewardPeriods{types.NewMultiRewardPeriod(true, tc.args.ctype, tc.args.initialTime, tc.args.initialTime.Add(time.Hour*24*365*4), cs(tc.args.rewardsPerSecond))},
types.RewardPeriods{types.NewRewardPeriod(true, tc.args.ctype, tc.args.initialTime, tc.args.initialTime.Add(time.Hour*24*365*4), tc.args.rewardsPerSecond)},
types.Multipliers{types.NewMultiplier(types.MultiplierName("small"), 1, d("0.25")), types.NewMultiplier(types.MultiplierName("large"), 12, d("1.0"))},
tc.args.initialTime.Add(time.Hour*24*365*5),
)
suite.keeper.SetParams(suite.ctx, params)
suite.keeper.SetPreviousUSDXMintingAccrualTime(suite.ctx, tc.args.ctype, tc.args.initialTime)
suite.keeper.SetUSDXMintingRewardFactor(suite.ctx, tc.args.ctype, sdk.ZeroDec())
updatedBlockTime := suite.ctx.BlockTime().Add(time.Duration(int(time.Second) * tc.args.timeElapsed))
suite.ctx = suite.ctx.WithBlockTime(updatedBlockTime)
rewardPeriod, found := suite.keeper.GetUSDXMintingRewardPeriod(suite.ctx, tc.args.ctype)
suite.Require().True(found)
err := suite.keeper.AccumulateUSDXMintingRewards(suite.ctx, rewardPeriod)
suite.Require().NoError(err)
rewardFactor, found := suite.keeper.GetUSDXMintingRewardFactor(suite.ctx, tc.args.ctype)
suite.Require().Equal(tc.args.expectedRewardFactor, rewardFactor)
})
}
}
func (suite *KeeperTestSuite) TestSynchronizeUSDXMintingReward() {
type args struct {
ctype string
rewardsPerSecond sdk.Coin
initialTime time.Time
initialCollateral sdk.Coin
initialPrincipal sdk.Coin
blockTimes []int
expectedRewardFactor sdk.Dec
expectedRewards sdk.Coin
}
type test struct {
name string
args args
}
testCases := []test{
{
"10 blocks",
args{
ctype: "bnb-a",
rewardsPerSecond: c("ukava", 122354),
initialTime: time.Date(2020, 12, 15, 14, 0, 0, 0, time.UTC),
initialCollateral: c("bnb", 1000000000000),
initialPrincipal: c("usdx", 10000000000),
blockTimes: []int{10, 10, 10, 10, 10, 10, 10, 10, 10, 10},
expectedRewardFactor: d("0.001223540000000000"),
expectedRewards: c("ukava", 12235400),
},
},
{
"10 blocks - long block time",
args{
ctype: "bnb-a",
rewardsPerSecond: c("ukava", 122354),
initialTime: time.Date(2020, 12, 15, 14, 0, 0, 0, time.UTC),
initialCollateral: c("bnb", 1000000000000),
initialPrincipal: c("usdx", 10000000000),
blockTimes: []int{86400, 86400, 86400, 86400, 86400, 86400, 86400, 86400, 86400, 86400},
expectedRewardFactor: d("10.57138560000000000"),
expectedRewards: c("ukava", 105713856000),
},
},
}
for _, tc := range testCases {
suite.Run(tc.name, func() {
suite.SetupWithGenState()
suite.ctx = suite.ctx.WithBlockTime(tc.args.initialTime)
// setup incentive state
params := types.NewParams(
types.RewardPeriods{types.NewRewardPeriod(true, tc.args.ctype, tc.args.initialTime, tc.args.initialTime.Add(time.Hour*24*365*4), tc.args.rewardsPerSecond)},
types.MultiRewardPeriods{types.NewMultiRewardPeriod(true, tc.args.ctype, tc.args.initialTime, tc.args.initialTime.Add(time.Hour*24*365*4), cs(tc.args.rewardsPerSecond))},
types.MultiRewardPeriods{types.NewMultiRewardPeriod(true, tc.args.ctype, tc.args.initialTime, tc.args.initialTime.Add(time.Hour*24*365*4), cs(tc.args.rewardsPerSecond))},
types.RewardPeriods{types.NewRewardPeriod(true, tc.args.ctype, tc.args.initialTime, tc.args.initialTime.Add(time.Hour*24*365*4), tc.args.rewardsPerSecond)},
types.Multipliers{types.NewMultiplier(types.MultiplierName("small"), 1, d("0.25")), types.NewMultiplier(types.MultiplierName("large"), 12, d("1.0"))},
tc.args.initialTime.Add(time.Hour*24*365*5),
)
suite.keeper.SetParams(suite.ctx, params)
suite.keeper.SetPreviousUSDXMintingAccrualTime(suite.ctx, tc.args.ctype, tc.args.initialTime)
suite.keeper.SetUSDXMintingRewardFactor(suite.ctx, tc.args.ctype, sdk.ZeroDec())
// setup account state
sk := suite.app.GetSupplyKeeper()
sk.MintCoins(suite.ctx, cdptypes.ModuleName, sdk.NewCoins(tc.args.initialCollateral))
sk.SendCoinsFromModuleToAccount(suite.ctx, cdptypes.ModuleName, suite.addrs[0], sdk.NewCoins(tc.args.initialCollateral))
// setup cdp state
cdpKeeper := suite.app.GetCDPKeeper()
err := cdpKeeper.AddCdp(suite.ctx, suite.addrs[0], tc.args.initialCollateral, tc.args.initialPrincipal, tc.args.ctype)
suite.Require().NoError(err)
claim, found := suite.keeper.GetUSDXMintingClaim(suite.ctx, suite.addrs[0])
suite.Require().True(found)
suite.Require().Equal(sdk.ZeroDec(), claim.RewardIndexes[0].RewardFactor)
var timeElapsed int
previousBlockTime := suite.ctx.BlockTime()
for _, t := range tc.args.blockTimes {
timeElapsed += t
updatedBlockTime := previousBlockTime.Add(time.Duration(int(time.Second) * t))
previousBlockTime = updatedBlockTime
blockCtx := suite.ctx.WithBlockTime(updatedBlockTime)
rewardPeriod, found := suite.keeper.GetUSDXMintingRewardPeriod(blockCtx, tc.args.ctype)
suite.Require().True(found)
err := suite.keeper.AccumulateUSDXMintingRewards(blockCtx, rewardPeriod)
suite.Require().NoError(err)
}
updatedBlockTime := suite.ctx.BlockTime().Add(time.Duration(int(time.Second) * timeElapsed))
suite.ctx = suite.ctx.WithBlockTime(updatedBlockTime)
cdp, found := cdpKeeper.GetCdpByOwnerAndCollateralType(suite.ctx, suite.addrs[0], tc.args.ctype)
suite.Require().True(found)
suite.Require().NotPanics(func() {
suite.keeper.SynchronizeUSDXMintingReward(suite.ctx, cdp)
})
rewardFactor, found := suite.keeper.GetUSDXMintingRewardFactor(suite.ctx, tc.args.ctype)
suite.Require().Equal(tc.args.expectedRewardFactor, rewardFactor)
claim, found = suite.keeper.GetUSDXMintingClaim(suite.ctx, suite.addrs[0])
suite.Require().True(found)
suite.Require().Equal(tc.args.expectedRewardFactor, claim.RewardIndexes[0].RewardFactor)
suite.Require().Equal(tc.args.expectedRewards, claim.Reward)
})
}
}
func (suite *KeeperTestSuite) TestAccumulateHardBorrowRewards() {
type args struct {
borrow sdk.Coin
rewardsPerSecond sdk.Coins
initialTime time.Time
timeElapsed int
expectedRewardIndexes types.RewardIndexes
}
type test struct {
name string
args args
}
testCases := []test{
{
"single reward denom: 7 seconds",
args{
borrow: c("bnb", 1000000000000),
rewardsPerSecond: cs(c("hard", 122354)),
initialTime: time.Date(2020, 12, 15, 14, 0, 0, 0, time.UTC),
timeElapsed: 7,
expectedRewardIndexes: types.RewardIndexes{types.NewRewardIndex("hard", d("0.000000856478000001"))},
},
},
{
"single reward denom: 1 day",
args{
borrow: c("bnb", 1000000000000),
rewardsPerSecond: cs(c("hard", 122354)),
initialTime: time.Date(2020, 12, 15, 14, 0, 0, 0, time.UTC),
timeElapsed: 86400,
expectedRewardIndexes: types.RewardIndexes{types.NewRewardIndex("hard", d("0.010571385600010177"))},
},
},
{
"single reward denom: 0 seconds",
args{
borrow: c("bnb", 1000000000000),
rewardsPerSecond: cs(c("hard", 122354)),
initialTime: time.Date(2020, 12, 15, 14, 0, 0, 0, time.UTC),
timeElapsed: 0,
expectedRewardIndexes: types.RewardIndexes{types.NewRewardIndex("hard", d("0.0"))},
},
},
{
"multiple reward denoms: 7 seconds",
args{
borrow: c("bnb", 1000000000000),
rewardsPerSecond: cs(c("hard", 122354), c("ukava", 122354)),
initialTime: time.Date(2020, 12, 15, 14, 0, 0, 0, time.UTC),
timeElapsed: 7,
expectedRewardIndexes: types.RewardIndexes{
types.NewRewardIndex("hard", d("0.000000856478000001")),
types.NewRewardIndex("ukava", d("0.000000856478000001")),
},
},
},
{
"multiple reward denoms: 1 day",
args{
borrow: c("bnb", 1000000000000),
rewardsPerSecond: cs(c("hard", 122354), c("ukava", 122354)),
initialTime: time.Date(2020, 12, 15, 14, 0, 0, 0, time.UTC),
timeElapsed: 86400,
expectedRewardIndexes: types.RewardIndexes{
types.NewRewardIndex("hard", d("0.010571385600010177")),
types.NewRewardIndex("ukava", d("0.010571385600010177")),
},
},
},
{
"multiple reward denoms: 0 seconds",
args{
borrow: c("bnb", 1000000000000),
rewardsPerSecond: cs(c("hard", 122354), c("ukava", 122354)),
initialTime: time.Date(2020, 12, 15, 14, 0, 0, 0, time.UTC),
timeElapsed: 0,
expectedRewardIndexes: types.RewardIndexes{
types.NewRewardIndex("hard", d("0.0")),
types.NewRewardIndex("ukava", d("0.0")),
},
},
},
{
"multiple reward denoms with different rewards per second: 1 day",
args{
borrow: c("bnb", 1000000000000),
rewardsPerSecond: cs(c("hard", 122354), c("ukava", 555555)),
initialTime: time.Date(2020, 12, 15, 14, 0, 0, 0, time.UTC),
timeElapsed: 86400,
expectedRewardIndexes: types.RewardIndexes{
types.NewRewardIndex("hard", d("0.010571385600010177")),
types.NewRewardIndex("ukava", d("0.047999952000046210")),
},
},
},
}
for _, tc := range testCases {
suite.Run(tc.name, func() {
suite.SetupWithGenState()
suite.ctx = suite.ctx.WithBlockTime(tc.args.initialTime)
// Mint coins to hard module account
supplyKeeper := suite.app.GetSupplyKeeper()
hardMaccCoins := sdk.NewCoins(sdk.NewCoin("usdx", sdk.NewInt(200000000)))
supplyKeeper.MintCoins(suite.ctx, hardtypes.ModuleAccountName, hardMaccCoins)
// setup incentive state
params := types.NewParams(
types.RewardPeriods{types.NewRewardPeriod(true, tc.args.borrow.Denom, tc.args.initialTime, tc.args.initialTime.Add(time.Hour*24*365*4), tc.args.rewardsPerSecond[0])},
types.MultiRewardPeriods{types.NewMultiRewardPeriod(true, tc.args.borrow.Denom, tc.args.initialTime, tc.args.initialTime.Add(time.Hour*24*365*4), tc.args.rewardsPerSecond)},
types.MultiRewardPeriods{types.NewMultiRewardPeriod(true, tc.args.borrow.Denom, tc.args.initialTime, tc.args.initialTime.Add(time.Hour*24*365*4), tc.args.rewardsPerSecond)},
types.RewardPeriods{types.NewRewardPeriod(true, tc.args.borrow.Denom, tc.args.initialTime, tc.args.initialTime.Add(time.Hour*24*365*4), tc.args.rewardsPerSecond[0])},
types.Multipliers{types.NewMultiplier(types.MultiplierName("small"), 1, d("0.25")), types.NewMultiplier(types.MultiplierName("large"), 12, d("1.0"))},
tc.args.initialTime.Add(time.Hour*24*365*5),
)
suite.keeper.SetParams(suite.ctx, params)
suite.keeper.SetPreviousHardBorrowRewardAccrualTime(suite.ctx, tc.args.borrow.Denom, tc.args.initialTime)
var rewardIndexes types.RewardIndexes
for _, rewardCoin := range tc.args.rewardsPerSecond {
rewardIndex := types.NewRewardIndex(rewardCoin.Denom, sdk.ZeroDec())
rewardIndexes = append(rewardIndexes, rewardIndex)
}
suite.keeper.SetHardBorrowRewardIndexes(suite.ctx, tc.args.borrow.Denom, rewardIndexes)
// Set up hard state (interest factor for the relevant denom)
suite.hardKeeper.SetSupplyInterestFactor(suite.ctx, tc.args.borrow.Denom, sdk.MustNewDecFromStr("1.0"))
suite.hardKeeper.SetBorrowInterestFactor(suite.ctx, tc.args.borrow.Denom, sdk.MustNewDecFromStr("1.0"))
suite.hardKeeper.SetPreviousAccrualTime(suite.ctx, tc.args.borrow.Denom, tc.args.initialTime)
// User deposits and borrows to increase total borrowed amount
hardKeeper := suite.app.GetHardKeeper()
userAddr := suite.addrs[3]
err := hardKeeper.Deposit(suite.ctx, userAddr, sdk.NewCoins(sdk.NewCoin(tc.args.borrow.Denom, tc.args.borrow.Amount.Mul(sdk.NewInt(2)))))
suite.Require().NoError(err)
err = hardKeeper.Borrow(suite.ctx, userAddr, sdk.NewCoins(tc.args.borrow))
suite.Require().NoError(err)
// Set up chain context at future time
runAtTime := suite.ctx.BlockTime().Add(time.Duration(int(time.Second) * tc.args.timeElapsed))
runCtx := suite.ctx.WithBlockTime(runAtTime)
// Run Hard begin blocker in order to update the denom's index factor
hard.BeginBlocker(runCtx, suite.hardKeeper)
// Accumulate hard borrow rewards for the deposit denom
multiRewardPeriod, found := suite.keeper.GetHardBorrowRewardPeriods(runCtx, tc.args.borrow.Denom)
suite.Require().True(found)
err = suite.keeper.AccumulateHardBorrowRewards(runCtx, multiRewardPeriod)
suite.Require().NoError(err)
// Check that each expected reward index matches the current stored reward index for the denom
globalRewardIndexes, found := suite.keeper.GetHardBorrowRewardIndexes(runCtx, tc.args.borrow.Denom)
suite.Require().True(found)
for _, expectedRewardIndex := range tc.args.expectedRewardIndexes {
globalRewardIndex, found := globalRewardIndexes.GetRewardIndex(expectedRewardIndex.CollateralType)
suite.Require().True(found)
suite.Require().Equal(expectedRewardIndex, globalRewardIndex)
}
})
}
}
func (suite *KeeperTestSuite) TestSynchronizeHardBorrowReward() {
type args struct {
incentiveBorrowRewardDenom string
borrow sdk.Coin
rewardsPerSecond sdk.Coins
initialTime time.Time
blockTimes []int
expectedRewardIndexes types.RewardIndexes
expectedRewards sdk.Coins
updateRewardsViaCommmittee bool
updatedBaseDenom string
updatedRewardsPerSecond sdk.Coins
updatedExpectedRewardIndexes types.RewardIndexes
updatedExpectedRewards sdk.Coins
updatedTimeDuration int
}
type test struct {
name string
args args
}
testCases := []test{
{
"single reward denom: 10 blocks",
args{
incentiveBorrowRewardDenom: "bnb",
borrow: c("bnb", 10000000000),
rewardsPerSecond: cs(c("hard", 122354)),
initialTime: time.Date(2020, 12, 15, 14, 0, 0, 0, time.UTC),
blockTimes: []int{10, 10, 10, 10, 10, 10, 10, 10, 10, 10},
expectedRewardIndexes: types.RewardIndexes{types.NewRewardIndex("hard", d("0.001223540000173228"))},
expectedRewards: cs(c("hard", 12235400)),
updateRewardsViaCommmittee: false,
},
},
{
"single reward denom: 10 blocks - long block time",
args{
incentiveBorrowRewardDenom: "bnb",
borrow: c("bnb", 10000000000),
rewardsPerSecond: cs(c("hard", 122354)),
initialTime: time.Date(2020, 12, 15, 14, 0, 0, 0, time.UTC),
blockTimes: []int{86400, 86400, 86400, 86400, 86400, 86400, 86400, 86400, 86400, 86400},
expectedRewardIndexes: types.RewardIndexes{types.NewRewardIndex("hard", d("10.571385603126235340"))},
expectedRewards: cs(c("hard", 105713856031)),
},
},
{
"single reward denom: user reward index updated when reward is zero",
args{
incentiveBorrowRewardDenom: "ukava",
borrow: c("ukava", 1), // borrow a tiny amount so that rewards round to zero
rewardsPerSecond: cs(c("hard", 122354)),
initialTime: time.Date(2020, 12, 15, 14, 0, 0, 0, time.UTC),
blockTimes: []int{10, 10, 10, 10, 10, 10, 10, 10, 10, 10},
expectedRewardIndexes: types.RewardIndexes{types.NewRewardIndex("hard", d("0.122354003908172328"))},
expectedRewards: cs(),
updateRewardsViaCommmittee: false,
},
},
{
"multiple reward denoms: 10 blocks",
args{
incentiveBorrowRewardDenom: "bnb",
borrow: c("bnb", 10000000000),
rewardsPerSecond: cs(c("hard", 122354), c("ukava", 122354)),
initialTime: time.Date(2020, 12, 15, 14, 0, 0, 0, time.UTC),
blockTimes: []int{10, 10, 10, 10, 10, 10, 10, 10, 10, 10},
expectedRewardIndexes: types.RewardIndexes{
types.NewRewardIndex("hard", d("0.001223540000173228")),
types.NewRewardIndex("ukava", d("0.001223540000173228")),
},
expectedRewards: cs(c("hard", 12235400), c("ukava", 12235400)),
},
},
{
"multiple reward denoms: 10 blocks - long block time",
args{
incentiveBorrowRewardDenom: "bnb",
borrow: c("bnb", 10000000000),
rewardsPerSecond: cs(c("hard", 122354), c("ukava", 122354)),
initialTime: time.Date(2020, 12, 15, 14, 0, 0, 0, time.UTC),
blockTimes: []int{86400, 86400, 86400, 86400, 86400, 86400, 86400, 86400, 86400, 86400},
expectedRewardIndexes: types.RewardIndexes{
types.NewRewardIndex("hard", d("10.571385603126235340")),
types.NewRewardIndex("ukava", d("10.571385603126235340")),
},
expectedRewards: cs(c("hard", 105713856031), c("ukava", 105713856031)),
},
},
{
"multiple reward denoms with different rewards per second: 10 blocks",
args{
incentiveBorrowRewardDenom: "bnb",
borrow: c("bnb", 10000000000),
rewardsPerSecond: cs(c("hard", 122354), c("ukava", 555555)),
initialTime: time.Date(2020, 12, 15, 14, 0, 0, 0, time.UTC),
blockTimes: []int{10, 10, 10, 10, 10, 10, 10, 10, 10, 10},
expectedRewardIndexes: types.RewardIndexes{
types.NewRewardIndex("hard", d("0.001223540000173228")),
types.NewRewardIndex("ukava", d("0.005555550000786558")),
},
expectedRewards: cs(c("hard", 12235400), c("ukava", 55555500)),
},
},
{
"denom is in incentive's hard borrow reward params but it has no rewards; add reward",
args{
incentiveBorrowRewardDenom: "bnb",
borrow: c("bnb", 10000000000),
rewardsPerSecond: sdk.Coins{},
initialTime: time.Date(2020, 12, 15, 14, 0, 0, 0, time.UTC),
blockTimes: []int{100},
expectedRewardIndexes: types.RewardIndexes{},
expectedRewards: sdk.Coins{},
updateRewardsViaCommmittee: true,
updatedBaseDenom: "bnb",
updatedRewardsPerSecond: cs(c("hard", 100000)),
updatedExpectedRewards: cs(c("hard", 8640000000)),
updatedExpectedRewardIndexes: types.RewardIndexes{
types.NewRewardIndex("hard", d("0.864000000049803065")),
},
updatedTimeDuration: 86400,
},
},
{
"denom is in incentive's hard borrow reward params and has rewards; add new reward type",
args{
incentiveBorrowRewardDenom: "bnb",
borrow: c("bnb", 10000000000),
rewardsPerSecond: cs(c("hard", 122354)),
initialTime: time.Date(2020, 12, 15, 14, 0, 0, 0, time.UTC),
blockTimes: []int{86400},
expectedRewardIndexes: types.RewardIndexes{
types.NewRewardIndex("hard", d("1.057138560060101160")),
},
expectedRewards: cs(c("hard", 10571385601)),
updateRewardsViaCommmittee: true,
updatedBaseDenom: "bnb",
updatedRewardsPerSecond: cs(c("hard", 122354), c("ukava", 100000)),
updatedExpectedRewards: cs(c("hard", 21142771202), c("ukava", 8640000000)),
updatedExpectedRewardIndexes: types.RewardIndexes{
types.NewRewardIndex("hard", d("2.114277120120202320")),
types.NewRewardIndex("ukava", d("0.864000000049120715")),
},
updatedTimeDuration: 86400,
},
},
{
"denom is in hard's money market params but not in incentive's hard supply reward params; add reward",
args{
incentiveBorrowRewardDenom: "bnb",
borrow: c("zzz", 10000000000),
rewardsPerSecond: sdk.Coins{},
initialTime: time.Date(2020, 12, 15, 14, 0, 0, 0, time.UTC),
blockTimes: []int{100},
expectedRewardIndexes: types.RewardIndexes{},
expectedRewards: sdk.Coins{},
updateRewardsViaCommmittee: true,
updatedBaseDenom: "zzz",
updatedRewardsPerSecond: cs(c("hard", 100000)),
updatedExpectedRewards: cs(c("hard", 8640000000)),
updatedExpectedRewardIndexes: types.RewardIndexes{
types.NewRewardIndex("hard", d("0.864000000049803065")),
},
updatedTimeDuration: 86400,
},
},
{
"denom incentive's hard borrow reward params but it has no rewards; add multiple reward types",
args{
incentiveBorrowRewardDenom: "bnb",
borrow: c("bnb", 10000000000),
rewardsPerSecond: sdk.Coins{},
initialTime: time.Date(2020, 12, 15, 14, 0, 0, 0, time.UTC),
blockTimes: []int{100},
expectedRewardIndexes: types.RewardIndexes{},
expectedRewards: sdk.Coins{},
updateRewardsViaCommmittee: true,
updatedBaseDenom: "bnb",
updatedRewardsPerSecond: cs(c("hard", 100000), c("ukava", 100500), c("swap", 500)),
updatedExpectedRewards: cs(c("hard", 8640000000), c("ukava", 8683200001), c("swap", 43200000)),
updatedExpectedRewardIndexes: types.RewardIndexes{
types.NewRewardIndex("hard", d("0.864000000049803065")),
types.NewRewardIndex("ukava", d("0.868320000050052081")),
types.NewRewardIndex("swap", d("0.004320000000249015")),
},
updatedTimeDuration: 86400,
},
},
{
"denom is in hard's money market params but not in incentive's hard supply reward params; add multiple reward types",
args{
incentiveBorrowRewardDenom: "bnb",
borrow: c("zzz", 10000000000),
rewardsPerSecond: sdk.Coins{},
initialTime: time.Date(2020, 12, 15, 14, 0, 0, 0, time.UTC),
blockTimes: []int{100},
expectedRewardIndexes: types.RewardIndexes{},
expectedRewards: sdk.Coins{},
updateRewardsViaCommmittee: true,
updatedBaseDenom: "zzz",
updatedRewardsPerSecond: cs(c("hard", 100000), c("ukava", 100500), c("swap", 500)),
updatedExpectedRewards: cs(c("hard", 8640000000), c("ukava", 8683200001), c("swap", 43200000)),
updatedExpectedRewardIndexes: types.RewardIndexes{
types.NewRewardIndex("hard", d("0.864000000049803065")),
types.NewRewardIndex("ukava", d("0.868320000050052081")),
types.NewRewardIndex("swap", d("0.004320000000249015")),
},
updatedTimeDuration: 86400,
},
},
}
for _, tc := range testCases {
suite.Run(tc.name, func() {
suite.SetupWithGenState()
suite.ctx = suite.ctx.WithBlockTime(tc.args.initialTime)
// Mint coins to hard module account
supplyKeeper := suite.app.GetSupplyKeeper()
hardMaccCoins := sdk.NewCoins(sdk.NewCoin("usdx", sdk.NewInt(200000000)))
supplyKeeper.MintCoins(suite.ctx, hardtypes.ModuleAccountName, hardMaccCoins)
// Set up incentive state
incentiveParams := types.NewParams(
types.RewardPeriods{types.NewRewardPeriod(true, tc.args.incentiveBorrowRewardDenom, tc.args.initialTime, tc.args.initialTime.Add(time.Hour*24*365*4), c("hard", 1))},
types.MultiRewardPeriods{types.NewMultiRewardPeriod(true, tc.args.incentiveBorrowRewardDenom, tc.args.initialTime, tc.args.initialTime.Add(time.Hour*24*365*4), sdk.Coins{})}, // Don't set any supply rewards for easier accounting
types.MultiRewardPeriods{types.NewMultiRewardPeriod(true, tc.args.incentiveBorrowRewardDenom, tc.args.initialTime, tc.args.initialTime.Add(time.Hour*24*365*4), tc.args.rewardsPerSecond)},
types.RewardPeriods{types.NewRewardPeriod(true, tc.args.incentiveBorrowRewardDenom, tc.args.initialTime, tc.args.initialTime.Add(time.Hour*24*365*4), c("hard", 1))},
types.Multipliers{types.NewMultiplier(types.MultiplierName("small"), 1, d("0.25")), types.NewMultiplier(types.MultiplierName("large"), 12, d("1.0"))},
tc.args.initialTime.Add(time.Hour*24*365*5),
)
suite.keeper.SetParams(suite.ctx, incentiveParams)
suite.keeper.SetPreviousHardBorrowRewardAccrualTime(suite.ctx, tc.args.incentiveBorrowRewardDenom, tc.args.initialTime)
var rewardIndexes types.RewardIndexes
for _, rewardCoin := range tc.args.rewardsPerSecond {
rewardIndex := types.NewRewardIndex(rewardCoin.Denom, sdk.ZeroDec())
rewardIndexes = append(rewardIndexes, rewardIndex)
}
if len(rewardIndexes) > 0 {
suite.keeper.SetHardBorrowRewardIndexes(suite.ctx, tc.args.incentiveBorrowRewardDenom, rewardIndexes)
}
// Set up hard state (interest factor for the relevant denom)
suite.hardKeeper.SetSupplyInterestFactor(suite.ctx, tc.args.borrow.Denom, sdk.MustNewDecFromStr("1.0"))
suite.hardKeeper.SetBorrowInterestFactor(suite.ctx, tc.args.borrow.Denom, sdk.MustNewDecFromStr("1.0"))
suite.hardKeeper.SetPreviousAccrualTime(suite.ctx, tc.args.borrow.Denom, tc.args.initialTime)
// Set the minimum borrow to 0 to allow testing small borrows
hardParams := suite.hardKeeper.GetParams(suite.ctx)
hardParams.MinimumBorrowUSDValue = sdk.ZeroDec()
suite.hardKeeper.SetParams(suite.ctx, hardParams)
// Borrow a fixed amount from another user to dilute primary user's rewards per second.
suite.Require().NoError(
suite.hardKeeper.Deposit(suite.ctx, suite.addrs[2], cs(c("ukava", 200_000_000))),
)
suite.Require().NoError(
suite.hardKeeper.Borrow(suite.ctx, suite.addrs[2], cs(c("ukava", 100_000_000))),
)
// User deposits and borrows to increase total borrowed amount
hardKeeper := suite.app.GetHardKeeper()
userAddr := suite.addrs[3]
err := hardKeeper.Deposit(suite.ctx, userAddr, sdk.NewCoins(sdk.NewCoin(tc.args.borrow.Denom, tc.args.borrow.Amount.Mul(sdk.NewInt(2)))))
suite.Require().NoError(err)
err = hardKeeper.Borrow(suite.ctx, userAddr, sdk.NewCoins(tc.args.borrow))
suite.Require().NoError(err)
// Check that Hard hooks initialized a HardLiquidityProviderClaim
claim, found := suite.keeper.GetHardLiquidityProviderClaim(suite.ctx, userAddr)
suite.Require().True(found)
multiRewardIndex, _ := claim.BorrowRewardIndexes.GetRewardIndex(tc.args.borrow.Denom)
for _, expectedRewardIndex := range tc.args.expectedRewardIndexes {
currRewardIndex, found := multiRewardIndex.RewardIndexes.GetRewardIndex(expectedRewardIndex.CollateralType)
suite.Require().True(found)
suite.Require().Equal(sdk.ZeroDec(), currRewardIndex.RewardFactor)
}
// Run accumulator at several intervals
var timeElapsed int
previousBlockTime := suite.ctx.BlockTime()
for _, t := range tc.args.blockTimes {
timeElapsed += t
updatedBlockTime := previousBlockTime.Add(time.Duration(int(time.Second) * t))
previousBlockTime = updatedBlockTime
blockCtx := suite.ctx.WithBlockTime(updatedBlockTime)
// Run Hard begin blocker for each block ctx to update denom's interest factor
hard.BeginBlocker(blockCtx, suite.hardKeeper)
// Accumulate hard borrow-side rewards
multiRewardPeriod, found := suite.keeper.GetHardBorrowRewardPeriods(blockCtx, tc.args.borrow.Denom)
if found {
err := suite.keeper.AccumulateHardBorrowRewards(blockCtx, multiRewardPeriod)
suite.Require().NoError(err)
}
}
updatedBlockTime := suite.ctx.BlockTime().Add(time.Duration(int(time.Second) * timeElapsed))
suite.ctx = suite.ctx.WithBlockTime(updatedBlockTime)
// After we've accumulated, run synchronize
borrow, found := hardKeeper.GetBorrow(suite.ctx, userAddr)
suite.Require().True(found)
suite.Require().NotPanics(func() {
suite.keeper.SynchronizeHardBorrowReward(suite.ctx, borrow)
})
// Check that the global reward index's reward factor and user's claim have been updated as expected
claim, found = suite.keeper.GetHardLiquidityProviderClaim(suite.ctx, userAddr)
suite.Require().True(found)
globalRewardIndexes, foundGlobalRewardIndexes := suite.keeper.GetHardBorrowRewardIndexes(suite.ctx, tc.args.borrow.Denom)
if len(tc.args.rewardsPerSecond) > 0 {
suite.Require().True(foundGlobalRewardIndexes)
for _, expectedRewardIndex := range tc.args.expectedRewardIndexes {
// Check that global reward index has been updated as expected
globalRewardIndex, found := globalRewardIndexes.GetRewardIndex(expectedRewardIndex.CollateralType)
suite.Require().True(found)
suite.Require().Equal(expectedRewardIndex, globalRewardIndex)
// Check that the user's claim's reward index matches the corresponding global reward index
multiRewardIndex, found := claim.BorrowRewardIndexes.GetRewardIndex(tc.args.borrow.Denom)
suite.Require().True(found)
rewardIndex, found := multiRewardIndex.RewardIndexes.GetRewardIndex(expectedRewardIndex.CollateralType)
suite.Require().True(found)
suite.Require().Equal(expectedRewardIndex, rewardIndex)
// Check that the user's claim holds the expected amount of reward coins
suite.Require().Equal(
tc.args.expectedRewards.AmountOf(expectedRewardIndex.CollateralType),
claim.Reward.AmountOf(expectedRewardIndex.CollateralType),
)
}
}
// Only test cases with reward param updates continue past this point
if !tc.args.updateRewardsViaCommmittee {
return
}
// If are no initial rewards per second, add new rewards through a committee param change
// 1. Construct incentive's new HardBorrowRewardPeriods param
currIncentiveHardBorrowRewardPeriods := suite.keeper.GetParams(suite.ctx).HardBorrowRewardPeriods
multiRewardPeriod, found := currIncentiveHardBorrowRewardPeriods.GetMultiRewardPeriod(tc.args.borrow.Denom)
if found {
// Borrow denom's reward period exists, but it doesn't have any rewards per second
index, found := currIncentiveHardBorrowRewardPeriods.GetMultiRewardPeriodIndex(tc.args.borrow.Denom)
suite.Require().True(found)
multiRewardPeriod.RewardsPerSecond = tc.args.updatedRewardsPerSecond
currIncentiveHardBorrowRewardPeriods[index] = multiRewardPeriod
} else {
// Borrow denom's reward period does not exist
_, found := currIncentiveHardBorrowRewardPeriods.GetMultiRewardPeriodIndex(tc.args.borrow.Denom)
suite.Require().False(found)
newMultiRewardPeriod := types.NewMultiRewardPeriod(true, tc.args.borrow.Denom, tc.args.initialTime, tc.args.initialTime.Add(time.Hour*24*365*4), tc.args.updatedRewardsPerSecond)
currIncentiveHardBorrowRewardPeriods = append(currIncentiveHardBorrowRewardPeriods, newMultiRewardPeriod)
}
// 2. Construct the parameter change proposal to update HardBorrowRewardPeriods param
pubProposal := params.NewParameterChangeProposal(
"Update hard borrow rewards", "Adds a new reward coin to the incentive module's hard borrow rewards.",
[]params.ParamChange{
{
Subspace: types.ModuleName, // target incentive module
Key: string(types.KeyHardBorrowRewardPeriods), // target hard borrow rewards key
Value: string(suite.app.Codec().MustMarshalJSON(currIncentiveHardBorrowRewardPeriods)),
},
},
)
// 3. Ensure proposal is properly formed
err = suite.committeeKeeper.ValidatePubProposal(suite.ctx, pubProposal)
suite.Require().NoError(err)
// 4. Committee creates proposal
committeeMemberOne := suite.addrs[0]
committeeMemberTwo := suite.addrs[1]
proposalID, err := suite.committeeKeeper.SubmitProposal(suite.ctx, committeeMemberOne, 1, pubProposal)
suite.Require().NoError(err)
// 5. Committee votes and passes proposal
err = suite.committeeKeeper.AddVote(suite.ctx, proposalID, committeeMemberOne)
err = suite.committeeKeeper.AddVote(suite.ctx, proposalID, committeeMemberTwo)
// 6. Check proposal passed
proposalPasses, err := suite.committeeKeeper.GetProposalResult(suite.ctx, proposalID)
suite.Require().NoError(err)
suite.Require().True(proposalPasses)
// 7. Run committee module's begin blocker to enact proposal
suite.NotPanics(func() {
committee.BeginBlocker(suite.ctx, abci.RequestBeginBlock{}, suite.committeeKeeper)
})
// We need to accumulate hard supply-side rewards again
multiRewardPeriod, found = suite.keeper.GetHardBorrowRewardPeriods(suite.ctx, tc.args.borrow.Denom)
suite.Require().True(found)
// But new borrow denoms don't have their PreviousHardBorrowRewardAccrualTime set yet,
// so we need to call the accumulation method once to set the initial reward accrual time
if tc.args.borrow.Denom != tc.args.incentiveBorrowRewardDenom {
err = suite.keeper.AccumulateHardBorrowRewards(suite.ctx, multiRewardPeriod)
suite.Require().NoError(err)
}
// Now we can jump forward in time and accumulate rewards
updatedBlockTime = previousBlockTime.Add(time.Duration(int(time.Second) * tc.args.updatedTimeDuration))
suite.ctx = suite.ctx.WithBlockTime(updatedBlockTime)
err = suite.keeper.AccumulateHardBorrowRewards(suite.ctx, multiRewardPeriod)
suite.Require().NoError(err)
// After we've accumulated, run synchronize
borrow, found = hardKeeper.GetBorrow(suite.ctx, userAddr)
suite.Require().True(found)
suite.Require().NotPanics(func() {
suite.keeper.SynchronizeHardBorrowReward(suite.ctx, borrow)
})
// Check that the global reward index's reward factor and user's claim have been updated as expected
globalRewardIndexes, found = suite.keeper.GetHardBorrowRewardIndexes(suite.ctx, tc.args.borrow.Denom)
suite.Require().True(found)
claim, found = suite.keeper.GetHardLiquidityProviderClaim(suite.ctx, userAddr)
suite.Require().True(found)
for _, expectedRewardIndex := range tc.args.updatedExpectedRewardIndexes {
// Check that global reward index has been updated as expected
globalRewardIndex, found := globalRewardIndexes.GetRewardIndex(expectedRewardIndex.CollateralType)
suite.Require().True(found)
suite.Require().Equal(expectedRewardIndex, globalRewardIndex)
// Check that the user's claim's reward index matches the corresponding global reward index
multiRewardIndex, found := claim.BorrowRewardIndexes.GetRewardIndex(tc.args.borrow.Denom)
suite.Require().True(found)
rewardIndex, found := multiRewardIndex.RewardIndexes.GetRewardIndex(expectedRewardIndex.CollateralType)
suite.Require().True(found)
suite.Require().Equal(expectedRewardIndex, rewardIndex)
// Check that the user's claim holds the expected amount of reward coins
suite.Require().Equal(
tc.args.updatedExpectedRewards.AmountOf(expectedRewardIndex.CollateralType),
claim.Reward.AmountOf(expectedRewardIndex.CollateralType),
)
}
})
}
}
func (suite *KeeperTestSuite) TestAccumulateHardDelegatorRewards() {
type args struct {
delegation sdk.Coin
rewardsPerSecond sdk.Coin
initialTime time.Time
timeElapsed int
expectedRewardFactor sdk.Dec
}
type test struct {
name string
args args
}
testCases := []test{
{
"7 seconds",
args{
delegation: c("ukava", 1_000_000),
rewardsPerSecond: c("hard", 122354),
initialTime: time.Date(2020, 12, 15, 14, 0, 0, 0, time.UTC),
timeElapsed: 7,
expectedRewardFactor: d("0.428239000000000000"),
},
},
{
"1 day",
args{
delegation: c("ukava", 1_000_000),
rewardsPerSecond: c("hard", 122354),
initialTime: time.Date(2020, 12, 15, 14, 0, 0, 0, time.UTC),
timeElapsed: 86400,
expectedRewardFactor: d("5285.692800000000000000"),
},
},
{
"0 seconds",
args{
delegation: c("ukava", 1_000_000),
rewardsPerSecond: c("hard", 122354),
initialTime: time.Date(2020, 12, 15, 14, 0, 0, 0, time.UTC),
timeElapsed: 0,
expectedRewardFactor: d("0.0"),
},
},
}
for _, tc := range testCases {
suite.Run(tc.name, func() {
suite.SetupWithGenState()
suite.ctx = suite.ctx.WithBlockTime(tc.args.initialTime)
// Mint coins to hard module account
supplyKeeper := suite.app.GetSupplyKeeper()
hardMaccCoins := sdk.NewCoins(sdk.NewCoin("usdx", sdk.NewInt(200000000)))
supplyKeeper.MintCoins(suite.ctx, hardtypes.ModuleAccountName, hardMaccCoins)
// Set up incentive state
params := types.NewParams(
types.RewardPeriods{types.NewRewardPeriod(true, tc.args.delegation.Denom, tc.args.initialTime, tc.args.initialTime.Add(time.Hour*24*365*4), tc.args.rewardsPerSecond)},
types.MultiRewardPeriods{types.NewMultiRewardPeriod(true, tc.args.delegation.Denom, tc.args.initialTime, tc.args.initialTime.Add(time.Hour*24*365*4), cs(tc.args.rewardsPerSecond))},
types.MultiRewardPeriods{types.NewMultiRewardPeriod(true, tc.args.delegation.Denom, tc.args.initialTime, tc.args.initialTime.Add(time.Hour*24*365*4), cs(tc.args.rewardsPerSecond))},
types.RewardPeriods{types.NewRewardPeriod(true, tc.args.delegation.Denom, tc.args.initialTime, tc.args.initialTime.Add(time.Hour*24*365*4), tc.args.rewardsPerSecond)},
types.Multipliers{types.NewMultiplier(types.MultiplierName("small"), 1, d("0.25")), types.NewMultiplier(types.MultiplierName("large"), 12, d("1.0"))},
tc.args.initialTime.Add(time.Hour*24*365*5),
)
suite.keeper.SetParams(suite.ctx, params)
suite.keeper.SetPreviousHardDelegatorRewardAccrualTime(suite.ctx, tc.args.delegation.Denom, tc.args.initialTime)
suite.keeper.SetHardDelegatorRewardFactor(suite.ctx, tc.args.delegation.Denom, sdk.ZeroDec())
// Set up hard state (interest factor for the relevant denom)
suite.hardKeeper.SetPreviousAccrualTime(suite.ctx, tc.args.delegation.Denom, tc.args.initialTime)
err := suite.deliverMsgCreateValidator(suite.ctx, suite.validatorAddrs[0], tc.args.delegation)
suite.Require().NoError(err)
err = suite.deliverMsgDelegate(suite.ctx, suite.addrs[0], suite.validatorAddrs[0], tc.args.delegation)
suite.Require().NoError(err)
staking.EndBlocker(suite.ctx, suite.stakingKeeper)
// Set up chain context at future time
runAtTime := suite.ctx.BlockTime().Add(time.Duration(int(time.Second) * tc.args.timeElapsed))
runCtx := suite.ctx.WithBlockTime(runAtTime)
// Run Hard begin blocker in order to update the denom's index factor
hard.BeginBlocker(runCtx, suite.hardKeeper)
rewardPeriod, found := suite.keeper.GetHardDelegatorRewardPeriod(runCtx, tc.args.delegation.Denom)
suite.Require().True(found)
err = suite.keeper.AccumulateHardDelegatorRewards(runCtx, rewardPeriod)
suite.Require().NoError(err)
rewardFactor, found := suite.keeper.GetHardDelegatorRewardFactor(runCtx, tc.args.delegation.Denom)
suite.Require().Equal(tc.args.expectedRewardFactor, rewardFactor)
})
}
}
func (suite *KeeperTestSuite) TestInitializeHardSupplyRewards() {
type args struct {
moneyMarketRewardDenoms map[string][]string
deposit sdk.Coins
initialTime time.Time
expectedClaimSupplyRewardIndexes types.MultiRewardIndexes
}
type test struct {
name string
args args
}
standardMoneyMarketRewardDenoms := map[string][]string{
"bnb": {"hard"},
"btcb": {"hard", "ukava"},
"xrp": {},
}
testCases := []test{
{
"single deposit denom, single reward denom",
args{
moneyMarketRewardDenoms: standardMoneyMarketRewardDenoms,
deposit: cs(c("bnb", 1000000000000)),
initialTime: time.Date(2020, 12, 15, 14, 0, 0, 0, time.UTC),
expectedClaimSupplyRewardIndexes: types.MultiRewardIndexes{
types.NewMultiRewardIndex(
"bnb",
types.RewardIndexes{
types.NewRewardIndex("hard", d("0.0")),
},
),
},
},
},
{
"single deposit denom, multiple reward denoms",
args{
moneyMarketRewardDenoms: standardMoneyMarketRewardDenoms,
deposit: cs(c("btcb", 1000000000000)),
initialTime: time.Date(2020, 12, 15, 14, 0, 0, 0, time.UTC),
expectedClaimSupplyRewardIndexes: types.MultiRewardIndexes{
types.NewMultiRewardIndex(
"btcb",
types.RewardIndexes{
types.NewRewardIndex("hard", d("0.0")),
types.NewRewardIndex("ukava", d("0.0")),
},
),
},
},
},
{
"single deposit denom, no reward denoms",
args{
moneyMarketRewardDenoms: standardMoneyMarketRewardDenoms,
deposit: cs(c("xrp", 1000000000000)),
initialTime: time.Date(2020, 12, 15, 14, 0, 0, 0, time.UTC),
expectedClaimSupplyRewardIndexes: types.MultiRewardIndexes{
types.NewMultiRewardIndex(
"xrp",
nil,
),
},
},
},
{
"multiple deposit denoms, multiple overlapping reward denoms",
args{
moneyMarketRewardDenoms: standardMoneyMarketRewardDenoms,
deposit: cs(c("bnb", 1000000000000), c("btcb", 1000000000000)),
initialTime: time.Date(2020, 12, 15, 14, 0, 0, 0, time.UTC),
expectedClaimSupplyRewardIndexes: types.MultiRewardIndexes{
types.NewMultiRewardIndex(
"bnb",
types.RewardIndexes{
types.NewRewardIndex("hard", d("0.0")),
},
),
types.NewMultiRewardIndex(
"btcb",
types.RewardIndexes{
types.NewRewardIndex("hard", d("0.0")),
types.NewRewardIndex("ukava", d("0.0")),
},
),
},
},
},
{
"multiple deposit denoms, correct discrete reward denoms",
args{
moneyMarketRewardDenoms: standardMoneyMarketRewardDenoms,
deposit: cs(c("bnb", 1000000000000), c("xrp", 1000000000000)),
initialTime: time.Date(2020, 12, 15, 14, 0, 0, 0, time.UTC),
expectedClaimSupplyRewardIndexes: types.MultiRewardIndexes{
types.NewMultiRewardIndex(
"bnb",
types.RewardIndexes{
types.NewRewardIndex("hard", d("0.0")),
},
),
types.NewMultiRewardIndex(
"xrp",
nil,
),
},
},
},
}
for _, tc := range testCases {
suite.Run(tc.name, func() {
suite.SetupWithGenState()
suite.ctx = suite.ctx.WithBlockTime(tc.args.initialTime)
// Mint coins to hard module account
supplyKeeper := suite.app.GetSupplyKeeper()
hardMaccCoins := sdk.NewCoins(sdk.NewCoin("usdx", sdk.NewInt(200000000)))
supplyKeeper.MintCoins(suite.ctx, hardtypes.ModuleAccountName, hardMaccCoins)
userAddr := suite.addrs[3]
// Prepare money market + reward params
i := 0
var multiRewardPeriods types.MultiRewardPeriods
var rewardPeriods types.RewardPeriods
for moneyMarketDenom, rewardDenoms := range tc.args.moneyMarketRewardDenoms {
// Set up multi reward periods for supply/borrow indexes with dynamic money market denoms/reward denoms
var rewardsPerSecond sdk.Coins
for _, rewardDenom := range rewardDenoms {
rewardsPerSecond = append(rewardsPerSecond, sdk.NewCoin(rewardDenom, sdk.OneInt()))
}
multiRewardPeriod := types.NewMultiRewardPeriod(true, moneyMarketDenom, tc.args.initialTime, tc.args.initialTime.Add(time.Hour*24*365*4), rewardsPerSecond)
multiRewardPeriods = append(multiRewardPeriods, multiRewardPeriod)
// Set up generic reward periods for usdx minting/delegator indexes
if i == 0 && len(rewardDenoms) > 0 {
rewardPeriod := types.NewRewardPeriod(true, moneyMarketDenom, tc.args.initialTime, tc.args.initialTime.Add(time.Hour*24*365*4), rewardsPerSecond[i])
rewardPeriods = append(rewardPeriods, rewardPeriod)
i++
}
}
// Initialize and set incentive params
params := types.NewParams(
rewardPeriods, multiRewardPeriods, multiRewardPeriods, rewardPeriods,
types.Multipliers{types.NewMultiplier(types.MultiplierName("small"), 1, d("0.25")), types.NewMultiplier(types.MultiplierName("large"), 12, d("1.0"))},
tc.args.initialTime.Add(time.Hour*24*365*5),
)
suite.keeper.SetParams(suite.ctx, params)
// Set each money market's previous accrual time and supply reward indexes
for moneyMarketDenom, rewardDenoms := range tc.args.moneyMarketRewardDenoms {
var rewardIndexes types.RewardIndexes
for _, rewardDenom := range rewardDenoms {
rewardIndex := types.NewRewardIndex(rewardDenom, sdk.ZeroDec())
rewardIndexes = append(rewardIndexes, rewardIndex)
}
suite.keeper.SetPreviousHardSupplyRewardAccrualTime(suite.ctx, moneyMarketDenom, tc.args.initialTime)
if len(rewardIndexes) > 0 {
suite.keeper.SetHardSupplyRewardIndexes(suite.ctx, moneyMarketDenom, rewardIndexes)
}
}
// User deposits
hardKeeper := suite.app.GetHardKeeper()
err := hardKeeper.Deposit(suite.ctx, userAddr, tc.args.deposit)
suite.Require().NoError(err)
claim, foundClaim := suite.keeper.GetHardLiquidityProviderClaim(suite.ctx, userAddr)
suite.Require().True(foundClaim)
suite.Require().Equal(tc.args.expectedClaimSupplyRewardIndexes, claim.SupplyRewardIndexes)
})
}
}
func (suite *KeeperTestSuite) TestAccumulateHardSupplyRewards() {
type args struct {
deposit sdk.Coin
rewardsPerSecond sdk.Coins
initialTime time.Time
timeElapsed int
expectedRewardIndexes types.RewardIndexes
}
type test struct {
name string
args args
}
testCases := []test{
{
"single reward denom: 7 seconds",
args{
deposit: c("bnb", 1000000000000),
rewardsPerSecond: cs(c("hard", 122354)),
initialTime: time.Date(2020, 12, 15, 14, 0, 0, 0, time.UTC),
timeElapsed: 7,
expectedRewardIndexes: types.RewardIndexes{types.NewRewardIndex("hard", d("0.000000856478000000"))},
},
},
{
"single reward denom: 1 day",
args{
deposit: c("bnb", 1000000000000),
rewardsPerSecond: cs(c("hard", 122354)),
initialTime: time.Date(2020, 12, 15, 14, 0, 0, 0, time.UTC),
timeElapsed: 86400,
expectedRewardIndexes: types.RewardIndexes{types.NewRewardIndex("hard", d("0.010571385600000000"))},
},
},
{
"single reward denom: 0 seconds",
args{
deposit: c("bnb", 1000000000000),
rewardsPerSecond: cs(c("hard", 122354)),
initialTime: time.Date(2020, 12, 15, 14, 0, 0, 0, time.UTC),
timeElapsed: 0,
expectedRewardIndexes: types.RewardIndexes{types.NewRewardIndex("hard", d("0.0"))},
},
},
{
"multiple reward denoms: 7 seconds",
args{
deposit: c("bnb", 1000000000000),
rewardsPerSecond: cs(c("hard", 122354), c("ukava", 122354)),
initialTime: time.Date(2020, 12, 15, 14, 0, 0, 0, time.UTC),
timeElapsed: 7,
expectedRewardIndexes: types.RewardIndexes{
types.NewRewardIndex("hard", d("0.000000856478000000")),
types.NewRewardIndex("ukava", d("0.000000856478000000")),
},
},
},
{
"multiple reward denoms: 1 day",
args{
deposit: c("bnb", 1000000000000),
rewardsPerSecond: cs(c("hard", 122354), c("ukava", 122354)),
initialTime: time.Date(2020, 12, 15, 14, 0, 0, 0, time.UTC),
timeElapsed: 86400,
expectedRewardIndexes: types.RewardIndexes{
types.NewRewardIndex("hard", d("0.010571385600000000")),
types.NewRewardIndex("ukava", d("0.010571385600000000")),
},
},
},
{
"multiple reward denoms: 0 seconds",
args{
deposit: c("bnb", 1000000000000),
rewardsPerSecond: cs(c("hard", 122354), c("ukava", 122354)),
initialTime: time.Date(2020, 12, 15, 14, 0, 0, 0, time.UTC),
timeElapsed: 0,
expectedRewardIndexes: types.RewardIndexes{
types.NewRewardIndex("hard", d("0.0")),
types.NewRewardIndex("ukava", d("0.0")),
},
},
},
{
"multiple reward denoms with different rewards per second: 1 day",
args{
deposit: c("bnb", 1000000000000),
rewardsPerSecond: cs(c("hard", 122354), c("ukava", 555555)),
initialTime: time.Date(2020, 12, 15, 14, 0, 0, 0, time.UTC),
timeElapsed: 86400,
expectedRewardIndexes: types.RewardIndexes{
types.NewRewardIndex("hard", d("0.010571385600000000")),
types.NewRewardIndex("ukava", d("0.047999952000000000")),
},
},
},
{
"single reward denom, no rewards",
args{
deposit: c("bnb", 1000000000000),
rewardsPerSecond: sdk.Coins{},
initialTime: time.Date(2020, 12, 15, 14, 0, 0, 0, time.UTC),
timeElapsed: 7,
expectedRewardIndexes: types.RewardIndexes{},
},
},
}
for _, tc := range testCases {
suite.Run(tc.name, func() {
suite.SetupWithGenState()
suite.ctx = suite.ctx.WithBlockTime(tc.args.initialTime)
// Mint coins to hard module account
supplyKeeper := suite.app.GetSupplyKeeper()
hardMaccCoins := sdk.NewCoins(sdk.NewCoin("usdx", sdk.NewInt(200000000)))
supplyKeeper.MintCoins(suite.ctx, hardtypes.ModuleAccountName, hardMaccCoins)
// Set up incentive state
params := types.NewParams(
types.RewardPeriods{types.NewRewardPeriod(true, tc.args.deposit.Denom, tc.args.initialTime, tc.args.initialTime.Add(time.Hour*24*365*4), c("hard", 1))},
types.MultiRewardPeriods{types.NewMultiRewardPeriod(true, tc.args.deposit.Denom, tc.args.initialTime, tc.args.initialTime.Add(time.Hour*24*365*4), tc.args.rewardsPerSecond)},
types.MultiRewardPeriods{types.NewMultiRewardPeriod(true, tc.args.deposit.Denom, tc.args.initialTime, tc.args.initialTime.Add(time.Hour*24*365*4), tc.args.rewardsPerSecond)},
types.RewardPeriods{types.NewRewardPeriod(true, tc.args.deposit.Denom, tc.args.initialTime, tc.args.initialTime.Add(time.Hour*24*365*4), c("hard", 1))},
types.Multipliers{types.NewMultiplier(types.MultiplierName("small"), 1, d("0.25")), types.NewMultiplier(types.MultiplierName("large"), 12, d("1.0"))},
tc.args.initialTime.Add(time.Hour*24*365*5),
)
suite.keeper.SetParams(suite.ctx, params)
suite.keeper.SetPreviousHardSupplyRewardAccrualTime(suite.ctx, tc.args.deposit.Denom, tc.args.initialTime)
var rewardIndexes types.RewardIndexes
for _, rewardCoin := range tc.args.rewardsPerSecond {
rewardIndex := types.NewRewardIndex(rewardCoin.Denom, sdk.ZeroDec())
rewardIndexes = append(rewardIndexes, rewardIndex)
}
if len(rewardIndexes) > 0 {
suite.keeper.SetHardSupplyRewardIndexes(suite.ctx, tc.args.deposit.Denom, rewardIndexes)
}
// Set up hard state (interest factor for the relevant denom)
suite.hardKeeper.SetSupplyInterestFactor(suite.ctx, tc.args.deposit.Denom, sdk.MustNewDecFromStr("1.0"))
suite.hardKeeper.SetPreviousAccrualTime(suite.ctx, tc.args.deposit.Denom, tc.args.initialTime)
// User deposits to increase total supplied amount
hardKeeper := suite.app.GetHardKeeper()
userAddr := suite.addrs[3]
err := hardKeeper.Deposit(suite.ctx, userAddr, sdk.NewCoins(tc.args.deposit))
suite.Require().NoError(err)
// Set up chain context at future time
runAtTime := suite.ctx.BlockTime().Add(time.Duration(int(time.Second) * tc.args.timeElapsed))
runCtx := suite.ctx.WithBlockTime(runAtTime)
// Run Hard begin blocker in order to update the denom's index factor
hard.BeginBlocker(runCtx, suite.hardKeeper)
// Accumulate hard supply rewards for the deposit denom
multiRewardPeriod, found := suite.keeper.GetHardSupplyRewardPeriods(runCtx, tc.args.deposit.Denom)
suite.Require().True(found)
err = suite.keeper.AccumulateHardSupplyRewards(runCtx, multiRewardPeriod)
suite.Require().NoError(err)
// Check that each expected reward index matches the current stored reward index for the denom
globalRewardIndexes, found := suite.keeper.GetHardSupplyRewardIndexes(runCtx, tc.args.deposit.Denom)
if len(tc.args.rewardsPerSecond) > 0 {
suite.Require().True(found)
for _, expectedRewardIndex := range tc.args.expectedRewardIndexes {
globalRewardIndex, found := globalRewardIndexes.GetRewardIndex(expectedRewardIndex.CollateralType)
suite.Require().True(found)
suite.Require().Equal(expectedRewardIndex, globalRewardIndex)
}
} else {
suite.Require().False(found)
}
})
}
}
func (suite *KeeperTestSuite) TestSynchronizeHardSupplyReward() {
type args struct {
incentiveSupplyRewardDenom string
deposit sdk.Coin
rewardsPerSecond sdk.Coins
initialTime time.Time
blockTimes []int
expectedRewardIndexes types.RewardIndexes
expectedRewards sdk.Coins
updateRewardsViaCommmittee bool
updatedBaseDenom string
updatedRewardsPerSecond sdk.Coins
updatedExpectedRewardIndexes types.RewardIndexes
updatedExpectedRewards sdk.Coins
updatedTimeDuration int
}
type test struct {
name string
args args
}
testCases := []test{
{
"single reward denom: 10 blocks",
args{
incentiveSupplyRewardDenom: "bnb",
deposit: c("bnb", 10000000000),
rewardsPerSecond: cs(c("hard", 122354)),
initialTime: time.Date(2020, 12, 15, 14, 0, 0, 0, time.UTC),
blockTimes: []int{10, 10, 10, 10, 10, 10, 10, 10, 10, 10},
expectedRewardIndexes: types.RewardIndexes{types.NewRewardIndex("hard", d("0.001223540000000000"))},
expectedRewards: cs(c("hard", 12235400)),
updateRewardsViaCommmittee: false,
},
},
{
"single reward denom: 10 blocks - long block time",
args{
incentiveSupplyRewardDenom: "bnb",
deposit: c("bnb", 10000000000),
rewardsPerSecond: cs(c("hard", 122354)),
initialTime: time.Date(2020, 12, 15, 14, 0, 0, 0, time.UTC),
blockTimes: []int{86400, 86400, 86400, 86400, 86400, 86400, 86400, 86400, 86400, 86400},
expectedRewardIndexes: types.RewardIndexes{types.NewRewardIndex("hard", d("10.571385600000000000"))},
expectedRewards: cs(c("hard", 105713856000)),
updateRewardsViaCommmittee: false,
},
},
{
"single reward denom: user reward index updated when reward is zero",
args{
incentiveSupplyRewardDenom: "ukava",
deposit: c("ukava", 1),
rewardsPerSecond: cs(c("hard", 122354)),
initialTime: time.Date(2020, 12, 15, 14, 0, 0, 0, time.UTC),
blockTimes: []int{10, 10, 10, 10, 10, 10, 10, 10, 10, 10},
expectedRewardIndexes: types.RewardIndexes{types.NewRewardIndex("hard", d("0.122353998776460010"))},
expectedRewards: cs(),
updateRewardsViaCommmittee: false,
},
},
{
"multiple reward denoms: 10 blocks",
args{
incentiveSupplyRewardDenom: "bnb",
deposit: c("bnb", 10000000000),
rewardsPerSecond: cs(c("hard", 122354), c("ukava", 122354)),
initialTime: time.Date(2020, 12, 15, 14, 0, 0, 0, time.UTC),
blockTimes: []int{10, 10, 10, 10, 10, 10, 10, 10, 10, 10},
expectedRewardIndexes: types.RewardIndexes{
types.NewRewardIndex("hard", d("0.001223540000000000")),
types.NewRewardIndex("ukava", d("0.001223540000000000")),
},
expectedRewards: cs(c("hard", 12235400), c("ukava", 12235400)),
updateRewardsViaCommmittee: false,
},
},
{
"multiple reward denoms: 10 blocks - long block time",
args{
incentiveSupplyRewardDenom: "bnb",
deposit: c("bnb", 10000000000),
rewardsPerSecond: cs(c("hard", 122354), c("ukava", 122354)),
initialTime: time.Date(2020, 12, 15, 14, 0, 0, 0, time.UTC),
blockTimes: []int{86400, 86400, 86400, 86400, 86400, 86400, 86400, 86400, 86400, 86400},
expectedRewardIndexes: types.RewardIndexes{
types.NewRewardIndex("hard", d("10.571385600000000000")),
types.NewRewardIndex("ukava", d("10.571385600000000000")),
},
expectedRewards: cs(c("hard", 105713856000), c("ukava", 105713856000)),
updateRewardsViaCommmittee: false,
},
},
{
"multiple reward denoms with different rewards per second: 10 blocks",
args{
incentiveSupplyRewardDenom: "bnb",
deposit: c("bnb", 10000000000),
rewardsPerSecond: cs(c("hard", 122354), c("ukava", 555555)),
initialTime: time.Date(2020, 12, 15, 14, 0, 0, 0, time.UTC),
blockTimes: []int{10, 10, 10, 10, 10, 10, 10, 10, 10, 10},
expectedRewardIndexes: types.RewardIndexes{
types.NewRewardIndex("hard", d("0.001223540000000000")),
types.NewRewardIndex("ukava", d("0.005555550000000000")),
},
expectedRewards: cs(c("hard", 12235400), c("ukava", 55555500)),
updateRewardsViaCommmittee: false,
},
},
{
"denom is in incentive's hard supply reward params but it has no rewards; add reward",
args{
incentiveSupplyRewardDenom: "bnb",
deposit: c("bnb", 10000000000),
rewardsPerSecond: sdk.Coins{},
initialTime: time.Date(2020, 12, 15, 14, 0, 0, 0, time.UTC),
blockTimes: []int{100},
expectedRewardIndexes: types.RewardIndexes{},
expectedRewards: sdk.Coins{},
updateRewardsViaCommmittee: true,
updatedBaseDenom: "bnb",
updatedRewardsPerSecond: cs(c("hard", 100000)),
updatedExpectedRewards: cs(c("hard", 8640000000)),
updatedExpectedRewardIndexes: types.RewardIndexes{
types.NewRewardIndex("hard", d("0.864")),
},
updatedTimeDuration: 86400,
},
},
{
"denom is in incentive's hard supply reward params and has rewards; add new reward type",
args{
incentiveSupplyRewardDenom: "bnb",
deposit: c("bnb", 10000000000),
rewardsPerSecond: cs(c("hard", 122354)),
initialTime: time.Date(2020, 12, 15, 14, 0, 0, 0, time.UTC),
blockTimes: []int{86400},
expectedRewardIndexes: types.RewardIndexes{
types.NewRewardIndex("hard", d("1.057138560000000000")),
},
expectedRewards: cs(c("hard", 10571385600)),
updateRewardsViaCommmittee: true,
updatedBaseDenom: "bnb",
updatedRewardsPerSecond: cs(c("hard", 122354), c("ukava", 100000)),
updatedExpectedRewards: cs(c("hard", 21142771200), c("ukava", 8640000000)),
updatedExpectedRewardIndexes: types.RewardIndexes{
types.NewRewardIndex("hard", d("2.114277120000000000")),
types.NewRewardIndex("ukava", d("0.864000000000000000")),
},
updatedTimeDuration: 86400,
},
},
{
"denom is in hard's money market params but not in incentive's hard supply reward params; add reward",
args{
incentiveSupplyRewardDenom: "bnb",
deposit: c("zzz", 10000000000),
rewardsPerSecond: sdk.Coins{},
initialTime: time.Date(2020, 12, 15, 14, 0, 0, 0, time.UTC),
blockTimes: []int{100},
expectedRewardIndexes: types.RewardIndexes{},
expectedRewards: sdk.Coins{},
updateRewardsViaCommmittee: true,
updatedBaseDenom: "zzz",
updatedRewardsPerSecond: cs(c("hard", 100000)),
updatedExpectedRewards: cs(c("hard", 8640000000)),
updatedExpectedRewardIndexes: types.RewardIndexes{
types.NewRewardIndex("hard", d("0.864")),
},
updatedTimeDuration: 86400,
},
},
{
"denom incentive's hard supply reward params but it has no rewards; add multiple reward types",
args{
incentiveSupplyRewardDenom: "bnb",
deposit: c("bnb", 10000000000),
rewardsPerSecond: sdk.Coins{},
initialTime: time.Date(2020, 12, 15, 14, 0, 0, 0, time.UTC),
blockTimes: []int{100},
expectedRewardIndexes: types.RewardIndexes{},
expectedRewards: sdk.Coins{},
updateRewardsViaCommmittee: true,
updatedBaseDenom: "bnb",
updatedRewardsPerSecond: cs(c("hard", 100000), c("ukava", 100500), c("swap", 500)),
updatedExpectedRewards: cs(c("hard", 8640000000), c("ukava", 8683200000), c("swap", 43200000)),
updatedExpectedRewardIndexes: types.RewardIndexes{
types.NewRewardIndex("hard", d("0.864")),
types.NewRewardIndex("ukava", d("0.86832")),
types.NewRewardIndex("swap", d("0.00432")),
},
updatedTimeDuration: 86400,
},
},
{
"denom is in hard's money market params but not in incentive's hard supply reward params; add multiple reward types",
args{
incentiveSupplyRewardDenom: "bnb",
deposit: c("zzz", 10000000000),
rewardsPerSecond: sdk.Coins{},
initialTime: time.Date(2020, 12, 15, 14, 0, 0, 0, time.UTC),
blockTimes: []int{100},
expectedRewardIndexes: types.RewardIndexes{},
expectedRewards: sdk.Coins{},
updateRewardsViaCommmittee: true,
updatedBaseDenom: "zzz",
updatedRewardsPerSecond: cs(c("hard", 100000), c("ukava", 100500), c("swap", 500)),
updatedExpectedRewards: cs(c("hard", 8640000000), c("ukava", 8683200000), c("swap", 43200000)),
updatedExpectedRewardIndexes: types.RewardIndexes{
types.NewRewardIndex("hard", d("0.864")),
types.NewRewardIndex("ukava", d("0.86832")),
types.NewRewardIndex("swap", d("0.00432")),
},
updatedTimeDuration: 86400,
},
},
}
for _, tc := range testCases {
suite.Run(tc.name, func() {
suite.SetupWithGenState()
suite.ctx = suite.ctx.WithBlockTime(tc.args.initialTime)
// Mint coins to hard module account
supplyKeeper := suite.app.GetSupplyKeeper()
hardMaccCoins := sdk.NewCoins(sdk.NewCoin("usdx", sdk.NewInt(200000000)))
supplyKeeper.MintCoins(suite.ctx, hardtypes.ModuleAccountName, hardMaccCoins)
// Set up incentive state
incentiveParams := types.NewParams(
types.RewardPeriods{types.NewRewardPeriod(true, tc.args.incentiveSupplyRewardDenom, tc.args.initialTime, tc.args.initialTime.Add(time.Hour*24*365*4), c("hard", 1))},
types.MultiRewardPeriods{types.NewMultiRewardPeriod(true, tc.args.incentiveSupplyRewardDenom, tc.args.initialTime, tc.args.initialTime.Add(time.Hour*24*365*4), tc.args.rewardsPerSecond)},
types.MultiRewardPeriods{types.NewMultiRewardPeriod(true, tc.args.incentiveSupplyRewardDenom, tc.args.initialTime, tc.args.initialTime.Add(time.Hour*24*365*4), tc.args.rewardsPerSecond)},
types.RewardPeriods{types.NewRewardPeriod(true, tc.args.incentiveSupplyRewardDenom, tc.args.initialTime, tc.args.initialTime.Add(time.Hour*24*365*4), c("hard", 1))},
types.Multipliers{types.NewMultiplier(types.MultiplierName("small"), 1, d("0.25")), types.NewMultiplier(types.MultiplierName("large"), 12, d("1.0"))},
tc.args.initialTime.Add(time.Hour*24*365*5),
)
suite.keeper.SetParams(suite.ctx, incentiveParams)
suite.keeper.SetPreviousHardSupplyRewardAccrualTime(suite.ctx, tc.args.incentiveSupplyRewardDenom, tc.args.initialTime)
var rewardIndexes types.RewardIndexes
for _, rewardCoin := range tc.args.rewardsPerSecond {
rewardIndex := types.NewRewardIndex(rewardCoin.Denom, sdk.ZeroDec())
rewardIndexes = append(rewardIndexes, rewardIndex)
}
if len(rewardIndexes) > 0 {
suite.keeper.SetHardSupplyRewardIndexes(suite.ctx, tc.args.incentiveSupplyRewardDenom, rewardIndexes)
}
// Set up hard state (interest factor for the relevant denom)
suite.hardKeeper.SetSupplyInterestFactor(suite.ctx, tc.args.incentiveSupplyRewardDenom, sdk.MustNewDecFromStr("1.0"))
suite.hardKeeper.SetBorrowInterestFactor(suite.ctx, tc.args.incentiveSupplyRewardDenom, sdk.MustNewDecFromStr("1.0"))
suite.hardKeeper.SetPreviousAccrualTime(suite.ctx, tc.args.incentiveSupplyRewardDenom, tc.args.initialTime)
// Deposit a fixed amount from another user to dilute primary user's rewards per second.
suite.Require().NoError(
suite.hardKeeper.Deposit(suite.ctx, suite.addrs[2], cs(c("ukava", 100_000_000))),
)
// User deposits and borrows to increase total borrowed amount
hardKeeper := suite.app.GetHardKeeper()
userAddr := suite.addrs[3]
err := hardKeeper.Deposit(suite.ctx, userAddr, sdk.NewCoins(tc.args.deposit))
suite.Require().NoError(err)
// Check that Hard hooks initialized a HardLiquidityProviderClaim with 0 reward indexes
claim, found := suite.keeper.GetHardLiquidityProviderClaim(suite.ctx, userAddr)
suite.Require().True(found)
multiRewardIndex, _ := claim.SupplyRewardIndexes.GetRewardIndex(tc.args.deposit.Denom)
for _, expectedRewardIndex := range tc.args.expectedRewardIndexes {
currRewardIndex, found := multiRewardIndex.RewardIndexes.GetRewardIndex(expectedRewardIndex.CollateralType)
suite.Require().True(found)
suite.Require().Equal(sdk.ZeroDec(), currRewardIndex.RewardFactor)
}
// Run accumulator at several intervals
var timeElapsed int
previousBlockTime := suite.ctx.BlockTime()
for _, t := range tc.args.blockTimes {
timeElapsed += t
updatedBlockTime := previousBlockTime.Add(time.Duration(int(time.Second) * t))
previousBlockTime = updatedBlockTime
blockCtx := suite.ctx.WithBlockTime(updatedBlockTime)
// Run Hard begin blocker for each block ctx to update denom's interest factor
hard.BeginBlocker(blockCtx, suite.hardKeeper)
// Accumulate hard supply-side rewards
multiRewardPeriod, found := suite.keeper.GetHardSupplyRewardPeriods(blockCtx, tc.args.deposit.Denom)
if found {
err := suite.keeper.AccumulateHardSupplyRewards(blockCtx, multiRewardPeriod)
suite.Require().NoError(err)
}
}
updatedBlockTime := suite.ctx.BlockTime().Add(time.Duration(int(time.Second) * timeElapsed))
suite.ctx = suite.ctx.WithBlockTime(updatedBlockTime)
// After we've accumulated, run synchronize
deposit, found := hardKeeper.GetDeposit(suite.ctx, userAddr)
suite.Require().True(found)
suite.Require().NotPanics(func() {
suite.keeper.SynchronizeHardSupplyReward(suite.ctx, deposit)
})
// Check that the global reward index's reward factor and user's claim have been updated as expected
claim, found = suite.keeper.GetHardLiquidityProviderClaim(suite.ctx, userAddr)
suite.Require().True(found)
globalRewardIndexes, foundGlobalRewardIndexes := suite.keeper.GetHardSupplyRewardIndexes(suite.ctx, tc.args.deposit.Denom)
if len(tc.args.rewardsPerSecond) > 0 {
suite.Require().True(foundGlobalRewardIndexes)
for _, expectedRewardIndex := range tc.args.expectedRewardIndexes {
// Check that global reward index has been updated as expected
globalRewardIndex, found := globalRewardIndexes.GetRewardIndex(expectedRewardIndex.CollateralType)
suite.Require().True(found)
suite.Require().Equal(expectedRewardIndex, globalRewardIndex)
// Check that the user's claim's reward index matches the corresponding global reward index
multiRewardIndex, found := claim.SupplyRewardIndexes.GetRewardIndex(tc.args.deposit.Denom)
suite.Require().True(found)
rewardIndex, found := multiRewardIndex.RewardIndexes.GetRewardIndex(expectedRewardIndex.CollateralType)
suite.Require().True(found)
suite.Require().Equal(expectedRewardIndex, rewardIndex)
// Check that the user's claim holds the expected amount of reward coins
suite.Require().Equal(
tc.args.expectedRewards.AmountOf(expectedRewardIndex.CollateralType),
claim.Reward.AmountOf(expectedRewardIndex.CollateralType),
)
}
}
// Only test cases with reward param updates continue past this point
if !tc.args.updateRewardsViaCommmittee {
return
}
// If are no initial rewards per second, add new rewards through a committee param change
// 1. Construct incentive's new HardSupplyRewardPeriods param
currIncentiveHardSupplyRewardPeriods := suite.keeper.GetParams(suite.ctx).HardSupplyRewardPeriods
multiRewardPeriod, found := currIncentiveHardSupplyRewardPeriods.GetMultiRewardPeriod(tc.args.deposit.Denom)
if found {
// Deposit denom's reward period exists, but it doesn't have any rewards per second
index, found := currIncentiveHardSupplyRewardPeriods.GetMultiRewardPeriodIndex(tc.args.deposit.Denom)
suite.Require().True(found)
multiRewardPeriod.RewardsPerSecond = tc.args.updatedRewardsPerSecond
currIncentiveHardSupplyRewardPeriods[index] = multiRewardPeriod
} else {
// Deposit denom's reward period does not exist
_, found := currIncentiveHardSupplyRewardPeriods.GetMultiRewardPeriodIndex(tc.args.deposit.Denom)
suite.Require().False(found)
newMultiRewardPeriod := types.NewMultiRewardPeriod(true, tc.args.deposit.Denom, tc.args.initialTime, tc.args.initialTime.Add(time.Hour*24*365*4), tc.args.updatedRewardsPerSecond)
currIncentiveHardSupplyRewardPeriods = append(currIncentiveHardSupplyRewardPeriods, newMultiRewardPeriod)
}
// 2. Construct the parameter change proposal to update HardSupplyRewardPeriods param
pubProposal := params.NewParameterChangeProposal(
"Update hard supply rewards", "Adds a new reward coin to the incentive module's hard supply rewards.",
[]params.ParamChange{
{
Subspace: types.ModuleName, // target incentive module
Key: string(types.KeyHardSupplyRewardPeriods), // target hard supply rewards key
Value: string(suite.app.Codec().MustMarshalJSON(currIncentiveHardSupplyRewardPeriods)),
},
},
)
// 3. Ensure proposal is properly formed
err = suite.committeeKeeper.ValidatePubProposal(suite.ctx, pubProposal)
suite.Require().NoError(err)
// 4. Committee creates proposal
committeeMemberOne := suite.addrs[0]
committeeMemberTwo := suite.addrs[1]
proposalID, err := suite.committeeKeeper.SubmitProposal(suite.ctx, committeeMemberOne, 1, pubProposal)
suite.Require().NoError(err)
// 5. Committee votes and passes proposal
err = suite.committeeKeeper.AddVote(suite.ctx, proposalID, committeeMemberOne)
err = suite.committeeKeeper.AddVote(suite.ctx, proposalID, committeeMemberTwo)
// 6. Check proposal passed
proposalPasses, err := suite.committeeKeeper.GetProposalResult(suite.ctx, proposalID)
suite.Require().NoError(err)
suite.Require().True(proposalPasses)
// 7. Run committee module's begin blocker to enact proposal
suite.NotPanics(func() {
committee.BeginBlocker(suite.ctx, abci.RequestBeginBlock{}, suite.committeeKeeper)
})
// We need to accumulate hard supply-side rewards again
multiRewardPeriod, found = suite.keeper.GetHardSupplyRewardPeriods(suite.ctx, tc.args.deposit.Denom)
suite.Require().True(found)
// But new deposit denoms don't have their PreviousHardSupplyRewardAccrualTime set yet,
// so we need to call the accumulation method once to set the initial reward accrual time
if tc.args.deposit.Denom != tc.args.incentiveSupplyRewardDenom {
err = suite.keeper.AccumulateHardSupplyRewards(suite.ctx, multiRewardPeriod)
suite.Require().NoError(err)
}
// Now we can jump forward in time and accumulate rewards
updatedBlockTime = previousBlockTime.Add(time.Duration(int(time.Second) * tc.args.updatedTimeDuration))
suite.ctx = suite.ctx.WithBlockTime(updatedBlockTime)
err = suite.keeper.AccumulateHardSupplyRewards(suite.ctx, multiRewardPeriod)
suite.Require().NoError(err)
// After we've accumulated, run synchronize
deposit, found = hardKeeper.GetDeposit(suite.ctx, userAddr)
suite.Require().True(found)
suite.Require().NotPanics(func() {
suite.keeper.SynchronizeHardSupplyReward(suite.ctx, deposit)
})
// Check that the global reward index's reward factor and user's claim have been updated as expected
globalRewardIndexes, found = suite.keeper.GetHardSupplyRewardIndexes(suite.ctx, tc.args.deposit.Denom)
suite.Require().True(found)
claim, found = suite.keeper.GetHardLiquidityProviderClaim(suite.ctx, userAddr)
suite.Require().True(found)
for _, expectedRewardIndex := range tc.args.updatedExpectedRewardIndexes {
// Check that global reward index has been updated as expected
globalRewardIndex, found := globalRewardIndexes.GetRewardIndex(expectedRewardIndex.CollateralType)
suite.Require().True(found)
suite.Require().Equal(expectedRewardIndex, globalRewardIndex)
// Check that the user's claim's reward index matches the corresponding global reward index
multiRewardIndex, found := claim.SupplyRewardIndexes.GetRewardIndex(tc.args.deposit.Denom)
suite.Require().True(found)
rewardIndex, found := multiRewardIndex.RewardIndexes.GetRewardIndex(expectedRewardIndex.CollateralType)
suite.Require().True(found)
suite.Require().Equal(expectedRewardIndex, rewardIndex)
// Check that the user's claim holds the expected amount of reward coins
suite.Require().Equal(
tc.args.updatedExpectedRewards.AmountOf(expectedRewardIndex.CollateralType),
claim.Reward.AmountOf(expectedRewardIndex.CollateralType),
)
}
})
}
}
func (suite *KeeperTestSuite) TestUpdateHardSupplyIndexDenoms() {
type depositModification struct {
coins sdk.Coins
withdraw bool
}
type args struct {
firstDeposit sdk.Coins
modification depositModification
rewardsPerSecond sdk.Coins
initialTime time.Time
expectedSupplyIndexDenoms []string
}
type test struct {
name string
args args
}
testCases := []test{
{
"single reward denom: update adds one supply reward index",
args{
firstDeposit: cs(c("bnb", 10000000000)),
modification: depositModification{coins: cs(c("ukava", 10000000000))},
rewardsPerSecond: cs(c("hard", 122354)),
initialTime: time.Date(2020, 12, 15, 14, 0, 0, 0, time.UTC),
expectedSupplyIndexDenoms: []string{"bnb", "ukava"},
},
},
{
"single reward denom: update adds multiple supply reward indexes",
args{
firstDeposit: cs(c("bnb", 10000000000)),
modification: depositModification{coins: cs(c("ukava", 10000000000), c("btcb", 10000000000), c("xrp", 10000000000))},
rewardsPerSecond: cs(c("hard", 122354)),
initialTime: time.Date(2020, 12, 15, 14, 0, 0, 0, time.UTC),
expectedSupplyIndexDenoms: []string{"bnb", "ukava", "btcb", "xrp"},
},
},
{
"single reward denom: update doesn't add duplicate supply reward index for same denom",
args{
firstDeposit: cs(c("bnb", 10000000000)),
modification: depositModification{coins: cs(c("bnb", 5000000000))},
rewardsPerSecond: cs(c("hard", 122354)),
initialTime: time.Date(2020, 12, 15, 14, 0, 0, 0, time.UTC),
expectedSupplyIndexDenoms: []string{"bnb"},
},
},
{
"multiple reward denoms: update adds one supply reward index",
args{
firstDeposit: cs(c("bnb", 10000000000)),
modification: depositModification{coins: cs(c("ukava", 10000000000))},
rewardsPerSecond: cs(c("hard", 122354), c("ukava", 122354)),
initialTime: time.Date(2020, 12, 15, 14, 0, 0, 0, time.UTC),
expectedSupplyIndexDenoms: []string{"bnb", "ukava"},
},
},
{
"multiple reward denoms: update adds multiple supply reward indexes",
args{
firstDeposit: cs(c("bnb", 10000000000)),
modification: depositModification{coins: cs(c("ukava", 10000000000), c("btcb", 10000000000), c("xrp", 10000000000))},
rewardsPerSecond: cs(c("hard", 122354), c("ukava", 122354)),
initialTime: time.Date(2020, 12, 15, 14, 0, 0, 0, time.UTC),
expectedSupplyIndexDenoms: []string{"bnb", "ukava", "btcb", "xrp"},
},
},
{
"multiple reward denoms: update doesn't add duplicate supply reward index for same denom",
args{
firstDeposit: cs(c("bnb", 10000000000)),
modification: depositModification{coins: cs(c("bnb", 5000000000))},
rewardsPerSecond: cs(c("hard", 122354), c("ukava", 122354)),
initialTime: time.Date(2020, 12, 15, 14, 0, 0, 0, time.UTC),
expectedSupplyIndexDenoms: []string{"bnb"},
},
},
{
"single reward denom: fully withdrawing a denom deletes the denom's supply reward index",
args{
firstDeposit: cs(c("bnb", 1000000000)),
modification: depositModification{coins: cs(c("bnb", 1100000000)), withdraw: true},
rewardsPerSecond: cs(c("hard", 122354)),
initialTime: time.Date(2020, 12, 15, 14, 0, 0, 0, time.UTC),
expectedSupplyIndexDenoms: []string{},
},
},
{
"single reward denom: fully withdrawing a denom deletes only the denom's supply reward index",
args{
firstDeposit: cs(c("bnb", 1000000000), c("ukava", 100000000)),
modification: depositModification{coins: cs(c("bnb", 1100000000)), withdraw: true},
rewardsPerSecond: cs(c("hard", 122354)),
initialTime: time.Date(2020, 12, 15, 14, 0, 0, 0, time.UTC),
expectedSupplyIndexDenoms: []string{"ukava"},
},
},
{
"multiple reward denoms: fully repaying a denom deletes the denom's supply reward index",
args{
firstDeposit: cs(c("bnb", 1000000000)),
modification: depositModification{coins: cs(c("bnb", 1100000000)), withdraw: true},
rewardsPerSecond: cs(c("hard", 122354), c("ukava", 122354)),
initialTime: time.Date(2020, 12, 15, 14, 0, 0, 0, time.UTC),
expectedSupplyIndexDenoms: []string{},
},
},
}
for _, tc := range testCases {
suite.Run(tc.name, func() {
suite.SetupWithGenState()
suite.ctx = suite.ctx.WithBlockTime(tc.args.initialTime)
// Mint coins to hard module account
supplyKeeper := suite.app.GetSupplyKeeper()
hardMaccCoins := sdk.NewCoins(sdk.NewCoin("usdx", sdk.NewInt(200000000)))
supplyKeeper.MintCoins(suite.ctx, hardtypes.ModuleAccountName, hardMaccCoins)
// Set up generic reward periods
var multiRewardPeriods types.MultiRewardPeriods
var rewardPeriods types.RewardPeriods
for i, denom := range tc.args.expectedSupplyIndexDenoms {
// Create just one reward period for USDX Minting / Hard Delegator reward periods (otherwise params will panic on duplicate)
if i == 0 {
rewardPeriod := types.NewRewardPeriod(true, denom, tc.args.initialTime, tc.args.initialTime.Add(time.Hour*24*365*4), tc.args.rewardsPerSecond[i])
rewardPeriods = append(rewardPeriods, rewardPeriod)
}
multiRewardPeriod := types.NewMultiRewardPeriod(true, denom, tc.args.initialTime, tc.args.initialTime.Add(time.Hour*24*365*4), tc.args.rewardsPerSecond)
multiRewardPeriods = append(multiRewardPeriods, multiRewardPeriod)
}
// Setup incentive state
params := types.NewParams(
rewardPeriods, multiRewardPeriods, multiRewardPeriods, rewardPeriods,
types.Multipliers{types.NewMultiplier(types.MultiplierName("small"), 1, d("0.25")), types.NewMultiplier(types.MultiplierName("large"), 12, d("1.0"))},
tc.args.initialTime.Add(time.Hour*24*365*5),
)
suite.keeper.SetParams(suite.ctx, params)
// Set each denom's previous accrual time and supply reward factor
var rewardIndexes types.RewardIndexes
for _, rewardCoin := range tc.args.rewardsPerSecond {
rewardIndex := types.NewRewardIndex(rewardCoin.Denom, sdk.ZeroDec())
rewardIndexes = append(rewardIndexes, rewardIndex)
}
for _, denom := range tc.args.expectedSupplyIndexDenoms {
suite.keeper.SetPreviousHardSupplyRewardAccrualTime(suite.ctx, denom, tc.args.initialTime)
suite.keeper.SetHardSupplyRewardIndexes(suite.ctx, denom, rewardIndexes)
}
// User deposits (first time)
hardKeeper := suite.app.GetHardKeeper()
userAddr := suite.addrs[3]
err := hardKeeper.Deposit(suite.ctx, userAddr, tc.args.firstDeposit)
suite.Require().NoError(err)
// Confirm that a claim was created and populated with the correct supply indexes
claimAfterFirstDeposit, found := suite.keeper.GetHardLiquidityProviderClaim(suite.ctx, suite.addrs[3])
suite.Require().True(found)
for _, coin := range tc.args.firstDeposit {
_, hasIndex := claimAfterFirstDeposit.HasSupplyRewardIndex(coin.Denom)
suite.Require().True(hasIndex)
}
suite.Require().True(len(claimAfterFirstDeposit.SupplyRewardIndexes) == len(tc.args.firstDeposit))
// User modifies their Deposit by withdrawing or depositing more
if tc.args.modification.withdraw {
err = hardKeeper.Withdraw(suite.ctx, userAddr, tc.args.modification.coins)
} else {
err = hardKeeper.Deposit(suite.ctx, userAddr, tc.args.modification.coins)
}
suite.Require().NoError(err)
// Confirm that the claim contains all expected supply indexes
claimAfterModification, found := suite.keeper.GetHardLiquidityProviderClaim(suite.ctx, suite.addrs[3])
suite.Require().True(found)
for _, denom := range tc.args.expectedSupplyIndexDenoms {
_, hasIndex := claimAfterModification.HasSupplyRewardIndex(denom)
suite.Require().True(hasIndex)
}
suite.Require().True(len(claimAfterModification.SupplyRewardIndexes) == len(tc.args.expectedSupplyIndexDenoms))
})
}
}
func (suite *KeeperTestSuite) TestInitializeHardBorrowRewards() {
type args struct {
moneyMarketRewardDenoms map[string][]string
deposit sdk.Coins
borrow sdk.Coins
initialTime time.Time
expectedClaimBorrowRewardIndexes types.MultiRewardIndexes
}
type test struct {
name string
args args
}
standardMoneyMarketRewardDenoms := map[string][]string{
"bnb": {"hard"},
"btcb": {"hard", "ukava"},
"xrp": {},
}
testCases := []test{
{
"single deposit denom, single reward denom",
args{
moneyMarketRewardDenoms: standardMoneyMarketRewardDenoms,
deposit: cs(c("bnb", 1000000000000)),
borrow: cs(c("bnb", 100000000000)),
initialTime: time.Date(2020, 12, 15, 14, 0, 0, 0, time.UTC),
expectedClaimBorrowRewardIndexes: types.MultiRewardIndexes{
types.NewMultiRewardIndex(
"bnb",
types.RewardIndexes{
types.NewRewardIndex("hard", d("0.0")),
},
),
},
},
},
{
"single deposit denom, multiple reward denoms",
args{
moneyMarketRewardDenoms: standardMoneyMarketRewardDenoms,
deposit: cs(c("btcb", 1000000000000)),
borrow: cs(c("btcb", 100000000000)),
initialTime: time.Date(2020, 12, 15, 14, 0, 0, 0, time.UTC),
expectedClaimBorrowRewardIndexes: types.MultiRewardIndexes{
types.NewMultiRewardIndex(
"btcb",
types.RewardIndexes{
types.NewRewardIndex("hard", d("0.0")),
types.NewRewardIndex("ukava", d("0.0")),
},
),
},
},
},
{
"single deposit denom, no reward denoms",
args{
moneyMarketRewardDenoms: standardMoneyMarketRewardDenoms,
deposit: cs(c("xrp", 1000000000000)),
borrow: cs(c("xrp", 100000000000)),
initialTime: time.Date(2020, 12, 15, 14, 0, 0, 0, time.UTC),
expectedClaimBorrowRewardIndexes: types.MultiRewardIndexes{
types.NewMultiRewardIndex(
"xrp",
nil,
),
},
},
},
{
"multiple deposit denoms, multiple overlapping reward denoms",
args{
moneyMarketRewardDenoms: standardMoneyMarketRewardDenoms,
deposit: cs(c("bnb", 1000000000000), c("btcb", 1000000000000)),
borrow: cs(c("bnb", 100000000000), c("btcb", 100000000000)),
initialTime: time.Date(2020, 12, 15, 14, 0, 0, 0, time.UTC),
expectedClaimBorrowRewardIndexes: types.MultiRewardIndexes{
types.NewMultiRewardIndex(
"bnb",
types.RewardIndexes{
types.NewRewardIndex("hard", d("0.0")),
},
),
types.NewMultiRewardIndex(
"btcb",
types.RewardIndexes{
types.NewRewardIndex("hard", d("0.0")),
types.NewRewardIndex("ukava", d("0.0")),
},
),
},
},
},
{
"multiple deposit denoms, correct discrete reward denoms",
args{
moneyMarketRewardDenoms: standardMoneyMarketRewardDenoms,
deposit: cs(c("bnb", 1000000000000), c("xrp", 1000000000000)),
borrow: cs(c("bnb", 100000000000), c("xrp", 100000000000)),
initialTime: time.Date(2020, 12, 15, 14, 0, 0, 0, time.UTC),
expectedClaimBorrowRewardIndexes: types.MultiRewardIndexes{
types.NewMultiRewardIndex(
"bnb",
types.RewardIndexes{
types.NewRewardIndex("hard", d("0.0")),
},
),
types.NewMultiRewardIndex(
"xrp",
nil,
),
},
},
},
}
for _, tc := range testCases {
suite.Run(tc.name, func() {
suite.SetupWithGenState()
suite.ctx = suite.ctx.WithBlockTime(tc.args.initialTime)
// Mint coins to hard module account
supplyKeeper := suite.app.GetSupplyKeeper()
hardMaccCoins := sdk.NewCoins(sdk.NewCoin("usdx", sdk.NewInt(200000000)))
supplyKeeper.MintCoins(suite.ctx, hardtypes.ModuleAccountName, hardMaccCoins)
userAddr := suite.addrs[3]
// Prepare money market + reward params
i := 0
var multiRewardPeriods types.MultiRewardPeriods
var rewardPeriods types.RewardPeriods
for moneyMarketDenom, rewardDenoms := range tc.args.moneyMarketRewardDenoms {
// Set up multi reward periods for supply/borrow indexes with dynamic money market denoms/reward denoms
var rewardsPerSecond sdk.Coins
for _, rewardDenom := range rewardDenoms {
rewardsPerSecond = append(rewardsPerSecond, sdk.NewCoin(rewardDenom, sdk.OneInt()))
}
multiRewardPeriod := types.NewMultiRewardPeriod(true, moneyMarketDenom, tc.args.initialTime, tc.args.initialTime.Add(time.Hour*24*365*4), rewardsPerSecond)
multiRewardPeriods = append(multiRewardPeriods, multiRewardPeriod)
// Set up generic reward periods for usdx minting/delegator indexes
if i == 0 && len(rewardDenoms) > 0 {
rewardPeriod := types.NewRewardPeriod(true, moneyMarketDenom, tc.args.initialTime, tc.args.initialTime.Add(time.Hour*24*365*4), rewardsPerSecond[i])
rewardPeriods = append(rewardPeriods, rewardPeriod)
i++
}
}
// Initialize and set incentive params
params := types.NewParams(
rewardPeriods, multiRewardPeriods, multiRewardPeriods, rewardPeriods,
types.Multipliers{types.NewMultiplier(types.MultiplierName("small"), 1, d("0.25")), types.NewMultiplier(types.MultiplierName("large"), 12, d("1.0"))},
tc.args.initialTime.Add(time.Hour*24*365*5),
)
suite.keeper.SetParams(suite.ctx, params)
// Set each money market's previous accrual time and supply reward indexes
for moneyMarketDenom, rewardDenoms := range tc.args.moneyMarketRewardDenoms {
var rewardIndexes types.RewardIndexes
for _, rewardDenom := range rewardDenoms {
rewardIndex := types.NewRewardIndex(rewardDenom, sdk.ZeroDec())
rewardIndexes = append(rewardIndexes, rewardIndex)
}
suite.keeper.SetPreviousHardBorrowRewardAccrualTime(suite.ctx, moneyMarketDenom, tc.args.initialTime)
if len(rewardIndexes) > 0 {
suite.keeper.SetHardBorrowRewardIndexes(suite.ctx, moneyMarketDenom, rewardIndexes)
}
}
hardKeeper := suite.app.GetHardKeeper()
// User deposits
err := hardKeeper.Deposit(suite.ctx, userAddr, tc.args.deposit)
suite.Require().NoError(err)
// User borrows
err = hardKeeper.Borrow(suite.ctx, userAddr, tc.args.borrow)
suite.Require().NoError(err)
claim, foundClaim := suite.keeper.GetHardLiquidityProviderClaim(suite.ctx, userAddr)
suite.Require().True(foundClaim)
suite.Require().Equal(tc.args.expectedClaimBorrowRewardIndexes, claim.BorrowRewardIndexes)
})
}
}
func (suite *KeeperTestSuite) TestUpdateHardBorrowIndexDenoms() {
type withdrawModification struct {
coins sdk.Coins
repay bool
}
type args struct {
initialDeposit sdk.Coins
firstBorrow sdk.Coins
modification withdrawModification
rewardsPerSecond sdk.Coins
initialTime time.Time
expectedBorrowIndexDenoms []string
}
type test struct {
name string
args args
}
testCases := []test{
{
"single reward denom: update adds one borrow reward index",
args{
initialDeposit: cs(c("bnb", 10000000000)),
firstBorrow: cs(c("bnb", 50000000)),
modification: withdrawModification{coins: cs(c("ukava", 500000000))},
rewardsPerSecond: cs(c("hard", 122354)),
initialTime: time.Date(2020, 12, 15, 14, 0, 0, 0, time.UTC),
expectedBorrowIndexDenoms: []string{"bnb", "ukava"},
},
},
{
"single reward denom: update adds multiple borrow supply reward indexes",
args{
initialDeposit: cs(c("btcb", 10000000000)),
firstBorrow: cs(c("btcb", 50000000)),
modification: withdrawModification{coins: cs(c("ukava", 500000000), c("bnb", 50000000000), c("xrp", 50000000000))},
rewardsPerSecond: cs(c("hard", 122354)),
initialTime: time.Date(2020, 12, 15, 14, 0, 0, 0, time.UTC),
expectedBorrowIndexDenoms: []string{"btcb", "ukava", "bnb", "xrp"},
},
},
{
"single reward denom: update doesn't add duplicate borrow reward index for same denom",
args{
initialDeposit: cs(c("bnb", 100000000000)),
firstBorrow: cs(c("bnb", 50000000)),
modification: withdrawModification{coins: cs(c("bnb", 50000000000))},
rewardsPerSecond: cs(c("hard", 122354)),
initialTime: time.Date(2020, 12, 15, 14, 0, 0, 0, time.UTC),
expectedBorrowIndexDenoms: []string{"bnb"},
},
},
{
"multiple reward denoms: update adds one borrow reward index",
args{
initialDeposit: cs(c("bnb", 10000000000)),
firstBorrow: cs(c("bnb", 50000000)),
modification: withdrawModification{coins: cs(c("ukava", 500000000))},
rewardsPerSecond: cs(c("hard", 122354), c("ukava", 122354)),
initialTime: time.Date(2020, 12, 15, 14, 0, 0, 0, time.UTC),
expectedBorrowIndexDenoms: []string{"bnb", "ukava"},
},
},
{
"multiple reward denoms: update adds multiple borrow supply reward indexes",
args{
initialDeposit: cs(c("btcb", 10000000000)),
firstBorrow: cs(c("btcb", 50000000)),
modification: withdrawModification{coins: cs(c("ukava", 500000000), c("bnb", 50000000000), c("xrp", 50000000000))},
rewardsPerSecond: cs(c("hard", 122354), c("ukava", 122354)),
initialTime: time.Date(2020, 12, 15, 14, 0, 0, 0, time.UTC),
expectedBorrowIndexDenoms: []string{"btcb", "ukava", "bnb", "xrp"},
},
},
{
"multiple reward denoms: update doesn't add duplicate borrow reward index for same denom",
args{
initialDeposit: cs(c("bnb", 100000000000)),
firstBorrow: cs(c("bnb", 50000000)),
modification: withdrawModification{coins: cs(c("bnb", 50000000000))},
rewardsPerSecond: cs(c("hard", 122354), c("ukava", 122354)),
initialTime: time.Date(2020, 12, 15, 14, 0, 0, 0, time.UTC),
expectedBorrowIndexDenoms: []string{"bnb"},
},
},
{
"single reward denom: fully repaying a denom deletes the denom's supply reward index",
args{
initialDeposit: cs(c("bnb", 1000000000)),
firstBorrow: cs(c("bnb", 100000000)),
modification: withdrawModification{coins: cs(c("bnb", 1100000000)), repay: true},
rewardsPerSecond: cs(c("hard", 122354)),
initialTime: time.Date(2020, 12, 15, 14, 0, 0, 0, time.UTC),
expectedBorrowIndexDenoms: []string{},
},
},
{
"single reward denom: fully repaying a denom deletes only the denom's supply reward index",
args{
initialDeposit: cs(c("bnb", 1000000000)),
firstBorrow: cs(c("bnb", 100000000), c("ukava", 10000000)),
modification: withdrawModification{coins: cs(c("bnb", 1100000000)), repay: true},
rewardsPerSecond: cs(c("hard", 122354)),
initialTime: time.Date(2020, 12, 15, 14, 0, 0, 0, time.UTC),
expectedBorrowIndexDenoms: []string{"ukava"},
},
},
{
"multiple reward denoms: fully repaying a denom deletes the denom's supply reward index",
args{
initialDeposit: cs(c("bnb", 1000000000)),
firstBorrow: cs(c("bnb", 100000000), c("ukava", 10000000)),
modification: withdrawModification{coins: cs(c("bnb", 1100000000)), repay: true},
rewardsPerSecond: cs(c("hard", 122354), c("ukava", 122354)),
initialTime: time.Date(2020, 12, 15, 14, 0, 0, 0, time.UTC),
expectedBorrowIndexDenoms: []string{"ukava"},
},
},
}
for _, tc := range testCases {
suite.Run(tc.name, func() {
suite.SetupWithGenState()
suite.ctx = suite.ctx.WithBlockTime(tc.args.initialTime)
// Mint coins to hard module account so it can service borrow requests
supplyKeeper := suite.app.GetSupplyKeeper()
hardMaccCoins := tc.args.firstBorrow.Add(tc.args.modification.coins...)
supplyKeeper.MintCoins(suite.ctx, hardtypes.ModuleAccountName, hardMaccCoins)
// Set up generic reward periods
var multiRewardPeriods types.MultiRewardPeriods
var rewardPeriods types.RewardPeriods
for i, denom := range tc.args.expectedBorrowIndexDenoms {
// Create just one reward period for USDX Minting / Hard Delegator reward periods (otherwise params will panic on duplicate)
if i == 0 {
rewardPeriod := types.NewRewardPeriod(true, denom, tc.args.initialTime, tc.args.initialTime.Add(time.Hour*24*365*4), tc.args.rewardsPerSecond[i])
rewardPeriods = append(rewardPeriods, rewardPeriod)
}
multiRewardPeriod := types.NewMultiRewardPeriod(true, denom, tc.args.initialTime, tc.args.initialTime.Add(time.Hour*24*365*4), tc.args.rewardsPerSecond)
multiRewardPeriods = append(multiRewardPeriods, multiRewardPeriod)
}
// Setup incentive state
params := types.NewParams(
rewardPeriods, multiRewardPeriods, multiRewardPeriods, rewardPeriods,
types.Multipliers{types.NewMultiplier(types.MultiplierName("small"), 1, d("0.25")), types.NewMultiplier(types.MultiplierName("large"), 12, d("1.0"))},
tc.args.initialTime.Add(time.Hour*24*365*5),
)
suite.keeper.SetParams(suite.ctx, params)
// Set each expected borrow denom's previous accrual time and borrow reward factor
var rewardIndexes types.RewardIndexes
for _, rewardCoin := range tc.args.rewardsPerSecond {
rewardIndex := types.NewRewardIndex(rewardCoin.Denom, sdk.ZeroDec())
rewardIndexes = append(rewardIndexes, rewardIndex)
}
for _, denom := range tc.args.expectedBorrowIndexDenoms {
suite.keeper.SetPreviousHardSupplyRewardAccrualTime(suite.ctx, denom, tc.args.initialTime)
suite.keeper.SetHardBorrowRewardIndexes(suite.ctx, denom, rewardIndexes)
}
// User deposits initial funds (so that user can borrow)
hardKeeper := suite.app.GetHardKeeper()
userAddr := suite.addrs[3]
err := hardKeeper.Deposit(suite.ctx, userAddr, tc.args.initialDeposit)
suite.Require().NoError(err)
// Confirm that claim exists but no borrow reward indexes have been added
claimAfterDeposit, found := suite.keeper.GetHardLiquidityProviderClaim(suite.ctx, suite.addrs[3])
suite.Require().True(found)
suite.Require().Equal(0, len(claimAfterDeposit.BorrowRewardIndexes))
// User borrows (first time)
err = hardKeeper.Borrow(suite.ctx, userAddr, tc.args.firstBorrow)
suite.Require().NoError(err)
// Confirm that claim's borrow reward indexes have been updated
claimAfterFirstBorrow, found := suite.keeper.GetHardLiquidityProviderClaim(suite.ctx, suite.addrs[3])
suite.Require().True(found)
for _, coin := range tc.args.firstBorrow {
_, hasIndex := claimAfterFirstBorrow.HasBorrowRewardIndex(coin.Denom)
suite.Require().True(hasIndex)
}
suite.Require().True(len(claimAfterFirstBorrow.BorrowRewardIndexes) == len(tc.args.firstBorrow))
// User modifies their Borrow by either repaying or borrowing more
if tc.args.modification.repay {
err = hardKeeper.Repay(suite.ctx, userAddr, userAddr, tc.args.modification.coins)
} else {
err = hardKeeper.Borrow(suite.ctx, userAddr, tc.args.modification.coins)
}
suite.Require().NoError(err)
// Confirm that claim's borrow reward indexes contain expected values
claimAfterModification, found := suite.keeper.GetHardLiquidityProviderClaim(suite.ctx, suite.addrs[3])
suite.Require().True(found)
for _, coin := range tc.args.modification.coins {
_, hasIndex := claimAfterModification.HasBorrowRewardIndex(coin.Denom)
if tc.args.modification.repay {
// Only false if denom is repaid in full
if tc.args.modification.coins.AmountOf(coin.Denom).GTE(tc.args.firstBorrow.AmountOf(coin.Denom)) {
suite.Require().False(hasIndex)
}
} else {
suite.Require().True(hasIndex)
}
}
suite.Require().True(len(claimAfterModification.BorrowRewardIndexes) == len(tc.args.expectedBorrowIndexDenoms))
})
}
}
func (suite *KeeperTestSuite) TestSynchronizeHardDelegatorReward() {
type args struct {
delegation sdk.Coin
rewardsPerSecond sdk.Coin
initialTime time.Time
blockTimes []int
expectedRewardFactor sdk.Dec
expectedRewards sdk.Coins
}
type test struct {
name string
args args
}
testCases := []test{
{
"10 blocks",
args{
delegation: c("ukava", 1_000_000),
rewardsPerSecond: c("hard", 122354),
initialTime: time.Date(2020, 12, 15, 14, 0, 0, 0, time.UTC),
blockTimes: []int{10, 10, 10, 10, 10, 10, 10, 10, 10, 10},
expectedRewardFactor: d("6.117700000000000000"),
expectedRewards: cs(c("hard", 6117700)),
},
},
{
"10 blocks - long block time",
args{
delegation: c("ukava", 1_000_000),
rewardsPerSecond: c("hard", 122354),
initialTime: time.Date(2020, 12, 15, 14, 0, 0, 0, time.UTC),
blockTimes: []int{86400, 86400, 86400, 86400, 86400, 86400, 86400, 86400, 86400, 86400},
expectedRewardFactor: d("52856.928000000000000000"),
expectedRewards: cs(c("hard", 52856928000)),
},
},
{
"delegator reward index updated when reward is zero",
args{
delegation: c("ukava", 1),
rewardsPerSecond: c("hard", 1),
initialTime: time.Date(2020, 12, 15, 14, 0, 0, 0, time.UTC),
blockTimes: []int{10, 10, 10, 10, 10, 10, 10, 10, 10, 10},
expectedRewardFactor: d("0.000099999900000100"),
expectedRewards: nil,
},
},
}
for _, tc := range testCases {
suite.Run(tc.name, func() {
suite.SetupWithGenState()
suite.ctx = suite.ctx.WithBlockTime(tc.args.initialTime)
// Mint coins to hard module account
supplyKeeper := suite.app.GetSupplyKeeper()
hardMaccCoins := sdk.NewCoins(sdk.NewCoin("usdx", sdk.NewInt(200000000)))
supplyKeeper.MintCoins(suite.ctx, hardtypes.ModuleAccountName, hardMaccCoins)
// setup incentive state
params := types.NewParams(
types.RewardPeriods{types.NewRewardPeriod(true, tc.args.delegation.Denom, tc.args.initialTime, tc.args.initialTime.Add(time.Hour*24*365*4), tc.args.rewardsPerSecond)},
types.MultiRewardPeriods{types.NewMultiRewardPeriod(true, tc.args.delegation.Denom, tc.args.initialTime, tc.args.initialTime.Add(time.Hour*24*365*4), cs(tc.args.rewardsPerSecond))},
types.MultiRewardPeriods{types.NewMultiRewardPeriod(true, tc.args.delegation.Denom, tc.args.initialTime, tc.args.initialTime.Add(time.Hour*24*365*4), cs(tc.args.rewardsPerSecond))},
types.RewardPeriods{types.NewRewardPeriod(true, tc.args.delegation.Denom, tc.args.initialTime, tc.args.initialTime.Add(time.Hour*24*365*4), tc.args.rewardsPerSecond)},
types.Multipliers{types.NewMultiplier(types.MultiplierName("small"), 1, d("0.25")), types.NewMultiplier(types.MultiplierName("large"), 12, d("1.0"))},
tc.args.initialTime.Add(time.Hour*24*365*5),
)
suite.keeper.SetParams(suite.ctx, params)
suite.keeper.SetPreviousHardDelegatorRewardAccrualTime(suite.ctx, tc.args.delegation.Denom, tc.args.initialTime)
suite.keeper.SetHardDelegatorRewardFactor(suite.ctx, tc.args.delegation.Denom, sdk.ZeroDec())
// Set up hard state (interest factor for the relevant denom)
suite.hardKeeper.SetPreviousAccrualTime(suite.ctx, tc.args.delegation.Denom, tc.args.initialTime)
// Create validator account
staking.BeginBlocker(suite.ctx, suite.stakingKeeper)
selfDelegationCoins := c("ukava", 1_000_000)
err := suite.deliverMsgCreateValidator(suite.ctx, suite.validatorAddrs[0], selfDelegationCoins)
suite.Require().NoError(err)
staking.EndBlocker(suite.ctx, suite.stakingKeeper)
// Delegator delegates
err = suite.deliverMsgDelegate(suite.ctx, suite.addrs[0], suite.validatorAddrs[0], tc.args.delegation)
suite.Require().NoError(err)
// Check that validator account has been created and delegation was successful
valAcc, found := suite.stakingKeeper.GetValidator(suite.ctx, suite.validatorAddrs[0])
suite.True(found)
suite.Require().Equal(valAcc.Status, sdk.Bonded)
suite.Require().Equal(valAcc.Tokens, tc.args.delegation.Amount.Add(selfDelegationCoins.Amount))
// Check that Staking hooks initialized a HardLiquidityProviderClaim
claim, found := suite.keeper.GetHardLiquidityProviderClaim(suite.ctx, suite.addrs[0])
suite.Require().True(found)
suite.Require().Equal(sdk.ZeroDec(), claim.DelegatorRewardIndexes[0].RewardFactor)
// Run accumulator at several intervals
var timeElapsed int
previousBlockTime := suite.ctx.BlockTime()
for _, t := range tc.args.blockTimes {
timeElapsed += t
updatedBlockTime := previousBlockTime.Add(time.Duration(int(time.Second) * t))
previousBlockTime = updatedBlockTime
blockCtx := suite.ctx.WithBlockTime(updatedBlockTime)
// Run Hard begin blocker for each block ctx to update denom's interest factor
hard.BeginBlocker(blockCtx, suite.hardKeeper)
rewardPeriod, found := suite.keeper.GetHardDelegatorRewardPeriod(blockCtx, tc.args.delegation.Denom)
suite.Require().True(found)
err := suite.keeper.AccumulateHardDelegatorRewards(blockCtx, rewardPeriod)
suite.Require().NoError(err)
}
updatedBlockTime := suite.ctx.BlockTime().Add(time.Duration(int(time.Second) * timeElapsed))
suite.ctx = suite.ctx.WithBlockTime(updatedBlockTime)
// After we've accumulated, run synchronize
suite.Require().NotPanics(func() {
suite.keeper.SynchronizeHardDelegatorRewards(suite.ctx, suite.addrs[0], nil, false)
})
// Check that reward factor and claim have been updated as expected
rewardFactor, found := suite.keeper.GetHardDelegatorRewardFactor(suite.ctx, tc.args.delegation.Denom)
suite.Require().Equal(tc.args.expectedRewardFactor, rewardFactor)
claim, found = suite.keeper.GetHardLiquidityProviderClaim(suite.ctx, suite.addrs[0])
suite.Require().True(found)
suite.Require().Equal(tc.args.expectedRewardFactor, claim.DelegatorRewardIndexes[0].RewardFactor)
suite.Require().Equal(tc.args.expectedRewards, claim.Reward)
})
}
}
func (suite *KeeperTestSuite) TestSimulateHardSupplyRewardSynchronization() {
type args struct {
deposit sdk.Coin
rewardsPerSecond sdk.Coins
initialTime time.Time
blockTimes []int
expectedRewardIndexes types.RewardIndexes
expectedRewards sdk.Coins
}
type test struct {
name string
args args
}
testCases := []test{
{
"10 blocks",
args{
deposit: c("bnb", 10000000000),
rewardsPerSecond: cs(c("hard", 122354)),
initialTime: time.Date(2020, 12, 15, 14, 0, 0, 0, time.UTC),
blockTimes: []int{10, 10, 10, 10, 10, 10, 10, 10, 10, 10},
expectedRewardIndexes: types.RewardIndexes{types.NewRewardIndex("hard", d("0.001223540000000000"))},
expectedRewards: cs(c("hard", 12235400)),
},
},
{
"10 blocks - long block time",
args{
deposit: c("bnb", 10000000000),
rewardsPerSecond: cs(c("hard", 122354)),
initialTime: time.Date(2020, 12, 15, 14, 0, 0, 0, time.UTC),
blockTimes: []int{86400, 86400, 86400, 86400, 86400, 86400, 86400, 86400, 86400, 86400},
expectedRewardIndexes: types.RewardIndexes{types.NewRewardIndex("hard", d("10.571385600000000000"))},
expectedRewards: cs(c("hard", 105713856000)),
},
},
}
for _, tc := range testCases {
suite.Run(tc.name, func() {
suite.SetupWithGenState()
suite.ctx = suite.ctx.WithBlockTime(tc.args.initialTime)
// Mint coins to hard module account
supplyKeeper := suite.app.GetSupplyKeeper()
hardMaccCoins := sdk.NewCoins(sdk.NewCoin("usdx", sdk.NewInt(200000000)))
supplyKeeper.MintCoins(suite.ctx, hardtypes.ModuleAccountName, hardMaccCoins)
// Set up incentive state
params := types.NewParams(
types.RewardPeriods{types.NewRewardPeriod(true, tc.args.deposit.Denom, tc.args.initialTime, tc.args.initialTime.Add(time.Hour*24*365*4), tc.args.rewardsPerSecond[0])},
types.MultiRewardPeriods{types.NewMultiRewardPeriod(true, tc.args.deposit.Denom, tc.args.initialTime, tc.args.initialTime.Add(time.Hour*24*365*4), tc.args.rewardsPerSecond)},
types.MultiRewardPeriods{types.NewMultiRewardPeriod(true, tc.args.deposit.Denom, tc.args.initialTime, tc.args.initialTime.Add(time.Hour*24*365*4), tc.args.rewardsPerSecond)},
types.RewardPeriods{types.NewRewardPeriod(true, tc.args.deposit.Denom, tc.args.initialTime, tc.args.initialTime.Add(time.Hour*24*365*4), tc.args.rewardsPerSecond[0])},
types.Multipliers{types.NewMultiplier(types.MultiplierName("small"), 1, d("0.25")), types.NewMultiplier(types.MultiplierName("large"), 12, d("1.0"))},
tc.args.initialTime.Add(time.Hour*24*365*5),
)
suite.keeper.SetParams(suite.ctx, params)
suite.keeper.SetPreviousHardSupplyRewardAccrualTime(suite.ctx, tc.args.deposit.Denom, tc.args.initialTime)
var rewardIndexes types.RewardIndexes
for _, rewardCoin := range tc.args.rewardsPerSecond {
rewardIndex := types.NewRewardIndex(rewardCoin.Denom, sdk.ZeroDec())
rewardIndexes = append(rewardIndexes, rewardIndex)
}
suite.keeper.SetHardSupplyRewardIndexes(suite.ctx, tc.args.deposit.Denom, rewardIndexes)
// Set up hard state (interest factor for the relevant denom)
suite.hardKeeper.SetSupplyInterestFactor(suite.ctx, tc.args.deposit.Denom, sdk.MustNewDecFromStr("1.0"))
suite.hardKeeper.SetPreviousAccrualTime(suite.ctx, tc.args.deposit.Denom, tc.args.initialTime)
// User deposits and borrows to increase total borrowed amount
hardKeeper := suite.app.GetHardKeeper()
userAddr := suite.addrs[3]
err := hardKeeper.Deposit(suite.ctx, userAddr, sdk.NewCoins(tc.args.deposit))
suite.Require().NoError(err)
// Check that Hard hooks initialized a HardLiquidityProviderClaim
claim, found := suite.keeper.GetHardLiquidityProviderClaim(suite.ctx, suite.addrs[3])
suite.Require().True(found)
multiRewardIndex, _ := claim.SupplyRewardIndexes.GetRewardIndex(tc.args.deposit.Denom)
for _, expectedRewardIndex := range tc.args.expectedRewardIndexes {
currRewardIndex, found := multiRewardIndex.RewardIndexes.GetRewardIndex(expectedRewardIndex.CollateralType)
suite.Require().True(found)
suite.Require().Equal(sdk.ZeroDec(), currRewardIndex.RewardFactor)
}
// Run accumulator at several intervals
var timeElapsed int
previousBlockTime := suite.ctx.BlockTime()
for _, t := range tc.args.blockTimes {
timeElapsed += t
updatedBlockTime := previousBlockTime.Add(time.Duration(int(time.Second) * t))
previousBlockTime = updatedBlockTime
blockCtx := suite.ctx.WithBlockTime(updatedBlockTime)
// Run Hard begin blocker for each block ctx to update denom's interest factor
hard.BeginBlocker(blockCtx, suite.hardKeeper)
// Accumulate hard supply-side rewards
multiRewardPeriod, found := suite.keeper.GetHardSupplyRewardPeriods(blockCtx, tc.args.deposit.Denom)
suite.Require().True(found)
err := suite.keeper.AccumulateHardSupplyRewards(blockCtx, multiRewardPeriod)
suite.Require().NoError(err)
}
updatedBlockTime := suite.ctx.BlockTime().Add(time.Duration(int(time.Second) * timeElapsed))
suite.ctx = suite.ctx.WithBlockTime(updatedBlockTime)
// Confirm that the user's claim hasn't been synced
claimPre, foundPre := suite.keeper.GetHardLiquidityProviderClaim(suite.ctx, suite.addrs[3])
suite.Require().True(foundPre)
multiRewardIndexPre, _ := claimPre.SupplyRewardIndexes.GetRewardIndex(tc.args.deposit.Denom)
for _, expectedRewardIndex := range tc.args.expectedRewardIndexes {
currRewardIndex, found := multiRewardIndexPre.RewardIndexes.GetRewardIndex(expectedRewardIndex.CollateralType)
suite.Require().True(found)
suite.Require().Equal(sdk.ZeroDec(), currRewardIndex.RewardFactor)
}
// Check that the synced claim held in memory has properly simulated syncing
syncedClaim := suite.keeper.SimulateHardSynchronization(suite.ctx, claimPre)
for _, expectedRewardIndex := range tc.args.expectedRewardIndexes {
// Check that the user's claim's reward index matches the expected reward index
multiRewardIndex, found := syncedClaim.SupplyRewardIndexes.GetRewardIndex(tc.args.deposit.Denom)
suite.Require().True(found)
rewardIndex, found := multiRewardIndex.RewardIndexes.GetRewardIndex(expectedRewardIndex.CollateralType)
suite.Require().True(found)
suite.Require().Equal(expectedRewardIndex, rewardIndex)
// Check that the user's claim holds the expected amount of reward coins
suite.Require().Equal(
tc.args.expectedRewards.AmountOf(expectedRewardIndex.CollateralType),
syncedClaim.Reward.AmountOf(expectedRewardIndex.CollateralType),
)
}
})
}
}
func (suite *KeeperTestSuite) TestSimulateHardBorrowRewardSynchronization() {
type args struct {
borrow sdk.Coin
rewardsPerSecond sdk.Coins
initialTime time.Time
blockTimes []int
expectedRewardIndexes types.RewardIndexes
expectedRewards sdk.Coins
}
type test struct {
name string
args args
}
testCases := []test{
{
"10 blocks",
args{
borrow: c("bnb", 10000000000),
rewardsPerSecond: cs(c("hard", 122354)),
initialTime: time.Date(2020, 12, 15, 14, 0, 0, 0, time.UTC),
blockTimes: []int{10, 10, 10, 10, 10, 10, 10, 10, 10, 10},
expectedRewardIndexes: types.RewardIndexes{types.NewRewardIndex("hard", d("0.001223540000173228"))},
expectedRewards: cs(c("hard", 12235400)),
},
},
{
"10 blocks - long block time",
args{
borrow: c("bnb", 10000000000),
rewardsPerSecond: cs(c("hard", 122354)),
initialTime: time.Date(2020, 12, 15, 14, 0, 0, 0, time.UTC),
blockTimes: []int{86400, 86400, 86400, 86400, 86400, 86400, 86400, 86400, 86400, 86400},
expectedRewardIndexes: types.RewardIndexes{types.NewRewardIndex("hard", d("10.571385603126235340"))},
expectedRewards: cs(c("hard", 105713856031)),
},
},
}
for _, tc := range testCases {
suite.Run(tc.name, func() {
suite.SetupWithGenState()
suite.ctx = suite.ctx.WithBlockTime(tc.args.initialTime)
// Mint coins to hard module account
supplyKeeper := suite.app.GetSupplyKeeper()
hardMaccCoins := sdk.NewCoins(sdk.NewCoin("usdx", sdk.NewInt(200000000)))
supplyKeeper.MintCoins(suite.ctx, hardtypes.ModuleAccountName, hardMaccCoins)
// setup incentive state
params := types.NewParams(
types.RewardPeriods{types.NewRewardPeriod(true, tc.args.borrow.Denom, tc.args.initialTime, tc.args.initialTime.Add(time.Hour*24*365*4), tc.args.rewardsPerSecond[0])},
types.MultiRewardPeriods{types.NewMultiRewardPeriod(true, tc.args.borrow.Denom, tc.args.initialTime, tc.args.initialTime.Add(time.Hour*24*365*4), tc.args.rewardsPerSecond)},
types.MultiRewardPeriods{types.NewMultiRewardPeriod(true, tc.args.borrow.Denom, tc.args.initialTime, tc.args.initialTime.Add(time.Hour*24*365*4), tc.args.rewardsPerSecond)},
types.RewardPeriods{types.NewRewardPeriod(true, tc.args.borrow.Denom, tc.args.initialTime, tc.args.initialTime.Add(time.Hour*24*365*4), tc.args.rewardsPerSecond[0])},
types.Multipliers{types.NewMultiplier(types.MultiplierName("small"), 1, d("0.25")), types.NewMultiplier(types.MultiplierName("large"), 12, d("1.0"))},
tc.args.initialTime.Add(time.Hour*24*365*5),
)
suite.keeper.SetParams(suite.ctx, params)
suite.keeper.SetPreviousHardBorrowRewardAccrualTime(suite.ctx, tc.args.borrow.Denom, tc.args.initialTime)
var rewardIndexes types.RewardIndexes
for _, rewardCoin := range tc.args.rewardsPerSecond {
rewardIndex := types.NewRewardIndex(rewardCoin.Denom, sdk.ZeroDec())
rewardIndexes = append(rewardIndexes, rewardIndex)
}
suite.keeper.SetHardBorrowRewardIndexes(suite.ctx, tc.args.borrow.Denom, rewardIndexes)
// Set up hard state (interest factor for the relevant denom)
suite.hardKeeper.SetSupplyInterestFactor(suite.ctx, tc.args.borrow.Denom, sdk.MustNewDecFromStr("1.0"))
suite.hardKeeper.SetBorrowInterestFactor(suite.ctx, tc.args.borrow.Denom, sdk.MustNewDecFromStr("1.0"))
suite.hardKeeper.SetPreviousAccrualTime(suite.ctx, tc.args.borrow.Denom, tc.args.initialTime)
// User deposits and borrows to increase total borrowed amount
hardKeeper := suite.app.GetHardKeeper()
userAddr := suite.addrs[3]
err := hardKeeper.Deposit(suite.ctx, userAddr, sdk.NewCoins(sdk.NewCoin(tc.args.borrow.Denom, tc.args.borrow.Amount.Mul(sdk.NewInt(2)))))
suite.Require().NoError(err)
err = hardKeeper.Borrow(suite.ctx, userAddr, sdk.NewCoins(tc.args.borrow))
suite.Require().NoError(err)
// Check that Hard hooks initialized a HardLiquidityProviderClaim
claim, found := suite.keeper.GetHardLiquidityProviderClaim(suite.ctx, suite.addrs[3])
suite.Require().True(found)
multiRewardIndex, _ := claim.BorrowRewardIndexes.GetRewardIndex(tc.args.borrow.Denom)
for _, expectedRewardIndex := range tc.args.expectedRewardIndexes {
currRewardIndex, found := multiRewardIndex.RewardIndexes.GetRewardIndex(expectedRewardIndex.CollateralType)
suite.Require().True(found)
suite.Require().Equal(sdk.ZeroDec(), currRewardIndex.RewardFactor)
}
// Run accumulator at several intervals
var timeElapsed int
previousBlockTime := suite.ctx.BlockTime()
for _, t := range tc.args.blockTimes {
timeElapsed += t
updatedBlockTime := previousBlockTime.Add(time.Duration(int(time.Second) * t))
previousBlockTime = updatedBlockTime
blockCtx := suite.ctx.WithBlockTime(updatedBlockTime)
// Run Hard begin blocker for each block ctx to update denom's interest factor
hard.BeginBlocker(blockCtx, suite.hardKeeper)
// Accumulate hard borrow-side rewards
multiRewardPeriod, found := suite.keeper.GetHardBorrowRewardPeriods(blockCtx, tc.args.borrow.Denom)
suite.Require().True(found)
err := suite.keeper.AccumulateHardBorrowRewards(blockCtx, multiRewardPeriod)
suite.Require().NoError(err)
}
updatedBlockTime := suite.ctx.BlockTime().Add(time.Duration(int(time.Second) * timeElapsed))
suite.ctx = suite.ctx.WithBlockTime(updatedBlockTime)
// Confirm that the user's claim hasn't been synced
claimPre, foundPre := suite.keeper.GetHardLiquidityProviderClaim(suite.ctx, suite.addrs[3])
suite.Require().True(foundPre)
multiRewardIndexPre, _ := claimPre.BorrowRewardIndexes.GetRewardIndex(tc.args.borrow.Denom)
for _, expectedRewardIndex := range tc.args.expectedRewardIndexes {
currRewardIndex, found := multiRewardIndexPre.RewardIndexes.GetRewardIndex(expectedRewardIndex.CollateralType)
suite.Require().True(found)
suite.Require().Equal(sdk.ZeroDec(), currRewardIndex.RewardFactor)
}
// Check that the synced claim held in memory has properly simulated syncing
syncedClaim := suite.keeper.SimulateHardSynchronization(suite.ctx, claim)
for _, expectedRewardIndex := range tc.args.expectedRewardIndexes {
// Check that the user's claim's reward index matches the expected reward index
multiRewardIndex, found := syncedClaim.BorrowRewardIndexes.GetRewardIndex(tc.args.borrow.Denom)
suite.Require().True(found)
rewardIndex, found := multiRewardIndex.RewardIndexes.GetRewardIndex(expectedRewardIndex.CollateralType)
suite.Require().True(found)
suite.Require().Equal(expectedRewardIndex, rewardIndex)
// Check that the user's claim holds the expected amount of reward coins
suite.Require().Equal(
tc.args.expectedRewards.AmountOf(expectedRewardIndex.CollateralType),
syncedClaim.Reward.AmountOf(expectedRewardIndex.CollateralType),
)
}
})
}
}
func (suite *KeeperTestSuite) TestSimulateHardDelegatorRewardSynchronization() {
type args struct {
delegation sdk.Coin
rewardsPerSecond sdk.Coins
initialTime time.Time
blockTimes []int
expectedRewardIndexes types.RewardIndexes
expectedRewards sdk.Coins
}
type test struct {
name string
args args
}
testCases := []test{
{
"10 blocks",
args{
delegation: c("ukava", 1_000_000),
rewardsPerSecond: cs(c("hard", 122354)),
initialTime: time.Date(2020, 12, 15, 14, 0, 0, 0, time.UTC),
blockTimes: []int{10, 10, 10, 10, 10, 10, 10, 10, 10, 10},
expectedRewardIndexes: types.RewardIndexes{types.NewRewardIndex("ukava", d("6.117700000000000000"))}, // Here the reward index stores data differently than inside a MultiRewardIndex
expectedRewards: cs(c("hard", 6117700)),
},
},
{
"10 blocks - long block time",
args{
delegation: c("ukava", 1_000_000),
rewardsPerSecond: cs(c("hard", 122354)),
initialTime: time.Date(2020, 12, 15, 14, 0, 0, 0, time.UTC),
blockTimes: []int{86400, 86400, 86400, 86400, 86400, 86400, 86400, 86400, 86400, 86400},
expectedRewardIndexes: types.RewardIndexes{types.NewRewardIndex("ukava", d("52856.928000000000000000"))},
expectedRewards: cs(c("hard", 52856928000)),
},
},
}
for _, tc := range testCases {
suite.Run(tc.name, func() {
suite.SetupWithGenState()
suite.ctx = suite.ctx.WithBlockTime(tc.args.initialTime)
// Mint coins to hard module account
supplyKeeper := suite.app.GetSupplyKeeper()
hardMaccCoins := sdk.NewCoins(sdk.NewCoin("usdx", sdk.NewInt(200000000)))
supplyKeeper.MintCoins(suite.ctx, hardtypes.ModuleAccountName, hardMaccCoins)
// setup incentive state
params := types.NewParams(
types.RewardPeriods{types.NewRewardPeriod(true, tc.args.delegation.Denom, tc.args.initialTime, tc.args.initialTime.Add(time.Hour*24*365*4), tc.args.rewardsPerSecond[0])},
types.MultiRewardPeriods{types.NewMultiRewardPeriod(true, tc.args.delegation.Denom, tc.args.initialTime, tc.args.initialTime.Add(time.Hour*24*365*4), tc.args.rewardsPerSecond)},
types.MultiRewardPeriods{types.NewMultiRewardPeriod(true, tc.args.delegation.Denom, tc.args.initialTime, tc.args.initialTime.Add(time.Hour*24*365*4), tc.args.rewardsPerSecond)},
types.RewardPeriods{types.NewRewardPeriod(true, tc.args.delegation.Denom, tc.args.initialTime, tc.args.initialTime.Add(time.Hour*24*365*4), tc.args.rewardsPerSecond[0])},
types.Multipliers{types.NewMultiplier(types.MultiplierName("small"), 1, d("0.25")), types.NewMultiplier(types.MultiplierName("large"), 12, d("1.0"))},
tc.args.initialTime.Add(time.Hour*24*365*5),
)
suite.keeper.SetParams(suite.ctx, params)
suite.keeper.SetPreviousHardDelegatorRewardAccrualTime(suite.ctx, tc.args.delegation.Denom, tc.args.initialTime)
suite.keeper.SetHardDelegatorRewardFactor(suite.ctx, tc.args.delegation.Denom, sdk.ZeroDec())
// Set up hard state (interest factor for the relevant denom)
suite.hardKeeper.SetPreviousAccrualTime(suite.ctx, tc.args.delegation.Denom, tc.args.initialTime)
// Delegator delegates
err := suite.deliverMsgCreateValidator(suite.ctx, suite.validatorAddrs[0], tc.args.delegation)
suite.Require().NoError(err)
err = suite.deliverMsgDelegate(suite.ctx, suite.addrs[0], suite.validatorAddrs[0], tc.args.delegation)
suite.Require().NoError(err)
staking.EndBlocker(suite.ctx, suite.stakingKeeper)
// Check that Staking hooks initialized a HardLiquidityProviderClaim
claim, found := suite.keeper.GetHardLiquidityProviderClaim(suite.ctx, suite.addrs[0])
suite.Require().True(found)
suite.Require().Equal(sdk.ZeroDec(), claim.DelegatorRewardIndexes[0].RewardFactor)
// Run accumulator at several intervals
var timeElapsed int
previousBlockTime := suite.ctx.BlockTime()
for _, t := range tc.args.blockTimes {
timeElapsed += t
updatedBlockTime := previousBlockTime.Add(time.Duration(int(time.Second) * t))
previousBlockTime = updatedBlockTime
blockCtx := suite.ctx.WithBlockTime(updatedBlockTime)
// Run Hard begin blocker for each block ctx to update denom's interest factor
hard.BeginBlocker(blockCtx, suite.hardKeeper)
// Accumulate hard delegator rewards
rewardPeriod, found := suite.keeper.GetHardDelegatorRewardPeriod(blockCtx, tc.args.delegation.Denom)
suite.Require().True(found)
err := suite.keeper.AccumulateHardDelegatorRewards(blockCtx, rewardPeriod)
suite.Require().NoError(err)
}
updatedBlockTime := suite.ctx.BlockTime().Add(time.Duration(int(time.Second) * timeElapsed))
suite.ctx = suite.ctx.WithBlockTime(updatedBlockTime)
// Check that the synced claim held in memory has properly simulated syncing
syncedClaim := suite.keeper.SimulateHardSynchronization(suite.ctx, claim)
for _, expectedRewardIndex := range tc.args.expectedRewardIndexes {
// Check that the user's claim's reward index matches the expected reward index
rewardIndex, found := syncedClaim.DelegatorRewardIndexes.GetRewardIndex(expectedRewardIndex.CollateralType)
suite.Require().True(found)
suite.Require().Equal(expectedRewardIndex, rewardIndex)
// Check that the user's claim holds the expected amount of reward coins
suite.Require().Equal(
tc.args.expectedRewards.AmountOf(expectedRewardIndex.CollateralType),
syncedClaim.Reward.AmountOf(expectedRewardIndex.CollateralType),
)
}
})
}
}
func (suite *KeeperTestSuite) TestSimulateUSDXMintingRewardSynchronization() {
type args struct {
ctype string
rewardsPerSecond sdk.Coins
initialTime time.Time
initialCollateral sdk.Coin
initialPrincipal sdk.Coin
blockTimes []int
expectedRewardFactor sdk.Dec
expectedRewards sdk.Coin
}
type test struct {
name string
args args
}
testCases := []test{
{
"10 blocks",
args{
ctype: "bnb-a",
rewardsPerSecond: cs(c("ukava", 122354)),
initialTime: time.Date(2020, 12, 15, 14, 0, 0, 0, time.UTC),
initialCollateral: c("bnb", 1000000000000),
initialPrincipal: c("usdx", 10000000000),
blockTimes: []int{10, 10, 10, 10, 10, 10, 10, 10, 10, 10},
expectedRewardFactor: d("0.001223540000000000"),
expectedRewards: c("ukava", 12235400),
},
},
{
"10 blocks - long block time",
args{
ctype: "bnb-a",
rewardsPerSecond: cs(c("ukava", 122354)),
initialTime: time.Date(2020, 12, 15, 14, 0, 0, 0, time.UTC),
initialCollateral: c("bnb", 1000000000000),
initialPrincipal: c("usdx", 10000000000),
blockTimes: []int{86400, 86400, 86400, 86400, 86400, 86400, 86400, 86400, 86400, 86400},
expectedRewardFactor: d("10.57138560000000000"),
expectedRewards: c("ukava", 105713856000),
},
},
}
for _, tc := range testCases {
suite.Run(tc.name, func() {
suite.SetupWithGenState()
suite.ctx = suite.ctx.WithBlockTime(tc.args.initialTime)
// setup incentive state
params := types.NewParams(
types.RewardPeriods{types.NewRewardPeriod(true, tc.args.ctype, tc.args.initialTime, tc.args.initialTime.Add(time.Hour*24*365*4), tc.args.rewardsPerSecond[0])},
types.MultiRewardPeriods{types.NewMultiRewardPeriod(true, tc.args.ctype, tc.args.initialTime, tc.args.initialTime.Add(time.Hour*24*365*4), tc.args.rewardsPerSecond)},
types.MultiRewardPeriods{types.NewMultiRewardPeriod(true, tc.args.ctype, tc.args.initialTime, tc.args.initialTime.Add(time.Hour*24*365*4), tc.args.rewardsPerSecond)},
types.RewardPeriods{types.NewRewardPeriod(true, tc.args.ctype, tc.args.initialTime, tc.args.initialTime.Add(time.Hour*24*365*4), tc.args.rewardsPerSecond[0])},
types.Multipliers{types.NewMultiplier(types.MultiplierName("small"), 1, d("0.25")), types.NewMultiplier(types.MultiplierName("large"), 12, d("1.0"))},
tc.args.initialTime.Add(time.Hour*24*365*5),
)
suite.keeper.SetParams(suite.ctx, params)
suite.keeper.SetParams(suite.ctx, params)
suite.keeper.SetPreviousUSDXMintingAccrualTime(suite.ctx, tc.args.ctype, tc.args.initialTime)
suite.keeper.SetUSDXMintingRewardFactor(suite.ctx, tc.args.ctype, sdk.ZeroDec())
// setup account state
sk := suite.app.GetSupplyKeeper()
sk.MintCoins(suite.ctx, cdptypes.ModuleName, sdk.NewCoins(tc.args.initialCollateral))
sk.SendCoinsFromModuleToAccount(suite.ctx, cdptypes.ModuleName, suite.addrs[0], sdk.NewCoins(tc.args.initialCollateral))
// setup cdp state
cdpKeeper := suite.app.GetCDPKeeper()
err := cdpKeeper.AddCdp(suite.ctx, suite.addrs[0], tc.args.initialCollateral, tc.args.initialPrincipal, tc.args.ctype)
suite.Require().NoError(err)
claim, found := suite.keeper.GetUSDXMintingClaim(suite.ctx, suite.addrs[0])
suite.Require().True(found)
suite.Require().Equal(sdk.ZeroDec(), claim.RewardIndexes[0].RewardFactor)
var timeElapsed int
previousBlockTime := suite.ctx.BlockTime()
for _, t := range tc.args.blockTimes {
timeElapsed += t
updatedBlockTime := previousBlockTime.Add(time.Duration(int(time.Second) * t))
previousBlockTime = updatedBlockTime
blockCtx := suite.ctx.WithBlockTime(updatedBlockTime)
rewardPeriod, found := suite.keeper.GetUSDXMintingRewardPeriod(blockCtx, tc.args.ctype)
suite.Require().True(found)
err := suite.keeper.AccumulateUSDXMintingRewards(blockCtx, rewardPeriod)
suite.Require().NoError(err)
}
updatedBlockTime := suite.ctx.BlockTime().Add(time.Duration(int(time.Second) * timeElapsed))
suite.ctx = suite.ctx.WithBlockTime(updatedBlockTime)
claim, found = suite.keeper.GetUSDXMintingClaim(suite.ctx, suite.addrs[0])
suite.Require().True(found)
suite.Require().Equal(claim.RewardIndexes[0].RewardFactor, sdk.ZeroDec())
suite.Require().Equal(claim.Reward, sdk.NewCoin("ukava", sdk.ZeroInt()))
updatedClaim := suite.keeper.SimulateUSDXMintingSynchronization(suite.ctx, claim)
suite.Require().Equal(tc.args.expectedRewardFactor, updatedClaim.RewardIndexes[0].RewardFactor)
suite.Require().Equal(tc.args.expectedRewards, updatedClaim.Reward)
})
}
}
func (suite *KeeperTestSuite) deliverMsgCreateValidator(ctx sdk.Context, address sdk.ValAddress, selfDelegation sdk.Coin) error {
msg := staking.NewMsgCreateValidator(
address,
ed25519.GenPrivKey().PubKey(),
selfDelegation,
staking.Description{},
staking.NewCommissionRates(sdk.ZeroDec(), sdk.ZeroDec(), sdk.ZeroDec()),
sdk.NewInt(1_000_000),
)
handleStakingMsg := staking.NewHandler(suite.stakingKeeper)
_, err := handleStakingMsg(ctx, msg)
return err
}
func (suite *KeeperTestSuite) deliverMsgDelegate(ctx sdk.Context, delegator sdk.AccAddress, validator sdk.ValAddress, amount sdk.Coin) error {
msg := staking.NewMsgDelegate(
delegator,
validator,
amount,
)
handleStakingMsg := staking.NewHandler(suite.stakingKeeper)
_, err := handleStakingMsg(ctx, msg)
return err
}
func (suite *KeeperTestSuite) deliverMsgRedelegate(ctx sdk.Context, delegator sdk.AccAddress, sourceValidator, destinationValidator sdk.ValAddress, amount sdk.Coin) error {
msg := staking.NewMsgBeginRedelegate(
delegator,
sourceValidator,
destinationValidator,
amount,
)
handleStakingMsg := staking.NewHandler(suite.stakingKeeper)
_, err := handleStakingMsg(ctx, msg)
return err
}
// given a user has a delegation to a bonded validator, when the validator starts unbonding, the user does not accumulate rewards
func (suite *KeeperTestSuite) TestUnbondingValidatorSyncsClaim() {
suite.SetupWithGenState()
initialTime := time.Date(2020, 12, 15, 14, 0, 0, 0, time.UTC)
suite.ctx = suite.ctx.WithBlockTime(initialTime)
blockDuration := 10 * time.Second
// Setup incentive state
rewardsPerSecond := c("hard", 122354)
bondDenom := "ukava"
params := types.NewParams(
nil,
nil,
nil,
types.RewardPeriods{
types.NewRewardPeriod(true, bondDenom, initialTime.Add(-1*oneYear), initialTime.Add(4*oneYear), rewardsPerSecond),
},
types.DefaultMultipliers,
initialTime.Add(5*oneYear),
)
suite.keeper.SetParams(suite.ctx, params)
suite.keeper.SetPreviousHardDelegatorRewardAccrualTime(suite.ctx, bondDenom, initialTime)
suite.keeper.SetHardDelegatorRewardFactor(suite.ctx, bondDenom, sdk.ZeroDec())
// Reduce the size of the validator set
stakingParams := suite.app.GetStakingKeeper().GetParams(suite.ctx)
stakingParams.MaxValidators = 2
suite.app.GetStakingKeeper().SetParams(suite.ctx, stakingParams)
// Create 3 validators
err := suite.deliverMsgCreateValidator(suite.ctx, suite.validatorAddrs[0], c(bondDenom, 10_000_000))
suite.Require().NoError(err)
err = suite.deliverMsgCreateValidator(suite.ctx, suite.validatorAddrs[1], c(bondDenom, 5_000_000))
suite.Require().NoError(err)
err = suite.deliverMsgCreateValidator(suite.ctx, suite.validatorAddrs[2], c(bondDenom, 1_000_000))
suite.Require().NoError(err)
// End the block so top validators become bonded
_ = suite.app.EndBlocker(suite.ctx, abci.RequestEndBlock{})
suite.ctx = suite.ctx.WithBlockTime(initialTime.Add(1 * blockDuration))
_ = suite.app.BeginBlocker(suite.ctx, abci.RequestBeginBlock{}) // height and time in header are ignored by module begin blockers
// Delegate to a bonded validator from the test user. This will initialize their incentive claim.
err = suite.deliverMsgDelegate(suite.ctx, suite.addrs[0], suite.validatorAddrs[1], c(bondDenom, 1_000_000))
suite.Require().NoError(err)
// Start a new block to accumulate some delegation rewards for the user.
_ = suite.app.EndBlocker(suite.ctx, abci.RequestEndBlock{})
suite.ctx = suite.ctx.WithBlockTime(initialTime.Add(2 * blockDuration))
_ = suite.app.BeginBlocker(suite.ctx, abci.RequestBeginBlock{}) // height and time in header are ignored by module begin blockers
// Delegate to the unbonded validator to push it into the bonded validator set, pushing out the user's delegated validator
err = suite.deliverMsgDelegate(suite.ctx, suite.addrs[2], suite.validatorAddrs[2], c(bondDenom, 8_000_000))
suite.Require().NoError(err)
// End the block to start unbonding the user's validator
_ = suite.app.EndBlocker(suite.ctx, abci.RequestEndBlock{})
// but don't start the next block as it will accumulate delegator rewards and we won't be able to tell if the user's reward was synced.
// Check that the user's claim has been synced. ie rewards added, index updated
claim, found := suite.keeper.GetHardLiquidityProviderClaim(suite.ctx, suite.addrs[0])
suite.Require().True(found)
globalIndex, found := suite.keeper.GetHardDelegatorRewardFactor(suite.ctx, bondDenom)
suite.Require().True(found)
claimIndex, found := claim.DelegatorRewardIndexes.GetRewardIndex(bondDenom)
suite.Require().True(found)
suite.Require().Equal(globalIndex, claimIndex.RewardFactor)
suite.Require().Equal(
cs(c(rewardsPerSecond.Denom, 76471)),
claim.Reward,
)
// Run another block and check the claim is not accumulating more rewards
suite.ctx = suite.ctx.WithBlockTime(initialTime.Add(3 * blockDuration))
_ = suite.app.BeginBlocker(suite.ctx, abci.RequestBeginBlock{})
suite.keeper.SynchronizeHardDelegatorRewards(suite.ctx, suite.addrs[0], nil, false)
// rewards are the same as before
laterClaim, found := suite.keeper.GetHardLiquidityProviderClaim(suite.ctx, suite.addrs[0])
suite.Require().True(found)
suite.Require().Equal(claim.Reward, laterClaim.Reward)
// claim index has been updated to latest global value
laterClaimIndex, found := laterClaim.DelegatorRewardIndexes.GetRewardIndex(bondDenom)
suite.Require().True(found)
globalIndex, found = suite.keeper.GetHardDelegatorRewardFactor(suite.ctx, bondDenom)
suite.Require().True(found)
suite.Require().Equal(globalIndex, laterClaimIndex.RewardFactor)
}
// given a user has a delegation to an unbonded validator, when the validator becomes bonded, the user starts accumulating rewards
func (suite *KeeperTestSuite) TestBondingValidatorSyncsClaim() {
suite.SetupWithGenState()
initialTime := time.Date(2020, 12, 15, 14, 0, 0, 0, time.UTC)
suite.ctx = suite.ctx.WithBlockTime(initialTime)
blockDuration := 10 * time.Second
// Setup incentive state
rewardsPerSecond := c("hard", 122354)
bondDenom := "ukava"
params := types.NewParams(
nil,
nil,
nil,
types.RewardPeriods{
types.NewRewardPeriod(true, bondDenom, initialTime.Add(-1*oneYear), initialTime.Add(4*oneYear), rewardsPerSecond),
},
types.DefaultMultipliers,
initialTime.Add(5*oneYear),
)
suite.keeper.SetParams(suite.ctx, params)
suite.keeper.SetPreviousHardDelegatorRewardAccrualTime(suite.ctx, bondDenom, initialTime)
suite.keeper.SetHardDelegatorRewardFactor(suite.ctx, bondDenom, sdk.ZeroDec())
// Reduce the size of the validator set
stakingParams := suite.app.GetStakingKeeper().GetParams(suite.ctx)
stakingParams.MaxValidators = 2
suite.app.GetStakingKeeper().SetParams(suite.ctx, stakingParams)
// Create 3 validators
err := suite.deliverMsgCreateValidator(suite.ctx, suite.validatorAddrs[0], c(bondDenom, 10_000_000))
suite.Require().NoError(err)
err = suite.deliverMsgCreateValidator(suite.ctx, suite.validatorAddrs[1], c(bondDenom, 5_000_000))
suite.Require().NoError(err)
err = suite.deliverMsgCreateValidator(suite.ctx, suite.validatorAddrs[2], c(bondDenom, 1_000_000))
suite.Require().NoError(err)
// End the block so top validators become bonded
_ = suite.app.EndBlocker(suite.ctx, abci.RequestEndBlock{})
suite.ctx = suite.ctx.WithBlockTime(initialTime.Add(1 * blockDuration))
_ = suite.app.BeginBlocker(suite.ctx, abci.RequestBeginBlock{}) // height and time in header are ignored by module begin blockers
// Delegate to an unbonded validator from the test user. This will initialize their incentive claim.
err = suite.deliverMsgDelegate(suite.ctx, suite.addrs[0], suite.validatorAddrs[2], c(bondDenom, 1_000_000))
suite.Require().NoError(err)
// Start a new block to accumulate some delegation rewards globally.
_ = suite.app.EndBlocker(suite.ctx, abci.RequestEndBlock{})
suite.ctx = suite.ctx.WithBlockTime(initialTime.Add(2 * blockDuration))
_ = suite.app.BeginBlocker(suite.ctx, abci.RequestBeginBlock{})
// Delegate to the user's unbonded validator to push it into the bonded validator set
err = suite.deliverMsgDelegate(suite.ctx, suite.addrs[2], suite.validatorAddrs[2], c(bondDenom, 4_000_000))
suite.Require().NoError(err)
// End the block to bond the user's validator
_ = suite.app.EndBlocker(suite.ctx, abci.RequestEndBlock{})
// but don't start the next block as it will accumulate delegator rewards and we won't be able to tell if the user's reward was synced.
// Check that the user's claim has been synced. ie rewards added, index updated
claim, found := suite.keeper.GetHardLiquidityProviderClaim(suite.ctx, suite.addrs[0])
suite.Require().True(found)
globalIndex, found := suite.keeper.GetHardDelegatorRewardFactor(suite.ctx, bondDenom)
suite.Require().True(found)
claimIndex, found := claim.DelegatorRewardIndexes.GetRewardIndex(bondDenom)
suite.Require().True(found)
suite.Require().Equal(globalIndex, claimIndex.RewardFactor)
suite.Require().Equal(
sdk.Coins(nil),
claim.Reward,
)
// Run another block and check the claim is accumulating more rewards
suite.ctx = suite.ctx.WithBlockTime(initialTime.Add(3 * blockDuration))
_ = suite.app.BeginBlocker(suite.ctx, abci.RequestBeginBlock{})
suite.keeper.SynchronizeHardDelegatorRewards(suite.ctx, suite.addrs[0], nil, false)
// rewards are greater than before
laterClaim, found := suite.keeper.GetHardLiquidityProviderClaim(suite.ctx, suite.addrs[0])
suite.Require().True(found)
suite.Require().True(laterClaim.Reward.IsAllGT(claim.Reward))
// claim index has been updated to latest global value
laterClaimIndex, found := laterClaim.DelegatorRewardIndexes.GetRewardIndex(bondDenom)
suite.Require().True(found)
globalIndex, found = suite.keeper.GetHardDelegatorRewardFactor(suite.ctx, bondDenom)
suite.Require().True(found)
suite.Require().Equal(globalIndex, laterClaimIndex.RewardFactor)
}
// If a validator is slashed delegators should have their claims synced
func (suite *KeeperTestSuite) TestSlashingValidatorSyncsClaim() {
suite.SetupWithGenState()
initialTime := time.Date(2020, 12, 15, 14, 0, 0, 0, time.UTC)
suite.ctx = suite.ctx.WithBlockTime(initialTime)
blockDuration := 10 * time.Second
// Setup incentive state
rewardsPerSecond := c("hard", 122354)
bondDenom := "ukava"
params := types.NewParams(
nil,
nil,
nil,
types.RewardPeriods{
types.NewRewardPeriod(true, bondDenom, initialTime.Add(-1*oneYear), initialTime.Add(4*oneYear), rewardsPerSecond),
},
types.DefaultMultipliers,
initialTime.Add(5*oneYear),
)
suite.keeper.SetParams(suite.ctx, params)
suite.keeper.SetPreviousHardDelegatorRewardAccrualTime(suite.ctx, bondDenom, initialTime.Add(-1*blockDuration))
suite.keeper.SetHardDelegatorRewardFactor(suite.ctx, bondDenom, sdk.ZeroDec())
// Reduce the size of the validator set
stakingParams := suite.app.GetStakingKeeper().GetParams(suite.ctx)
stakingParams.MaxValidators = 2
suite.app.GetStakingKeeper().SetParams(suite.ctx, stakingParams)
// Create 2 validators
err := suite.deliverMsgCreateValidator(suite.ctx, suite.validatorAddrs[0], c(bondDenom, 10_000_000))
suite.Require().NoError(err)
err = suite.deliverMsgCreateValidator(suite.ctx, suite.validatorAddrs[1], c(bondDenom, 10_000_000))
suite.Require().NoError(err)
// End the block so validators become bonded
_ = suite.app.EndBlocker(suite.ctx, abci.RequestEndBlock{})
suite.ctx = suite.ctx.WithBlockTime(initialTime.Add(1 * blockDuration))
_ = suite.app.BeginBlocker(suite.ctx, abci.RequestBeginBlock{}) // height and time in header are ignored by module begin blockers
// Delegate to a bonded validator from the test user. This will initialize their incentive claim.
err = suite.deliverMsgDelegate(suite.ctx, suite.addrs[0], suite.validatorAddrs[1], c(bondDenom, 1_000_000))
suite.Require().NoError(err)
// Check that claim has been created with synced reward index but no reward coins
initialClaim, found := suite.keeper.GetHardLiquidityProviderClaim(suite.ctx, suite.addrs[0])
suite.True(found)
initialGlobalIndex, found := suite.keeper.GetHardDelegatorRewardFactor(suite.ctx, bondDenom)
suite.True(found)
initialClaimIndex, found := initialClaim.DelegatorRewardIndexes.GetRewardIndex(bondDenom)
suite.True(found)
suite.Require().Equal(initialGlobalIndex, initialClaimIndex.RewardFactor)
suite.True(initialClaim.Reward.Empty()) // Initial claim should not have any rewards
// Start a new block to accumulate some delegation rewards for the user.
_ = suite.app.EndBlocker(suite.ctx, abci.RequestEndBlock{})
suite.ctx = suite.ctx.WithBlockTime(initialTime.Add(2 * blockDuration))
_ = suite.app.BeginBlocker(suite.ctx, abci.RequestBeginBlock{}) // height and time in header are ignored by module begin blockers
// Fetch validator and slash them
stakingKeeper := suite.app.GetStakingKeeper()
validator, found := stakingKeeper.GetValidator(suite.ctx, suite.validatorAddrs[1])
suite.Require().True(found)
suite.Require().True(validator.GetTokens().IsPositive())
fraction := sdk.NewDecWithPrec(5, 1)
stakingKeeper.Slash(suite.ctx, validator.ConsAddress(), suite.ctx.BlockHeight(), 10, fraction)
// Check that the user's claim has been synced. ie rewards added, index updated
claim, found := suite.keeper.GetHardLiquidityProviderClaim(suite.ctx, suite.addrs[0])
suite.Require().True(found)
globalIndex, found := suite.keeper.GetHardDelegatorRewardFactor(suite.ctx, bondDenom)
suite.Require().True(found)
claimIndex, found := claim.DelegatorRewardIndexes.GetRewardIndex(bondDenom)
suite.Require().True(found)
suite.Require().Equal(globalIndex, claimIndex.RewardFactor)
// Check that rewards were added
suite.Require().Equal(
cs(c(rewardsPerSecond.Denom, 58264)),
claim.Reward,
)
// Check that reward factor increased from initial value
suite.True(claimIndex.RewardFactor.GT(initialClaimIndex.RewardFactor))
}
// Given a delegation to a bonded validator, when a user redelegates everything to another (bonded) validator, the user's claim is synced
func (suite *KeeperTestSuite) TestRedelegationSyncsClaim() {
suite.SetupWithGenState()
initialTime := time.Date(2020, 12, 15, 14, 0, 0, 0, time.UTC)
suite.ctx = suite.ctx.WithBlockTime(initialTime)
blockDuration := 10 * time.Second
// Setup incentive state
rewardsPerSecond := c("hard", 122354)
bondDenom := "ukava"
params := types.NewParams(
nil,
nil,
nil,
types.RewardPeriods{
types.NewRewardPeriod(true, bondDenom, initialTime.Add(-1*oneYear), initialTime.Add(4*oneYear), rewardsPerSecond),
},
types.DefaultMultipliers,
initialTime.Add(5*oneYear),
)
suite.keeper.SetParams(suite.ctx, params)
suite.keeper.SetPreviousHardDelegatorRewardAccrualTime(suite.ctx, bondDenom, initialTime)
suite.keeper.SetHardDelegatorRewardFactor(suite.ctx, bondDenom, sdk.ZeroDec())
// Create 2 validators
err := suite.deliverMsgCreateValidator(suite.ctx, suite.validatorAddrs[0], c(bondDenom, 10_000_000))
suite.Require().NoError(err)
err = suite.deliverMsgCreateValidator(suite.ctx, suite.validatorAddrs[1], c(bondDenom, 5_000_000))
suite.Require().NoError(err)
// Delegatefrom the test user. This will initialize their incentive claim.
err = suite.deliverMsgDelegate(suite.ctx, suite.addrs[0], suite.validatorAddrs[0], c(bondDenom, 1_000_000))
suite.Require().NoError(err)
// Start a new block to accumulate some delegation rewards globally.
_ = suite.app.EndBlocker(suite.ctx, abci.RequestEndBlock{})
suite.ctx = suite.ctx.WithBlockTime(initialTime.Add(1 * blockDuration))
_ = suite.app.BeginBlocker(suite.ctx, abci.RequestBeginBlock{}) // height and time in header are ignored by module begin blockers
// Redelegate the user's delegation between the two validators. This should trigger hooks that sync the user's claim.
err = suite.deliverMsgRedelegate(suite.ctx, suite.addrs[0], suite.validatorAddrs[0], suite.validatorAddrs[1], c(bondDenom, 1_000_000))
suite.Require().NoError(err)
// Check that the user's claim has been synced. ie rewards added, index updated
claim, found := suite.keeper.GetHardLiquidityProviderClaim(suite.ctx, suite.addrs[0])
suite.Require().True(found)
globalIndex, found := suite.keeper.GetHardDelegatorRewardFactor(suite.ctx, bondDenom)
suite.Require().True(found)
claimIndex, found := claim.DelegatorRewardIndexes.GetRewardIndex(bondDenom)
suite.Require().True(found)
suite.Require().Equal(globalIndex, claimIndex.RewardFactor)
suite.Require().Equal(
cs(c(rewardsPerSecond.Denom, 76471)),
claim.Reward,
)
}