mirror of
https://github.com/0glabs/0g-chain.git
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c63ecf908a
* Add 'InterestFactor' to CDP type (#734) * update cdp type to include interest factor * fix build * Add cdp accumulator methods (#735) * remame fees to interest * add accumulate interest method * add basic test * add note * address review comments * update tests * Add sync cdp interest method (#737) * remame fees to interest * add accumulate interest method * add basic test * add note * address review comments * update tests * remove old fee functions * add method to synchronize cdp interest * add multi-cdp tests * add test with many blocks * add test for interest getter * address review comments * calculate time difference then convert to seconds * fix: update collateral index when syncing interest * fix: differentiate between case when apy is zero and all fees are being rounded to zero * fix: round time difference properly * update cdp genesis state and migrations (#738) * remame fees to interest * add accumulate interest method * add basic test * add note * address review comments * update tests * remove old fee functions * add method to synchronize cdp interest * add multi-cdp tests * add test with many blocks * add test for interest getter * update cdp genesis state and migrations * address review comments * calculate time difference then convert to seconds * fix: update collateral index when syncing interest * fix: differentiate between case when apy is zero and all fees are being rounded to zero * fix: simplify add/remove/update collateral index * update genesis state to include total principal amounts * update migration * Delete kava-4-cdp-state-block-500000.json * Add cdp liquidations by external keeper (#750) * feat: split liquidations between external keepers and automated begin blocker * address review comments * USDX incentive accumulators (#752) * feat: split liquidations between external keepers and automated begin blocker * wip: refactor usdx minting incentives to use accumulators/hooks * wip: refactor usdx minting claim object * feat: use accumulators/hooks for usdx minting rewards * fix: get tests passing * fix: don't create claim objects unless that cdp type is eligable for rewards * add begin blocker * update client * cleanup comments/tests * update querier * address review comments * fix: check for division by zero * address review comments * run hook before interest is synced * Remove savings rate (#764) * remove savings rate * remove savings rate from debt param * update migrations * address review comments * Add usdx incentives calculation test (#765) * add usdx incentive calculation test * update reward calculation * add allowable error to test criteria * Update x/incentive/keeper/rewards_test.go Co-authored-by: Kevin Davis <karzak@users.noreply.github.com> * fix: remove old fields from test genesis state Co-authored-by: Ruaridh <rhuairahrighairidh@users.noreply.github.com> Co-authored-by: Ruaridh <rhuairahrighairidh@users.noreply.github.com>
165 lines
6.2 KiB
Go
165 lines
6.2 KiB
Go
package keeper
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import (
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"fmt"
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"math"
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sdk "github.com/cosmos/cosmos-sdk/types"
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"github.com/kava-labs/kava/x/cdp/types"
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)
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var (
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scalingFactor = 1e18
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secondsPerYear = 31536000
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)
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// AccumulateInterest calculates the new interest that has accrued for the input collateral type based on the total amount of principal
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// that has been created with that collateral type and the amount of time that has passed since interest was last accumulated
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func (k Keeper) AccumulateInterest(ctx sdk.Context, ctype string) error {
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previousAccrualTime, found := k.GetPreviousAccrualTime(ctx, ctype)
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if !found {
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k.SetPreviousAccrualTime(ctx, ctype, ctx.BlockTime())
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return nil
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}
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timeElapsed := int64(math.RoundToEven(
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ctx.BlockTime().Sub(previousAccrualTime).Seconds(),
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))
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if timeElapsed == 0 {
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return nil
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}
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totalPrincipalPrior := k.GetTotalPrincipal(ctx, ctype, types.DefaultStableDenom)
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if totalPrincipalPrior.IsZero() || totalPrincipalPrior.IsNegative() {
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k.SetPreviousAccrualTime(ctx, ctype, ctx.BlockTime())
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return nil
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}
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interestFactorPrior, foundInterestFactorPrior := k.GetInterestFactor(ctx, ctype)
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if !foundInterestFactorPrior {
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k.SetInterestFactor(ctx, ctype, sdk.OneDec())
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// set previous accrual time exit early because interest accumulated will be zero
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k.SetPreviousAccrualTime(ctx, ctype, ctx.BlockTime())
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return nil
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}
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borrowRateSpy := k.getFeeRate(ctx, ctype)
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if borrowRateSpy.Equal(sdk.OneDec()) {
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k.SetPreviousAccrualTime(ctx, ctype, ctx.BlockTime())
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return nil
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}
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interestFactor := CalculateInterestFactor(borrowRateSpy, sdk.NewInt(timeElapsed))
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interestAccumulated := (interestFactor.Mul(totalPrincipalPrior.ToDec())).RoundInt().Sub(totalPrincipalPrior)
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if interestAccumulated.IsZero() {
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// in the case accumulated interest rounds to zero, exit early without updating accrual time
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return nil
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}
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err := k.MintDebtCoins(ctx, types.ModuleName, k.GetDebtDenom(ctx), sdk.NewCoin(types.DefaultStableDenom, interestAccumulated))
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if err != nil {
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return err
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}
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dp, found := k.GetDebtParam(ctx, types.DefaultStableDenom)
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if !found {
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panic(fmt.Sprintf("Debt parameters for %s not found", types.DefaultStableDenom))
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}
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newFeesSurplus := interestAccumulated
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// mint surplus coins to the liquidator module account.
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if newFeesSurplus.IsPositive() {
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err := k.supplyKeeper.MintCoins(ctx, types.LiquidatorMacc, sdk.NewCoins(sdk.NewCoin(dp.Denom, newFeesSurplus)))
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if err != nil {
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return err
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}
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}
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interestFactorNew := interestFactorPrior.Mul(interestFactor)
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totalPrincipalNew := totalPrincipalPrior.Add(interestAccumulated)
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k.SetTotalPrincipal(ctx, ctype, types.DefaultStableDenom, totalPrincipalNew)
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k.SetInterestFactor(ctx, ctype, interestFactorNew)
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k.SetPreviousAccrualTime(ctx, ctype, ctx.BlockTime())
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return nil
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}
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// CalculateInterestFactor calculates the simple interest scaling factor,
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// which is equal to: (per-second interest rate ** number of seconds elapsed)
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// Will return 1.000x, multiply by principal to get new principal with added interest
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func CalculateInterestFactor(perSecondInterestRate sdk.Dec, secondsElapsed sdk.Int) sdk.Dec {
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scalingFactorUint := sdk.NewUint(uint64(scalingFactor))
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scalingFactorInt := sdk.NewInt(int64(scalingFactor))
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// Convert per-second interest rate to a uint scaled by 1e18
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interestMantissa := sdk.NewUint(perSecondInterestRate.MulInt(scalingFactorInt).RoundInt().Uint64())
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// Convert seconds elapsed to uint (*not scaled*)
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secondsElapsedUint := sdk.NewUint(secondsElapsed.Uint64())
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// Calculate the interest factor as a uint scaled by 1e18
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interestFactorMantissa := sdk.RelativePow(interestMantissa, secondsElapsedUint, scalingFactorUint)
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// Convert interest factor to an unscaled sdk.Dec
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return sdk.NewDecFromBigInt(interestFactorMantissa.BigInt()).QuoInt(scalingFactorInt)
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}
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// SynchronizeInterest updates the input cdp object to reflect the current accumulated interest, updates the cdp state in the store,
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// and returns the updated cdp object
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func (k Keeper) SynchronizeInterest(ctx sdk.Context, cdp types.CDP) types.CDP {
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globalInterestFactor, found := k.GetInterestFactor(ctx, cdp.Type)
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if !found {
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k.SetInterestFactor(ctx, cdp.Type, sdk.OneDec())
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cdp.InterestFactor = sdk.OneDec()
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cdp.FeesUpdated = ctx.BlockTime()
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k.SetCDP(ctx, cdp)
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return cdp
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}
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accumulatedInterest := k.CalculateNewInterest(ctx, cdp)
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if accumulatedInterest.IsZero() {
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// accumulated interest is zero if apy is zero or are if the total fees for all cdps round to zero
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prevAccrualTime, found := k.GetPreviousAccrualTime(ctx, cdp.Type)
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if !found {
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return cdp
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}
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if cdp.FeesUpdated.Equal(prevAccrualTime) {
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// if all fees are rounding to zero, don't update FeesUpdated
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return cdp
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}
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// if apy is zero, we need to update FeesUpdated
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cdp.FeesUpdated = ctx.BlockTime()
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k.SetCDP(ctx, cdp)
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}
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cdp.AccumulatedFees = cdp.AccumulatedFees.Add(accumulatedInterest)
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cdp.FeesUpdated = ctx.BlockTime()
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cdp.InterestFactor = globalInterestFactor
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collateralToDebtRatio := k.CalculateCollateralToDebtRatio(ctx, cdp.Collateral, cdp.Type, cdp.GetTotalPrincipal())
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k.UpdateCdpAndCollateralRatioIndex(ctx, cdp, collateralToDebtRatio)
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return cdp
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}
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// CalculateNewInterest returns the amount of interest that has accrued to the cdp since its interest was last synchronized
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func (k Keeper) CalculateNewInterest(ctx sdk.Context, cdp types.CDP) sdk.Coin {
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globalInterestFactor, found := k.GetInterestFactor(ctx, cdp.Type)
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if !found {
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return sdk.NewCoin(cdp.AccumulatedFees.Denom, sdk.ZeroInt())
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}
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cdpInterestFactor := globalInterestFactor.Quo(cdp.InterestFactor)
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if cdpInterestFactor.Equal(sdk.OneDec()) {
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return sdk.NewCoin(cdp.AccumulatedFees.Denom, sdk.ZeroInt())
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}
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accumulatedInterest := cdp.GetTotalPrincipal().Amount.ToDec().Mul(cdpInterestFactor).RoundInt().Sub(cdp.GetTotalPrincipal().Amount)
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return sdk.NewCoin(cdp.AccumulatedFees.Denom, accumulatedInterest)
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}
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// SynchronizeInterestForRiskyCDPs synchronizes the interest for the slice of cdps with the lowest collateral:debt ratio
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func (k Keeper) SynchronizeInterestForRiskyCDPs(ctx sdk.Context, slice sdk.Int, targetRatio sdk.Dec, collateralType string) error {
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cdps := k.GetSliceOfCDPsByRatioAndType(ctx, slice, targetRatio, collateralType)
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for _, cdp := range cdps {
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k.SynchronizeInterest(ctx, cdp)
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}
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return nil
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}
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