mirror of
https://github.com/0glabs/0g-chain.git
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49d62dd076
* initial feature scaffolding * implement interest keeper logic * basic AccrueInterest * accrue interest on borrow * update borrow index formula * update sample reserve factor * move AccrueInterest to begin blocker * refactor interest rate updates for accrue interest * use interest rate model from store * refactor begin blocker state machine * add reserve factor to interest model params * update comment * store money market instead of interest rate models * update test suite * use BorrowedCoins store key * update public functions and alias * unit tests, keeper test scaffolding * demo panic * address revisions * add 'normal no jump' test case * spy = 1 + borrow rate * update comment * APYToSPY unit test * per user borrow index list * interest keeper test * test: interest applied on successive borrows * varied snapshot times * test: multiple, varied snapshots * address revisions * add pending interest before validating new borrow * update makefile * address revisions * fix test
194 lines
6.8 KiB
Go
194 lines
6.8 KiB
Go
package keeper
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import (
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sdk "github.com/cosmos/cosmos-sdk/types"
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sdkerrors "github.com/cosmos/cosmos-sdk/types/errors"
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"github.com/kava-labs/kava/x/harvest/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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// ApplyInterestRateUpdates translates the current interest rate models from the params to the store,
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// with each money market accruing interest.
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func (k Keeper) ApplyInterestRateUpdates(ctx sdk.Context) {
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denomSet := map[string]bool{}
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params := k.GetParams(ctx)
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for _, mm := range params.MoneyMarkets {
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// Set any new money markets in the store
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moneyMarket, found := k.GetMoneyMarket(ctx, mm.Denom)
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if !found {
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moneyMarket = mm
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k.SetMoneyMarket(ctx, mm.Denom, moneyMarket)
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}
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// Accrue interest according to the current money markets in the store
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err := k.AccrueInterest(ctx, mm.Denom)
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if err != nil {
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panic(err)
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}
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// Update the interest rate in the store if the params have changed
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if !moneyMarket.Equal(mm) {
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k.SetMoneyMarket(ctx, mm.Denom, mm)
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}
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denomSet[mm.Denom] = true
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}
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// Edge case: money markets removed from params that still exist in the store
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k.IterateMoneyMarkets(ctx, func(denom string, i types.MoneyMarket) bool {
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if !denomSet[denom] {
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// Accrue interest according to current store money market
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err := k.AccrueInterest(ctx, denom)
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if err != nil {
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panic(err)
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}
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// Delete the money market from the store
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k.DeleteMoneyMarket(ctx, denom)
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}
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return false
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})
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}
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// AccrueInterest applies accrued interest to total borrows and reserves by calculating
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// interest from the last checkpoint time and writing the updated values to the store.
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func (k Keeper) AccrueInterest(ctx sdk.Context, denom string) error {
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previousAccrualTime, found := k.GetPreviousAccrualTime(ctx, denom)
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if !found {
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k.SetPreviousAccrualTime(ctx, denom, ctx.BlockTime())
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return nil
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}
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timeElapsed := ctx.BlockTime().Unix() - previousAccrualTime.Unix()
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if timeElapsed == 0 {
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return nil
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}
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// Get available harvest module account cash on hand
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cashPrior := k.supplyKeeper.GetModuleAccount(ctx, types.ModuleName).GetCoins().AmountOf(denom)
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// Get prior borrows
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borrowsPrior := sdk.NewCoin(denom, sdk.ZeroInt())
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borrowCoinsPrior, foundBorrowCoinsPrior := k.GetBorrowedCoins(ctx)
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if foundBorrowCoinsPrior {
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borrowsPrior = sdk.NewCoin(denom, borrowCoinsPrior.AmountOf(denom))
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}
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reservesPrior, foundReservesPrior := k.GetTotalReserves(ctx, denom)
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if !foundReservesPrior {
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newReservesPrior := sdk.NewCoin(denom, sdk.ZeroInt())
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k.SetTotalReserves(ctx, denom, newReservesPrior)
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reservesPrior = newReservesPrior
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}
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borrowIndexPrior, foundBorrowIndexPrior := k.GetBorrowIndex(ctx, denom)
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if !foundBorrowIndexPrior {
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newBorrowIndexPrior := sdk.MustNewDecFromStr("1.0")
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k.SetBorrowIndex(ctx, denom, newBorrowIndexPrior)
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borrowIndexPrior = newBorrowIndexPrior
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}
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// Fetch money market from the store
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mm, found := k.GetMoneyMarket(ctx, denom)
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if !found {
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return sdkerrors.Wrapf(types.ErrMoneyMarketNotFound, "%s", denom)
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}
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// GetBorrowRate calculates the current interest rate based on utilization (the fraction of supply that has been borrowed)
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borrowRateApy, err := CalculateBorrowRate(mm.InterestRateModel, sdk.NewDecFromInt(cashPrior), sdk.NewDecFromInt(borrowsPrior.Amount), sdk.NewDecFromInt(reservesPrior.Amount))
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if err != nil {
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return err
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}
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// Convert from APY to SPY, expressed as (1 + borrow rate)
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borrowRateSpy, err := APYToSPY(sdk.OneDec().Add(borrowRateApy))
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if err != nil {
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return err
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}
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interestFactor := CalculateInterestFactor(borrowRateSpy, sdk.NewInt(timeElapsed))
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interestAccumulated := (interestFactor.Mul(sdk.NewDecFromInt(borrowsPrior.Amount)).TruncateInt()).Sub(borrowsPrior.Amount)
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totalBorrowInterestAccumulated := sdk.NewCoins(sdk.NewCoin(denom, interestAccumulated))
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totalReservesNew := reservesPrior.Add(sdk.NewCoin(denom, sdk.NewDecFromInt(interestAccumulated).Mul(mm.ReserveFactor).TruncateInt()))
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borrowIndexNew := borrowIndexPrior.Mul(interestFactor)
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k.SetBorrowIndex(ctx, denom, borrowIndexNew)
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k.IncrementBorrowedCoins(ctx, totalBorrowInterestAccumulated)
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k.SetTotalReserves(ctx, denom, totalReservesNew)
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k.SetPreviousAccrualTime(ctx, denom, ctx.BlockTime())
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return nil
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}
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// CalculateBorrowRate calculates the borrow rate, which is the current APY expressed as a decimal
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// based on the current utilization.
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func CalculateBorrowRate(model types.InterestRateModel, cash, borrows, reserves sdk.Dec) (sdk.Dec, error) {
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utilRatio := CalculateUtilizationRatio(cash, borrows, reserves)
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// Calculate normal borrow rate (under kink)
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if utilRatio.LTE(model.Kink) {
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return utilRatio.Mul(model.BaseMultiplier).Add(model.BaseRateAPY), nil
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}
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// Calculate jump borrow rate (over kink)
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normalRate := model.Kink.Mul(model.BaseMultiplier).Add(model.BaseRateAPY)
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excessUtil := utilRatio.Sub(model.Kink)
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return excessUtil.Mul(model.JumpMultiplier).Add(normalRate), nil
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}
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// CalculateUtilizationRatio calculates an asset's current utilization rate
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func CalculateUtilizationRatio(cash, borrows, reserves sdk.Dec) sdk.Dec {
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// Utilization rate is 0 when there are no borrows
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if borrows.Equal(sdk.ZeroDec()) {
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return sdk.ZeroDec()
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}
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totalSupply := cash.Add(borrows).Sub(reserves)
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if totalSupply.IsNegative() {
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return sdk.OneDec()
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}
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return sdk.MinDec(sdk.OneDec(), borrows.Quo(totalSupply))
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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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// APYToSPY converts the input annual interest rate. For example, 10% apy would be passed as 1.10.
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// SPY = Per second compounded interest rate is how cosmos mathematically represents APY.
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func APYToSPY(apy sdk.Dec) (sdk.Dec, error) {
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// Note: any APY 179 or greater will cause an out-of-bounds error
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root, err := apy.ApproxRoot(uint64(secondsPerYear))
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if err != nil {
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return sdk.ZeroDec(), err
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}
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return root, nil
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}
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// minInt64 returns the smaller of x or y
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func minDec(x, y sdk.Dec) sdk.Dec {
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if x.GT(y) {
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return y
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}
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return x
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}
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