mirror of
https://github.com/0glabs/0g-chain.git
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3375484f79
* Use cosmossdk.io/errors for deprecated error methods * Update error registration with cosmossdk.io/errors * Use cosmossdk.io/math for deprecated sdk.Int alias * Fix modified proto file * Update sdk.Int usage in swap hooks * Update e2e test deprecated method usage
298 lines
12 KiB
Go
298 lines
12 KiB
Go
package simulation
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// import (
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// "fmt"
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// "math/rand"
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// "github.com/cosmos/cosmos-sdk/baseapp"
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// "github.com/cosmos/cosmos-sdk/codec"
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// "github.com/cosmos/cosmos-sdk/simapp/helpers"
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// sdk "github.com/cosmos/cosmos-sdk/types"
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// "github.com/cosmos/cosmos-sdk/x/simulation"
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// appparams "github.com/kava-labs/kava/app/params"
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// "github.com/kava-labs/kava/x/cdp/keeper"
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// "github.com/kava-labs/kava/x/cdp/types"
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// )
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// // Simulation operation weights constants
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// const (
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// OpWeightMsgCdp = "op_weight_msg_cdp"
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// )
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// // WeightedOperations returns all the operations from the module with their respective weights
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// func WeightedOperations(
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// appParams simulation.AppParams, cdc *codec.Codec, ak types.AccountKeeper,
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// k keeper.Keeper, pfk types.PricefeedKeeper,
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// ) simulation.WeightedOperations {
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// var weightMsgCdp int
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// appParams.GetOrGenerate(cdc, OpWeightMsgCdp, &weightMsgCdp, nil,
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// func(_ *rand.Rand) {
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// weightMsgCdp = appparams.DefaultWeightMsgCdp
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// },
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// )
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// return simulation.WeightedOperations{
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// simulation.NewWeightedOperation(
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// weightMsgCdp,
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// SimulateMsgCdp(ak, k, pfk),
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// ),
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// }
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// }
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// // SimulateMsgCdp generates a MsgCreateCdp or MsgDepositCdp with random values.
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// func SimulateMsgCdp(ak types.AccountKeeper, k keeper.Keeper, pfk types.PricefeedKeeper) simulation.Operation {
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// return func(
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// r *rand.Rand, app *baseapp.BaseApp, ctx sdk.Context, accs []simulation.Account, chainID string,
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// ) (simulation.OperationMsg, []simulation.FutureOperation, error) {
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// simAccount, _ := simulation.RandomAcc(r, accs)
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// acc := ak.GetAccount(ctx, simAccount.Address)
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// if acc == nil {
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// return simulation.NoOpMsg(types.ModuleName), nil, nil
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// }
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// coins := acc.GetCoins()
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// collateralParams := k.GetParams(ctx).CollateralParams
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// if len(collateralParams) == 0 {
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// return simulation.NoOpMsg(types.ModuleName), nil, nil
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// }
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// randCollateralParam := collateralParams[r.Intn(len(collateralParams))]
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// debtParam, _ := k.GetDebtParam(ctx, randCollateralParam.DebtLimit.Denom)
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// if coins.AmountOf(randCollateralParam.Denom).IsZero() {
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// return simulation.NoOpMsg(types.ModuleName), nil, nil
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// }
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// price, err := pfk.GetCurrentPrice(ctx, randCollateralParam.SpotMarketID)
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// if err != nil {
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// return simulation.NoOpMsg(types.ModuleName), nil, nil // pricefeed going down is an expected event
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// }
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// // convert the price to the same units as the debt param
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// priceShifted := ShiftDec(price.Price, debtParam.ConversionFactor)
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// spendableCoins := acc.SpendableCoins(ctx.BlockTime())
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// fees, err := simulation.RandomFees(r, ctx, spendableCoins)
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// if err != nil {
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// return simulation.NoOpMsg(types.ModuleName), nil, err
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// }
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// spendableCoins = spendableCoins.Sub(fees)
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// existingCDP, found := k.GetCdpByOwnerAndCollateralType(ctx, acc.GetAddress(), randCollateralParam.Type)
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// if !found {
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// // calculate the minimum amount of collateral that is needed to create a cdp with the debt floor amount of debt and the minimum liquidation ratio
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// // (debtFloor * liquidationRatio)/priceShifted
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// minCollateralDeposit := (sdk.NewDecFromInt(debtParam.DebtFloor).Mul(randCollateralParam.LiquidationRatio)).Quo(priceShifted)
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// // convert to proper collateral units
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// minCollateralDeposit = ShiftDec(minCollateralDeposit, randCollateralParam.ConversionFactor)
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// // convert to integer and always round up
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// minCollateralDepositRounded := minCollateralDeposit.TruncateInt().Add(sdk.OneInt())
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// if spendableCoins.AmountOf(randCollateralParam.Denom).LT(minCollateralDepositRounded) {
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// // account doesn't have enough funds to open a cdp for the min debt amount
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// return simulation.NewOperationMsgBasic(types.ModuleName, "no-operation", "insufficient funds to open cdp", false, nil), nil, nil
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// }
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// // set the max collateral deposit to the amount of coins in the account
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// maxCollateralDeposit := spendableCoins.AmountOf(randCollateralParam.Denom)
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// // randomly select a collateral deposit amount
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// collateralDeposit := sdkmath.NewInt(int64(simulation.RandIntBetween(r, int(minCollateralDepositRounded.Int64()), int(maxCollateralDeposit.Int64()))))
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// // calculate how much the randomly selected deposit is worth
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// collateralDepositValue := ShiftDec(sdk.NewDecFromInt(collateralDeposit), randCollateralParam.ConversionFactor.Neg()).Mul(priceShifted)
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// // calculate the max amount of debt that could be drawn for the chosen deposit
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// maxDebtDraw := collateralDepositValue.Quo(randCollateralParam.LiquidationRatio).TruncateInt()
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// // check that the debt limit hasn't been reached
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// availableAssetDebt := randCollateralParam.DebtLimit.Amount.Sub(k.GetTotalPrincipal(ctx, randCollateralParam.Type, debtParam.Denom))
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// if availableAssetDebt.LTE(debtParam.DebtFloor) {
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// // debt limit has been reached
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// return simulation.NewOperationMsgBasic(types.ModuleName, "no-operation", "debt limit reached, cannot open cdp", false, nil), nil, nil
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// }
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// // ensure that the debt draw does not exceed the debt limit
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// maxDebtDraw = sdk.MinInt(maxDebtDraw, availableAssetDebt)
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// // randomly select a debt draw amount
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// debtDraw := sdkmath.NewInt(int64(simulation.RandIntBetween(r, int(debtParam.DebtFloor.Int64()), int(maxDebtDraw.Int64()))))
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// msg := types.NewMsgCreateCDP(acc.GetAddress(), sdk.NewCoin(randCollateralParam.Denom, collateralDeposit), sdk.NewCoin(debtParam.Denom, debtDraw), randCollateralParam.Type)
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// tx := helpers.GenTx(
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// []sdk.Msg{msg},
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// fees,
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// helpers.DefaultGenTxGas,
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// chainID,
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// []uint64{acc.GetAccountNumber()},
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// []uint64{acc.GetSequence()},
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// simAccount.PrivKey,
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// )
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// _, _, err := app.Deliver(tx)
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// if err != nil {
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// // to aid debugging, add the stack trace to the comment field of the returned opMsg
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// return simulation.NewOperationMsg(msg, false, fmt.Sprintf("%+v", err)), nil, err
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// }
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// return simulation.NewOperationMsg(msg, true, ""), nil, nil
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// }
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// // a cdp already exists, deposit to it, draw debt from it, or repay debt to it
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// // close 25% of the time
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// if canClose(spendableCoins, existingCDP, debtParam.Denom) && shouldClose(r) {
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// repaymentAmount := spendableCoins.AmountOf(debtParam.Denom)
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// // check that repayment isn't below the debt floor
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// if existingCDP.Principal.Amount.Add(existingCDP.AccumulatedFees.Amount).Sub(repaymentAmount).LT(debtParam.DebtFloor) {
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// repaymentAmount = existingCDP.Principal.Amount.Add(existingCDP.AccumulatedFees.Amount).Sub(debtParam.DebtFloor)
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// }
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// msg := types.NewMsgRepayDebt(acc.GetAddress(), randCollateralParam.Type, sdk.NewCoin(debtParam.Denom, repaymentAmount))
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// tx := helpers.GenTx(
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// []sdk.Msg{msg},
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// fees,
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// helpers.DefaultGenTxGas,
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// chainID,
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// []uint64{acc.GetAccountNumber()},
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// []uint64{acc.GetSequence()},
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// simAccount.PrivKey,
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// )
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// _, _, err := app.Deliver(tx)
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// if err != nil {
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// return simulation.NewOperationMsg(msg, false, fmt.Sprintf("%+v", err)), nil, err
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// }
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// return simulation.NewOperationMsg(msg, true, ""), nil, nil
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// }
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// // deposit 25% of the time
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// if hasCoins(spendableCoins, randCollateralParam.Denom) && shouldDeposit(r) {
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// randDepositAmount := sdkmath.NewInt(int64(simulation.RandIntBetween(r, 1, int(spendableCoins.AmountOf(randCollateralParam.Denom).Int64()))))
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// msg := types.NewMsgDeposit(acc.GetAddress(), acc.GetAddress(), sdk.NewCoin(randCollateralParam.Denom, randDepositAmount), randCollateralParam.Type)
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// tx := helpers.GenTx(
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// []sdk.Msg{msg},
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// fees,
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// helpers.DefaultGenTxGas,
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// chainID,
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// []uint64{acc.GetAccountNumber()},
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// []uint64{acc.GetSequence()},
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// simAccount.PrivKey,
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// )
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// _, _, err := app.Deliver(tx)
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// if err != nil {
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// return simulation.NewOperationMsg(msg, false, fmt.Sprintf("%+v", err)), nil, err
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// }
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// return simulation.NewOperationMsg(msg, true, ""), nil, nil
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// }
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// // draw debt 25% of the time
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// if shouldDraw(r) {
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// collateralShifted := ShiftDec(sdk.NewDecFromInt(existingCDP.Collateral.Amount), randCollateralParam.ConversionFactor.Neg())
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// collateralValue := collateralShifted.Mul(priceShifted)
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// newFeesAccumulated := k.CalculateNewInterest(ctx, existingCDP)
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// totalFees := existingCDP.AccumulatedFees.Add(newFeesAccumulated)
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// // given the current collateral value, calculate how much debt we could add while maintaining a valid liquidation ratio
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// debt := existingCDP.Principal.Add(totalFees)
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// maxTotalDebt := collateralValue.Quo(randCollateralParam.LiquidationRatio)
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// maxDebt := (maxTotalDebt.Sub(sdk.NewDecFromInt(debt.Amount))).Mul(sdk.MustNewDecFromStr("0.95")).TruncateInt()
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// if maxDebt.LTE(sdk.OneInt()) {
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// // debt in cdp is maxed out
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// return simulation.NewOperationMsgBasic(types.ModuleName, "no-operation", "cdp debt maxed out, cannot draw more debt", false, nil), nil, nil
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// }
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// // check if the debt limit has been reached
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// availableAssetDebt := randCollateralParam.DebtLimit.Amount.Sub(k.GetTotalPrincipal(ctx, randCollateralParam.Type, debtParam.Denom))
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// if availableAssetDebt.LTE(sdk.OneInt()) {
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// // debt limit has been reached
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// return simulation.NewOperationMsgBasic(types.ModuleName, "no-operation", "debt limit reached, cannot draw more debt", false, nil), nil, nil
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// }
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// maxDraw := sdk.MinInt(maxDebt, availableAssetDebt)
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// randDrawAmount := sdkmath.NewInt(int64(simulation.RandIntBetween(r, 1, int(maxDraw.Int64()))))
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// msg := types.NewMsgDrawDebt(acc.GetAddress(), randCollateralParam.Type, sdk.NewCoin(debtParam.Denom, randDrawAmount))
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// tx := helpers.GenTx(
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// []sdk.Msg{msg},
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// fees,
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// helpers.DefaultGenTxGas,
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// chainID,
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// []uint64{acc.GetAccountNumber()},
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// []uint64{acc.GetSequence()},
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// simAccount.PrivKey,
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// )
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// _, _, err := app.Deliver(tx)
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// if err != nil {
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// return simulation.NewOperationMsg(msg, false, fmt.Sprintf("%+v", err)), nil, err
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// }
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// return simulation.NewOperationMsg(msg, true, ""), nil, nil
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// }
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// // repay debt 25% of the time
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// if hasCoins(spendableCoins, debtParam.Denom) {
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// debt := existingCDP.Principal.Amount.Add(existingCDP.AccumulatedFees.Amount)
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// payableDebt := debt.Sub(debtParam.DebtFloor)
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// if payableDebt.IsZero() {
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// return simulation.NewOperationMsgBasic(types.ModuleName, "no-operation", "cannot make partial repayment, cdp at debt floor", false, nil), nil, nil
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// }
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// maxRepay := sdk.MinInt(
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// spendableCoins.AmountOf(debtParam.Denom),
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// payableDebt,
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// )
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// var randRepayAmount sdkmath.Int
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// if maxRepay.Equal(sdk.OneInt()) {
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// randRepayAmount = sdk.OneInt()
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// } else {
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// randRepayAmount = sdkmath.NewInt(int64(simulation.RandIntBetween(r, 1, int(maxRepay.Int64()))))
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// }
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// msg := types.NewMsgRepayDebt(acc.GetAddress(), randCollateralParam.Type, sdk.NewCoin(debtParam.Denom, randRepayAmount))
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// tx := helpers.GenTx(
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// []sdk.Msg{msg},
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// fees,
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// helpers.DefaultGenTxGas,
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// chainID,
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// []uint64{acc.GetAccountNumber()},
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// []uint64{acc.GetSequence()},
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// simAccount.PrivKey,
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// )
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// _, _, err := app.Deliver(tx)
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// if err != nil {
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// return simulation.NewOperationMsg(msg, false, fmt.Sprintf("%+v", err)), nil, err
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// }
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// return simulation.NewOperationMsg(msg, true, ""), nil, nil
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// }
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// return simulation.NoOpMsg(types.ModuleName), nil, nil
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// }
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// }
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// func shouldDraw(r *rand.Rand) bool {
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// threshold := 50
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// value := simulation.RandIntBetween(r, 1, 100)
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// return value > threshold
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// }
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// func shouldDeposit(r *rand.Rand) bool {
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// threshold := 66
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// value := simulation.RandIntBetween(r, 1, 100)
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// return value > threshold
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// }
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// func hasCoins(spendableCoins sdk.Coins, denom string) bool {
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// return spendableCoins.AmountOf(denom).IsPositive()
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// }
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// func shouldClose(r *rand.Rand) bool {
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// threshold := 75
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// value := simulation.RandIntBetween(r, 1, 100)
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// return value > threshold
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// }
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// func canClose(spendableCoins sdk.Coins, c types.CDP, denom string) bool {
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// repaymentAmount := c.Principal.Add(c.AccumulatedFees).Amount
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// return spendableCoins.AmountOf(denom).GTE(repaymentAmount)
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// }
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