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https://github.com/0glabs/0g-chain.git
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0714d6120e
* revisions: BAS-01 | Inconsistent Comment * revisions: GEE-01 | Unsorted imports * revisions: KEE-01 | Ambiguous Function Naming * revisions: OPE-01 | Redundant “if” Clause
549 lines
20 KiB
Go
549 lines
20 KiB
Go
package simulation
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import (
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"errors"
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"fmt"
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"math/big"
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"math/rand"
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"time"
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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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authexported "github.com/cosmos/cosmos-sdk/x/auth/exported"
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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/swap/keeper"
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"github.com/kava-labs/kava/x/swap/types"
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)
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var (
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//nolint
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noOpMsg = simulation.NoOpMsg(types.ModuleName)
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errorNotEnoughCoins = errors.New("account doesn't have enough coins")
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)
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// Simulation operation weights constants
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const (
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OpWeightMsgDeposit = "op_weight_msg_deposit"
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OpWeightMsgWithdraw = "op_weight_msg_withdraw"
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OpWeightMsgSwapExactForTokens = "op_weight_msg_swap_exact_for_tokens"
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OpWeightMsgSwapForExactTokens = "op_weight_msg_swap_for_exact_tokens"
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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, k keeper.Keeper,
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) simulation.WeightedOperations {
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var weightMsgDeposit int
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var weightMsgWithdraw int
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var weightMsgSwapExactForTokens int
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var weightMsgSwapForExactTokens int
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appParams.GetOrGenerate(cdc, OpWeightMsgDeposit, &weightMsgDeposit, nil,
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func(_ *rand.Rand) {
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weightMsgDeposit = appparams.DefaultWeightMsgDeposit
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},
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)
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appParams.GetOrGenerate(cdc, OpWeightMsgWithdraw, &weightMsgWithdraw, nil,
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func(_ *rand.Rand) {
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weightMsgWithdraw = appparams.DefaultWeightMsgWithdraw
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},
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)
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appParams.GetOrGenerate(cdc, OpWeightMsgSwapExactForTokens, &weightMsgSwapExactForTokens, nil,
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func(_ *rand.Rand) {
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weightMsgSwapExactForTokens = appparams.DefaultWeightMsgSwapExactForTokens
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},
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)
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appParams.GetOrGenerate(cdc, OpWeightMsgSwapForExactTokens, &weightMsgSwapForExactTokens, nil,
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func(_ *rand.Rand) {
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weightMsgSwapForExactTokens = appparams.DefaultWeightMsgSwapForExactTokens
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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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weightMsgDeposit,
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SimulateMsgDeposit(ak, k),
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),
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simulation.NewWeightedOperation(
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weightMsgWithdraw,
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SimulateMsgWithdraw(ak, k),
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),
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simulation.NewWeightedOperation(
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weightMsgSwapExactForTokens,
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SimulateMsgSwapExactForTokens(ak, k),
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),
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simulation.NewWeightedOperation(
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weightMsgSwapForExactTokens,
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SimulateMsgSwapForExactTokens(ak, k),
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),
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}
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}
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// SimulateMsgDeposit generates a MsgDeposit
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func SimulateMsgDeposit(ak types.AccountKeeper, k keeper.Keeper) 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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// Get possible pools and shuffle so that deposits are evenly distributed across pools
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params := k.GetParams(ctx)
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allowedPools := params.AllowedPools
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r.Shuffle(len(allowedPools), func(i, j int) {
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allowedPools[i], allowedPools[j] = allowedPools[j], allowedPools[i]
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})
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// Find an account-pool pair that is likely to result in a successful deposit
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blockTime := ctx.BlockHeader().Time
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depositor, allowedPool, found := findValidAccountAllowedPoolPair(accs, allowedPools, func(acc simulation.Account, pool types.AllowedPool) bool {
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account := ak.GetAccount(ctx, acc.Address)
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err := validateDepositor(ctx, k, pool, account, blockTime)
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if err == errorNotEnoughCoins {
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return false // keep searching
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} else if err != nil {
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panic(err) // raise errors
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}
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return true // found valid pair
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})
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if !found {
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return simulation.NewOperationMsgBasic(types.ModuleName, "no-operation (no valid allowed pool and depositor)", "", false, nil), nil, nil
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}
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// Get random slippage amount between 1-99%
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slippageRaw, err := RandIntInclusive(r, sdk.OneInt(), sdk.NewInt(99))
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if err != nil {
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panic(err)
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}
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slippage := slippageRaw.ToDec().Quo(sdk.NewDec(100))
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// Generate random deadline
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deadline := genRandDeadline(r, blockTime)
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depositorAcc := ak.GetAccount(ctx, depositor.Address)
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depositorCoins := depositorAcc.SpendableCoins(blockTime)
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// Construct initial msg (without coin amounts)
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msg := types.NewMsgDeposit(depositorAcc.GetAddress(), sdk.Coin{}, sdk.Coin{}, slippage, deadline)
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// Populate msg with randomized token amounts
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pool, found := k.GetPool(ctx, allowedPool.Name())
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if !found { // Pool doesn't exist: first deposit
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depositTokenA := randCoinFromCoins(r, depositorCoins, allowedPool.TokenA)
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msg.TokenA = depositTokenA
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depositTokenB := randCoinFromCoins(r, depositorCoins, allowedPool.TokenB)
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msg.TokenB = depositTokenB
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} else { // Pool exists: successive deposit
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var denomX string // Denom X is the token denom in the pool with the larger amount
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var denomY string // Denom Y is the token denom in the pool with the larger amount
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if pool.ReservesA.Amount.GTE(pool.ReservesB.Amount) {
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denomX = pool.ReservesA.Denom
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denomY = pool.ReservesB.Denom
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} else {
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denomX = pool.ReservesB.Denom
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denomY = pool.ReservesA.Denom
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}
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depositTokenY := randCoinFromCoins(r, depositorCoins, denomY)
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msg.TokenA = depositTokenY
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// Calculate the pool's slippage ratio and use it to build other coin
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ratio := pool.Reserves().AmountOf(denomX).ToDec().Quo(pool.Reserves().AmountOf(denomY).ToDec())
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amtTokenX := depositTokenY.Amount.ToDec().Mul(ratio).RoundInt()
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depositTokenX := sdk.NewCoin(denomX, amtTokenX)
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if depositorCoins.AmountOf(denomX).LT(amtTokenX) {
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return simulation.NewOperationMsgBasic(types.ModuleName, "no-operation (depositor has insufficient coins)", "", false, nil), nil, nil
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}
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msg.TokenB = depositTokenX
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}
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err = msg.ValidateBasic()
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if err != nil {
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return noOpMsg, nil, nil
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}
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tx := helpers.GenTx(
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[]sdk.Msg{msg},
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sdk.NewCoins(),
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helpers.DefaultGenTxGas,
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chainID,
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[]uint64{depositorAcc.GetAccountNumber()},
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[]uint64{depositorAcc.GetSequence()},
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depositor.PrivKey,
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)
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_, result, 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, result.Log), nil, nil
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}
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}
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// SimulateMsgWithdraw generates a MsgWithdraw
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func SimulateMsgWithdraw(ak types.AccountKeeper, k keeper.Keeper) 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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poolRecords := k.GetAllPools(ctx)
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r.Shuffle(len(poolRecords), func(i, j int) {
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poolRecords[i], poolRecords[j] = poolRecords[j], poolRecords[i]
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})
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// Find an account-pool pair for which withdraw is possible
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withdrawer, poolRecord, found := findValidAccountPoolRecordPair(accs, poolRecords, func(acc simulation.Account, poolRecord types.PoolRecord) bool {
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_, found := k.GetDepositorShares(ctx, acc.Address, poolRecord.PoolID)
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return found
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})
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if !found {
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return simulation.NewOperationMsgBasic(types.ModuleName, "no-operation (no valid pool record and withdrawer)", "", false, nil), nil, nil
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}
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withdrawerAcc := ak.GetAccount(ctx, withdrawer.Address)
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shareRecord, _ := k.GetDepositorShares(ctx, withdrawerAcc.GetAddress(), poolRecord.PoolID)
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denominatedPool, err := types.NewDenominatedPoolWithExistingShares(poolRecord.Reserves(), poolRecord.TotalShares)
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if err != nil {
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return noOpMsg, nil, nil
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}
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coinsOwned := denominatedPool.ShareValue(shareRecord.SharesOwned)
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// Get random amount of shares between 2-10% of the total
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sharePercentage, err := RandIntInclusive(r, sdk.NewInt(2), sdk.NewInt(10))
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if err != nil {
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panic(err)
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}
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shares := shareRecord.SharesOwned.Mul(sharePercentage).Quo(sdk.NewInt(100))
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// Expect minimum token amounts relative to the % of shares owned and withdrawn
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oneLessThanSharePercentage := sharePercentage.Sub(sdk.OneInt())
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amtTokenAOwned := coinsOwned.AmountOf(poolRecord.ReservesA.Denom)
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minAmtTokenA := amtTokenAOwned.Mul(oneLessThanSharePercentage).Quo(sdk.NewInt(100))
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minTokenA := sdk.NewCoin(poolRecord.ReservesA.Denom, minAmtTokenA)
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amtTokenBOwned := coinsOwned.AmountOf(poolRecord.ReservesB.Denom)
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minTokenAmtB := amtTokenBOwned.Mul(oneLessThanSharePercentage).Quo(sdk.NewInt(100))
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minTokenB := sdk.NewCoin(poolRecord.ReservesB.Denom, minTokenAmtB)
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// Generate random deadline
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blockTime := ctx.BlockHeader().Time
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deadline := genRandDeadline(r, blockTime)
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// Construct MsgWithdraw
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msg := types.NewMsgWithdraw(withdrawerAcc.GetAddress(), shares, minTokenA, minTokenB, deadline)
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err = msg.ValidateBasic()
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if err != nil {
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return noOpMsg, nil, nil
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}
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tx := helpers.GenTx(
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[]sdk.Msg{msg},
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sdk.NewCoins(),
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helpers.DefaultGenTxGas,
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chainID,
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[]uint64{withdrawerAcc.GetAccountNumber()},
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[]uint64{withdrawerAcc.GetSequence()},
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withdrawer.PrivKey,
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)
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_, result, 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, result.Log), nil, nil
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}
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}
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// SimulateMsgSwapExactForTokens generates a MsgSwapExactForTokens
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func SimulateMsgSwapExactForTokens(ak types.AccountKeeper, k keeper.Keeper) 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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poolRecords := k.GetAllPools(ctx)
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r.Shuffle(len(poolRecords), func(i, j int) {
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poolRecords[i], poolRecords[j] = poolRecords[j], poolRecords[i]
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})
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// Find an account-pool pair for which trade is possible
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trader, poolRecord, found := findValidAccountPoolRecordPair(accs, poolRecords, func(acc simulation.Account, poolRecord types.PoolRecord) bool {
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traderAcc := ak.GetAccount(ctx, acc.Address)
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balanceTokenA := traderAcc.GetCoins().AmountOf(poolRecord.ReservesA.Denom)
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balanceTokenB := traderAcc.GetCoins().AmountOf(poolRecord.ReservesB.Denom)
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if !balanceTokenA.IsPositive() || !balanceTokenB.IsPositive() {
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return false
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}
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return true
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})
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if !found {
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return simulation.NewOperationMsgBasic(types.ModuleName, "no-operation (no valid pool record and trader)", "", false, nil), nil, nil
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}
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// Select input token
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randInt, err := RandInt(r, sdk.OneInt(), sdk.NewInt(9))
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if err != nil {
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panic(err)
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}
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inputToken := poolRecord.ReservesA
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outputToken := poolRecord.ReservesB
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if randInt.Int64()%2 == 0 {
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inputToken = poolRecord.ReservesB
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outputToken = poolRecord.ReservesA
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}
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// Select entity (trader account or pool) with smaller token amount
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traderAcc := ak.GetAccount(ctx, trader.Address)
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maxTradeAmount := inputToken.Amount
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if traderAcc.GetCoins().AmountOf(inputToken.Denom).LT(inputToken.Amount) {
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maxTradeAmount = traderAcc.GetCoins().AmountOf(inputToken.Denom)
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}
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// Exact input token is between 2-10% of the max trade amount
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percentage, err := RandIntInclusive(r, sdk.NewInt(2), sdk.NewInt(10))
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if err != nil {
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panic(err)
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}
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tradeAmount := maxTradeAmount.Mul(percentage).Quo(sdk.NewInt(100))
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exactInputToken := sdk.NewCoin(inputToken.Denom, tradeAmount)
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// Calculate expected output coin
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globalSwapFee := k.GetSwapFee(ctx)
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tradeAmountAfterFee := exactInputToken.Amount.ToDec().Mul(sdk.OneDec().Sub(globalSwapFee)).TruncateInt()
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var outputAmt big.Int
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outputAmt.Mul(outputToken.Amount.BigInt(), tradeAmountAfterFee.BigInt())
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outputAmt.Quo(&outputAmt, inputToken.Amount.Add(tradeAmountAfterFee).BigInt())
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expectedOutTokenAmount := sdk.NewIntFromBigInt(&outputAmt)
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expectedOutputToken := sdk.NewCoin(outputToken.Denom, expectedOutTokenAmount)
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// Get random slippage amount between 50-100%
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slippageRaw, err := RandIntInclusive(r, sdk.NewInt(50), sdk.NewInt(99))
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if err != nil {
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panic(err)
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}
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slippage := slippageRaw.ToDec().Quo(sdk.NewDec(100))
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// Generate random deadline
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blockTime := ctx.BlockHeader().Time
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deadline := genRandDeadline(r, blockTime)
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// Construct MsgSwapExactForTokens
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msg := types.NewMsgSwapExactForTokens(traderAcc.GetAddress(), exactInputToken, expectedOutputToken, slippage, deadline)
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err = msg.ValidateBasic()
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if err != nil {
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return noOpMsg, nil, nil
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}
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tx := helpers.GenTx(
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[]sdk.Msg{msg},
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sdk.NewCoins(),
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helpers.DefaultGenTxGas,
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chainID,
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[]uint64{traderAcc.GetAccountNumber()},
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[]uint64{traderAcc.GetSequence()},
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trader.PrivKey,
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)
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_, result, 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, result.Log), nil, nil
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}
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}
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// SimulateMsgSwapForExactTokens generates a MsgSwapForExactTokens
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func SimulateMsgSwapForExactTokens(ak types.AccountKeeper, k keeper.Keeper) 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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poolRecords := k.GetAllPools(ctx)
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r.Shuffle(len(poolRecords), func(i, j int) {
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poolRecords[i], poolRecords[j] = poolRecords[j], poolRecords[i]
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})
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// Find an account-pool pair for which trade is possible
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trader, poolRecord, found := findValidAccountPoolRecordPair(accs, poolRecords, func(acc simulation.Account, poolRecord types.PoolRecord) bool {
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traderAcc := ak.GetAccount(ctx, acc.Address)
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balanceTokenA := traderAcc.GetCoins().AmountOf(poolRecord.ReservesA.Denom)
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balanceTokenB := traderAcc.GetCoins().AmountOf(poolRecord.ReservesB.Denom)
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if !balanceTokenA.IsPositive() || !balanceTokenB.IsPositive() {
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return false
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}
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return true
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})
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if !found {
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return simulation.NewOperationMsgBasic(types.ModuleName, "no-operation (no valid pool record and trader)", "", false, nil), nil, nil
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}
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// Select input token
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randInt, err := RandInt(r, sdk.OneInt(), sdk.NewInt(9))
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if err != nil {
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panic(err)
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}
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inputToken := poolRecord.ReservesA
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outputToken := poolRecord.ReservesB
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if randInt.Int64()%2 == 0 {
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inputToken = poolRecord.ReservesB
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outputToken = poolRecord.ReservesA
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}
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// Select entity (trader account or pool) with smaller token amount
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traderAcc := ak.GetAccount(ctx, trader.Address)
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maxTradeAmount := inputToken.Amount
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if traderAcc.GetCoins().AmountOf(inputToken.Denom).LT(inputToken.Amount) {
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maxTradeAmount = traderAcc.GetCoins().AmountOf(inputToken.Denom)
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}
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// Expected input token is between 2-10% of the max trade amount
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percentage, err := RandIntInclusive(r, sdk.NewInt(2), sdk.NewInt(10))
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if err != nil {
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panic(err)
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}
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tradeAmount := maxTradeAmount.Mul(percentage).Quo(sdk.NewInt(100))
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expectedInputToken := sdk.NewCoin(inputToken.Denom, tradeAmount)
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// Calculate exact output coin
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globalSwapFee := k.GetSwapFee(ctx)
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tradeAmountAfterFee := expectedInputToken.Amount.ToDec().Mul(sdk.OneDec().Sub(globalSwapFee)).TruncateInt()
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var outputAmt big.Int
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outputAmt.Mul(outputToken.Amount.BigInt(), tradeAmountAfterFee.BigInt())
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outputAmt.Quo(&outputAmt, inputToken.Amount.Add(tradeAmountAfterFee).BigInt())
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outputTokenAmount := sdk.NewIntFromBigInt(&outputAmt)
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exactOutputToken := sdk.NewCoin(outputToken.Denom, outputTokenAmount)
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// Get random slippage amount between 50-100%
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slippageRaw, err := RandIntInclusive(r, sdk.NewInt(50), sdk.NewInt(99))
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if err != nil {
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panic(err)
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}
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slippage := slippageRaw.ToDec().Quo(sdk.NewDec(100))
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// Generate random deadline
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blockTime := ctx.BlockHeader().Time
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deadline := genRandDeadline(r, blockTime)
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// Construct MsgSwapForExactTokens
|
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msg := types.NewMsgSwapForExactTokens(traderAcc.GetAddress(), expectedInputToken, exactOutputToken, slippage, deadline)
|
|
err = msg.ValidateBasic()
|
|
if err != nil {
|
|
return noOpMsg, nil, nil
|
|
}
|
|
|
|
tx := helpers.GenTx(
|
|
[]sdk.Msg{msg},
|
|
sdk.NewCoins(),
|
|
helpers.DefaultGenTxGas,
|
|
chainID,
|
|
[]uint64{traderAcc.GetAccountNumber()},
|
|
[]uint64{traderAcc.GetSequence()},
|
|
trader.PrivKey,
|
|
)
|
|
|
|
_, result, err := app.Deliver(tx)
|
|
if err != nil {
|
|
// to aid debugging, add the stack trace to the comment field of the returned opMsg
|
|
return simulation.NewOperationMsg(msg, false, fmt.Sprintf("%+v", err)), nil, err
|
|
}
|
|
return simulation.NewOperationMsg(msg, true, result.Log), nil, nil
|
|
}
|
|
}
|
|
|
|
// From a set of coins return a coin of the specified denom with 1-10% of the total amount
|
|
func randCoinFromCoins(r *rand.Rand, coins sdk.Coins, denom string) sdk.Coin {
|
|
percentOfBalance, err := RandIntInclusive(r, sdk.OneInt(), sdk.NewInt(10))
|
|
if err != nil {
|
|
panic(err)
|
|
}
|
|
balance := coins.AmountOf(denom)
|
|
amtToken := balance.Mul(percentOfBalance).Quo(sdk.NewInt(100))
|
|
return sdk.NewCoin(denom, amtToken)
|
|
}
|
|
|
|
func validateDepositor(ctx sdk.Context, k keeper.Keeper, allowedPool types.AllowedPool,
|
|
depositor authexported.Account, blockTime time.Time) error {
|
|
depositorCoins := depositor.SpendableCoins(blockTime)
|
|
tokenABalance := depositorCoins.AmountOf(allowedPool.TokenA)
|
|
tokenBBalance := depositorCoins.AmountOf(allowedPool.TokenB)
|
|
|
|
oneThousand := sdk.NewInt(1000)
|
|
if tokenABalance.LT(oneThousand) || tokenBBalance.LT(oneThousand) {
|
|
return errorNotEnoughCoins
|
|
}
|
|
|
|
return nil
|
|
}
|
|
|
|
// findValidAccountAllowedPoolPair finds an account for which the callback func returns true
|
|
func findValidAccountAllowedPoolPair(accounts []simulation.Account, pools types.AllowedPools,
|
|
cb func(simulation.Account, types.AllowedPool) bool) (simulation.Account, types.AllowedPool, bool) {
|
|
for _, pool := range pools {
|
|
for _, acc := range accounts {
|
|
if isValid := cb(acc, pool); isValid {
|
|
return acc, pool, true
|
|
}
|
|
}
|
|
}
|
|
return simulation.Account{}, types.AllowedPool{}, false
|
|
}
|
|
|
|
// findValidAccountPoolRecordPair finds an account for which the callback func returns true
|
|
func findValidAccountPoolRecordPair(accounts []simulation.Account, pools types.PoolRecords,
|
|
cb func(simulation.Account, types.PoolRecord) bool) (simulation.Account, types.PoolRecord, bool) {
|
|
for _, pool := range pools {
|
|
for _, acc := range accounts {
|
|
if isValid := cb(acc, pool); isValid {
|
|
return acc, pool, true
|
|
}
|
|
}
|
|
}
|
|
return simulation.Account{}, types.PoolRecord{}, false
|
|
}
|
|
|
|
func genRandDeadline(r *rand.Rand, blockTime time.Time) int64 {
|
|
// Set up deadline
|
|
durationNanoseconds, err := RandIntInclusive(r,
|
|
sdk.NewInt((time.Second * 10).Nanoseconds()), // ten seconds
|
|
sdk.NewInt((time.Hour * 24).Nanoseconds()), // one day
|
|
)
|
|
if err != nil {
|
|
panic(err)
|
|
}
|
|
extraTime := time.Duration(durationNanoseconds.Int64())
|
|
return blockTime.Add(extraTime).Unix()
|
|
}
|
|
|
|
// RandIntInclusive randomly generates an sdk.Int in the range [inclusiveMin, inclusiveMax]. It works for negative and positive integers.
|
|
func RandIntInclusive(r *rand.Rand, inclusiveMin, inclusiveMax sdk.Int) (sdk.Int, error) {
|
|
if inclusiveMin.GT(inclusiveMax) {
|
|
return sdk.Int{}, fmt.Errorf("min larger than max")
|
|
}
|
|
return RandInt(r, inclusiveMin, inclusiveMax.Add(sdk.OneInt()))
|
|
}
|
|
|
|
// RandInt randomly generates an sdk.Int in the range [inclusiveMin, exclusiveMax). It works for negative and positive integers.
|
|
func RandInt(r *rand.Rand, inclusiveMin, exclusiveMax sdk.Int) (sdk.Int, error) {
|
|
// validate input
|
|
if inclusiveMin.GTE(exclusiveMax) {
|
|
return sdk.Int{}, fmt.Errorf("min larger or equal to max")
|
|
}
|
|
// shift the range to start at 0
|
|
shiftedRange := exclusiveMax.Sub(inclusiveMin) // should always be positive given the check above
|
|
// randomly pick from the shifted range
|
|
shiftedRandInt := sdk.NewIntFromBigInt(new(big.Int).Rand(r, shiftedRange.BigInt()))
|
|
// shift back to the original range
|
|
return shiftedRandInt.Add(inclusiveMin), nil
|
|
}
|