0g-chain/x/bep3/simulation/operations.go

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package simulation
import (
"fmt"
"math/rand"
"github.com/cosmos/cosmos-sdk/baseapp"
"github.com/cosmos/cosmos-sdk/codec"
"github.com/cosmos/cosmos-sdk/simapp/helpers"
sdk "github.com/cosmos/cosmos-sdk/types"
"github.com/cosmos/cosmos-sdk/x/simulation"
appparams "github.com/kava-labs/kava/app/params"
"github.com/kava-labs/kava/x/bep3/keeper"
"github.com/kava-labs/kava/x/bep3/types"
)
var (
noOpMsg = simulation.NoOpMsg(types.ModuleName)
randomNumber = []byte{114, 21, 74, 180, 81, 92, 21, 91, 173, 164, 143, 111, 120, 58, 241, 58, 40, 22, 59, 133, 102, 233, 55, 149, 12, 199, 231, 63, 122, 23, 88, 9}
)
// Simulation operation weights constants
const (
OpWeightMsgCreateAtomicSwap = "op_weight_msg_create_atomic_swap"
)
// WeightedOperations returns all the operations from the module with their respective weights
func WeightedOperations(
appParams simulation.AppParams, cdc *codec.Codec, ak types.AccountKeeper, k keeper.Keeper,
) simulation.WeightedOperations {
var weightCreateAtomicSwap int
appParams.GetOrGenerate(cdc, OpWeightMsgCreateAtomicSwap, &weightCreateAtomicSwap, nil,
func(_ *rand.Rand) {
weightCreateAtomicSwap = appparams.DefaultWeightMsgCreateAtomicSwap
},
)
return simulation.WeightedOperations{
simulation.NewWeightedOperation(
weightCreateAtomicSwap,
SimulateMsgCreateAtomicSwap(ak, k),
),
}
}
// SimulateMsgCreateAtomicSwap generates a MsgCreateAtomicSwap with random values
func SimulateMsgCreateAtomicSwap(ak types.AccountKeeper, k keeper.Keeper) simulation.Operation {
return func(
r *rand.Rand, app *baseapp.BaseApp, ctx sdk.Context, accs []simulation.Account, chainID string,
) (simulation.OperationMsg, []simulation.FutureOperation, error) {
// Get asset supplies and shuffle them
assets, found := k.GetAssets(ctx)
if !found {
return noOpMsg, nil, nil
}
r.Shuffle(len(assets), func(i, j int) {
assets[i], assets[j] = assets[j], assets[i]
})
senderOutgoing, selectedAsset, found := findValidAccountAssetPair(accs, assets, func(simAcc simulation.Account, asset types.AssetParam) bool {
supply, found := k.GetAssetSupply(ctx, asset.Denom)
if !found {
return false
}
if supply.CurrentSupply.Amount.IsPositive() {
authAcc := ak.GetAccount(ctx, simAcc.Address)
// deputy cannot be sender of outgoing swap
if authAcc.GetAddress().Equals(asset.DeputyAddress) {
return false
}
// Search for an account that holds coins received by an atomic swap
minAmountPlusFee := asset.MinSwapAmount.Add(asset.FixedFee)
if authAcc.SpendableCoins(ctx.BlockTime()).AmountOf(asset.Denom).GT(minAmountPlusFee) {
return true
}
}
return false
})
var sender simulation.Account
var recipient simulation.Account
var asset types.AssetParam
// If an outgoing swap can be created, it's chosen 50% of the time.
if found && r.Intn(100) < 50 {
deputy, found := simulation.FindAccount(accs, selectedAsset.DeputyAddress)
if !found {
return noOpMsg, nil, nil
}
sender = senderOutgoing
recipient = deputy
asset = selectedAsset
} else {
// if an outgoing swap cannot be created or was not selected, simulate an incoming swap
assets, _ := k.GetAssets(ctx)
asset = assets[r.Intn(len(assets))]
var eligibleAccs []simulation.Account
for _, simAcc := range accs {
// don't allow recipient of incoming swap to be the deputy
if simAcc.Address.Equals(asset.DeputyAddress) {
continue
}
eligibleAccs = append(eligibleAccs, simAcc)
}
recipient, _ = simulation.RandomAcc(r, eligibleAccs)
deputy, found := simulation.FindAccount(accs, asset.DeputyAddress)
if !found {
return noOpMsg, nil, nil
}
sender = deputy
}
recipientOtherChain := simulation.RandStringOfLength(r, 43)
senderOtherChain := simulation.RandStringOfLength(r, 43)
// Use same random number for determinism
timestamp := ctx.BlockTime().Unix()
randomNumberHash := types.CalculateRandomHash(randomNumber, timestamp)
// Check that the sender has coins for fee
senderAcc := ak.GetAccount(ctx, sender.Address)
fees, err := simulation.RandomFees(r, ctx, senderAcc.SpendableCoins(ctx.BlockTime()))
if err != nil {
return simulation.NoOpMsg(types.ModuleName), nil, err
}
// Get maximum valid amount
maximumAmount := senderAcc.SpendableCoins(ctx.BlockTime()).Sub(fees).AmountOf(asset.Denom)
assetSupply, foundAssetSupply := k.GetAssetSupply(ctx, asset.Denom)
if !foundAssetSupply {
return noOpMsg, nil, fmt.Errorf("no asset supply found for %s", asset.Denom)
}
// The maximum amount for outgoing swaps is limited by the asset's current supply
if recipient.Address.Equals(asset.DeputyAddress) {
if maximumAmount.GT(assetSupply.CurrentSupply.Amount.Sub(assetSupply.OutgoingSupply.Amount)) {
maximumAmount = assetSupply.CurrentSupply.Amount.Sub(assetSupply.OutgoingSupply.Amount)
}
} else {
// the maximum amount for incoming swaps in limited by the asset's incoming supply + current supply (rate-limited if applicable) + swap amount being less than the supply limit
var currentRemainingSupply sdkmath.Int
if asset.SupplyLimit.TimeLimited {
currentRemainingSupply = asset.SupplyLimit.Limit.Sub(assetSupply.IncomingSupply.Amount).Sub(assetSupply.TimeLimitedCurrentSupply.Amount)
} else {
currentRemainingSupply = asset.SupplyLimit.Limit.Sub(assetSupply.IncomingSupply.Amount).Sub(assetSupply.CurrentSupply.Amount)
}
if currentRemainingSupply.LT(maximumAmount) {
maximumAmount = currentRemainingSupply
}
}
// The maximum amount for all swaps is limited by the total max limit
if maximumAmount.GT(asset.MaxSwapAmount) {
maximumAmount = asset.MaxSwapAmount
}
// Get an amount of coins between 0.1 and 2% of total coins
amount := maximumAmount.Quo(sdkmath.NewInt(int64(simulation.RandIntBetween(r, 50, 1000))))
minAmountPlusFee := asset.MinSwapAmount.Add(asset.FixedFee)
if amount.LTE(minAmountPlusFee) {
return simulation.NewOperationMsgBasic(types.ModuleName, fmt.Sprintf("no-operation (account funds exhausted for asset %s)", asset.Denom), "", false, nil), nil, nil
}
coins := sdk.NewCoins(sdk.NewCoin(asset.Denom, amount))
// We're assuming that sims are run with -NumBlocks=100
heightSpan := uint64(simulation.RandIntBetween(r, int(asset.MinBlockLock), int(asset.MaxBlockLock)))
msg := types.NewMsgCreateAtomicSwap(
sender.Address, recipient.Address, recipientOtherChain, senderOtherChain,
randomNumberHash, timestamp, coins, heightSpan,
)
tx := helpers.GenTx(
[]sdk.Msg{msg},
fees,
helpers.DefaultGenTxGas,
chainID,
[]uint64{senderAcc.GetAccountNumber()},
[]uint64{senderAcc.GetSequence()},
sender.PrivKey,
)
_, result, err := app.Deliver(tx)
if err != nil {
return simulation.NewOperationMsg(msg, false, fmt.Sprintf("%+v", err)), nil, err
}
// Construct a MsgClaimAtomicSwap or MsgRefundAtomicSwap future operation
var futureOp simulation.FutureOperation
swapID := types.CalculateSwapID(msg.RandomNumberHash, msg.From, msg.SenderOtherChain)
if r.Intn(100) < 50 {
// Claim future operation - choose between next block and the block before height span
executionBlock := uint64(
int(ctx.BlockHeight()+1) + r.Intn(int(heightSpan-1)))
futureOp = simulation.FutureOperation{
BlockHeight: int(executionBlock),
Op: operationClaimAtomicSwap(ak, k, swapID, randomNumber),
}
} else {
// Refund future operation
executionBlock := uint64(ctx.BlockHeight()) + msg.HeightSpan
futureOp = simulation.FutureOperation{
BlockHeight: int(executionBlock),
Op: operationRefundAtomicSwap(ak, k, swapID),
}
}
return simulation.NewOperationMsg(msg, true, result.Log), []simulation.FutureOperation{futureOp}, nil
}
}
func operationClaimAtomicSwap(ak types.AccountKeeper, k keeper.Keeper, swapID []byte, randomNumber []byte) simulation.Operation {
return func(
r *rand.Rand, app *baseapp.BaseApp, ctx sdk.Context, accs []simulation.Account, chainID string,
) (simulation.OperationMsg, []simulation.FutureOperation, error) {
simAccount, _ := simulation.RandomAcc(r, accs)
acc := ak.GetAccount(ctx, simAccount.Address)
swap, found := k.GetAtomicSwap(ctx, swapID)
if !found {
return simulation.NoOpMsg(types.ModuleName), nil, fmt.Errorf("cannot claim: swap with ID %s not found", swapID)
}
// check that asset supply supports claiming (it could have changed due to a param change proposal)
// use CacheContext so changes don't take effect
cacheCtx, _ := ctx.CacheContext()
switch swap.Direction {
case types.Incoming:
err := k.DecrementIncomingAssetSupply(cacheCtx, swap.Amount[0])
if err != nil {
return simulation.NewOperationMsgBasic(types.ModuleName, fmt.Sprintf("no-operation (could not claim - unable to decrement incoming asset supply %s)", swap.Amount[0].Denom), "", false, nil), nil, nil
}
err = k.IncrementCurrentAssetSupply(cacheCtx, swap.Amount[0])
if err != nil {
return simulation.NewOperationMsgBasic(types.ModuleName, fmt.Sprintf("no-operation (could not claim - unable to increment current asset supply %s)", swap.Amount[0].Denom), "", false, nil), nil, nil
}
case types.Outgoing:
err := k.DecrementOutgoingAssetSupply(cacheCtx, swap.Amount[0])
if err != nil {
return simulation.NewOperationMsgBasic(types.ModuleName, fmt.Sprintf("no-operation (could not claim - unable to decrement outgoing asset supply %s)", swap.Amount[0].Denom), "", false, nil), nil, nil
}
err = k.DecrementCurrentAssetSupply(cacheCtx, swap.Amount[0])
if err != nil {
return simulation.NewOperationMsgBasic(types.ModuleName, fmt.Sprintf("no-operation (could not claim - unable to decrement current asset supply %s)", swap.Amount[0].Denom), "", false, nil), nil, nil
}
}
asset, err := k.GetAsset(ctx, swap.Amount[0].Denom)
if err != nil {
return simulation.NewOperationMsgBasic(types.ModuleName, fmt.Sprintf("no-operation (could not claim - asset not found %s)", swap.Amount[0].Denom), "", false, nil), nil, nil
}
supply, found := k.GetAssetSupply(ctx, asset.Denom)
if !found {
return simulation.NewOperationMsgBasic(types.ModuleName, fmt.Sprintf("no-operation (could not claim - asset supply not found %s)", swap.Amount[0].Denom), "", false, nil), nil, nil
}
if asset.SupplyLimit.Limit.LT(supply.CurrentSupply.Amount.Add(swap.Amount[0].Amount)) {
return simulation.NoOpMsg(types.ModuleName), nil, nil
}
msg := types.NewMsgClaimAtomicSwap(acc.GetAddress(), swapID, randomNumber)
fees, err := simulation.RandomFees(r, ctx, acc.SpendableCoins(ctx.BlockTime()))
if err != nil {
return simulation.NoOpMsg(types.ModuleName), nil, err
}
tx := helpers.GenTx(
[]sdk.Msg{msg},
fees,
helpers.DefaultGenTxGas,
chainID,
[]uint64{acc.GetAccountNumber()},
[]uint64{acc.GetSequence()},
simAccount.PrivKey,
)
_, result, err := app.Deliver(tx)
if err != nil {
return simulation.NewOperationMsg(msg, false, fmt.Sprintf("%+v", err)), nil, err
}
return simulation.NewOperationMsg(msg, true, result.Log), nil, nil
}
}
func operationRefundAtomicSwap(ak types.AccountKeeper, k keeper.Keeper, swapID []byte) simulation.Operation {
return func(
r *rand.Rand, app *baseapp.BaseApp, ctx sdk.Context, accs []simulation.Account, chainID string,
) (simulation.OperationMsg, []simulation.FutureOperation, error) {
simAccount, _ := simulation.RandomAcc(r, accs)
acc := ak.GetAccount(ctx, simAccount.Address)
swap, found := k.GetAtomicSwap(ctx, swapID)
if !found {
return simulation.NoOpMsg(types.ModuleName), nil, fmt.Errorf("cannot refund: swap with ID %s not found", swapID)
}
cacheCtx, _ := ctx.CacheContext()
switch swap.Direction {
case types.Incoming:
if err := k.DecrementIncomingAssetSupply(cacheCtx, swap.Amount[0]); err != nil {
return simulation.NewOperationMsgBasic(types.ModuleName, fmt.Sprintf("no-operation (could not refund - unable to decrement incoming asset supply %s)", swap.Amount[0].Denom), "", false, nil), nil, nil
}
case types.Outgoing:
if err := k.DecrementOutgoingAssetSupply(cacheCtx, swap.Amount[0]); err != nil {
return simulation.NewOperationMsgBasic(types.ModuleName, fmt.Sprintf("no-operation (could not refund - unable to decrement outgoing asset supply %s)", swap.Amount[0].Denom), "", false, nil), nil, nil
}
}
msg := types.NewMsgRefundAtomicSwap(acc.GetAddress(), swapID)
fees, err := simulation.RandomFees(r, ctx, acc.SpendableCoins(ctx.BlockTime()))
if err != nil {
return simulation.NoOpMsg(types.ModuleName), nil, err
}
tx := helpers.GenTx(
[]sdk.Msg{msg},
fees,
helpers.DefaultGenTxGas,
chainID,
[]uint64{acc.GetAccountNumber()},
[]uint64{acc.GetSequence()},
simAccount.PrivKey,
)
_, result, err := app.Deliver(tx)
if err != nil {
return simulation.NewOperationMsg(msg, false, fmt.Sprintf("%+v", err)), nil, err
}
return simulation.NewOperationMsg(msg, true, result.Log), nil, nil
}
}
// findValidAccountAssetSupplyPair finds an account for which the callback func returns true
func findValidAccountAssetPair(accounts []simulation.Account, assets types.AssetParams,
cb func(simulation.Account, types.AssetParam) bool,
) (simulation.Account, types.AssetParam, bool) {
for _, asset := range assets {
for _, acc := range accounts {
if isValid := cb(acc, asset); isValid {
return acc, asset, true
}
}
}
return simulation.Account{}, types.AssetParam{}, false
}