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cosmos-sdk/simapp/sim_test.go

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package simapp
import (
"encoding/json"
"flag"
"fmt"
"io"
"io/ioutil"
"math/rand"
"os"
"testing"
"time"
"github.com/stretchr/testify/require"
abci "github.com/tendermint/tendermint/abci/types"
"github.com/tendermint/tendermint/crypto/secp256k1"
dbm "github.com/tendermint/tendermint/libs/db"
"github.com/tendermint/tendermint/libs/log"
tmtypes "github.com/tendermint/tendermint/types"
"github.com/cosmos/cosmos-sdk/baseapp"
"github.com/cosmos/cosmos-sdk/codec"
sdk "github.com/cosmos/cosmos-sdk/types"
"github.com/cosmos/cosmos-sdk/x/auth"
"github.com/cosmos/cosmos-sdk/x/auth/genaccounts"
authsim "github.com/cosmos/cosmos-sdk/x/auth/simulation"
"github.com/cosmos/cosmos-sdk/x/bank"
distr "github.com/cosmos/cosmos-sdk/x/distribution"
distrsim "github.com/cosmos/cosmos-sdk/x/distribution/simulation"
"github.com/cosmos/cosmos-sdk/x/gov"
govsim "github.com/cosmos/cosmos-sdk/x/gov/simulation"
"github.com/cosmos/cosmos-sdk/x/mint"
paramsim "github.com/cosmos/cosmos-sdk/x/params/simulation"
"github.com/cosmos/cosmos-sdk/x/simulation"
"github.com/cosmos/cosmos-sdk/x/slashing"
slashingsim "github.com/cosmos/cosmos-sdk/x/slashing/simulation"
"github.com/cosmos/cosmos-sdk/x/staking"
stakingsim "github.com/cosmos/cosmos-sdk/x/staking/simulation"
)
var (
genesisFile string
paramsFile string
seed int64
numBlocks int
blockSize int
enabled bool
verbose bool
lean bool
commit bool
period int
onOperation bool // TODO Remove in favor of binary search for invariant violation
)
func init() {
flag.StringVar(&genesisFile, "SimulationGenesis", "", "custom simulation genesis file; cannot be used with params file")
flag.StringVar(&paramsFile, "SimulationParams", "", "custom simulation params file which overrides any random params; cannot be used with genesis")
flag.Int64Var(&seed, "SimulationSeed", 42, "simulation random seed")
flag.IntVar(&numBlocks, "SimulationNumBlocks", 500, "number of blocks")
flag.IntVar(&blockSize, "SimulationBlockSize", 200, "operations per block")
flag.BoolVar(&enabled, "SimulationEnabled", false, "enable the simulation")
flag.BoolVar(&verbose, "SimulationVerbose", false, "verbose log output")
flag.BoolVar(&lean, "SimulationLean", false, "lean simulation log output")
flag.BoolVar(&commit, "SimulationCommit", false, "have the simulation commit")
flag.IntVar(&period, "SimulationPeriod", 1, "run slow invariants only once every period assertions")
flag.BoolVar(&onOperation, "SimulateEveryOperation", false, "run slow invariants every operation")
}
// helper function for populating input for SimulateFromSeed
func getSimulateFromSeedInput(tb testing.TB, w io.Writer, app *SimApp) (
testing.TB, io.Writer, *baseapp.BaseApp, simulation.AppStateFn, int64,
simulation.WeightedOperations, sdk.Invariants, int, int, bool, bool, bool) {
return tb, w, app.BaseApp, appStateFn, seed,
testAndRunTxs(app), invariants(app), numBlocks, blockSize, commit, lean, onOperation
}
func appStateFromGenesisFileFn(
r *rand.Rand, _ []simulation.Account, _ time.Time,
) (json.RawMessage, []simulation.Account, string) {
var genesis tmtypes.GenesisDoc
cdc := MakeCodec()
bytes, err := ioutil.ReadFile(genesisFile)
if err != nil {
panic(err)
}
cdc.MustUnmarshalJSON(bytes, &genesis)
var appState GenesisState
cdc.MustUnmarshalJSON(genesis.AppState, &appState)
accounts := genaccounts.GetGenesisStateFromAppState(cdc, appState)
var newAccs []simulation.Account
for _, acc := range accounts {
// Pick a random private key, since we don't know the actual key
// This should be fine as it's only used for mock Tendermint validators
// and these keys are never actually used to sign by mock Tendermint.
privkeySeed := make([]byte, 15)
r.Read(privkeySeed)
privKey := secp256k1.GenPrivKeySecp256k1(privkeySeed)
newAccs = append(newAccs, simulation.Account{privKey, privKey.PubKey(), acc.Address})
}
return genesis.AppState, newAccs, genesis.ChainID
}
// TODO refactor out random initialization code to the modules
func appStateRandomizedFn(
r *rand.Rand, accs []simulation.Account, genesisTimestamp time.Time, appParams simulation.AppParams,
) (json.RawMessage, []simulation.Account, string) {
cdc := MakeCodec()
genesisState := NewDefaultGenesisState()
var (
amount int64
numInitiallyBonded int64
)
appParams.GetOrGenerate(cdc, StakePerAccount, &amount, r,
func(r *rand.Rand) { amount = int64(r.Intn(1e12)) })
appParams.GetOrGenerate(cdc, InitiallyBondedValidators, &amount, r,
func(r *rand.Rand) { numInitiallyBonded = int64(r.Intn(250)) })
numAccs := int64(len(accs))
if numInitiallyBonded > numAccs {
numInitiallyBonded = numAccs
}
fmt.Printf(
`Selected randomly generated parameters for simulated genesis:
{
stake_per_account: "%v",
initially_bonded_validators: "%v"
}
`, amount, numInitiallyBonded,
)
genGenesisAccounts(cdc, r, accs, genesisTimestamp, amount, numInitiallyBonded, genesisState)
genAuthGenesisState(cdc, r, appParams, genesisState)
genBankGenesisState(cdc, r, appParams, genesisState)
genGovGenesisState(cdc, r, appParams, genesisState)
genMintGenesisState(cdc, r, appParams, genesisState)
genDistrGenesisState(cdc, r, appParams, genesisState)
stakingGen := genStakingGenesisState(cdc, r, accs, amount, numAccs, numInitiallyBonded, appParams, genesisState)
genSlashingGenesisState(cdc, r, stakingGen, appParams, genesisState)
appState, err := MakeCodec().MarshalJSON(genesisState)
if err != nil {
panic(err)
}
return appState, accs, "simulation"
}
func appStateFn(
r *rand.Rand, accs []simulation.Account, genesisTimestamp time.Time,
) (appState json.RawMessage, simAccs []simulation.Account, chainID string) {
cdc := MakeCodec()
switch {
case paramsFile != "" && genesisFile != "":
panic("cannot provide both a genesis file and a params file")
case genesisFile != "":
appState, simAccs, chainID = appStateFromGenesisFileFn(r, accs, genesisTimestamp)
case paramsFile != "":
appParams := make(simulation.AppParams)
bz, err := ioutil.ReadFile(paramsFile)
if err != nil {
panic(err)
}
cdc.MustUnmarshalJSON(bz, &appParams)
appState, simAccs, chainID = appStateRandomizedFn(r, accs, genesisTimestamp, appParams)
default:
appParams := make(simulation.AppParams)
appState, simAccs, chainID = appStateRandomizedFn(r, accs, genesisTimestamp, appParams)
}
return appState, simAccs, chainID
}
func genAuthGenesisState(cdc *codec.Codec, r *rand.Rand, ap simulation.AppParams, genesisState map[string]json.RawMessage) {
authGenesis := auth.NewGenesisState(
nil,
auth.NewParams(
func(r *rand.Rand) uint64 {
var v uint64
ap.GetOrGenerate(cdc, simulation.MaxMemoChars, &v, r,
func(r *rand.Rand) {
v = simulation.ModuleParamSimulator[simulation.MaxMemoChars](r).(uint64)
})
return v
}(r),
func(r *rand.Rand) uint64 {
var v uint64
ap.GetOrGenerate(cdc, simulation.TxSigLimit, &v, r,
func(r *rand.Rand) {
v = simulation.ModuleParamSimulator[simulation.TxSigLimit](r).(uint64)
})
return v
}(r),
func(r *rand.Rand) uint64 {
var v uint64
ap.GetOrGenerate(cdc, simulation.TxSizeCostPerByte, &v, r,
func(r *rand.Rand) {
v = simulation.ModuleParamSimulator[simulation.TxSizeCostPerByte](r).(uint64)
})
return v
}(r),
func(r *rand.Rand) uint64 {
var v uint64
ap.GetOrGenerate(cdc, simulation.SigVerifyCostED25519, &v, r,
func(r *rand.Rand) {
v = simulation.ModuleParamSimulator[simulation.SigVerifyCostED25519](r).(uint64)
})
return v
}(r),
func(r *rand.Rand) uint64 {
var v uint64
ap.GetOrGenerate(cdc, simulation.SigVerifyCostSECP256K1, &v, r,
func(r *rand.Rand) {
v = simulation.ModuleParamSimulator[simulation.SigVerifyCostSECP256K1](r).(uint64)
})
return v
}(r),
),
)
fmt.Printf("Selected randomly generated auth parameters:\n%s\n", codec.MustMarshalJSONIndent(cdc, authGenesis.Params))
genesisState[auth.ModuleName] = cdc.MustMarshalJSON(authGenesis)
}
func genBankGenesisState(cdc *codec.Codec, r *rand.Rand, ap simulation.AppParams, genesisState map[string]json.RawMessage) {
bankGenesis := bank.NewGenesisState(
func(r *rand.Rand) bool {
var v bool
ap.GetOrGenerate(cdc, simulation.SendEnabled, &v, r,
func(r *rand.Rand) {
v = simulation.ModuleParamSimulator[simulation.SendEnabled](r).(bool)
})
return v
}(r),
)
fmt.Printf("Selected randomly generated bank parameters:\n%s\n", codec.MustMarshalJSONIndent(cdc, bankGenesis))
genesisState[bank.ModuleName] = cdc.MustMarshalJSON(bankGenesis)
}
func genGenesisAccounts(
cdc *codec.Codec, r *rand.Rand, accs []simulation.Account,
genesisTimestamp time.Time, amount, numInitiallyBonded int64,
genesisState map[string]json.RawMessage,
) {
var genesisAccounts []genaccounts.GenesisAccount
// randomly generate some genesis accounts
for i, acc := range accs {
coins := sdk.Coins{sdk.NewCoin(sdk.DefaultBondDenom, sdk.NewInt(amount))}
bacc := auth.NewBaseAccountWithAddress(acc.Address)
bacc.SetCoins(coins)
var gacc genaccounts.GenesisAccount
// Only consider making a vesting account once the initial bonded validator
// set is exhausted due to needing to track DelegatedVesting.
if int64(i) > numInitiallyBonded && r.Intn(100) < 50 {
var (
vacc auth.VestingAccount
endTime int64
)
startTime := genesisTimestamp.Unix()
// Allow for some vesting accounts to vest very quickly while others very slowly.
if r.Intn(100) < 50 {
endTime = int64(simulation.RandIntBetween(r, int(startTime), int(startTime+(60*60*24*30))))
} else {
endTime = int64(simulation.RandIntBetween(r, int(startTime), int(startTime+(60*60*12))))
}
if startTime == endTime {
endTime++
}
if r.Intn(100) < 50 {
vacc = auth.NewContinuousVestingAccount(&bacc, startTime, endTime)
} else {
vacc = auth.NewDelayedVestingAccount(&bacc, endTime)
}
var err error
gacc, err = genaccounts.NewGenesisAccountI(vacc)
if err != nil {
panic(err)
}
} else {
gacc = genaccounts.NewGenesisAccount(&bacc)
}
genesisAccounts = append(genesisAccounts, gacc)
}
genesisState[genaccounts.ModuleName] = cdc.MustMarshalJSON(genesisAccounts)
}
func genGovGenesisState(cdc *codec.Codec, r *rand.Rand, ap simulation.AppParams, genesisState map[string]json.RawMessage) {
var vp time.Duration
ap.GetOrGenerate(cdc, simulation.VotingParamsVotingPeriod, &vp, r,
func(r *rand.Rand) {
vp = simulation.ModuleParamSimulator[simulation.VotingParamsVotingPeriod](r).(time.Duration)
})
govGenesis := gov.NewGenesisState(
uint64(r.Intn(100)),
gov.NewDepositParams(
func(r *rand.Rand) sdk.Coins {
var v sdk.Coins
ap.GetOrGenerate(cdc, simulation.DepositParamsMinDeposit, &v, r,
func(r *rand.Rand) {
v = simulation.ModuleParamSimulator[simulation.DepositParamsMinDeposit](r).(sdk.Coins)
})
return v
}(r),
vp,
),
gov.NewVotingParams(vp),
gov.NewTallyParams(
func(r *rand.Rand) sdk.Dec {
var v sdk.Dec
ap.GetOrGenerate(cdc, simulation.TallyParamsQuorum, &v, r,
func(r *rand.Rand) {
v = simulation.ModuleParamSimulator[simulation.TallyParamsQuorum](r).(sdk.Dec)
})
return v
}(r),
func(r *rand.Rand) sdk.Dec {
var v sdk.Dec
ap.GetOrGenerate(cdc, simulation.TallyParamsThreshold, &v, r,
func(r *rand.Rand) {
v = simulation.ModuleParamSimulator[simulation.TallyParamsThreshold](r).(sdk.Dec)
})
return v
}(r),
func(r *rand.Rand) sdk.Dec {
var v sdk.Dec
ap.GetOrGenerate(cdc, simulation.TallyParamsVeto, &v, r,
func(r *rand.Rand) {
v = simulation.ModuleParamSimulator[simulation.TallyParamsVeto](r).(sdk.Dec)
})
return v
}(r),
),
)
fmt.Printf("Selected randomly generated governance parameters:\n%s\n", codec.MustMarshalJSONIndent(cdc, govGenesis))
genesisState[gov.ModuleName] = cdc.MustMarshalJSON(govGenesis)
}
func genMintGenesisState(cdc *codec.Codec, r *rand.Rand, ap simulation.AppParams, genesisState map[string]json.RawMessage) {
mintGenesis := mint.NewGenesisState(
mint.InitialMinter(
func(r *rand.Rand) sdk.Dec {
var v sdk.Dec
ap.GetOrGenerate(cdc, simulation.Inflation, &v, r,
func(r *rand.Rand) {
v = simulation.ModuleParamSimulator[simulation.Inflation](r).(sdk.Dec)
})
return v
}(r),
),
mint.NewParams(
sdk.DefaultBondDenom,
func(r *rand.Rand) sdk.Dec {
var v sdk.Dec
ap.GetOrGenerate(cdc, simulation.InflationRateChange, &v, r,
func(r *rand.Rand) {
v = simulation.ModuleParamSimulator[simulation.InflationRateChange](r).(sdk.Dec)
})
return v
}(r),
func(r *rand.Rand) sdk.Dec {
var v sdk.Dec
ap.GetOrGenerate(cdc, simulation.InflationMax, &v, r,
func(r *rand.Rand) {
v = simulation.ModuleParamSimulator[simulation.InflationMax](r).(sdk.Dec)
})
return v
}(r),
func(r *rand.Rand) sdk.Dec {
var v sdk.Dec
ap.GetOrGenerate(cdc, simulation.InflationMin, &v, r,
func(r *rand.Rand) {
v = simulation.ModuleParamSimulator[simulation.InflationMin](r).(sdk.Dec)
})
return v
}(r),
func(r *rand.Rand) sdk.Dec {
var v sdk.Dec
ap.GetOrGenerate(cdc, simulation.GoalBonded, &v, r,
func(r *rand.Rand) {
v = simulation.ModuleParamSimulator[simulation.GoalBonded](r).(sdk.Dec)
})
return v
}(r),
uint64(60*60*8766/5),
),
)
fmt.Printf("Selected randomly generated minting parameters:\n%s\n", codec.MustMarshalJSONIndent(cdc, mintGenesis.Params))
genesisState[mint.ModuleName] = cdc.MustMarshalJSON(mintGenesis)
}
func genDistrGenesisState(cdc *codec.Codec, r *rand.Rand, ap simulation.AppParams, genesisState map[string]json.RawMessage) {
distrGenesis := distr.GenesisState{
FeePool: distr.InitialFeePool(),
CommunityTax: func(r *rand.Rand) sdk.Dec {
var v sdk.Dec
ap.GetOrGenerate(cdc, simulation.CommunityTax, &v, r,
func(r *rand.Rand) {
v = simulation.ModuleParamSimulator[simulation.CommunityTax](r).(sdk.Dec)
})
return v
}(r),
BaseProposerReward: func(r *rand.Rand) sdk.Dec {
var v sdk.Dec
ap.GetOrGenerate(cdc, simulation.BaseProposerReward, &v, r,
func(r *rand.Rand) {
v = simulation.ModuleParamSimulator[simulation.BaseProposerReward](r).(sdk.Dec)
})
return v
}(r),
BonusProposerReward: func(r *rand.Rand) sdk.Dec {
var v sdk.Dec
ap.GetOrGenerate(cdc, simulation.BonusProposerReward, &v, r,
func(r *rand.Rand) {
v = simulation.ModuleParamSimulator[simulation.BonusProposerReward](r).(sdk.Dec)
})
return v
}(r),
}
fmt.Printf("Selected randomly generated distribution parameters:\n%s\n", codec.MustMarshalJSONIndent(cdc, distrGenesis))
genesisState[distr.ModuleName] = cdc.MustMarshalJSON(distrGenesis)
}
func genSlashingGenesisState(
cdc *codec.Codec, r *rand.Rand, stakingGen staking.GenesisState,
ap simulation.AppParams, genesisState map[string]json.RawMessage,
) {
slashingGenesis := slashing.NewGenesisState(
slashing.NewParams(
stakingGen.Params.UnbondingTime,
func(r *rand.Rand) int64 {
var v int64
ap.GetOrGenerate(cdc, simulation.SignedBlocksWindow, &v, r,
func(r *rand.Rand) {
v = simulation.ModuleParamSimulator[simulation.SignedBlocksWindow](r).(int64)
})
return v
}(r),
func(r *rand.Rand) sdk.Dec {
var v sdk.Dec
ap.GetOrGenerate(cdc, simulation.MinSignedPerWindow, &v, r,
func(r *rand.Rand) {
v = simulation.ModuleParamSimulator[simulation.MinSignedPerWindow](r).(sdk.Dec)
})
return v
}(r),
func(r *rand.Rand) time.Duration {
var v time.Duration
ap.GetOrGenerate(cdc, simulation.DowntimeJailDuration, &v, r,
func(r *rand.Rand) {
v = simulation.ModuleParamSimulator[simulation.DowntimeJailDuration](r).(time.Duration)
})
return v
}(r),
func(r *rand.Rand) sdk.Dec {
var v sdk.Dec
ap.GetOrGenerate(cdc, simulation.SlashFractionDoubleSign, &v, r,
func(r *rand.Rand) {
v = simulation.ModuleParamSimulator[simulation.SlashFractionDoubleSign](r).(sdk.Dec)
})
return v
}(r),
func(r *rand.Rand) sdk.Dec {
var v sdk.Dec
ap.GetOrGenerate(cdc, simulation.SlashFractionDowntime, &v, r,
func(r *rand.Rand) {
v = simulation.ModuleParamSimulator[simulation.SlashFractionDowntime](r).(sdk.Dec)
})
return v
}(r),
),
nil,
nil,
)
fmt.Printf("Selected randomly generated slashing parameters:\n%s\n", codec.MustMarshalJSONIndent(cdc, slashingGenesis.Params))
genesisState[slashing.ModuleName] = cdc.MustMarshalJSON(slashingGenesis)
}
func genStakingGenesisState(
cdc *codec.Codec, r *rand.Rand, accs []simulation.Account, amount, numAccs, numInitiallyBonded int64,
ap simulation.AppParams, genesisState map[string]json.RawMessage,
) staking.GenesisState {
stakingGenesis := staking.NewGenesisState(
staking.InitialPool(),
staking.NewParams(
func(r *rand.Rand) time.Duration {
var v time.Duration
ap.GetOrGenerate(cdc, simulation.UnbondingTime, &v, r,
func(r *rand.Rand) {
v = simulation.ModuleParamSimulator[simulation.UnbondingTime](r).(time.Duration)
})
return v
}(r),
func(r *rand.Rand) uint16 {
var v uint16
ap.GetOrGenerate(cdc, simulation.MaxValidators, &v, r,
func(r *rand.Rand) {
v = simulation.ModuleParamSimulator[simulation.MaxValidators](r).(uint16)
})
return v
}(r),
7,
sdk.DefaultBondDenom,
),
nil,
nil,
)
var (
validators []staking.Validator
delegations []staking.Delegation
)
valAddrs := make([]sdk.ValAddress, numInitiallyBonded)
for i := 0; i < int(numInitiallyBonded); i++ {
valAddr := sdk.ValAddress(accs[i].Address)
valAddrs[i] = valAddr
validator := staking.NewValidator(valAddr, accs[i].PubKey, staking.Description{})
validator.Tokens = sdk.NewInt(amount)
validator.DelegatorShares = sdk.NewDec(amount)
delegation := staking.NewDelegation(accs[i].Address, valAddr, sdk.NewDec(amount))
validators = append(validators, validator)
delegations = append(delegations, delegation)
}
stakingGenesis.Pool.NotBondedTokens = sdk.NewInt((amount * numAccs) + (numInitiallyBonded * amount))
stakingGenesis.Validators = validators
stakingGenesis.Delegations = delegations
fmt.Printf("Selected randomly generated staking parameters:\n%s\n", codec.MustMarshalJSONIndent(cdc, stakingGenesis.Params))
genesisState[staking.ModuleName] = cdc.MustMarshalJSON(stakingGenesis)
return stakingGenesis
}
func testAndRunTxs(app *SimApp) []simulation.WeightedOperation {
cdc := MakeCodec()
ap := make(simulation.AppParams)
if paramsFile != "" {
bz, err := ioutil.ReadFile(paramsFile)
if err != nil {
panic(err)
}
cdc.MustUnmarshalJSON(bz, &ap)
}
return []simulation.WeightedOperation{
{
func(_ *rand.Rand) int {
var v int
ap.GetOrGenerate(cdc, OpWeightDeductFee, &v, nil,
func(_ *rand.Rand) {
v = 5
})
return v
}(nil),
authsim.SimulateDeductFee(app.accountKeeper, app.feeCollectionKeeper),
},
{
func(_ *rand.Rand) int {
var v int
ap.GetOrGenerate(cdc, OpWeightMsgSend, &v, nil,
func(_ *rand.Rand) {
v = 100
})
return v
}(nil),
bank.SimulateMsgSend(app.accountKeeper, app.bankKeeper),
},
{
func(_ *rand.Rand) int {
var v int
ap.GetOrGenerate(cdc, OpWeightSingleInputMsgMultiSend, &v, nil,
func(_ *rand.Rand) {
v = 10
})
return v
}(nil),
bank.SimulateSingleInputMsgMultiSend(app.accountKeeper, app.bankKeeper),
},
{
func(_ *rand.Rand) int {
var v int
ap.GetOrGenerate(cdc, OpWeightMsgSetWithdrawAddress, &v, nil,
func(_ *rand.Rand) {
v = 50
})
return v
}(nil),
distrsim.SimulateMsgSetWithdrawAddress(app.accountKeeper, app.distrKeeper),
},
{
func(_ *rand.Rand) int {
var v int
ap.GetOrGenerate(cdc, OpWeightMsgWithdrawDelegationReward, &v, nil,
func(_ *rand.Rand) {
v = 50
})
return v
}(nil),
distrsim.SimulateMsgWithdrawDelegatorReward(app.accountKeeper, app.distrKeeper),
},
{
func(_ *rand.Rand) int {
var v int
ap.GetOrGenerate(cdc, OpWeightMsgWithdrawValidatorCommission, &v, nil,
func(_ *rand.Rand) {
v = 50
})
return v
}(nil),
distrsim.SimulateMsgWithdrawValidatorCommission(app.accountKeeper, app.distrKeeper),
},
{
func(_ *rand.Rand) int {
var v int
ap.GetOrGenerate(cdc, OpWeightSubmitVotingSlashingTextProposal, &v, nil,
func(_ *rand.Rand) {
v = 5
})
return v
}(nil),
govsim.SimulateSubmittingVotingAndSlashingForProposal(app.govKeeper, govsim.SimulateTextProposalContent),
},
{
func(_ *rand.Rand) int {
var v int
ap.GetOrGenerate(cdc, OpWeightSubmitVotingSlashingCommunitySpendProposal, &v, nil,
func(_ *rand.Rand) {
v = 5
})
return v
}(nil),
govsim.SimulateSubmittingVotingAndSlashingForProposal(app.govKeeper, distrsim.SimulateCommunityPoolSpendProposalContent(app.distrKeeper)),
},
{
func(_ *rand.Rand) int {
var v int
ap.GetOrGenerate(cdc, OpWeightSubmitVotingSlashingParamChangeProposal, &v, nil,
func(_ *rand.Rand) {
v = 5
})
return v
}(nil),
govsim.SimulateSubmittingVotingAndSlashingForProposal(app.govKeeper, paramsim.SimulateParamChangeProposalContent),
},
{
func(_ *rand.Rand) int {
var v int
ap.GetOrGenerate(cdc, OpWeightMsgDeposit, &v, nil,
func(_ *rand.Rand) {
v = 100
})
return v
}(nil),
govsim.SimulateMsgDeposit(app.govKeeper),
},
{
func(_ *rand.Rand) int {
var v int
ap.GetOrGenerate(cdc, OpWeightMsgCreateValidator, &v, nil,
func(_ *rand.Rand) {
v = 100
})
return v
}(nil),
stakingsim.SimulateMsgCreateValidator(app.accountKeeper, app.stakingKeeper),
},
{
func(_ *rand.Rand) int {
var v int
ap.GetOrGenerate(cdc, OpWeightMsgEditValidator, &v, nil,
func(_ *rand.Rand) {
v = 5
})
return v
}(nil),
stakingsim.SimulateMsgEditValidator(app.stakingKeeper),
},
{
func(_ *rand.Rand) int {
var v int
ap.GetOrGenerate(cdc, OpWeightMsgDelegate, &v, nil,
func(_ *rand.Rand) {
v = 100
})
return v
}(nil),
stakingsim.SimulateMsgDelegate(app.accountKeeper, app.stakingKeeper),
},
{
func(_ *rand.Rand) int {
var v int
ap.GetOrGenerate(cdc, OpWeightMsgUndelegate, &v, nil,
func(_ *rand.Rand) {
v = 100
})
return v
}(nil),
stakingsim.SimulateMsgUndelegate(app.accountKeeper, app.stakingKeeper),
},
{
func(_ *rand.Rand) int {
var v int
ap.GetOrGenerate(cdc, OpWeightMsgBeginRedelegate, &v, nil,
func(_ *rand.Rand) {
v = 100
})
return v
}(nil),
stakingsim.SimulateMsgBeginRedelegate(app.accountKeeper, app.stakingKeeper),
},
{
func(_ *rand.Rand) int {
var v int
ap.GetOrGenerate(cdc, OpWeightMsgUnjail, &v, nil,
func(_ *rand.Rand) {
v = 100
})
return v
}(nil),
slashingsim.SimulateMsgUnjail(app.slashingKeeper),
},
}
}
func invariants(app *SimApp) []sdk.Invariant {
return simulation.PeriodicInvariants(app.crisisKeeper.Invariants(), period, 0)
}
// Pass this in as an option to use a dbStoreAdapter instead of an IAVLStore for simulation speed.
func fauxMerkleModeOpt(bapp *baseapp.BaseApp) {
bapp.SetFauxMerkleMode()
}
// Profile with:
// /usr/local/go/bin/go test -benchmem -run=^$ github.com/cosmos/cosmos-sdk/simapp -bench ^BenchmarkFullAppSimulation$ -SimulationCommit=true -cpuprofile cpu.out
func BenchmarkFullAppSimulation(b *testing.B) {
logger := log.NewNopLogger()
var db dbm.DB
dir, _ := ioutil.TempDir("", "goleveldb-app-sim")
db, _ = sdk.NewLevelDB("Simulation", dir)
defer func() {
db.Close()
os.RemoveAll(dir)
}()
app := NewSimApp(logger, db, nil, true, 0)
// Run randomized simulation
// TODO parameterize numbers, save for a later PR
_, err := simulation.SimulateFromSeed(getSimulateFromSeedInput(b, os.Stdout, app))
if err != nil {
fmt.Println(err)
b.Fail()
}
if commit {
fmt.Println("GoLevelDB Stats")
fmt.Println(db.Stats()["leveldb.stats"])
fmt.Println("GoLevelDB cached block size", db.Stats()["leveldb.cachedblock"])
}
}
func TestFullAppSimulation(t *testing.T) {
if !enabled {
t.Skip("Skipping application simulation")
}
var logger log.Logger
if verbose {
logger = log.TestingLogger()
} else {
logger = log.NewNopLogger()
}
var db dbm.DB
dir, _ := ioutil.TempDir("", "goleveldb-app-sim")
db, _ = sdk.NewLevelDB("Simulation", dir)
defer func() {
db.Close()
os.RemoveAll(dir)
}()
app := NewSimApp(logger, db, nil, true, 0, fauxMerkleModeOpt)
require.Equal(t, "SimApp", app.Name())
// Run randomized simulation
_, err := simulation.SimulateFromSeed(getSimulateFromSeedInput(t, os.Stdout, app))
if commit {
// for memdb:
// fmt.Println("Database Size", db.Stats()["database.size"])
fmt.Println("GoLevelDB Stats")
fmt.Println(db.Stats()["leveldb.stats"])
fmt.Println("GoLevelDB cached block size", db.Stats()["leveldb.cachedblock"])
}
require.Nil(t, err)
}
func TestAppImportExport(t *testing.T) {
if !enabled {
t.Skip("Skipping application import/export simulation")
}
var logger log.Logger
if verbose {
logger = log.TestingLogger()
} else {
logger = log.NewNopLogger()
}
var db dbm.DB
dir, _ := ioutil.TempDir("", "goleveldb-app-sim")
db, _ = sdk.NewLevelDB("Simulation", dir)
defer func() {
db.Close()
os.RemoveAll(dir)
}()
app := NewSimApp(logger, db, nil, true, 0, fauxMerkleModeOpt)
require.Equal(t, "SimApp", app.Name())
// Run randomized simulation
_, err := simulation.SimulateFromSeed(getSimulateFromSeedInput(t, os.Stdout, app))
if commit {
// for memdb:
// fmt.Println("Database Size", db.Stats()["database.size"])
fmt.Println("GoLevelDB Stats")
fmt.Println(db.Stats()["leveldb.stats"])
fmt.Println("GoLevelDB cached block size", db.Stats()["leveldb.cachedblock"])
}
require.Nil(t, err)
fmt.Printf("Exporting genesis...\n")
appState, _, err := app.ExportAppStateAndValidators(false, []string{})
require.NoError(t, err)
fmt.Printf("Importing genesis...\n")
newDir, _ := ioutil.TempDir("", "goleveldb-app-sim-2")
newDB, _ := sdk.NewLevelDB("Simulation-2", dir)
defer func() {
newDB.Close()
os.RemoveAll(newDir)
}()
newApp := NewSimApp(log.NewNopLogger(), newDB, nil, true, 0, fauxMerkleModeOpt)
require.Equal(t, "SimApp", newApp.Name())
var genesisState GenesisState
err = app.cdc.UnmarshalJSON(appState, &genesisState)
if err != nil {
panic(err)
}
ctxB := newApp.NewContext(true, abci.Header{})
newApp.mm.InitGenesis(ctxB, genesisState)
fmt.Printf("Comparing stores...\n")
ctxA := app.NewContext(true, abci.Header{})
type StoreKeysPrefixes struct {
A sdk.StoreKey
B sdk.StoreKey
Prefixes [][]byte
}
storeKeysPrefixes := []StoreKeysPrefixes{
{app.keyMain, newApp.keyMain, [][]byte{}},
{app.keyAccount, newApp.keyAccount, [][]byte{}},
{app.keyStaking, newApp.keyStaking, [][]byte{staking.UnbondingQueueKey,
staking.RedelegationQueueKey, staking.ValidatorQueueKey}}, // ordering may change but it doesn't matter
{app.keySlashing, newApp.keySlashing, [][]byte{}},
{app.keyMint, newApp.keyMint, [][]byte{}},
{app.keyDistr, newApp.keyDistr, [][]byte{}},
{app.keyFeeCollection, newApp.keyFeeCollection, [][]byte{}},
{app.keyParams, newApp.keyParams, [][]byte{}},
{app.keyGov, newApp.keyGov, [][]byte{}},
}
for _, storeKeysPrefix := range storeKeysPrefixes {
storeKeyA := storeKeysPrefix.A
storeKeyB := storeKeysPrefix.B
prefixes := storeKeysPrefix.Prefixes
storeA := ctxA.KVStore(storeKeyA)
storeB := ctxB.KVStore(storeKeyB)
kvA, kvB, count, equal := sdk.DiffKVStores(storeA, storeB, prefixes)
fmt.Printf("Compared %d key/value pairs between %s and %s\n", count, storeKeyA, storeKeyB)
require.True(t, equal,
"unequal stores: %s / %s:\nstore A %X => %X\nstore B %X => %X",
storeKeyA, storeKeyB, kvA.Key, kvA.Value, kvB.Key, kvB.Value,
)
}
}
func TestAppSimulationAfterImport(t *testing.T) {
if !enabled {
t.Skip("Skipping application simulation after import")
}
var logger log.Logger
if verbose {
logger = log.TestingLogger()
} else {
logger = log.NewNopLogger()
}
dir, _ := ioutil.TempDir("", "goleveldb-app-sim")
db, _ := sdk.NewLevelDB("Simulation", dir)
defer func() {
db.Close()
os.RemoveAll(dir)
}()
app := NewSimApp(logger, db, nil, true, 0, fauxMerkleModeOpt)
require.Equal(t, "SimApp", app.Name())
// Run randomized simulation
stopEarly, err := simulation.SimulateFromSeed(getSimulateFromSeedInput(t, os.Stdout, app))
if commit {
// for memdb:
// fmt.Println("Database Size", db.Stats()["database.size"])
fmt.Println("GoLevelDB Stats")
fmt.Println(db.Stats()["leveldb.stats"])
fmt.Println("GoLevelDB cached block size", db.Stats()["leveldb.cachedblock"])
}
require.Nil(t, err)
if stopEarly {
// we can't export or import a zero-validator genesis
fmt.Printf("We can't export or import a zero-validator genesis, exiting test...\n")
return
}
fmt.Printf("Exporting genesis...\n")
appState, _, err := app.ExportAppStateAndValidators(true, []string{})
if err != nil {
panic(err)
}
fmt.Printf("Importing genesis...\n")
newDir, _ := ioutil.TempDir("", "goleveldb-app-sim-2")
newDB, _ := sdk.NewLevelDB("Simulation-2", dir)
defer func() {
newDB.Close()
os.RemoveAll(newDir)
}()
newApp := NewSimApp(log.NewNopLogger(), newDB, nil, true, 0, fauxMerkleModeOpt)
require.Equal(t, "SimApp", newApp.Name())
newApp.InitChain(abci.RequestInitChain{
AppStateBytes: appState,
})
// Run randomized simulation on imported app
_, err = simulation.SimulateFromSeed(getSimulateFromSeedInput(t, os.Stdout, newApp))
require.Nil(t, err)
}
// TODO: Make another test for the fuzzer itself, which just has noOp txs
// and doesn't depend on the application.
func TestAppStateDeterminism(t *testing.T) {
if !enabled {
t.Skip("Skipping application simulation")
}
numSeeds := 3
numTimesToRunPerSeed := 5
appHashList := make([]json.RawMessage, numTimesToRunPerSeed)
for i := 0; i < numSeeds; i++ {
seed := rand.Int63()
for j := 0; j < numTimesToRunPerSeed; j++ {
logger := log.NewNopLogger()
db := dbm.NewMemDB()
app := NewSimApp(logger, db, nil, true, 0)
// Run randomized simulation
simulation.SimulateFromSeed(
t, os.Stdout, app.BaseApp, appStateFn, seed,
testAndRunTxs(app),
[]sdk.Invariant{},
50,
100,
true,
false,
false,
)
appHash := app.LastCommitID().Hash
appHashList[j] = appHash
}
for k := 1; k < numTimesToRunPerSeed; k++ {
require.Equal(t, appHashList[0], appHashList[k], "appHash list: %v", appHashList)
}
}
}
func BenchmarkInvariants(b *testing.B) {
logger := log.NewNopLogger()
dir, _ := ioutil.TempDir("", "goleveldb-app-invariant-bench")
db, _ := sdk.NewLevelDB("simulation", dir)
defer func() {
db.Close()
os.RemoveAll(dir)
}()
app := NewSimApp(logger, db, nil, true, 0)
// 2. Run parameterized simulation (w/o invariants)
_, err := simulation.SimulateFromSeed(
b, ioutil.Discard, app.BaseApp, appStateFn, seed, testAndRunTxs(app),
[]sdk.Invariant{}, numBlocks, blockSize, commit, lean, onOperation,
)
if err != nil {
fmt.Println(err)
b.FailNow()
}
ctx := app.NewContext(true, abci.Header{Height: app.LastBlockHeight() + 1})
// 3. Benchmark each invariant separately
//
// NOTE: We use the crisis keeper as it has all the invariants registered with
// their respective metadata which makes it useful for testing/benchmarking.
for _, cr := range app.crisisKeeper.Routes() {
b.Run(fmt.Sprintf("%s/%s", cr.ModuleName, cr.Route), func(b *testing.B) {
if err := cr.Invar(ctx); err != nil {
fmt.Println(err)
b.FailNow()
}
})
}
}
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