simulation

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Published: Nov 18, 2024 License: Apache-2.0 Imports: 38 Imported by: 0

Documentation

Overview

Package simulation implements a full fledged Cosmos SDK application used for executing simulation test suites.

Simulation App

The SimApp type defines an application used for running extensive simulation testing suites. It contains all core modules, including governance, staking, slashing, and distribution.

Simulation is executed with various inputs including the number of blocks to simulate, the block size, whether the app should commit or not, the invariant checking period, and a seed which is used as a source of pseudo-randomness.

In addition to the various inputs, simulation runs mainly in three modes:

1. Completely random where the initial state, module parameters and simulation parameters are pseudo-randomly generated.

2. From a genesis file where the initial state and the module parameters are defined. This mode is helpful for running simulations on a known state such as a live network export where a new (mostly likely breaking) version of the application needs to be tested.

3. From a params file where the initial state is pseudo-randomly generated but the module and simulation parameters can be provided manually. This allows for a more controlled and deterministic simulation setup while allowing the state space to still be pseudo-randomly simulated.

The simulation test suite also supports testing determinism and import/export functionality.

Randomness

Currently, simulation uses a single seed (integer) as a source for a PRNG by which all random operations are executed from. Any call to the PRNG changes all future operations as the internal state of the PRNG is modified. For example, if a new message type is created and needs to be simulated, the new introduced PRNG call will change all subsequent operations.

This may can often be problematic when testing fixes to simulation faults. One current solution to this is to use a params file as mentioned above. In the future the simulation suite is expected to support a series of PRNGs that can be used uniquely per module and simulation component so that they will not effect each others state execution outcome.

Usage

To execute a completely pseudo-random simulation:

 $ go test -mod=readonly cosmossdk.io/simapp \
	-run=TestFullAppSimulation \
	-Enabled=true \
	-NumBlocks=100 \
	-BlockSize=200 \
	-Commit=true \
	-Seed=99 \
	-Period=5 \
	-v -timeout 24h

To execute simulation from a genesis file:

 $ go test -mod=readonly cosmossdk.io/simapp \
 	-run=TestFullAppSimulation \
 	-Enabled=true \
 	-NumBlocks=100 \
 	-BlockSize=200 \
 	-Commit=true \
 	-Seed=99 \
 	-Period=5 \
	-Genesis=/path/to/genesis.json \
 	-v -timeout 24h

To execute simulation from a simulation params file:

 $ go test -mod=readonly cosmossdk.io/simapp \
	-run=TestFullAppSimulation \
	-Enabled=true \
	-NumBlocks=100 \
	-BlockSize=200 \
	-Commit=true \
	-Seed=99 \
	-Period=5 \
	-Params=/path/to/params.json \
	-v -timeout 24h

To export the simulation params to a file at a given block height:

 $ go test -mod=readonly cosmossdk.io/simapp \
 	-run=TestFullAppSimulation \
 	-Enabled=true \
 	-NumBlocks=100 \
 	-BlockSize=200 \
 	-Commit=true \
 	-Seed=99 \
 	-Period=5 \
	-ExportParamsPath=/path/to/params.json \
	-ExportParamsHeight=50 \
	 -v -timeout 24h

To export the simulation app state (i.e genesis) to a file:

 $ go test -mod=readonly cosmossdk.io/simapp \
 	-run=TestFullAppSimulation \
 	-Enabled=true \
 	-NumBlocks=100 \
 	-BlockSize=200 \
 	-Commit=true \
 	-Seed=99 \
 	-Period=5 \
	-ExportStatePath=/path/to/genesis.json \
	 v -timeout 24h

Params

Params that are provided to simulation from a JSON file are used to used to set both module parameters and simulation parameters. See sim_test.go for the full set of parameters that can be provided.

Index

Constants

View Source
const (
	BeginBlockEntryKind = "begin_block"
	EndBlockEntryKind   = "end_block"
	MsgEntryKind        = "msg"
	QueuedMsgEntryKind  = "queued_msg"
)

entry kinds for use within OperationEntry

View Source
const AverageBlockTime = 6 * time.Second
View Source
const SimAppChainID = "osmosis-test"

Variables

View Source
var (
	FlagGenesisFileValue        string
	FlagParamsFileValue         string
	FlagExportParamsPathValue   string
	FlagExportParamsHeightValue int
	FlagExportStatePathValue    string
	FlagExportStatsPathValue    string
	FlagSeedValue               int64
	FlagInitialBlockHeightValue int
	FlagNumBlocksValue          int
	FlagBlockSizeValue          int
	FlagLeanValue               bool
	FlagCommitValue             bool
	FlagOnOperationValue        bool // TODO: Remove in favor of binary search for invariant violation
	FlagAllInvariantsValue      bool
	FlagWriteStatsToDB          bool

	FlagEnabledValue     bool
	FlagVerboseValue     bool
	FlagPeriodValue      uint
	FlagGenesisTimeValue int64
)

List of available flags for the simulator

Functions

func DefaultRandomConsensusParams

func DefaultRandomConsensusParams(r *rand.Rand, appState json.RawMessage, cdc codec.JSONCodec) *tmproto.ConsensusParams

DefaultRandomConsensusParams returns random simulation consensus parameters, it extracts the Evidence from the Staking genesis state.

func GetSimulatorFlags

func GetSimulatorFlags()

GetSimulatorFlags gets the values of all the available simulation flags

func PrintStats

func PrintStats(db cosmosdb.DB)

PrintStats prints the corresponding statistics from the app DB.

func RandomRequestFinalizeBlock

func RandomRequestFinalizeBlock(
	r *rand.Rand,
	params Params,
	validators mockValidators,
	pastTimes []time.Time,
	pastVoteInfos [][]abci.VoteInfo,
	event func(route, op, evResult string),
	blockHeight int64,
	time time.Time,
	proposer []byte,
) *abci.RequestFinalizeBlock

func RandomSimAccounts

func RandomSimAccounts(r *rand.Rand, n int) []simulation.Account

RandomAccounts generates n random accounts

func SimulateFromSeed

func SimulateFromSeed(
	tb testing.TB,
	w io.Writer,
	appCreator simtypes.AppCreator,
	initFunctions InitFunctions,
	config Config,
) (lastCommitId storetypes.CommitID, stopEarly bool, err error)

SimulateFromSeed tests an application by running the provided operations, testing the provided invariants, but using the provided config.Seed. TODO: Inputs should be: * SimManager for module configs * Config file for params * whatever is needed for logging (tb + w rn) OR: * Could be a struct or something with options, to give caller ability to step through / instrument benchmarking if they wanted to, and add a cleanup function.

Types

type AppStateFn

type AppStateFn func(simManager simtypes.ModuleGenesisGenerator, r *rand.Rand, accs []legacysim.Account, config InitializationConfig) (
	appState json.RawMessage, accounts []legacysim.Account, chainId string, genesisTimestamp time.Time,
)

AppStateFn returns the app state json bytes and the genesis accounts

type Config

type Config struct {
	InitializationConfig InitializationConfig
	ExportConfig         ExportConfig
	ExecutionDbConfig    ExecutionDbConfig

	Seed int64 // simulation random seed

	NumBlocks int // number of new blocks to simulate from the initial block height
	BlockSize int // operations per block

	Lean bool // lean simulation log output

	OnOperation   bool // run slow invariants every operation
	AllInvariants bool // print all failed invariants if a broken invariant is found
}

func NewConfigFromFlags

func NewConfigFromFlags() Config

NewConfigFromFlags creates a simulation from the retrieved values of the flags.

func SetupSimulation

func SetupSimulation(tb testing.TB, dirPrefix, dbName string) (cfg Config, db cosmosdb.DB, logger log.Logger, cleanup func(), err error)

SetupSimulation creates the config, db (levelDB), temporary directory and logger for the simulation tests. If `FlagEnabledValue` is false it skips the current test. Returns error on an invalid db instantiation or temp dir creation. nolint: revive

type DummyLogWriter

type DummyLogWriter struct{}

dummy log writer

func (*DummyLogWriter) AddEntry

func (lw *DummyLogWriter) AddEntry(_ OperationEntry)

do nothing

func (*DummyLogWriter) PrintLogs

func (lw *DummyLogWriter) PrintLogs()

do nothing

type EmptyAppOptions

type EmptyAppOptions struct{}

EmptyAppOptions is a stub implementing AppOptions

func (EmptyAppOptions) Get

func (ao EmptyAppOptions) Get(o string) interface{}

Get implements AppOptions

type ExecutionDbConfig

type ExecutionDbConfig struct {
	UseMerkleTree bool // Use merkle tree underneath, vs using a "fake" merkle tree
}

func NewExecutionDbConfigFromFlags

func NewExecutionDbConfigFromFlags() ExecutionDbConfig

type ExportConfig

type ExportConfig = stats.ExportConfig

func NewExportConfigFromFlags

func NewExportConfigFromFlags() ExportConfig

type InitChainFn

type InitChainFn func(simManager simtypes.ModuleGenesisGenerator, r *rand.Rand, accs []legacysim.Account, config InitializationConfig) (
	accounts []legacysim.Account, req abci.RequestInitChain)

type InitFunctions

type InitFunctions struct {
	// Why does this take in Numkeys / why isn't this part of the initial state function / config to decide?
	RandomAccountFn RandomAccountFn
	InitChainFn     InitChainFn
}

TODO: Consider adding consensus parameters / simulator params / tendermint params to this.

func DefaultSimInitFunctions

func DefaultSimInitFunctions(moduleAccountAddresses map[string]bool) InitFunctions

TODO: cleanup args in the future, should ideally just be a slice.

type InitializationConfig

type InitializationConfig struct {
	GenesisFile        string // custom simulation genesis file; cannot be used with params file
	ParamsFile         string // custom simulation params file which overrides any random params; cannot be used with genesis
	InitialBlockHeight int    // initial block to start the simulation
	ChainID            string // chain-id used on the simulation
}

Config for how to initialize the simulator state

func NewInitializationConfigFromFlags

func NewInitializationConfigFromFlags() InitializationConfig

type LogWriter

type LogWriter interface {
	AddEntry(OperationEntry)
	PrintLogs()
}

log writer

func NewLogWriter

func NewLogWriter(tb testing.TB) LogWriter

LogWriter - return a dummy or standard log writer given the testingmode

type OperationEntry

type OperationEntry struct {
	EntryKind string          `json:"entry_kind" yaml:"entry_kind"`
	Height    int64           `json:"height" yaml:"height"`
	Order     int64           `json:"order" yaml:"order"`
	Operation json.RawMessage `json:"operation" yaml:"operation"`
}

OperationEntry - an operation entry for logging (ex. BeginBlock, EndBlock, XxxMsg, etc)

func BeginBlockEntry

func BeginBlockEntry(height int64) OperationEntry

BeginBlockEntry - operation entry for begin block

func EndBlockEntry

func EndBlockEntry(height int64) OperationEntry

EndBlockEntry - operation entry for end block

func MsgEntry

func MsgEntry(height, order int64, opMsg simulation.OperationMsg) OperationEntry

MsgEntry - operation entry for standard msg

func NewOperationEntry

func NewOperationEntry(entry string, height, order int64, op json.RawMessage) OperationEntry

NewOperationEntry creates a new OperationEntry instance

func QueuedMsgEntry

func QueuedMsgEntry(height int64, opMsg simulation.OperationMsg) OperationEntry

QueuedMsgEntry creates an operation entry for a given queued message.

func (OperationEntry) MustMarshal

func (oe OperationEntry) MustMarshal() json.RawMessage

MustMarshal marshals the operation entry, panic on error.

type OperationQueue

type OperationQueue map[int][]simulation.Operation

OperationQueue defines an object for a queue of operations

func NewOperationQueue

func NewOperationQueue() OperationQueue

NewOperationQueue creates a new OperationQueue instance.

type Params

type Params struct {
	// contains filtered or unexported fields
}

Params define the parameters necessary for running the simulations

func RandomParams

func RandomParams(r *rand.Rand) Params

RandomParams returns random simulation parameters

func (Params) BlockSizeTransitionMatrix

func (p Params) BlockSizeTransitionMatrix() simulation.TransitionMatrix

func (Params) EvidenceFraction

func (p Params) EvidenceFraction() float64

func (Params) InitialLivenessWeightings

func (p Params) InitialLivenessWeightings() []int

func (Params) LivenessTransitionMatrix

func (p Params) LivenessTransitionMatrix() simulation.TransitionMatrix

func (Params) NumKeys

func (p Params) NumKeys() int

func (Params) PastEvidenceFraction

func (p Params) PastEvidenceFraction() float64

type RandomAccountFn

type RandomAccountFn func(r *rand.Rand, n int) []legacysim.Account

RandomAccountFn returns a slice of n random simulation accounts

func WrapRandAccFnForResampling

func WrapRandAccFnForResampling(randFn RandomAccountFn, blockList map[string]bool) RandomAccountFn

type StandardLogWriter

type StandardLogWriter struct {
	OpEntries []OperationEntry `json:"op_entries" yaml:"op_entries"`
}

log writer

func (*StandardLogWriter) AddEntry

func (lw *StandardLogWriter) AddEntry(opEntry OperationEntry)

add an entry to the log writer

func (*StandardLogWriter) PrintLogs

func (lw *StandardLogWriter) PrintLogs()

PrintLogs - print the logs to a simulation file

Directories

Path Synopsis
internal

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