/* Package features defines which features are enabled for runtime in order to selectively enable certain features to maintain a stable runtime. The process for implementing new features using this package is as follows: 1. Add a new CMD flag in flags.go, and place it in the proper list(s) var for its client. 2. Add a condition for the flag in the proper Configure function(s) below. 3. Place any "new" behavior in the `if flagEnabled` statement. 4. Place any "previous" behavior in the `else` statement. 5. Ensure any tests using the new feature fail if the flag isn't enabled. 5a. Use the following to enable your flag for tests: cfg := &featureconfig.Flags{ VerifyAttestationSigs: true, } resetCfg := featureconfig.InitWithReset(cfg) defer resetCfg() 6. Add the string for the flags that should be running within E2E to E2EValidatorFlags and E2EBeaconChainFlags. */ package features import ( "sync" "time" "github.com/prysmaticlabs/prysm/v4/cmd" "github.com/prysmaticlabs/prysm/v4/config/params" "github.com/sirupsen/logrus" "github.com/urfave/cli/v2" ) var log = logrus.WithField("prefix", "flags") const enabledFeatureFlag = "Enabled feature flag" const disabledFeatureFlag = "Disabled feature flag" // Flags is a struct to represent which features the client will perform on runtime. type Flags struct { // Feature related flags. RemoteSlasherProtection bool // RemoteSlasherProtection utilizes a beacon node with --slasher mode for validator slashing protection. WriteSSZStateTransitions bool // WriteSSZStateTransitions to tmp directory. DisableReorgLateBlocks bool // DisableReorgLateBlocks disables reorgs of late blocks. WriteWalletPasswordOnWebOnboarding bool // WriteWalletPasswordOnWebOnboarding writes the password to disk after Prysm web signup. EnableDoppelGanger bool // EnableDoppelGanger enables doppelganger protection on startup for the validator. EnableHistoricalSpaceRepresentation bool // EnableHistoricalSpaceRepresentation enables the saving of registry validators in separate buckets to save space EnableBeaconRESTApi bool // EnableBeaconRESTApi enables experimental usage of the beacon REST API by the validator when querying a beacon node // Logging related toggles. DisableGRPCConnectionLogs bool // Disables logging when a new grpc client has connected. EnableFullSSZDataLogging bool // Enables logging for full ssz data on rejected gossip messages // Slasher toggles. DisableBroadcastSlashings bool // DisableBroadcastSlashings disables p2p broadcasting of proposer and attester slashings. // Bug fixes related flags. AttestTimely bool // AttestTimely fixes #8185. It is gated behind a flag to ensure beacon node's fix can safely roll out first. We'll invert this in v1.1.0. EnableSlasher bool // Enable slasher in the beacon node runtime. EnableSlashingProtectionPruning bool // EnableSlashingProtectionPruning for the validator client. SaveFullExecutionPayloads bool // Save full beacon blocks with execution payloads in the database. EnableStartOptimistic bool // EnableStartOptimistic treats every block as optimistic at startup. DisableStakinContractCheck bool // Disables check for deposit contract when proposing blocks EnableVerboseSigVerification bool // EnableVerboseSigVerification specifies whether to verify individual signature if batch verification fails EnableOptionalEngineMethods bool // EnableOptionalEngineMethods specifies whether to activate capella specific engine methods PrepareAllPayloads bool // PrepareAllPayloads informs the engine to prepare a block on every slot. BuildBlockParallel bool // BuildBlockParallel builds beacon block for proposer in parallel. // KeystoreImportDebounceInterval specifies the time duration the validator waits to reload new keys if they have // changed on disk. This feature is for advanced use cases only. KeystoreImportDebounceInterval time.Duration } var featureConfig *Flags var featureConfigLock sync.RWMutex // Get retrieves feature config. func Get() *Flags { featureConfigLock.RLock() defer featureConfigLock.RUnlock() if featureConfig == nil { return &Flags{} } return featureConfig } // Init sets the global config equal to the config that is passed in. func Init(c *Flags) { featureConfigLock.Lock() defer featureConfigLock.Unlock() featureConfig = c } // InitWithReset sets the global config and returns function that is used to reset configuration. func InitWithReset(c *Flags) func() { var prevConfig Flags if featureConfig != nil { prevConfig = *featureConfig } else { prevConfig = Flags{} } resetFunc := func() { Init(&prevConfig) } Init(c) return resetFunc } // configureTestnet sets the config according to specified testnet flag func configureTestnet(ctx *cli.Context) error { if ctx.Bool(PraterTestnet.Name) { log.Warn("Running on the Prater Testnet") if err := params.SetActive(params.PraterConfig().Copy()); err != nil { return err } applyPraterFeatureFlags(ctx) params.UsePraterNetworkConfig() } else if ctx.Bool(SepoliaTestnet.Name) { log.Warn("Running on the Sepolia Beacon Chain Testnet") if err := params.SetActive(params.SepoliaConfig().Copy()); err != nil { return err } applySepoliaFeatureFlags(ctx) params.UseSepoliaNetworkConfig() } else { if ctx.IsSet(cmd.ChainConfigFileFlag.Name) { log.Warn("Running on custom Ethereum network specified in a chain configuration yaml file") } else { log.Warn("Running on Ethereum Mainnet") } if err := params.SetActive(params.MainnetConfig().Copy()); err != nil { return err } } return nil } // Insert feature flags within the function to be enabled for Prater testnet. func applyPraterFeatureFlags(ctx *cli.Context) { } // Insert feature flags within the function to be enabled for Sepolia testnet. func applySepoliaFeatureFlags(ctx *cli.Context) { } // ConfigureBeaconChain sets the global config based // on what flags are enabled for the beacon-chain client. func ConfigureBeaconChain(ctx *cli.Context) error { complainOnDeprecatedFlags(ctx) cfg := &Flags{} if ctx.Bool(devModeFlag.Name) { enableDevModeFlags(ctx) } if err := configureTestnet(ctx); err != nil { return err } if ctx.Bool(writeSSZStateTransitionsFlag.Name) { logEnabled(writeSSZStateTransitionsFlag) cfg.WriteSSZStateTransitions = true } if ctx.IsSet(disableGRPCConnectionLogging.Name) { logDisabled(disableGRPCConnectionLogging) cfg.DisableGRPCConnectionLogs = true } if ctx.Bool(disableReorgLateBlocks.Name) { logEnabled(disableReorgLateBlocks) cfg.DisableReorgLateBlocks = true } if ctx.Bool(disableBroadcastSlashingFlag.Name) { logDisabled(disableBroadcastSlashingFlag) cfg.DisableBroadcastSlashings = true } if ctx.Bool(enableSlasherFlag.Name) { log.WithField(enableSlasherFlag.Name, enableSlasherFlag.Usage).Warn(enabledFeatureFlag) cfg.EnableSlasher = true } if ctx.Bool(enableHistoricalSpaceRepresentation.Name) { log.WithField(enableHistoricalSpaceRepresentation.Name, enableHistoricalSpaceRepresentation.Usage).Warn(enabledFeatureFlag) cfg.EnableHistoricalSpaceRepresentation = true } if ctx.Bool(disableStakinContractCheck.Name) { logEnabled(disableStakinContractCheck) cfg.DisableStakinContractCheck = true } if ctx.Bool(SaveFullExecutionPayloads.Name) { logEnabled(SaveFullExecutionPayloads) cfg.SaveFullExecutionPayloads = true } if ctx.Bool(enableStartupOptimistic.Name) { logEnabled(enableStartupOptimistic) cfg.EnableStartOptimistic = true } if ctx.IsSet(enableFullSSZDataLogging.Name) { logEnabled(enableFullSSZDataLogging) cfg.EnableFullSSZDataLogging = true } if ctx.IsSet(enableVerboseSigVerification.Name) { logEnabled(enableVerboseSigVerification) cfg.EnableVerboseSigVerification = true } if ctx.IsSet(enableOptionalEngineMethods.Name) { logEnabled(enableOptionalEngineMethods) cfg.EnableOptionalEngineMethods = true } if ctx.IsSet(prepareAllPayloads.Name) { logEnabled(prepareAllPayloads) cfg.PrepareAllPayloads = true } if ctx.IsSet(buildBlockParallel.Name) { logEnabled(buildBlockParallel) cfg.BuildBlockParallel = true } Init(cfg) return nil } // ConfigureValidator sets the global config based // on what flags are enabled for the validator client. func ConfigureValidator(ctx *cli.Context) error { complainOnDeprecatedFlags(ctx) cfg := &Flags{} if err := configureTestnet(ctx); err != nil { return err } if ctx.Bool(enableExternalSlasherProtectionFlag.Name) { log.Fatal( "Remote slashing protection has currently been disabled in Prysm due to safety concerns. " + "We appreciate your understanding in our desire to keep Prysm validators safe.", ) } if ctx.Bool(writeWalletPasswordOnWebOnboarding.Name) { logEnabled(writeWalletPasswordOnWebOnboarding) cfg.WriteWalletPasswordOnWebOnboarding = true } if ctx.Bool(attestTimely.Name) { logEnabled(attestTimely) cfg.AttestTimely = true } if ctx.Bool(enableSlashingProtectionPruning.Name) { logEnabled(enableSlashingProtectionPruning) cfg.EnableSlashingProtectionPruning = true } if ctx.Bool(enableDoppelGangerProtection.Name) { logEnabled(enableDoppelGangerProtection) cfg.EnableDoppelGanger = true } if ctx.Bool(EnableBeaconRESTApi.Name) { logEnabled(EnableBeaconRESTApi) cfg.EnableBeaconRESTApi = true } cfg.KeystoreImportDebounceInterval = ctx.Duration(dynamicKeyReloadDebounceInterval.Name) Init(cfg) return nil } // enableDevModeFlags switches development mode features on. func enableDevModeFlags(ctx *cli.Context) { log.Warn("Enabling development mode flags") for _, f := range devModeFlags { log.WithField("flag", f.Names()[0]).Debug("Enabling development mode flag") if !ctx.IsSet(f.Names()[0]) { if err := ctx.Set(f.Names()[0], "true"); err != nil { log.WithError(err).Debug("Error enabling development mode flag") } } } } func complainOnDeprecatedFlags(ctx *cli.Context) { for _, f := range deprecatedFlags { if ctx.IsSet(f.Names()[0]) { log.Errorf("%s is deprecated and has no effect. Do not use this flag, it will be deleted soon.", f.Names()[0]) } } } func logEnabled(flag cli.DocGenerationFlag) { var name string if names := flag.Names(); len(names) > 0 { name = names[0] } log.WithField(name, flag.GetUsage()).Warn(enabledFeatureFlag) } func logDisabled(flag cli.DocGenerationFlag) { var name string if names := flag.Names(); len(names) > 0 { name = names[0] } log.WithField(name, flag.GetUsage()).Warn(disabledFeatureFlag) }