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main.go
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// (c) 2019 Dapper Labs - ALL RIGHTS RESERVED
package main
import (
"encoding/json"
"errors"
"fmt"
"os"
"path/filepath"
"time"
"github.com/spf13/pflag"
client "github.com/onflow/flow-go-sdk/access/grpc"
"github.com/onflow/flow-go-sdk/crypto"
"github.com/onflow/flow-go/cmd"
"github.com/onflow/flow-go/cmd/util/cmd/common"
"github.com/onflow/flow-go/consensus"
"github.com/onflow/flow-go/consensus/hotstuff"
"github.com/onflow/flow-go/consensus/hotstuff/blockproducer"
"github.com/onflow/flow-go/consensus/hotstuff/committees"
"github.com/onflow/flow-go/consensus/hotstuff/cruisectl"
"github.com/onflow/flow-go/consensus/hotstuff/notifications"
"github.com/onflow/flow-go/consensus/hotstuff/notifications/pubsub"
"github.com/onflow/flow-go/consensus/hotstuff/pacemaker/timeout"
"github.com/onflow/flow-go/consensus/hotstuff/persister"
hotsignature "github.com/onflow/flow-go/consensus/hotstuff/signature"
"github.com/onflow/flow-go/consensus/hotstuff/timeoutcollector"
"github.com/onflow/flow-go/consensus/hotstuff/verification"
"github.com/onflow/flow-go/consensus/hotstuff/votecollector"
recovery "github.com/onflow/flow-go/consensus/recovery/protocol"
"github.com/onflow/flow-go/engine/common/requester"
synceng "github.com/onflow/flow-go/engine/common/synchronization"
"github.com/onflow/flow-go/engine/consensus/approvals/tracker"
"github.com/onflow/flow-go/engine/consensus/compliance"
dkgeng "github.com/onflow/flow-go/engine/consensus/dkg"
"github.com/onflow/flow-go/engine/consensus/ingestion"
"github.com/onflow/flow-go/engine/consensus/matching"
"github.com/onflow/flow-go/engine/consensus/message_hub"
"github.com/onflow/flow-go/engine/consensus/sealing"
"github.com/onflow/flow-go/fvm/systemcontracts"
"github.com/onflow/flow-go/model/bootstrap"
"github.com/onflow/flow-go/model/encodable"
"github.com/onflow/flow-go/model/flow"
"github.com/onflow/flow-go/model/flow/filter"
"github.com/onflow/flow-go/module"
"github.com/onflow/flow-go/module/buffer"
builder "github.com/onflow/flow-go/module/builder/consensus"
"github.com/onflow/flow-go/module/chainsync"
chmodule "github.com/onflow/flow-go/module/chunks"
dkgmodule "github.com/onflow/flow-go/module/dkg"
"github.com/onflow/flow-go/module/epochs"
finalizer "github.com/onflow/flow-go/module/finalizer/consensus"
"github.com/onflow/flow-go/module/mempool"
consensusMempools "github.com/onflow/flow-go/module/mempool/consensus"
"github.com/onflow/flow-go/module/mempool/stdmap"
"github.com/onflow/flow-go/module/metrics"
msig "github.com/onflow/flow-go/module/signature"
"github.com/onflow/flow-go/module/updatable_configs"
"github.com/onflow/flow-go/module/util"
"github.com/onflow/flow-go/module/validation"
"github.com/onflow/flow-go/network/channels"
"github.com/onflow/flow-go/state/protocol"
badgerState "github.com/onflow/flow-go/state/protocol/badger"
"github.com/onflow/flow-go/state/protocol/blocktimer"
"github.com/onflow/flow-go/state/protocol/events/gadgets"
"github.com/onflow/flow-go/storage"
bstorage "github.com/onflow/flow-go/storage/badger"
"github.com/onflow/flow-go/utils/io"
)
func main() {
var (
guaranteeLimit uint
resultLimit uint
approvalLimit uint
sealLimit uint
pendingReceiptsLimit uint
minInterval time.Duration
maxInterval time.Duration
maxSealPerBlock uint
maxGuaranteePerBlock uint
hotstuffMinTimeout time.Duration
hotstuffTimeoutAdjustmentFactor float64
hotstuffHappyPathMaxRoundFailures uint64
chunkAlpha uint
requiredApprovalsForSealVerification uint
requiredApprovalsForSealConstruction uint
emergencySealing bool
dkgControllerConfig dkgmodule.ControllerConfig
dkgMessagingEngineConfig = dkgeng.DefaultMessagingEngineConfig()
cruiseCtlConfig = cruisectl.DefaultConfig()
cruiseCtlTargetTransitionTimeFlag = cruiseCtlConfig.TargetTransition.String()
cruiseCtlFallbackProposalDurationFlag time.Duration
cruiseCtlMinViewDurationFlag time.Duration
cruiseCtlMaxViewDurationFlag time.Duration
cruiseCtlEnabledFlag bool
startupTimeString string
startupTime time.Time
// DKG contract client
machineAccountInfo *bootstrap.NodeMachineAccountInfo
flowClientConfigs []*common.FlowClientConfig
insecureAccessAPI bool
accessNodeIDS []string
err error
mutableState protocol.ParticipantState
beaconPrivateKey *encodable.RandomBeaconPrivKey
guarantees mempool.Guarantees
receipts mempool.ExecutionTree
seals mempool.IncorporatedResultSeals
pendingReceipts mempool.PendingReceipts
receiptRequester *requester.Engine
syncCore *chainsync.Core
comp *compliance.Engine
hot module.HotStuff
conMetrics module.ConsensusMetrics
mainMetrics module.HotstuffMetrics
receiptValidator module.ReceiptValidator
chunkAssigner *chmodule.ChunkAssigner
followerDistributor *pubsub.FollowerDistributor
dkgBrokerTunnel *dkgmodule.BrokerTunnel
blockTimer protocol.BlockTimer
proposalDurProvider hotstuff.ProposalDurationProvider
committee *committees.Consensus
epochLookup *epochs.EpochLookup
hotstuffModules *consensus.HotstuffModules
dkgState *bstorage.DKGState
safeBeaconKeys *bstorage.SafeBeaconPrivateKeys
getSealingConfigs module.SealingConfigsGetter
)
var deprecatedFlagBlockRateDelay time.Duration
nodeBuilder := cmd.FlowNode(flow.RoleConsensus.String())
nodeBuilder.ExtraFlags(func(flags *pflag.FlagSet) {
flags.UintVar(&guaranteeLimit, "guarantee-limit", 1000, "maximum number of guarantees in the memory pool")
flags.UintVar(&resultLimit, "result-limit", 10000, "maximum number of execution results in the memory pool")
flags.UintVar(&approvalLimit, "approval-limit", 1000, "maximum number of result approvals in the memory pool")
// the default value is able to buffer as many seals as would be generated over ~12 hours. In case it
// ever gets full, the node will simply crash instead of employing complex ejection logic.
flags.UintVar(&sealLimit, "seal-limit", 44200, "maximum number of block seals in the memory pool")
flags.UintVar(&pendingReceiptsLimit, "pending-receipts-limit", 10000, "maximum number of pending receipts in the mempool")
flags.DurationVar(&minInterval, "min-interval", time.Millisecond, "the minimum amount of time between two blocks")
flags.DurationVar(&maxInterval, "max-interval", 90*time.Second, "the maximum amount of time between two blocks")
flags.UintVar(&maxSealPerBlock, "max-seal-per-block", 100, "the maximum number of seals to be included in a block")
flags.UintVar(&maxGuaranteePerBlock, "max-guarantee-per-block", 100, "the maximum number of collection guarantees to be included in a block")
flags.DurationVar(&hotstuffMinTimeout, "hotstuff-min-timeout", 2500*time.Millisecond, "the lower timeout bound for the hotstuff pacemaker, this is also used as initial timeout")
flags.Float64Var(&hotstuffTimeoutAdjustmentFactor, "hotstuff-timeout-adjustment-factor", timeout.DefaultConfig.TimeoutAdjustmentFactor, "adjustment of timeout duration in case of time out event")
flags.Uint64Var(&hotstuffHappyPathMaxRoundFailures, "hotstuff-happy-path-max-round-failures", timeout.DefaultConfig.HappyPathMaxRoundFailures, "number of failed rounds before first timeout increase")
flags.StringVar(&cruiseCtlTargetTransitionTimeFlag, "cruise-ctl-target-epoch-transition-time", cruiseCtlTargetTransitionTimeFlag, "the target epoch switchover schedule")
flags.DurationVar(&cruiseCtlFallbackProposalDurationFlag, "cruise-ctl-fallback-proposal-duration", cruiseCtlConfig.FallbackProposalDelay.Load(), "the proposal duration value to use when the controller is disabled, or in epoch fallback mode. In those modes, this value has the same as the old `--block-rate-delay`")
flags.DurationVar(&cruiseCtlMinViewDurationFlag, "cruise-ctl-min-view-duration", cruiseCtlConfig.MinViewDuration.Load(), "the lower bound of authority for the controller, when active. This is the smallest amount of time a view is allowed to take.")
flags.DurationVar(&cruiseCtlMaxViewDurationFlag, "cruise-ctl-max-view-duration", cruiseCtlConfig.MaxViewDuration.Load(), "the upper bound of authority for the controller when active. This is the largest amount of time a view is allowed to take.")
flags.BoolVar(&cruiseCtlEnabledFlag, "cruise-ctl-enabled", cruiseCtlConfig.Enabled.Load(), "whether the block time controller is enabled; when disabled, the FallbackProposalDelay is used")
flags.UintVar(&chunkAlpha, "chunk-alpha", flow.DefaultChunkAssignmentAlpha, "number of verifiers that should be assigned to each chunk")
flags.UintVar(&requiredApprovalsForSealVerification, "required-verification-seal-approvals", flow.DefaultRequiredApprovalsForSealValidation, "minimum number of approvals that are required to verify a seal")
flags.UintVar(&requiredApprovalsForSealConstruction, "required-construction-seal-approvals", flow.DefaultRequiredApprovalsForSealConstruction, "minimum number of approvals that are required to construct a seal")
flags.BoolVar(&emergencySealing, "emergency-sealing-active", flow.DefaultEmergencySealingActive, "(de)activation of emergency sealing")
flags.BoolVar(&insecureAccessAPI, "insecure-access-api", false, "required if insecure GRPC connection should be used")
flags.StringSliceVar(&accessNodeIDS, "access-node-ids", []string{}, fmt.Sprintf("array of access node IDs sorted in priority order where the first ID in this array will get the first connection attempt and each subsequent ID after serves as a fallback. Minimum length %d. Use '*' for all IDs in protocol state.", common.DefaultAccessNodeIDSMinimum))
flags.DurationVar(&dkgControllerConfig.BaseStartDelay, "dkg-controller-base-start-delay", dkgmodule.DefaultBaseStartDelay, "used to define the range for jitter prior to DKG start (eg. 500µs) - the base value is scaled quadratically with the # of DKG participants")
flags.DurationVar(&dkgControllerConfig.BaseHandleFirstBroadcastDelay, "dkg-controller-base-handle-first-broadcast-delay", dkgmodule.DefaultBaseHandleFirstBroadcastDelay, "used to define the range for jitter prior to DKG handling the first broadcast messages (eg. 50ms) - the base value is scaled quadratically with the # of DKG participants")
flags.DurationVar(&dkgControllerConfig.HandleSubsequentBroadcastDelay, "dkg-controller-handle-subsequent-broadcast-delay", dkgmodule.DefaultHandleSubsequentBroadcastDelay, "used to define the constant delay introduced prior to DKG handling subsequent broadcast messages (eg. 2s)")
flags.DurationVar(&dkgMessagingEngineConfig.RetryBaseWait, "dkg-messaging-engine-retry-base-wait", dkgMessagingEngineConfig.RetryBaseWait, "the inter-attempt wait time for the first attempt (base of exponential retry)")
flags.Uint64Var(&dkgMessagingEngineConfig.RetryMax, "dkg-messaging-engine-retry-max", dkgMessagingEngineConfig.RetryMax, "the maximum number of retry attempts for an outbound DKG message")
flags.Uint64Var(&dkgMessagingEngineConfig.RetryJitterPercent, "dkg-messaging-engine-retry-jitter-percent", dkgMessagingEngineConfig.RetryJitterPercent, "the percentage of jitter to apply to each inter-attempt wait time")
flags.StringVar(&startupTimeString, "hotstuff-startup-time", cmd.NotSet, "specifies date and time (in ISO 8601 format) after which the consensus participant may enter the first view (e.g 1996-04-24T15:04:05-07:00)")
flags.DurationVar(&deprecatedFlagBlockRateDelay, "block-rate-delay", 0, "[deprecated in v0.30; Jun 2023] Use `cruise-ctl-*` flags instead, this flag has no effect and will eventually be removed")
}).ValidateFlags(func() error {
nodeBuilder.Logger.Info().Str("startup_time_str", startupTimeString).Msg("got startup_time_str")
if startupTimeString != cmd.NotSet {
t, err := time.Parse(time.RFC3339, startupTimeString)
if err != nil {
return fmt.Errorf("invalid start-time value: %w", err)
}
startupTime = t
nodeBuilder.Logger.Info().Time("startup_time", startupTime).Msg("got startup_time")
}
// parse target transition time string, if set
if cruiseCtlTargetTransitionTimeFlag != cruiseCtlConfig.TargetTransition.String() {
transitionTime, err := cruisectl.ParseTransition(cruiseCtlTargetTransitionTimeFlag)
if err != nil {
return fmt.Errorf("invalid epoch transition time string: %w", err)
}
cruiseCtlConfig.TargetTransition = *transitionTime
}
// convert local flag variables to atomic config variables, for dynamically updatable fields
if cruiseCtlEnabledFlag != cruiseCtlConfig.Enabled.Load() {
cruiseCtlConfig.Enabled.Store(cruiseCtlEnabledFlag)
}
if cruiseCtlFallbackProposalDurationFlag != cruiseCtlConfig.FallbackProposalDelay.Load() {
cruiseCtlConfig.FallbackProposalDelay.Store(cruiseCtlFallbackProposalDurationFlag)
}
if cruiseCtlMinViewDurationFlag != cruiseCtlConfig.MinViewDuration.Load() {
cruiseCtlConfig.MinViewDuration.Store(cruiseCtlMinViewDurationFlag)
}
if cruiseCtlMaxViewDurationFlag != cruiseCtlConfig.MaxViewDuration.Load() {
cruiseCtlConfig.MaxViewDuration.Store(cruiseCtlMaxViewDurationFlag)
}
// log a warning about deprecated flags
if deprecatedFlagBlockRateDelay > 0 {
nodeBuilder.Logger.Warn().Msg("A deprecated flag was specified (--block-rate-delay). This flag is deprecated as of v0.30 (Jun 2023), has no effect, and will eventually be removed.")
}
return nil
})
if err = nodeBuilder.Initialize(); err != nil {
nodeBuilder.Logger.Fatal().Err(err).Send()
}
nodeBuilder.
PreInit(cmd.DynamicStartPreInit).
ValidateRootSnapshot(badgerState.ValidRootSnapshotContainsEntityExpiryRange).
Module("consensus node metrics", func(node *cmd.NodeConfig) error {
conMetrics = metrics.NewConsensusCollector(node.Tracer, node.MetricsRegisterer)
return nil
}).
Module("dkg state", func(node *cmd.NodeConfig) error {
dkgState, err = bstorage.NewDKGState(node.Metrics.Cache, node.SecretsDB)
return err
}).
Module("beacon keys", func(node *cmd.NodeConfig) error {
safeBeaconKeys = bstorage.NewSafeBeaconPrivateKeys(dkgState)
return nil
}).
Module("updatable sealing config", func(node *cmd.NodeConfig) error {
setter, err := updatable_configs.NewSealingConfigs(
requiredApprovalsForSealConstruction,
requiredApprovalsForSealVerification,
chunkAlpha,
emergencySealing,
)
if err != nil {
return err
}
// update the getter with the setter, so other modules can only get, but not set
getSealingConfigs = setter
// admin tool is the only instance that have access to the setter interface, therefore, is
// the only module can change this config
err = node.ConfigManager.RegisterUintConfig("consensus-required-approvals-for-sealing",
setter.RequireApprovalsForSealConstructionDynamicValue,
setter.SetRequiredApprovalsForSealingConstruction)
return err
}).
Module("mutable follower state", func(node *cmd.NodeConfig) error {
// For now, we only support state implementations from package badger.
// If we ever support different implementations, the following can be replaced by a type-aware factory
state, ok := node.State.(*badgerState.State)
if !ok {
return fmt.Errorf("only implementations of type badger.State are currently supported but read-only state has type %T", node.State)
}
chunkAssigner, err = chmodule.NewChunkAssigner(chunkAlpha, node.State)
if err != nil {
return fmt.Errorf("could not instantiate assignment algorithm for chunk verification: %w", err)
}
receiptValidator = validation.NewReceiptValidator(
node.State,
node.Storage.Headers,
node.Storage.Index,
node.Storage.Results,
node.Storage.Seals)
sealValidator := validation.NewSealValidator(
node.State,
node.Storage.Headers,
node.Storage.Index,
node.Storage.Results,
node.Storage.Seals,
chunkAssigner,
getSealingConfigs,
conMetrics)
blockTimer, err = blocktimer.NewBlockTimer(minInterval, maxInterval)
if err != nil {
return err
}
mutableState, err = badgerState.NewFullConsensusState(
node.Logger,
node.Tracer,
node.ProtocolEvents,
state,
node.Storage.Index,
node.Storage.Payloads,
blockTimer,
receiptValidator,
sealValidator,
)
return err
}).
Module("random beacon key", func(node *cmd.NodeConfig) error {
// If this node was a participant in a spork, their beacon key for the
// first epoch was generated during the bootstrapping process and is
// specified in a private bootstrapping file. We load their key and
// store it in the db for the initial post-spork epoch for use going
// forward.
//
// If this node was not a participant in a spork, they joined at an
// epoch boundary, so they have no beacon key file (they will generate
// their first beacon private key through the DKG in the EpochSetup phase
// prior to their first epoch as network participant).
rootSnapshot := node.State.AtBlockID(node.FinalizedRootBlock.ID())
isSporkRoot, err := protocol.IsSporkRootSnapshot(rootSnapshot)
if err != nil {
return fmt.Errorf("could not check whether root snapshot is spork root: %w", err)
}
if !isSporkRoot {
node.Logger.Info().Msg("node starting from mid-spork snapshot, will not read spork random beacon key file")
return nil
}
// If the node has a beacon key file, then save it to the secrets database
// as the beacon key for the epoch of the root snapshot.
beaconPrivateKey, err = loadBeaconPrivateKey(node.BaseConfig.BootstrapDir, node.NodeID)
if errors.Is(err, os.ErrNotExist) {
return fmt.Errorf("node is starting from spork root snapshot, but does not have spork random beacon key file: %w", err)
}
if err != nil {
return fmt.Errorf("could not load beacon key file: %w", err)
}
rootEpoch := node.State.AtBlockID(node.FinalizedRootBlock.ID()).Epochs().Current()
epochCounter, err := rootEpoch.Counter()
if err != nil {
return fmt.Errorf("could not get root epoch counter: %w", err)
}
// confirm the beacon key file matches the canonical public keys
rootDKG, err := rootEpoch.DKG()
if err != nil {
return fmt.Errorf("could not get dkg for root epoch: %w", err)
}
myBeaconPublicKeyShare, err := rootDKG.KeyShare(node.NodeID)
if err != nil {
return fmt.Errorf("could not get my beacon public key share for root epoch: %w", err)
}
if !myBeaconPublicKeyShare.Equals(beaconPrivateKey.PrivateKey.PublicKey()) {
return fmt.Errorf("configured beacon key is inconsistent with this node's canonical public beacon key (%s!=%s)",
beaconPrivateKey.PrivateKey.PublicKey(),
myBeaconPublicKeyShare)
}
// store my beacon key for the first epoch post-spork
err = dkgState.InsertMyBeaconPrivateKey(epochCounter, beaconPrivateKey.PrivateKey)
if err != nil && !errors.Is(err, storage.ErrAlreadyExists) {
return err
}
// mark the root DKG as successful, so it is considered safe to use the key
err = dkgState.SetDKGEndState(epochCounter, flow.DKGEndStateSuccess)
if err != nil && !errors.Is(err, storage.ErrAlreadyExists) {
return err
}
return nil
}).
Module("collection guarantees mempool", func(node *cmd.NodeConfig) error {
guarantees, err = stdmap.NewGuarantees(guaranteeLimit)
return err
}).
Module("execution receipts mempool", func(node *cmd.NodeConfig) error {
receipts = consensusMempools.NewExecutionTree()
// registers size method of backend for metrics
err = node.Metrics.Mempool.Register(metrics.ResourceReceipt, receipts.Size)
if err != nil {
return fmt.Errorf("could not register backend metric: %w", err)
}
return nil
}).
Module("block seals mempool", func(node *cmd.NodeConfig) error {
// use a custom ejector, so we don't eject seals that would break
// the chain of seals
rawMempool := stdmap.NewIncorporatedResultSeals(sealLimit)
multipleReceiptsFilterMempool := consensusMempools.NewIncorporatedResultSeals(rawMempool, node.Storage.Receipts)
seals, err = consensusMempools.NewExecStateForkSuppressor(
multipleReceiptsFilterMempool,
consensusMempools.LogForkAndCrash(node.Logger),
node.DB,
node.Logger,
)
if err != nil {
return fmt.Errorf("failed to wrap seals mempool into ExecStateForkSuppressor: %w", err)
}
err = node.Metrics.Mempool.Register(metrics.ResourcePendingIncorporatedSeal, seals.Size)
return nil
}).
Module("pending receipts mempool", func(node *cmd.NodeConfig) error {
pendingReceipts = stdmap.NewPendingReceipts(node.Storage.Headers, pendingReceiptsLimit)
return nil
}).
Module("hotstuff main metrics", func(node *cmd.NodeConfig) error {
mainMetrics = metrics.NewHotstuffCollector(node.RootChainID)
return nil
}).
Module("sync core", func(node *cmd.NodeConfig) error {
syncCore, err = chainsync.New(node.Logger, node.SyncCoreConfig, metrics.NewChainSyncCollector(node.RootChainID), node.RootChainID)
return err
}).
Module("follower distributor", func(node *cmd.NodeConfig) error {
followerDistributor = pubsub.NewFollowerDistributor()
return nil
}).
Module("machine account config", func(node *cmd.NodeConfig) error {
machineAccountInfo, err = cmd.LoadNodeMachineAccountInfoFile(node.BootstrapDir, node.NodeID)
return err
}).
Module("sdk client connection options", func(node *cmd.NodeConfig) error {
anIDS, err := common.ValidateAccessNodeIDSFlag(accessNodeIDS, node.RootChainID, node.State.Sealed())
if err != nil {
return fmt.Errorf("failed to validate flag --access-node-ids %w", err)
}
flowClientConfigs, err = common.FlowClientConfigs(anIDS, insecureAccessAPI, node.State.Sealed())
if err != nil {
return fmt.Errorf("failed to prepare flow client connection configs for each access node id %w", err)
}
return nil
}).
Component("machine account config validator", func(node *cmd.NodeConfig) (module.ReadyDoneAware, error) {
// @TODO use fallback logic for flowClient similar to DKG/QC contract clients
flowClient, err := common.FlowClient(flowClientConfigs[0])
if err != nil {
return nil, fmt.Errorf("failed to get flow client connection option for access node (0): %s %w", flowClientConfigs[0].AccessAddress, err)
}
// disable balance checks for transient networks, which do not have transaction fees
var opts []epochs.MachineAccountValidatorConfigOption
if node.RootChainID.Transient() {
opts = append(opts, epochs.WithoutBalanceChecks)
}
validator, err := epochs.NewMachineAccountConfigValidator(
node.Logger,
flowClient,
flow.RoleCollection,
*machineAccountInfo,
opts...,
)
return validator, err
}).
Component("sealing engine", func(node *cmd.NodeConfig) (module.ReadyDoneAware, error) {
sealingTracker := tracker.NewSealingTracker(node.Logger, node.Storage.Headers, node.Storage.Receipts, seals)
e, err := sealing.NewEngine(
node.Logger,
node.Tracer,
conMetrics,
node.Metrics.Engine,
node.Metrics.Mempool,
sealingTracker,
node.EngineRegistry,
node.Me,
node.Storage.Headers,
node.Storage.Payloads,
node.Storage.Results,
node.Storage.Index,
node.State,
node.Storage.Seals,
chunkAssigner,
seals,
getSealingConfigs,
)
// subscribe for finalization events from hotstuff
followerDistributor.AddOnBlockFinalizedConsumer(e.OnFinalizedBlock)
followerDistributor.AddOnBlockIncorporatedConsumer(e.OnBlockIncorporated)
return e, err
}).
Component("matching engine", func(node *cmd.NodeConfig) (module.ReadyDoneAware, error) {
receiptRequester, err = requester.New(
node.Logger,
node.Metrics.Engine,
node.EngineRegistry,
node.Me,
node.State,
channels.RequestReceiptsByBlockID,
filter.HasRole(flow.RoleExecution),
func() flow.Entity { return &flow.ExecutionReceipt{} },
requester.WithRetryInitial(2*time.Second),
requester.WithRetryMaximum(30*time.Second),
)
if err != nil {
return nil, err
}
core := matching.NewCore(
node.Logger,
node.Tracer,
conMetrics,
node.Metrics.Mempool,
node.State,
node.Storage.Headers,
node.Storage.Receipts,
receipts,
pendingReceipts,
seals,
receiptValidator,
receiptRequester,
matching.DefaultConfig(),
)
e, err := matching.NewEngine(
node.Logger,
node.EngineRegistry,
node.Me,
node.Metrics.Engine,
node.Metrics.Mempool,
node.State,
node.Storage.Receipts,
node.Storage.Index,
core,
)
if err != nil {
return nil, err
}
// subscribe engine to inputs from other node-internal components
receiptRequester.WithHandle(e.HandleReceipt)
followerDistributor.AddOnBlockFinalizedConsumer(e.OnFinalizedBlock)
followerDistributor.AddOnBlockIncorporatedConsumer(e.OnBlockIncorporated)
return e, err
}).
Component("ingestion engine", func(node *cmd.NodeConfig) (module.ReadyDoneAware, error) {
core := ingestion.NewCore(
node.Logger,
node.Tracer,
node.Metrics.Mempool,
node.State,
node.Storage.Headers,
guarantees,
)
ing, err := ingestion.New(
node.Logger,
node.Metrics.Engine,
node.EngineRegistry,
node.Me,
core,
)
return ing, err
}).
Component("hotstuff committee", func(node *cmd.NodeConfig) (module.ReadyDoneAware, error) {
committee, err = committees.NewConsensusCommittee(node.State, node.Me.NodeID())
node.ProtocolEvents.AddConsumer(committee)
return committee, err
}).
Component("epoch lookup", func(node *cmd.NodeConfig) (module.ReadyDoneAware, error) {
epochLookup, err = epochs.NewEpochLookup(node.State)
node.ProtocolEvents.AddConsumer(epochLookup)
return epochLookup, err
}).
Component("hotstuff modules", func(node *cmd.NodeConfig) (module.ReadyDoneAware, error) {
// initialize the block finalizer
finalize := finalizer.NewFinalizer(
node.DB,
node.Storage.Headers,
mutableState,
node.Tracer,
finalizer.WithCleanup(finalizer.CleanupMempools(
node.Metrics.Mempool,
conMetrics,
node.Storage.Payloads,
guarantees,
seals,
)),
)
// wrap Main consensus committee with metrics
wrappedCommittee := committees.NewMetricsWrapper(committee, mainMetrics) // wrapper for measuring time spent determining consensus committee relations
beaconKeyStore := hotsignature.NewEpochAwareRandomBeaconKeyStore(epochLookup, safeBeaconKeys)
// initialize the combined signer for hotstuff
var signer hotstuff.Signer
signer = verification.NewCombinedSigner(
node.Me,
beaconKeyStore,
)
signer = verification.NewMetricsWrapper(signer, mainMetrics) // wrapper for measuring time spent with crypto-related operations
// create consensus logger
logger := createLogger(node.Logger, node.RootChainID)
telemetryConsumer := notifications.NewTelemetryConsumer(logger)
slashingViolationConsumer := notifications.NewSlashingViolationsConsumer(nodeBuilder.Logger)
followerDistributor.AddProposalViolationConsumer(slashingViolationConsumer)
// initialize a logging notifier for hotstuff
notifier := createNotifier(
logger,
mainMetrics,
)
notifier.AddParticipantConsumer(telemetryConsumer)
notifier.AddFollowerConsumer(followerDistributor)
// initialize the persister
persist := persister.New(node.DB, node.RootChainID)
finalizedBlock, err := node.State.Final().Head()
if err != nil {
return nil, err
}
forks, err := consensus.NewForks(
finalizedBlock,
node.Storage.Headers,
finalize,
notifier,
node.FinalizedRootBlock.Header,
node.RootQC,
)
if err != nil {
return nil, err
}
// create producer and connect it to consumers
voteAggregationDistributor := pubsub.NewVoteAggregationDistributor()
voteAggregationDistributor.AddVoteCollectorConsumer(telemetryConsumer)
voteAggregationDistributor.AddVoteAggregationViolationConsumer(slashingViolationConsumer)
validator := consensus.NewValidator(mainMetrics, wrappedCommittee)
voteProcessorFactory := votecollector.NewCombinedVoteProcessorFactory(wrappedCommittee, voteAggregationDistributor.OnQcConstructedFromVotes)
lowestViewForVoteProcessing := finalizedBlock.View + 1
voteAggregator, err := consensus.NewVoteAggregator(
logger,
mainMetrics,
node.Metrics.Engine,
node.Metrics.Mempool,
lowestViewForVoteProcessing,
voteAggregationDistributor,
voteProcessorFactory,
followerDistributor)
if err != nil {
return nil, fmt.Errorf("could not initialize vote aggregator: %w", err)
}
// create producer and connect it to consumers
timeoutAggregationDistributor := pubsub.NewTimeoutAggregationDistributor()
timeoutAggregationDistributor.AddTimeoutCollectorConsumer(telemetryConsumer)
timeoutAggregationDistributor.AddTimeoutAggregationViolationConsumer(slashingViolationConsumer)
timeoutProcessorFactory := timeoutcollector.NewTimeoutProcessorFactory(
logger,
timeoutAggregationDistributor,
committee,
validator,
msig.ConsensusTimeoutTag,
)
timeoutAggregator, err := consensus.NewTimeoutAggregator(
logger,
mainMetrics,
node.Metrics.Engine,
node.Metrics.Mempool,
notifier,
timeoutProcessorFactory,
timeoutAggregationDistributor,
lowestViewForVoteProcessing,
)
if err != nil {
return nil, fmt.Errorf("could not initialize timeout aggregator: %w", err)
}
hotstuffModules = &consensus.HotstuffModules{
Notifier: notifier,
Committee: wrappedCommittee,
Signer: signer,
Persist: persist,
VoteCollectorDistributor: voteAggregationDistributor.VoteCollectorDistributor,
TimeoutCollectorDistributor: timeoutAggregationDistributor.TimeoutCollectorDistributor,
Forks: forks,
Validator: validator,
VoteAggregator: voteAggregator,
TimeoutAggregator: timeoutAggregator,
}
return util.MergeReadyDone(voteAggregator, timeoutAggregator), nil
}).
Component("block rate cruise control", func(node *cmd.NodeConfig) (module.ReadyDoneAware, error) {
livenessData, err := hotstuffModules.Persist.GetLivenessData()
if err != nil {
return nil, err
}
ctl, err := cruisectl.NewBlockTimeController(node.Logger, metrics.NewCruiseCtlMetrics(), cruiseCtlConfig, node.State, livenessData.CurrentView)
if err != nil {
return nil, err
}
proposalDurProvider = ctl
hotstuffModules.Notifier.AddOnBlockIncorporatedConsumer(ctl.OnBlockIncorporated)
node.ProtocolEvents.AddConsumer(ctl)
// set up admin commands for dynamically updating configs
err = node.ConfigManager.RegisterBoolConfig("cruise-ctl-enabled", cruiseCtlConfig.GetEnabled, cruiseCtlConfig.SetEnabled)
if err != nil {
return nil, err
}
err = node.ConfigManager.RegisterDurationConfig("cruise-ctl-fallback-proposal-duration", cruiseCtlConfig.GetFallbackProposalDuration, cruiseCtlConfig.SetFallbackProposalDuration)
if err != nil {
return nil, err
}
err = node.ConfigManager.RegisterDurationConfig("cruise-ctl-min-view-duration", cruiseCtlConfig.GetMinViewDuration, cruiseCtlConfig.SetMinViewDuration)
if err != nil {
return nil, err
}
err = node.ConfigManager.RegisterDurationConfig("cruise-ctl-max-view-duration", cruiseCtlConfig.GetMaxViewDuration, cruiseCtlConfig.SetMaxViewDuration)
if err != nil {
return nil, err
}
return ctl, nil
}).
Component("consensus participant", func(node *cmd.NodeConfig) (module.ReadyDoneAware, error) {
// initialize the block builder
var build module.Builder
build, err = builder.NewBuilder(
node.Metrics.Mempool,
node.DB,
mutableState,
node.Storage.Headers,
node.Storage.Seals,
node.Storage.Index,
node.Storage.Blocks,
node.Storage.Results,
node.Storage.Receipts,
guarantees,
seals,
receipts,
node.Tracer,
builder.WithBlockTimer(blockTimer),
builder.WithMaxSealCount(maxSealPerBlock),
builder.WithMaxGuaranteeCount(maxGuaranteePerBlock),
)
if err != nil {
return nil, fmt.Errorf("could not initialized block builder: %w", err)
}
build = blockproducer.NewMetricsWrapper(build, mainMetrics) // wrapper for measuring time spent building block payload component
opts := []consensus.Option{
consensus.WithMinTimeout(hotstuffMinTimeout),
consensus.WithTimeoutAdjustmentFactor(hotstuffTimeoutAdjustmentFactor),
consensus.WithHappyPathMaxRoundFailures(hotstuffHappyPathMaxRoundFailures),
consensus.WithProposalDurationProvider(proposalDurProvider),
}
if !startupTime.IsZero() {
opts = append(opts, consensus.WithStartupTime(startupTime))
}
finalizedBlock, pending, err := recovery.FindLatest(node.State, node.Storage.Headers)
if err != nil {
return nil, err
}
// initialize hotstuff consensus algorithm
hot, err = consensus.NewParticipant(
createLogger(node.Logger, node.RootChainID),
mainMetrics,
node.Metrics.Mempool,
build,
finalizedBlock,
pending,
hotstuffModules,
opts...,
)
if err != nil {
return nil, fmt.Errorf("could not initialize hotstuff engine: %w", err)
}
return hot, nil
}).
Component("consensus compliance engine", func(node *cmd.NodeConfig) (module.ReadyDoneAware, error) {
// initialize the pending blocks cache
proposals := buffer.NewPendingBlocks()
logger := createLogger(node.Logger, node.RootChainID)
complianceCore, err := compliance.NewCore(
logger,
node.Metrics.Engine,
node.Metrics.Mempool,
mainMetrics,
node.Metrics.Compliance,
followerDistributor,
node.Tracer,
node.Storage.Headers,
node.Storage.Payloads,
mutableState,
proposals,
syncCore,
hotstuffModules.Validator,
hot,
hotstuffModules.VoteAggregator,
hotstuffModules.TimeoutAggregator,
node.ComplianceConfig,
)
if err != nil {
return nil, fmt.Errorf("could not initialize compliance core: %w", err)
}
// initialize the compliance engine
comp, err = compliance.NewEngine(
logger,
node.Me,
complianceCore,
)
if err != nil {
return nil, fmt.Errorf("could not initialize compliance engine: %w", err)
}
followerDistributor.AddOnBlockFinalizedConsumer(comp.OnFinalizedBlock)
return comp, nil
}).
Component("consensus message hub", func(node *cmd.NodeConfig) (module.ReadyDoneAware, error) {
messageHub, err := message_hub.NewMessageHub(
createLogger(node.Logger, node.RootChainID),
node.Metrics.Engine,
node.EngineRegistry,
node.Me,
comp,
hot,
hotstuffModules.VoteAggregator,
hotstuffModules.TimeoutAggregator,
node.State,
node.Storage.Payloads,
)
if err != nil {
return nil, fmt.Errorf("could not create consensus message hub: %w", err)
}
hotstuffModules.Notifier.AddConsumer(messageHub)
return messageHub, nil
}).
Component("sync engine", func(node *cmd.NodeConfig) (module.ReadyDoneAware, error) {
spamConfig, err := synceng.NewSpamDetectionConfig()
if err != nil {
return nil, fmt.Errorf("could not initialize spam detection config: %w", err)
}
sync, err := synceng.New(
node.Logger,
node.Metrics.Engine,
node.EngineRegistry,
node.Me,
node.State,
node.Storage.Blocks,
comp,
syncCore,
node.SyncEngineIdentifierProvider,
spamConfig,
)
if err != nil {
return nil, fmt.Errorf("could not initialize synchronization engine: %w", err)
}
followerDistributor.AddFinalizationConsumer(sync)
return sync, nil
}).
Component("receipt requester engine", func(node *cmd.NodeConfig) (module.ReadyDoneAware, error) {
// created with sealing engine
return receiptRequester, nil
}).
Component("DKG messaging engine", func(node *cmd.NodeConfig) (module.ReadyDoneAware, error) {
// brokerTunnel is used to forward messages between the DKG
// messaging engine and the DKG broker/controller
dkgBrokerTunnel = dkgmodule.NewBrokerTunnel()
// messagingEngine is a network engine that is used by nodes to
// exchange private DKG messages
messagingEngine, err := dkgeng.NewMessagingEngine(
node.Logger,
node.EngineRegistry,
node.Me,
dkgBrokerTunnel,
node.Metrics.Mempool,
dkgMessagingEngineConfig,
)
if err != nil {
return nil, fmt.Errorf("could not initialize DKG messaging engine: %w", err)
}
return messagingEngine, nil
}).
Component("DKG reactor engine", func(node *cmd.NodeConfig) (module.ReadyDoneAware, error) {
// the viewsObserver is used by the reactor engine to subscribe to
// new views being finalized
viewsObserver := gadgets.NewViews()
node.ProtocolEvents.AddConsumer(viewsObserver)
// construct DKG contract client
dkgContractClients, err := createDKGContractClients(node, machineAccountInfo, flowClientConfigs)
if err != nil {
return nil, fmt.Errorf("could not create dkg contract client %w", err)
}
// the reactor engine reacts to new views being finalized and drives the
// DKG protocol
reactorEngine := dkgeng.NewReactorEngine(
node.Logger,
node.Me,
node.State,
dkgState,
dkgmodule.NewControllerFactory(
node.Logger,
node.Me,
dkgContractClients,
dkgBrokerTunnel,
dkgControllerConfig,
),
viewsObserver,
)
// reactorEngine consumes the EpochSetupPhaseStarted event
node.ProtocolEvents.AddConsumer(reactorEngine)
return reactorEngine, nil
})
node, err := nodeBuilder.Build()
if err != nil {
nodeBuilder.Logger.Fatal().Err(err).Send()
}
node.Run()
}
func loadBeaconPrivateKey(dir string, myID flow.Identifier) (*encodable.RandomBeaconPrivKey, error) {
path := fmt.Sprintf(bootstrap.PathRandomBeaconPriv, myID)
data, err := io.ReadFile(filepath.Join(dir, path))
if err != nil {
return nil, err
}
var priv encodable.RandomBeaconPrivKey
err = json.Unmarshal(data, &priv)
if err != nil {
return nil, err
}
return &priv, nil
}
// createDKGContractClient creates an dkgContractClient
func createDKGContractClient(node *cmd.NodeConfig, machineAccountInfo *bootstrap.NodeMachineAccountInfo, flowClient *client.Client, anID flow.Identifier) (module.DKGContractClient, error) {
var dkgClient module.DKGContractClient
contracts, err := systemcontracts.SystemContractsForChain(node.RootChainID)
if err != nil {
return nil, err
}
dkgContractAddress := contracts.DKG.Address.Hex()
// construct signer from private key
sk, err := crypto.DecodePrivateKey(machineAccountInfo.SigningAlgorithm, machineAccountInfo.EncodedPrivateKey)
if err != nil {
return nil, fmt.Errorf("could not decode private key from hex: %w", err)
}
txSigner, err := crypto.NewInMemorySigner(sk, machineAccountInfo.HashAlgorithm)
if err != nil {
return nil, fmt.Errorf("could not create in-memory signer: %w", err)
}
// create actual dkg contract client, all flags and machine account info file found
dkgClient = dkgmodule.NewClient(
node.Logger,
flowClient,
anID,
txSigner,
dkgContractAddress,
machineAccountInfo.Address,
machineAccountInfo.KeyIndex,
)
return dkgClient, nil
}
// createDKGContractClients creates an array dkgContractClient that is sorted by retry fallback priority
func createDKGContractClients(node *cmd.NodeConfig, machineAccountInfo *bootstrap.NodeMachineAccountInfo, flowClientOpts []*common.FlowClientConfig) ([]module.DKGContractClient, error) {
dkgClients := make([]module.DKGContractClient, 0)
for _, opt := range flowClientOpts {
flowClient, err := common.FlowClient(opt)
if err != nil {
return nil, fmt.Errorf("failed to create flow client for dkg contract client with options: %s %w", flowClientOpts, err)
}
node.Logger.Info().Msgf("created dkg contract client with opts: %s", opt.String())
dkgClient, err := createDKGContractClient(node, machineAccountInfo, flowClient, opt.AccessNodeID)
if err != nil {
return nil, fmt.Errorf("failed to create dkg contract client with flow client options: %s %w", flowClientOpts, err)
}
dkgClients = append(dkgClients, dkgClient)