ceremonyclient/node/consensus/master/master_clock_consensus_engine.go
2024-10-12 11:55:17 -07:00

507 lines
12 KiB
Go

package master
import (
gcrypto "crypto"
"encoding/hex"
"math/big"
"sync"
"time"
"github.com/iden3/go-iden3-crypto/poseidon"
"github.com/libp2p/go-libp2p/core/peer"
"github.com/pkg/errors"
"go.uber.org/zap"
"source.quilibrium.com/quilibrium/monorepo/node/config"
"source.quilibrium.com/quilibrium/monorepo/node/consensus"
qtime "source.quilibrium.com/quilibrium/monorepo/node/consensus/time"
"source.quilibrium.com/quilibrium/monorepo/node/crypto"
"source.quilibrium.com/quilibrium/monorepo/node/execution"
"source.quilibrium.com/quilibrium/monorepo/node/keys"
"source.quilibrium.com/quilibrium/monorepo/node/p2p"
"source.quilibrium.com/quilibrium/monorepo/node/protobufs"
"source.quilibrium.com/quilibrium/monorepo/node/store"
)
type SyncStatusType int
const (
SyncStatusNotSyncing = iota
SyncStatusAwaitingResponse
SyncStatusSynchronizing
)
type MasterClockConsensusEngine struct {
*protobufs.UnimplementedValidationServiceServer
difficulty uint32
logger *zap.Logger
state consensus.EngineState
pubSub p2p.PubSub
keyManager keys.KeyManager
dataProver crypto.InclusionProver
frameProver crypto.FrameProver
lastFrameReceivedAt time.Time
frameChan chan *protobufs.ClockFrame
executionEngines map[string]execution.ExecutionEngine
filter []byte
input []byte
syncingStatus SyncStatusType
syncingTarget []byte
engineMx sync.Mutex
seenFramesMx sync.Mutex
historicFramesMx sync.Mutex
seenFrames []*protobufs.ClockFrame
historicFrames []*protobufs.ClockFrame
clockStore store.ClockStore
masterTimeReel *qtime.MasterTimeReel
peerInfoManager p2p.PeerInfoManager
report *protobufs.SelfTestReport
frameValidationCh chan *protobufs.ClockFrame
beacon peer.ID
currentReceivingSyncPeers int
currentReceivingSyncPeersMx sync.Mutex
collectedProverSlots []*protobufs.InclusionAggregateProof
collectedProverSlotsMx sync.Mutex
engineConfig *config.EngineConfig
}
var _ consensus.ConsensusEngine = (*MasterClockConsensusEngine)(nil)
var MASTER_CLOCK_RATE = uint32(10000000)
func NewMasterClockConsensusEngine(
engineConfig *config.EngineConfig,
logger *zap.Logger,
clockStore store.ClockStore,
keyManager keys.KeyManager,
pubSub p2p.PubSub,
dataProver crypto.InclusionProver,
frameProver crypto.FrameProver,
masterTimeReel *qtime.MasterTimeReel,
peerInfoManager p2p.PeerInfoManager,
report *protobufs.SelfTestReport,
) *MasterClockConsensusEngine {
if logger == nil {
panic(errors.New("logger is nil"))
}
if engineConfig == nil {
panic(errors.New("engine config is nil"))
}
if keyManager == nil {
panic(errors.New("key manager is nil"))
}
if pubSub == nil {
panic(errors.New("pubsub is nil"))
}
if dataProver == nil {
panic(errors.New("data prover is nil"))
}
if frameProver == nil {
panic(errors.New("frame prover is nil"))
}
if masterTimeReel == nil {
panic(errors.New("master time reel is nil"))
}
seed, err := hex.DecodeString(engineConfig.GenesisSeed)
if err != nil {
panic(errors.New("genesis seed is nil"))
}
e := &MasterClockConsensusEngine{
difficulty: MASTER_CLOCK_RATE,
logger: logger,
state: consensus.EngineStateStopped,
keyManager: keyManager,
pubSub: pubSub,
executionEngines: map[string]execution.ExecutionEngine{},
frameChan: make(chan *protobufs.ClockFrame),
input: seed,
lastFrameReceivedAt: time.Time{},
syncingStatus: SyncStatusNotSyncing,
clockStore: clockStore,
dataProver: dataProver,
frameProver: frameProver,
masterTimeReel: masterTimeReel,
peerInfoManager: peerInfoManager,
report: report,
frameValidationCh: make(chan *protobufs.ClockFrame),
collectedProverSlots: []*protobufs.InclusionAggregateProof{},
engineConfig: engineConfig,
}
e.addPeerManifestReport(e.pubSub.GetPeerID(), report)
if e.filter, err = hex.DecodeString(
"0000000000000000000000000000000000000000000000000000000000000000",
); err != nil {
panic(errors.Wrap(err, "could not parse filter value"))
}
e.getProvingKey(engineConfig)
if err := e.createCommunicationKeys(); err != nil {
panic(err)
}
logger.Info("constructing consensus engine")
return e
}
func (e *MasterClockConsensusEngine) Start() <-chan error {
e.logger.Info("starting master consensus engine")
e.state = consensus.EngineStateStarting
errChan := make(chan error)
e.peerInfoManager.Start()
e.state = consensus.EngineStateLoading
e.logger.Info("syncing last seen state")
var genesis *config.SignedGenesisUnlock
var err error
for {
genesis, err := config.DownloadAndVerifyGenesis()
if err != nil {
time.Sleep(10 * time.Minute)
continue
}
e.engineConfig.GenesisSeed = genesis.GenesisSeedHex
break
}
err = e.masterTimeReel.Start()
if err != nil {
panic(err)
}
e.beacon, err = peer.IDFromBytes(genesis.Beacon)
if err != nil {
panic(err)
}
frame, err := e.masterTimeReel.Head()
if err != nil {
panic(err)
}
e.buildHistoricFrameCache(frame)
go func() {
for {
select {
case newFrame := <-e.frameValidationCh:
head, err := e.masterTimeReel.Head()
if err != nil {
panic(err)
}
if head.FrameNumber > newFrame.FrameNumber ||
newFrame.FrameNumber-head.FrameNumber > 128 {
e.logger.Debug(
"frame out of range, ignoring",
zap.Uint64("number", newFrame.FrameNumber),
)
continue
}
if err := e.frameProver.VerifyMasterClockFrame(newFrame); err != nil {
e.logger.Error("could not verify clock frame", zap.Error(err))
continue
}
e.masterTimeReel.Insert(newFrame, false)
}
}
}()
e.logger.Info("subscribing to pubsub messages")
e.pubSub.Subscribe(e.filter, e.handleMessage)
e.state = consensus.EngineStateCollecting
go func() {
for {
e.logger.Info(
"peers in store",
zap.Int("peer_store_count", e.pubSub.GetPeerstoreCount()),
zap.Int("network_peer_count", e.pubSub.GetNetworkPeersCount()),
)
time.Sleep(10 * time.Second)
}
}()
go func() {
for e.state < consensus.EngineStateStopping {
frame, err := e.masterTimeReel.Head()
if err != nil {
panic(err)
}
if frame, err = e.prove(frame); err != nil {
e.logger.Error("could not prove", zap.Error(err))
continue
}
if err = e.publishProof(frame); err != nil {
e.logger.Error("could not publish", zap.Error(err))
}
}
}()
go func() {
errChan <- nil
}()
return errChan
}
func (e *MasterClockConsensusEngine) Stop(force bool) <-chan error {
e.logger.Info("stopping consensus engine")
e.state = consensus.EngineStateStopping
errChan := make(chan error)
wg := sync.WaitGroup{}
wg.Add(len(e.executionEngines))
for name := range e.executionEngines {
name := name
go func(name string) {
frame, err := e.masterTimeReel.Head()
if err != nil {
errChan <- err
return
}
err = <-e.UnregisterExecutor(name, frame.FrameNumber, force)
if err != nil {
errChan <- err
}
wg.Done()
}(name)
}
e.logger.Info("waiting for execution engines to stop")
wg.Wait()
e.logger.Info("execution engines stopped")
e.masterTimeReel.Stop()
e.peerInfoManager.Stop()
e.state = consensus.EngineStateStopped
go func() {
errChan <- nil
}()
return errChan
}
func (
e *MasterClockConsensusEngine,
) GetPeerManifests() *protobufs.PeerManifestsResponse {
response := &protobufs.PeerManifestsResponse{
PeerManifests: []*protobufs.PeerManifest{},
}
peerMap := e.peerInfoManager.GetPeerMap()
for peerId, peerManifest := range peerMap {
peerId := peerId
peerManifest := peerManifest
manifest := &protobufs.PeerManifest{
PeerId: []byte(peerId),
Cores: peerManifest.Cores,
Memory: new(big.Int).SetBytes(peerManifest.Memory).Bytes(),
Storage: new(big.Int).SetBytes(peerManifest.Storage).Bytes(),
MasterHeadFrame: peerManifest.MasterHeadFrame,
LastSeen: peerManifest.LastSeen,
}
for _, capability := range peerManifest.Capabilities {
metadata := make([]byte, len(capability.AdditionalMetadata))
copy(metadata[:], capability.AdditionalMetadata[:])
manifest.Capabilities = append(
manifest.Capabilities,
&protobufs.Capability{
ProtocolIdentifier: capability.ProtocolIdentifier,
AdditionalMetadata: metadata,
},
)
}
response.PeerManifests = append(
response.PeerManifests,
manifest,
)
}
return response
}
func (e *MasterClockConsensusEngine) GetDifficulty() uint32 {
return e.difficulty
}
func (e *MasterClockConsensusEngine) GetFrame() *protobufs.ClockFrame {
frame, err := e.masterTimeReel.Head()
if err != nil {
panic(err)
}
return frame
}
func (e *MasterClockConsensusEngine) GetState() consensus.EngineState {
return e.state
}
func (
e *MasterClockConsensusEngine,
) GetFrameChannel() <-chan *protobufs.ClockFrame {
return e.frameChan
}
func (e *MasterClockConsensusEngine) buildHistoricFrameCache(
latestFrame *protobufs.ClockFrame,
) {
e.historicFrames = []*protobufs.ClockFrame{}
if latestFrame.FrameNumber != 0 {
min := uint64(0)
if latestFrame.FrameNumber-255 > min && latestFrame.FrameNumber > 255 {
min = latestFrame.FrameNumber - 255
}
iter, err := e.clockStore.RangeMasterClockFrames(
e.filter,
min,
latestFrame.FrameNumber-1,
)
if err != nil {
panic(err)
}
for iter.First(); iter.Valid(); iter.Next() {
frame, err := iter.Value()
if err != nil {
panic(err)
}
e.historicFrames = append(e.historicFrames, frame)
}
if err = iter.Close(); err != nil {
panic(err)
}
}
e.historicFrames = append(e.historicFrames, latestFrame)
}
func (e *MasterClockConsensusEngine) addPeerManifestReport(
peerId []byte,
report *protobufs.SelfTestReport,
) {
manifest := &p2p.PeerManifest{
PeerId: peerId,
Cores: report.Cores,
Memory: report.Memory,
Storage: report.Storage,
Capabilities: []p2p.Capability{},
MasterHeadFrame: report.MasterHeadFrame,
LastSeen: time.Now().UnixMilli(),
}
for _, capability := range manifest.Capabilities {
metadata := make([]byte, len(capability.AdditionalMetadata))
copy(metadata[:], capability.AdditionalMetadata[:])
manifest.Capabilities = append(
manifest.Capabilities,
p2p.Capability{
ProtocolIdentifier: capability.ProtocolIdentifier,
AdditionalMetadata: metadata,
},
)
}
e.peerInfoManager.AddPeerInfo(manifest)
}
func (e *MasterClockConsensusEngine) getProvingKey(
engineConfig *config.EngineConfig,
) (gcrypto.Signer, keys.KeyType, []byte, []byte) {
provingKey, err := e.keyManager.GetSigningKey(engineConfig.ProvingKeyId)
if errors.Is(err, keys.KeyNotFoundErr) {
e.logger.Info("could not get proving key, generating")
provingKey, err = e.keyManager.CreateSigningKey(
engineConfig.ProvingKeyId,
keys.KeyTypeEd448,
)
}
if err != nil {
e.logger.Error("could not get proving key", zap.Error(err))
panic(err)
}
rawKey, err := e.keyManager.GetRawKey(engineConfig.ProvingKeyId)
if err != nil {
e.logger.Error("could not get proving key type", zap.Error(err))
panic(err)
}
provingKeyType := rawKey.Type
h, err := poseidon.HashBytes(rawKey.PublicKey)
if err != nil {
e.logger.Error("could not hash proving key", zap.Error(err))
panic(err)
}
provingKeyAddress := h.Bytes()
provingKeyAddress = append(
make([]byte, 32-len(provingKeyAddress)),
provingKeyAddress...,
)
return provingKey, provingKeyType, rawKey.PublicKey, provingKeyAddress
}
func (e *MasterClockConsensusEngine) createCommunicationKeys() error {
_, err := e.keyManager.GetAgreementKey("q-ratchet-idk")
if err != nil {
if errors.Is(err, keys.KeyNotFoundErr) {
_, err = e.keyManager.CreateAgreementKey(
"q-ratchet-idk",
keys.KeyTypeX448,
)
if err != nil {
return errors.Wrap(err, "create communication keys")
}
} else {
return errors.Wrap(err, "create communication keys")
}
}
_, err = e.keyManager.GetAgreementKey("q-ratchet-spk")
if err != nil {
if errors.Is(err, keys.KeyNotFoundErr) {
_, err = e.keyManager.CreateAgreementKey(
"q-ratchet-spk",
keys.KeyTypeX448,
)
if err != nil {
return errors.Wrap(err, "create communication keys")
}
} else {
return errors.Wrap(err, "create communication keys")
}
}
return nil
}