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oracle.go
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oracle.go
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package eligibility
import (
"bytes"
"context"
"encoding/binary"
"errors"
"fmt"
"sync"
lru "github.com/hashicorp/golang-lru"
"github.com/spacemeshos/fixed"
"github.com/spacemeshos/go-spacemesh/common/types"
"github.com/spacemeshos/go-spacemesh/hare/eligibility/config"
"github.com/spacemeshos/go-spacemesh/log"
"github.com/spacemeshos/go-spacemesh/mesh"
"github.com/spacemeshos/go-spacemesh/signing"
"github.com/spacemeshos/go-spacemesh/system"
)
//go:generate mockgen -package=mocks -destination=./mocks/mocks.go -source=./oracle.go
const (
vrfMsgCacheSize = 20 // numRounds per layer is <= 2. numConcurrentLayers<=10 (typically <=2) so numRounds*numConcurrentLayers <= 2*10 = 20 is a good upper bound
activesCacheSize = 5 // we don't expect to handle more than two layers concurrently
maxSupportedN = 1073741824 // higher values result in an overflow
)
var (
errZeroCommitteeSize = errors.New("zero committee size")
errEmptyActiveSet = errors.New("empty active set")
errZeroTotalWeight = errors.New("zero total weight")
)
type cache interface {
Add(key, value interface{}) (evicted bool)
Get(key interface{}) (value interface{}, ok bool)
}
type atxProvider interface {
// GetEpochAtxs is used to get the tortoise active set for an epoch
GetEpochAtxs(types.EpochID) ([]types.ATXID, error)
// GetAtxHeader returns the ATX header for an ATX ID
GetAtxHeader(types.ATXID) (*types.ActivationTxHeader, error)
}
type meshProvider interface {
LayerBallots(types.LayerID) ([]*types.Ballot, error)
}
// a function to verify the message with the signature and its public key.
type verifierFunc = func(pub, msg, sig []byte) bool
// Oracle is the hare eligibility oracle.
type Oracle struct {
lock sync.Mutex
beacons system.BeaconGetter
atxdb atxProvider
meshdb meshProvider
vrfSigner *signing.VRFSigner
vrfVerifier verifierFunc
layersPerEpoch uint32
vrfMsgCache cache
activesCache cache
cfg config.Config
log.Log
}
// Returns a range of safe layers that should be used to construct the Hare active set for a given target layer
// Safe layer is a layer prior to the input layer on which w.h.p. we have agreement (i.e., on its contextually valid
// blocks), defined to be confidence param number of layers prior to the input layer.
func safeLayerRange(
targetLayer types.LayerID,
safetyParam,
layersPerEpoch,
epochOffset uint32,
) (safeLayerStart, safeLayerEnd types.LayerID) {
// prevent overflow
if targetLayer.Uint32() <= safetyParam {
return types.GetEffectiveGenesis(), types.GetEffectiveGenesis()
}
safeLayer := targetLayer.Sub(safetyParam)
safeEpoch := safeLayer.GetEpoch()
safeLayerStart = safeEpoch.FirstLayer()
safeLayerEnd = safeLayerStart.Add(epochOffset)
// If the safe layer is in the first epochOffset layers of an epoch,
// return a range from the beginning of the previous epoch
if safeLayer.Before(safeLayerEnd) {
// prevent overflow
if safeLayerStart.Uint32() <= layersPerEpoch {
return types.GetEffectiveGenesis(), types.GetEffectiveGenesis()
}
safeLayerStart = safeLayerStart.Sub(layersPerEpoch)
safeLayerEnd = safeLayerEnd.Sub(layersPerEpoch)
}
// If any portion of the range is in the genesis layers, just return the effective genesis
if !safeLayerStart.After(types.GetEffectiveGenesis()) {
return types.GetEffectiveGenesis(), types.GetEffectiveGenesis()
}
return
}
// New returns a new eligibility oracle instance.
func New(
beacons system.BeaconGetter,
atxdb atxProvider,
meshdb meshProvider,
vrfVerifier verifierFunc,
vrfSigner *signing.VRFSigner,
layersPerEpoch uint32,
cfg config.Config,
logger log.Log) *Oracle {
vmc, err := lru.New(vrfMsgCacheSize)
if err != nil {
logger.With().Panic("could not create lru cache", log.Err(err))
}
ac, err := lru.New(activesCacheSize)
if err != nil {
logger.With().Panic("could not create lru cache", log.Err(err))
}
return &Oracle{
beacons: beacons,
atxdb: atxdb,
meshdb: meshdb,
vrfVerifier: vrfVerifier,
vrfSigner: vrfSigner,
layersPerEpoch: layersPerEpoch,
vrfMsgCache: vmc,
activesCache: ac,
cfg: cfg,
Log: logger,
}
}
type vrfMessage struct {
Beacon uint32
Round uint32
Layer types.LayerID
}
func buildKey(l types.LayerID, r uint32) [2]uint64 {
return [2]uint64{uint64(l.Uint32()), uint64(r)}
}
func encodeBeacon(beacon []byte) uint32 {
return binary.LittleEndian.Uint32(beacon)
}
func (o *Oracle) getBeaconValue(ctx context.Context, epochID types.EpochID) (uint32, error) {
beacon, err := o.beacons.GetBeacon(epochID)
if err != nil {
return 0, fmt.Errorf("get beacon: %w", err)
}
value := encodeBeacon(beacon)
o.WithContext(ctx).With().Debug("hare eligibility beacon value for epoch",
epochID,
log.String("beacon", types.BytesToHash(beacon).ShortString()),
log.Uint32("beacon_val", value))
return value, nil
}
// buildVRFMessage builds the VRF message used as input for the BLS (msg=Beacon##Layer##Round).
func (o *Oracle) buildVRFMessage(ctx context.Context, layer types.LayerID, round uint32) ([]byte, error) {
key := buildKey(layer, round)
o.lock.Lock()
defer o.lock.Unlock()
// check cache
if val, exist := o.vrfMsgCache.Get(key); exist {
return val.([]byte), nil
}
// get value from beacon
v, err := o.getBeaconValue(ctx, layer.GetEpoch())
if err != nil {
o.WithContext(ctx).With().Error("could not get hare beacon value for epoch",
log.Err(err),
layer,
layer.GetEpoch(),
log.Uint32("round", round))
return nil, fmt.Errorf("get beacon: %w", err)
}
// marshal message
msg := vrfMessage{Beacon: v, Round: round, Layer: layer}
buf, err := types.InterfaceToBytes(&msg)
if err != nil {
o.WithContext(ctx).With().Panic("failed to encode", log.Err(err))
}
o.vrfMsgCache.Add(key, buf)
return buf, nil
}
func (o *Oracle) totalWeight(ctx context.Context, layer types.LayerID) (uint64, error) {
actives, err := o.actives(ctx, layer)
if err != nil {
o.WithContext(ctx).With().Error("totalWeight erred while calling actives func", log.Err(err), layer)
return 0, err
}
var totalWeight uint64
for _, w := range actives {
totalWeight += w
}
return totalWeight, nil
}
func (o *Oracle) minerWeight(ctx context.Context, layer types.LayerID, id types.NodeID) (uint64, error) {
actives, err := o.actives(ctx, layer)
if err != nil {
o.With().Error("minerWeight erred while calling actives func", log.Err(err), layer)
return 0, err
}
w, ok := actives[id.Key]
if !ok {
o.With().Debug("miner is not active in specified layer",
log.Int("active_set_size", len(actives)),
log.String("actives", fmt.Sprintf("%v", actives)),
layer, log.String("id.Key", id.Key),
)
return 0, errors.New("miner is not active in specified layer")
}
return w, nil
}
func calcVrfFrac(vrfSig []byte) fixed.Fixed {
return fixed.FracFromBytes(vrfSig[:8])
}
func (o *Oracle) prepareEligibilityCheck(ctx context.Context, layer types.LayerID, round uint32, committeeSize int,
id types.NodeID, vrfSig []byte) (n int, p, vrfFrac fixed.Fixed, done bool, err error) {
logger := o.WithContext(ctx).WithFields(
layer,
id,
log.Uint32("round", round),
log.Int("committee_size", committeeSize))
if committeeSize < 1 {
logger.Error("committee size must be positive (received %d)", committeeSize)
return 0, fixed.Fixed{}, fixed.Fixed{}, true, errZeroCommitteeSize
}
msg, err := o.buildVRFMessage(ctx, layer, round)
if err != nil {
logger.Error("eligibility: could not build vrf message")
return 0, fixed.Fixed{}, fixed.Fixed{}, true, err
}
// validate message
if !o.vrfVerifier(id.VRFPublicKey, msg, vrfSig) {
logger.With().Info("eligibility: a node did not pass vrf signature verification",
id,
layer)
return 0, fixed.Fixed{}, fixed.Fixed{}, true, nil
}
// get active set size
totalWeight, err := o.totalWeight(ctx, layer)
if err != nil {
return 0, fixed.Fixed{}, fixed.Fixed{}, true, err
}
// require totalWeight > 0
if totalWeight == 0 {
logger.Warning("eligibility: total weight is zero")
return 0, fixed.Fixed{}, fixed.Fixed{}, true, errZeroTotalWeight
}
// calc hash & check threshold
minerWeight, err := o.minerWeight(ctx, layer, id)
if err != nil {
return 0, fixed.Fixed{}, fixed.Fixed{}, true, err
}
logger.With().Debug("preparing eligibility check",
log.Uint64("miner_weight", minerWeight),
log.Uint64("total_weight", totalWeight),
)
n = int(minerWeight)
// ensure miner weight fits in int
if uint64(n) != minerWeight {
logger.Panic(fmt.Sprintf("minerWeight overflows int (%d)", minerWeight))
}
// calc p
if committeeSize > int(totalWeight) {
logger.With().Debug("committee size is greater than total weight",
log.Int("committee_size", committeeSize),
log.Uint64("total_weight", totalWeight),
)
totalWeight *= uint64(committeeSize)
n *= committeeSize
}
p = fixed.DivUint64(uint64(committeeSize), totalWeight)
if minerWeight > maxSupportedN {
return 0, fixed.Fixed{}, fixed.Fixed{}, false,
fmt.Errorf("miner weight exceeds supported maximum (id: %v, weight: %d, max: %d",
id, minerWeight, maxSupportedN)
}
return n, p, calcVrfFrac(vrfSig), false, nil
}
// Validate validates the number of eligibilities of ID on the given Layer where msg is the VRF message, sig is the role
// proof and assuming commSize as the expected committee size.
func (o *Oracle) Validate(ctx context.Context, layer types.LayerID, round uint32, committeeSize int, id types.NodeID, sig []byte, eligibilityCount uint16) (bool, error) {
n, p, vrfFrac, done, err := o.prepareEligibilityCheck(ctx, layer, round, committeeSize, id, sig)
if done || err != nil {
return false, err
}
defer func() {
if msg := recover(); msg != nil {
o.WithContext(ctx).With().Error("panic in validate",
log.String("msg", fmt.Sprint(msg)),
log.Int("n", n),
log.String("p", p.String()),
log.String("vrf_frac", vrfFrac.String()),
)
o.Panic("%s", msg)
}
}()
x := int(eligibilityCount)
if !fixed.BinCDF(n, p, x-1).GreaterThan(vrfFrac) && vrfFrac.LessThan(fixed.BinCDF(n, p, x)) {
return true, nil
}
o.WithContext(ctx).With().Warning("eligibility: node did not pass vrf eligibility threshold",
layer,
log.Uint32("round", round),
log.Int("committee_size", committeeSize),
id,
log.Uint64("eligibility_count", uint64(eligibilityCount)),
log.Int("n", n),
log.String("p", p.String()),
log.String("vrf_frac", vrfFrac.String()),
log.Int("x", x),
)
return false, nil
}
// CalcEligibility calculates the number of eligibilities of ID on the given Layer where msg is the VRF message, sig is
// the role proof and assuming commSize as the expected committee size.
func (o *Oracle) CalcEligibility(ctx context.Context, layer types.LayerID, round uint32, committeeSize int,
id types.NodeID, vrfSig []byte) (uint16, error) {
n, p, vrfFrac, done, err := o.prepareEligibilityCheck(ctx, layer, round, committeeSize, id, vrfSig)
if done {
return 0, err
}
defer func() {
if msg := recover(); msg != nil {
o.With().Error("panic in calc eligibility",
layer, layer.GetEpoch(), log.Uint32("round_id", round),
log.String("msg", fmt.Sprint(msg)),
log.Int("committee_size", committeeSize),
log.Int("n", n),
log.String("p", fmt.Sprintf("%g", p.Float())),
log.String("vrf_frac", fmt.Sprintf("%g", vrfFrac.Float())),
)
o.Panic("%s", msg)
}
}()
o.With().Info("params",
layer, layer.GetEpoch(), log.Uint32("round_id", round),
log.Int("committee_size", committeeSize),
log.Int("n", n),
log.String("p", fmt.Sprintf("%g", p.Float())),
log.String("vrf_frac", fmt.Sprintf("%g", vrfFrac.Float())),
)
for x := 0; x < n; x++ {
if fixed.BinCDF(n, p, x).GreaterThan(vrfFrac) {
return uint16(x), nil
}
}
return uint16(n), nil
}
// Proof returns the role proof for the current Layer & Round.
func (o *Oracle) Proof(ctx context.Context, layer types.LayerID, round uint32) ([]byte, error) {
msg, err := o.buildVRFMessage(ctx, layer, round)
if err != nil {
o.WithContext(ctx).With().Error("proof: could not build vrf message", log.Err(err))
return nil, err
}
return o.vrfSigner.Sign(msg), nil
}
// Returns a map of all active node IDs in the specified layer id.
func (o *Oracle) actives(ctx context.Context, targetLayer types.LayerID) (map[string]uint64, error) {
logger := o.WithContext(ctx).WithFields(
log.FieldNamed("target_layer", targetLayer),
log.FieldNamed("target_layer_epoch", targetLayer.GetEpoch()))
logger.Debug("hare oracle getting active set")
// lock until any return
// note: no need to lock per safeEp - we do not expect many concurrent requests per safeEp (max two)
o.lock.Lock()
defer o.lock.Unlock()
// we first try to get the hare active set for a range of safe layers
safeLayerStart, safeLayerEnd := safeLayerRange(
targetLayer, o.cfg.ConfidenceParam, o.layersPerEpoch, o.cfg.EpochOffset)
logger.With().Debug("safe layer range",
log.FieldNamed("safe_layer_start", safeLayerStart),
log.FieldNamed("safe_layer_end", safeLayerEnd),
log.FieldNamed("safe_layer_start_epoch", safeLayerStart.GetEpoch()),
log.FieldNamed("safe_layer_end_epoch", safeLayerEnd.GetEpoch()),
log.Uint32("confidence_param", o.cfg.ConfidenceParam),
log.Uint32("epoch_offset", o.cfg.EpochOffset),
log.Uint64("layers_per_epoch", uint64(o.layersPerEpoch)),
log.FieldNamed("effective_genesis", types.GetEffectiveGenesis()))
// check cache first
// as long as epochOffset < layersPerEpoch, we expect safeLayerStart and safeLayerEnd to be in the same epoch.
// if not, don't attempt to cache on the basis of a single epoch since the safe layer range will span multiple
// epochs.
if safeLayerStart.GetEpoch() == safeLayerEnd.GetEpoch() {
if val, exist := o.activesCache.Get(safeLayerStart.GetEpoch()); exist {
activeMap := val.(map[string]uint64)
logger.With().Debug("found value in cache for safe layer start epoch",
log.FieldNamed("safe_layer_start", safeLayerStart),
log.FieldNamed("safe_layer_start_epoch", safeLayerStart.GetEpoch()),
log.Int("count", len(activeMap)))
return activeMap, nil
}
logger.With().Debug("no value in cache for safe layer start epoch",
log.FieldNamed("safe_layer_start", safeLayerStart),
log.FieldNamed("safe_layer_start_epoch", safeLayerStart.GetEpoch()))
} else {
// TODO: should we panic or return an error instead?
logger.With().Error("safe layer range spans multiple epochs, not caching active set results",
log.FieldNamed("safe_layer_start", safeLayerStart),
log.FieldNamed("safe_layer_end", safeLayerEnd),
log.FieldNamed("safe_layer_start_epoch", safeLayerStart.GetEpoch()),
log.FieldNamed("safe_layer_end_epoch", safeLayerEnd.GetEpoch()))
}
var (
beacons = make(map[types.EpochID][]byte)
activeBallots = make(map[types.BallotID]*types.Ballot)
epoch types.EpochID
beacon []byte
err error
)
for layerID := safeLayerStart; !layerID.After(safeLayerEnd); layerID = layerID.Add(1) {
epoch = layerID.GetEpoch()
if _, exist := beacons[epoch]; !exist {
if beacon, err = o.beacons.GetBeacon(epoch); err != nil {
logger.With().Error("actives failed to get beacon", epoch, log.Err(err))
return nil, fmt.Errorf("error getting beacon for epoch %v: %w", epoch, err)
}
logger.With().Warning("found beacon for epoch", epoch,
log.String("epoch_beacon", types.BytesToHash(beacon).ShortString()))
beacons[epoch] = beacon
}
ballots, err := o.meshdb.LayerBallots(layerID)
if err != nil {
logger.With().Warning("failed to get layer ballots", layerID, log.Err(err))
return nil, fmt.Errorf("error getting ballots for layer %v (target layer %v): %w",
layerID, targetLayer, err)
}
for _, b := range ballots {
activeBallots[b.ID()] = b
}
}
logger.With().Debug("got ballots in safe layer range, reading active set from ballots",
log.Int("count", len(activeBallots)))
// now read the set of ATXs referenced by these blocks
// TODO: can the set of blocks ever span multiple epochs?
hareActiveSet := make(map[string]uint64)
badBeaconATXIDs := make(map[types.ATXID]struct{})
seenATXIDs := make(map[types.ATXID]struct{})
seenBallots := make(map[types.BallotID]struct{})
for _, ballot := range activeBallots {
if _, exist := seenBallots[ballot.ID()]; exist {
continue
}
seenBallots[ballot.ID()] = struct{}{}
if ballot.ID() == types.BallotID(mesh.GenesisBlock().ID()) {
// always accept genesis ballot
continue
}
if ballot.EpochData == nil {
// not a ref ballot, no beacon value to check
continue
}
beacon = beacons[ballot.LayerIndex.GetEpoch()]
if !bytes.Equal(ballot.EpochData.Beacon, beacon) {
badBeaconATXIDs[ballot.AtxID] = struct{}{}
logger.With().Warning("hare actives find ballot with different beacon",
ballot.ID(),
ballot.AtxID,
ballot.LayerIndex.GetEpoch(),
log.String("ballot_beacon", types.BytesToHash(ballot.EpochData.Beacon).ShortString()),
log.String("epoch_beacon", types.BytesToHash(beacon).ShortString()))
continue
}
for _, id := range ballot.EpochData.ActiveSet {
if _, exist := seenATXIDs[id]; exist {
continue
}
seenATXIDs[id] = struct{}{}
atx, err := o.atxdb.GetAtxHeader(id)
if err != nil {
return nil, fmt.Errorf("hare actives (target layer %v) get ATX: %w", targetLayer, err)
}
hareActiveSet[atx.NodeID.Key] = atx.GetWeight()
}
}
// remove miners who published ballots with bad beacons
for id := range badBeaconATXIDs {
atx, err := o.atxdb.GetAtxHeader(id)
if err != nil {
return nil, fmt.Errorf("hare actives (target layer %v) get bad beacon ATX: %w", targetLayer, err)
}
delete(hareActiveSet, atx.NodeID.Key)
logger.With().Error("smesher removed from hare active set", log.String("node_key", atx.NodeID.Key))
}
if len(hareActiveSet) > 0 {
logger.With().Debug("successfully got hare active set for layer range",
log.Int("count", len(hareActiveSet)))
o.activesCache.Add(safeLayerStart.GetEpoch(), hareActiveSet)
return hareActiveSet, nil
}
// if we failed to get a Hare active set, we fall back on reading the Tortoise active set targeting this epoch
// TODO: do we want to cache tortoise active set too?
if safeLayerStart.GetEpoch().IsGenesis() {
logger.With().Info("no hare active set for genesis layer range, reading tortoise set for epoch instead",
targetLayer.GetEpoch())
} else {
logger.With().Warning("no hare active set for layer range, reading tortoise set for epoch instead",
targetLayer.GetEpoch())
}
atxs, err := o.atxdb.GetEpochAtxs(targetLayer.GetEpoch() - 1)
if err != nil {
return nil, fmt.Errorf("can't get atxs for an epoch %d: %w", targetLayer.GetEpoch()-1, err)
}
logger.With().Debug("got tortoise atxs", log.Int("count", len(atxs)))
if len(atxs) == 0 {
return nil, fmt.Errorf("%w: layer %v / epoch %v", errEmptyActiveSet, targetLayer, targetLayer.GetEpoch())
}
// extract the nodeIDs and weights
activeMap := make(map[string]uint64, len(atxs))
for _, atxid := range atxs {
atxHeader, err := o.atxdb.GetAtxHeader(atxid)
if err != nil {
return nil, fmt.Errorf("inconsistent state: error getting atx header %v for target layer %v: %w", atxid, targetLayer, err)
}
activeMap[atxHeader.NodeID.Key] = atxHeader.GetWeight()
}
logger.With().Debug("got tortoise active set", log.Int("count", len(activeMap)))
// update cache and return
o.activesCache.Add(targetLayer.GetEpoch(), activeMap)
return activeMap, nil
}
// IsIdentityActiveOnConsensusView returns true if the provided identity is active on the consensus view derived
// from the specified layer, false otherwise.
func (o *Oracle) IsIdentityActiveOnConsensusView(ctx context.Context, edID string, layer types.LayerID) (bool, error) {
o.WithContext(ctx).With().Debug("hare oracle checking for active identity")
defer func() {
o.WithContext(ctx).With().Debug("hare oracle active identity check complete")
}()
actives, err := o.actives(ctx, layer)
if err != nil {
o.WithContext(ctx).With().Error("error getting active set", layer, log.Err(err))
return false, err
}
_, exist := actives[edID]
return exist, nil
}