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verifying.go
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verifying.go
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package tortoise
import (
"fmt"
"github.com/spacemeshos/go-spacemesh/common/types"
"github.com/spacemeshos/go-spacemesh/common/util"
"github.com/spacemeshos/go-spacemesh/log"
)
type goodness uint8
func (g goodness) String() string {
switch g {
case bad:
return "bad"
case abstained:
return "abstained"
case good:
return "good"
case canBeGood:
return "can be good"
default:
panic(fmt.Sprintf("unknown goodness %d", g))
}
}
const (
bad goodness = iota
// ballots may vote abstain for a layer if the hare instance didn't terminate
// for that layer. verifying tortoise counts weight from those ballots
// but it doesn't count weight for abstained layers.
//
// for voting tortoise still prioritizes good ballots, ballots that selects base ballot
// that abstained will be marked as a bad ballot. this condition is necessary
// to simplify implementation. otherwise verifying tortoise needs to copy abstained
// votes from base ballot if they tortoise hasn't terminated yet.
//
// Example:
// Block: 0x01 Layer: 9
// Ballot: 0xaa Layer: 11 Votes: {Base: 0x01, Support: [0x01], Abstain: [10]}
// Assuming that Support is consistent with local opinion verifying tortoise
// will count the weight from this ballot for layer 9, but not for layer 10.
abstained
// good ballot must:
// - agree on a beacon value
// - don't vote on blocks before base ballot
// - have consistent votes with local opinion
// - have a good base ballot.
good
// canBeGood is the same as good, but doesn't require good base ballot.
canBeGood
)
func newVerifying(config Config, common *commonState) *verifying {
return &verifying{
Config: config,
commonState: common,
goodBallots: map[types.BallotID]goodness{},
goodWeight: map[types.LayerID]util.Weight{},
abstainedWeight: map[types.LayerID]util.Weight{},
totalGoodWeight: util.WeightFromUint64(0),
}
}
type verifying struct {
Config
*commonState
goodBallots map[types.BallotID]goodness
// weight of good ballots in the layer N
goodWeight map[types.LayerID]util.Weight
// abstained weight from ballots in layers [N+1, LAST]
abstainedWeight map[types.LayerID]util.Weight
// total weight of good ballots from verified + 1 up to last processed
totalGoodWeight util.Weight
}
func (v *verifying) resetWeights() {
v.totalGoodWeight = util.WeightFromUint64(0)
v.goodWeight = map[types.LayerID]util.Weight{}
v.abstainedWeight = map[types.LayerID]util.Weight{}
}
func (v *verifying) checkCanBeGood(ballot types.BallotID) bool {
val := v.goodBallots[ballot]
return val == good || val == canBeGood
}
func (v *verifying) markGoodCut(logger log.Log, lid types.LayerID, ballots []tortoiseBallot) bool {
n := 0
for _, ballot := range ballots {
if v.checkCanBeGood(ballot.base) && v.checkCanBeGood(ballot.id) {
logger.With().Debug("marking ballots that can be good as good",
log.Stringer("ballot_layer", lid),
log.Stringer("ballot", ballot.id),
log.Stringer("base_ballot", ballot.base),
)
v.goodBallots[ballot.id] = good
v.goodBallots[ballot.base] = good
n++
}
}
return n > 0
}
func (v *verifying) countVotes(logger log.Log, lid types.LayerID, ballots []tortoiseBallot) {
logger = logger.WithFields(log.Stringer("ballots_layer", lid))
goodWeight, goodBallotsCount := v.countGoodBallots(logger, ballots)
v.goodWeight[lid] = goodWeight
v.totalGoodWeight = v.totalGoodWeight.Add(goodWeight)
logger.With().Debug("counted weight from good ballots",
log.Stringer("good_weight", goodWeight),
log.Stringer("total_good_weight", v.totalGoodWeight),
log.Stringer("expected", v.epochWeight[lid.GetEpoch()]),
log.Int("ballots_count", len(ballots)),
log.Int("good_ballots_count", goodBallotsCount),
)
}
func (v *verifying) verify(logger log.Log, lid types.LayerID) bool {
// totalGoodWeight - weight from good ballots in layers [VERIFIED+1, LAST PROCESSED]
// goodWeight[lid] - weight from good ballots in the layer that is going to be verified
// expected to be VERIFIED + 1 (FIXME remove lid parameter)
// abstainedWeight[lid] - weight from good ballots in layers (VERIFIED+1, LAST PROCESSED]
// that abstained from voting for lid (VERIFIED + 1)
// TODO(dshulyak) need to know correct values for threshold fractions before implementing next part
// expectedWeight - weight from (VERIFIED+1, LAST] layers,
// this is the same weight that is used as a base for global threshold
// uncountedWeight - weight that was verifying tortoise didn't count
// expectedWeight - (totalGoodWeight - goodWeight[lid])
// margin - this is pessimistic margin that is compared with global threshold
// totalGoodWeight - goodWeight[lid] - abstainedWeight[lid] - uncountedWeight
margin := util.WeightFromUint64(0).
Add(v.totalGoodWeight).
Sub(v.goodWeight[lid])
if w, exist := v.abstainedWeight[lid]; exist {
margin.Sub(w)
}
logger = logger.WithFields(
log.String("verifier", verifyingTortoise),
log.Stringer("candidate_layer", lid),
log.Stringer("margin", margin),
log.Stringer("abstained_weight", v.abstainedWeight[lid]),
log.Stringer("local_threshold", v.localThreshold),
log.Stringer("global_threshold", v.globalThreshold),
)
// 0 - there is not enough weight to cross threshold.
// 1 - layer is verified and contextual validity is according to our local opinion.
if sign(margin.Cmp(v.globalThreshold)) == abstain {
logger.With().Info("candidate layer is not verified." +
" voting weight from good ballots is lower than the threshold")
return false
}
// if there is any block with neutral local opinion - we can't verify the layer
// if it happens outside hdist - protocol will switch to full tortoise
for _, bid := range v.blocks[lid] {
vote, _ := getLocalVote(v.commonState, v.Config, lid, bid)
if vote == abstain {
logger.With().Info("candidate layer is not verified."+
" block is undecided according to local votes",
bid,
)
return false
}
v.validity[bid] = vote
}
v.totalGoodWeight.Sub(v.goodWeight[lid])
logger.With().Info("candidate layer is verified")
return true
}
func (v *verifying) countGoodBallots(logger log.Log, ballots []tortoiseBallot) (util.Weight, int) {
sum := util.WeightFromUint64(0)
n := 0
for _, ballot := range ballots {
if ballot.weight.IsNil() {
continue
}
rst := v.determineGoodness(logger, ballot)
if rst == bad {
continue
}
v.goodBallots[ballot.id] = rst
if rst == good || rst == abstained {
sum = sum.Add(ballot.weight)
for lid := range ballot.abstain {
if _, exist := v.abstainedWeight[lid]; !exist {
v.abstainedWeight[lid] = util.WeightFromFloat64(0)
}
v.abstainedWeight[lid].Add(ballot.weight)
}
n++
}
}
return sum, n
}
func (v *verifying) determineGoodness(logger log.Log, ballot tortoiseBallot) goodness {
if _, exists := v.badBeaconBallots[ballot.id]; exists {
logger.With().Debug("ballot is not good. ballot has a bad beacon")
return bad
}
baselid := v.ballotLayer[ballot.base]
for block, vote := range ballot.votes {
blocklid, exists := v.blockLayer[block]
// if the layer of the vote is not in the memory then it is definitely before base block layer
if !exists || blocklid.Before(baselid) {
logger.With().Debug("ballot is not good. vote on a block that is before base ballot",
log.Stringer("base_layer", baselid),
log.Stringer("vote_layer", blocklid),
log.Bool("vote_exists", exists),
ballot.id,
log.Stringer("base", ballot.base),
)
return bad
}
if localVote, reason := getLocalVote(v.commonState, v.Config, blocklid, block); localVote != vote {
logger.With().Debug("ballot is not good. vote on a block doesn't match a local vote",
log.Stringer("local_vote", localVote),
log.Stringer("local_vote_reason", reason),
log.Stringer("ballot_vote", vote),
log.Stringer("block_layer", blocklid),
log.Stringer("base_layer", baselid),
log.Stringer("block", block),
ballot.id,
log.Stringer("base", ballot.base),
)
return bad
}
}
base := v.goodBallots[ballot.base]
if len(ballot.abstain) > 0 {
logger.With().Debug("ballot has abstained on some layers",
ballot.id,
log.Stringer("base", ballot.base),
log.Stringer("base_goodness", base))
switch base {
case good:
return abstained
default:
return bad
}
}
if base != good {
logger.With().Debug("ballot can be good. only base is not good",
ballot.id,
log.Stringer("base", ballot.base))
return canBeGood
}
logger.With().Debug("ballot is good",
ballot.id,
log.Stringer("base", ballot.base),
)
return good
}