The core protocol of WoopChain
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woop/consensus/quorum/quorum.go

251 lines
5.3 KiB

package quorum
import (
"fmt"
"math/big"
"github.com/harmony-one/bls/ffi/go/bls"
"github.com/harmony-one/harmony/shard"
// "github.com/harmony-one/harmony/staking/effective"
)
// Phase is a phase that needs quorum to proceed
type Phase byte
const (
// Prepare ..
Prepare Phase = iota
// Commit ..
Commit
// ViewChange ..
ViewChange
)
var phaseNames = map[Phase]string{
Prepare: "Announce",
Commit: "Prepare",
ViewChange: "Commit",
}
func (p Phase) String() string {
if name, ok := phaseNames[p]; ok {
return name
}
return fmt.Sprintf("Unknown Quorum Phase %+v", byte(p))
}
// Policy is the rule we used to decide is quorum achieved
type Policy byte
const (
// SuperMajorityVote is a 2/3s voting mechanism, pre-PoS
SuperMajorityVote Policy = iota
// SuperMajorityStake is 2/3s of total staked amount for epoch
SuperMajorityStake
)
// ParticipantTracker ..
type ParticipantTracker interface {
Participants() []*bls.PublicKey
IndexOf(*bls.PublicKey) int
ParticipantsCount() int64
NextAfter(*bls.PublicKey) (bool, *bls.PublicKey)
UpdateParticipants(pubKeys []*bls.PublicKey)
DumpParticipants() []string
}
// SignatoryTracker ..
type SignatoryTracker interface {
ParticipantTracker
AddSignature(p Phase, PubKey *bls.PublicKey, sig *bls.Sign)
// Caller assumes concurrency protection
SignersCount(Phase) int64
Reset([]Phase)
}
// SignatureReader ..
type SignatureReader interface {
SignatoryTracker
ReadAllSignatures(Phase) []*bls.Sign
ReadSignature(p Phase, PubKey *bls.PublicKey) *bls.Sign
}
// DependencyInjectionWriter ..
type DependencyInjectionWriter interface {
SetShardIDProvider(func() (uint32, error))
}
// Decider ..
type Decider interface {
SignatureReader
DependencyInjectionWriter
ToggleActive(*bls.PublicKey) bool
// UpdateVotingPower(keeper effective.StakeKeeper)
Policy() Policy
IsQuorumAchieved(Phase) bool
QuorumThreshold() *big.Int
IsRewardThresholdAchieved() bool
}
// These maps represent the signatories (validators), keys are BLS public keys
// and values are BLS private key signed signatures
type cIdentities struct {
// Public keys of the committee including leader and validators
publicKeys []*bls.PublicKey
prepare map[string]*bls.Sign
commit map[string]*bls.Sign
// viewIDSigs: every validator
// sign on |viewID|blockHash| in view changing message
viewID map[string]*bls.Sign
}
type depInject struct {
shardIDProvider func() (uint32, error)
}
func (d *depInject) SetShardIDProvider(p func() (uint32, error)) {
d.shardIDProvider = p
}
func (s *cIdentities) IndexOf(pubKey *bls.PublicKey) int {
idx := -1
for k, v := range s.publicKeys {
if v.IsEqual(pubKey) {
idx = k
}
}
return idx
}
func (s *cIdentities) NextAfter(pubKey *bls.PublicKey) (bool, *bls.PublicKey) {
found := false
idx := s.IndexOf(pubKey)
if idx != -1 {
found = true
}
idx = (idx + 1) % int(s.ParticipantsCount())
return found, s.publicKeys[idx]
}
func (s *cIdentities) Participants() []*bls.PublicKey {
return s.publicKeys
}
func (s *cIdentities) UpdateParticipants(pubKeys []*bls.PublicKey) {
s.publicKeys = append(pubKeys[:0:0], pubKeys...)
}
func (s *cIdentities) DumpParticipants() []string {
keys := make([]string, len(s.publicKeys))
for i := 0; i < len(s.publicKeys); i++ {
keys[i] = s.publicKeys[i].SerializeToHexStr()
}
return keys
}
func (s *cIdentities) ParticipantsCount() int64 {
return int64(len(s.publicKeys))
}
func (s *cIdentities) SignersCount(p Phase) int64 {
switch p {
case Prepare:
return int64(len(s.prepare))
case Commit:
return int64(len(s.commit))
case ViewChange:
return int64(len(s.viewID))
default:
return 0
}
}
func (s *cIdentities) AddSignature(p Phase, PubKey *bls.PublicKey, sig *bls.Sign) {
hex := PubKey.SerializeToHexStr()
switch p {
case Prepare:
s.prepare[hex] = sig
case Commit:
s.commit[hex] = sig
case ViewChange:
s.viewID[hex] = sig
}
}
func (s *cIdentities) Reset(ps []Phase) {
for _, p := range ps {
switch m := map[string]*bls.Sign{}; p {
case Prepare:
s.prepare = m
case Commit:
s.commit = m
case ViewChange:
s.viewID = m
}
}
}
func (s *cIdentities) ReadSignature(p Phase, PubKey *bls.PublicKey) *bls.Sign {
m := map[string]*bls.Sign{}
hex := PubKey.SerializeToHexStr()
switch p {
case Prepare:
m = s.prepare
case Commit:
m = s.commit
case ViewChange:
m = s.viewID
}
payload, ok := m[hex]
if !ok {
return nil
}
return payload
}
func (s *cIdentities) ReadAllSignatures(p Phase) []*bls.Sign {
m := map[string]*bls.Sign{}
switch p {
case Prepare:
m = s.prepare
case Commit:
m = s.commit
case ViewChange:
m = s.viewID
}
sigs := make([]*bls.Sign, 0, len(m))
for _, value := range m {
sigs = append(sigs, value)
}
return sigs
}
func newMapBackedSignatureReader() SignatureReader {
return &cIdentities{
[]*bls.PublicKey{}, map[string]*bls.Sign{},
map[string]*bls.Sign{}, map[string]*bls.Sign{},
}
}
// NewDecider ..
func NewDecider(p Policy) Decider {
signatureStore := newMapBackedSignatureReader()
dependencies := &depInject{}
switch p {
case SuperMajorityVote:
return &uniformVoteWeight{signatureStore, dependencies}
case SuperMajorityStake:
return &stakedVoteWeight{
signatureStore,
dependencies,
map[[shard.PublicKeySizeInBytes]byte]stakedVoter{},
big.NewInt(0),
}
default:
// Should not be possible
return nil
}
}