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|
// Copyright 2018 The dexon-consensus Authors
// This file is part of the dexon-consensus library.
//
// The dexon-consensus library is free software: you can redistribute it
// and/or modify it under the terms of the GNU Lesser General Public License as
// published by the Free Software Foundation, either version 3 of the License,
// or (at your option) any later version.
//
// The dexon-consensus library is distributed in the hope that it will be
// useful, but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser
// General Public License for more details.
//
// You should have received a copy of the GNU Lesser General Public License
// along with the dexon-consensus library. If not, see
// <http://www.gnu.org/licenses/>.
package test
import (
"bytes"
"errors"
"math"
"sort"
"sync"
"time"
"github.com/dexon-foundation/dexon-consensus/common"
"github.com/dexon-foundation/dexon-consensus/core/crypto"
"github.com/dexon-foundation/dexon-consensus/core/crypto/ecdsa"
"github.com/dexon-foundation/dexon-consensus/core/types"
typesDKG "github.com/dexon-foundation/dexon-consensus/core/types/dkg"
"github.com/dexon-foundation/dexon/rlp"
)
var (
// ErrDuplicatedChange means the change request is already applied.
ErrDuplicatedChange = errors.New("duplicated change")
// ErrForkedCRS means a different CRS for one round is proposed.
ErrForkedCRS = errors.New("forked CRS")
// ErrMissingPreviousCRS means previous CRS not found when
// proposing a specific round of CRS.
ErrMissingPreviousCRS = errors.New("missing previous CRS")
// ErrUnknownStateChangeType means a StateChangeType is not recognized.
ErrUnknownStateChangeType = errors.New("unknown state change type")
// ErrProposerMPKIsReady means a proposer of one mpk is ready.
ErrProposerMPKIsReady = errors.New("proposer mpk is ready")
// ErrProposerIsFinal means a proposer of one complaint is finalized.
ErrProposerIsFinal = errors.New("proposer is final")
// ErrStateConfigNotEqual means configuration part of two states is not
// equal.
ErrStateConfigNotEqual = errors.New("config not equal")
// ErrStateLocalFlagNotEqual means local flag of two states is not equal.
ErrStateLocalFlagNotEqual = errors.New("local flag not equal")
// ErrStateNodeSetNotEqual means node sets of two states are not equal.
ErrStateNodeSetNotEqual = errors.New("node set not equal")
// ErrStateDKGComplaintsNotEqual means DKG complaints for two states are not
// equal.
ErrStateDKGComplaintsNotEqual = errors.New("dkg complaints not equal")
// ErrStateDKGMasterPublicKeysNotEqual means DKG master public keys of two
// states are not equal.
ErrStateDKGMasterPublicKeysNotEqual = errors.New(
"dkg master public keys not equal")
// ErrStateDKGMPKReadysNotEqual means DKG readys of two states are not
// equal.
ErrStateDKGMPKReadysNotEqual = errors.New("dkg readys not equal")
// ErrStateDKGFinalsNotEqual means DKG finalizations of two states are not
// equal.
ErrStateDKGFinalsNotEqual = errors.New("dkg finalizations not equal")
// ErrStateCRSsNotEqual means CRSs of two states are not equal.
ErrStateCRSsNotEqual = errors.New("crs not equal")
// ErrStatePendingChangesNotEqual means pending change requests of two
// states are not equal.
ErrStatePendingChangesNotEqual = errors.New("pending changes not equal")
// ErrNotInRemoteMode means callers attempts to call functions for remote
// mode when the State instance is still in local mode.
ErrNotInRemoteMode = errors.New(
"attempting to use remote functions in local mode")
)
type crsAdditionRequest struct {
Round uint64 `json:"round"`
CRS common.Hash `json:"crs"`
}
// State emulates what the global state in governace contract on a fullnode.
type State struct {
// Configuration related.
numChains uint32
lambdaBA time.Duration
lambdaDKG time.Duration
k int
phiRatio float32
notarySetSize uint32
dkgSetSize uint32
roundInterval time.Duration
minBlockInterval time.Duration
// Nodes
nodes map[types.NodeID]crypto.PublicKey
// DKG & CRS
dkgComplaints map[uint64]map[types.NodeID][]*typesDKG.Complaint
dkgMasterPublicKeys map[uint64]map[types.NodeID]*typesDKG.MasterPublicKey
dkgReadys map[uint64]map[types.NodeID]*typesDKG.MPKReady
dkgFinals map[uint64]map[types.NodeID]*typesDKG.Finalize
crs []common.Hash
// Other stuffs
local bool
logger common.Logger
lock sync.RWMutex
appliedRequests map[common.Hash]struct{}
// Pending change requests.
ownRequests map[common.Hash]*StateChangeRequest
globalRequests map[common.Hash]*StateChangeRequest
}
// NewState constructs an State instance with genesis information, including:
// - node set
// - crs
func NewState(
nodePubKeys []crypto.PublicKey,
lambda time.Duration,
logger common.Logger,
local bool) *State {
nodes := make(map[types.NodeID]crypto.PublicKey)
for _, key := range nodePubKeys {
nodes[types.NewNodeID(key)] = key
}
genesisCRS := crypto.Keccak256Hash([]byte("__ DEXON"))
return &State{
local: local,
logger: logger,
numChains: uint32(len(nodes)),
lambdaBA: lambda,
lambdaDKG: lambda * 10,
roundInterval: lambda * 10000,
minBlockInterval: 4 * lambda,
crs: []common.Hash{genesisCRS},
nodes: nodes,
phiRatio: 0.667,
k: 0,
notarySetSize: uint32(len(nodes)),
dkgSetSize: uint32(len(nodes)),
ownRequests: make(map[common.Hash]*StateChangeRequest),
globalRequests: make(map[common.Hash]*StateChangeRequest),
dkgReadys: make(
map[uint64]map[types.NodeID]*typesDKG.MPKReady),
dkgFinals: make(
map[uint64]map[types.NodeID]*typesDKG.Finalize),
dkgComplaints: make(
map[uint64]map[types.NodeID][]*typesDKG.Complaint),
dkgMasterPublicKeys: make(
map[uint64]map[types.NodeID]*typesDKG.MasterPublicKey),
appliedRequests: make(map[common.Hash]struct{}),
}
}
// SwitchToRemoteMode turn this State instance into remote mode: all changes
// are pending, and need to be packed/unpacked to apply. Once this state switch
// to remote mode, there would be no way to switch back to local mode.
func (s *State) SwitchToRemoteMode() {
s.lock.Lock()
defer s.lock.Unlock()
s.local = false
}
// Snapshot returns configration that could be snapshotted.
func (s *State) Snapshot() (*types.Config, []crypto.PublicKey) {
s.lock.RLock()
defer s.lock.RUnlock()
// Clone a node set.
nodes := make([]crypto.PublicKey, 0, len(s.nodes))
for _, key := range s.nodes {
nodes = append(nodes, key)
}
cfg := &types.Config{
NumChains: s.numChains,
LambdaBA: s.lambdaBA,
LambdaDKG: s.lambdaDKG,
K: s.k,
PhiRatio: s.phiRatio,
NotarySetSize: s.notarySetSize,
DKGSetSize: s.dkgSetSize,
RoundInterval: s.roundInterval,
MinBlockInterval: s.minBlockInterval,
}
s.logger.Info("Snapshot config", "config", cfg)
return cfg, nodes
}
// AttachLogger allows to attach custom logger.
func (s *State) AttachLogger(logger common.Logger) {
s.logger = logger
}
func (s *State) unpackPayload(
raw *rawStateChangeRequest) (v interface{}, err error) {
switch raw.Type {
case StateAddCRS:
v = &crsAdditionRequest{}
err = rlp.DecodeBytes(raw.Payload, v)
case StateAddDKGComplaint:
v = &typesDKG.Complaint{}
err = rlp.DecodeBytes(raw.Payload, v)
case StateAddDKGMasterPublicKey:
v = &typesDKG.MasterPublicKey{}
err = rlp.DecodeBytes(raw.Payload, v)
case StateAddDKGMPKReady:
v = &typesDKG.MPKReady{}
err = rlp.DecodeBytes(raw.Payload, v)
case StateAddDKGFinal:
v = &typesDKG.Finalize{}
err = rlp.DecodeBytes(raw.Payload, v)
case StateChangeNumChains:
var tmp uint32
err = rlp.DecodeBytes(raw.Payload, &tmp)
v = tmp
case StateChangeLambdaBA:
var tmp uint64
err = rlp.DecodeBytes(raw.Payload, &tmp)
v = tmp
case StateChangeLambdaDKG:
var tmp uint64
err = rlp.DecodeBytes(raw.Payload, &tmp)
v = tmp
case StateChangeRoundInterval:
var tmp uint64
err = rlp.DecodeBytes(raw.Payload, &tmp)
v = tmp
case StateChangeMinBlockInterval:
var tmp uint64
err = rlp.DecodeBytes(raw.Payload, &tmp)
v = tmp
case StateChangeK:
var tmp uint64
err = rlp.DecodeBytes(raw.Payload, &tmp)
v = tmp
case StateChangePhiRatio:
var tmp uint32
err = rlp.DecodeBytes(raw.Payload, &tmp)
v = tmp
case StateChangeNotarySetSize:
var tmp uint32
err = rlp.DecodeBytes(raw.Payload, &tmp)
v = tmp
case StateChangeDKGSetSize:
var tmp uint32
err = rlp.DecodeBytes(raw.Payload, &tmp)
v = tmp
case StateAddNode:
var tmp []byte
err = rlp.DecodeBytes(raw.Payload, &tmp)
v = tmp
default:
err = ErrUnknownStateChangeType
}
if err != nil {
return
}
return
}
func (s *State) unpackRequests(
b []byte) (reqs []*StateChangeRequest, err error) {
// Try to unmarshal this byte stream into []*StateChangeRequest.
rawReqs := []*rawStateChangeRequest{}
if err = rlp.DecodeBytes(b, &rawReqs); err != nil {
return
}
for _, r := range rawReqs {
var payload interface{}
if payload, err = s.unpackPayload(r); err != nil {
return
}
reqs = append(reqs, &StateChangeRequest{
Type: r.Type,
Payload: payload,
Hash: r.Hash,
Timestamp: r.Timestamp,
})
}
return
}
// Equal checks equality between State instance.
func (s *State) Equal(other *State) error {
// Check configuration part.
configEqual := s.numChains == other.numChains &&
s.lambdaBA == other.lambdaBA &&
s.lambdaDKG == other.lambdaDKG &&
s.k == other.k &&
s.phiRatio == other.phiRatio &&
s.notarySetSize == other.notarySetSize &&
s.dkgSetSize == other.dkgSetSize &&
s.roundInterval == other.roundInterval &&
s.minBlockInterval == other.minBlockInterval
if !configEqual {
return ErrStateConfigNotEqual
}
// Check local flag.
if s.local != other.local {
return ErrStateLocalFlagNotEqual
}
// Check node set.
if len(s.nodes) != len(other.nodes) {
return ErrStateNodeSetNotEqual
}
for nID, key := range s.nodes {
otherKey, exists := other.nodes[nID]
if !exists {
return ErrStateNodeSetNotEqual
}
if bytes.Compare(key.Bytes(), otherKey.Bytes()) != 0 {
return ErrStateNodeSetNotEqual
}
}
// Check DKG Complaints, here I assume the addition sequence of complaints
// proposed by one node would be identical on each node (this should be true
// when state change requests are carried by blocks and executed in order).
if len(s.dkgComplaints) != len(other.dkgComplaints) {
return ErrStateDKGComplaintsNotEqual
}
for round, compsForRound := range s.dkgComplaints {
otherCompsForRound, exists := other.dkgComplaints[round]
if !exists {
return ErrStateDKGComplaintsNotEqual
}
if len(compsForRound) != len(otherCompsForRound) {
return ErrStateDKGComplaintsNotEqual
}
for nID, comps := range compsForRound {
otherComps, exists := otherCompsForRound[nID]
if !exists {
return ErrStateDKGComplaintsNotEqual
}
if len(comps) != len(otherComps) {
return ErrStateDKGComplaintsNotEqual
}
for idx, comp := range comps {
if !comp.Equal(otherComps[idx]) {
return ErrStateDKGComplaintsNotEqual
}
}
}
}
// Check DKG master public keys.
if len(s.dkgMasterPublicKeys) != len(other.dkgMasterPublicKeys) {
return ErrStateDKGMasterPublicKeysNotEqual
}
for round, mKeysForRound := range s.dkgMasterPublicKeys {
otherMKeysForRound, exists := other.dkgMasterPublicKeys[round]
if !exists {
return ErrStateDKGMasterPublicKeysNotEqual
}
if len(mKeysForRound) != len(otherMKeysForRound) {
return ErrStateDKGMasterPublicKeysNotEqual
}
for nID, mKey := range mKeysForRound {
otherMKey, exists := otherMKeysForRound[nID]
if !exists {
return ErrStateDKGMasterPublicKeysNotEqual
}
if !mKey.Equal(otherMKey) {
return ErrStateDKGMasterPublicKeysNotEqual
}
}
}
// Check DKG readys.
if len(s.dkgReadys) != len(other.dkgReadys) {
return ErrStateDKGMPKReadysNotEqual
}
for round, readysForRound := range s.dkgReadys {
otherReadysForRound, exists := other.dkgReadys[round]
if !exists {
return ErrStateDKGMPKReadysNotEqual
}
if len(readysForRound) != len(otherReadysForRound) {
return ErrStateDKGMPKReadysNotEqual
}
for nID, ready := range readysForRound {
otherReady, exists := otherReadysForRound[nID]
if !exists {
return ErrStateDKGMPKReadysNotEqual
}
if !ready.Equal(otherReady) {
return ErrStateDKGMPKReadysNotEqual
}
}
}
// Check DKG finals.
if len(s.dkgFinals) != len(other.dkgFinals) {
return ErrStateDKGFinalsNotEqual
}
for round, finalsForRound := range s.dkgFinals {
otherFinalsForRound, exists := other.dkgFinals[round]
if !exists {
return ErrStateDKGFinalsNotEqual
}
if len(finalsForRound) != len(otherFinalsForRound) {
return ErrStateDKGFinalsNotEqual
}
for nID, final := range finalsForRound {
otherFinal, exists := otherFinalsForRound[nID]
if !exists {
return ErrStateDKGFinalsNotEqual
}
if !final.Equal(otherFinal) {
return ErrStateDKGFinalsNotEqual
}
}
}
// Check CRS part.
if len(s.crs) != len(other.crs) {
return ErrStateCRSsNotEqual
}
for idx, crs := range s.crs {
if crs != other.crs[idx] {
return ErrStateCRSsNotEqual
}
}
// Check pending changes.
checkPending := func(
src, target map[common.Hash]*StateChangeRequest) error {
if len(src) != len(target) {
return ErrStatePendingChangesNotEqual
}
for k, v := range src {
otherV, exists := target[k]
if !exists {
return ErrStatePendingChangesNotEqual
}
if err := v.Equal(otherV); err != nil {
return err
}
}
return nil
}
if err := checkPending(s.ownRequests, other.ownRequests); err != nil {
return err
}
if err := checkPending(s.globalRequests, other.globalRequests); err != nil {
return err
}
return nil
}
// Clone returns a copied State instance.
func (s *State) Clone() (copied *State) {
// Clone configuration parts.
copied = &State{
numChains: s.numChains,
lambdaBA: s.lambdaBA,
lambdaDKG: s.lambdaDKG,
k: s.k,
phiRatio: s.phiRatio,
notarySetSize: s.notarySetSize,
dkgSetSize: s.dkgSetSize,
roundInterval: s.roundInterval,
minBlockInterval: s.minBlockInterval,
local: s.local,
logger: s.logger,
nodes: make(map[types.NodeID]crypto.PublicKey),
dkgComplaints: make(
map[uint64]map[types.NodeID][]*typesDKG.Complaint),
dkgMasterPublicKeys: make(
map[uint64]map[types.NodeID]*typesDKG.MasterPublicKey),
dkgReadys: make(map[uint64]map[types.NodeID]*typesDKG.MPKReady),
dkgFinals: make(map[uint64]map[types.NodeID]*typesDKG.Finalize),
appliedRequests: make(map[common.Hash]struct{}),
}
// Nodes
for nID, key := range s.nodes {
copied.nodes[nID] = key
}
// DKG & CRS
for round, complaintsForRound := range s.dkgComplaints {
copied.dkgComplaints[round] =
make(map[types.NodeID][]*typesDKG.Complaint)
for nID, comps := range complaintsForRound {
tmpComps := []*typesDKG.Complaint{}
for _, comp := range comps {
tmpComps = append(tmpComps, CloneDKGComplaint(comp))
}
copied.dkgComplaints[round][nID] = tmpComps
}
}
for round, mKeysForRound := range s.dkgMasterPublicKeys {
copied.dkgMasterPublicKeys[round] =
make(map[types.NodeID]*typesDKG.MasterPublicKey)
for nID, mKey := range mKeysForRound {
copied.dkgMasterPublicKeys[round][nID] =
CloneDKGMasterPublicKey(mKey)
}
}
for round, readysForRound := range s.dkgReadys {
copied.dkgReadys[round] = make(map[types.NodeID]*typesDKG.MPKReady)
for nID, ready := range readysForRound {
copied.dkgReadys[round][nID] = CloneDKGMPKReady(ready)
}
}
for round, finalsForRound := range s.dkgFinals {
copied.dkgFinals[round] = make(map[types.NodeID]*typesDKG.Finalize)
for nID, final := range finalsForRound {
copied.dkgFinals[round][nID] = CloneDKGFinalize(final)
}
}
for _, crs := range s.crs {
copied.crs = append(copied.crs, crs)
}
for hash := range s.appliedRequests {
copied.appliedRequests[hash] = struct{}{}
}
// Pending Changes
copied.ownRequests = make(map[common.Hash]*StateChangeRequest)
for k, req := range s.ownRequests {
copied.ownRequests[k] = req.Clone()
}
copied.globalRequests = make(map[common.Hash]*StateChangeRequest)
for k, req := range s.globalRequests {
copied.globalRequests[k] = req.Clone()
}
return
}
type reqByTime []*StateChangeRequest
func (req reqByTime) Len() int { return len(req) }
func (req reqByTime) Swap(i, j int) { req[i], req[j] = req[j], req[i] }
func (req reqByTime) Less(i, j int) bool {
return req[i].Timestamp < req[j].Timestamp
}
// Apply change requests, this function would also
// be called when we extract these request from delivered blocks.
func (s *State) Apply(reqsAsBytes []byte) (err error) {
if len(reqsAsBytes) == 0 {
return
}
// Try to unmarshal this byte stream into []*StateChangeRequest.
reqs, err := s.unpackRequests(reqsAsBytes)
if err != nil {
return
}
sort.Sort(reqByTime(reqs))
s.lock.Lock()
defer s.lock.Unlock()
for _, req := range reqs {
s.logger.Debug("Apply Request", "req", req)
// Remove this request from pending set once it's about to apply.
delete(s.globalRequests, req.Hash)
delete(s.ownRequests, req.Hash)
if _, exist := s.appliedRequests[req.Hash]; exist {
continue
}
if err = s.isValidRequest(req); err != nil {
if err == ErrDuplicatedChange {
err = nil
continue
}
return
}
if err = s.applyRequest(req); err != nil {
return
}
s.appliedRequests[req.Hash] = struct{}{}
}
return
}
// AddRequestsFromOthers add requests from others, they won't be packed by
// 'PackOwnRequests'.
func (s *State) AddRequestsFromOthers(reqsAsBytes []byte) (err error) {
if s.local {
err = ErrNotInRemoteMode
return
}
reqs, err := s.unpackRequests(reqsAsBytes)
if err != nil {
return
}
s.lock.Lock()
defer s.lock.Unlock()
for _, req := range reqs {
s.globalRequests[req.Hash] = req
}
return
}
// PackRequests pack all current pending requests, include those from others.
func (s *State) PackRequests() (b []byte, err error) {
if s.local {
// Convert own requests to global one for packing.
if _, err = s.PackOwnRequests(); err != nil {
return
}
}
// Pack requests in global pool.
packed := []*StateChangeRequest{}
s.lock.Lock()
defer s.lock.Unlock()
for _, v := range s.globalRequests {
s.logger.Debug("Pack Request", "req", v)
packed = append(packed, v)
}
return rlp.EncodeToBytes(packed)
}
// PackOwnRequests pack current pending requests as byte slice, which
// could be sent as blocks' payload and unmarshall back to apply.
//
// Once a request is packed as own request, it would be turned into a normal
// pending request and won't be packed by this function. This would ensure
// each request broadcasted(gossip) once.
//
// This function is not required to call in local mode.
func (s *State) PackOwnRequests() (b []byte, err error) {
packed := []*StateChangeRequest{}
s.lock.Lock()
defer s.lock.Unlock()
for k, v := range s.ownRequests {
delete(s.ownRequests, k)
s.globalRequests[k] = v
packed = append(packed, v)
}
if b, err = rlp.EncodeToBytes(packed); err != nil {
return
}
return
}
// isValidRequest checks if this request is valid to proceed or not.
func (s *State) isValidRequest(req *StateChangeRequest) (err error) {
// NOTE: there would be no lock in this helper, callers should be
// responsible for acquiring appropriate lock.
switch req.Type {
case StateAddDKGMasterPublicKey:
mpk := req.Payload.(*typesDKG.MasterPublicKey)
// If we've received identical MPK, ignore it.
mpkForRound, exists := s.dkgMasterPublicKeys[mpk.Round]
if exists {
if oldMpk, exists := mpkForRound[mpk.ProposerID]; exists {
if !oldMpk.Equal(mpk) {
err = ErrDuplicatedChange
}
return
}
}
// If we've received MPK from that proposer, we would ignore
// its mpk.
if _, exists := s.dkgReadys[mpk.Round][mpk.ProposerID]; exists {
return ErrProposerMPKIsReady
}
case StateAddDKGComplaint:
comp := req.Payload.(*typesDKG.Complaint)
// If we've received DKG final from that proposer, we would ignore
// its complaint.
if _, exists := s.dkgFinals[comp.Round][comp.ProposerID]; exists {
return ErrProposerIsFinal
}
// If we've received identical complaint, ignore it.
compForRound, exists := s.dkgComplaints[comp.Round]
if !exists {
break
}
comps, exists := compForRound[comp.ProposerID]
if !exists {
break
}
for _, tmpComp := range comps {
if tmpComp == comp {
return ErrDuplicatedChange
}
}
case StateAddCRS:
crsReq := req.Payload.(*crsAdditionRequest)
if uint64(len(s.crs)) > crsReq.Round {
if !s.crs[crsReq.Round].Equal(crsReq.CRS) {
return ErrForkedCRS
}
return ErrDuplicatedChange
} else if uint64(len(s.crs)) == crsReq.Round {
return nil
} else {
return ErrMissingPreviousCRS
}
}
return nil
}
// applyRequest applies a single StateChangeRequest.
func (s *State) applyRequest(req *StateChangeRequest) error {
// NOTE: there would be no lock in this helper, callers should be
// responsible for acquiring appropriate lock.
switch req.Type {
case StateAddNode:
pubKey, err := ecdsa.NewPublicKeyFromByteSlice(req.Payload.([]byte))
if err != nil {
return err
}
s.nodes[types.NewNodeID(pubKey)] = pubKey
case StateAddCRS:
crsRequest := req.Payload.(*crsAdditionRequest)
if crsRequest.Round != uint64(len(s.crs)) {
return ErrDuplicatedChange
}
s.crs = append(s.crs, crsRequest.CRS)
case StateAddDKGComplaint:
comp := req.Payload.(*typesDKG.Complaint)
if _, exists := s.dkgComplaints[comp.Round]; !exists {
s.dkgComplaints[comp.Round] = make(
map[types.NodeID][]*typesDKG.Complaint)
}
s.dkgComplaints[comp.Round][comp.ProposerID] = append(
s.dkgComplaints[comp.Round][comp.ProposerID], comp)
case StateAddDKGMasterPublicKey:
mKey := req.Payload.(*typesDKG.MasterPublicKey)
if _, exists := s.dkgMasterPublicKeys[mKey.Round]; !exists {
s.dkgMasterPublicKeys[mKey.Round] = make(
map[types.NodeID]*typesDKG.MasterPublicKey)
}
s.dkgMasterPublicKeys[mKey.Round][mKey.ProposerID] = mKey
case StateAddDKGMPKReady:
ready := req.Payload.(*typesDKG.MPKReady)
if _, exists := s.dkgReadys[ready.Round]; !exists {
s.dkgReadys[ready.Round] = make(map[types.NodeID]*typesDKG.MPKReady)
}
s.dkgReadys[ready.Round][ready.ProposerID] = ready
case StateAddDKGFinal:
final := req.Payload.(*typesDKG.Finalize)
if _, exists := s.dkgFinals[final.Round]; !exists {
s.dkgFinals[final.Round] = make(map[types.NodeID]*typesDKG.Finalize)
}
s.dkgFinals[final.Round][final.ProposerID] = final
case StateChangeNumChains:
s.numChains = req.Payload.(uint32)
case StateChangeLambdaBA:
s.lambdaBA = time.Duration(req.Payload.(uint64))
case StateChangeLambdaDKG:
s.lambdaDKG = time.Duration(req.Payload.(uint64))
case StateChangeRoundInterval:
s.roundInterval = time.Duration(req.Payload.(uint64))
case StateChangeMinBlockInterval:
s.minBlockInterval = time.Duration(req.Payload.(uint64))
case StateChangeK:
s.k = int(req.Payload.(uint64))
case StateChangePhiRatio:
s.phiRatio = math.Float32frombits(req.Payload.(uint32))
case StateChangeNotarySetSize:
s.notarySetSize = req.Payload.(uint32)
case StateChangeDKGSetSize:
s.dkgSetSize = req.Payload.(uint32)
default:
return errors.New("you are definitely kidding me")
}
return nil
}
// ProposeCRS propose a new CRS for a specific round.
func (s *State) ProposeCRS(round uint64, crs common.Hash) (err error) {
err = s.RequestChange(StateAddCRS, &crsAdditionRequest{
Round: round,
CRS: crs,
})
return
}
// RequestChange submits a state change request.
func (s *State) RequestChange(
t StateChangeType, payload interface{}) (err error) {
s.logger.Info("Request Change to State", "type", t, "value", payload)
// Patch input parameter's type.
switch t {
case StateAddNode:
payload = payload.(crypto.PublicKey).Bytes()
case StateChangeLambdaBA,
StateChangeLambdaDKG,
StateChangeRoundInterval,
StateChangeMinBlockInterval:
payload = uint64(payload.(time.Duration))
case StateChangeK:
payload = uint64(payload.(int))
case StateChangePhiRatio:
payload = math.Float32bits(payload.(float32))
// These cases for for type assertion, make sure callers pass expected types.
case StateAddCRS:
payload = payload.(*crsAdditionRequest)
case StateAddDKGMPKReady:
payload = payload.(*typesDKG.MPKReady)
case StateAddDKGFinal:
payload = payload.(*typesDKG.Finalize)
case StateAddDKGMasterPublicKey:
payload = payload.(*typesDKG.MasterPublicKey)
case StateAddDKGComplaint:
payload = payload.(*typesDKG.Complaint)
}
req := NewStateChangeRequest(t, payload)
s.lock.Lock()
defer s.lock.Unlock()
if s.local {
if err = s.isValidRequest(req); err != nil {
return
}
err = s.applyRequest(req)
} else {
if err = s.isValidRequest(req); err != nil {
return
}
s.ownRequests[req.Hash] = req
}
return
}
// CRS access crs proposed for that round.
func (s *State) CRS(round uint64) common.Hash {
s.lock.RLock()
defer s.lock.RUnlock()
if round >= uint64(len(s.crs)) {
return common.Hash{}
}
return s.crs[round]
}
// DKGComplaints access current received dkg complaints for that round.
// This information won't be snapshot, thus can't be cached in test.Governance.
func (s *State) DKGComplaints(round uint64) []*typesDKG.Complaint {
s.lock.RLock()
defer s.lock.RUnlock()
comps, exists := s.dkgComplaints[round]
if !exists {
return nil
}
tmpComps := make([]*typesDKG.Complaint, 0, len(comps))
for _, compProp := range comps {
for _, comp := range compProp {
tmpComps = append(tmpComps, CloneDKGComplaint(comp))
}
}
return tmpComps
}
// DKGMasterPublicKeys access current received dkg master public keys for that
// round. This information won't be snapshot, thus can't be cached in
// test.Governance.
func (s *State) DKGMasterPublicKeys(round uint64) []*typesDKG.MasterPublicKey {
s.lock.RLock()
defer s.lock.RUnlock()
masterPublicKeys, exists := s.dkgMasterPublicKeys[round]
if !exists {
return nil
}
mpks := make([]*typesDKG.MasterPublicKey, 0, len(masterPublicKeys))
for _, mpk := range masterPublicKeys {
mpks = append(mpks, CloneDKGMasterPublicKey(mpk))
}
return mpks
}
// IsDKGMPKReady checks if current received dkg readys exceeds threshold.
// This information won't be snapshot, thus can't be cached in test.Governance.
func (s *State) IsDKGMPKReady(round uint64, threshold int) bool {
s.lock.RLock()
defer s.lock.RUnlock()
return len(s.dkgReadys[round]) > threshold
}
// IsDKGFinal checks if current received dkg finals exceeds threshold.
// This information won't be snapshot, thus can't be cached in test.Governance.
func (s *State) IsDKGFinal(round uint64, threshold int) bool {
s.lock.RLock()
defer s.lock.RUnlock()
return len(s.dkgFinals[round]) > threshold
}
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