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217 lines
7.4 KiB
217 lines
7.4 KiB
package core
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import (
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"encoding/binary"
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"encoding/hex"
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"math"
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"math/rand"
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"sort"
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"github.com/ethereum/go-ethereum/common"
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"github.com/harmony-one/bls/ffi/go/bls"
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"github.com/harmony-one/harmony/contracts/structs"
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"github.com/harmony-one/harmony/internal/utils"
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"github.com/harmony-one/harmony/internal/utils/contract"
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"github.com/harmony-one/harmony/core/types"
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)
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const (
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// InitialSeed is the initial random seed, a magic number to answer everything, remove later
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InitialSeed uint32 = 42
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// GenesisEpoch is the number of the first genesis epoch.
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GenesisEpoch = 0
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// GenesisShardNum is the number of shard at genesis
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GenesisShardNum = 3
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// GenesisShardSize is the size of each shard at genesis
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GenesisShardSize = 10
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)
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// ShardingState is data structure hold the sharding state
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type ShardingState struct {
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epoch uint64 // current epoch
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rnd uint64 // random seed for resharding
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numShards int
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shardState types.ShardState
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}
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// sortedCommitteeBySize will sort shards by size
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// Suppose there are N shards, the first N/2 larger shards are called active committees
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// the rest N/2 smaller committees are called inactive committees
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// actually they are all just normal shards
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// TODO: sort the committee weighted by total staking instead of shard size
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func (ss *ShardingState) sortCommitteeBySize() {
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sort.Slice(ss.shardState, func(i, j int) bool {
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return len(ss.shardState[i].NodeList) > len(ss.shardState[j].NodeList)
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})
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}
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// assignNewNodes add new nodes into the N/2 active committees evenly
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func (ss *ShardingState) assignNewNodes(newNodeList []types.NodeID) {
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ss.sortCommitteeBySize()
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numActiveShards := ss.numShards / 2
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Shuffle(newNodeList)
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for i, nid := range newNodeList {
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id := i % numActiveShards
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ss.shardState[id].NodeList = append(ss.shardState[id].NodeList, nid)
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}
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}
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// cuckooResharding uses cuckoo rule to reshard X% of active committee(shards) into inactive committee(shards)
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func (ss *ShardingState) cuckooResharding(percent float64) {
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numActiveShards := ss.numShards / 2
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kickedNodes := []types.NodeID{}
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for i := range ss.shardState {
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if i >= numActiveShards {
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break
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}
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numKicked := int(percent * float64(len(ss.shardState[i].NodeList)))
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if numKicked == 0 {
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numKicked++
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}
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length := len(ss.shardState[i].NodeList)
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tmp := ss.shardState[i].NodeList[length-numKicked:]
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kickedNodes = append(kickedNodes, tmp...)
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ss.shardState[i].NodeList = ss.shardState[i].NodeList[:length-numKicked]
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}
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Shuffle(kickedNodes)
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numInactiveShards := ss.numShards - numActiveShards
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for i, nid := range kickedNodes {
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id := numActiveShards + i%numInactiveShards
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ss.shardState[id].NodeList = append(ss.shardState[id].NodeList, nid)
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}
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}
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// assignLeaders will first add new nodes into shards, then use cuckoo rule to reshard to get new shard state
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func (ss *ShardingState) assignLeaders() {
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for i := 0; i < ss.numShards; i++ {
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// At genesis epoch, the shards are empty.
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if len(ss.shardState[i].NodeList) > 0 {
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Shuffle(ss.shardState[i].NodeList)
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ss.shardState[i].Leader = ss.shardState[i].NodeList[0]
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}
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}
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}
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// Reshard will first add new nodes into shards, then use cuckoo rule to reshard to get new shard state
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func (ss *ShardingState) Reshard(newNodeList []types.NodeID, percent float64) {
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rand.Seed(int64(ss.rnd))
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ss.sortCommitteeBySize()
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// TODO: separate shuffling and leader assignment
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ss.assignLeaders()
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ss.assignNewNodes(newNodeList)
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ss.cuckooResharding(percent)
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}
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// Shuffle will shuffle the list with result uniquely determined by seed, assuming there is no repeat items in the list
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func Shuffle(list []types.NodeID) {
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// Sort to make sure everyone will generate the same with the same rand seed.
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sort.Slice(list, func(i, j int) bool {
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return types.CompareNodeID(list[i], list[j]) == -1
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})
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rand.Shuffle(len(list), func(i, j int) {
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list[i], list[j] = list[j], list[i]
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})
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}
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// GetBlockNumberFromEpoch calculates the block number where epoch sharding information is stored
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func GetBlockNumberFromEpoch(epoch uint64) uint64 {
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number := epoch * uint64(BlocksPerEpoch) // currently we use the first block in each epoch
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return number
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}
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// GetEpochFromBlockNumber calculates the epoch number the block belongs to
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func GetEpochFromBlockNumber(blockNumber uint64) uint64 {
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return blockNumber / uint64(BlocksPerEpoch)
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}
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// GetShardingStateFromBlockChain will retrieve random seed and shard map from beacon chain for given a epoch
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func GetShardingStateFromBlockChain(bc *BlockChain, epoch uint64) *ShardingState {
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number := GetBlockNumberFromEpoch(epoch)
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shardState := bc.GetShardStateByNumber(number)
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rndSeedBytes := bc.GetRandSeedByNumber(number)
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rndSeed := binary.BigEndian.Uint64(rndSeedBytes[:])
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return &ShardingState{epoch: epoch, rnd: rndSeed, shardState: shardState, numShards: len(shardState)}
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}
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// CalculateNewShardState get sharding state from previous epoch and calculate sharding state for new epoch
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// TODO: currently, we just mock everything
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func CalculateNewShardState(bc *BlockChain, epoch uint64, stakeInfo *map[common.Address]*structs.StakeInfo) types.ShardState {
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if epoch == GenesisEpoch {
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return GetInitShardState()
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}
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ss := GetShardingStateFromBlockChain(bc, epoch-1)
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newNodeList := ss.UpdateShardingState(stakeInfo)
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percent := ss.calculateKickoutRate(newNodeList)
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utils.GetLogInstance().Info("Kickout Percentage", "percentage", percent)
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ss.Reshard(newNodeList, percent)
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return ss.shardState
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}
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// UpdateShardingState remove the unstaked nodes and returns the newly staked node Ids.
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func (ss *ShardingState) UpdateShardingState(stakeInfo *map[common.Address]*structs.StakeInfo) []types.NodeID {
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oldAddresses := make(map[common.Address]bool)
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for _, shard := range ss.shardState {
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newNodeList := shard.NodeList[:0]
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for _, nodeID := range shard.NodeList {
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addr := common.Address{}
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addrBytes, err := hex.DecodeString(string(nodeID))
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if err != nil {
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utils.GetLogInstance().Error("Failed to decode address hex")
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}
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addr.SetBytes(addrBytes)
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oldAddresses[addr] = true
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_, ok := (*stakeInfo)[addr]
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if ok {
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newNodeList = append(newNodeList, nodeID)
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} else {
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// Remove the node if it's no longer staked
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}
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}
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shard.NodeList = newNodeList
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}
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newAddresses := []types.NodeID{}
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for addr := range *stakeInfo {
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_, ok := oldAddresses[addr]
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if !ok {
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newAddresses = append(newAddresses, types.NodeID(addr.Hex()))
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}
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}
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return newAddresses
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}
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// calculateKickoutRate calculates the cuckoo rule kick out rate in order to make committee balanced
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func (ss *ShardingState) calculateKickoutRate(newNodeList []types.NodeID) float64 {
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numActiveCommittees := ss.numShards / 2
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newNodesPerShard := math.Ceil(float64(len(newNodeList)) / float64(numActiveCommittees))
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ss.sortCommitteeBySize()
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L := len(ss.shardState[0].NodeList)
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if L == 0 {
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return 0.0
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}
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rate := newNodesPerShard / float64(L)
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return math.Max(0.1, math.Min(rate, 1.0))
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}
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// GetInitShardState returns the initial shard state at genesis.
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func GetInitShardState() types.ShardState {
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shardState := types.ShardState{}
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for i := 0; i < GenesisShardNum; i++ {
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com := types.Committee{ShardID: uint32(i)}
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if i == 0 {
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for j := 0; j < GenesisShardSize; j++ {
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priKey := bls.SecretKey{}
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priKey.SetHexString(contract.InitialBeaconChainAccounts[j].Private)
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addrBytes := priKey.GetPublicKey().GetAddress()
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address := hex.EncodeToString(addrBytes[:])
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com.NodeList = append(com.NodeList, types.NodeID(address))
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}
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}
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shardState = append(shardState, com)
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}
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return shardState
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}
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