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258 lines
7.9 KiB
258 lines
7.9 KiB
package committee
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import (
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"math/big"
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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/block"
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common2 "github.com/harmony-one/harmony/internal/common"
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shardingconfig "github.com/harmony-one/harmony/internal/configs/sharding"
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"github.com/harmony-one/harmony/internal/ctxerror"
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"github.com/harmony-one/harmony/internal/params"
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"github.com/harmony-one/harmony/shard"
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"github.com/harmony-one/harmony/staking/effective"
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staking "github.com/harmony-one/harmony/staking/types"
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)
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// ValidatorListProvider ..
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type ValidatorListProvider interface {
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Compute(
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epoch *big.Int, config params.ChainConfig, reader DataProvider,
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) (shard.State, error)
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ReadFromDB(epoch *big.Int, reader DataProvider) (shard.State, error)
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}
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// PublicKeysProvider per epoch
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type PublicKeysProvider interface {
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ComputePublicKeys(epoch *big.Int, reader DataProvider) [][]*bls.PublicKey
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ReadPublicKeysFromDB(
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hash common.Hash, reader DataProvider,
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) ([]*bls.PublicKey, error)
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}
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// Reader is committee.Reader and it is the API that committee membership assignment needs
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type Reader interface {
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PublicKeysProvider
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ValidatorListProvider
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}
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// StakingCandidatesReader ..
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type StakingCandidatesReader interface {
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ValidatorInformation(addr common.Address) (*staking.Validator, error)
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ValidatorStakingWithDelegation(addr common.Address) *big.Int
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ValidatorCandidates() []common.Address
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}
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// ChainReader is a subset of Engine.ChainReader, just enough to do assignment
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type ChainReader interface {
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// ReadShardState retrieves sharding state given the epoch number.
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// This api reads the shard state cached or saved on the chaindb.
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// Thus, only should be used to read the shard state of the current chain.
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ReadShardState(epoch *big.Int) (shard.State, error)
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// GetHeader retrieves a block header from the database by hash and number.
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GetHeaderByHash(common.Hash) *block.Header
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// Config retrieves the blockchain's chain configuration.
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Config() *params.ChainConfig
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}
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// DataProvider ..
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type DataProvider interface {
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StakingCandidatesReader
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ChainReader
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}
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type partialStakingEnabled struct{}
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var (
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// WithStakingEnabled ..
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WithStakingEnabled Reader = partialStakingEnabled{}
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)
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func preStakingEnabledCommittee(s shardingconfig.Instance) shard.State {
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shardNum := int(s.NumShards())
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shardHarmonyNodes := s.NumHarmonyOperatedNodesPerShard()
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shardSize := s.NumNodesPerShard()
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hmyAccounts := s.HmyAccounts()
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fnAccounts := s.FnAccounts()
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shardState := shard.State{}
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for i := 0; i < shardNum; i++ {
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com := shard.Committee{ShardID: uint32(i)}
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for j := 0; j < shardHarmonyNodes; j++ {
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index := i + j*shardNum // The initial account to use for genesis nodes
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pub := &bls.PublicKey{}
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pub.DeserializeHexStr(hmyAccounts[index].BlsPublicKey)
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pubKey := shard.BlsPublicKey{}
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pubKey.FromLibBLSPublicKey(pub)
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// TODO: directly read address for bls too
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curNodeID := shard.Slot{
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common2.ParseAddr(hmyAccounts[index].Address),
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pubKey,
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nil,
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}
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com.Slots = append(com.Slots, curNodeID)
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}
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// add FN runner's key
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for j := shardHarmonyNodes; j < shardSize; j++ {
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index := i + (j-shardHarmonyNodes)*shardNum
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pub := &bls.PublicKey{}
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pub.DeserializeHexStr(fnAccounts[index].BlsPublicKey)
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pubKey := shard.BlsPublicKey{}
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pubKey.FromLibBLSPublicKey(pub)
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// TODO: directly read address for bls too
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curNodeID := shard.Slot{
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common2.ParseAddr(fnAccounts[index].Address),
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pubKey,
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nil,
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}
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com.Slots = append(com.Slots, curNodeID)
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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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func eposStakedCommittee(
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s shardingconfig.Instance, stakerReader DataProvider, stakedSlotsCount int,
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) (shard.State, error) {
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// TODO Nervous about this because overtime the list will become quite large
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candidates := stakerReader.ValidatorCandidates()
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essentials := map[common.Address]effective.SlotOrder{}
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// TODO benchmark difference if went with data structure that sorts on insert
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for i := range candidates {
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// TODO Should be using .ValidatorStakingWithDelegation, not implemented yet
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validator, err := stakerReader.ValidatorInformation(candidates[i])
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if err != nil {
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return nil, err
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}
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essentials[validator.Address] = effective.SlotOrder{
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validator.Stake,
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validator.SlotPubKeys,
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}
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}
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shardCount := int(s.NumShards())
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superComm := make(shard.State, shardCount)
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hAccounts := s.HmyAccounts()
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for i := 0; i < shardCount; i++ {
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superComm[i] = shard.Committee{uint32(i), shard.SlotList{}}
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}
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for i := range hAccounts {
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spot := i % shardCount
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pub := &bls.PublicKey{}
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pub.DeserializeHexStr(hAccounts[i].BlsPublicKey)
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pubKey := shard.BlsPublicKey{}
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pubKey.FromLibBLSPublicKey(pub)
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superComm[spot].Slots = append(superComm[spot].Slots, shard.Slot{
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common2.ParseAddr(hAccounts[i].Address),
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pubKey,
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nil,
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})
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}
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staked := effective.Apply(essentials, stakedSlotsCount)
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shardBig := big.NewInt(int64(shardCount))
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if l := len(staked); l < stakedSlotsCount {
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// WARN unlikely to happen in production but will happen as we are developing
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stakedSlotsCount = l
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}
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for i := 0; i < stakedSlotsCount; i++ {
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bucket := int(new(big.Int).Mod(staked[i].BlsPublicKey.Big(), shardBig).Int64())
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slot := staked[i]
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superComm[bucket].Slots = append(superComm[bucket].Slots, shard.Slot{
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slot.Address,
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staked[i].BlsPublicKey,
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&slot.Dec,
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})
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}
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// fmt.Println("epos-comm", superComm.JSON())
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return superComm, nil
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}
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// ComputePublicKeys produces publicKeys of entire supercommittee per epoch
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func (def partialStakingEnabled) ComputePublicKeys(
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epoch *big.Int, d DataProvider,
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) [][]*bls.PublicKey {
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config := d.Config()
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instance := shard.Schedule.InstanceForEpoch(epoch)
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superComm := shard.State{}
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if config.IsStaking(epoch) {
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stakedSlots :=
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(instance.NumNodesPerShard() - instance.NumHarmonyOperatedNodesPerShard()) *
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int(instance.NumShards())
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superComm, _ = eposStakedCommittee(instance, d, stakedSlots)
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} else {
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superComm = preStakingEnabledCommittee(instance)
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}
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allIdentities := make([][]*bls.PublicKey, len(superComm))
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for i := range superComm {
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allIdentities[i] = make([]*bls.PublicKey, len(superComm[i].Slots))
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for j := range superComm[i].Slots {
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identity := &bls.PublicKey{}
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superComm[i].Slots[j].BlsPublicKey.ToLibBLSPublicKey(identity)
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allIdentities[i][j] = identity
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}
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}
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return allIdentities
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}
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func (def partialStakingEnabled) ReadPublicKeysFromDB(
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h common.Hash, reader DataProvider,
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) ([]*bls.PublicKey, error) {
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header := reader.GetHeaderByHash(h)
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shardID := header.ShardID()
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superCommittee, err := reader.ReadShardState(header.Epoch())
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if err != nil {
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return nil, err
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}
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subCommittee := superCommittee.FindCommitteeByID(shardID)
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if subCommittee == nil {
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return nil, ctxerror.New("cannot find shard in the shard state",
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"blockNumber", header.Number(),
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"shardID", header.ShardID(),
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)
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}
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committerKeys := []*bls.PublicKey{}
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for i := range subCommittee.Slots {
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committerKey := new(bls.PublicKey)
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err := subCommittee.Slots[i].BlsPublicKey.ToLibBLSPublicKey(committerKey)
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if err != nil {
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return nil, ctxerror.New("cannot convert BLS public key",
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"blsPublicKey", subCommittee.Slots[i].BlsPublicKey).WithCause(err)
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}
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committerKeys = append(committerKeys, committerKey)
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}
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return committerKeys, nil
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return nil, nil
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}
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func (def partialStakingEnabled) ReadFromDB(
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epoch *big.Int, reader DataProvider,
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) (newSuperComm shard.State, err error) {
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return reader.ReadShardState(epoch)
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}
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// ReadFromComputation is single entry point for reading the State of the network
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func (def partialStakingEnabled) Compute(
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epoch *big.Int, config params.ChainConfig, stakerReader DataProvider,
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) (newSuperComm shard.State, err error) {
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instance := shard.Schedule.InstanceForEpoch(epoch)
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if !config.IsStaking(epoch) {
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return preStakingEnabledCommittee(instance), nil
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}
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stakedSlots :=
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(instance.NumNodesPerShard() - instance.NumHarmonyOperatedNodesPerShard()) *
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int(instance.NumShards())
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return eposStakedCommittee(instance, stakerReader, stakedSlots)
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}
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