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374 lines
9.3 KiB
374 lines
9.3 KiB
package shard
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import (
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"bytes"
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"encoding/hex"
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"encoding/json"
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"math/big"
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"sort"
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"github.com/ethereum/go-ethereum/common"
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"github.com/ethereum/go-ethereum/rlp"
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"github.com/harmony-one/bls/ffi/go/bls"
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common2 "github.com/harmony-one/harmony/internal/common"
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"github.com/harmony-one/harmony/internal/ctxerror"
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"github.com/harmony-one/harmony/numeric"
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"golang.org/x/crypto/sha3"
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)
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var (
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emptyBlsPubKey = BlsPublicKey{}
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)
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// PublicKeySizeInBytes ..
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const (
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PublicKeySizeInBytes = 48
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BLSSignatureSizeInBytes = 96
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)
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// State is the collection of all committees
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type State struct {
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Epoch *big.Int `json:"epoch"`
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Shards []Committee `json:"shards"`
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}
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// BlsPublicKey defines the bls public key
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type BlsPublicKey [PublicKeySizeInBytes]byte
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// BLSSignature defines the bls signature
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type BLSSignature [BLSSignatureSizeInBytes]byte
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// Slot represents node id (BLS address)
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type Slot struct {
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EcdsaAddress common.Address `json:"ecdsa-address"`
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BlsPublicKey BlsPublicKey `json:"bls-pubkey"`
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// nil means our node, 0 means not active, > 0 means staked node
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EffectiveStake *numeric.Dec `json:"effective-stake" rlp:"nil"`
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}
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// SlotList is a list of Slot.
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type SlotList []Slot
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// Committee contains the active nodes in one shard
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type Committee struct {
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ShardID uint32 `json:"shard-id"`
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Slots SlotList `json:"subcommittee"`
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}
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/* Legacy
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These are the pre-staking used data-structures, needed to maintain
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compatibilty for RLP decode/encode
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*/
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// StateLegacy ..
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type StateLegacy []CommitteeLegacy
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// SlotLegacy represents node id (BLS address)
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type SlotLegacy struct {
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EcdsaAddress common.Address `json:"ecdsa-address"`
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BlsPublicKey BlsPublicKey `json:"bls-pubkey"`
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}
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// SlotListLegacy is a list of SlotList.
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type SlotListLegacy []SlotLegacy
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// CommitteeLegacy contains the active nodes in one shard
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type CommitteeLegacy struct {
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ShardID uint32 `json:"shard-id"`
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Slots SlotListLegacy `json:"subcommittee"`
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}
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// DecodeWrapper ..
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func DecodeWrapper(shardState []byte) (*State, error) {
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oldSS := StateLegacy{}
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newSS := State{}
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var (
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err1 error
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err2 error
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)
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err1 = rlp.DecodeBytes(shardState, &newSS)
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if err1 == nil {
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return &newSS, nil
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}
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err2 = rlp.DecodeBytes(shardState, &oldSS)
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if err2 == nil {
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newSS := State{}
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newSS.Shards = make([]Committee, len(oldSS))
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for i := range oldSS {
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newSS.Shards[i] = Committee{ShardID: oldSS[i].ShardID, Slots: SlotList{}}
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for _, slot := range oldSS[i].Slots {
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newSS.Shards[i].Slots = append(newSS.Shards[i].Slots, Slot{
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slot.EcdsaAddress, slot.BlsPublicKey, nil,
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})
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}
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}
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newSS.Epoch = nil // Make sure for legacy state, the epoch is nil
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return &newSS, nil
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}
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return nil, err2
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}
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// EncodeWrapper ..
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func EncodeWrapper(shardState State, isStaking bool) ([]byte, error) {
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var (
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data []byte
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err error
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)
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if isStaking {
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data, err = rlp.EncodeToBytes(shardState)
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} else {
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shardStateLegacy := make(StateLegacy, len(shardState.Shards))
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for i := range shardState.Shards {
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shardStateLegacy[i] = CommitteeLegacy{
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ShardID: shardState.Shards[i].ShardID, Slots: SlotListLegacy{},
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}
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for _, slot := range shardState.Shards[i].Slots {
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shardStateLegacy[i].Slots = append(shardStateLegacy[i].Slots, SlotLegacy{
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slot.EcdsaAddress, slot.BlsPublicKey,
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})
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}
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}
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data, err = rlp.EncodeToBytes(shardStateLegacy)
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}
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return data, err
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}
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// ExternalValidators returns only the staking era,
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// external validators aka non-harmony nodes
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func (ss *State) ExternalValidators() []common.Address {
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processed := make(map[common.Address]struct{})
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for i := range ss.Shards {
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shard := ss.Shards[i]
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for j := range shard.Slots {
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slot := shard.Slots[j]
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if slot.EffectiveStake != nil { // For external validator
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_, ok := processed[slot.EcdsaAddress]
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if !ok {
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processed[slot.EcdsaAddress] = struct{}{}
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}
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}
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}
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}
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slice, i := make([]common.Address, len(processed)), 0
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for key := range processed {
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slice[i] = key
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i++
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}
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return slice
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}
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// JSON produces a non-pretty printed JSON string of the SuperCommittee
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func (ss *State) JSON() string {
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type t struct {
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Slot
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EcdsaAddress string `json:"ecdsa-address"`
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}
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type v struct {
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Committee
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Count int `json:"member-count"`
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NodeList []t `json:"subcommittee"`
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}
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dump := make([]v, len(ss.Shards))
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for i := range ss.Shards {
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c := len(ss.Shards[i].Slots)
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dump[i].ShardID = ss.Shards[i].ShardID
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dump[i].NodeList = make([]t, c)
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dump[i].Count = c
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for j := range ss.Shards[i].Slots {
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n := ss.Shards[i].Slots[j]
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dump[i].NodeList[j].BlsPublicKey = n.BlsPublicKey
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dump[i].NodeList[j].EffectiveStake = n.EffectiveStake
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dump[i].NodeList[j].EcdsaAddress = common2.MustAddressToBech32(n.EcdsaAddress)
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}
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}
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buf, _ := json.Marshal(dump)
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return string(buf)
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}
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// FindCommitteeByID returns the committee configuration for the given shard,
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// or nil if the given shard is not found.
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func (ss *State) FindCommitteeByID(shardID uint32) *Committee {
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if ss == nil {
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return nil
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}
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for committee := range ss.Shards {
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if ss.Shards[committee].ShardID == shardID {
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return &ss.Shards[committee]
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}
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}
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return nil
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}
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// DeepCopy returns a deep copy of the receiver.
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func (ss *State) DeepCopy() *State {
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var r State
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if ss.Epoch != nil {
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r.Epoch = big.NewInt(0).Set(ss.Epoch)
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}
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for _, c := range ss.Shards {
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r.Shards = append(r.Shards, c.DeepCopy())
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}
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return &r
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}
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// Big ..
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func (pk BlsPublicKey) Big() *big.Int {
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return new(big.Int).SetBytes(pk[:])
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}
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// IsEmpty returns whether the bls public key is empty 0 bytes
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func (pk BlsPublicKey) IsEmpty() bool {
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return bytes.Compare(pk[:], emptyBlsPubKey[:]) == 0
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}
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// Hex returns the hex string of bls public key
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func (pk BlsPublicKey) Hex() string {
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return hex.EncodeToString(pk[:])
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}
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// MarshalJSON ..
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func (pk BlsPublicKey) MarshalJSON() ([]byte, error) {
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buf := bytes.Buffer{}
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buf.WriteString(`"`)
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buf.WriteString(pk.Hex())
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buf.WriteString(`"`)
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return buf.Bytes(), nil
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}
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// FromLibBLSPublicKeyUnsafe could give back nil, use only in cases when
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// have invariant that return value won't be nil
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func FromLibBLSPublicKeyUnsafe(key *bls.PublicKey) *BlsPublicKey {
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result := &BlsPublicKey{}
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if err := result.FromLibBLSPublicKey(key); err != nil {
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return nil
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}
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return result
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}
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// FromLibBLSPublicKey replaces the key contents with the given key,
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func (pk *BlsPublicKey) FromLibBLSPublicKey(key *bls.PublicKey) error {
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bytes := key.Serialize()
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if len(bytes) != len(pk) {
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return ctxerror.New("BLS public key size mismatch",
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"expected", len(pk),
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"actual", len(bytes))
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}
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copy(pk[:], bytes)
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return nil
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}
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// ToLibBLSPublicKey copies the key contents into the given key.
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func (pk *BlsPublicKey) ToLibBLSPublicKey(key *bls.PublicKey) error {
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return key.Deserialize(pk[:])
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}
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// CompareBlsPublicKey compares two BlsPublicKey, lexicographically.
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func CompareBlsPublicKey(k1, k2 BlsPublicKey) int {
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return bytes.Compare(k1[:], k2[:])
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}
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// CompareNodeID compares two node IDs.
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func CompareNodeID(id1, id2 *Slot) int {
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if c := bytes.Compare(id1.EcdsaAddress[:], id2.EcdsaAddress[:]); c != 0 {
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return c
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}
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if c := CompareBlsPublicKey(id1.BlsPublicKey, id2.BlsPublicKey); c != 0 {
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return c
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}
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return 0
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}
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// DeepCopy returns a deep copy of the receiver.
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func (l SlotList) DeepCopy() SlotList {
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return append(l[:0:0], l...)
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}
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// CompareNodeIDList compares two node ID lists.
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func CompareNodeIDList(l1, l2 SlotList) int {
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commonLen := len(l1)
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if commonLen > len(l2) {
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commonLen = len(l2)
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}
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for idx := 0; idx < commonLen; idx++ {
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if c := CompareNodeID(&l1[idx], &l2[idx]); c != 0 {
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return c
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}
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}
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switch {
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case len(l1) < len(l2):
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return -1
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case len(l1) > len(l2):
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return +1
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}
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return 0
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}
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// DeepCopy returns a deep copy of the receiver.
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func (c Committee) DeepCopy() Committee {
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r := Committee{}
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r.ShardID = c.ShardID
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r.Slots = c.Slots.DeepCopy()
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return r
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}
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// CompareCommittee compares two committees and their leader/node list.
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func CompareCommittee(c1, c2 *Committee) int {
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switch {
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case c1.ShardID < c2.ShardID:
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return -1
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case c1.ShardID > c2.ShardID:
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return +1
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}
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if c := CompareNodeIDList(c1.Slots, c2.Slots); c != 0 {
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return c
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}
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return 0
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}
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// GetHashFromNodeList will sort the list, then use Keccak256 to hash the list
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// NOTE: do not modify the underlining content for hash
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func GetHashFromNodeList(nodeList []Slot) []byte {
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// in general, nodeList should not be empty
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if nodeList == nil || len(nodeList) == 0 {
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return []byte{}
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}
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d := sha3.NewLegacyKeccak256()
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for _, nodeID := range nodeList {
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d.Write(nodeID.Serialize())
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}
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return d.Sum(nil)
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}
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// Hash is the root hash of State
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func (ss *State) Hash() (h common.Hash) {
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// TODO ek – this sorting really doesn't belong here; it should instead
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// be made an explicit invariant to be maintained and, if needed, checked.
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copy := ss.DeepCopy()
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sort.Slice(copy.Shards, func(i, j int) bool {
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return copy.Shards[i].ShardID < copy.Shards[j].ShardID
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})
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d := sha3.NewLegacyKeccak256()
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for i := range copy.Shards {
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hash := GetHashFromNodeList(copy.Shards[i].Slots)
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d.Write(hash)
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}
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d.Sum(h[:0])
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return h
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}
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// Serialize serialize Slot into bytes
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func (n Slot) Serialize() []byte {
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return append(n.EcdsaAddress[:], n.BlsPublicKey[:]...)
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}
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func (n Slot) String() string {
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total := "nil"
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if n.EffectiveStake != nil {
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total = n.EffectiveStake.String()
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}
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return "ECDSA: " + common2.MustAddressToBech32(n.EcdsaAddress) + ", BLS: " + hex.EncodeToString(n.BlsPublicKey[:]) + ", EffectiveStake: " + total
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}
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