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indexHashedNodesCoordinatorRegistry.go
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indexHashedNodesCoordinatorRegistry.go
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package sharding
import (
"encoding/json"
"fmt"
"strconv"
"github.com/ElrondNetwork/elrond-go/core"
)
// SerializableValidator holds the minimal data required for marshalling and un-marshalling a validator
type SerializableValidator struct {
PubKey []byte `json:"pubKey"`
Chances uint32 `json:"chances"`
Index uint32 `json:"index"`
}
// EpochValidators holds one epoch configuration for a nodes coordinator
type EpochValidators struct {
EligibleValidators map[string][]*SerializableValidator `json:"eligibleValidators"`
WaitingValidators map[string][]*SerializableValidator `json:"waitingValidators"`
LeavingValidators []*SerializableValidator `json:"leavingValidators"`
}
// NodesCoordinatorRegistry holds the data that can be used to initialize a nodes coordinator
type NodesCoordinatorRegistry struct {
EpochsConfig map[string]*EpochValidators `json:"epochConfigs"`
CurrentEpoch uint32 `json:"currentEpoch"`
}
// TODO: add proto marshalizer for these package - replace all json marshalizers
// LoadState loads the nodes coordinator state from the used boot storage
func (ihgs *indexHashedNodesCoordinator) LoadState(key []byte) error {
return ihgs.baseLoadState(key)
}
// LoadState loads the nodes coordinator state from the used boot storage
func (ihgs *indexHashedNodesCoordinatorWithRater) LoadState(key []byte) error {
return ihgs.baseLoadState(key)
}
func (ihgs *indexHashedNodesCoordinator) baseLoadState(key []byte) error {
ncInternalkey := append([]byte(core.NodesCoordinatorRegistryKeyPrefix), key...)
log.Debug("getting nodes coordinator config", "key", ncInternalkey)
ihgs.loadingFromDisk.Store(true)
defer ihgs.loadingFromDisk.Store(false)
data, err := ihgs.bootStorer.Get(ncInternalkey)
if err != nil {
return err
}
config := &NodesCoordinatorRegistry{}
err = json.Unmarshal(data, config)
if err != nil {
return err
}
ihgs.mutSavedStateKey.Lock()
ihgs.savedStateKey = key
ihgs.mutSavedStateKey.Unlock()
ihgs.currentEpoch = config.CurrentEpoch
log.Debug("loaded nodes config", "current epoch", config.CurrentEpoch)
nodesConfig, err := ihgs.registryToNodesCoordinator(config)
if err != nil {
return err
}
displayNodesConfigInfo(nodesConfig)
ihgs.mutNodesConfig.Lock()
ihgs.nodesConfig = nodesConfig
ihgs.mutNodesConfig.Unlock()
return nil
}
func displayNodesConfigInfo(config map[uint32]*epochNodesConfig) {
for epoch, cfg := range config {
log.Debug("restored config for",
"epoch", epoch,
"computed shard ID", cfg.shardID,
)
}
}
func (ihgs *indexHashedNodesCoordinator) saveState(key []byte) error {
registry := ihgs.NodesCoordinatorToRegistry()
data, err := json.Marshal(registry)
if err != nil {
return err
}
ncInternalkey := append([]byte(core.NodesCoordinatorRegistryKeyPrefix), key...)
log.Debug("saving nodes coordinator config", "key", ncInternalkey)
return ihgs.bootStorer.Put(ncInternalkey, data)
}
// NodesCoordinatorToRegistry will export the nodesCoordinator data to the registry
func (ihgs *indexHashedNodesCoordinator) NodesCoordinatorToRegistry() *NodesCoordinatorRegistry {
ihgs.mutNodesConfig.RLock()
defer ihgs.mutNodesConfig.RUnlock()
registry := &NodesCoordinatorRegistry{
CurrentEpoch: ihgs.currentEpoch,
EpochsConfig: make(map[string]*EpochValidators, len(ihgs.nodesConfig)),
}
for epoch, epochNodesData := range ihgs.nodesConfig {
registry.EpochsConfig[fmt.Sprint(epoch)] = epochNodesConfigToEpochValidators(epochNodesData)
}
return registry
}
func (ihgs *indexHashedNodesCoordinator) registryToNodesCoordinator(
config *NodesCoordinatorRegistry,
) (map[uint32]*epochNodesConfig, error) {
var err error
var epoch int64
result := make(map[uint32]*epochNodesConfig)
for epochStr, epochValidators := range config.EpochsConfig {
epoch, err = strconv.ParseInt(epochStr, 10, 64)
if err != nil {
return nil, err
}
var nodesConfig *epochNodesConfig
nodesConfig, err = epochValidatorsToEpochNodesConfig(epochValidators)
if err != nil {
return nil, err
}
nbShards := uint32(len(nodesConfig.eligibleMap))
if nbShards < 2 {
return nil, ErrInvalidNumberOfShards
}
// shards without metachain shard
nodesConfig.nbShards = nbShards - 1
nodesConfig.shardID = ihgs.computeShardForSelfPublicKey(nodesConfig)
epoch32 := uint32(epoch)
result[epoch32] = nodesConfig
log.Debug("registry to nodes coordinator", "epoch", epoch32)
result[epoch32].selectors, err = ihgs.createSelectors(nodesConfig)
if err != nil {
return nil, err
}
}
return result, nil
}
func epochNodesConfigToEpochValidators(config *epochNodesConfig) *EpochValidators {
result := &EpochValidators{
EligibleValidators: make(map[string][]*SerializableValidator, len(config.eligibleMap)),
WaitingValidators: make(map[string][]*SerializableValidator, len(config.waitingMap)),
LeavingValidators: make([]*SerializableValidator, 0, len(config.leavingList)),
}
for k, v := range config.eligibleMap {
result.EligibleValidators[fmt.Sprint(k)] = ValidatorArrayToSerializableValidatorArray(v)
}
for k, v := range config.waitingMap {
result.WaitingValidators[fmt.Sprint(k)] = ValidatorArrayToSerializableValidatorArray(v)
}
for _, v := range config.leavingList {
result.LeavingValidators = append(result.LeavingValidators, &SerializableValidator{
PubKey: v.PubKey(),
Chances: v.Chances(),
Index: v.Index(),
})
}
return result
}
func epochValidatorsToEpochNodesConfig(config *EpochValidators) (*epochNodesConfig, error) {
result := &epochNodesConfig{}
var err error
result.eligibleMap, err = serializableValidatorsMapToValidatorsMap(config.EligibleValidators)
if err != nil {
return nil, err
}
result.waitingMap, err = serializableValidatorsMapToValidatorsMap(config.WaitingValidators)
if err != nil {
return nil, err
}
result.leavingList = make([]Validator, 0, len(config.LeavingValidators))
for _, serializableValidator := range config.LeavingValidators {
validator, err := NewValidator(serializableValidator.PubKey, serializableValidator.Chances, serializableValidator.Index)
if err != nil {
return nil, err
}
result.leavingList = append(result.leavingList, validator)
}
return result, nil
}
func serializableValidatorsMapToValidatorsMap(
sValidators map[string][]*SerializableValidator,
) (map[uint32][]Validator, error) {
result := make(map[uint32][]Validator, len(sValidators))
for k, v := range sValidators {
key, err := strconv.ParseInt(k, 10, 64)
if err != nil {
return nil, err
}
result[uint32(key)], err = serializableValidatorArrayToValidatorArray(v)
if err != nil {
return nil, err
}
}
return result, nil
}
// ValidatorArrayToSerializableValidatorArray -
func ValidatorArrayToSerializableValidatorArray(validators []Validator) []*SerializableValidator {
result := make([]*SerializableValidator, len(validators))
for i, v := range validators {
result[i] = &SerializableValidator{
PubKey: v.PubKey(),
Chances: v.Chances(),
Index: v.Index(),
}
}
return result
}
func serializableValidatorArrayToValidatorArray(sValidators []*SerializableValidator) ([]Validator, error) {
result := make([]Validator, len(sValidators))
var err error
for i, v := range sValidators {
result[i], err = NewValidator(v.PubKey, v.Chances, v.Index)
if err != nil {
return nil, err
}
}
return result, nil
}
// NodesInfoToValidators maps nodeInfo to validator interface
func NodesInfoToValidators(nodesInfo map[uint32][]GenesisNodeInfoHandler) (map[uint32][]Validator, error) {
validatorsMap := make(map[uint32][]Validator)
for shId, nodeInfoList := range nodesInfo {
validators := make([]Validator, 0, len(nodeInfoList))
for index, nodeInfo := range nodeInfoList {
validator, err := NewValidator(nodeInfo.PubKey(), defaultSelectionChances, uint32(index))
if err != nil {
return nil, err
}
validators = append(validators, validator)
}
validatorsMap[shId] = validators
}
return validatorsMap, nil
}