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/*
Copyright IBM Corp. All Rights Reserved.
SPDX-License-Identifier: Apache-2.0
*/
package server
import (
"sync"
"time"
"github.com/golang/protobuf/proto"
"github.com/hyperledger/fabric/common/channelconfig"
"github.com/hyperledger/fabric/common/crypto"
"github.com/hyperledger/fabric/common/flogging"
"github.com/hyperledger/fabric/common/ledger/blockledger"
"github.com/hyperledger/fabric/core/comm"
"github.com/hyperledger/fabric/orderer/common/cluster"
"github.com/hyperledger/fabric/orderer/common/localconfig"
"github.com/hyperledger/fabric/orderer/consensus/etcdraft"
"github.com/hyperledger/fabric/protos/common"
"github.com/hyperledger/fabric/protos/utils"
"github.com/pkg/errors"
)
const (
defaultReplicationBackgroundRefreshInterval = time.Minute * 5
replicationBackgroundInitialRefreshInterval = time.Second * 10
)
type replicationInitiator struct {
registerChain func(chain string)
verifierRetriever cluster.VerifierRetriever
channelLister cluster.ChannelLister
logger *flogging.FabricLogger
secOpts *comm.SecureOptions
conf *localconfig.TopLevel
lf cluster.LedgerFactory
signer crypto.LocalSigner
}
func (ri *replicationInitiator) replicateIfNeeded(bootstrapBlock *common.Block) {
if bootstrapBlock.Header.Number == 0 {
ri.logger.Debug("Booted with a genesis block, replication isn't an option")
return
}
ri.replicateNeededChannels(bootstrapBlock)
}
func (ri *replicationInitiator) createReplicator(bootstrapBlock *common.Block, filter func(string) bool) *cluster.Replicator {
consenterCert := &etcdraft.ConsenterCertificate{
Logger: ri.logger,
ConsenterCertificate: ri.secOpts.Certificate,
}
systemChannelName, err := utils.GetChainIDFromBlock(bootstrapBlock)
if err != nil {
ri.logger.Panicf("Failed extracting system channel name from bootstrap block: %v", err)
}
pullerConfig := cluster.PullerConfigFromTopLevelConfig(systemChannelName, ri.conf, ri.secOpts.Key, ri.secOpts.Certificate, ri.signer)
puller, err := cluster.BlockPullerFromConfigBlock(pullerConfig, bootstrapBlock, ri.verifierRetriever)
if err != nil {
ri.logger.Panicf("Failed creating puller config from bootstrap block: %v", err)
}
puller.MaxPullBlockRetries = uint64(ri.conf.General.Cluster.ReplicationMaxRetries)
puller.RetryTimeout = ri.conf.General.Cluster.ReplicationRetryTimeout
replicator := &cluster.Replicator{
Filter: filter,
LedgerFactory: ri.lf,
SystemChannel: systemChannelName,
BootBlock: bootstrapBlock,
Logger: ri.logger,
AmIPartOfChannel: consenterCert.IsConsenterOfChannel,
Puller: puller,
ChannelLister: &cluster.ChainInspector{
Logger: ri.logger,
Puller: puller,
LastConfigBlock: bootstrapBlock,
},
}
// If a custom channel lister is requested, use it
if ri.channelLister != nil {
replicator.ChannelLister = ri.channelLister
}
return replicator
}
func (ri *replicationInitiator) replicateNeededChannels(bootstrapBlock *common.Block) {
replicator := ri.createReplicator(bootstrapBlock, cluster.AnyChannel)
defer replicator.Puller.Close()
replicationNeeded, err := replicator.IsReplicationNeeded()
if err != nil {
ri.logger.Panicf("Failed determining whether replication is needed: %v", err)
}
if !replicationNeeded {
ri.logger.Info("Replication isn't needed")
return
}
ri.logger.Info("Will now replicate chains")
replicator.ReplicateChains()
}
// ReplicateChains replicates the given chains with the assistance of the given last system channel config block,
// and returns the names of the chains that were successfully replicated.
func (ri *replicationInitiator) ReplicateChains(lastConfigBlock *common.Block, chains []string) []string {
ri.logger.Info("Will now replicate chains", chains)
wantedChannels := make(map[string]struct{})
for _, chain := range chains {
wantedChannels[chain] = struct{}{}
}
filter := func(channelName string) bool {
_, exists := wantedChannels[channelName]
return exists
}
replicator := ri.createReplicator(lastConfigBlock, filter)
replicator.DoNotPanicIfClusterNotReachable = true
defer replicator.Puller.Close()
return replicator.ReplicateChains()
}
type ledgerFactory struct {
blockledger.Factory
onBlockCommit cluster.BlockCommitFunc
}
func (lf *ledgerFactory) GetOrCreate(chainID string) (cluster.LedgerWriter, error) {
ledger, err := lf.Factory.GetOrCreate(chainID)
if err != nil {
return nil, err
}
interceptedLedger := &cluster.LedgerInterceptor{
LedgerWriter: ledger,
Channel: chainID,
InterceptBlockCommit: lf.onBlockCommit,
}
return interceptedLedger, nil
}
//go:generate mockery -dir . -name ChainReplicator -case underscore -output mocks
// ChainReplicator replicates chains
type ChainReplicator interface {
// ReplicateChains replicates the given chains using the given last system channel config block.
// It returns the names of the chains that were successfully replicated.
ReplicateChains(lastConfigBlock *common.Block, chains []string) []string
}
// inactiveChainReplicator tracks disabled chains and replicates them upon demand
type inactiveChainReplicator struct {
registerChain func(chain string)
logger *flogging.FabricLogger
retrieveLastSysChannelConfigBlock func() *common.Block
replicator ChainReplicator
scheduleChan <-chan time.Time
quitChan chan struct{}
lock sync.RWMutex
chains2CreationCallbacks map[string]chainCreation
}
func (dc *inactiveChainReplicator) Channels() []cluster.ChannelGenesisBlock {
dc.lock.RLock()
defer dc.lock.RUnlock()
var res []cluster.ChannelGenesisBlock
for name, chain := range dc.chains2CreationCallbacks {
res = append(res, cluster.ChannelGenesisBlock{
ChannelName: name,
GenesisBlock: chain.genesisBlock,
})
}
return res
}
func (dc *inactiveChainReplicator) Close() {}
type chainCreation struct {
create func()
genesisBlock *common.Block
}
// TrackChain tracks a chain with the given name, and calls the given callback
// when this chain should be activated.
func (dc *inactiveChainReplicator) TrackChain(chain string, genesisBlock *common.Block, createChainCallback func()) {
dc.lock.Lock()
defer dc.lock.Unlock()
dc.logger.Infof("Adding %s to the set of chains to track", chain)
dc.chains2CreationCallbacks[chain] = chainCreation{
genesisBlock: genesisBlock,
create: createChainCallback,
}
}
func (dc *inactiveChainReplicator) run() {
for {
select {
case <-dc.scheduleChan:
dc.replicateDisabledChains()
case <-dc.quitChan:
return
}
}
}
func (dc *inactiveChainReplicator) replicateDisabledChains() {
chains := dc.listInactiveChains()
if len(chains) == 0 {
dc.logger.Debugf("No inactive chains to try to replicate")
return
}
// For each chain, ensure we registered it into the verifier registry, otherwise
// we won't be able to verify its blocks.
for _, chain := range chains {
dc.registerChain(chain)
}
dc.logger.Infof("Found %d inactive chains: %v", len(chains), chains)
lastSystemChannelConfigBlock := dc.retrieveLastSysChannelConfigBlock()
replicatedChains := dc.replicator.ReplicateChains(lastSystemChannelConfigBlock, chains)
dc.logger.Infof("Successfully replicated %d chains: %v", len(replicatedChains), replicatedChains)
dc.lock.Lock()
defer dc.lock.Unlock()
for _, chainName := range replicatedChains {
chain := dc.chains2CreationCallbacks[chainName]
delete(dc.chains2CreationCallbacks, chainName)
chain.create()
}
}
func (dc *inactiveChainReplicator) stop() {
close(dc.quitChan)
}
func (dc *inactiveChainReplicator) listInactiveChains() []string {
dc.lock.RLock()
defer dc.lock.RUnlock()
var chains []string
for chain := range dc.chains2CreationCallbacks {
chains = append(chains, chain)
}
return chains
}
//go:generate mockery -dir . -name Factory -case underscore -output mocks/
// Factory retrieves or creates new ledgers by chainID
type Factory interface {
// GetOrCreate gets an existing ledger (if it exists)
// or creates it if it does not
GetOrCreate(chainID string) (blockledger.ReadWriter, error)
// ChainIDs returns the chain IDs the Factory is aware of
ChainIDs() []string
// Close releases all resources acquired by the factory
Close()
}
type blockGetter struct {
ledger blockledger.Reader
}
func (bg *blockGetter) Block(number uint64) *common.Block {
return blockledger.GetBlock(bg.ledger, number)
}
type verifierLoader struct {
ledgerFactory blockledger.Factory
verifierFactory cluster.VerifierFactory
logger *flogging.FabricLogger
onFailure func(block *common.Block)
}
type verifiersByChannel map[string]cluster.BlockVerifier
func (vl *verifierLoader) loadVerifiers() verifiersByChannel {
res := make(verifiersByChannel)
for _, chain := range vl.ledgerFactory.ChainIDs() {
v := vl.loadVerifier(chain)
if v == nil {
continue
}
res[chain] = v
}
return res
}
func (vl *verifierLoader) loadVerifier(chain string) cluster.BlockVerifier {
ledger, err := vl.ledgerFactory.GetOrCreate(chain)
if err != nil {
vl.logger.Panicf("Failed obtaining ledger for channel %s", chain)
}
blockRetriever := &blockGetter{ledger: ledger}
height := ledger.Height()
if height == 0 {
vl.logger.Errorf("Channel %s has no blocks, skipping it", chain)
return nil
}
lastBlockIndex := height - 1
lastBlock := blockRetriever.Block(lastBlockIndex)
if lastBlock == nil {
vl.logger.Panicf("Failed retrieving block [%d] for channel %s", lastBlockIndex, chain)
}
lastConfigBlock, err := cluster.LastConfigBlock(lastBlock, blockRetriever)
if err != nil {
vl.logger.Panicf("Failed retrieving config block [%d] for channel %s", lastBlockIndex, chain)
}
conf, err := cluster.ConfigFromBlock(lastConfigBlock)
if err != nil {
vl.onFailure(lastConfigBlock)
vl.logger.Panicf("Failed extracting configuration for channel %s from block [%d]: %v",
chain, lastConfigBlock.Header.Number, err)
}
verifier, err := vl.verifierFactory.VerifierFromConfig(conf, chain)
if err != nil {
vl.onFailure(lastConfigBlock)
vl.logger.Panicf("Failed creating verifier for channel %s from block [%d]: %v", chain, lastBlockIndex, err)
}
vl.logger.Infof("Loaded verifier for channel %s from config block at index %d", chain, lastBlockIndex)
return verifier
}
// ValidateBootstrapBlock returns whether this block can be used as a bootstrap block.
// A bootstrap block is a block of a system channel, and needs to have a ConsortiumsConfig.
func ValidateBootstrapBlock(block *common.Block) error {
if block == nil {
return errors.New("nil block")
}
if block.Data == nil || len(block.Data.Data) == 0 {
return errors.New("empty block data")
}
firstTransaction := &common.Envelope{}
if err := proto.Unmarshal(block.Data.Data[0], firstTransaction); err != nil {
return errors.Wrap(err, "failed extracting envelope from block")
}
bundle, err := channelconfig.NewBundleFromEnvelope(firstTransaction)
if err != nil {
return err
}
_, exists := bundle.ConsortiumsConfig()
if !exists {
return errors.New("the block isn't a system channel block because it lacks ConsortiumsConfig")
}
return nil
}
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