use of org.hyperledger.besu.consensus.ibft.statemachine.IbftBlockHeightManagerFactory in project besu by hyperledger.
the class IbftBesuControllerBuilder method createMiningCoordinator.
@Override
protected MiningCoordinator createMiningCoordinator(final ProtocolSchedule protocolSchedule, final ProtocolContext protocolContext, final TransactionPool transactionPool, final MiningParameters miningParameters, final SyncState syncState, final EthProtocolManager ethProtocolManager) {
final MutableBlockchain blockchain = protocolContext.getBlockchain();
final BftExecutors bftExecutors = BftExecutors.create(metricsSystem, BftExecutors.ConsensusType.IBFT);
final Address localAddress = Util.publicKeyToAddress(nodeKey.getPublicKey());
final BftBlockCreatorFactory<?> blockCreatorFactory = new BftBlockCreatorFactory<>(transactionPool.getPendingTransactions(), protocolContext, protocolSchedule, forksSchedule, miningParameters, localAddress, bftExtraDataCodec().get());
final ValidatorProvider validatorProvider = protocolContext.getConsensusContext(BftContext.class).getValidatorProvider();
final ProposerSelector proposerSelector = new ProposerSelector(blockchain, bftBlockInterface().get(), true, validatorProvider);
// NOTE: peers should not be used for accessing the network as it does not enforce the
// "only send once" filter applied by the UniqueMessageMulticaster.
peers = new ValidatorPeers(validatorProvider, IbftSubProtocol.NAME);
final UniqueMessageMulticaster uniqueMessageMulticaster = new UniqueMessageMulticaster(peers, bftConfig.getGossipedHistoryLimit());
final IbftGossip gossiper = new IbftGossip(uniqueMessageMulticaster);
final BftFinalState finalState = new BftFinalState(validatorProvider, nodeKey, Util.publicKeyToAddress(nodeKey.getPublicKey()), proposerSelector, uniqueMessageMulticaster, new RoundTimer(bftEventQueue, bftConfig.getRequestTimeoutSeconds(), bftExecutors), new BlockTimer(bftEventQueue, forksSchedule, bftExecutors, clock), blockCreatorFactory, clock);
final MessageValidatorFactory messageValidatorFactory = new MessageValidatorFactory(proposerSelector, protocolSchedule, protocolContext, bftExtraDataCodec().get());
final Subscribers<MinedBlockObserver> minedBlockObservers = Subscribers.create();
minedBlockObservers.subscribe(ethProtocolManager);
minedBlockObservers.subscribe(blockLogger(transactionPool, localAddress));
final FutureMessageBuffer futureMessageBuffer = new FutureMessageBuffer(bftConfig.getFutureMessagesMaxDistance(), bftConfig.getFutureMessagesLimit(), blockchain.getChainHeadBlockNumber());
final MessageTracker duplicateMessageTracker = new MessageTracker(bftConfig.getDuplicateMessageLimit());
final MessageFactory messageFactory = new MessageFactory(nodeKey);
final BftEventHandler ibftController = new IbftController(blockchain, finalState, new IbftBlockHeightManagerFactory(finalState, new IbftRoundFactory(finalState, protocolContext, protocolSchedule, minedBlockObservers, messageValidatorFactory, messageFactory, bftExtraDataCodec().get()), messageValidatorFactory, messageFactory), gossiper, duplicateMessageTracker, futureMessageBuffer, new EthSynchronizerUpdater(ethProtocolManager.ethContext().getEthPeers()));
final EventMultiplexer eventMultiplexer = new EventMultiplexer(ibftController);
final BftProcessor bftProcessor = new BftProcessor(bftEventQueue, eventMultiplexer);
final MiningCoordinator ibftMiningCoordinator = new BftMiningCoordinator(bftExecutors, ibftController, bftProcessor, blockCreatorFactory, blockchain, bftEventQueue);
ibftMiningCoordinator.enable();
return ibftMiningCoordinator;
}
use of org.hyperledger.besu.consensus.ibft.statemachine.IbftBlockHeightManagerFactory in project besu by hyperledger.
the class TestContextBuilder method createControllerAndFinalState.
private static ControllerAndState createControllerAndFinalState(final MutableBlockchain blockChain, final StubValidatorMulticaster multicaster, final NodeKey nodeKey, final Clock clock, final BftEventQueue bftEventQueue, final Gossiper gossiper, final SynchronizerUpdater synchronizerUpdater, final List<BftFork> bftForks) {
final WorldStateArchive worldStateArchive = createInMemoryWorldStateArchive();
final MiningParameters miningParams = new MiningParameters.Builder().coinbase(AddressHelpers.ofValue(1)).minTransactionGasPrice(Wei.ZERO).extraData(Bytes.wrap("Ibft Int tests".getBytes(UTF_8))).miningEnabled(true).build();
final StubGenesisConfigOptions genesisConfigOptions = new StubGenesisConfigOptions();
genesisConfigOptions.byzantiumBlock(0);
genesisConfigOptions.transitions(TestTransitions.createIbftTestTransitions(bftForks));
final ForksSchedule<BftConfigOptions> forksSchedule = IbftForksSchedulesFactory.create(genesisConfigOptions);
final ProtocolSchedule protocolSchedule = IbftProtocolSchedule.create(genesisConfigOptions, forksSchedule, IBFT_EXTRA_DATA_ENCODER, EvmConfiguration.DEFAULT);
// ///////////////////////////////////////////////////////////////////////////////////
// From here down is BASICALLY taken from IbftBesuController
final EpochManager epochManager = new EpochManager(EPOCH_LENGTH);
final BftBlockInterface blockInterface = new BftBlockInterface(IBFT_EXTRA_DATA_ENCODER);
final ValidatorProvider validatorProvider = BlockValidatorProvider.nonForkingValidatorProvider(blockChain, epochManager, blockInterface);
final ProtocolContext protocolContext = new ProtocolContext(blockChain, worldStateArchive, new BftContext(validatorProvider, epochManager, blockInterface));
final GasPricePendingTransactionsSorter pendingTransactions = new GasPricePendingTransactionsSorter(TransactionPoolConfiguration.DEFAULT_TX_RETENTION_HOURS, 1, clock, metricsSystem, blockChain::getChainHeadHeader, TransactionPoolConfiguration.DEFAULT_PRICE_BUMP);
final Address localAddress = Util.publicKeyToAddress(nodeKey.getPublicKey());
final BftBlockCreatorFactory<?> blockCreatorFactory = new BftBlockCreatorFactory<>(// changed from IbftBesuController
pendingTransactions, protocolContext, protocolSchedule, forksSchedule, miningParams, localAddress, IBFT_EXTRA_DATA_ENCODER);
final ProposerSelector proposerSelector = new ProposerSelector(blockChain, blockInterface, true, validatorProvider);
final BftExecutors bftExecutors = BftExecutors.create(new NoOpMetricsSystem(), BftExecutors.ConsensusType.IBFT);
final BftFinalState finalState = new BftFinalState(protocolContext.getConsensusContext(BftContext.class).getValidatorProvider(), nodeKey, Util.publicKeyToAddress(nodeKey.getPublicKey()), proposerSelector, multicaster, new RoundTimer(bftEventQueue, ROUND_TIMER_SEC, bftExecutors), new BlockTimer(bftEventQueue, forksSchedule, bftExecutors, TestClock.fixed()), blockCreatorFactory, clock);
final MessageFactory messageFactory = new MessageFactory(nodeKey);
final MessageValidatorFactory messageValidatorFactory = new MessageValidatorFactory(proposerSelector, protocolSchedule, protocolContext, IBFT_EXTRA_DATA_ENCODER);
final Subscribers<MinedBlockObserver> minedBlockObservers = Subscribers.create();
final MessageTracker duplicateMessageTracker = new MessageTracker(DUPLICATE_MESSAGE_LIMIT);
final FutureMessageBuffer futureMessageBuffer = new FutureMessageBuffer(FUTURE_MESSAGES_MAX_DISTANCE, FUTURE_MESSAGES_LIMIT, blockChain.getChainHeadBlockNumber());
final BftEventHandler ibftController = new IbftController(blockChain, finalState, new IbftBlockHeightManagerFactory(finalState, new IbftRoundFactory(finalState, protocolContext, protocolSchedule, minedBlockObservers, messageValidatorFactory, messageFactory, IBFT_EXTRA_DATA_ENCODER), messageValidatorFactory, messageFactory), gossiper, duplicateMessageTracker, futureMessageBuffer, synchronizerUpdater);
final EventMultiplexer eventMultiplexer = new EventMultiplexer(ibftController);
return new ControllerAndState(bftExecutors, ibftController, finalState, eventMultiplexer, messageFactory);
}
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