private async Task InitPeer()
{
/* rlpx */
var eciesCipher = new EciesCipher(_cryptoRandom);
var eip8Pad = new Eip8MessagePad(_cryptoRandom);
_messageSerializationService.Register(new AuthEip8MessageSerializer(eip8Pad));
_messageSerializationService.Register(new AckEip8MessageSerializer(eip8Pad));
_messageSerializationService.Register(Assembly.GetAssembly(typeof(HelloMessageSerializer)));
var encryptionHandshakeServiceA = new EncryptionHandshakeService(_messageSerializationService, eciesCipher,
_cryptoRandom, new Ecdsa(), _nodeKey, _logManager);
var networkConfig = _configProvider.GetConfig <INetworkConfig>();
_sessionMonitor = new SessionMonitor(networkConfig, _logManager);
_rlpxPeer = new RlpxPeer(
_nodeKey.PublicKey,
_initConfig.P2PPort,
encryptionHandshakeServiceA,
_logManager,
_sessionMonitor);
await _rlpxPeer.Init();
var peerStorage = new NetworkStorage(PeersDbPath, networkConfig, _logManager, _perfService);
ProtocolValidator protocolValidator = new ProtocolValidator(_nodeStatsManager, _blockTree, _logManager);
_protocolsManager = new ProtocolsManager(_syncPeerPool, _syncServer, _txPool, _discoveryApp, _messageSerializationService, _rlpxPeer, _nodeStatsManager, protocolValidator, peerStorage, _perfService, _logManager);
PeerLoader peerLoader = new PeerLoader(networkConfig, _nodeStatsManager, peerStorage, _logManager);
_peerManager = new PeerManager(_rlpxPeer, _discoveryApp, _nodeStatsManager, peerStorage, peerLoader, networkConfig, _logManager);
_peerManager.Init();
}
private async Task InitPeer()
{
/* rlpx */
var eciesCipher = new EciesCipher(_cryptoRandom);
var eip8Pad = new Eip8MessagePad(_cryptoRandom);
_messageSerializationService.Register(new AuthEip8MessageSerializer(eip8Pad));
_messageSerializationService.Register(new AckEip8MessageSerializer(eip8Pad));
var encryptionHandshakeServiceA = new EncryptionHandshakeService(_messageSerializationService, eciesCipher,
_cryptoRandom, new Signer(), _nodeKey, _logManager);
/* p2p */
_messageSerializationService.Register(new HelloMessageSerializer());
_messageSerializationService.Register(new DisconnectMessageSerializer());
_messageSerializationService.Register(new PingMessageSerializer());
_messageSerializationService.Register(new PongMessageSerializer());
/* eth62 */
_messageSerializationService.Register(new StatusMessageSerializer());
_messageSerializationService.Register(new TransactionsMessageSerializer());
_messageSerializationService.Register(new GetBlockHeadersMessageSerializer());
_messageSerializationService.Register(new NewBlockHashesMessageSerializer());
_messageSerializationService.Register(new GetBlockBodiesMessageSerializer());
_messageSerializationService.Register(new BlockHeadersMessageSerializer());
_messageSerializationService.Register(new BlockBodiesMessageSerializer());
_messageSerializationService.Register(new NewBlockMessageSerializer());
/* eth63 */
_messageSerializationService.Register(new GetNodeDataMessageSerializer());
_messageSerializationService.Register(new NodeDataMessageSerializer());
_messageSerializationService.Register(new GetReceiptsMessageSerializer());
_messageSerializationService.Register(new ReceiptsMessageSerializer());
var networkConfig = _configProvider.GetConfig <INetworkConfig>();
ISessionMonitor sessionMonitor = new SessionMonitor(networkConfig, _logManager);
_rlpxPeer = new RlpxPeer(
_nodeKey.PublicKey,
_initConfig.P2PPort,
encryptionHandshakeServiceA,
_logManager,
_perfService,
sessionMonitor);
await _rlpxPeer.Init();
var peerStorage = new NetworkStorage(PeersDbPath, networkConfig, _logManager, _perfService);
ProtocolValidator protocolValidator = new ProtocolValidator(_nodeStatsManager, _blockTree, _logManager);
_protocolsManager = new ProtocolsManager(_syncManager, _transactionPool, _discoveryApp, _messageSerializationService, _rlpxPeer, _nodeStatsManager, protocolValidator, peerStorage, _perfService, _logManager);
PeerLoader peerLoader = new PeerLoader(networkConfig, _nodeStatsManager, peerStorage, _logManager);
_peerManager = new PeerManager(_rlpxPeer, _discoveryApp, _nodeStatsManager, peerStorage, peerLoader, networkConfig, _logManager);
_peerManager.Init();
}
private static void Start()
{
var privateKeyProvider = new PrivateKeyProvider(PrivateKey);
var config = new DiscoveryConfigurationProvider(new NetworkHelper(Logger));
var signer = new Signer();
var cryptoRandom = new CryptoRandom();
var configProvider = new ConfigurationProvider();
var nodeFactory = new NodeFactory();
var calculator = new NodeDistanceCalculator(config);
var nodeTable = new NodeTable(config, nodeFactory, new FileKeyStore(configProvider, new JsonSerializer(Logger), new AesEncrypter(configProvider, Logger), cryptoRandom, Logger), Logger, calculator);
var evictionManager = new EvictionManager(nodeTable, Logger);
var lifecycleFactory = new NodeLifecycleManagerFactory(nodeFactory, nodeTable, Logger, config, new DiscoveryMessageFactory(config), evictionManager);
var discoveryManager = new DiscoveryManager(Logger, config, lifecycleFactory, nodeFactory, nodeTable);
var nodesLocator = new NodesLocator(nodeTable, discoveryManager, config, Logger);
var discoveryMesageFactory = new DiscoveryMessageFactory(config);
var nodeIdResolver = new NodeIdResolver(signer);
var pingSerializer = new PingMessageSerializer(signer, privateKeyProvider, discoveryMesageFactory, nodeIdResolver, nodeFactory);
var pongSerializer = new PongMessageSerializer(signer, privateKeyProvider, discoveryMesageFactory, nodeIdResolver, nodeFactory);
var findNodeSerializer = new FindNodeMessageSerializer(signer, privateKeyProvider, discoveryMesageFactory, nodeIdResolver, nodeFactory);
var neighborsSerializer = new NeighborsMessageSerializer(signer, privateKeyProvider, discoveryMesageFactory, nodeIdResolver, nodeFactory);
var messageSerializationService = new MessageSerializationService();
messageSerializationService.Register(pingSerializer);
messageSerializationService.Register(pongSerializer);
messageSerializationService.Register(findNodeSerializer);
messageSerializationService.Register(neighborsSerializer);
//P2P initialization
IMessagePad eip8Pad = new Eip8MessagePad(cryptoRandom);
messageSerializationService.Register(new AuthEip8MessageSerializer(eip8Pad));
messageSerializationService.Register(new AckEip8MessageSerializer(eip8Pad));
messageSerializationService.Register(new HelloMessageSerializer());
messageSerializationService.Register(new DisconnectMessageSerializer());
messageSerializationService.Register(new Nethermind.Network.P2P.PingMessageSerializer());
messageSerializationService.Register(new Nethermind.Network.P2P.PongMessageSerializer());
messageSerializationService.Register(new StatusMessageSerializer());
IEciesCipher eciesCipher = new EciesCipher(cryptoRandom);
IEncryptionHandshakeService encryptionHandshakeService = new EncryptionHandshakeService(messageSerializationService, eciesCipher, cryptoRandom, signer, PrivateKey, Logger);
var p2pManager = new P2PManager(encryptionHandshakeService, Logger, messageSerializationService, Substitute.For <ISynchronizationManager>());
//Connect discovery with P2P
discoveryManager.RegisterDiscoveryListener(p2pManager);
_discoveryApp = new DiscoveryApp(config, nodesLocator, Logger, discoveryManager, nodeFactory, nodeTable, messageSerializationService, cryptoRandom);
_discoveryApp.Start(PrivateKey.PublicKey);
}
public void Adds_at_most_300_bytes()
{
byte[] message = { 1 };
int lengthBeforePadding = message.Length;
TestRandom testRandom = new TestRandom(i => i - 1, i => new byte[i]);
Eip8MessagePad pad = new Eip8MessagePad(testRandom);
message = pad.Pad(message);
Assert.AreEqual(lengthBeforePadding + 300, message.Length, "incorrect length");
Assert.AreEqual(message[0], 1, "first byte touched");
}
private async Task InitPeer()
{
/* rlpx */
var eciesCipher = new EciesCipher(_cryptoRandom);
var eip8Pad = new Eip8MessagePad(_cryptoRandom);
_messageSerializationService.Register(new AuthEip8MessageSerializer(eip8Pad));
_messageSerializationService.Register(new AckEip8MessageSerializer(eip8Pad));
var encryptionHandshakeServiceA = new EncryptionHandshakeService(_messageSerializationService, eciesCipher,
_cryptoRandom, new Signer(), _privateKey, _logManager);
/* p2p */
_messageSerializationService.Register(new HelloMessageSerializer());
_messageSerializationService.Register(new DisconnectMessageSerializer());
_messageSerializationService.Register(new PingMessageSerializer());
_messageSerializationService.Register(new PongMessageSerializer());
/* eth */
_messageSerializationService.Register(new StatusMessageSerializer());
_messageSerializationService.Register(new TransactionsMessageSerializer());
_messageSerializationService.Register(new GetBlockHeadersMessageSerializer());
_messageSerializationService.Register(new NewBlockHashesMessageSerializer());
_messageSerializationService.Register(new GetBlockBodiesMessageSerializer());
_messageSerializationService.Register(new BlockHeadersMessageSerializer());
_messageSerializationService.Register(new BlockBodiesMessageSerializer());
_messageSerializationService.Register(new NewBlockMessageSerializer());
_rlpxPeer = new RlpxPeer(new NodeId(_privateKey.PublicKey), _initConfig.P2PPort,
_syncManager,
_messageSerializationService,
encryptionHandshakeServiceA,
_nodeStatsProvider,
_logManager, _perfService);
await _rlpxPeer.Init();
var peerStorage = new NetworkStorage(PeersDbPath, _configProvider.GetConfig <INetworkConfig>(), _logManager, _perfService);
_peerManager = new PeerManager(_rlpxPeer, _discoveryManager, _syncManager, _nodeStatsProvider, peerStorage,
_nodeFactory, _configProvider, _perfService, _logManager);
_peerManager.Init(_initConfig.DiscoveryEnabled);
}
private async Task InitNet(int listenPort)
{
/* tools */
_messageSerializationService = new MessageSerializationService();
_cryptoRandom = new CryptoRandom();
_signer = new Signer();
/* rlpx */
var eciesCipher = new EciesCipher(_cryptoRandom);
var eip8Pad = new Eip8MessagePad(_cryptoRandom);
_messageSerializationService.Register(new AuthEip8MessageSerializer(eip8Pad));
_messageSerializationService.Register(new AckEip8MessageSerializer(eip8Pad));
var encryptionHandshakeServiceA = new EncryptionHandshakeService(_messageSerializationService, eciesCipher, _cryptoRandom, _signer, _privateKey, _logManager);
/* p2p */
_messageSerializationService.Register(new HelloMessageSerializer());
_messageSerializationService.Register(new DisconnectMessageSerializer());
_messageSerializationService.Register(new PingMessageSerializer());
_messageSerializationService.Register(new PongMessageSerializer());
/* eth */
_messageSerializationService.Register(new StatusMessageSerializer());
_messageSerializationService.Register(new TransactionsMessageSerializer());
_messageSerializationService.Register(new GetBlockHeadersMessageSerializer());
_messageSerializationService.Register(new NewBlockHashesMessageSerializer());
_messageSerializationService.Register(new GetBlockBodiesMessageSerializer());
_messageSerializationService.Register(new BlockHeadersMessageSerializer());
_messageSerializationService.Register(new BlockBodiesMessageSerializer());
_messageSerializationService.Register(new NewBlockMessageSerializer());
_logger.Info("Initializing server...");
_localPeer = new RlpxPeer(new NodeId(_privateKey.PublicKey), listenPort, encryptionHandshakeServiceA, _messageSerializationService, _syncManager, _logManager);
await _localPeer.Init();
var localIp = _networkHelper.GetLocalIp();
_logger.Info($"Node is up and listening on {localIp}:{listenPort}... press ENTER to exit");
_logger.Info($"enode://{_privateKey.PublicKey}@{localIp}:{listenPort}");
}
private static async Task InitNet(ChainSpec chainSpec)
{
/* tools */
var serializationService = new MessageSerializationService();
var cryptoRandom = new CryptoRandom();
var signer = new Signer();
/* rlpx */
var eciesCipher = new EciesCipher(cryptoRandom);
var eip8Pad = new Eip8MessagePad(cryptoRandom);
serializationService.Register(new AuthEip8MessageSerializer(eip8Pad));
serializationService.Register(new AckEip8MessageSerializer(eip8Pad));
var encryptionHandshakeServiceA = new EncryptionHandshakeService(serializationService, eciesCipher, cryptoRandom, signer, _privateKey, NetworkLogger);
/* p2p */
serializationService.Register(new HelloMessageSerializer());
serializationService.Register(new DisconnectMessageSerializer());
serializationService.Register(new PingMessageSerializer());
serializationService.Register(new PongMessageSerializer());
/* eth */
serializationService.Register(new StatusMessageSerializer());
serializationService.Register(new TransactionsMessageSerializer());
serializationService.Register(new GetBlockHeadersMessageSerializer());
serializationService.Register(new NewBlockHashesMessageSerializer());
serializationService.Register(new GetBlockBodiesMessageSerializer());
serializationService.Register(new BlockHeadersMessageSerializer());
serializationService.Register(new BlockBodiesMessageSerializer());
serializationService.Register(new NewBlockMessageSerializer());
NetworkLogger.Info("Initializing server...");
var localPeer = new RlpxPeer(_privateKey.PublicKey, _listenPort, encryptionHandshakeServiceA, serializationService, _syncManager, NetworkLogger);
await localPeer.Init();
// https://stackoverflow.com/questions/6803073/get-local-ip-address?utm_medium=organic&utm_source=google_rich_qa&utm_campaign=google_rich_qa
string localIp;
using (Socket socket = new Socket(AddressFamily.InterNetwork, SocketType.Dgram, 0))
{
socket.Connect("8.8.8.8", 65530);
IPEndPoint endPoint = socket.LocalEndPoint as IPEndPoint;
Debug.Assert(endPoint != null, "null endpoint when connecting a UDP socket");
localIp = endPoint.Address.ToString();
}
NetworkLogger.Info($"Node is up and listening on {localIp}:{_listenPort}... press ENTER to exit");
NetworkLogger.Info($"enode://{_privateKey.PublicKey.ToString(false)}@{localIp}:{_listenPort}");
foreach (Bootnode bootnode in chainSpec.Bootnodes)
{
NetworkLogger.Info($"Connecting to {bootnode.Description} @ {bootnode.Host}:{bootnode.Port}");
await localPeer.ConnectAsync(bootnode.PublicKey, bootnode.Host, bootnode.Port);
NetworkLogger.Info("Testnet connected...");
}
Console.ReadLine();
NetworkLogger.Info("Shutting down...");
NetworkLogger.Info("Stopping sync manager...");
await _syncManager.StopAsync();
NetworkLogger.Info("Stopping blockchain processor...");
await _blockchainProcessor.StopAsync();
NetworkLogger.Info("Stopping local peer...");
await localPeer.Shutdown();
NetworkLogger.Info("Goodbye...");
}
private async Task InitPeer()
{
if (_ctx.DbProvider == null)
{
throw new StepDependencyException(nameof(_ctx.DbProvider));
}
if (_ctx.BlockTree == null)
{
throw new StepDependencyException(nameof(_ctx.BlockTree));
}
if (_ctx.ReceiptStorage == null)
{
throw new StepDependencyException(nameof(_ctx.ReceiptStorage));
}
if (_ctx.BlockValidator == null)
{
throw new StepDependencyException(nameof(_ctx.BlockValidator));
}
if (_ctx.SyncPeerPool == null)
{
throw new StepDependencyException(nameof(_ctx.SyncPeerPool));
}
if (_ctx.Synchronizer == null)
{
throw new StepDependencyException(nameof(_ctx.Synchronizer));
}
if (_ctx.Enode == null)
{
throw new StepDependencyException(nameof(_ctx.Enode));
}
if (_ctx.NodeKey == null)
{
throw new StepDependencyException(nameof(_ctx.NodeKey));
}
if (_ctx.MainBlockProcessor == null)
{
throw new StepDependencyException(nameof(_ctx.MainBlockProcessor));
}
if (_ctx.NodeStatsManager == null)
{
throw new StepDependencyException(nameof(_ctx.NodeStatsManager));
}
if (_ctx.KeyStore == null)
{
throw new StepDependencyException(nameof(_ctx.KeyStore));
}
if (_ctx.RpcModuleProvider == null)
{
throw new StepDependencyException(nameof(_ctx.RpcModuleProvider));
}
if (_ctx.Wallet == null)
{
throw new StepDependencyException(nameof(_ctx.Wallet));
}
if (_ctx.EthereumEcdsa == null)
{
throw new StepDependencyException(nameof(_ctx.EthereumEcdsa));
}
if (_ctx.SpecProvider == null)
{
throw new StepDependencyException(nameof(_ctx.SpecProvider));
}
if (_ctx.TxPool == null)
{
throw new StepDependencyException(nameof(_ctx.TxPool));
}
if (_ctx.EthereumJsonSerializer == null)
{
throw new StepDependencyException(nameof(_ctx.EthereumJsonSerializer));
}
/* rlpx */
EciesCipher eciesCipher = new EciesCipher(_ctx.CryptoRandom);
Eip8MessagePad eip8Pad = new Eip8MessagePad(_ctx.CryptoRandom);
_ctx._messageSerializationService.Register(new AuthEip8MessageSerializer(eip8Pad));
_ctx._messageSerializationService.Register(new AckEip8MessageSerializer(eip8Pad));
_ctx._messageSerializationService.Register(Assembly.GetAssembly(typeof(HelloMessageSerializer)));
_ctx._messageSerializationService.Register(new ReceiptsMessageSerializer(_ctx.SpecProvider));
HandshakeService encryptionHandshakeServiceA = new HandshakeService(_ctx._messageSerializationService, eciesCipher,
_ctx.CryptoRandom, new Ecdsa(), _ctx.NodeKey.Unprotect(), _ctx.LogManager);
_ctx._messageSerializationService.Register(Assembly.GetAssembly(typeof(HiMessageSerializer)));
IDiscoveryConfig discoveryConfig = _ctx.Config <IDiscoveryConfig>();
IInitConfig initConfig = _ctx.Config <IInitConfig>();
_ctx.SessionMonitor = new SessionMonitor(_networkConfig, _ctx.LogManager);
_ctx.RlpxPeer = new RlpxPeer(
_ctx._messageSerializationService,
_ctx.NodeKey.PublicKey,
_networkConfig.P2PPort,
encryptionHandshakeServiceA,
_ctx.LogManager,
_ctx.SessionMonitor);
await _ctx.RlpxPeer.Init();
_ctx.StaticNodesManager = new StaticNodesManager(initConfig.StaticNodesPath, _ctx.LogManager);
await _ctx.StaticNodesManager.InitAsync();
var dbName = "PeersDB";
IFullDb peersDb = initConfig.DiagnosticMode == DiagnosticMode.MemDb
? (IFullDb) new MemDb(dbName)
: new SimpleFilePublicKeyDb(dbName, PeersDbPath.GetApplicationResourcePath(initConfig.BaseDbPath), _ctx.LogManager);
NetworkStorage peerStorage = new NetworkStorage(peersDb, _ctx.LogManager);
ProtocolValidator protocolValidator = new ProtocolValidator(_ctx.NodeStatsManager, _ctx.BlockTree, _ctx.LogManager);
_ctx.ProtocolsManager = new ProtocolsManager(_ctx.SyncPeerPool, _ctx.SyncServer, _ctx.TxPool, _ctx.DiscoveryApp, _ctx._messageSerializationService, _ctx.RlpxPeer, _ctx.NodeStatsManager, protocolValidator, peerStorage, _ctx.SpecProvider, _ctx.LogManager);
if (!(_ctx.NdmInitializer is null))
{
if (_ctx.WebSocketsManager == null)
{
throw new StepDependencyException(nameof(_ctx.WebSocketsManager));
}
if (_ctx.GrpcServer == null)
{
throw new StepDependencyException(nameof(_ctx.GrpcServer));
}
if (_ctx.NdmDataPublisher == null)
{
throw new StepDependencyException(nameof(_ctx.NdmDataPublisher));
}
if (_ctx.NdmConsumerChannelManager == null)
{
throw new StepDependencyException(nameof(_ctx.NdmConsumerChannelManager));
}
if (_ctx.BloomStorage == null)
{
throw new StepDependencyException(nameof(_ctx.BloomStorage));
}
if (_ctx.ReceiptFinder == null)
{
throw new StepDependencyException(nameof(_ctx.ReceiptFinder));
}
if (_logger.IsInfo)
{
_logger.Info($"Initializing NDM...");
}
_ctx.HttpClient = new DefaultHttpClient(new HttpClient(), _ctx.EthereumJsonSerializer, _ctx.LogManager);
INdmConfig ndmConfig = _ctx.Config <INdmConfig>();
if (ndmConfig.ProxyEnabled)
{
_ctx.JsonRpcClientProxy = new JsonRpcClientProxy(_ctx.HttpClient, ndmConfig.JsonRpcUrlProxies,
_ctx.LogManager);
_ctx.EthJsonRpcClientProxy = new EthJsonRpcClientProxy(_ctx.JsonRpcClientProxy);
}
FilterStore filterStore = new FilterStore();
FilterManager filterManager = new FilterManager(filterStore, _ctx.MainBlockProcessor, _ctx.TxPool, _ctx.LogManager);
INdmCapabilityConnector capabilityConnector = await _ctx.NdmInitializer.InitAsync(
_ctx.ConfigProvider,
_ctx.DbProvider,
initConfig.BaseDbPath,
_ctx.BlockTree,
_ctx.TxPool,
_ctx.SpecProvider,
_ctx.ReceiptFinder,
_ctx.Wallet,
filterStore,
filterManager,
_ctx.Timestamper,
_ctx.EthereumEcdsa,
_ctx.RpcModuleProvider,
_ctx.KeyStore,
_ctx.EthereumJsonSerializer,
_ctx.CryptoRandom,
_ctx.Enode,
_ctx.NdmConsumerChannelManager,
_ctx.NdmDataPublisher,
_ctx.GrpcServer,
_ctx.NodeStatsManager,
_ctx.ProtocolsManager,
protocolValidator,
_ctx._messageSerializationService,
initConfig.EnableUnsecuredDevWallet,
_ctx.WebSocketsManager,
_ctx.LogManager,
_ctx.MainBlockProcessor,
_ctx.JsonRpcClientProxy,
_ctx.EthJsonRpcClientProxy,
_ctx.HttpClient,
_ctx.MonitoringService,
_ctx.BloomStorage);
capabilityConnector.Init();
if (_logger.IsInfo)
{
_logger.Info($"NDM initialized.");
}
}
PeerLoader peerLoader = new PeerLoader(_networkConfig, discoveryConfig, _ctx.NodeStatsManager, peerStorage, _ctx.LogManager);
_ctx.PeerManager = new PeerManager(_ctx.RlpxPeer, _ctx.DiscoveryApp, _ctx.NodeStatsManager, peerStorage, peerLoader, _networkConfig, _ctx.LogManager, _ctx.StaticNodesManager);
_ctx.PeerManager.Init();
}
private async Task InitPeer()
{
/* rlpx */
var eciesCipher = new EciesCipher(_cryptoRandom);
var eip8Pad = new Eip8MessagePad(_cryptoRandom);
_messageSerializationService.Register(new AuthEip8MessageSerializer(eip8Pad));
_messageSerializationService.Register(new AckEip8MessageSerializer(eip8Pad));
_messageSerializationService.Register(Assembly.GetAssembly(typeof(HelloMessageSerializer)));
var encryptionHandshakeServiceA = new EncryptionHandshakeService(_messageSerializationService, eciesCipher,
_cryptoRandom, new Ecdsa(), _nodeKey, _logManager);
_messageSerializationService.Register(Assembly.GetAssembly(typeof(HiMessageSerializer)));
var networkConfig = _configProvider.GetConfig <INetworkConfig>();
var discoveryConfig = _configProvider.GetConfig <IDiscoveryConfig>();
_sessionMonitor = new SessionMonitor(networkConfig, _logManager);
_rlpxPeer = new RlpxPeer(
_nodeKey.PublicKey,
_initConfig.P2PPort,
encryptionHandshakeServiceA,
_logManager,
_sessionMonitor);
await _rlpxPeer.Init();
_staticNodesManager = new StaticNodesManager(_initConfig.StaticNodesPath, _logManager);
await _staticNodesManager.InitAsync();
var peersDb = new SimpleFilePublicKeyDb(Path.Combine(_initConfig.BaseDbPath, PeersDbPath), _logManager);
var peerStorage = new NetworkStorage(peersDb, _logManager);
ProtocolValidator protocolValidator = new ProtocolValidator(_nodeStatsManager, _blockTree, _logManager);
_protocolsManager = new ProtocolsManager(_syncPeerPool, _syncServer, _txPool, _discoveryApp, _messageSerializationService, _rlpxPeer, _nodeStatsManager, protocolValidator, peerStorage, _perfService, _logManager);
if (!(_ndmInitializer is null))
{
if (_logger.IsInfo)
{
_logger.Info($"Initializing NDM...");
}
var capabilityConnector = await _ndmInitializer.InitAsync(_configProvider, _dbProvider,
_initConfig.BaseDbPath, _blockProcessor, _blockTree, _txPool, _txPoolInfoProvider, _specProvider,
_receiptStorage, _wallet, _timestamp, _ethereumEcdsa, _rpcModuleProvider, _keyStore, _jsonSerializer,
_cryptoRandom, _enode, _ndmConsumerChannelManager, _ndmDataPublisher, _grpcService,
_nodeStatsManager, _protocolsManager, protocolValidator, _messageSerializationService,
_initConfig.EnableUnsecuredDevWallet, _logManager);
capabilityConnector.Init();
if (_logger.IsInfo)
{
_logger.Info($"NDM initialized.");
}
}
PeerLoader peerLoader = new PeerLoader(networkConfig, discoveryConfig, _nodeStatsManager, peerStorage, _logManager);
_peerManager = new PeerManager(_rlpxPeer, _discoveryApp, _nodeStatsManager, peerStorage, peerLoader, networkConfig, _logManager, _staticNodesManager);
_peerManager.Init();
}
