// Unified protocol message parsing public static void parseProtocolMessage(ProtocolMessageCode code, byte[] data, RemoteEndpoint endpoint) { if (endpoint == null) { Logging.error("Endpoint was null. parseProtocolMessage"); return; } try { switch (code) { case ProtocolMessageCode.hello: using (MemoryStream m = new MemoryStream(data)) { using (BinaryReader reader = new BinaryReader(m)) { bool processed = false; processed = CoreProtocolMessage.processHelloMessageV6(endpoint, reader, false); if (!processed || (Config.whiteList.Count > 0 && !Config.whiteList.Contains(endpoint.presence.wallet, new ByteArrayComparer()))) { CoreProtocolMessage.sendBye(endpoint, ProtocolByeCode.bye, string.Format("Access denied."), "", true); return; } endpoint.helloReceived = true; } } break; case ProtocolMessageCode.helloData: using (MemoryStream m = new MemoryStream(data)) { using (BinaryReader reader = new BinaryReader(m)) { if (CoreProtocolMessage.processHelloMessageV6(endpoint, reader)) { char node_type = endpoint.presenceAddress.type; if (node_type != 'M' && node_type != 'H') { CoreProtocolMessage.sendBye(endpoint, ProtocolByeCode.expectingMaster, string.Format("Expecting master node."), "", true); return; } ulong last_block_num = reader.ReadIxiVarUInt(); int bcLen = (int)reader.ReadIxiVarUInt(); byte[] block_checksum = reader.ReadBytes(bcLen); endpoint.blockHeight = last_block_num; int block_version = (int)reader.ReadIxiVarUInt(); try { string public_ip = reader.ReadString(); ((NetworkClient)endpoint).myAddress = public_ip; } catch (Exception) { } string address = NetworkClientManager.getMyAddress(); if (address != null) { if (IxianHandler.publicIP != address) { Logging.info("Setting public IP to " + address); IxianHandler.publicIP = address; } } // Process the hello data endpoint.helloReceived = true; NetworkClientManager.recalculateLocalTimeDifference(); Node.setNetworkBlock(last_block_num, block_checksum, block_version); // Get random presences endpoint.sendData(ProtocolMessageCode.getRandomPresences, new byte[1] { (byte)'M' }); endpoint.sendData(ProtocolMessageCode.getRandomPresences, new byte[1] { (byte)'H' }); CoreProtocolMessage.subscribeToEvents(endpoint); } } } break; case ProtocolMessageCode.s2data: { StreamProcessor.receiveData(data, endpoint); } break; case ProtocolMessageCode.s2failed: { using (MemoryStream m = new MemoryStream(data)) { using (BinaryReader reader = new BinaryReader(m)) { Logging.error("Failed to send s2 data"); } } } break; case ProtocolMessageCode.transactionData: { Transaction tx = new Transaction(data, true); if (endpoint.presenceAddress.type == 'M' || endpoint.presenceAddress.type == 'H') { PendingTransactions.increaseReceivedCount(tx.id, endpoint.presence.wallet); } Node.tiv.receivedNewTransaction(tx); Logging.info("Received new transaction {0}", tx.id); Node.addTransactionToActivityStorage(tx); } break; case ProtocolMessageCode.updatePresence: { // Parse the data and update entries in the presence list PresenceList.updateFromBytes(data, 0); } break; case ProtocolMessageCode.keepAlivePresence: { byte[] address = null; long last_seen = 0; byte[] device_id = null; bool updated = PresenceList.receiveKeepAlive(data, out address, out last_seen, out device_id, endpoint); } break; case ProtocolMessageCode.getPresence: { using (MemoryStream m = new MemoryStream(data)) { using (BinaryReader reader = new BinaryReader(m)) { int walletLen = reader.ReadInt32(); byte[] wallet = reader.ReadBytes(walletLen); Presence p = PresenceList.getPresenceByAddress(wallet); if (p != null) { lock (p) { byte[][] presence_chunks = p.getByteChunks(); foreach (byte[] presence_chunk in presence_chunks) { endpoint.sendData(ProtocolMessageCode.updatePresence, presence_chunk, null); } } } else { // TODO blacklisting point Logging.warn(string.Format("Node has requested presence information about {0} that is not in our PL.", Base58Check.Base58CheckEncoding.EncodePlain(wallet))); } } } } break; case ProtocolMessageCode.getPresence2: { using (MemoryStream m = new MemoryStream(data)) { using (BinaryReader reader = new BinaryReader(m)) { int walletLen = (int)reader.ReadIxiVarUInt(); byte[] wallet = reader.ReadBytes(walletLen); Presence p = PresenceList.getPresenceByAddress(wallet); if (p != null) { lock (p) { byte[][] presence_chunks = p.getByteChunks(); foreach (byte[] presence_chunk in presence_chunks) { endpoint.sendData(ProtocolMessageCode.updatePresence, presence_chunk, null); } } } else { // TODO blacklisting point Logging.warn(string.Format("Node has requested presence information about {0} that is not in our PL.", Base58Check.Base58CheckEncoding.EncodePlain(wallet))); } } } } break; case ProtocolMessageCode.balance: { using (MemoryStream m = new MemoryStream(data)) { using (BinaryReader reader = new BinaryReader(m)) { int address_length = reader.ReadInt32(); byte[] address = reader.ReadBytes(address_length); // Retrieve the latest balance IxiNumber balance = reader.ReadString(); if (address.SequenceEqual(IxianHandler.getWalletStorage().getPrimaryAddress())) { // Retrieve the blockheight for the balance ulong block_height = reader.ReadUInt64(); if (block_height > Node.balance.blockHeight && (Node.balance.balance != balance || Node.balance.blockHeight == 0)) { byte[] block_checksum = reader.ReadBytes(reader.ReadInt32()); Node.balance.address = address; Node.balance.balance = balance; Node.balance.blockHeight = block_height; Node.balance.blockChecksum = block_checksum; Node.balance.lastUpdate = Clock.getTimestamp(); Node.balance.verified = false; } } } } } break; case ProtocolMessageCode.balance2: { using (MemoryStream m = new MemoryStream(data)) { using (BinaryReader reader = new BinaryReader(m)) { int address_length = (int)reader.ReadIxiVarUInt(); byte[] address = reader.ReadBytes(address_length); // Retrieve the latest balance IxiNumber balance = new IxiNumber(new BigInteger(reader.ReadBytes((int)reader.ReadIxiVarUInt()))); if (address.SequenceEqual(IxianHandler.getWalletStorage().getPrimaryAddress())) { // Retrieve the blockheight for the balance ulong block_height = reader.ReadIxiVarUInt(); if (block_height > Node.balance.blockHeight && (Node.balance.balance != balance || Node.balance.blockHeight == 0)) { byte[] block_checksum = reader.ReadBytes((int)reader.ReadIxiVarUInt()); Node.balance.address = address; Node.balance.balance = balance; Node.balance.blockHeight = block_height; Node.balance.blockChecksum = block_checksum; Node.balance.lastUpdate = Clock.getTimestamp(); Node.balance.verified = false; } } } } } break; case ProtocolMessageCode.bye: CoreProtocolMessage.processBye(data, endpoint); break; case ProtocolMessageCode.blockHeaders2: { // Forward the block headers to the TIV handler Node.tiv.receivedBlockHeaders2(data, endpoint); } break; case ProtocolMessageCode.pitData2: { Node.tiv.receivedPIT2(data, endpoint); } break; default: break; } } catch (Exception e) { Logging.error(string.Format("Error parsing network message. Details: {0}", e.ToString())); } }
// Unified protocol message parsing public static void parseProtocolMessage(ProtocolMessageCode code, byte[] data, RemoteEndpoint endpoint) { if (endpoint == null) { Logging.error("Endpoint was null. parseProtocolMessage"); return; } try { switch (code) { case ProtocolMessageCode.hello: handleHello(data, endpoint); break; case ProtocolMessageCode.helloData: handleHelloData(data, endpoint); break; case ProtocolMessageCode.s2data: StreamProcessor.receiveData(data, endpoint); break; case ProtocolMessageCode.s2failed: Logging.error("Failed to send s2 data"); break; case ProtocolMessageCode.s2signature: StreamProcessor.receivedTransactionSignature(data, endpoint); break; case ProtocolMessageCode.newTransaction: case ProtocolMessageCode.transactionData: { Transaction tx = new Transaction(data, true); if (endpoint.presenceAddress.type == 'M' || endpoint.presenceAddress.type == 'H') { PendingTransactions.increaseReceivedCount(tx.id, endpoint.presence.wallet); } Node.tiv.receivedNewTransaction(tx); Logging.info("Received new transaction {0}", tx.id); Node.addTransactionToActivityStorage(tx); } break; case ProtocolMessageCode.updatePresence: // Parse the data and update entries in the presence list PresenceList.updateFromBytes(data); break; case ProtocolMessageCode.keepAlivePresence: byte[] address = null; long last_seen = 0; byte[] device_id = null; bool updated = PresenceList.receiveKeepAlive(data, out address, out last_seen, out device_id, endpoint); break; case ProtocolMessageCode.getPresence: handleGetPresence(data, endpoint); break; case ProtocolMessageCode.getPresence2: handleGetPresence2(data, endpoint); break; case ProtocolMessageCode.balance: handleBalance(data, endpoint); break; case ProtocolMessageCode.balance2: handleBalance2(data, endpoint); break; case ProtocolMessageCode.bye: CoreProtocolMessage.processBye(data, endpoint); break; case ProtocolMessageCode.blockHeaders2: // Forward the block headers to the TIV handler Node.tiv.receivedBlockHeaders2(data, endpoint); break; case ProtocolMessageCode.pitData2: Node.tiv.receivedPIT2(data, endpoint); break; default: break; } } catch (Exception e) { Logging.error(string.Format("Error parsing network message. Details: {0}", e.ToString())); } }
// Unified protocol message parsing public static void parseProtocolMessage(ProtocolMessageCode code, byte[] data, RemoteEndpoint endpoint) { if (endpoint == null) { Logging.error("Endpoint was null. parseProtocolMessage"); return; } try { switch (code) { case ProtocolMessageCode.hello: { using (MemoryStream m = new MemoryStream(data)) { using (BinaryReader reader = new BinaryReader(m)) { CoreProtocolMessage.processHelloMessageV6(endpoint, reader); } } } break; case ProtocolMessageCode.helloData: using (MemoryStream m = new MemoryStream(data)) { using (BinaryReader reader = new BinaryReader(m)) { if (!CoreProtocolMessage.processHelloMessageV6(endpoint, reader)) { return; } ulong last_block_num = reader.ReadIxiVarUInt(); int bcLen = (int)reader.ReadIxiVarUInt(); byte[] block_checksum = reader.ReadBytes(bcLen); endpoint.blockHeight = last_block_num; int block_version = (int)reader.ReadIxiVarUInt(); if (endpoint.presenceAddress.type != 'C') { ulong highest_block_height = IxianHandler.getHighestKnownNetworkBlockHeight(); if (last_block_num + 10 < highest_block_height) { CoreProtocolMessage.sendBye(endpoint, ProtocolByeCode.tooFarBehind, string.Format("Your node is too far behind, your block height is {0}, highest network block height is {1}.", last_block_num, highest_block_height), highest_block_height.ToString(), true); return; } } // Process the hello data endpoint.helloReceived = true; NetworkClientManager.recalculateLocalTimeDifference(); if (endpoint.presenceAddress.type == 'R') { string[] connected_servers = StreamClientManager.getConnectedClients(true); if (connected_servers.Count() == 1 || !connected_servers.Contains(StreamClientManager.primaryS2Address)) { if (StreamClientManager.primaryS2Address == "") { FriendList.requestAllFriendsPresences(); } // TODO set the primary s2 host more efficiently, perhaps allow for multiple s2 primary hosts StreamClientManager.primaryS2Address = endpoint.getFullAddress(true); // TODO TODO do not set if directly connectable IxianHandler.publicIP = endpoint.address; IxianHandler.publicPort = endpoint.incomingPort; PresenceList.forceSendKeepAlive = true; Logging.info("Forcing KA from networkprotocol"); } } else if (endpoint.presenceAddress.type == 'C') { Friend f = FriendList.getFriend(endpoint.presence.wallet); if (f != null && f.bot) { StreamProcessor.sendGetBotInfo(f); } } if (endpoint.presenceAddress.type == 'M' || endpoint.presenceAddress.type == 'H') { Node.setNetworkBlock(last_block_num, block_checksum, block_version); // Get random presences endpoint.sendData(ProtocolMessageCode.getRandomPresences, new byte[1] { (byte)'R' }); endpoint.sendData(ProtocolMessageCode.getRandomPresences, new byte[1] { (byte)'M' }); endpoint.sendData(ProtocolMessageCode.getRandomPresences, new byte[1] { (byte)'H' }); subscribeToEvents(endpoint); } } } break; case ProtocolMessageCode.s2data: { StreamProcessor.receiveData(data, endpoint); } break; case ProtocolMessageCode.updatePresence: { Logging.info("NET: Receiving presence list update"); // Parse the data and update entries in the presence list Presence p = PresenceList.updateFromBytes(data); if (p == null) { return; } Friend f = FriendList.getFriend(p.wallet); if (f != null) { f.relayIP = p.addresses[0].address; } } break; case ProtocolMessageCode.keepAlivePresence: { byte[] address = null; long last_seen = 0; byte[] device_id = null; bool updated = PresenceList.receiveKeepAlive(data, out address, out last_seen, out device_id, endpoint); Presence p = PresenceList.getPresenceByAddress(address); if (p == null) { return; } Friend f = FriendList.getFriend(p.wallet); if (f != null) { f.relayIP = p.addresses[0].address; } } break; case ProtocolMessageCode.getPresence: { using (MemoryStream m = new MemoryStream(data)) { using (BinaryReader reader = new BinaryReader(m)) { int walletLen = reader.ReadInt32(); byte[] wallet = reader.ReadBytes(walletLen); Presence p = PresenceList.getPresenceByAddress(wallet); if (p != null) { lock (p) { byte[][] presence_chunks = p.getByteChunks(); foreach (byte[] presence_chunk in presence_chunks) { endpoint.sendData(ProtocolMessageCode.updatePresence, presence_chunk, null); } } } else { // TODO blacklisting point Logging.warn(string.Format("Node has requested presence information about {0} that is not in our PL.", Base58Check.Base58CheckEncoding.EncodePlain(wallet))); } } } } break; case ProtocolMessageCode.getPresence2: { using (MemoryStream m = new MemoryStream(data)) { using (BinaryReader reader = new BinaryReader(m)) { int walletLen = (int)reader.ReadIxiVarUInt(); byte[] wallet = reader.ReadBytes(walletLen); Presence p = PresenceList.getPresenceByAddress(wallet); if (p != null) { lock (p) { byte[][] presence_chunks = p.getByteChunks(); foreach (byte[] presence_chunk in presence_chunks) { endpoint.sendData(ProtocolMessageCode.updatePresence, presence_chunk, null); } } } else { // TODO blacklisting point Logging.warn(string.Format("Node has requested presence information about {0} that is not in our PL.", Base58Check.Base58CheckEncoding.EncodePlain(wallet))); } } } } break; case ProtocolMessageCode.balance: { using (MemoryStream m = new MemoryStream(data)) { using (BinaryReader reader = new BinaryReader(m)) { int address_length = reader.ReadInt32(); byte[] address = reader.ReadBytes(address_length); // Retrieve the latest balance IxiNumber balance = reader.ReadString(); if (address.SequenceEqual(Node.walletStorage.getPrimaryAddress())) { // Retrieve the blockheight for the balance ulong block_height = reader.ReadUInt64(); if (block_height > Node.balance.blockHeight && (Node.balance.balance != balance || Node.balance.blockHeight == 0)) { byte[] block_checksum = reader.ReadBytes(reader.ReadInt32()); Node.balance.address = address; Node.balance.balance = balance; Node.balance.blockHeight = block_height; Node.balance.blockChecksum = block_checksum; Node.balance.verified = false; } Node.balance.lastUpdate = Clock.getTimestamp(); } } } } break; case ProtocolMessageCode.balance2: { using (MemoryStream m = new MemoryStream(data)) { using (BinaryReader reader = new BinaryReader(m)) { int address_length = (int)reader.ReadIxiVarUInt(); byte[] address = reader.ReadBytes(address_length); // Retrieve the latest balance IxiNumber balance = new IxiNumber(new BigInteger(reader.ReadBytes((int)reader.ReadIxiVarUInt()))); if (address.SequenceEqual(Node.walletStorage.getPrimaryAddress())) { // Retrieve the blockheight for the balance ulong block_height = reader.ReadIxiVarUInt(); if (block_height > Node.balance.blockHeight && (Node.balance.balance != balance || Node.balance.blockHeight == 0)) { byte[] block_checksum = reader.ReadBytes((int)reader.ReadIxiVarUInt()); Node.balance.address = address; Node.balance.balance = balance; Node.balance.blockHeight = block_height; Node.balance.blockChecksum = block_checksum; Node.balance.verified = false; } Node.balance.lastUpdate = Clock.getTimestamp(); } } } } break; case ProtocolMessageCode.newTransaction: case ProtocolMessageCode.transactionData: { // TODO: check for errors/exceptions Transaction transaction = new Transaction(data, true); if (endpoint.presenceAddress.type == 'M' || endpoint.presenceAddress.type == 'H') { PendingTransactions.increaseReceivedCount(transaction.id, endpoint.presence.wallet); } TransactionCache.addUnconfirmedTransaction(transaction); Node.tiv.receivedNewTransaction(transaction); } break; case ProtocolMessageCode.bye: CoreProtocolMessage.processBye(data, endpoint); break; case ProtocolMessageCode.blockHeaders2: { // Forward the block headers to the TIV handler Node.tiv.receivedBlockHeaders2(data, endpoint); } break; case ProtocolMessageCode.pitData2: { Node.tiv.receivedPIT2(data, endpoint); } break; default: break; } } catch (Exception e) { Logging.error("Error parsing network message. Details: {0}", e.ToString()); } }
// Unified protocol message parsing public static void parseProtocolMessage(ProtocolMessageCode code, byte[] data, RemoteEndpoint endpoint) { if (endpoint == null) { Logging.error("Endpoint was null. parseProtocolMessage"); return; } try { switch (code) { case ProtocolMessageCode.hello: using (MemoryStream m = new MemoryStream(data)) { using (BinaryReader reader = new BinaryReader(m)) { if (CoreProtocolMessage.processHelloMessage(endpoint, reader)) { byte[] challenge_response = null; int challenge_len = reader.ReadInt32(); byte[] challenge = reader.ReadBytes(challenge_len); challenge_response = CryptoManager.lib.getSignature(challenge, Node.walletStorage.getPrimaryPrivateKey()); CoreProtocolMessage.sendHelloMessage(endpoint, true, challenge_response); endpoint.helloReceived = true; return; } } } break; case ProtocolMessageCode.helloData: using (MemoryStream m = new MemoryStream(data)) { using (BinaryReader reader = new BinaryReader(m)) { if (CoreProtocolMessage.processHelloMessage(endpoint, reader)) { char node_type = endpoint.presenceAddress.type; if (node_type != 'M' && node_type != 'H') { CoreProtocolMessage.sendBye(endpoint, ProtocolByeCode.expectingMaster, string.Format("Expecting master node."), "", true); return; } ulong last_block_num = reader.ReadUInt64(); int bcLen = reader.ReadInt32(); byte[] block_checksum = reader.ReadBytes(bcLen); int wsLen = reader.ReadInt32(); byte[] walletstate_checksum = reader.ReadBytes(wsLen); int consensus = reader.ReadInt32(); endpoint.blockHeight = last_block_num; int block_version = reader.ReadInt32(); // Check for legacy level ulong legacy_level = reader.ReadUInt64(); // deprecated int challenge_response_len = reader.ReadInt32(); byte[] challenge_response = reader.ReadBytes(challenge_response_len); if (!CryptoManager.lib.verifySignature(endpoint.challenge, endpoint.serverPubKey, challenge_response)) { CoreProtocolMessage.sendBye(endpoint, ProtocolByeCode.authFailed, string.Format("Invalid challenge response."), "", true); return; } // Process the hello data endpoint.helloReceived = true; NetworkClientManager.recalculateLocalTimeDifference(); if (endpoint.presenceAddress.type == 'M') { Node.setNetworkBlock(last_block_num, block_checksum, block_version); // Get random presences endpoint.sendData(ProtocolMessageCode.getRandomPresences, new byte[1] { (byte)'M' }); CoreProtocolMessage.subscribeToEvents(endpoint); } } } } break; case ProtocolMessageCode.balance: { using (MemoryStream m = new MemoryStream(data)) { using (BinaryReader reader = new BinaryReader(m)) { int address_length = reader.ReadInt32(); byte[] address = reader.ReadBytes(address_length); // Retrieve the latest balance IxiNumber balance = reader.ReadString(); if (address.SequenceEqual(Node.walletStorage.getPrimaryAddress())) { // Retrieve the blockheight for the balance ulong block_height = reader.ReadUInt64(); if (block_height > Node.balance.blockHeight && (Node.balance.balance != balance || Node.balance.blockHeight == 0)) { byte[] block_checksum = reader.ReadBytes(reader.ReadInt32()); Node.balance.address = address; Node.balance.balance = balance; Node.balance.blockHeight = block_height; Node.balance.blockChecksum = block_checksum; Node.balance.verified = false; } } } } } break; case ProtocolMessageCode.updatePresence: { // Parse the data and update entries in the presence list PresenceList.updateFromBytes(data); } break; case ProtocolMessageCode.blockHeaders: { // Forward the block headers to the TIV handler Node.tiv.receivedBlockHeaders(data, endpoint); } break; case ProtocolMessageCode.pitData: { Node.tiv.receivedPIT(data, endpoint); } break; case ProtocolMessageCode.newTransaction: case ProtocolMessageCode.transactionData: { Transaction tx = new Transaction(data, true); PendingTransactions.increaseReceivedCount(tx.id); Node.tiv.receivedNewTransaction(tx); Console.WriteLine("Received new transaction {0}", tx.id); } break; default: break; } } catch (Exception e) { Logging.error(string.Format("Error parsing network message. Details: {0}", e.ToString())); } if (waitingFor == code) { blocked = false; } }
// Unified protocol message parsing public static void parseProtocolMessage(ProtocolMessageCode code, byte[] data, RemoteEndpoint endpoint) { if (endpoint == null) { Logging.error("Endpoint was null. parseProtocolMessage"); return; } try { switch (code) { case ProtocolMessageCode.hello: using (MemoryStream m = new MemoryStream(data)) { using (BinaryReader reader = new BinaryReader(m)) { CoreProtocolMessage.processHelloMessageV6(endpoint, reader); } } break; case ProtocolMessageCode.helloData: using (MemoryStream m = new MemoryStream(data)) { using (BinaryReader reader = new BinaryReader(m)) { if (CoreProtocolMessage.processHelloMessageV6(endpoint, reader)) { char node_type = endpoint.presenceAddress.type; if (node_type != 'M' && node_type != 'H') { CoreProtocolMessage.sendBye(endpoint, ProtocolByeCode.expectingMaster, string.Format("Expecting master node."), "", true); return; } ulong last_block_num = reader.ReadIxiVarUInt(); int bcLen = (int)reader.ReadIxiVarUInt(); byte[] block_checksum = reader.ReadBytes(bcLen); endpoint.blockHeight = last_block_num; int block_version = (int)reader.ReadIxiVarUInt(); // Process the hello data endpoint.helloReceived = true; NetworkClientManager.recalculateLocalTimeDifference(); if (endpoint.presenceAddress.type == 'M' || endpoint.presenceAddress.type == 'H') { Node.setNetworkBlock(last_block_num, block_checksum, block_version); // Get random presences endpoint.sendData(ProtocolMessageCode.getRandomPresences, new byte[1] { (byte)'M' }); endpoint.sendData(ProtocolMessageCode.getRandomPresences, new byte[1] { (byte)'H' }); CoreProtocolMessage.subscribeToEvents(endpoint); } } } } break; case ProtocolMessageCode.balance: { using (MemoryStream m = new MemoryStream(data)) { using (BinaryReader reader = new BinaryReader(m)) { int address_length = reader.ReadInt32(); byte[] address = reader.ReadBytes(address_length); // Retrieve the latest balance IxiNumber balance = new IxiNumber(reader.ReadString()); if (address.SequenceEqual(IxianHandler.getWalletStorage().getPrimaryAddress())) { // Retrieve the blockheight for the balance ulong block_height = reader.ReadUInt64(); if (block_height > Node.balance.blockHeight && (Node.balance.balance != balance || Node.balance.blockHeight == 0)) { byte[] block_checksum = reader.ReadBytes(reader.ReadInt32()); Node.balance.address = address; Node.balance.balance = balance; Node.balance.blockHeight = block_height; Node.balance.blockChecksum = block_checksum; Node.balance.verified = false; } } } } } break; case ProtocolMessageCode.balance2: { using (MemoryStream m = new MemoryStream(data)) { using (BinaryReader reader = new BinaryReader(m)) { int address_length = (int)reader.ReadIxiVarUInt(); byte[] address = reader.ReadBytes(address_length); int balance_bytes_len = (int)reader.ReadIxiVarUInt(); byte[] balance_bytes = reader.ReadBytes(balance_bytes_len); // Retrieve the latest balance IxiNumber balance = new IxiNumber(new BigInteger(balance_bytes)); if (address.SequenceEqual(IxianHandler.getWalletStorage().getPrimaryAddress())) { // Retrieve the blockheight for the balance ulong block_height = reader.ReadIxiVarUInt(); if (block_height > Node.balance.blockHeight && (Node.balance.balance != balance || Node.balance.blockHeight == 0)) { byte[] block_checksum = reader.ReadBytes((int)reader.ReadIxiVarUInt()); Node.balance.address = address; Node.balance.balance = balance; Node.balance.blockHeight = block_height; Node.balance.blockChecksum = block_checksum; Node.balance.verified = false; } } } } } break; case ProtocolMessageCode.updatePresence: { // Parse the data and update entries in the presence list PresenceList.updateFromBytes(data, 0); } break; case ProtocolMessageCode.blockHeaders2: { // Forward the block headers to the TIV handler Node.tiv.receivedBlockHeaders2(data, endpoint); } break; case ProtocolMessageCode.pitData2: { Node.tiv.receivedPIT2(data, endpoint); } break; case ProtocolMessageCode.transactionData: { Transaction tx = new Transaction(data, true); if (endpoint.presenceAddress.type == 'M' || endpoint.presenceAddress.type == 'H') { PendingTransactions.increaseReceivedCount(tx.id, endpoint.presence.wallet); } if (Node.tiv.receivedNewTransaction(tx)) { if (!Program.commands.stressRunning) { Console.WriteLine("Received new transaction {0}", Transaction.txIdV8ToLegacy(tx.id)); } } } break; case ProtocolMessageCode.bye: CoreProtocolMessage.processBye(data, endpoint); break; default: break; } } catch (Exception e) { Logging.error("Error parsing network message. Details: {0}", e); } if (waitingFor == code) { blocked = false; } }
static void handleInventory2(byte[] data, RemoteEndpoint endpoint) { using (MemoryStream m = new MemoryStream(data)) { using (BinaryReader reader = new BinaryReader(m)) { ulong item_count = reader.ReadIxiVarUInt(); if (item_count > (ulong)CoreConfig.maxInventoryItems) { Logging.warn("Received {0} inventory items, max items is {1}", item_count, CoreConfig.maxInventoryItems); item_count = (ulong)CoreConfig.maxInventoryItems; } ulong last_block_height = IxianHandler.getLastBlockHeight(); Dictionary <ulong, List <InventoryItemSignature> > sig_lists = new Dictionary <ulong, List <InventoryItemSignature> >(); List <InventoryItemKeepAlive> ka_list = new List <InventoryItemKeepAlive>(); List <byte[]> tx_list = new List <byte[]>(); bool request_next_block = false; for (ulong i = 0; i < item_count; i++) { ulong len = reader.ReadIxiVarUInt(); byte[] item_bytes = reader.ReadBytes((int)len); InventoryItem item = InventoryCache.decodeInventoryItem(item_bytes); if (item.type == InventoryItemTypes.transaction) { PendingTransactions.increaseReceivedCount(item.hash, endpoint.presence.wallet); } PendingInventoryItem pii = Node.inventoryCache.add(item, endpoint); if (!pii.processed && pii.lastRequested == 0) { // first time we're seeing this inventory item switch (item.type) { case InventoryItemTypes.keepAlive: ka_list.Add((InventoryItemKeepAlive)item); pii.lastRequested = Clock.getTimestamp(); break; case InventoryItemTypes.transaction: tx_list.Add(item.hash); pii.lastRequested = Clock.getTimestamp(); break; case InventoryItemTypes.blockSignature: var iis = (InventoryItemSignature)item; if (iis.blockNum < last_block_height - 5 && iis.blockNum > last_block_height + 6) { continue; } if (!sig_lists.ContainsKey(iis.blockNum)) { sig_lists.Add(iis.blockNum, new List <InventoryItemSignature>()); } sig_lists[iis.blockNum].Add(iis); pii.lastRequested = Clock.getTimestamp(); break; case InventoryItemTypes.block: var iib = ((InventoryItemBlock)item); if (iib.blockNum <= last_block_height) { Node.inventoryCache.processInventoryItem(pii); } else { pii.lastRequested = Clock.getTimestamp(); request_next_block = true; if (iib.blockNum > endpoint.blockHeight) { endpoint.blockHeight = iib.blockNum; } if (iib.blockNum > Node.blockProcessor.highestNetworkBlockNum) { Node.blockProcessor.highestNetworkBlockNum = iib.blockNum; } } break; default: Node.inventoryCache.processInventoryItem(pii); break; } } } PresenceProtocolMessages.broadcastGetKeepAlives(ka_list, endpoint); if (Node.blockSync.synchronizing) { return; } TransactionProtocolMessages.broadcastGetTransactions(tx_list, 0, endpoint); if (request_next_block) { byte include_tx = 2; if (Node.isMasterNode()) { include_tx = 0; } BlockProtocolMessages.broadcastGetBlock(last_block_height + 1, null, endpoint, include_tx, true); } foreach (var sig_list in sig_lists) { SignatureProtocolMessages.broadcastGetSignatures(sig_list.Key, sig_list.Value, endpoint); } } } }
// Unified protocol message parsing public static void parseProtocolMessage(ProtocolMessageCode code, byte[] data, RemoteEndpoint endpoint) { if (endpoint == null) { Logging.error("Endpoint was null. parseProtocolMessage"); return; } try { switch (code) { case ProtocolMessageCode.hello: { using (MemoryStream m = new MemoryStream(data)) { using (BinaryReader reader = new BinaryReader(m)) { if (CoreProtocolMessage.processHelloMessage(endpoint, reader)) { byte[] challenge_response = null; int challenge_len = reader.ReadInt32(); byte[] challenge = reader.ReadBytes(challenge_len); challenge_response = CryptoManager.lib.getSignature(challenge, IxianHandler.getWalletStorage().getPrimaryPrivateKey()); CoreProtocolMessage.sendHelloMessage(endpoint, true, challenge_response); endpoint.helloReceived = true; return; } } } } break; case ProtocolMessageCode.helloData: using (MemoryStream m = new MemoryStream(data)) { using (BinaryReader reader = new BinaryReader(m)) { if (!CoreProtocolMessage.processHelloMessage(endpoint, reader)) { return; } ulong last_block_num = reader.ReadUInt64(); int bcLen = reader.ReadInt32(); byte[] block_checksum = reader.ReadBytes(bcLen); int wsLen = reader.ReadInt32(); byte[] walletstate_checksum = reader.ReadBytes(wsLen); int consensus = reader.ReadInt32(); // deprecated endpoint.blockHeight = last_block_num; int block_version = reader.ReadInt32(); // Check for legacy level ulong legacy_level = reader.ReadUInt64(); // deprecated int challenge_response_len = reader.ReadInt32(); byte[] challenge_response = reader.ReadBytes(challenge_response_len); if (!CryptoManager.lib.verifySignature(endpoint.challenge, endpoint.serverPubKey, challenge_response)) { CoreProtocolMessage.sendBye(endpoint, ProtocolByeCode.authFailed, string.Format("Invalid challenge response."), "", true); return; } ulong highest_block_height = IxianHandler.getHighestKnownNetworkBlockHeight(); if (last_block_num + 10 < highest_block_height) { CoreProtocolMessage.sendBye(endpoint, ProtocolByeCode.tooFarBehind, string.Format("Your node is too far behind, your block height is {0}, highest network block height is {1}.", last_block_num, highest_block_height), highest_block_height.ToString(), true); return; } // Process the hello data endpoint.helloReceived = true; NetworkClientManager.recalculateLocalTimeDifference(); if (endpoint.presenceAddress.type == 'R') { string[] connected_servers = StreamClientManager.getConnectedClients(true); if (connected_servers.Count() == 1 || !connected_servers.Contains(StreamClientManager.primaryS2Address)) { if (StreamClientManager.primaryS2Address == "") { FriendList.requestAllFriendsPresences(); } // TODO set the primary s2 host more efficiently, perhaps allow for multiple s2 primary hosts StreamClientManager.primaryS2Address = endpoint.getFullAddress(true); // TODO TODO do not set if directly connectable IxianHandler.publicIP = endpoint.address; IxianHandler.publicPort = endpoint.incomingPort; PresenceList.forceSendKeepAlive = true; Logging.info("Forcing KA from networkprotocol"); } } else if (endpoint.presenceAddress.type == 'C') { Friend f = FriendList.getFriend(endpoint.presence.wallet); if (f != null && f.bot) { StreamProcessor.sendGetMessages(f); } } if (endpoint.presenceAddress.type == 'M') { Node.setNetworkBlock(last_block_num, block_checksum, block_version); // Get random presences endpoint.sendData(ProtocolMessageCode.getRandomPresences, new byte[1] { (byte)'R' }); endpoint.sendData(ProtocolMessageCode.getRandomPresences, new byte[1] { (byte)'M' }); subscribeToEvents(endpoint); } } } break; case ProtocolMessageCode.s2data: { StreamProcessor.receiveData(data, endpoint); } break; case ProtocolMessageCode.updatePresence: { Logging.info("NET: Receiving presence list update"); // Parse the data and update entries in the presence list Presence p = PresenceList.updateFromBytes(data); } break; case ProtocolMessageCode.keepAlivePresence: { byte[] address = null; bool updated = PresenceList.receiveKeepAlive(data, out address, endpoint); } break; case ProtocolMessageCode.getPresence: { using (MemoryStream m = new MemoryStream(data)) { using (BinaryReader reader = new BinaryReader(m)) { int walletLen = reader.ReadInt32(); byte[] wallet = reader.ReadBytes(walletLen); Presence p = PresenceList.getPresenceByAddress(wallet); if (p != null) { lock (p) { byte[][] presence_chunks = p.getByteChunks(); foreach (byte[] presence_chunk in presence_chunks) { endpoint.sendData(ProtocolMessageCode.updatePresence, presence_chunk, null); } } } else { // TODO blacklisting point Logging.warn(string.Format("Node has requested presence information about {0} that is not in our PL.", Base58Check.Base58CheckEncoding.EncodePlain(wallet))); } } } } break; case ProtocolMessageCode.balance: { using (MemoryStream m = new MemoryStream(data)) { using (BinaryReader reader = new BinaryReader(m)) { int address_length = reader.ReadInt32(); byte[] address = reader.ReadBytes(address_length); // Retrieve the latest balance IxiNumber balance = reader.ReadString(); if (address.SequenceEqual(Node.walletStorage.getPrimaryAddress())) { // Retrieve the blockheight for the balance ulong block_height = reader.ReadUInt64(); if (block_height > Node.balance.blockHeight && (Node.balance.balance != balance || Node.balance.blockHeight == 0)) { byte[] block_checksum = reader.ReadBytes(reader.ReadInt32()); Node.balance.address = address; Node.balance.balance = balance; Node.balance.blockHeight = block_height; Node.balance.blockChecksum = block_checksum; Node.balance.lastUpdate = Clock.getTimestamp(); Node.balance.verified = false; } } } } } break; case ProtocolMessageCode.newTransaction: case ProtocolMessageCode.transactionData: { // TODO: check for errors/exceptions Transaction transaction = new Transaction(data, true); PendingTransactions.increaseReceivedCount(transaction.id); TransactionCache.addUnconfirmedTransaction(transaction); Node.tiv.receivedNewTransaction(transaction); } break; case ProtocolMessageCode.bye: { using (MemoryStream m = new MemoryStream(data)) { using (BinaryReader reader = new BinaryReader(m)) { endpoint.stop(); bool byeV1 = false; try { ProtocolByeCode byeCode = (ProtocolByeCode)reader.ReadInt32(); string byeMessage = reader.ReadString(); string byeData = reader.ReadString(); byeV1 = true; switch (byeCode) { case ProtocolByeCode.bye: // all good break; case ProtocolByeCode.forked: // forked node disconnected Logging.info(string.Format("Disconnected with message: {0} {1}", byeMessage, byeData)); break; case ProtocolByeCode.deprecated: // deprecated node disconnected Logging.info(string.Format("Disconnected with message: {0} {1}", byeMessage, byeData)); break; case ProtocolByeCode.incorrectIp: // incorrect IP if (IxiUtils.validateIPv4(byeData)) { if (NetworkClientManager.getConnectedClients(true).Length < 2) { // TODO TODO do not set if not directly connectable IxianHandler.publicIP = byeData; Logging.info("Changed internal IP Address to " + byeData + ", reconnecting"); } } break; case ProtocolByeCode.notConnectable: // not connectable from the internet Logging.error("This node must be connectable from the internet, to connect to the network."); Logging.error("Please setup uPNP and/or port forwarding on your router for port " + IxianHandler.publicPort + "."); NetworkServer.connectable = false; break; default: Logging.warn(string.Format("Disconnected with message: {0} {1}", byeMessage, byeData)); break; } } catch (Exception) { } if (byeV1) { return; } reader.BaseStream.Seek(0, SeekOrigin.Begin); // Retrieve the message string message = reader.ReadString(); if (message.Length > 0) { Logging.info(string.Format("Disconnected with message: {0}", message)); } else { Logging.info("Disconnected"); } } } } break; case ProtocolMessageCode.blockHeaders: { // Forward the block headers to the TIV handler Node.tiv.receivedBlockHeaders(data, endpoint); } break; case ProtocolMessageCode.pitData: { Node.tiv.receivedPIT(data, endpoint); } break; default: break; } } catch (Exception e) { Logging.error(string.Format("Error parsing network message. Details: {0}", e.ToString())); } if (waitingFor == code) { blocked = false; } }