private static void checkRequiredArgs( OptionParser parser, OptionSet options, OptionSpec[] required) throws IOException { for (OptionSpec arg : required) { if (!options.has(arg)) { System.err.println("Missing required argument \"" + arg + "\""); parser.printHelpOn(System.err); System.exit(1); } } }
public static void main(String[] args) { // TODO main OptionParser parser = new OptionParser(); parser.acceptsAll(Arrays.asList("h", "help"), "Show this help dialog."); OptionSpec<String> serverOption = parser .acceptsAll(Arrays.asList("s", "server"), "Server to join.") .withRequiredArg() .describedAs("server-address[:port]"); OptionSpec<String> proxyOption = parser .acceptsAll( Arrays.asList("P", "proxy"), "SOCKS proxy to use. Ignored in presence of 'socks-proxy-list'.") .withRequiredArg() .describedAs("proxy-address"); OptionSpec<String> ownerOption = parser .acceptsAll( Arrays.asList("o", "owner"), "Owner of the bot (username of in-game control).") .withRequiredArg() .describedAs("username"); OptionSpec<?> offlineOption = parser.acceptsAll( Arrays.asList("O", "offline"), "Offline-mode. Ignores 'password' and 'account-list' (will " + "generate random usernames if 'username' is not supplied)."); OptionSpec<?> autoRejoinOption = parser.acceptsAll(Arrays.asList("a", "auto-rejoin"), "Auto-rejoin a server on disconnect."); OptionSpec<Integer> loginDelayOption = parser .acceptsAll( Arrays.asList("d", "login-delay"), "Delay between bot joins, in milliseconds. 5000 is " + "recommended if not using socks proxies.") .withRequiredArg() .describedAs("delay") .ofType(Integer.class); OptionSpec<Integer> botAmountOption = parser .acceptsAll( Arrays.asList("b", "bot-amount"), "Amount of bots to join. Must be <= amount of accounts.") .withRequiredArg() .describedAs("amount") .ofType(Integer.class); OptionSpec<String> accountListOption = parser .accepts( "account-list", "File containing a list of accounts, in username/email:password format.") .withRequiredArg() .describedAs("file"); OptionSpec<String> socksProxyListOption = parser .accepts( "socks-proxy-list", "File containing a list of SOCKS proxies, in address:port format.") .withRequiredArg() .describedAs("file"); OptionSpec<String> httpProxyListOption = parser .accepts( "http-proxy-list", "File containing a list of HTTP proxies, in address:port format.") .withRequiredArg() .describedAs("file"); OptionSet options; try { options = parser.parse(args); } catch (OptionException exception) { try { parser.printHelpOn(System.out); } catch (Exception exception1) { exception1.printStackTrace(); } return; } if (options.has("help")) { printHelp(parser); return; } final boolean offline = options.has(offlineOption); final boolean autoRejoin = options.has(autoRejoinOption); final List<String> accounts; if (options.has(accountListOption)) { accounts = loadAccounts(options.valueOf(accountListOption)); } else if (!offline) { System.out.println("Option 'accounts' must be supplied in " + "absence of option 'offline'."); printHelp(parser); return; } else accounts = null; final String server; if (!options.has(serverOption)) { System.out.println("Option 'server' required."); printHelp(parser); return; } else server = options.valueOf(serverOption); final String owner; if (!options.has(ownerOption)) { System.out.println("Option 'owner' required."); printHelp(parser); return; } else owner = options.valueOf(ownerOption); final List<String> socksProxies; if (options.has(socksProxyListOption)) socksProxies = loadProxies(options.valueOf(socksProxyListOption)); else socksProxies = null; final boolean useProxy = socksProxies != null; final List<String> httpProxies; if (options.has(httpProxyListOption)) httpProxies = loadLoginProxies(options.valueOf(httpProxyListOption)); else if (!offline && accounts != null) { System.out.println( "Option 'http-proxy-list' required if " + "option 'account-list' is supplied."); printHelp(parser); return; } else httpProxies = null; final int loginDelay; if (options.has(loginDelayOption)) loginDelay = options.valueOf(loginDelayOption); else loginDelay = 0; final int botAmount; if (!options.has(botAmountOption)) { System.out.println("Option 'bot-amount' required."); printHelp(parser); return; } else botAmount = options.valueOf(botAmountOption); initGui(); while (!sessions.get()) { synchronized (sessions) { try { sessions.wait(5000); } catch (InterruptedException exception) { } } } final Queue<Runnable> lockQueue = new ArrayDeque<Runnable>(); ExecutorService service = Executors.newFixedThreadPool(botAmount + (loginDelay > 0 ? 1 : 0)); final Object firstWait = new Object(); if (loginDelay > 0) { service.execute( new Runnable() { @Override public void run() { synchronized (firstWait) { try { firstWait.wait(); } catch (InterruptedException exception) { } } while (true) { if (die) return; while (slotsTaken.get() >= 2) { synchronized (slotsTaken) { try { slotsTaken.wait(500); } catch (InterruptedException exception) { } } } synchronized (lockQueue) { if (lockQueue.size() > 0) { Runnable thread = lockQueue.poll(); synchronized (thread) { thread.notifyAll(); } lockQueue.offer(thread); } else continue; } try { Thread.sleep(loginDelay); } catch (InterruptedException exception) { } while (!sessions.get()) { synchronized (sessions) { try { sessions.wait(5000); } catch (InterruptedException exception) { } } } } } }); } final List<String> accountsInUse = new ArrayList<String>(); for (int i = 0; i < botAmount; i++) { final int botNumber = i; Runnable runnable = new Runnable() { @Override public void run() { if (loginDelay > 0) synchronized (lockQueue) { lockQueue.add(this); } Random random = new Random(); if (!offline) { boolean authenticated = false; user: while (true) { if (authenticated) { authenticated = false; sessionCount.decrementAndGet(); } Session session = null; String loginProxy; String account = accounts.get(random.nextInt(accounts.size())); synchronized (accountsInUse) { if (accountsInUse.size() == accounts.size()) System.exit(0); while (accountsInUse.contains(account)) account = accounts.get(random.nextInt(accounts.size())); accountsInUse.add(account); } String[] accountParts = account.split(":"); while (true) { while (!sessions.get()) { synchronized (sessions) { try { sessions.wait(5000); } catch (InterruptedException exception) { } } } loginProxy = httpProxies.get(random.nextInt(httpProxies.size())); try { session = Util.retrieveSession(accountParts[0], accountParts[1], loginProxy); // addAccount(session); sessionCount.incrementAndGet(); authenticated = true; break; } catch (AuthenticationException exception) { System.err.println("[Bot" + botNumber + "] " + exception); if (!exception.getMessage().startsWith("Exception")) // && !exception.getMessage().equals( // "Too many failed logins")) continue user; } } System.out.println( "[" + session.getUsername() + "] Password: "******", Session ID: " + session.getSessionId()); while (!joins.get()) { synchronized (joins) { try { joins.wait(5000); } catch (InterruptedException exception) { } } } if (loginDelay > 0) { synchronized (this) { try { synchronized (firstWait) { firstWait.notifyAll(); } wait(); } catch (InterruptedException exception) { } } } while (true) { String proxy = useProxy ? socksProxies.get(random.nextInt(socksProxies.size())) : null; try { new DarkBotMCSpambot( DARK_BOT, server, session.getUsername(), session.getPassword(), session.getSessionId(), null, proxy, owner); if (die) break user; else if (!autoRejoin) break; } catch (Exception exception) { exception.printStackTrace(); System.out.println( "[" + session.getUsername() + "] Error connecting: " + exception.getCause().toString()); } } System.out.println("[" + session.getUsername() + "] Account failed"); } } else { while (true) { String proxy = useProxy ? socksProxies.get(random.nextInt(socksProxies.size())) : null; try { String username = ""; if (accounts != null) { username = accounts.get(random.nextInt(accounts.size())).split(":")[0]; synchronized (accountsInUse) { while (accountsInUse.contains(username)) username = accounts.get(random.nextInt(accounts.size())); accountsInUse.add(username); } } else for (int i = 0; i < 10 + random.nextInt(6); i++) username += alphas[random.nextInt(alphas.length)]; if (loginDelay > 0) { synchronized (this) { try { synchronized (firstWait) { firstWait.notifyAll(); } wait(); } catch (InterruptedException exception) { } } } new DarkBotMCSpambot(DARK_BOT, server, username, "", "", null, proxy, owner); if (die || !autoRejoin) break; else continue; } catch (Exception exception) { System.out.println( "[Bot" + botNumber + "] Error connecting: " + exception.toString()); } } } } }; service.execute(runnable); } service.shutdown(); while (!service.isTerminated()) { try { service.awaitTermination(9000, TimeUnit.DAYS); } catch (InterruptedException exception) { exception.printStackTrace(); } } System.exit(0); }
public static void main(String[] args) throws InterruptedException, IOException { OptionParser parser = new OptionParser(); ArgumentAcceptingOptionSpec<String> consumerConfigOpt = parser .accepts( "consumer.config", "Kafka 0.7 consumer config to consume from the source 0.7 cluster. " + "You man specify multiple of these.") .withRequiredArg() .describedAs("config file") .ofType(String.class); ArgumentAcceptingOptionSpec<String> producerConfigOpt = parser .accepts("producer.config", "Producer config.") .withRequiredArg() .describedAs("config file") .ofType(String.class); ArgumentAcceptingOptionSpec<Integer> numProducersOpt = parser .accepts("num.producers", "Number of producer instances") .withRequiredArg() .describedAs("Number of producers") .ofType(Integer.class) .defaultsTo(1); ArgumentAcceptingOptionSpec<String> zkClient01JarOpt = parser .accepts("zkclient.01.jar", "zkClient 0.1 jar file") .withRequiredArg() .describedAs("zkClient 0.1 jar file required by Kafka 0.7") .ofType(String.class); ArgumentAcceptingOptionSpec<String> kafka07JarOpt = parser .accepts("kafka.07.jar", "Kafka 0.7 jar file") .withRequiredArg() .describedAs("kafka 0.7 jar") .ofType(String.class); ArgumentAcceptingOptionSpec<Integer> numStreamsOpt = parser .accepts("num.streams", "Number of consumer streams") .withRequiredArg() .describedAs("Number of consumer threads") .ofType(Integer.class) .defaultsTo(1); ArgumentAcceptingOptionSpec<String> whitelistOpt = parser .accepts("whitelist", "Whitelist of topics to migrate from the 0.7 cluster") .withRequiredArg() .describedAs("Java regex (String)") .ofType(String.class); ArgumentAcceptingOptionSpec<String> blacklistOpt = parser .accepts("blacklist", "Blacklist of topics to migrate from the 0.7 cluster") .withRequiredArg() .describedAs("Java regex (String)") .ofType(String.class); ArgumentAcceptingOptionSpec<Integer> queueSizeOpt = parser .accepts( "queue.size", "Number of messages that are buffered between the 0.7 consumer and 0.8 producer") .withRequiredArg() .describedAs("Queue size in terms of number of messages") .ofType(Integer.class) .defaultsTo(10000); OptionSpecBuilder helpOpt = parser.accepts("help", "Print this message."); OptionSet options = parser.parse(args); if (options.has(helpOpt)) { parser.printHelpOn(System.out); System.exit(0); } checkRequiredArgs( parser, options, new OptionSpec[] {consumerConfigOpt, producerConfigOpt, zkClient01JarOpt, kafka07JarOpt}); int whiteListCount = options.has(whitelistOpt) ? 1 : 0; int blackListCount = options.has(blacklistOpt) ? 1 : 0; if (whiteListCount + blackListCount != 1) { System.err.println("Exactly one of whitelist or blacklist is required."); System.exit(1); } String kafkaJarFile_07 = options.valueOf(kafka07JarOpt); String zkClientJarFile = options.valueOf(zkClient01JarOpt); String consumerConfigFile_07 = options.valueOf(consumerConfigOpt); int numConsumers = options.valueOf(numStreamsOpt); String producerConfigFile_08 = options.valueOf(producerConfigOpt); int numProducers = options.valueOf(numProducersOpt); final List<MigrationThread> migrationThreads = new ArrayList<MigrationThread>(numConsumers); final List<ProducerThread> producerThreads = new ArrayList<ProducerThread>(numProducers); try { File kafkaJar_07 = new File(kafkaJarFile_07); File zkClientJar = new File(zkClientJarFile); ParentLastURLClassLoader c1 = new ParentLastURLClassLoader( new URL[] {kafkaJar_07.toURI().toURL(), zkClientJar.toURI().toURL()}); /** Construct the 07 consumer config * */ ConsumerConfig_07 = c1.loadClass(KAFKA_07_CONSUMER_CONFIG_CLASS_NAME); KafkaStaticConsumer_07 = c1.loadClass(KAFKA_07_STATIC_CONSUMER_CLASS_NAME); ConsumerConnector_07 = c1.loadClass(KAFKA_07_CONSUMER_CONNECTOR_CLASS_NAME); KafkaStream_07 = c1.loadClass(KAFKA_07_CONSUMER_STREAM_CLASS_NAME); TopicFilter_07 = c1.loadClass(KAFKA_07_TOPIC_FILTER_CLASS_NAME); WhiteList_07 = c1.loadClass(KAFKA_07_WHITE_LIST_CLASS_NAME); BlackList_07 = c1.loadClass(KAFKA_07_BLACK_LIST_CLASS_NAME); KafkaMessageClass_07 = c1.loadClass(KAFKA_07_MESSAGE_CLASS_NAME); KafkaConsumerIteratorClass_07 = c1.loadClass(KAFKA_07_CONSUMER_ITERATOR_CLASS_NAME); KafkaMessageAndMetatDataClass_07 = c1.loadClass(KAFKA_07_MESSAGE_AND_METADATA_CLASS_NAME); Constructor ConsumerConfigConstructor_07 = ConsumerConfig_07.getConstructor(Properties.class); Properties kafkaConsumerProperties_07 = new Properties(); kafkaConsumerProperties_07.load(new FileInputStream(consumerConfigFile_07)); /** * Disable shallow iteration because the message format is different between 07 and 08, we * have to get each individual message * */ if (kafkaConsumerProperties_07.getProperty("shallow.iterator.enable", "").equals("true")) { log.warn("Shallow iterator should not be used in the migration tool"); kafkaConsumerProperties_07.setProperty("shallow.iterator.enable", "false"); } Object consumerConfig_07 = ConsumerConfigConstructor_07.newInstance(kafkaConsumerProperties_07); /** Construct the 07 consumer connector * */ Method ConsumerConnectorCreationMethod_07 = KafkaStaticConsumer_07.getMethod("createJavaConsumerConnector", ConsumerConfig_07); final Object consumerConnector_07 = ConsumerConnectorCreationMethod_07.invoke(null, consumerConfig_07); Method ConsumerConnectorCreateMessageStreamsMethod_07 = ConsumerConnector_07.getMethod("createMessageStreamsByFilter", TopicFilter_07, int.class); final Method ConsumerConnectorShutdownMethod_07 = ConsumerConnector_07.getMethod("shutdown"); Constructor WhiteListConstructor_07 = WhiteList_07.getConstructor(String.class); Constructor BlackListConstructor_07 = BlackList_07.getConstructor(String.class); Object filterSpec = null; if (options.has(whitelistOpt)) filterSpec = WhiteListConstructor_07.newInstance(options.valueOf(whitelistOpt)); else filterSpec = BlackListConstructor_07.newInstance(options.valueOf(blacklistOpt)); Object retKafkaStreams = ConsumerConnectorCreateMessageStreamsMethod_07.invoke( consumerConnector_07, filterSpec, numConsumers); Properties kafkaProducerProperties_08 = new Properties(); kafkaProducerProperties_08.load(new FileInputStream(producerConfigFile_08)); kafkaProducerProperties_08.setProperty("serializer.class", "kafka.serializer.DefaultEncoder"); // create a producer channel instead int queueSize = options.valueOf(queueSizeOpt); ProducerDataChannel<KeyedMessage<byte[], byte[]>> producerDataChannel = new ProducerDataChannel<KeyedMessage<byte[], byte[]>>(queueSize); int threadId = 0; Runtime.getRuntime() .addShutdownHook( new Thread() { @Override public void run() { try { ConsumerConnectorShutdownMethod_07.invoke(consumerConnector_07); } catch (Exception e) { log.error("Error while shutting down Kafka consumer", e); } for (MigrationThread migrationThread : migrationThreads) { migrationThread.shutdown(); } for (ProducerThread producerThread : producerThreads) { producerThread.shutdown(); } for (ProducerThread producerThread : producerThreads) { producerThread.awaitShutdown(); } log.info("Kafka migration tool shutdown successfully"); } }); // start consumer threads for (Object stream : (List) retKafkaStreams) { MigrationThread thread = new MigrationThread(stream, producerDataChannel, threadId); threadId++; thread.start(); migrationThreads.add(thread); } String clientId = kafkaProducerProperties_08.getProperty("client.id"); // start producer threads for (int i = 0; i < numProducers; i++) { kafkaProducerProperties_08.put("client.id", clientId + "-" + i); ProducerConfig producerConfig_08 = new ProducerConfig(kafkaProducerProperties_08); Producer producer = new Producer(producerConfig_08); ProducerThread producerThread = new ProducerThread(producerDataChannel, producer, i); producerThread.start(); producerThreads.add(producerThread); } } catch (Throwable e) { System.out.println("Kafka migration tool failed due to: " + Utils.stackTrace(e)); log.error("Kafka migration tool failed: ", e); } }
public static void main(String[] args) { // TODO main OptionParser parser = new OptionParser(); parser.acceptsAll(Arrays.asList("h", "help"), "Show this help dialog."); OptionSpec<String> serverOption = parser .acceptsAll(Arrays.asList("s", "server"), "Server to join.") .withRequiredArg() .describedAs("server-address[:port]"); OptionSpec<String> proxyOption = parser .acceptsAll( Arrays.asList("P", "proxy"), "SOCKS proxy to use. Ignored in presence of 'socks-proxy-list'.") .withRequiredArg() .describedAs("proxy-address"); OptionSpec<String> ownerOption = parser .acceptsAll( Arrays.asList("o", "owner"), "Owner of the bot (username of in-game control).") .withRequiredArg() .describedAs("username"); OptionSpec<?> offlineOption = parser.acceptsAll( Arrays.asList("O", "offline"), "Offline-mode. Ignores 'password' and 'account-list' (will " + "generate random usernames if 'username' is not supplied)."); OptionSpec<?> autoRejoinOption = parser.acceptsAll(Arrays.asList("a", "auto-rejoin"), "Auto-rejoin a server on disconnect."); OptionSpec<Integer> loginDelayOption = parser .acceptsAll( Arrays.asList("d", "login-delay"), "Delay between bot joins, in milliseconds. 5000 is " + "recommended if not using socks proxies.") .withRequiredArg() .describedAs("delay") .ofType(Integer.class); OptionSpec<Integer> botAmountOption = parser .acceptsAll( Arrays.asList("b", "bot-amount"), "Amount of bots to join. Must be <= amount of accounts.") .withRequiredArg() .describedAs("amount") .ofType(Integer.class); OptionSpec<String> protocolOption = parser .accepts( "protocol", "Protocol version to use. Can be either protocol number or Minecraft version.") .withRequiredArg(); OptionSpec<?> protocolsOption = parser.accepts("protocols", "List available protocols and exit."); OptionSpec<String> accountListOption = parser .accepts( "account-list", "File containing a list of accounts, in username/email:password format.") .withRequiredArg() .describedAs("file"); OptionSpec<String> socksProxyListOption = parser .accepts( "socks-proxy-list", "File containing a list of SOCKS proxies, in address:port format.") .withRequiredArg() .describedAs("file"); OptionSpec<String> httpProxyListOption = parser .accepts( "http-proxy-list", "File containing a list of HTTP proxies, in address:port format.") .withRequiredArg() .describedAs("file"); OptionSpec<String> captchaListOption = parser .accepts("captcha-list", "File containing a list of chat baised captcha to bypass.") .withRequiredArg() .describedAs("file"); OptionSet options; try { options = parser.parse(args); } catch (OptionException exception) { try { parser.printHelpOn(System.out); } catch (Exception exception1) { exception1.printStackTrace(); } return; } if (options.has("help")) { printHelp(parser); return; } if (options.has(protocolsOption)) { System.out.println("Available protocols:"); for (ProtocolProvider provider : ProtocolProvider.getProviders()) System.out.println( "\t" + provider.getMinecraftVersion() + " (" + provider.getSupportedVersion() + "): " + provider.getClass().getName()); System.out.println( "If no protocols are listed above, you may attempt to specify a protocol version in case the provider is actually in the class-path."); return; } final boolean offline = options.has(offlineOption); final boolean autoRejoin = options.has(autoRejoinOption); final List<String> accounts; if (options.has(accountListOption)) { accounts = loadAccounts(options.valueOf(accountListOption)); } else if (!offline) { System.out.println("Option 'accounts' must be supplied in " + "absence of option 'offline'."); printHelp(parser); return; } else accounts = null; final List<String> captcha; if (options.has(captchaListOption)) readCaptchaFile(options.valueOf(captchaListOption)); final String server; if (!options.has(serverOption)) { System.out.println("Option 'server' required."); printHelp(parser); return; } else server = options.valueOf(serverOption); final String owner; if (!options.has(ownerOption)) { System.out.println("Option 'owner' required."); printHelp(parser); return; } else owner = options.valueOf(ownerOption); final int protocol; if (options.has(protocolOption)) { String protocolString = options.valueOf(protocolOption); int parsedProtocol; try { parsedProtocol = Integer.parseInt(protocolString); } catch (NumberFormatException exception) { ProtocolProvider foundProvider = null; for (ProtocolProvider provider : ProtocolProvider.getProviders()) if (protocolString.equals(provider.getMinecraftVersion())) foundProvider = provider; if (foundProvider == null) { System.out.println("No provider found for Minecraft version '" + protocolString + "'."); return; } else parsedProtocol = foundProvider.getSupportedVersion(); } protocol = parsedProtocol; } else protocol = MinecraftBot.LATEST_PROTOCOL; final List<String> socksProxies; if (options.has(socksProxyListOption)) socksProxies = loadProxies(options.valueOf(socksProxyListOption)); else socksProxies = null; final boolean useProxy = socksProxies != null; final List<String> httpProxies; if (options.has(httpProxyListOption)) httpProxies = loadLoginProxies(options.valueOf(httpProxyListOption)); else if (!offline && accounts != null) { System.out.println( "Option 'http-proxy-list' required if " + "option 'account-list' is supplied."); printHelp(parser); return; } else httpProxies = null; final int loginDelay; if (options.has(loginDelayOption)) loginDelay = options.valueOf(loginDelayOption); else loginDelay = 0; final int botAmount; if (!options.has(botAmountOption)) { System.out.println("Option 'bot-amount' required."); printHelp(parser); return; } else botAmount = options.valueOf(botAmountOption); initGui(); while (!sessions.get()) { synchronized (sessions) { try { sessions.wait(5000); } catch (InterruptedException exception) { } } } final Queue<Runnable> lockQueue = new ArrayDeque<Runnable>(); ExecutorService service = Executors.newFixedThreadPool(botAmount + (loginDelay > 0 ? 1 : 0)); final Object firstWait = new Object(); if (loginDelay > 0) { service.execute( new Runnable() { @Override public void run() { synchronized (firstWait) { try { firstWait.wait(); } catch (InterruptedException exception) { } } while (true) { try { Thread.sleep(loginDelay); } catch (InterruptedException exception) { } synchronized (lockQueue) { if (lockQueue.size() > 0) { Runnable thread = lockQueue.poll(); synchronized (thread) { thread.notifyAll(); } lockQueue.offer(thread); } else continue; } while (!sessions.get()) { synchronized (sessions) { try { sessions.wait(5000); } catch (InterruptedException exception) { } } } } } }); } final List<String> accountsInUse = new ArrayList<String>(); final Map<String, AtomicInteger> workingProxies = new HashMap<String, AtomicInteger>(); for (int i = 0; i < botAmount; i++) { final int botNumber = i; Runnable runnable = new Runnable() { @Override public void run() { if (loginDelay > 0) synchronized (lockQueue) { lockQueue.add(this); } Random random = new Random(); if (!offline) { AuthService authService = new LegacyAuthService(); boolean authenticated = false; user: while (true) { if (authenticated) { authenticated = false; sessionCount.decrementAndGet(); } Session session = null; String loginProxy; String account = accounts.get(random.nextInt(accounts.size())); synchronized (accountsInUse) { if (accountsInUse.size() == accounts.size()) System.exit(0); while (accountsInUse.contains(account)) account = accounts.get(random.nextInt(accounts.size())); accountsInUse.add(account); } String[] accountParts = account.split(":"); while (true) { while (!sessions.get()) { synchronized (sessions) { try { sessions.wait(5000); } catch (InterruptedException exception) { } } } synchronized (workingProxies) { Iterator<String> iterator = workingProxies.keySet().iterator(); if (iterator.hasNext()) loginProxy = iterator.next(); else loginProxy = httpProxies.get(random.nextInt(httpProxies.size())); ; } try { session = authService.login( accountParts[0], accountParts[1], toProxy(loginProxy, Proxy.Type.HTTP)); // addAccount(session); synchronized (workingProxies) { AtomicInteger count = workingProxies.get(loginProxy); if (count != null) count.set(0); else workingProxies.put(loginProxy, new AtomicInteger()); } sessionCount.incrementAndGet(); authenticated = true; break; } catch (IOException exception) { synchronized (workingProxies) { workingProxies.remove(loginProxy); } System.err.println("[Bot" + botNumber + "] " + loginProxy + ": " + exception); } catch (AuthenticationException exception) { if (exception.getMessage().contains("Too many failed logins")) { synchronized (workingProxies) { AtomicInteger count = workingProxies.get(loginProxy); if (count != null && count.incrementAndGet() >= 5) workingProxies.remove(loginProxy); } } System.err.println("[Bot" + botNumber + "] " + loginProxy + ": " + exception); continue user; } } System.out.println("[" + session.getUsername() + "] " + session); while (!joins.get()) { synchronized (joins) { try { joins.wait(5000); } catch (InterruptedException exception) { } } } if (loginDelay > 0) { synchronized (this) { try { synchronized (firstWait) { firstWait.notifyAll(); } wait(); } catch (InterruptedException exception) { } } } while (true) { String proxy = useProxy ? socksProxies.get(random.nextInt(socksProxies.size())) : null; try { DarkBotMCSpambot bot = new DarkBotMCSpambot( generateData( server, session.getUsername(), session.getPassword(), authService, session, protocol, null, proxy), owner); while (bot.getBot().isConnected()) { try { Thread.sleep(500); } catch (InterruptedException exception) { exception.printStackTrace(); } } if (!autoRejoin) break; } catch (Exception exception) { exception.printStackTrace(); System.out.println( "[" + session.getUsername() + "] Error connecting: " + exception.getCause().toString()); } } System.out.println("[" + session.getUsername() + "] Account failed"); } } else { while (true) { String proxy = useProxy ? socksProxies.get(random.nextInt(socksProxies.size())) : null; try { String username; if (accounts != null) { username = accounts.get(random.nextInt(accounts.size())).split(":")[0]; synchronized (accountsInUse) { while (accountsInUse.contains(username)) username = accounts.get(random.nextInt(accounts.size())); accountsInUse.add(username); } } else username = Util.generateRandomString(10 + random.nextInt(6)); if (loginDelay > 0) { synchronized (this) { try { synchronized (firstWait) { firstWait.notifyAll(); } wait(); } catch (InterruptedException exception) { } } } DarkBotMCSpambot bot = new DarkBotMCSpambot( generateData(server, username, null, null, null, protocol, null, proxy), owner); while (bot.getBot().isConnected()) { try { Thread.sleep(500); } catch (InterruptedException exception) { exception.printStackTrace(); } } if (!autoRejoin) break; else continue; } catch (Exception exception) { System.out.println( "[Bot" + botNumber + "] Error connecting: " + exception.toString()); } } } } }; service.execute(runnable); } service.shutdown(); while (!service.isTerminated()) { try { service.awaitTermination(9000, TimeUnit.DAYS); } catch (InterruptedException exception) { exception.printStackTrace(); } } System.exit(0); }