示例#1
0
 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);
  }
示例#3
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);
  }