Ejemplo n.º 1
1
  public Message send(Message query) {
    int q, r;
    Message best = null;
    byte rcode;

    for (q = 0; q < 20; q++) {
      boolean ok = false;
      for (r = 0; r < resolvers.length; r++) ok |= sendTo(query, r, q);
      if (!ok) break;
      Message m = null;
      synchronized (queue) {
        try {
          queue.wait((quantum + 1) * 1000);
        } catch (InterruptedException e) {
          System.out.println("interrupted");
        }
        if (queue.size() == 0) continue;
        m = (Message) queue.firstElement();
        queue.removeElementAt(0);
        Integer I = (Integer) queue.firstElement();
        queue.removeElementAt(0);
        r = I.intValue();
      }
      if (m == null) invalid[r] = true;
      else {
        rcode = m.getHeader().getRcode();
        if (rcode == Rcode.NOERROR) return m;
        else {
          if (best == null) best = m;
          invalid[r] = true;
        }
      }
    }
    return best;
  }
Ejemplo n.º 2
0
  public void up(MessageBatch batch) {
    // Sort fork messages by fork-stack-id
    Map<String, List<Message>> map = new HashMap<>();
    for (Message msg : batch) {
      ForkHeader hdr = (ForkHeader) msg.getHeader(id);
      if (hdr != null) {
        batch.remove(msg);
        List<Message> list = map.get(hdr.fork_stack_id);
        if (list == null) {
          list = new ArrayList<>();
          map.put(hdr.fork_stack_id, list);
        }
        list.add(msg);
      }
    }

    // Now pass fork messages up, batched by fork-stack-id
    for (Map.Entry<String, List<Message>> entry : map.entrySet()) {
      String fork_stack_id = entry.getKey();
      List<Message> list = entry.getValue();
      Protocol bottom_prot = get(fork_stack_id);
      if (bottom_prot == null) continue;
      MessageBatch mb =
          new MessageBatch(
              batch.dest(), batch.sender(), batch.clusterName(), batch.multicast(), list);
      try {
        bottom_prot.up(mb);
      } catch (Throwable t) {
        log.error(Util.getMessage("FailedPassingUpBatch"), t);
      }
    }

    if (!batch.isEmpty()) up_prot.up(batch);
  }
Ejemplo n.º 3
0
  public Object up(Event evt) {
    switch (evt.getType()) {
      case Event.MSG:
        Message msg = (Message) evt.getArg();
        ForkHeader hdr = (ForkHeader) msg.getHeader(id);
        if (hdr == null) break;
        if (hdr.fork_stack_id == null)
          throw new IllegalArgumentException("header has a null fork_stack_id");
        Protocol bottom_prot = get(hdr.fork_stack_id);
        return bottom_prot != null
            ? bottom_prot.up(evt)
            : this.unknownForkHandler.handleUnknownForkStack(msg, hdr.fork_stack_id);

      case Event.VIEW_CHANGE:
        for (Protocol bottom : fork_stacks.values()) bottom.up(evt);
        break;

      case Event.STATE_TRANSFER_OUTPUTSTREAM:
        if (!process_state_events) break;
        getStateFromMainAndForkChannels(evt);
        return null;

      case Event.STATE_TRANSFER_INPUTSTREAM:
        if (!process_state_events) break;
        setStateInMainAndForkChannels((InputStream) evt.getArg());
        return null;
    }
    return up_prot.up(evt);
  }
Ejemplo n.º 4
0
 private Message sendAXFR(Message query) throws IOException {
   Name qname = query.getQuestion().getName();
   ZoneTransferIn xfrin = ZoneTransferIn.newAXFR(qname, address, tsig);
   xfrin.setTimeout((int) (getTimeout() / 1000));
   xfrin.setLocalAddress(localAddress);
   try {
     xfrin.run();
   } catch (ZoneTransferException e) {
     throw new WireParseException(e.getMessage());
   }
   List records = xfrin.getAXFR();
   Message response = new Message(query.getHeader().getID());
   response.getHeader().setFlag(Flags.AA);
   response.getHeader().setFlag(Flags.QR);
   response.addRecord(query.getQuestion(), Section.QUESTION);
   Iterator it = records.iterator();
   while (it.hasNext()) response.addRecord((Record) it.next(), Section.ANSWER);
   return response;
 }
  public static void dumpEnvelope(Message m) throws Exception {
    pr("This is the message envelope");
    pr("---------------------------");
    Address[] a;
    // FROM
    if ((a = m.getFrom()) != null) {
      for (int j = 0; j < a.length; j++) pr("FROM: " + a[j].toString());
    }

    // TO
    if ((a = m.getRecipients(Message.RecipientType.TO)) != null) {
      for (int j = 0; j < a.length; j++) pr("TO: " + a[j].toString());
    }

    // SUBJECT
    pr("SUBJECT: " + m.getSubject());

    // DATE
    Date d = m.getSentDate();
    pr("SendDate: " + (d != null ? d.toString() : "UNKNOWN"));

    // FLAGS
    Flags flags = m.getFlags();
    StringBuffer sb = new StringBuffer();
    Flags.Flag[] sf = flags.getSystemFlags(); // get the system flags

    boolean first = true;
    for (int i = 0; i < sf.length; i++) {
      String s;
      Flags.Flag f = sf[i];
      if (f == Flags.Flag.ANSWERED) s = "\\Answered";
      else if (f == Flags.Flag.DELETED) s = "\\Deleted";
      else if (f == Flags.Flag.DRAFT) s = "\\Draft";
      else if (f == Flags.Flag.FLAGGED) s = "\\Flagged";
      else if (f == Flags.Flag.RECENT) s = "\\Recent";
      else if (f == Flags.Flag.SEEN) s = "\\Seen";
      else continue; // skip it
      if (first) first = false;
      else sb.append(' ');
      sb.append(s);
    }

    String[] uf = flags.getUserFlags(); // get the user flag strings
    for (int i = 0; i < uf.length; i++) {
      if (first) first = false;
      else sb.append(' ');
      sb.append(uf[i]);
    }
    pr("FLAGS: " + sb.toString());

    // X-MAILER
    String[] hdrs = m.getHeader("X-Mailer");
    if (hdrs != null) pr("X-Mailer: " + hdrs[0]);
    else pr("X-Mailer NOT available");
  }
  private void writeAll() {
    List<MessageBean> beans = messageTable.getBeans();
    HashMap<Integer, Message> map = new HashMap<Integer, Message>(2 * beans.size());

    for (MessageBean mb : beans) {
      map.put(mb.m.hashCode(), mb.m);
    }

    if (fileChooser == null)
      fileChooser = new FileManager(null, null, null, (PreferencesExt) prefs.node("FileManager"));

    String defloc = (raf.getLocation() == null) ? "." : raf.getLocation();
    String dirName = fileChooser.chooseDirectory(defloc);
    if (dirName == null) return;

    try {
      int count = 0;
      for (Message m : map.values()) {
        String header = m.getHeader();
        if (header != null) {
          header = header.split(" ")[0];
        } else {
          header = Integer.toString(Math.abs(m.hashCode()));
        }

        File file = new File(dirName + "/" + header + ".bufr");
        FileOutputStream fos = new FileOutputStream(file);
        WritableByteChannel wbc = fos.getChannel();
        wbc.write(ByteBuffer.wrap(m.getHeader().getBytes()));
        byte[] raw = scan.getMessageBytes(m);
        wbc.write(ByteBuffer.wrap(raw));
        wbc.close();
        count++;
      }
      JOptionPane.showMessageDialog(
          BufrMessageViewer.this, count + " successfully written to " + dirName);

    } catch (IOException e1) {
      JOptionPane.showMessageDialog(BufrMessageViewer.this, e1.getMessage());
      e1.printStackTrace();
    }
  }
Ejemplo n.º 7
0
  private Object handleUpMessage(Event evt) throws Exception {
    Message msg = (Message) evt.getArg();
    EncryptHeader hdr;
    if (msg == null
        || (msg.getLength() == 0 && !encrypt_entire_message)
        || ((hdr = (EncryptHeader) msg.getHeader(this.id)) == null)) return up_prot.up(evt);

    if (log.isTraceEnabled()) log.trace("header received %s", hdr);

    switch (hdr.getType()) {
      case EncryptHeader.ENCRYPT:
        return handleEncryptedMessage(msg, evt, hdr);
      default:
        handleUpEvent(msg, hdr);
        return null;
    }
  }
Ejemplo n.º 8
0
  /**
   * Does the actual work for decrypting - if version does not match current cipher then tries the
   * previous cipher
   */
  private Message decryptMessage(Cipher cipher, Message msg) throws Exception {
    EncryptHeader hdr = (EncryptHeader) msg.getHeader(this.id);
    if (!Arrays.equals(hdr.getVersion(), getSymVersion())) {
      log.warn(
          "attempting to use stored cipher as message does not use current encryption version ");
      cipher = keyMap.get(new AsciiString(hdr.getVersion()));
      if (cipher == null) {
        log.warn("unable to find a matching cipher in previous key map");
        return null;
      }
      log.trace("decrypting using previous cipher version");
      synchronized (cipher) {
        return _decrypt(cipher, msg, hdr.encryptEntireMessage());
      }
    }

    return _decrypt(cipher, msg, hdr.encryptEntireMessage());
  }
Ejemplo n.º 9
0
    public Message visit(Message msg, MessageBatch batch) {
      EncryptHeader hdr;

      if (msg == null
          || (msg.getLength() == 0 && !encrypt_entire_message)
          || ((hdr = (EncryptHeader) msg.getHeader(id)) == null)) return null;

      if (hdr.getType() == EncryptHeader.ENCRYPT) {
        // if queueing then pass into queue to be dealt with later
        if (queue_up) {
          queueUpMessage(msg, batch);
          return null;
        }

        // make sure we pass up any queued messages first
        if (!suppliedKey) drainUpQueue();

        if (lock == null) {
          int index = getNextIndex();
          lock = decoding_locks[index];
          cipher = decoding_ciphers[index];
          lock.lock();
        }

        try {
          Message tmpMsg = decryptMessage(cipher, msg.copy()); // need to copy for possible xmits
          if (tmpMsg != null) batch.replace(msg, tmpMsg);
        } catch (Exception e) {
          log.error(
              "failed decrypting message from %s (offset=%d, length=%d, buf.length=%d): %s, headers are %s",
              msg.getSrc(),
              msg.getOffset(),
              msg.getLength(),
              msg.getRawBuffer().length,
              e,
              msg.printHeaders());
        }
      } else {
        batch.remove(
            msg); // a control message will get handled by ENCRYPT and should not be passed up
        handleUpEvent(msg, hdr);
      }
      return null;
    }
 public String getHeader() {
   return m.getHeader();
 }
Ejemplo n.º 11
0
  public Object up(Message msg) {
    ExecutorHeader hdr = msg.getHeader(id);
    if (hdr == null) return up_prot.up(msg);

    Request req = msg.getObject();
    if (log.isTraceEnabled()) log.trace("[" + local_addr + "] <-- [" + msg.getSrc() + "] " + req);
    switch (req.type) {
      case RUN_REQUEST:
        handleTaskRequest(req.request, (Address) req.object);
        break;
      case CONSUMER_READY:
        handleConsumerReadyRequest(req.request, (Address) req.object);
        break;
      case CONSUMER_UNREADY:
        handleConsumerUnreadyRequest(req.request, (Address) req.object);
        break;
      case CONSUMER_FOUND:
        handleConsumerFoundResponse(req.request, (Address) req.object);
        break;
      case RUN_SUBMITTED:
        RequestWithThread reqWT = (RequestWithThread) req;
        Object objectToRun = reqWT.object;
        Runnable runnable;
        if (objectToRun instanceof Runnable) {
          runnable = (Runnable) objectToRun;
        } else if (objectToRun instanceof Callable) {
          @SuppressWarnings("unchecked")
          Callable<Object> callable = (Callable<Object>) objectToRun;
          runnable = new FutureTask<>(callable);
        } else {
          log.error(
              Util.getMessage("RequestOfType")
                  + req.type
                  + " sent an object of "
                  + objectToRun
                  + " which is invalid");
          break;
        }

        handleTaskSubmittedRequest(runnable, msg.getSrc(), req.request, reqWT.threadId);
        break;
      case RUN_REJECTED:
        // We could make requests local for this, but is it really worth it
        handleTaskRejectedResponse(msg.getSrc(), req.request);
        break;
      case RESULT_SUCCESS:
        handleValueResponse(msg.getSrc(), req.request, req.object);
        break;
      case RESULT_EXCEPTION:
        handleExceptionResponse(msg.getSrc(), req.request, (Throwable) req.object);
        break;
      case INTERRUPT_RUN:
        // We could make requests local for this, but is it really worth it
        handleInterruptRequest(msg.getSrc(), req.request);
        break;
      case CREATE_CONSUMER_READY:
        Owner owner = new Owner((Address) req.object, req.request);
        handleNewConsumer(owner);
        break;
      case CREATE_RUN_REQUEST:
        owner = new Owner((Address) req.object, req.request);
        handleNewRunRequest(owner);
        break;
      case DELETE_CONSUMER_READY:
        owner = new Owner((Address) req.object, req.request);
        handleRemoveConsumer(owner);
        break;
      case DELETE_RUN_REQUEST:
        owner = new Owner((Address) req.object, req.request);
        handleRemoveRunRequest(owner);
        break;
      default:
        log.error(Util.getMessage("RequestOfType") + req.type + " not known");
        break;
    }
    return null;
  }
Ejemplo n.º 12
0
  /**
   * Adds all data from a Message into the Cache. Each record is added with the appropriate
   * credibility, and negative answers are cached as such.
   *
   * @param in The Message to be added
   * @see Message
   */
  public void addMessage(Message in) {
    boolean isAuth = in.getHeader().getFlag(Flags.AA);
    Name qname = in.getQuestion().getName();
    Name curname = qname;
    short qtype = in.getQuestion().getType();
    short qclass = in.getQuestion().getDClass();
    byte cred;
    short rcode = in.getHeader().getRcode();
    boolean haveAnswer = false;
    boolean completed = false;
    boolean restart = false;
    RRset[] answers, auth, addl;

    if (rcode != Rcode.NOERROR && rcode != Rcode.NXDOMAIN) return;

    if (secure) {
      Cache c = new Cache(dclass);
      c.addMessage(in);
      verifyRecords(c);
      return;
    }

    answers = in.getSectionRRsets(Section.ANSWER);
    for (int i = 0; i < answers.length; i++) {
      if (answers[i].getDClass() != qclass) continue;
      short type = answers[i].getType();
      Name name = answers[i].getName();
      cred = getCred(Section.ANSWER, isAuth);
      if (type == Type.CNAME && name.equals(curname)) {
        CNAMERecord cname;
        addRRset(answers[i], cred);
        cname = (CNAMERecord) answers[i].first();
        curname = cname.getTarget();
        restart = true;
        haveAnswer = true;
      } else if (type == Type.DNAME && curname.subdomain(name)) {
        DNAMERecord dname;
        addRRset(answers[i], cred);
        dname = (DNAMERecord) answers[i].first();
        try {
          curname = curname.fromDNAME(dname);
        } catch (NameTooLongException e) {
          break;
        }
        restart = true;
        haveAnswer = true;
      } else if ((type == qtype || qtype == Type.ANY) && name.equals(curname)) {
        addRRset(answers[i], cred);
        completed = true;
        haveAnswer = true;
      }
      if (restart) {
        restart = false;
        i = 0;
      }
    }

    auth = in.getSectionRRsets(Section.AUTHORITY);
    if (!completed) {
      /* This is a negative response or a referral. */
      RRset soa = null, ns = null;
      for (int i = 0; i < auth.length; i++) {
        if (auth[i].getType() == Type.SOA && curname.subdomain(auth[i].getName())) soa = auth[i];
        else if (auth[i].getType() == Type.NS && curname.subdomain(auth[i].getName())) ns = auth[i];
      }
      short cachetype = (rcode == Rcode.NXDOMAIN) ? (short) 0 : qtype;
      if (soa != null || ns == null) {
        /* Negative response */
        cred = getCred(Section.AUTHORITY, isAuth);
        SOARecord soarec = null;
        if (soa != null) soarec = (SOARecord) soa.first();
        addNegative(curname, cachetype, soarec, cred);
        /* NXT records are not cached yet. */
      } else {
        /* Referral response */
        cred = getCred(Section.AUTHORITY, isAuth);
        addRRset(ns, cred);
      }
    }

    addl = in.getSectionRRsets(Section.ADDITIONAL);
    for (int i = 0; i < addl.length; i++) {
      short type = addl[i].getType();
      if (type != Type.A && type != Type.AAAA && type != Type.A6) continue;
      /* XXX check the name */
      Name name = addl[i].getName();
      cred = getCred(Section.ADDITIONAL, isAuth);
      addRRset(addl[i], cred);
    }
  }
Ejemplo n.º 13
0
  @SuppressWarnings("unchecked")
  public Object up(Event evt) {
    switch (evt.getType()) {
      case Event.MSG:
        Message msg = (Message) evt.getArg();
        GmsHeader hdr = (GmsHeader) msg.getHeader(this.id);
        if (hdr == null) break;
        switch (hdr.type) {
          case GmsHeader.JOIN_REQ:
            view_handler.add(
                new Request(Request.JOIN, hdr.mbr, false, null, hdr.useFlushIfPresent));
            break;
          case GmsHeader.JOIN_REQ_WITH_STATE_TRANSFER:
            view_handler.add(
                new Request(
                    Request.JOIN_WITH_STATE_TRANSFER, hdr.mbr, false, null, hdr.useFlushIfPresent));
            break;
          case GmsHeader.JOIN_RSP:
            impl.handleJoinResponse(hdr.join_rsp);
            break;
          case GmsHeader.LEAVE_REQ:
            if (hdr.mbr == null) return null;
            view_handler.add(new Request(Request.LEAVE, hdr.mbr, false));
            break;
          case GmsHeader.LEAVE_RSP:
            impl.handleLeaveResponse();
            break;
          case GmsHeader.VIEW:
            View new_view = hdr.view;
            if (new_view == null) return null;

            Address coord = msg.getSrc();
            if (!new_view.containsMember(coord)) {
              sendViewAck(
                  coord); // we need to send the ack first, otherwise the connection is removed
              impl.handleViewChange(new_view, hdr.my_digest);
            } else {
              impl.handleViewChange(new_view, hdr.my_digest);
              sendViewAck(coord); // send VIEW_ACK to sender of view
            }
            break;

          case GmsHeader.VIEW_ACK:
            Address sender = msg.getSrc();
            ack_collector.ack(sender);
            return null; // don't pass further up

          case GmsHeader.MERGE_REQ:
            impl.handleMergeRequest(msg.getSrc(), hdr.merge_id, hdr.mbrs);
            break;

          case GmsHeader.MERGE_RSP:
            MergeData merge_data =
                new MergeData(msg.getSrc(), hdr.view, hdr.my_digest, hdr.merge_rejected);
            if (log.isTraceEnabled()) {
              log.trace(
                  local_addr
                      + ": got merge response from "
                      + msg.getSrc()
                      + ", merge_id="
                      + hdr.merge_id
                      + ", merge data is "
                      + merge_data);
            }
            impl.handleMergeResponse(merge_data, hdr.merge_id);
            break;

          case GmsHeader.INSTALL_MERGE_VIEW:
            impl.handleMergeView(
                new MergeData(msg.getSrc(), hdr.view, hdr.my_digest), hdr.merge_id);
            break;

          case GmsHeader.INSTALL_DIGEST:
            Digest tmp = hdr.my_digest;
            down_prot.down(new Event(Event.MERGE_DIGEST, tmp));
            break;

          case GmsHeader.INSTALL_MERGE_VIEW_OK:
            // [JGRP-700] - FLUSH: flushing should span merge
            merge_ack_collector.ack(msg.getSrc());
            break;

          case GmsHeader.CANCEL_MERGE:
            // [JGRP-524] - FLUSH and merge: flush doesn't wrap entire merge process
            impl.handleMergeCancelled(hdr.merge_id);
            break;

          case GmsHeader.GET_DIGEST_REQ:
            // only handle this request if it was sent by the coordinator (or at least a member) of
            // the current cluster
            synchronized (members) {
              if (!members.contains(msg.getSrc())) break;
            }

            // discard my own request:
            if (msg.getSrc().equals(local_addr)) return null;

            if (hdr.merge_id != null
                && !(merger.matchMergeId(hdr.merge_id) || merger.setMergeId(null, hdr.merge_id)))
              return null;

            // fetch only my own digest
            Digest digest = (Digest) down_prot.down(new Event(Event.GET_DIGEST, local_addr));
            if (digest != null) {
              GmsHeader rsp_hdr = new GmsHeader(GmsHeader.GET_DIGEST_RSP);
              rsp_hdr.my_digest = digest;
              Message get_digest_rsp = new Message(msg.getSrc(), null, null);
              get_digest_rsp.setFlag(Message.OOB);
              get_digest_rsp.putHeader(this.id, rsp_hdr);
              down_prot.down(new Event(Event.MSG, get_digest_rsp));
            }
            break;

          case GmsHeader.GET_DIGEST_RSP:
            Digest digest_rsp = hdr.my_digest;
            impl.handleDigestResponse(msg.getSrc(), digest_rsp);
            break;

          default:
            if (log.isErrorEnabled()) log.error("GmsHeader with type=" + hdr.type + " not known");
        }
        return null; // don't pass up

      case Event.SUSPECT:
        Object retval = up_prot.up(evt);
        Address suspected = (Address) evt.getArg();
        view_handler.add(new Request(Request.SUSPECT, suspected, true));
        ack_collector.suspect(suspected);
        merge_ack_collector.suspect(suspected);
        return retval;

      case Event.UNSUSPECT:
        impl.unsuspect((Address) evt.getArg());
        return null; // discard

      case Event.MERGE:
        view_handler.add(
            new Request(Request.MERGE, null, false, (Map<Address, View>) evt.getArg()));
        return null; // don't pass up

      case Event.IS_MERGE_IN_PROGRESS:
        return merger.isMergeInProgress();
    }
    return up_prot.up(evt);
  }
Ejemplo n.º 14
0
  public static Record[] getRecords(String namestr, short type, short dclass, byte cred) {
    Message query;
    Message response;
    Record question;
    Record[] answers;
    int answerCount = 0, i = 0;
    Enumeration e;
    Name name = new Name(namestr);

    /*System.out.println("lookup of " + name + " " + Type.string(type));*/
    if (!Type.isRR(type) && type != Type.ANY) return null;

    if (res == null) {
      try {
        eres = new ExtendedResolver();
      } catch (UnknownHostException uhe) {
        System.out.println("Failed to initialize resolver");
        System.exit(-1);
      }
    }
    if (cache == null) cache = new Cache();

    CacheResponse cached = cache.lookupRecords(name, type, dclass, cred);
    /*System.out.println(cached);*/
    if (cached.isSuccessful()) {
      RRset rrset = cached.answer();
      answerCount = rrset.size();
      e = rrset.rrs();
    } else if (cached.isNegative()) {
      answerCount = 0;
      e = null;
    } else {
      question = Record.newRecord(name, type, dclass);
      query = Message.newQuery(question);

      if (res != null) response = res.send(query);
      else response = eres.send(query);

      short rcode = response.getHeader().getRcode();
      if (rcode == Rcode.NOERROR || rcode == Rcode.NXDOMAIN) cache.addMessage(response);

      if (rcode != Rcode.NOERROR) return null;

      e = response.getSection(Section.ANSWER);
      while (e.hasMoreElements()) {
        Record r = (Record) e.nextElement();
        if (matchType(r.getType(), type)) answerCount++;
      }

      e = response.getSection(Section.ANSWER);
    }

    if (answerCount == 0) return null;

    answers = new Record[answerCount];

    while (e.hasMoreElements()) {
      Record r = (Record) e.nextElement();
      if (matchType(r.getType(), type)) answers[i++] = r;
    }

    return answers;
  }
Ejemplo n.º 15
0
  /**
   * Sends a message to a single server and waits for a response. No checking is done to ensure that
   * the response is associated with the query.
   *
   * @param query The query to send.
   * @return The response.
   * @throws IOException An error occurred while sending or receiving.
   */
  public Message send(Message query) throws IOException {
    if (Options.check("verbose"))
      System.err.println(
          "Sending to " + address.getAddress().getHostAddress() + ":" + address.getPort());

    if (query.getHeader().getOpcode() == Opcode.QUERY) {
      Record question = query.getQuestion();
      if (question != null && question.getType() == Type.AXFR) return sendAXFR(query);
    }

    query = (Message) query.clone();
    applyEDNS(query);
    if (tsig != null) {
      tsig.apply(query, null);
    }

    byte[] out = query.toWire(Message.MAXLENGTH);
    int udpSize = maxUDPSize(query);
    boolean tcp = false;
    long endTime = System.currentTimeMillis() + timeoutValue;
    do {
      byte[] b_in;

      if (useTCP || out.length > udpSize) {
        tcp = true;
      }
      if (tcp) {
        b_in = TCPClient.sendrecv(localAddress, address, out, endTime);
      } else {
        b_in = UDPClient.sendrecv(localAddress, address, out, udpSize, endTime);
      }

      /*
       * Check that the response is long enough.
       */
      if (b_in.length < Header.LENGTH) {
        throw new WireParseException("invalid DNS header - " + "too short");
      }
      /*
       * Check that the response ID matches the query ID.  We want
       * to check this before actually parsing the message, so that
       * if there's a malformed response that's not ours, it
       * doesn't confuse us.
       */
      int id = ((b_in[0] & 0xFF) << 8) + (b_in[1] & 0xFF);
      int qid = query.getHeader().getID();
      if (id != qid) {
        String error = "invalid message id: expected " + qid + "; got id " + id;
        if (tcp) {
          throw new WireParseException(error);
        } else {
          if (Options.check("verbose")) {
            System.err.println(error);
          }
          continue;
        }
      }
      Message response = parseMessage(b_in);
      verifyTSIG(query, response, b_in, tsig);
      if (!tcp && !ignoreTruncation && response.getHeader().getFlag(Flags.TC)) {
        tcp = true;
        continue;
      }
      return response;
    } while (true);
  }