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AbstractConnection.java

/*
   D-Bus Java Implementation
   Copyright (c) 2005-2006 Matthew Johnson

   This program is free software; you can redistribute it and/or modify it
   under the terms of either the GNU Lesser General Public License Version 2 or the
   Academic Free Licence Version 2.1.

   Full licence texts are included in the COPYING file with this program.
*/
package org.freedesktop.dbus;

import static org.freedesktop.dbus.Gettext._;

import java.lang.reflect.InvocationTargetException;
import java.lang.reflect.Method;
import java.lang.reflect.Type;

import java.io.File;
import java.io.IOException;

import java.text.MessageFormat;
import java.text.ParseException;

import java.util.Arrays;
import java.util.HashMap;
import java.util.LinkedList;
import java.util.Map;
import java.util.Properties;
import java.util.Vector;

import java.util.regex.Pattern;

import org.freedesktop.DBus;
import org.freedesktop.dbus.exceptions.NotConnected;
import org.freedesktop.dbus.exceptions.DBusException;
import org.freedesktop.dbus.exceptions.DBusExecutionException;
import org.freedesktop.dbus.exceptions.FatalDBusException;
import org.freedesktop.dbus.exceptions.FatalException;

import cx.ath.matthew.debug.Debug;


/** Handles a connection to DBus.
 */
00046 public abstract class AbstractConnection
{
   protected class FallbackContainer 
   {
      private Map<String[], ExportedObject> fallbacks = new HashMap<String[], ExportedObject>();
      public synchronized void add(String path, ExportedObject eo)
      {
         if (Debug.debug) Debug.print(Debug.DEBUG, "Adding fallback on "+path+" of "+eo);
         fallbacks.put(path.split("/"), eo);
      }
      public synchronized void remove(String path)
      {
         if (Debug.debug) Debug.print(Debug.DEBUG, "Removing fallback on "+path);
         fallbacks.remove(path.split("/"));
      }
      public synchronized ExportedObject get(String path)
      {
         int best = 0;
         int i = 0;
         ExportedObject bestobject = null;
         String[] pathel = path.split("/");
         for (String[] fbpath: fallbacks.keySet()) {
            if (Debug.debug) Debug.print(Debug.VERBOSE, "Trying fallback path "+Arrays.deepToString(fbpath)+" to match "+Arrays.deepToString(pathel));
            for (i = 0; i < pathel.length && i < fbpath.length; i++)
               if (!pathel[i].equals(fbpath[i])) break;
            if (i > 0 && i == fbpath.length && i > best)
               bestobject = fallbacks.get(fbpath);
            if (Debug.debug) Debug.print(Debug.VERBOSE, "Matches "+i+" bestobject now "+bestobject);
         }
         if (Debug.debug) Debug.print(Debug.DEBUG, "Found fallback for "+path+" of "+bestobject);
         return bestobject;
      }
   }
   protected class _thread extends Thread
   {
      public _thread()
      {
         setName("DBusConnection");
      }
      public void run()
      {
         try {
            Message m = null;
            while (_run) {
               m = null;

               // read from the wire
               try {
                  // this blocks on outgoing being non-empty or a message being available.
                  m = readIncoming();
                  if (m != null) {
                     if (Debug.debug) Debug.print(Debug.VERBOSE, "Got Incoming Message: "+m);
                     synchronized (this) { notifyAll(); }

                     if (m instanceof DBusSignal)
                        handleMessage((DBusSignal) m);
                     else if (m instanceof MethodCall)
                        handleMessage((MethodCall) m);
                     else if (m instanceof MethodReturn)
                        handleMessage((MethodReturn) m);
                     else if (m instanceof Error)
                        handleMessage((Error) m);

                     m = null;
                  }
               } catch (Exception e) { 
                  if (EXCEPTION_DEBUG && Debug.debug) Debug.print(Debug.ERR, e);            
                  if (e instanceof FatalException) {
                     try {
                        handleMessage(new org.freedesktop.DBus.Local.Disconnected("/"));
                     } catch (Exception ee) {
                        if (EXCEPTION_DEBUG && Debug.debug) Debug.print(Debug.ERR, ee);            
                     }
                     disconnect();
                  }
               }

            }
            synchronized (this) { notifyAll(); }
         } catch (Exception e) {
            if (Debug.debug && EXCEPTION_DEBUG) Debug.print(Debug.ERR, e);
         }
      }
   }
   private class _globalhandler implements org.freedesktop.DBus.Peer, org.freedesktop.DBus.Introspectable
   {
      private String objectpath;
      public _globalhandler()
      {
         this.objectpath = null;
      }
      public _globalhandler(String objectpath)
      {
         this.objectpath = objectpath;
      }
      public boolean isRemote() { return false; }
      public void Ping() { return; }
      public String Introspect() 
      {
         String intro = objectTree.Introspect(objectpath);
         if (null == intro) {
            ExportedObject eo = fallbackcontainer.get(objectpath);
            if (null != eo) intro = eo.introspectiondata;
         }
         if (null == intro) 
            throw new DBus.Error.UnknownObject("Introspecting on non-existant object");
         else return 
            "<!DOCTYPE node PUBLIC \"-//freedesktop//DTD D-BUS Object Introspection 1.0//EN\" "+
               "\"http://www.freedesktop.org/standards/dbus/1.0/introspect.dtd\">\n"+intro;
      }
   }
   protected class _workerthread extends Thread
   {
      private boolean _run = true;
      public void halt()
      {
         _run = false;
      }
      public void run()
      {
        while (_run) {
           Runnable r = null;
           synchronized (runnables) {
              while (runnables.size() == 0 && _run) 
                 try { runnables.wait(); } catch (InterruptedException Ie) {}
              if (runnables.size() > 0)
                 r = runnables.removeFirst();
           }
           if (null != r) r.run();
        }
      }
   }
   private class _sender extends Thread
   {
      public _sender()
      {
         setName("Sender");
      }
      public void run()
      {
         Message m = null;

         if (Debug.debug) Debug.print(Debug.INFO, "Monitoring outbound queue");
         // block on the outbound queue and send from it
         while (_run) {
            if (null != outgoing) synchronized (outgoing) {
               if (Debug.debug) Debug.print(Debug.VERBOSE, "Blocking");
               while (outgoing.size() == 0 && _run) 
                  try { outgoing.wait(); } catch (InterruptedException Ie) {}
               if (Debug.debug) Debug.print(Debug.VERBOSE, "Notified");
               if (outgoing.size() > 0)
                  m = outgoing.remove();
               if (Debug.debug) Debug.print(Debug.DEBUG, "Got message: "+m);
            }
            if (null != m) 
               sendMessage(m);
            m = null;
         }

         if (Debug.debug) Debug.print(Debug.INFO, "Flushing outbound queue and quitting");
         // flush the outbound queue before disconnect.
         if (null != outgoing) do {
            synchronized (outgoing) {
               if (!outgoing.isEmpty())
                  m = outgoing.remove(); 
               else m = null;
            }
            sendMessage(m);
         } while (null != m);

         // close the underlying streams
      }
   }
   /**
    * Timeout in us on checking the BUS for incoming messages and sending outgoing messages
    */
00222    protected static final int TIMEOUT = 100000;
   /** Initial size of the pending calls map */
00224    private static final int PENDING_MAP_INITIAL_SIZE = 10;
   static final String BUSNAME_REGEX = "^[-_a-zA-Z][-_a-zA-Z0-9]*(\\.[-_a-zA-Z][-_a-zA-Z0-9]*)*$";
   static final String CONNID_REGEX = "^:[0-9]*\\.[0-9]*$";
   static final String OBJECT_REGEX = "^/([-_a-zA-Z0-9]+(/[-_a-zA-Z0-9]+)*)?$";
   static final byte THREADCOUNT = 4;
   static final int MAX_ARRAY_LENGTH = 67108864;
   static final int MAX_NAME_LENGTH = 255;
   protected Map<String,ExportedObject> exportedObjects;
   private ObjectTree objectTree;
   private _globalhandler _globalhandlerreference;
   protected Map<DBusInterface,RemoteObject> importedObjects;
   protected Map<SignalTuple,Vector<DBusSigHandler<? extends DBusSignal>>> handledSignals;
   protected EfficientMap pendingCalls;
   protected Map<MethodCall, CallbackHandler<? extends Object>> pendingCallbacks;
   protected Map<MethodCall, DBusAsyncReply<? extends Object>> pendingCallbackReplys;
   protected LinkedList<Runnable> runnables;
   protected LinkedList<_workerthread> workers;
   protected FallbackContainer fallbackcontainer;
   protected boolean _run;
   EfficientQueue outgoing;
   LinkedList<Error> pendingErrors;
   private static final Map<Thread,DBusCallInfo> infomap = new HashMap<Thread,DBusCallInfo>();
   protected _thread thread;
   protected _sender sender;
   protected Transport transport;
   protected String addr;
   protected boolean weakreferences = false;
   static final Pattern dollar_pattern = Pattern.compile("[$]");
   public static final boolean EXCEPTION_DEBUG;
   static final boolean FLOAT_SUPPORT;
   static {
      FLOAT_SUPPORT = (null != System.getenv("DBUS_JAVA_FLOATS"));
      EXCEPTION_DEBUG = (null != System.getenv("DBUS_JAVA_EXCEPTION_DEBUG"));
      if (EXCEPTION_DEBUG) {
         Debug.print("Debugging of internal exceptions enabled");
         Debug.setThrowableTraces(true);
      }
      if (Debug.debug) {
         File f = new File("debug.conf");
         if (f.exists()) {
            Debug.print("Loading debug config file: "+f);
            try {
               Debug.loadConfig(f);
            } catch (IOException IOe) {}
         } else {
            Properties p = new Properties();
            p.setProperty("ALL", "INFO");
            Debug.print("debug config file "+f+" does not exist, not loading.");
         }
         Debug.setHexDump(true);
      }
   }

   protected AbstractConnection(String address) throws DBusException
   {
      exportedObjects = new HashMap<String,ExportedObject>();
      importedObjects = new HashMap<DBusInterface,RemoteObject>();
      _globalhandlerreference = new _globalhandler();
      synchronized (exportedObjects) {
         exportedObjects.put(null, new ExportedObject(_globalhandlerreference, weakreferences));
      }
      handledSignals = new HashMap<SignalTuple,Vector<DBusSigHandler<? extends DBusSignal>>>();
      pendingCalls = new EfficientMap(PENDING_MAP_INITIAL_SIZE);
      outgoing = new EfficientQueue(PENDING_MAP_INITIAL_SIZE);
      pendingCallbacks = new HashMap<MethodCall, CallbackHandler<? extends Object>>();
      pendingCallbackReplys = new HashMap<MethodCall, DBusAsyncReply<? extends Object>>();
      pendingErrors = new LinkedList<Error>();
      runnables = new LinkedList<Runnable>();
      workers = new LinkedList<_workerthread>();
      objectTree = new ObjectTree();
      fallbackcontainer = new FallbackContainer();
      synchronized (workers) {
         for (int i = 0; i < THREADCOUNT; i++) {
            _workerthread t = new _workerthread();
            t.start();
            workers.add(t);
         }
      }
      _run = true;
      addr = address;
   }

   protected void listen()
   {
      // start listening
      thread = new _thread();
      thread.start();
      sender = new _sender();
      sender.start();
   }

   /**
    * Change the number of worker threads to receive method calls and handle signals.
    * Default is 4 threads
    * @param newcount The new number of worker Threads to use.
    */
00320    public void changeThreadCount(byte newcount)
   {
      synchronized (workers) {
         if (workers.size() > newcount) {
            int n = workers.size() - newcount;
            for (int i = 0; i < n; i++) {
               _workerthread t = workers.removeFirst();
               t.halt();
            }
         } else if (workers.size() < newcount) {
            int n = newcount-workers.size();
            for (int i = 0; i < n; i++) {
               _workerthread t = new _workerthread();
               t.start();
               workers.add(t);
            }
         }
      }
   }
   private void addRunnable(Runnable r)
   {
      synchronized(runnables) {
         runnables.add(r);
         runnables.notifyAll();
      }
   }

   String getExportedObject(DBusInterface i) throws DBusException
   {
      synchronized (exportedObjects) {
         for (String s: exportedObjects.keySet())
            if (i.equals(exportedObjects.get(s).object.get()))
               return s;
      }

      String s = importedObjects.get(i).objectpath;
      if (null != s) return s;

      throw new DBusException("Not an object exported or imported by this connection"); 
   }

   abstract DBusInterface getExportedObject(String source, String path) throws DBusException;

   /**
    * Returns a structure with information on the current method call.
    * @return the DBusCallInfo for this method call, or null if we are not in a method call.
    */
00367    public static DBusCallInfo getCallInfo() 
   {
      DBusCallInfo info;
      synchronized (infomap) {
         info = infomap.get(Thread.currentThread());
      }
      return info;
   }

   /**
    * If set to true the bus will not hold a strong reference to exported objects.
    * If they go out of scope they will automatically be unexported from the bus.
    * The default is to hold a strong reference, which means objects must be 
    * explicitly unexported before they will be garbage collected.
    */
00382    public void setWeakReferences(boolean weakreferences)
   {
      this.weakreferences = weakreferences;
   }

   /** 
    * Export an object so that its methods can be called on DBus.
    * @param objectpath The path to the object we are exposing. MUST be in slash-notation, like "/org/freedesktop/Local", 
    * and SHOULD end with a capitalised term. Only one object may be exposed on each path at any one time, but an object
    * may be exposed on several paths at once.
    * @param object The object to export.
    * @throws DBusException If the objectpath is already exporting an object.
    *  or if objectpath is incorrectly formatted,
    */
00396    public void exportObject(String objectpath, DBusInterface object) throws DBusException
   {
      if (null == objectpath || "".equals(objectpath)) 
         throw new DBusException(_("Must Specify an Object Path"));
      if (!objectpath.matches(OBJECT_REGEX)||objectpath.length() > MAX_NAME_LENGTH) 
         throw new DBusException(_("Invalid object path: ")+objectpath);
      synchronized (exportedObjects) {
         if (null != exportedObjects.get(objectpath)) 
            throw new DBusException(_("Object already exported"));
         ExportedObject eo = new ExportedObject(object, weakreferences);
         exportedObjects.put(objectpath, eo);
         objectTree.add(objectpath, eo, eo.introspectiondata);
      }
   }
   /** 
    * Export an object as a fallback object.
    * This object will have it's methods invoked for all paths starting
    * with this object path.
    * @param objectprefix The path below which the fallback handles calls.
    * MUST be in slash-notation, like "/org/freedesktop/Local", 
    * @param object The object to export.
    * @throws DBusException If the objectpath is incorrectly formatted,
    */
00419    public void addFallback(String objectprefix, DBusInterface object) throws DBusException
   {
      if (null == objectprefix || "".equals(objectprefix)) 
         throw new DBusException(_("Must Specify an Object Path"));
      if (!objectprefix.matches(OBJECT_REGEX)||objectprefix.length() > MAX_NAME_LENGTH) 
         throw new DBusException(_("Invalid object path: ")+objectprefix);
         ExportedObject eo = new ExportedObject(object, weakreferences);
         fallbackcontainer.add(objectprefix, eo);
   }
   /** 
    * Remove a fallback
    * @param objectprefix The prefix to remove the fallback for.
    */
00432    public void removeFallback(String objectprefix) 
   {
      fallbackcontainer.remove(objectprefix);
   }   
   /** 
    * Stop Exporting an object 
    * @param objectpath The objectpath to stop exporting.
    */
00440    public void unExportObject(String objectpath) 
   {
      synchronized (exportedObjects) {
         exportedObjects.remove(objectpath);
         objectTree.remove(objectpath);
      }
   }
   /** 
       * Return a reference to a remote object. 
       * This method will resolve the well known name (if given) to a unique bus name when you call it.
       * This means that if a well known name is released by one process and acquired by another calls to
       * objects gained from this method will continue to operate on the original process.
       * @param busname The bus name to connect to. Usually a well known bus name in dot-notation (such as "org.freedesktop.local")
       * or may be a DBus address such as ":1-16".
       * @param objectpath The path on which the process is exporting the object.$
       * @param type The interface they are exporting it on. This type must have the same full class name and exposed method signatures
       * as the interface the remote object is exporting.
       * @return A reference to a remote object.
       * @throws ClassCastException If type is not a sub-type of DBusInterface
       * @throws DBusException If busname or objectpath are incorrectly formatted or type is not in a package.
   */
   /** 
    * Send a signal.
    * @param signal The signal to send.
    */
00465    public void sendSignal(DBusSignal signal)
   {
      queueOutgoing(signal);
   }
   void queueOutgoing(Message m)
   {
      if (null == outgoing) return;
      synchronized (outgoing) {
         outgoing.add(m); 
         if (Debug.debug) Debug.print(Debug.DEBUG, "Notifying outgoing thread");
         outgoing.notifyAll();
      }
   }
   /** 
    * Remove a Signal Handler.
    * Stops listening for this signal.
    * @param type The signal to watch for. 
    * @throws DBusException If listening for the signal on the bus failed.
    * @throws ClassCastException If type is not a sub-type of DBusSignal.
    */
00485    public <T extends DBusSignal> void removeSigHandler(Class<T> type, DBusSigHandler<T> handler) throws DBusException
   {
      if (!DBusSignal.class.isAssignableFrom(type)) throw new ClassCastException(_("Not A DBus Signal"));
      removeSigHandler(new DBusMatchRule(type), handler);
   }
   /** 
    * Remove a Signal Handler.
    * Stops listening for this signal.
    * @param type The signal to watch for. 
    * @param object The object emitting the signal.
    * @throws DBusException If listening for the signal on the bus failed.
    * @throws ClassCastException If type is not a sub-type of DBusSignal.
    */
00498    public <T extends DBusSignal> void removeSigHandler(Class<T> type, DBusInterface object,  DBusSigHandler<T> handler) throws DBusException
   {
      if (!DBusSignal.class.isAssignableFrom(type)) throw new ClassCastException(_("Not A DBus Signal"));
      String objectpath = importedObjects.get(object).objectpath;
      if (!objectpath.matches(OBJECT_REGEX)||objectpath.length() > MAX_NAME_LENGTH)
         throw new DBusException(_("Invalid object path: ")+objectpath);
      removeSigHandler(new DBusMatchRule(type, null, objectpath), handler);
   }

   protected abstract <T extends DBusSignal> void removeSigHandler(DBusMatchRule rule, DBusSigHandler<T> handler) throws DBusException;
   /** 
    * Add a Signal Handler.
    * Adds a signal handler to call when a signal is received which matches the specified type and name.
    * @param type The signal to watch for. 
    * @param handler The handler to call when a signal is received.
    * @throws DBusException If listening for the signal on the bus failed.
    * @throws ClassCastException If type is not a sub-type of DBusSignal.
    */
   @SuppressWarnings("unchecked")
00517    public <T extends DBusSignal> void addSigHandler(Class<T> type, DBusSigHandler<T> handler) throws DBusException
   {
      if (!DBusSignal.class.isAssignableFrom(type)) throw new ClassCastException(_("Not A DBus Signal")); 
      addSigHandler(new DBusMatchRule(type), (DBusSigHandler<? extends DBusSignal>) handler);
   }
   /** 
    * Add a Signal Handler.
    * Adds a signal handler to call when a signal is received which matches the specified type, name and object.
    * @param type The signal to watch for. 
    * @param object The object from which the signal will be emitted
    * @param handler The handler to call when a signal is received.
    * @throws DBusException If listening for the signal on the bus failed.
    * @throws ClassCastException If type is not a sub-type of DBusSignal.
    */ 
   @SuppressWarnings("unchecked")
00532    public <T extends DBusSignal> void addSigHandler(Class<T> type, DBusInterface object, DBusSigHandler<T> handler) throws DBusException
   {
      if (!DBusSignal.class.isAssignableFrom(type)) throw new ClassCastException(_("Not A DBus Signal"));
      String objectpath = importedObjects.get(object).objectpath;
      if (!objectpath.matches(OBJECT_REGEX)||objectpath.length() > MAX_NAME_LENGTH)
         throw new DBusException(_("Invalid object path: ")+objectpath);
      addSigHandler(new DBusMatchRule(type, null, objectpath), (DBusSigHandler<? extends DBusSignal>) handler);
   }

   protected abstract <T extends DBusSignal> void addSigHandler(DBusMatchRule rule, DBusSigHandler<T> handler) throws DBusException;

   protected <T extends DBusSignal> void addSigHandlerWithoutMatch(Class<? extends DBusSignal> signal, DBusSigHandler<T> handler) throws DBusException
   {
      DBusMatchRule rule = new DBusMatchRule(signal);
      SignalTuple key = new SignalTuple(rule.getInterface(), rule.getMember(), rule.getObject(), rule.getSource());
      synchronized (handledSignals) {
         Vector<DBusSigHandler<? extends DBusSignal>> v = handledSignals.get(key);
         if (null == v) {
            v = new Vector<DBusSigHandler<? extends DBusSignal>>();
            v.add(handler);
            handledSignals.put(key, v);
         } else
            v.add(handler);
      }
   }

   /** 
    * Disconnect from the Bus.
    */
00561    public void disconnect()
   {
      if (Debug.debug) Debug.print(Debug.INFO, "Disconnecting Abstract Connection");
      // run all pending tasks.
      while (runnables.size() > 0)
         synchronized (runnables) {
            runnables.notifyAll();
         }

      // stop the main thread
      _run = false;

      // unblock the sending thread.
      synchronized (outgoing) {
         outgoing.notifyAll();
      }

      // disconnect from the trasport layer
      try {
         if (null != transport)
            transport.disconnect();
      } catch (IOException IOe) {
         if (EXCEPTION_DEBUG && Debug.debug) Debug.print(Debug.ERR, IOe);            
      }

      // stop all the workers
      synchronized(workers) {
         for (_workerthread t: workers)
            t.halt();
      }

      // make sure none are blocking on the runnables queue still
      synchronized (runnables) {
         runnables.notifyAll();
      }
   }

   public void finalize()
   {
      disconnect();
   }
   /**
    * Return any DBus error which has been received.
    * @return A DBusExecutionException, or null if no error is pending.
    */
00606    public DBusExecutionException getError()
   {
      synchronized (pendingErrors) {
         if (pendingErrors.size() == 0) return null;
         else 
            return pendingErrors.removeFirst().getException();
      }
   }

   /**
    * Call a method asynchronously and set a callback.
    * This handler will be called in a separate thread.
    * @param object The remote object on which to call the method.
    * @param m The name of the method on the interface to call.
    * @param callback The callback handler.
    * @param parameters The parameters to call the method with.
    */
   @SuppressWarnings("unchecked")
00624    public <A> void callWithCallback(DBusInterface object, String m, CallbackHandler<A> callback, Object... parameters)
   {
      if (Debug.debug) Debug.print(Debug.VERBOSE, "callWithCallback("+object+","+m+", "+callback);
      Class[] types = new Class[parameters.length];
      for (int i = 0; i < parameters.length; i++) 
         types[i] = parameters[i].getClass();
      RemoteObject ro = importedObjects.get(object);

      try {
         Method me;
         if (null == ro.iface)
            me = object.getClass().getMethod(m, types);
         else
            me = ro.iface.getMethod(m, types);
         RemoteInvocationHandler.executeRemoteMethod(ro, me, this, RemoteInvocationHandler.CALL_TYPE_CALLBACK, callback, parameters);
      } catch (DBusExecutionException DBEe) {
         if (EXCEPTION_DEBUG && Debug.debug) Debug.print(Debug.ERR, DBEe);
         throw DBEe;
      } catch (Exception e) {
         if (EXCEPTION_DEBUG && Debug.debug) Debug.print(Debug.ERR, e);
         throw new DBusExecutionException(e.getMessage());
      }
   }
 
   /**
    * Call a method asynchronously and get a handle with which to get the reply.
    * @param object The remote object on which to call the method.
    * @param m The name of the method on the interface to call.
    * @param parameters The parameters to call the method with.
    * @return A handle to the call.
    */
   @SuppressWarnings("unchecked")
00656    public DBusAsyncReply callMethodAsync(DBusInterface object, String m, Object... parameters)
   {
      Class<?>[] types = new Class[parameters.length];
      for (int i = 0; i < parameters.length; i++) 
         types[i] = parameters[i].getClass();
      RemoteObject ro = importedObjects.get(object);

      try {
         Method me;
         if (null == ro.iface)
            me = object.getClass().getMethod(m, types);
         else
            me = ro.iface.getMethod(m, types);
         return (DBusAsyncReply) RemoteInvocationHandler.executeRemoteMethod(ro, me, this, RemoteInvocationHandler.CALL_TYPE_ASYNC, null, parameters);
      } catch (DBusExecutionException DBEe) {
         if (EXCEPTION_DEBUG && Debug.debug) Debug.print(Debug.ERR, DBEe);
         throw DBEe;
      } catch (Exception e) {
         if (EXCEPTION_DEBUG && Debug.debug) Debug.print(Debug.ERR, e);
         throw new DBusExecutionException(e.getMessage());
      }
   }
   
   private void handleMessage(final MethodCall m) throws DBusException
   {
      if (Debug.debug) Debug.print(Debug.DEBUG, "Handling incoming method call: "+m);

      ExportedObject eo = null;
      Method meth = null;
      Object o = null;
      
      if (null == m.getInterface() ||
          m.getInterface().equals("org.freedesktop.DBus.Peer") ||
          m.getInterface().equals("org.freedesktop.DBus.Introspectable")) {
         synchronized (exportedObjects) {
            eo = exportedObjects.get(null);
         }
         if (null != eo && null == eo.object.get()) {
            unExportObject(null);
            eo = null;
         }
         if (null != eo) {
            meth = eo.methods.get(new MethodTuple(m.getName(), m.getSig()));
         }
         if (null != meth)
            o = new _globalhandler(m.getPath());
         else
            eo = null;
      }
      if (null == o) {
         // now check for specific exported functions

         synchronized (exportedObjects) {
            eo = exportedObjects.get(m.getPath());
         }
         if (null != eo && null == eo.object.get()) {
            if (Debug.debug) Debug.print(Debug.INFO, "Unexporting "+m.getPath()+" implicitly");
            unExportObject(m.getPath());
            eo = null;
         }

         if (null == eo) {
            eo = fallbackcontainer.get(m.getPath());
         }

         if (null == eo) {
            try {
               queueOutgoing(new Error(m, new DBus.Error.UnknownObject(m.getPath()+_(" is not an object provided by this process.")))); 
            } catch (DBusException DBe) {}
            return;
         }
         if (Debug.debug) {
            Debug.print(Debug.VERBOSE, "Searching for method "+m.getName()+" with signature "+m.getSig());
            Debug.print(Debug.VERBOSE, "List of methods on "+eo+":");
            for (MethodTuple mt: eo.methods.keySet())
               Debug.print(Debug.VERBOSE, "   "+mt+" => "+eo.methods.get(mt));
         }
         meth = eo.methods.get(new MethodTuple(m.getName(), m.getSig()));
         if (null == meth) {
            try {
               queueOutgoing(new Error(m, new DBus.Error.UnknownMethod(MessageFormat.format(_("The method `{0}.{1}' does not exist on this object."), new Object[] { m.getInterface(), m.getName() })))); 
            } catch (DBusException DBe) {}
            return;
         }
         o = eo.object.get();
      }

      // now execute it
      final Method me = meth;
      final Object ob = o;
      final boolean noreply = (1 == (m.getFlags() & Message.Flags.NO_REPLY_EXPECTED));
      final DBusCallInfo info = new DBusCallInfo(m);
      final AbstractConnection conn = this;
      if (Debug.debug) Debug.print(Debug.VERBOSE, "Adding Runnable for method "+meth);
      addRunnable(new Runnable() 
      { 
         private boolean run = false;
         public synchronized void run() 
         { 
            if (run) return;
            run = true;
            if (Debug.debug) Debug.print(Debug.DEBUG, "Running method "+me+" for remote call");
            try {
               Type[] ts = me.getGenericParameterTypes();
               m.setArgs(Marshalling.deSerializeParameters(m.getParameters(), ts, conn));
               if (Debug.debug) Debug.print(Debug.VERBOSE, "Deserialised "+Arrays.deepToString(m.getParameters())+" to types "+Arrays.deepToString(ts));
            } catch (Exception e) {
               if (EXCEPTION_DEBUG && Debug.debug) Debug.print(Debug.ERR, e);
               try {
                  conn.queueOutgoing(new Error(m, new DBus.Error.UnknownMethod(_("Failure in de-serializing message: ")+e))); 
               } catch (DBusException DBe) {} 
               return;
            }

            try { 
               synchronized (infomap) {
                  infomap.put(Thread.currentThread(), info);
               }
               Object result;
               try {
                  if (Debug.debug) Debug.print(Debug.VERBOSE, "Invoking Method: "+me+" on "+ob+" with parameters "+Arrays.deepToString(m.getParameters()));
                  result = me.invoke(ob, m.getParameters());
               } catch (InvocationTargetException ITe) {
                  if (EXCEPTION_DEBUG && Debug.debug) Debug.print(Debug.ERR, ITe.getCause());
                  throw ITe.getCause();
               }
               synchronized (infomap) {
                  infomap.remove(Thread.currentThread());
               }
               if (!noreply) {
                  MethodReturn reply;
                  if (Void.TYPE.equals(me.getReturnType())) 
                     reply = new MethodReturn(m, null);
                  else {
                     StringBuffer sb = new StringBuffer();
                     for (String s: Marshalling.getDBusType(me.getGenericReturnType()))
                        sb.append(s);
                     Object[] nr = Marshalling.convertParameters(new Object[] { result }, new Type[] {me.getGenericReturnType()}, conn);
                     
                     reply = new MethodReturn(m, sb.toString(),nr);
                  }
                  conn.queueOutgoing(reply);
               }
            } catch (DBusExecutionException DBEe) {
               if (EXCEPTION_DEBUG && Debug.debug) Debug.print(Debug.ERR, DBEe);
               try {
                  conn.queueOutgoing(new Error(m, DBEe)); 
               } catch (DBusException DBe) {}
            } catch (Throwable e) {
               if (EXCEPTION_DEBUG && Debug.debug) Debug.print(Debug.ERR, e);
               try { 
                  conn.queueOutgoing(new Error(m, new DBusExecutionException(MessageFormat.format(_("Error Executing Method {0}.{1}: {2}"), new Object[] { m.getInterface(), m.getName(), e.getMessage() })))); 
               } catch (DBusException DBe) {}
            } 
         }
      });
   }
   @SuppressWarnings({"unchecked","deprecation"})
   private void handleMessage(final DBusSignal s)
   {
      if (Debug.debug) Debug.print(Debug.DEBUG, "Handling incoming signal: "+s);
      Vector<DBusSigHandler<? extends DBusSignal>> v = new Vector<DBusSigHandler<? extends DBusSignal>>();
      synchronized(handledSignals) {
         Vector<DBusSigHandler<? extends DBusSignal>> t;
         t = handledSignals.get(new SignalTuple(s.getInterface(), s.getName(), null, null));
         if (null != t) v.addAll(t);
         t = handledSignals.get(new SignalTuple(s.getInterface(), s.getName(), s.getPath(), null));
         if (null != t) v.addAll(t);
         t = handledSignals.get(new SignalTuple(s.getInterface(), s.getName(), null, s.getSource()));
         if (null != t) v.addAll(t);
         t = handledSignals.get(new SignalTuple(s.getInterface(), s.getName(), s.getPath(), s.getSource()));
         if (null != t) v.addAll(t);
      }
      if (0 == v.size()) return;
      final AbstractConnection conn = this;
      for (final DBusSigHandler<? extends DBusSignal> h: v) {
         if (Debug.debug) Debug.print(Debug.VERBOSE, "Adding Runnable for signal "+s+" with handler "+h);
         addRunnable(new Runnable() { 
            private boolean run = false;
            public synchronized void run() 
            {
               if (run) return;
               run = true;
               try {
                  DBusSignal rs;
                  if (s instanceof DBusSignal.internalsig || s.getClass().equals(DBusSignal.class))
                     rs = s.createReal(conn);
                  else
                     rs = s;
                  ((DBusSigHandler<DBusSignal>)h).handle(rs); 
               } catch (DBusException DBe) {
                  if (EXCEPTION_DEBUG && Debug.debug) Debug.print(Debug.ERR, DBe);
                  try {
                     conn.queueOutgoing(new Error(s, new DBusExecutionException("Error handling signal "+s.getInterface()+"."+s.getName()+": "+DBe.getMessage()))); 
                  } catch (DBusException DBe2) {}
               }
            }
         });
      }
   }
   private void handleMessage(final Error err)
   {
      if (Debug.debug) Debug.print(Debug.DEBUG, "Handling incoming error: "+err);
      MethodCall m = null;
      if (null == pendingCalls) return;
      synchronized (pendingCalls) {
         if (pendingCalls.contains(err.getReplySerial()))
            m = pendingCalls.remove(err.getReplySerial());
      }
      if (null != m)
         m.setReply(err);
      else
         synchronized (pendingErrors) {
            pendingErrors.addLast(err); }
   }
   @SuppressWarnings("unchecked")
   private void handleMessage(final MethodReturn mr)
   {
      if (Debug.debug) Debug.print(Debug.DEBUG, "Handling incoming method return: "+mr);
      MethodCall m = null;
      if (null == pendingCalls) return;
      synchronized (pendingCalls) {
         if (pendingCalls.contains(mr.getReplySerial()))
            m = pendingCalls.remove(mr.getReplySerial());
      }
      if (null != m) {
         m.setReply(mr);
         mr.setCall(m);
         CallbackHandler cbh = null;
         DBusAsyncReply asr = null;
         synchronized (pendingCallbacks) {
            cbh = pendingCallbacks.remove(m);
            if (Debug.debug) Debug.print(Debug.VERBOSE, cbh+" = pendingCallbacks.remove("+m+")");
            asr = pendingCallbackReplys.remove(m);
         }
         // queue callback for execution
         if (null != cbh) {
            final CallbackHandler fcbh = cbh;
            final DBusAsyncReply fasr = asr;
            if (Debug.debug) Debug.print(Debug.VERBOSE, "Adding Runnable for method "+fasr.getMethod()+" with callback handler "+fcbh);
            addRunnable(new Runnable() { 
               private boolean run = false;
               public synchronized void run() 
               {
                  if (run) return;
                  run = true;
                  try {
                     if (Debug.debug) Debug.print(Debug.VERBOSE, "Running Callback for "+mr);
                     DBusCallInfo info = new DBusCallInfo(mr);
                     synchronized (infomap) {
                        infomap.put(Thread.currentThread(), info);
                     }

                     fcbh.handle(RemoteInvocationHandler.convertRV(mr.getSig(), mr.getParameters(), fasr.getMethod(), fasr.getConnection()));
                     synchronized (infomap) {
                        infomap.remove(Thread.currentThread());
                     }

                  } catch (Exception e) {
                     if (EXCEPTION_DEBUG && Debug.debug) Debug.print(Debug.ERR, e);
                  }
               }
            });
         }
         
      } else
         try {
            queueOutgoing(new Error(mr, new DBusExecutionException(_("Spurious reply. No message with the given serial id was awaiting a reply.")))); 
         } catch (DBusException DBe) {}
   }
   protected void sendMessage(Message m)
   {
      try {
         if (m instanceof DBusSignal) 
            ((DBusSignal) m).appendbody(this);

         if (m instanceof MethodCall) {
            if (0 == (m.getFlags() & Message.Flags.NO_REPLY_EXPECTED))
               if (null == pendingCalls) 
                  ((MethodCall) m).setReply(new Error("org.freedesktop.DBus.Local", "org.freedesktop.DBus.Local.Disconnected", 0, "s", new Object[] { _("Disconnected") }));
               else synchronized (pendingCalls) {
                  pendingCalls.put(m.getSerial(),(MethodCall) m);
               }
         }

         transport.mout.writeMessage(m);
         
      } catch (Exception e) {
         if (EXCEPTION_DEBUG && Debug.debug) Debug.print(Debug.ERR, e);
         if (m instanceof MethodCall && e instanceof DBusExecutionException) 
            try {
               ((MethodCall)m).setReply(new Error(m, e));
            } catch (DBusException DBe) {}
         else if (m instanceof MethodCall)
            try {
               if (Debug.debug) Debug.print(Debug.INFO, "Setting reply to "+m+" as an error");
               ((MethodCall)m).setReply(new Error(m, new DBusExecutionException(_("Message Failed to Send: ")+e.getMessage())));
            } catch (DBusException DBe) {}
         else if (m instanceof MethodReturn)
            try {
               transport.mout.writeMessage(new Error(m, e));
            } catch(IOException IOe) {
               if (EXCEPTION_DEBUG && Debug.debug) Debug.print(Debug.ERR, IOe);            
            } catch(DBusException IOe) {
               if (EXCEPTION_DEBUG && Debug.debug) Debug.print(Debug.ERR, e);            
            }
         if (e instanceof IOException) disconnect();
      }
   }
   private Message readIncoming() throws DBusException 
   {
      if (null == transport) throw new NotConnected(_("No transport present"));
      Message m = null;
      try {
         m = transport.min.readMessage();
      } catch (IOException IOe) {
         throw new FatalDBusException(IOe.getMessage());
      }
      return m;
   }
   /**
    * Returns the address this connection is connected to.
    */
00979    public BusAddress getAddress() throws ParseException { return new BusAddress(addr); }
}

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