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Ice is a comprehensive RPC framework that helps you build distributed applications with minimal effort using familiar object-oriented idioms
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//
// Copyright (c) ZeroC, Inc. All rights reserved.
//
package IceInternal;
public class BatchRequestQueue
{
class BatchRequestI implements Ice.BatchRequest
{
public void reset(Ice.ObjectPrx proxy, String operation, int size)
{
_proxy = proxy;
_operation = operation;
_size = size;
}
@Override
public void enqueue()
{
enqueueBatchRequest(_proxy);
}
@Override
public Ice.ObjectPrx getProxy()
{
return _proxy;
}
@Override
public String getOperation()
{
return _operation;
}
@Override
public int getSize()
{
return _size;
}
private Ice.ObjectPrx _proxy;
private String _operation;
private int _size;
}
public
BatchRequestQueue(Instance instance, boolean datagram)
{
Ice.InitializationData initData = instance.initializationData();
_interceptor = initData.batchRequestInterceptor;
_batchStreamInUse = false;
_batchRequestNum = 0;
_batchStream = new Ice.OutputStream(instance, Protocol.currentProtocolEncoding);
_batchStream.writeBlob(Protocol.requestBatchHdr);
_batchMarker = _batchStream.size();
_batchCompress = false;
_request = new BatchRequestI();
_maxSize = instance.batchAutoFlushSize();
if(_maxSize > 0 && datagram)
{
int udpSndSize = initData.properties.getPropertyAsIntWithDefault("Ice.UDP.SndSize", 65535 - _udpOverhead);
if(udpSndSize < _maxSize)
{
_maxSize = udpSndSize;
}
}
}
synchronized public void
prepareBatchRequest(Ice.OutputStream os)
{
if(_exception != null)
{
throw (Ice.LocalException)_exception.fillInStackTrace();
}
waitStreamInUse(false);
_batchStreamInUse = true;
_batchStream.swap(os);
}
public void
finishBatchRequest(Ice.OutputStream os, Ice.ObjectPrx proxy, String operation)
{
//
// No need for synchronization, no other threads are supposed
// to modify the queue since we set _batchStreamInUse to true.
//
assert(_batchStreamInUse);
_batchStream.swap(os);
try
{
_batchStreamCanFlush = true; // Allow flush to proceed even if the stream is marked in use.
if(_maxSize > 0 && _batchStream.size() >= _maxSize)
{
proxy.begin_ice_flushBatchRequests(); // Auto flush
}
assert(_batchMarker < _batchStream.size());
if(_interceptor != null)
{
_request.reset(proxy, operation, _batchStream.size() - _batchMarker);
_interceptor.enqueue(_request, _batchRequestNum, _batchMarker);
}
else
{
Boolean compress = ((Ice.ObjectPrxHelperBase)proxy)._getReference().getCompressOverride();
if(compress != null)
{
_batchCompress |= compress.booleanValue();
}
_batchMarker = _batchStream.size();
++_batchRequestNum;
}
}
finally
{
synchronized(this)
{
_batchStream.resize(_batchMarker);
_batchStreamInUse = false;
_batchStreamCanFlush = false;
notifyAll();
}
}
}
synchronized public void
abortBatchRequest(Ice.OutputStream os)
{
if(_batchStreamInUse)
{
_batchStream.swap(os);
_batchStream.resize(_batchMarker);
_batchStreamInUse = false;
notifyAll();
}
}
synchronized public int
swap(Ice.OutputStream os, Ice.BooleanHolder compress)
{
if(_batchRequestNum == 0)
{
return 0;
}
waitStreamInUse(true);
byte[] lastRequest = null;
if(_batchMarker < _batchStream.size())
{
lastRequest = new byte[_batchStream.size() - _batchMarker];
Buffer buffer = _batchStream.getBuffer();
buffer.position(_batchMarker);
buffer.b.get(lastRequest);
_batchStream.resize(_batchMarker);
}
int requestNum = _batchRequestNum;
if(compress != null)
{
compress.value = _batchCompress;
}
_batchStream.swap(os);
//
// Reset the batch.
//
_batchRequestNum = 0;
_batchCompress = false;
_batchStream.writeBlob(Protocol.requestBatchHdr);
_batchMarker = _batchStream.size();
if(lastRequest != null)
{
_batchStream.writeBlob(lastRequest);
}
return requestNum;
}
synchronized public void
destroy(Ice.LocalException ex)
{
_exception = ex;
}
synchronized public boolean
isEmpty()
{
return _batchStream.size() == Protocol.requestBatchHdr.length;
}
private void
waitStreamInUse(boolean flush)
{
//
// This is similar to a mutex lock in that the stream is
// only "locked" while marshaling. As such we don't permit the wait
// to be interrupted. Instead the interrupted status is saved and
// restored.
//
boolean interrupted = false;
while(_batchStreamInUse && !(flush && _batchStreamCanFlush))
{
try
{
wait();
}
catch(InterruptedException ex)
{
interrupted = true;
}
}
//
// Restore the interrupted flag if we were interrupted.
//
if(interrupted)
{
Thread.currentThread().interrupt();
}
}
private void enqueueBatchRequest(Ice.ObjectPrx proxy)
{
assert(_batchMarker < _batchStream.size());
Boolean compress = ((Ice.ObjectPrxHelperBase)proxy)._getReference().getCompressOverride();
if(compress != null)
{
_batchCompress |= compress.booleanValue();
}
_batchMarker = _batchStream.size();
++_batchRequestNum;
}
private Ice.BatchRequestInterceptor _interceptor;
private Ice.OutputStream _batchStream;
private boolean _batchStreamInUse;
private boolean _batchStreamCanFlush;
private int _batchRequestNum;
private int _batchMarker;
private boolean _batchCompress;
private BatchRequestI _request;
private Ice.LocalException _exception;
private int _maxSize;
final private static int _udpOverhead = 20 + 8;
}