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package com.sun.enterprise.web.connector.grizzly.ssl;
import com.sun.enterprise.web.connector.grizzly.Handler;
import com.sun.enterprise.web.connector.grizzly.SelectorThread;
import com.sun.enterprise.web.connector.grizzly.StreamAlgorithm;
import com.sun.enterprise.web.connector.grizzly.TaskContext;
import com.sun.enterprise.web.connector.grizzly.TaskEvent;
import com.sun.enterprise.web.connector.grizzly.TaskListener;
import java.io.IOException;
import java.net.Socket;
import java.nio.ByteBuffer;
import java.nio.channels.SocketChannel;
import java.util.logging.Level;
/**
* Asynchronous SSL support over NIO. This <code>Task</code> handles the SSL
* requests using a non blocking socket. The SSL handshake is done using this
* class. Once the handshake is successful, the <code>SSLProcessorTask</code> is
* executed.
*
* @author Jean-Francois Arcand
*/
public class SSLAsyncReadTask extends SSLReadTask {
/**
* Allocate themandatory <code>ByteBuffer</code>s. Since the ByteBuffer
* are maintaned on the <code>SSLWorkerThread</code> lazily, this method
* makes sure the ByteBuffers are properly allocated and configured.
*/
public void allocateBuffers(){
int expectedSize = sslEngine.getSession().getPacketBufferSize();
if (inputBBSize < expectedSize){
inputBBSize = expectedSize;
}
if (inputBB != null && inputBB.capacity() < inputBBSize) {
ByteBuffer newBB = ByteBuffer.allocate(inputBBSize);
inputBB.flip();
newBB.put(inputBB);
inputBB = newBB;
} else if (inputBB == null){
inputBB = ByteBuffer.allocate(inputBBSize);
}
outputBB = ByteBuffer.allocate(inputBBSize);
if (byteBuffer == null){
byteBuffer = ByteBuffer.allocate(inputBBSize * 2);
}
expectedSize = sslEngine.getSession().getApplicationBufferSize();
if (expectedSize > byteBuffer.capacity()) {
ByteBuffer newBB = ByteBuffer.allocate(expectedSize);
byteBuffer.flip();
newBB.put(byteBuffer);
byteBuffer = newBB;
}
outputBB.position(0);
outputBB.limit(0);
}
/**
* Initialize this object.
*/
public void initialize(StreamAlgorithm algorithm,
boolean useDirectByteBuffer, boolean useByteBufferView){
type = READ_TASK;
this.algorithm = algorithm;
inputStream = new SSLAsyncStream();
this.useDirectByteBuffer = useDirectByteBuffer;
this.useByteBufferView = useByteBufferView;
}
/**
* Manage the <code>SelectionKey</code>
*/
protected void manageKeepAlive(boolean keepAlive,int count,
Exception exception){
// The key is invalid when the Task has been cancelled.
if (count == -1 || exception != null){
if ( exception != null){
// Make sure we have detached the processorTask
detachProcessor();
if (SelectorThread.logger().isLoggable(Level.FINE)){
SelectorThread.logger().log
(Level.FINE,
"SocketChannel Read Exception:",exception);
}
}
terminate(false);
}
}
protected boolean process() throws IOException{
boolean keepAlive = false;
SocketChannel socketChannel = (SocketChannel)key.channel();
Socket socket = socketChannel.socket();
algorithm.setSocketChannel(socketChannel);
inputStream.setSelectionKey(key);
((SSLAsyncStream)inputStream).setSslEngine(sslEngine);
((SSLAsyncStream)inputStream).setInputBB(inputBB);
// Get a processor task. If the processorTask != null, that means we
// failed to load all the bytes in a single channel.read().
if (processorTask == null){
attachProcessor(selectorThread.getProcessorTask());
}
// Always true with the NoParsingAlgorithm
if (algorithm.parse(byteBuffer)){
return executeProcessorTask();
} else {
// Never happens with the default StreamAlgorithm
return true;
}
}
/**
* Execute the <code>ProcessorTask</code>
* @return false if the request wasn't fully read by the channel.
* so we need to respin the key on the Selector.
*/
public boolean executeProcessorTask() throws IOException{
if (SelectorThread.logger().isLoggable(Level.FINEST))
SelectorThread.logger().log(Level.FINEST,"executeProcessorTask");
if (algorithm.getHandler() != null && algorithm.getHandler()
.handle(null,Handler.REQUEST_BUFFERED) == Handler.BREAK){
return true;
}
if (taskEvent == null){
taskContext = new TaskContext();
taskEvent = new TaskEvent<TaskContext>(taskContext);
}
// Call the listener and execute the task on it's own pipeline.
taskEvent.setStatus(TaskEvent.START);
taskContext.setInputStream(inputStream);
taskEvent.attach(taskContext);
fireTaskEvent(taskEvent);
return false;
}
/**
* Clear the current state and make this object ready for another request.
*/
public void recycle(){
byteBuffer = algorithm.postParse(byteBuffer);
byteBuffer.clear();
inputStream.recycle();
algorithm.recycle();
key = null;
inputStream.setSelectionKey(null);
handshake = true;
inputBB.clear();
outputBB.clear();
outputBB.position(0);
outputBB.limit(0);
sslEngine = null;
detachProcessor();
}
/**
* Complete the transaction.
*/
public void terminate(boolean keepAlive){
if (processorTask != null && processorTask.isKeepAlive()){
detachProcessor();
registerKey();
returnTask();
} else {
super.terminate(keepAlive);
}
}
/**
* Set appropriate attribute on the <code>ProcessorTask</code>.
*/
public void configureProcessorTask(){
super.configureProcessorTask();
if ( !getTaskListeners().contains(processorTask) ){
processorTask.addTaskListener(this);
addTaskListener((TaskListener)processorTask);
}
processorTask.initialize();
SSLAsyncOutputBuffer outputBuffer =
((SSLAsyncProcessorTask)processorTask).getSSLAsyncOutputBuffer();
outputBuffer.setSSLEngine(sslEngine);
outputBuffer.setOutputBB(outputBB);
}
}
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