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package org.glassfish.grizzly.nio.transport;
import java.io.IOException;
import java.net.SocketAddress;
import java.nio.ByteBuffer;
import java.nio.channels.SocketChannel;
import java.util.ArrayDeque;
import java.util.Deque;
import java.util.Iterator;
import org.glassfish.grizzly.*;
import org.glassfish.grizzly.asyncqueue.AsyncQueueWriter;
import org.glassfish.grizzly.asyncqueue.AsyncWriteQueueRecord;
import org.glassfish.grizzly.asyncqueue.TaskQueue;
import org.glassfish.grizzly.asyncqueue.WritableMessage;
import org.glassfish.grizzly.attributes.Attribute;
import org.glassfish.grizzly.memory.Buffers;
import org.glassfish.grizzly.nio.AbstractNIOAsyncQueueWriter;
import org.glassfish.grizzly.nio.DirectByteBufferRecord;
import org.glassfish.grizzly.nio.NIOConnection;
import org.glassfish.grizzly.nio.NIOTransport;
/**
* The TCP transport {@link AsyncQueueWriter} implementation, based on
* the Java NIO
*
* @author Alexey Stashok
*/
public final class TCPNIOAsyncQueueWriter extends AbstractNIOAsyncQueueWriter {
public TCPNIOAsyncQueueWriter(final NIOTransport transport) {
super(transport);
}
@Override
@SuppressWarnings("unchecked")
protected long write0(final NIOConnection connection,
final AsyncWriteQueueRecord queueRecord) throws IOException {
if (queueRecord instanceof CompositeQueueRecord) {
return writeComposite0(connection, (CompositeQueueRecord) queueRecord);
}
final WriteResult currentResult =
queueRecord.getCurrentResult();
final WritableMessage message = queueRecord.getMessage();
final long written;
if (message instanceof Buffer) {
final Buffer buffer = (Buffer) message;
final int oldPos = buffer.position();
final int bufferSize = Math.min(buffer.remaining(),
connection.getWriteBufferSize() * 2);
if (bufferSize == 0) {
written = 0;
} else {
final DirectByteBufferRecord directByteBufferRecord =
DirectByteBufferRecord.allocate(bufferSize);
try {
final ByteBuffer directByteBuffer = directByteBufferRecord.getByteBuffer();
final SocketChannel socketChannel = (SocketChannel) connection.getChannel();
fillByteBuffer(buffer, 0, bufferSize, directByteBuffer);
written = TCPNIOTransport.flushByteBuffer(
socketChannel, directByteBuffer);
buffer.position(oldPos + (int) written);
((TCPNIOConnection) connection).onWrite(buffer, written);
} catch (IOException e) {
// Mark connection as closed remotely.
((TCPNIOConnection) connection).close0(null,
new CloseReason(CloseType.REMOTELY, e));
throw e;
} finally {
directByteBufferRecord.release();
}
}
} else if (message instanceof FileTransfer) {
written = ((FileTransfer) message).writeTo((SocketChannel) connection.getChannel());
((TCPNIOConnection) connection).onWrite(null, written);
} else {
throw new IllegalStateException("Unhandled message type");
}
if (currentResult != null) {
currentResult.setMessage(message);
currentResult.setWrittenSize(currentResult.getWrittenSize()
+ written);
currentResult.setDstAddressHolder(
((TCPNIOConnection) connection).peerSocketAddressHolder);
}
return written;
}
private int writeComposite0(final NIOConnection connection,
final CompositeQueueRecord queueRecord) throws IOException {
final int bufferSize = Math.min(queueRecord.size,
connection.getWriteBufferSize() * 2);
final DirectByteBufferRecord directByteBufferRecord =
DirectByteBufferRecord.allocate(bufferSize);
try {
final ByteBuffer directByteBuffer = directByteBufferRecord.getByteBuffer();
final SocketChannel socketChannel = (SocketChannel) connection.getChannel();
fillByteBuffer(queueRecord.queue, directByteBuffer);
final int written = TCPNIOTransport.flushByteBuffer(socketChannel,
directByteBuffer);
return update(queueRecord, written);
} catch (IOException e) {
// Mark connection as closed remotely.
((TCPNIOConnection) connection).close0(null,
new CloseReason(CloseType.REMOTELY, e));
throw e;
} finally {
directByteBufferRecord.release();
}
}
private static void fillByteBuffer(final Buffer src, final int offset,
final int size, final ByteBuffer dstByteBuffer) {
dstByteBuffer.limit(size);
final int oldPos = src.position();
src.position(oldPos + offset);
src.get(dstByteBuffer);
dstByteBuffer.position(0);
src.position(oldPos);
}
private static void fillByteBuffer(final Deque queue,
final ByteBuffer dstByteBuffer) {
int dstBufferRemaining = dstByteBuffer.remaining();
dstByteBuffer.limit(0);
for (final Iterator it = queue.iterator();
it.hasNext() && dstBufferRemaining > 0; ) {
final AsyncWriteQueueRecord record = it.next();
if (record.isEmptyRecord()) continue;
final Buffer message = record.getMessage();
final int oldPos = message.position();
final int oldLim = message.limit();
final int remaining = message.remaining();
if (dstBufferRemaining >= remaining) {
dstByteBuffer.limit(dstByteBuffer.limit() + remaining);
} else {
dstByteBuffer.limit(dstByteBuffer.capacity());
message.limit(oldPos + dstBufferRemaining);
}
message.get(dstByteBuffer);
Buffers.setPositionLimit(message, oldPos, oldLim);
dstBufferRemaining -= remaining;
}
dstByteBuffer.position(0);
}
private int update(final CompositeQueueRecord queueRecord, int written) {
int remainder = written;
queueRecord.size -= written;
final Connection connection = queueRecord.getConnection();
final Deque queue = queueRecord.queue;
AsyncWriteQueueRecord record;
while (remainder > 0) {
record = queue.peekFirst();
assert record != null;
if (record.isEmptyRecord()) {
queue.removeFirst();
record.notifyCompleteAndRecycle();
written += EMPTY_RECORD_SPACE_VALUE;
continue;
}
final WriteResult firstResult = record.getCurrentResult();
final Buffer firstMessage = record.getMessage();
final long firstMessageRemaining =
record.getInitialMessageSize() - firstResult.getWrittenSize();
if (remainder >= firstMessageRemaining) {
remainder -= firstMessageRemaining;
queue.removeFirst();
firstResult.setWrittenSize(record.getInitialMessageSize());
firstMessage.position(firstMessage.limit());
((TCPNIOConnection) connection).onWrite(firstMessage, firstMessageRemaining);
record.notifyCompleteAndRecycle();
} else {
firstMessage.position(firstMessage.position() + remainder);
firstResult.setWrittenSize(
firstResult.getWrittenSize() + remainder);
((TCPNIOConnection) connection).onWrite(firstMessage, remainder);
return written;
}
}
while ((record = queue.peekFirst()) != null && record.isEmptyRecord()) {
queue.removeFirst();
record.notifyCompleteAndRecycle();
written += EMPTY_RECORD_SPACE_VALUE;
}
return written;
}
@Override
protected final void onReadyToWrite(final NIOConnection connection) throws IOException {
connection.enableIOEvent(IOEvent.WRITE);
}
/**
* {@inheritDoc}
*/
@Override
protected AsyncWriteQueueRecord aggregate(
final TaskQueue writeTaskQueue) {
final int queueSize = writeTaskQueue.spaceInBytes();
if (queueSize == 0) {
return null;
}
final AsyncWriteQueueRecord currentRecord =
writeTaskQueue.obtainCurrentElementAndReserve();
if (currentRecord == null ||
!canBeAggregated(currentRecord) ||
queueSize == currentRecord.remaining()) {
return currentRecord;
}
AsyncWriteQueueRecord nextRecord = checkAndGetNextRecord(writeTaskQueue);
if (nextRecord == null) {
return currentRecord;
}
final CompositeQueueRecord compositeQueueRecord =
createCompositeQueueRecord(currentRecord);
do {
compositeQueueRecord.append(nextRecord);
} while(compositeQueueRecord.remaining() < queueSize &&
(nextRecord = checkAndGetNextRecord(writeTaskQueue)) != null);
return compositeQueueRecord;
}
private static AsyncWriteQueueRecord checkAndGetNextRecord(
final TaskQueue writeTaskQueue) {
final AsyncWriteQueueRecord nextRecord = writeTaskQueue.getQueue().poll();
if (nextRecord == null) {
return null;
} else if (!canBeAggregated(nextRecord)) {
final NIOConnection connection = (NIOConnection) nextRecord.getConnection();
offerToTaskQueue(connection, nextRecord, writeTaskQueue);
return null;
}
return nextRecord;
}
private static boolean canBeAggregated(final AsyncWriteQueueRecord record) {
return record.canBeAggregated();
}
protected static void offerToTaskQueue(
final NIOConnection nioConnection,
final AsyncWriteQueueRecord queueRecord,
final TaskQueue taskQueue) {
taskQueue.offer(queueRecord);
if (!nioConnection.isOpen() && taskQueue.remove(queueRecord)) {
onWriteFailure(nioConnection, queueRecord, new IOException("Connection is closed"));
}
}
private static final Attribute COMPOSITE_BUFFER_ATTR =
Grizzly.DEFAULT_ATTRIBUTE_BUILDER.createAttribute(
TCPNIOAsyncQueueWriter.class.getName() + ".compositeBuffer");
private CompositeQueueRecord createCompositeQueueRecord(
final AsyncWriteQueueRecord currentRecord) {
if (!(currentRecord instanceof CompositeQueueRecord)) {
final Connection connection = currentRecord.getConnection();
CompositeQueueRecord compositeQueueRecord =
COMPOSITE_BUFFER_ATTR.get(connection);
if (compositeQueueRecord == null) {
compositeQueueRecord = CompositeQueueRecord.create(connection);
COMPOSITE_BUFFER_ATTR.set(connection, compositeQueueRecord);
}
compositeQueueRecord.append(currentRecord);
return compositeQueueRecord;
} else {
return (CompositeQueueRecord) currentRecord;
}
}
private static final class CompositeQueueRecord extends AsyncWriteQueueRecord {
private final Deque queue =
new ArrayDeque(2);
private int size;
public static CompositeQueueRecord create(final Connection connection) {
return new CompositeQueueRecord(connection);
}
public CompositeQueueRecord(final Connection connection) {
super(connection, null, null, null, null, false);
}
public void append(final AsyncWriteQueueRecord queueRecord) {
size += queueRecord.remaining();
queue.add(queueRecord);
}
@Override
public boolean isEmptyRecord() {
return false;
}
@Override
public boolean isFinished() {
return size == 0;
}
@Override
public boolean canBeAggregated() {
return true;
}
@Override
public long remaining() {
return size;
}
@Override
public void notifyCompleteAndRecycle() {
}
@Override
public void notifyFailure(final Throwable e) {
AsyncWriteQueueRecord record;
while ((record = queue.poll()) != null) {
record.notifyFailure(e);
}
}
@Override
public void recycle() {
}
}
}
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