io.undertow.util.Transfer Maven / Gradle / Ivy
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* Copyright 2014 Red Hat, Inc., and individual contributors
* as indicated by the @author tags.
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package io.undertow.util;
import io.undertow.UndertowMessages;
import io.undertow.connector.ByteBufferPool;
import org.xnio.ChannelExceptionHandler;
import org.xnio.ChannelListener;
import org.xnio.ChannelListeners;
import io.undertow.connector.PooledByteBuffer;
import org.xnio.channels.Channels;
import org.xnio.channels.StreamSinkChannel;
import org.xnio.channels.StreamSourceChannel;
import java.io.IOException;
import java.nio.ByteBuffer;
import java.nio.channels.Channel;
/**
* @author Stuart Douglas
*/
public class Transfer {
/**
* Initiate a low-copy transfer between two stream channels. The pool should be a direct buffer pool for best
* performance.
*
* @param source the source channel
* @param sink the target channel
* @param sourceListener the source listener to set and call when the transfer is complete, or {@code null} to clear the listener at that time
* @param sinkListener the target listener to set and call when the transfer is complete, or {@code null} to clear the listener at that time
* @param readExceptionHandler the read exception handler to call if an error occurs during a read operation
* @param writeExceptionHandler the write exception handler to call if an error occurs during a write operation
* @param pool the pool from which the transfer buffer should be allocated
*/
public static void initiateTransfer(final I source, final O sink, final ChannelListener super I> sourceListener, final ChannelListener super O> sinkListener, final ChannelExceptionHandler super I> readExceptionHandler, final ChannelExceptionHandler super O> writeExceptionHandler, ByteBufferPool pool) {
if (pool == null) {
throw UndertowMessages.MESSAGES.argumentCannotBeNull("pool");
}
final PooledByteBuffer allocated = pool.allocate();
boolean free = true;
try {
final ByteBuffer buffer = allocated.getBuffer();
long read;
for(;;) {
try {
read = source.read(buffer);
buffer.flip();
} catch (IOException e) {
ChannelListeners.invokeChannelExceptionHandler(source, readExceptionHandler, e);
return;
}
if (read == 0 && !buffer.hasRemaining()) {
break;
}
if (read == -1 && !buffer.hasRemaining()) {
done(source, sink, sourceListener, sinkListener);
return;
}
while (buffer.hasRemaining()) {
final int res;
try {
res = sink.write(buffer);
} catch (IOException e) {
ChannelListeners.invokeChannelExceptionHandler(sink, writeExceptionHandler, e);
return;
}
if (res == 0) {
break;
}
}
if(buffer.hasRemaining()) {
break;
}
buffer.clear();
}
PooledByteBuffer current = null;
if(buffer.hasRemaining()) {
current = allocated;
free = false;
}
final TransferListener listener = new TransferListener<>(pool, current, source, sink, sourceListener, sinkListener, writeExceptionHandler, readExceptionHandler, read == -1);
sink.getWriteSetter().set(listener);
source.getReadSetter().set(listener);
//we resume both reads and writes, as we want to keep trying to fill the buffer
if(current == null || buffer.capacity() != buffer.remaining()) {
//we don't resume if the buffer is 100% full
source.resumeReads();
}
if(current != null) {
//we don't resume writes if we have nothing to write
sink.resumeWrites();
}
} finally {
if (free) {
allocated.close();
}
}
}
private static void done(I source, O sink, ChannelListener super I> sourceListener, ChannelListener super O> sinkListener) {
Channels.setReadListener(source, sourceListener);
if (sourceListener == null) {
source.suspendReads();
} else {
source.wakeupReads();
}
Channels.setWriteListener(sink, sinkListener);
if (sinkListener == null) {
sink.suspendWrites();
} else {
sink.wakeupWrites();
}
}
static final class TransferListener implements ChannelListener {
private PooledByteBuffer pooledBuffer;
private final ByteBufferPool pool;
private final I source;
private final O sink;
private final ChannelListener super I> sourceListener;
private final ChannelListener super O> sinkListener;
private final ChannelExceptionHandler super O> writeExceptionHandler;
private final ChannelExceptionHandler super I> readExceptionHandler;
private boolean sourceDone;
private boolean done = false;
TransferListener(ByteBufferPool pool, final PooledByteBuffer pooledBuffer, final I source, final O sink, final ChannelListener super I> sourceListener, final ChannelListener super O> sinkListener, final ChannelExceptionHandler super O> writeExceptionHandler, final ChannelExceptionHandler super I> readExceptionHandler, boolean sourceDone) {
this.pool = pool;
this.pooledBuffer = pooledBuffer;
this.source = source;
this.sink = sink;
this.sourceListener = sourceListener;
this.sinkListener = sinkListener;
this.writeExceptionHandler = writeExceptionHandler;
this.readExceptionHandler = readExceptionHandler;
this.sourceDone = sourceDone;
}
public void handleEvent(final Channel channel) {
if(done) {
if(channel instanceof StreamSinkChannel) {
((StreamSinkChannel) channel).suspendWrites();
} else if(channel instanceof StreamSourceChannel) {
((StreamSourceChannel)channel).suspendReads();
}
return;
}
boolean noWrite = false;
if (pooledBuffer == null) {
pooledBuffer = pool.allocate();
noWrite = true;
} else if(channel instanceof StreamSourceChannel) {
noWrite = true; //attempt a read first, as this is a read notification
pooledBuffer.getBuffer().compact();
}
final ByteBuffer buffer = pooledBuffer.getBuffer();
try {
long read;
for(;;) {
boolean writeFailed = false;
//always attempt to write first if we have the buffer
if(!noWrite) {
while (buffer.hasRemaining()) {
final int res;
try {
res = sink.write(buffer);
} catch (IOException e) {
pooledBuffer.close();
pooledBuffer = null;
done = true;
ChannelListeners.invokeChannelExceptionHandler(sink, writeExceptionHandler, e);
return;
}
if (res == 0) {
writeFailed = true;
break;
}
}
if(sourceDone && !buffer.hasRemaining()) {
done = true;
done(source, sink, sourceListener, sinkListener);
return;
}
buffer.compact();
}
noWrite = false;
if(buffer.hasRemaining() && !sourceDone) {
try {
read = source.read(buffer);
buffer.flip();
} catch (IOException e) {
pooledBuffer.close();
pooledBuffer = null;
done = true;
ChannelListeners.invokeChannelExceptionHandler(source, readExceptionHandler, e);
return;
}
if (read == 0) {
break;
} else if(read == -1) {
sourceDone = true;
if (!buffer.hasRemaining()) {
done = true;
done(source, sink, sourceListener, sinkListener);
return;
}
}
} else {
buffer.flip();
if(writeFailed) {
break;
}
}
}
//suspend writes if there is nothing to write
if(!buffer.hasRemaining()) {
sink.suspendWrites();
} else if(!sink.isWriteResumed()) {
sink.resumeWrites();
}
//suspend reads if there is nothing to read
if(buffer.remaining() == buffer.capacity()) {
source.suspendReads();
} else if(!source.isReadResumed()){
source.resumeReads();
}
} finally {
if (pooledBuffer != null && !buffer.hasRemaining()) {
pooledBuffer.close();
pooledBuffer = null;
}
}
}
public String toString() {
return "Transfer channel listener (" + source + " to " + sink + ") -> (" + sourceListener + " and " + sinkListener + ")";
}
}
}
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