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Pulls down netty.io, relocates nd then makes a fat new jar with them all in it.
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/*
* Copyright 2013 The Netty Project
*
* The Netty Project licenses this file to you 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 ch.cern.hbase.thirdparty.io.netty.buffer;
import java.nio.ByteOrder;
/**
* A {@link ByteBuf} implementation that wraps another buffer to prevent a user from increasing or decreasing the
* wrapped buffer's reference count.
*/
final class UnreleasableByteBuf extends WrappedByteBuf {
private SwappedByteBuf swappedBuf;
UnreleasableByteBuf(ByteBuf buf) {
super(buf instanceof UnreleasableByteBuf ? buf.unwrap() : buf);
}
@Override
public ByteBuf order(ByteOrder endianness) {
if (endianness == null) {
throw new NullPointerException("endianness");
}
if (endianness == order()) {
return this;
}
SwappedByteBuf swappedBuf = this.swappedBuf;
if (swappedBuf == null) {
this.swappedBuf = swappedBuf = new SwappedByteBuf(this);
}
return swappedBuf;
}
@Override
public ByteBuf asReadOnly() {
return buf.isReadOnly() ? this : new UnreleasableByteBuf(buf.asReadOnly());
}
@Override
public ByteBuf readSlice(int length) {
return new UnreleasableByteBuf(buf.readSlice(length));
}
@Override
public ByteBuf readRetainedSlice(int length) {
// We could call buf.readSlice(..), and then call buf.release(). However this creates a leak in unit tests
// because the release method on UnreleasableByteBuf will never allow the leak record to be cleaned up.
// So we just use readSlice(..) because the end result should be logically equivalent.
return readSlice(length);
}
@Override
public ByteBuf slice() {
return new UnreleasableByteBuf(buf.slice());
}
@Override
public ByteBuf retainedSlice() {
// We could call buf.retainedSlice(), and then call buf.release(). However this creates a leak in unit tests
// because the release method on UnreleasableByteBuf will never allow the leak record to be cleaned up.
// So we just use slice() because the end result should be logically equivalent.
return slice();
}
@Override
public ByteBuf slice(int index, int length) {
return new UnreleasableByteBuf(buf.slice(index, length));
}
@Override
public ByteBuf retainedSlice(int index, int length) {
// We could call buf.retainedSlice(..), and then call buf.release(). However this creates a leak in unit tests
// because the release method on UnreleasableByteBuf will never allow the leak record to be cleaned up.
// So we just use slice(..) because the end result should be logically equivalent.
return slice(index, length);
}
@Override
public ByteBuf duplicate() {
return new UnreleasableByteBuf(buf.duplicate());
}
@Override
public ByteBuf retainedDuplicate() {
// We could call buf.retainedDuplicate(), and then call buf.release(). However this creates a leak in unit tests
// because the release method on UnreleasableByteBuf will never allow the leak record to be cleaned up.
// So we just use duplicate() because the end result should be logically equivalent.
return duplicate();
}
@Override
public ByteBuf retain(int increment) {
return this;
}
@Override
public ByteBuf retain() {
return this;
}
@Override
public ByteBuf touch() {
return this;
}
@Override
public ByteBuf touch(Object hint) {
return this;
}
@Override
public boolean release() {
return false;
}
@Override
public boolean release(int decrement) {
return false;
}
}