net.logstash.logback.encoder.com.lmax.disruptor.SingleProducerSequencer Maven / Gradle / Ivy
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Provides logback encoders, layouts, and appenders to log in JSON and other formats supported by Jackson
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/*
* Copyright 2011 LMAX Ltd.
*
* 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 net.logstash.logback.encoder.com.lmax.disruptor;
import java.util.concurrent.locks.LockSupport;
import net.logstash.logback.encoder.com.lmax.disruptor.util.Util;
abstract class SingleProducerSequencerPad extends AbstractSequencer
{
protected long p1, p2, p3, p4, p5, p6, p7;
SingleProducerSequencerPad(int bufferSize, WaitStrategy waitStrategy)
{
super(bufferSize, waitStrategy);
}
}
abstract class SingleProducerSequencerFields extends SingleProducerSequencerPad
{
SingleProducerSequencerFields(int bufferSize, WaitStrategy waitStrategy)
{
super(bufferSize, waitStrategy);
}
/**
* Set to -1 as sequence starting point
*/
long nextValue = Sequence.INITIAL_VALUE;
long cachedValue = Sequence.INITIAL_VALUE;
}
/**
* Coordinator for claiming sequences for access to a data structure while tracking dependent {@link Sequence}s.
* Not safe for use from multiple threads as it does not implement any barriers.
*
* * Note on {@link Sequencer#getCursor()}: With this sequencer the cursor value is updated after the call
* to {@link Sequencer#publish(long)} is made.
*/
public final class SingleProducerSequencer extends SingleProducerSequencerFields
{
protected long p1, p2, p3, p4, p5, p6, p7;
/**
* Construct a Sequencer with the selected wait strategy and buffer size.
*
* @param bufferSize the size of the buffer that this will sequence over.
* @param waitStrategy for those waiting on sequences.
*/
public SingleProducerSequencer(int bufferSize, WaitStrategy waitStrategy)
{
super(bufferSize, waitStrategy);
}
/**
* @see Sequencer#hasAvailableCapacity(int)
*/
@Override
public boolean hasAvailableCapacity(int requiredCapacity)
{
return hasAvailableCapacity(requiredCapacity, false);
}
private boolean hasAvailableCapacity(int requiredCapacity, boolean doStore)
{
long nextValue = this.nextValue;
long wrapPoint = (nextValue + requiredCapacity) - bufferSize;
long cachedGatingSequence = this.cachedValue;
if (wrapPoint > cachedGatingSequence || cachedGatingSequence > nextValue)
{
if (doStore)
{
cursor.setVolatile(nextValue); // StoreLoad fence
}
long minSequence = Util.getMinimumSequence(gatingSequences, nextValue);
this.cachedValue = minSequence;
if (wrapPoint > minSequence)
{
return false;
}
}
return true;
}
/**
* @see Sequencer#next()
*/
@Override
public long next()
{
return next(1);
}
/**
* @see Sequencer#next(int)
*/
@Override
public long next(int n)
{
if (n < 1)
{
throw new IllegalArgumentException("n must be > 0");
}
long nextValue = this.nextValue;
long nextSequence = nextValue + n;
long wrapPoint = nextSequence - bufferSize;
long cachedGatingSequence = this.cachedValue;
if (wrapPoint > cachedGatingSequence || cachedGatingSequence > nextValue)
{
cursor.setVolatile(nextValue); // StoreLoad fence
long minSequence;
while (wrapPoint > (minSequence = Util.getMinimumSequence(gatingSequences, nextValue)))
{
LockSupport.parkNanos(1L); // TODO: Use waitStrategy to spin?
}
this.cachedValue = minSequence;
}
this.nextValue = nextSequence;
return nextSequence;
}
/**
* @see Sequencer#tryNext()
*/
@Override
public long tryNext() throws InsufficientCapacityException
{
return tryNext(1);
}
/**
* @see Sequencer#tryNext(int)
*/
@Override
public long tryNext(int n) throws InsufficientCapacityException
{
if (n < 1)
{
throw new IllegalArgumentException("n must be > 0");
}
if (!hasAvailableCapacity(n, true))
{
throw InsufficientCapacityException.INSTANCE;
}
long nextSequence = this.nextValue += n;
return nextSequence;
}
/**
* @see Sequencer#remainingCapacity()
*/
@Override
public long remainingCapacity()
{
long nextValue = this.nextValue;
long consumed = Util.getMinimumSequence(gatingSequences, nextValue);
long produced = nextValue;
return getBufferSize() - (produced - consumed);
}
/**
* @see Sequencer#claim(long)
*/
@Override
public void claim(long sequence)
{
this.nextValue = sequence;
}
/**
* @see Sequencer#publish(long)
*/
@Override
public void publish(long sequence)
{
cursor.set(sequence);
waitStrategy.signalAllWhenBlocking();
}
/**
* @see Sequencer#publish(long, long)
*/
@Override
public void publish(long lo, long hi)
{
publish(hi);
}
/**
* @see Sequencer#isAvailable(long)
*/
@Override
public boolean isAvailable(long sequence)
{
return sequence <= cursor.get();
}
@Override
public long getHighestPublishedSequence(long lowerBound, long availableSequence)
{
return availableSequence;
}
}