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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.TimeUnit;

/**
 * 

Phased wait strategy for waiting {@link EventProcessor}s on a barrier.

* *

This strategy can be used when throughput and low-latency are not as important as CPU resource. * Spins, then yields, then waits using the configured fallback WaitStrategy.

*/ public final class PhasedBackoffWaitStrategy implements WaitStrategy { private static final int SPIN_TRIES = 10000; private final long spinTimeoutNanos; private final long yieldTimeoutNanos; private final WaitStrategy fallbackStrategy; public PhasedBackoffWaitStrategy( long spinTimeout, long yieldTimeout, TimeUnit units, WaitStrategy fallbackStrategy) { this.spinTimeoutNanos = units.toNanos(spinTimeout); this.yieldTimeoutNanos = spinTimeoutNanos + units.toNanos(yieldTimeout); this.fallbackStrategy = fallbackStrategy; } /** * Construct {@link PhasedBackoffWaitStrategy} with fallback to {@link BlockingWaitStrategy} * * @param spinTimeout The maximum time in to busy spin for. * @param yieldTimeout The maximum time in to yield for. * @param units Time units used for the timeout values. * @return The constructed wait strategy. */ public static PhasedBackoffWaitStrategy withLock( long spinTimeout, long yieldTimeout, TimeUnit units) { return new PhasedBackoffWaitStrategy( spinTimeout, yieldTimeout, units, new BlockingWaitStrategy()); } /** * Construct {@link PhasedBackoffWaitStrategy} with fallback to {@link LiteBlockingWaitStrategy} * * @param spinTimeout The maximum time in to busy spin for. * @param yieldTimeout The maximum time in to yield for. * @param units Time units used for the timeout values. * @return The constructed wait strategy. */ public static PhasedBackoffWaitStrategy withLiteLock( long spinTimeout, long yieldTimeout, TimeUnit units) { return new PhasedBackoffWaitStrategy( spinTimeout, yieldTimeout, units, new LiteBlockingWaitStrategy()); } /** * Construct {@link PhasedBackoffWaitStrategy} with fallback to {@link SleepingWaitStrategy} * * @param spinTimeout The maximum time in to busy spin for. * @param yieldTimeout The maximum time in to yield for. * @param units Time units used for the timeout values. * @return The constructed wait strategy. */ public static PhasedBackoffWaitStrategy withSleep( long spinTimeout, long yieldTimeout, TimeUnit units) { return new PhasedBackoffWaitStrategy( spinTimeout, yieldTimeout, units, new SleepingWaitStrategy(0)); } @Override public long waitFor(long sequence, Sequence cursor, Sequence dependentSequence, SequenceBarrier barrier) throws AlertException, InterruptedException, TimeoutException { long availableSequence; long startTime = 0; int counter = SPIN_TRIES; do { if ((availableSequence = dependentSequence.get()) >= sequence) { return availableSequence; } if (0 == --counter) { if (0 == startTime) { startTime = System.nanoTime(); } else { long timeDelta = System.nanoTime() - startTime; if (timeDelta > yieldTimeoutNanos) { return fallbackStrategy.waitFor(sequence, cursor, dependentSequence, barrier); } else if (timeDelta > spinTimeoutNanos) { Thread.yield(); } } counter = SPIN_TRIES; } } while (true); } @Override public void signalAllWhenBlocking() { fallbackStrategy.signalAllWhenBlocking(); } }




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