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The Apache Cassandra Project develops a highly scalable second-generation distributed database, bringing together Dynamo's fully distributed design and Bigtable's ColumnFamily-based data model.
/*
* Licensed to the Apache Software Foundation (ASF) under one
* or more contributor license agreements. See the NOTICE file
* distributed with this work for additional information
* regarding copyright ownership. The ASF 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 org.apache.cassandra.utils;
import java.util.concurrent.ConcurrentNavigableMap;
import java.util.concurrent.ConcurrentSkipListMap;
import java.util.concurrent.TimeUnit;
import java.util.concurrent.atomic.AtomicInteger;
import java.util.concurrent.atomic.AtomicLong;
import java.util.concurrent.locks.ReadWriteLock;
import java.util.concurrent.locks.ReentrantReadWriteLock;
import com.google.common.annotations.VisibleForTesting;
import com.google.common.base.Preconditions;
/**
* Concurrent rate computation over a sliding time window.
*/
public class SlidingTimeRate
{
private final ConcurrentSkipListMap counters = new ConcurrentSkipListMap<>();
private final AtomicLong lastCounterTimestamp = new AtomicLong(0);
private final ReadWriteLock pruneLock = new ReentrantReadWriteLock();
private final long sizeInMillis;
private final long precisionInMillis;
private final TimeSource timeSource;
/**
* Creates a sliding rate whose time window is of the given size, with the given precision and time unit.
*
* The precision defines how accurate the rate computation is, as it will be computed over window size +/-
* precision.
*/
public SlidingTimeRate(TimeSource timeSource, long size, long precision, TimeUnit unit)
{
Preconditions.checkArgument(size > precision, "Size should be greater than precision.");
Preconditions.checkArgument(TimeUnit.MILLISECONDS.convert(precision, unit) >= 1, "Precision must be greater than or equal to 1 millisecond.");
this.sizeInMillis = TimeUnit.MILLISECONDS.convert(size, unit);
this.precisionInMillis = TimeUnit.MILLISECONDS.convert(precision, unit);
this.timeSource = timeSource;
}
/**
* Updates the rate.
*/
public void update(int delta)
{
pruneLock.readLock().lock();
try
{
while (true)
{
long now = timeSource.currentTimeMillis();
long lastTimestamp = lastCounterTimestamp.get();
boolean isWithinPrecisionRange = (now - lastTimestamp) < precisionInMillis;
AtomicInteger lastCounter = counters.get(lastTimestamp);
// If there's a valid counter for the current last timestamp, and we're in the precision range,
// update such counter:
if (lastCounter != null && isWithinPrecisionRange)
{
lastCounter.addAndGet(delta);
break;
}
// Else if there's no counter or we're past the precision range, try to create a new counter,
// but only the thread updating the last timestamp will create a new counter:
else if (lastCounterTimestamp.compareAndSet(lastTimestamp, now))
{
AtomicInteger existing = counters.putIfAbsent(now, new AtomicInteger(delta));
if (existing != null)
{
existing.addAndGet(delta);
}
break;
}
}
}
finally
{
pruneLock.readLock().unlock();
}
}
/**
* Gets the current rate in the given time unit from the beginning of the time window to the
* provided point in time ago.
*/
public double get(long toAgo, TimeUnit unit)
{
pruneLock.readLock().lock();
try
{
long toAgoInMillis = TimeUnit.MILLISECONDS.convert(toAgo, unit);
Preconditions.checkArgument(toAgoInMillis < sizeInMillis, "Cannot get rate in the past!");
long now = timeSource.currentTimeMillis();
long sum = 0;
ConcurrentNavigableMap tailCounters = counters
.tailMap(now - sizeInMillis, true)
.headMap(now - toAgoInMillis, true);
for (AtomicInteger i : tailCounters.values())
{
sum += i.get();
}
double rateInMillis = sum == 0
? sum
: sum / (double) Math.max(1000, (now - toAgoInMillis) - tailCounters.firstKey());
double multiplier = TimeUnit.MILLISECONDS.convert(1, unit);
return rateInMillis * multiplier;
}
finally
{
pruneLock.readLock().unlock();
}
}
/**
* Gets the current rate in the given time unit.
*/
public double get(TimeUnit unit)
{
return get(0, unit);
}
/**
* Prunes the time window of old unused updates.
*/
public void prune()
{
pruneLock.writeLock().lock();
try
{
long now = timeSource.currentTimeMillis();
counters.headMap(now - sizeInMillis, false).clear();
}
finally
{
pruneLock.writeLock().unlock();
}
}
@VisibleForTesting
public int size()
{
return counters.values().stream().reduce(new AtomicInteger(), (v1, v2) -> {
v1.addAndGet(v2.get());
return v1;
}).get();
}
}