/**
*
* 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.hadoop.hbase.regionserver;
import static org.junit.Assert.assertEquals;
import static org.junit.Assert.assertFalse;
import static org.junit.Assert.assertTrue;
import static org.junit.Assert.fail;
import java.lang.management.ManagementFactory;
import java.util.Iterator;
import org.apache.hadoop.conf.Configuration;
import org.apache.hadoop.hbase.CoordinatedStateManager;
import org.apache.hadoop.hbase.HBaseConfiguration;
import org.apache.hadoop.hbase.HConstants;
import org.apache.hadoop.hbase.Server;
import org.apache.hadoop.hbase.ServerName;
import org.apache.hadoop.hbase.testclassification.SmallTests;
import org.apache.hadoop.hbase.client.ClusterConnection;
import org.apache.hadoop.hbase.io.hfile.BlockCache;
import org.apache.hadoop.hbase.io.hfile.BlockCacheKey;
import org.apache.hadoop.hbase.io.hfile.CacheStats;
import org.apache.hadoop.hbase.io.hfile.Cacheable;
import org.apache.hadoop.hbase.io.hfile.CachedBlock;
import org.apache.hadoop.hbase.io.hfile.ResizableBlockCache;
import org.apache.hadoop.hbase.io.util.HeapMemorySizeUtil;
import org.apache.hadoop.hbase.regionserver.HeapMemoryManager.TunerContext;
import org.apache.hadoop.hbase.regionserver.HeapMemoryManager.TunerResult;
import org.apache.hadoop.hbase.zookeeper.MetaTableLocator;
import org.apache.hadoop.hbase.zookeeper.ZooKeeperWatcher;
import org.junit.Test;
import org.junit.experimental.categories.Category;
@Category(SmallTests.class)
public class TestHeapMemoryManager {
private long maxHeapSize = ManagementFactory.getMemoryMXBean().getHeapMemoryUsage().getMax();
@Test
public void testAutoTunerShouldBeOffWhenMaxMinRangesForMemstoreIsNotGiven() throws Exception {
Configuration conf = HBaseConfiguration.create();
conf.setFloat(HeapMemoryManager.BLOCK_CACHE_SIZE_MAX_RANGE_KEY, 0.75f);
conf.setFloat(HeapMemoryManager.BLOCK_CACHE_SIZE_MIN_RANGE_KEY, 0.05f);
HeapMemoryManager manager = new HeapMemoryManager(new BlockCacheStub(0),
new MemstoreFlusherStub(0), new RegionServerStub(conf));
assertFalse(manager.isTunerOn());
}
@Test
public void testAutoTunerShouldBeOffWhenMaxMinRangesForBlockCacheIsNotGiven() throws Exception {
Configuration conf = HBaseConfiguration.create();
conf.setFloat(HeapMemoryManager.MEMSTORE_SIZE_MAX_RANGE_KEY, 0.75f);
conf.setFloat(HeapMemoryManager.MEMSTORE_SIZE_MIN_RANGE_KEY, 0.05f);
HeapMemoryManager manager = new HeapMemoryManager(new BlockCacheStub(0),
new MemstoreFlusherStub(0), new RegionServerStub(conf));
assertFalse(manager.isTunerOn());
}
@Test
public void testWhenMemstoreAndBlockCacheMaxMinChecksFails() throws Exception {
BlockCacheStub blockCache = new BlockCacheStub(0);
MemstoreFlusherStub memStoreFlusher = new MemstoreFlusherStub(0);
Configuration conf = HBaseConfiguration.create();
conf.setFloat(HeapMemoryManager.MEMSTORE_SIZE_MAX_RANGE_KEY, 0.75f);
conf.setFloat(HeapMemoryManager.BLOCK_CACHE_SIZE_MIN_RANGE_KEY, 0.06f);
try {
new HeapMemoryManager(blockCache, memStoreFlusher, new RegionServerStub(conf));
fail();
} catch (RuntimeException e) {
}
conf = HBaseConfiguration.create();
conf.setFloat(HeapMemoryManager.MEMSTORE_SIZE_MIN_RANGE_KEY, 0.2f);
conf.setFloat(HeapMemoryManager.BLOCK_CACHE_SIZE_MAX_RANGE_KEY, 0.7f);
try {
new HeapMemoryManager(blockCache, memStoreFlusher, new RegionServerStub(conf));
fail();
} catch (RuntimeException e) {
}
}
@Test
public void testWhenClusterIsWriteHeavy() throws Exception {
BlockCacheStub blockCache = new BlockCacheStub((long) (maxHeapSize * 0.4));
MemstoreFlusherStub memStoreFlusher = new MemstoreFlusherStub((long) (maxHeapSize * 0.4));
Configuration conf = HBaseConfiguration.create();
conf.setFloat(HeapMemoryManager.MEMSTORE_SIZE_MAX_RANGE_KEY, 0.75f);
conf.setFloat(HeapMemoryManager.MEMSTORE_SIZE_MIN_RANGE_KEY, 0.10f);
conf.setFloat(HeapMemoryManager.BLOCK_CACHE_SIZE_MAX_RANGE_KEY, 0.7f);
conf.setFloat(HeapMemoryManager.BLOCK_CACHE_SIZE_MIN_RANGE_KEY, 0.05f);
conf.setLong(HeapMemoryManager.HBASE_RS_HEAP_MEMORY_TUNER_PERIOD, 1000);
// Let the system start with default values for memstore heap and block cache size.
HeapMemoryManager heapMemoryManager = new HeapMemoryManager(blockCache, memStoreFlusher,
new RegionServerStub(conf));
long oldMemstoreHeapSize = memStoreFlusher.memstoreSize;
long oldBlockCacheSize = blockCache.maxSize;
heapMemoryManager.start();
memStoreFlusher.flushType = FlushType.ABOVE_HIGHER_MARK;
memStoreFlusher.requestFlush(null);
memStoreFlusher.requestFlush(null);
memStoreFlusher.requestFlush(null);
memStoreFlusher.flushType = FlushType.ABOVE_LOWER_MARK;
memStoreFlusher.requestFlush(null);
Thread.sleep(1500); // Allow the tuner to run once and do necessary memory up
assertHeapSpaceDelta(DefaultHeapMemoryTuner.DEFAULT_STEP_VALUE, oldMemstoreHeapSize,
memStoreFlusher.memstoreSize);
assertHeapSpaceDelta(-(DefaultHeapMemoryTuner.DEFAULT_STEP_VALUE), oldBlockCacheSize,
blockCache.maxSize);
oldMemstoreHeapSize = memStoreFlusher.memstoreSize;
oldBlockCacheSize = blockCache.maxSize;
// Do some more flushes before the next run of HeapMemoryTuner
memStoreFlusher.flushType = FlushType.ABOVE_HIGHER_MARK;
memStoreFlusher.requestFlush(null);
memStoreFlusher.requestFlush(null);
Thread.sleep(1500);
assertHeapSpaceDelta(DefaultHeapMemoryTuner.DEFAULT_STEP_VALUE, oldMemstoreHeapSize,
memStoreFlusher.memstoreSize);
assertHeapSpaceDelta(-(DefaultHeapMemoryTuner.DEFAULT_STEP_VALUE), oldBlockCacheSize,
blockCache.maxSize);
}
@Test
public void testWhenClusterIsReadHeavy() throws Exception {
BlockCacheStub blockCache = new BlockCacheStub((long) (maxHeapSize * 0.4));
MemstoreFlusherStub memStoreFlusher = new MemstoreFlusherStub((long) (maxHeapSize * 0.4));
Configuration conf = HBaseConfiguration.create();
conf.setFloat(HeapMemoryManager.MEMSTORE_SIZE_MAX_RANGE_KEY, 0.75f);
conf.setFloat(HeapMemoryManager.MEMSTORE_SIZE_MIN_RANGE_KEY, 0.10f);
conf.setFloat(HeapMemoryManager.BLOCK_CACHE_SIZE_MAX_RANGE_KEY, 0.7f);
conf.setFloat(HeapMemoryManager.BLOCK_CACHE_SIZE_MIN_RANGE_KEY, 0.05f);
conf.setLong(HeapMemoryManager.HBASE_RS_HEAP_MEMORY_TUNER_PERIOD, 1000);
// Let the system start with default values for memstore heap and block cache size.
HeapMemoryManager heapMemoryManager = new HeapMemoryManager(blockCache, memStoreFlusher,
new RegionServerStub(conf));
long oldMemstoreHeapSize = memStoreFlusher.memstoreSize;
long oldBlockCacheSize = blockCache.maxSize;
heapMemoryManager.start();
blockCache.evictBlock(null);
blockCache.evictBlock(null);
blockCache.evictBlock(null);
Thread.sleep(1500); // Allow the tuner to run once and do necessary memory up
assertHeapSpaceDelta(-(DefaultHeapMemoryTuner.DEFAULT_STEP_VALUE), oldMemstoreHeapSize,
memStoreFlusher.memstoreSize);
assertHeapSpaceDelta(DefaultHeapMemoryTuner.DEFAULT_STEP_VALUE, oldBlockCacheSize,
blockCache.maxSize);
oldMemstoreHeapSize = memStoreFlusher.memstoreSize;
oldBlockCacheSize = blockCache.maxSize;
// Do some more evictions before the next run of HeapMemoryTuner
blockCache.evictBlock(null);
Thread.sleep(1500);
assertHeapSpaceDelta(-(DefaultHeapMemoryTuner.DEFAULT_STEP_VALUE), oldMemstoreHeapSize,
memStoreFlusher.memstoreSize);
assertHeapSpaceDelta(DefaultHeapMemoryTuner.DEFAULT_STEP_VALUE, oldBlockCacheSize,
blockCache.maxSize);
}
@Test
public void testPluggingInHeapMemoryTuner() throws Exception {
BlockCacheStub blockCache = new BlockCacheStub((long) (maxHeapSize * 0.4));
MemstoreFlusherStub memStoreFlusher = new MemstoreFlusherStub((long) (maxHeapSize * 0.4));
Configuration conf = HBaseConfiguration.create();
conf.setFloat(HeapMemoryManager.MEMSTORE_SIZE_MAX_RANGE_KEY, 0.78f);
conf.setFloat(HeapMemoryManager.MEMSTORE_SIZE_MIN_RANGE_KEY, 0.05f);
conf.setFloat(HeapMemoryManager.BLOCK_CACHE_SIZE_MAX_RANGE_KEY, 0.75f);
conf.setFloat(HeapMemoryManager.BLOCK_CACHE_SIZE_MIN_RANGE_KEY, 0.02f);
conf.setLong(HeapMemoryManager.HBASE_RS_HEAP_MEMORY_TUNER_PERIOD, 1000);
conf.setClass(HeapMemoryManager.HBASE_RS_HEAP_MEMORY_TUNER_CLASS, CustomHeapMemoryTuner.class,
HeapMemoryTuner.class);
// Let the system start with default values for memstore heap and block cache size.
HeapMemoryManager heapMemoryManager = new HeapMemoryManager(blockCache, memStoreFlusher,
new RegionServerStub(conf));
heapMemoryManager.start();
// Now we wants to be in write mode. Set bigger memstore size from CustomHeapMemoryTuner
CustomHeapMemoryTuner.memstoreSize = 0.78f;
CustomHeapMemoryTuner.blockCacheSize = 0.02f;
Thread.sleep(1500); // Allow the tuner to run once and do necessary memory up
assertHeapSpace(0.78f, memStoreFlusher.memstoreSize);// Memstore
assertHeapSpace(0.02f, blockCache.maxSize);// BlockCache
// Now we wants to be in read mode. Set bigger memstore size from CustomHeapMemoryTuner
CustomHeapMemoryTuner.blockCacheSize = 0.75f;
CustomHeapMemoryTuner.memstoreSize = 0.05f;
Thread.sleep(1500); // Allow the tuner to run once and do necessary memory up
assertHeapSpace(0.75f, blockCache.maxSize);// BlockCache
assertHeapSpace(0.05f, memStoreFlusher.memstoreSize);// Memstore
}
@Test
public void testWhenSizeGivenByHeapTunerGoesOutsideRange() throws Exception {
BlockCacheStub blockCache = new BlockCacheStub((long) (maxHeapSize * 0.4));
MemstoreFlusherStub memStoreFlusher = new MemstoreFlusherStub((long) (maxHeapSize * 0.4));
Configuration conf = HBaseConfiguration.create();
conf.setFloat(HeapMemoryManager.MEMSTORE_SIZE_MAX_RANGE_KEY, 0.7f);
conf.setFloat(HeapMemoryManager.MEMSTORE_SIZE_MIN_RANGE_KEY, 0.1f);
conf.setFloat(HeapMemoryManager.BLOCK_CACHE_SIZE_MAX_RANGE_KEY, 0.7f);
conf.setFloat(HeapMemoryManager.BLOCK_CACHE_SIZE_MIN_RANGE_KEY, 0.1f);
conf.setLong(HeapMemoryManager.HBASE_RS_HEAP_MEMORY_TUNER_PERIOD, 1000);
conf.setClass(HeapMemoryManager.HBASE_RS_HEAP_MEMORY_TUNER_CLASS, CustomHeapMemoryTuner.class,
HeapMemoryTuner.class);
HeapMemoryManager heapMemoryManager = new HeapMemoryManager(blockCache, memStoreFlusher,
new RegionServerStub(conf));
heapMemoryManager.start();
CustomHeapMemoryTuner.memstoreSize = 0.78f;
CustomHeapMemoryTuner.blockCacheSize = 0.02f;
Thread.sleep(1500); // Allow the tuner to run once and do necessary memory up
// Even if the tuner says to set the memstore to 78%, HBase makes it as 70% as that is the
// upper bound. Same with block cache as 10% is the lower bound.
assertHeapSpace(0.7f, memStoreFlusher.memstoreSize);
assertHeapSpace(0.1f, blockCache.maxSize);
}
@Test
public void testWhenCombinedHeapSizesFromTunerGoesOutSideMaxLimit() throws Exception {
BlockCacheStub blockCache = new BlockCacheStub((long) (maxHeapSize * 0.4));
MemstoreFlusherStub memStoreFlusher = new MemstoreFlusherStub((long) (maxHeapSize * 0.4));
Configuration conf = HBaseConfiguration.create();
conf.setFloat(HeapMemoryManager.MEMSTORE_SIZE_MAX_RANGE_KEY, 0.7f);
conf.setFloat(HeapMemoryManager.MEMSTORE_SIZE_MIN_RANGE_KEY, 0.1f);
conf.setFloat(HeapMemoryManager.BLOCK_CACHE_SIZE_MAX_RANGE_KEY, 0.7f);
conf.setFloat(HeapMemoryManager.BLOCK_CACHE_SIZE_MIN_RANGE_KEY, 0.1f);
conf.setLong(HeapMemoryManager.HBASE_RS_HEAP_MEMORY_TUNER_PERIOD, 1000);
conf.setClass(HeapMemoryManager.HBASE_RS_HEAP_MEMORY_TUNER_CLASS, CustomHeapMemoryTuner.class,
HeapMemoryTuner.class);
HeapMemoryManager heapMemoryManager = new HeapMemoryManager(blockCache, memStoreFlusher,
new RegionServerStub(conf));
long oldMemstoreSize = memStoreFlusher.memstoreSize;
long oldBlockCacheSize = blockCache.maxSize;
heapMemoryManager.start();
CustomHeapMemoryTuner.memstoreSize = 0.7f;
CustomHeapMemoryTuner.blockCacheSize = 0.3f;
Thread.sleep(1500);
assertEquals(oldMemstoreSize, memStoreFlusher.memstoreSize);
assertEquals(oldBlockCacheSize, blockCache.maxSize);
}
@Test
public void testWhenL2BlockCacheIsOnHeap() throws Exception {
HeapMemoryManager heapMemoryManager = null;
BlockCacheStub blockCache = new BlockCacheStub((long) (maxHeapSize * 0.4));
MemstoreFlusherStub memStoreFlusher = new MemstoreFlusherStub((long) (maxHeapSize * 0.3));
Configuration conf = HBaseConfiguration.create();
conf.setFloat(HeapMemoryManager.MEMSTORE_SIZE_MAX_RANGE_KEY, 0.7f);
conf.setFloat(HeapMemoryManager.MEMSTORE_SIZE_MIN_RANGE_KEY, 0.1f);
conf.setFloat(HeapMemoryManager.BLOCK_CACHE_SIZE_MAX_RANGE_KEY, 0.7f);
conf.setFloat(HeapMemoryManager.BLOCK_CACHE_SIZE_MIN_RANGE_KEY, 0.1f);
conf.setFloat(HeapMemorySizeUtil.MEMSTORE_SIZE_KEY, 0.4F);
conf.setFloat(HConstants.HFILE_BLOCK_CACHE_SIZE_KEY, 0.3F);
conf.setFloat(HConstants.BUCKET_CACHE_SIZE_KEY, 0.1F);
conf.set(HConstants.BUCKET_CACHE_IOENGINE_KEY, "heap");
conf.setLong(HeapMemoryManager.HBASE_RS_HEAP_MEMORY_TUNER_PERIOD, 1000);
conf.setClass(HeapMemoryManager.HBASE_RS_HEAP_MEMORY_TUNER_CLASS, CustomHeapMemoryTuner.class,
HeapMemoryTuner.class);
try {
heapMemoryManager = new HeapMemoryManager(blockCache, memStoreFlusher, new RegionServerStub(
conf));
fail("Should have failed as the collective heap memory need is above 80%");
} catch (Exception e) {
}
// Change the max/min ranges for memstore and bock cache so as to pass the criteria check
conf.setFloat(HeapMemoryManager.MEMSTORE_SIZE_MAX_RANGE_KEY, 0.6f);
conf.setFloat(HeapMemoryManager.BLOCK_CACHE_SIZE_MAX_RANGE_KEY, 0.6f);
heapMemoryManager = new HeapMemoryManager(blockCache, memStoreFlusher, new RegionServerStub(
conf));
long oldMemstoreSize = memStoreFlusher.memstoreSize;
long oldBlockCacheSize = blockCache.maxSize;
heapMemoryManager.start();
CustomHeapMemoryTuner.memstoreSize = 0.4f;
CustomHeapMemoryTuner.blockCacheSize = 0.4f;
Thread.sleep(1500);
// The size should not get changes as the collection of memstore size and L1 and L2 block cache
// size will cross the ax allowed 80% mark
assertEquals(oldMemstoreSize, memStoreFlusher.memstoreSize);
assertEquals(oldBlockCacheSize, blockCache.maxSize);
CustomHeapMemoryTuner.memstoreSize = 0.1f;
CustomHeapMemoryTuner.blockCacheSize = 0.5f;
Thread.sleep(1500);
assertHeapSpace(0.1f, memStoreFlusher.memstoreSize);
assertHeapSpace(0.5f, blockCache.maxSize);
}
private void assertHeapSpace(float expectedHeapPercentage, long currentHeapSpace) {
long expected = (long) (this.maxHeapSize * expectedHeapPercentage);
assertEquals(expected, currentHeapSpace);
}
private void assertHeapSpaceDelta(float expectedDeltaPercent, long oldHeapSpace, long newHeapSpace) {
long expctedMinDelta = (long) (this.maxHeapSize * expectedDeltaPercent);
if (expectedDeltaPercent > 0) {
assertTrue(expctedMinDelta <= (newHeapSpace - oldHeapSpace));
} else {
assertTrue(expctedMinDelta <= (oldHeapSpace - newHeapSpace));
}
}
private static class BlockCacheStub implements ResizableBlockCache {
CacheStats stats = new CacheStats("test");
long maxSize = 0;
public BlockCacheStub(long size){
this.maxSize = size;
}
@Override
public void cacheBlock(BlockCacheKey cacheKey, Cacheable buf, boolean inMemory,
boolean cacheDataInL1) {
}
@Override
public void cacheBlock(BlockCacheKey cacheKey, Cacheable buf) {
}
@Override
public Cacheable getBlock(BlockCacheKey cacheKey, boolean caching, boolean repeat,
boolean updateCacheMetrics) {
return null;
}
@Override
public boolean evictBlock(BlockCacheKey cacheKey) {
stats.evicted(0);
return false;
}
@Override
public int evictBlocksByHfileName(String hfileName) {
stats.evicted(0); // Just assuming only one block for file here.
return 0;
}
@Override
public CacheStats getStats() {
return this.stats;
}
@Override
public void shutdown() {
}
@Override
public long size() {
return 0;
}
@Override
public long getFreeSize() {
return 0;
}
@Override
public long getCurrentSize() {
return 0;
}
@Override
public long getBlockCount() {
return 0;
}
@Override
public void setMaxSize(long size) {
this.maxSize = size;
}
@Override
public Iterator<CachedBlock> iterator() {
return null;
}
@Override
public BlockCache[] getBlockCaches() {
return null;
}
}
private static class MemstoreFlusherStub implements FlushRequester {
long memstoreSize;
FlushRequestListener listener;
FlushType flushType = FlushType.NORMAL;
public MemstoreFlusherStub(long memstoreSize) {
this.memstoreSize = memstoreSize;
}
@Override
public void requestFlush(HRegion region) {
this.listener.flushRequested(flushType, region);
}
@Override
public void requestDelayedFlush(HRegion region, long delay) {
}
@Override
public void registerFlushRequestListener(FlushRequestListener listener) {
this.listener = listener;
}
@Override
public boolean unregisterFlushRequestListener(FlushRequestListener listener) {
return false;
}
@Override
public void setGlobalMemstoreLimit(long globalMemStoreSize) {
this.memstoreSize = globalMemStoreSize;
}
}
private static class RegionServerStub implements Server {
private Configuration conf;
private boolean stopped = false;
public RegionServerStub(Configuration conf) {
this.conf = conf;
}
@Override
public void abort(String why, Throwable e) {
}
@Override
public boolean isAborted() {
return false;
}
@Override
public void stop(String why) {
this.stopped = true;
}
@Override
public boolean isStopped() {
return this.stopped;
}
@Override
public Configuration getConfiguration() {
return this.conf;
}
@Override
public ZooKeeperWatcher getZooKeeper() {
return null;
}
@Override
public CoordinatedStateManager getCoordinatedStateManager() {
return null;
}
@Override
public ClusterConnection getConnection() {
return null;
}
@Override
public MetaTableLocator getMetaTableLocator() {
return null;
}
@Override
public ServerName getServerName() {
return ServerName.valueOf("server1",4000,12345);
}
}
static class CustomHeapMemoryTuner implements HeapMemoryTuner {
static float blockCacheSize = 0.4f;
static float memstoreSize = 0.4f;
@Override
public Configuration getConf() {
return null;
}
@Override
public void setConf(Configuration arg0) {
}
@Override
public TunerResult tune(TunerContext context) {
TunerResult result = new TunerResult(true);
result.setBlockCacheSize(blockCacheSize);
result.setMemstoreSize(memstoreSize);
return result;
}
}
}