001/**
002 *
003 * Licensed to the Apache Software Foundation (ASF) under one
004 * or more contributor license agreements.  See the NOTICE file
005 * distributed with this work for additional information
006 * regarding copyright ownership.  The ASF licenses this file
007 * to you under the Apache License, Version 2.0 (the
008 * "License"); you may not use this file except in compliance
009 * with the License.  You may obtain a copy of the License at
010 *
011 *     http://www.apache.org/licenses/LICENSE-2.0
012 *
013 * Unless required by applicable law or agreed to in writing, software
014 * distributed under the License is distributed on an "AS IS" BASIS,
015 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
016 * See the License for the specific language governing permissions and
017 * limitations under the License.
018 */
019package org.apache.hadoop.hbase.regionserver;
020
021import static org.apache.hadoop.hbase.HConstants.HFILE_BLOCK_CACHE_SIZE_KEY;
022
023import java.lang.management.MemoryUsage;
024import java.util.ArrayList;
025import java.util.List;
026import java.util.concurrent.atomic.AtomicLong;
027
028import org.apache.hadoop.conf.Configuration;
029import org.apache.hadoop.hbase.ChoreService;
030import org.apache.hadoop.hbase.HConstants;
031import org.apache.hadoop.hbase.ScheduledChore;
032import org.apache.hadoop.hbase.Server;
033import org.apache.hadoop.hbase.io.hfile.BlockCache;
034import org.apache.hadoop.hbase.io.hfile.CombinedBlockCache;
035import org.apache.hadoop.hbase.io.hfile.ResizableBlockCache;
036import org.apache.hadoop.hbase.io.util.MemorySizeUtil;
037import org.apache.hadoop.util.ReflectionUtils;
038import org.apache.yetus.audience.InterfaceAudience;
039import org.slf4j.Logger;
040import org.slf4j.LoggerFactory;
041
042import org.apache.hbase.thirdparty.com.google.common.annotations.VisibleForTesting;
043
044/**
045 * Manages tuning of Heap memory using <code>HeapMemoryTuner</code>. Most part of the heap memory is
046 * split between Memstores and BlockCache. This manager helps in tuning sizes of both these
047 * dynamically, as per the R/W load on the servers.
048 */
049@InterfaceAudience.Private
050public class HeapMemoryManager {
051  private static final Logger LOG = LoggerFactory.getLogger(HeapMemoryManager.class);
052  private static final int CONVERT_TO_PERCENTAGE = 100;
053  private static final int CLUSTER_MINIMUM_MEMORY_THRESHOLD =
054    (int) (CONVERT_TO_PERCENTAGE * HConstants.HBASE_CLUSTER_MINIMUM_MEMORY_THRESHOLD);
055
056  public static final String BLOCK_CACHE_SIZE_MAX_RANGE_KEY = "hfile.block.cache.size.max.range";
057  public static final String BLOCK_CACHE_SIZE_MIN_RANGE_KEY = "hfile.block.cache.size.min.range";
058  public static final String MEMSTORE_SIZE_MAX_RANGE_KEY =
059      "hbase.regionserver.global.memstore.size.max.range";
060  public static final String MEMSTORE_SIZE_MIN_RANGE_KEY =
061      "hbase.regionserver.global.memstore.size.min.range";
062  public static final String HBASE_RS_HEAP_MEMORY_TUNER_PERIOD =
063      "hbase.regionserver.heapmemory.tuner.period";
064  public static final int HBASE_RS_HEAP_MEMORY_TUNER_DEFAULT_PERIOD = 60 * 1000;
065  public static final String HBASE_RS_HEAP_MEMORY_TUNER_CLASS =
066      "hbase.regionserver.heapmemory.tuner.class";
067
068  public static final float HEAP_OCCUPANCY_ERROR_VALUE = -0.0f;
069
070  private float globalMemStorePercent;
071  private float globalMemStorePercentMinRange;
072  private float globalMemStorePercentMaxRange;
073
074  private float blockCachePercent;
075  private float blockCachePercentMinRange;
076  private float blockCachePercentMaxRange;
077
078  private float heapOccupancyPercent;
079
080  private final ResizableBlockCache blockCache;
081  // TODO : remove this and mark regionServerAccounting as the observer directly
082  private final FlushRequester memStoreFlusher;
083  private final Server server;
084  private final RegionServerAccounting regionServerAccounting;
085
086  private HeapMemoryTunerChore heapMemTunerChore = null;
087  private final boolean tunerOn;
088  private final int defaultChorePeriod;
089  private final float heapOccupancyLowWatermark;
090
091  private final long maxHeapSize;
092  {
093    // note that this initialization still isn't threadsafe, because updating a long isn't atomic.
094    long tempMaxHeap = -1L;
095    try {
096      final MemoryUsage usage = MemorySizeUtil.safeGetHeapMemoryUsage();
097      if (usage != null) {
098        tempMaxHeap = usage.getMax();
099      }
100    } finally {
101      maxHeapSize = tempMaxHeap;
102    }
103  }
104
105  private MetricsHeapMemoryManager metricsHeapMemoryManager;
106
107  private List<HeapMemoryTuneObserver> tuneObservers = new ArrayList<>();
108
109  @VisibleForTesting
110  HeapMemoryManager(BlockCache blockCache, FlushRequester memStoreFlusher,
111                Server server, RegionServerAccounting regionServerAccounting) {
112    Configuration conf = server.getConfiguration();
113    this.blockCache = toResizableBlockCache(blockCache);
114    this.memStoreFlusher = memStoreFlusher;
115    this.server = server;
116    this.regionServerAccounting = regionServerAccounting;
117    this.tunerOn = doInit(conf);
118    this.defaultChorePeriod = conf.getInt(HBASE_RS_HEAP_MEMORY_TUNER_PERIOD,
119      HBASE_RS_HEAP_MEMORY_TUNER_DEFAULT_PERIOD);
120    this.heapOccupancyLowWatermark = conf.getFloat(HConstants.HEAP_OCCUPANCY_LOW_WATERMARK_KEY,
121      HConstants.DEFAULT_HEAP_OCCUPANCY_LOW_WATERMARK);
122    metricsHeapMemoryManager = new MetricsHeapMemoryManager();
123  }
124
125  private ResizableBlockCache toResizableBlockCache(BlockCache blockCache) {
126    if (blockCache instanceof CombinedBlockCache) {
127      return (ResizableBlockCache) ((CombinedBlockCache) blockCache).getOnHeapCache();
128    } else {
129      return (ResizableBlockCache) blockCache;
130    }
131  }
132
133  private boolean doInit(Configuration conf) {
134    boolean tuningEnabled = true;
135    globalMemStorePercent = MemorySizeUtil.getGlobalMemStoreHeapPercent(conf, false);
136    blockCachePercent = conf.getFloat(HFILE_BLOCK_CACHE_SIZE_KEY,
137        HConstants.HFILE_BLOCK_CACHE_SIZE_DEFAULT);
138    MemorySizeUtil.checkForClusterFreeHeapMemoryLimit(conf);
139    // Initialize max and min range for memstore heap space
140    globalMemStorePercentMinRange = conf.getFloat(MEMSTORE_SIZE_MIN_RANGE_KEY,
141        globalMemStorePercent);
142    globalMemStorePercentMaxRange = conf.getFloat(MEMSTORE_SIZE_MAX_RANGE_KEY,
143        globalMemStorePercent);
144    if (globalMemStorePercent < globalMemStorePercentMinRange) {
145      LOG.warn("Setting " + MEMSTORE_SIZE_MIN_RANGE_KEY + " to " + globalMemStorePercent
146          + ", same value as " + MemorySizeUtil.MEMSTORE_SIZE_KEY
147          + " because supplied value greater than initial memstore size value.");
148      globalMemStorePercentMinRange = globalMemStorePercent;
149      conf.setFloat(MEMSTORE_SIZE_MIN_RANGE_KEY, globalMemStorePercentMinRange);
150    }
151    if (globalMemStorePercent > globalMemStorePercentMaxRange) {
152      LOG.warn("Setting " + MEMSTORE_SIZE_MAX_RANGE_KEY + " to " + globalMemStorePercent
153          + ", same value as " + MemorySizeUtil.MEMSTORE_SIZE_KEY
154          + " because supplied value less than initial memstore size value.");
155      globalMemStorePercentMaxRange = globalMemStorePercent;
156      conf.setFloat(MEMSTORE_SIZE_MAX_RANGE_KEY, globalMemStorePercentMaxRange);
157    }
158    if (globalMemStorePercent == globalMemStorePercentMinRange
159        && globalMemStorePercent == globalMemStorePercentMaxRange) {
160      tuningEnabled = false;
161    }
162    // Initialize max and min range for block cache
163    blockCachePercentMinRange = conf.getFloat(BLOCK_CACHE_SIZE_MIN_RANGE_KEY, blockCachePercent);
164    blockCachePercentMaxRange = conf.getFloat(BLOCK_CACHE_SIZE_MAX_RANGE_KEY, blockCachePercent);
165    if (blockCachePercent < blockCachePercentMinRange) {
166      LOG.warn("Setting " + BLOCK_CACHE_SIZE_MIN_RANGE_KEY + " to " + blockCachePercent
167          + ", same value as " + HFILE_BLOCK_CACHE_SIZE_KEY
168          + " because supplied value greater than initial block cache size.");
169      blockCachePercentMinRange = blockCachePercent;
170      conf.setFloat(BLOCK_CACHE_SIZE_MIN_RANGE_KEY, blockCachePercentMinRange);
171    }
172    if (blockCachePercent > blockCachePercentMaxRange) {
173      LOG.warn("Setting " + BLOCK_CACHE_SIZE_MAX_RANGE_KEY + " to " + blockCachePercent
174          + ", same value as " + HFILE_BLOCK_CACHE_SIZE_KEY
175          + " because supplied value less than initial block cache size.");
176      blockCachePercentMaxRange = blockCachePercent;
177      conf.setFloat(BLOCK_CACHE_SIZE_MAX_RANGE_KEY, blockCachePercentMaxRange);
178    }
179    if (tuningEnabled && blockCachePercent == blockCachePercentMinRange
180        && blockCachePercent == blockCachePercentMaxRange) {
181      tuningEnabled = false;
182    }
183
184    int gml = (int) (globalMemStorePercentMaxRange * CONVERT_TO_PERCENTAGE);
185    int bcul = (int) ((blockCachePercentMinRange) * CONVERT_TO_PERCENTAGE);
186    if (CONVERT_TO_PERCENTAGE - (gml + bcul) < CLUSTER_MINIMUM_MEMORY_THRESHOLD) {
187      throw new RuntimeException("Current heap configuration for MemStore and BlockCache exceeds "
188          + "the threshold required for successful cluster operation. "
189          + "The combined value cannot exceed 0.8. Please check the settings for "
190          + MEMSTORE_SIZE_MAX_RANGE_KEY + " and " + BLOCK_CACHE_SIZE_MIN_RANGE_KEY
191          + " in your configuration. " + MEMSTORE_SIZE_MAX_RANGE_KEY + " is "
192          + globalMemStorePercentMaxRange + " and " + BLOCK_CACHE_SIZE_MIN_RANGE_KEY + " is "
193          + blockCachePercentMinRange);
194    }
195    gml = (int) (globalMemStorePercentMinRange * CONVERT_TO_PERCENTAGE);
196    bcul = (int) ((blockCachePercentMaxRange) * CONVERT_TO_PERCENTAGE);
197    if (CONVERT_TO_PERCENTAGE - (gml + bcul) < CLUSTER_MINIMUM_MEMORY_THRESHOLD) {
198      throw new RuntimeException("Current heap configuration for MemStore and BlockCache exceeds "
199          + "the threshold required for successful cluster operation. "
200          + "The combined value cannot exceed 0.8. Please check the settings for "
201          + MEMSTORE_SIZE_MIN_RANGE_KEY + " and " + BLOCK_CACHE_SIZE_MAX_RANGE_KEY
202          + " in your configuration. " + MEMSTORE_SIZE_MIN_RANGE_KEY + " is "
203          + globalMemStorePercentMinRange + " and " + BLOCK_CACHE_SIZE_MAX_RANGE_KEY + " is "
204          + blockCachePercentMaxRange);
205    }
206    return tuningEnabled;
207  }
208
209  public void start(ChoreService service) {
210    LOG.info("Starting, tuneOn={}", this.tunerOn);
211    this.heapMemTunerChore = new HeapMemoryTunerChore();
212    service.scheduleChore(heapMemTunerChore);
213    if (tunerOn) {
214      // Register HeapMemoryTuner as a memstore flush listener
215      memStoreFlusher.registerFlushRequestListener(heapMemTunerChore);
216    }
217  }
218
219  public void stop() {
220    // The thread is Daemon. Just interrupting the ongoing process.
221    LOG.info("Stopping");
222    this.heapMemTunerChore.cancel(true);
223  }
224
225  public void registerTuneObserver(HeapMemoryTuneObserver observer) {
226    this.tuneObservers.add(observer);
227  }
228
229  // Used by the test cases.
230  boolean isTunerOn() {
231    return this.tunerOn;
232  }
233
234  /**
235   * @return heap occupancy percentage, 0 &lt;= n &lt;= 1. or -0.0 for error asking JVM
236   */
237  public float getHeapOccupancyPercent() {
238    return this.heapOccupancyPercent == Float.MAX_VALUE ? HEAP_OCCUPANCY_ERROR_VALUE : this.heapOccupancyPercent;
239  }
240
241  private class HeapMemoryTunerChore extends ScheduledChore implements FlushRequestListener {
242    private HeapMemoryTuner heapMemTuner;
243    private AtomicLong blockedFlushCount = new AtomicLong();
244    private AtomicLong unblockedFlushCount = new AtomicLong();
245    private long evictCount = 0L;
246    private long cacheMissCount = 0L;
247    private TunerContext tunerContext = new TunerContext();
248    private boolean alarming = false;
249
250    public HeapMemoryTunerChore() {
251      super(server.getServerName() + "-HeapMemoryTunerChore", server, defaultChorePeriod);
252      Class<? extends HeapMemoryTuner> tunerKlass = server.getConfiguration().getClass(
253          HBASE_RS_HEAP_MEMORY_TUNER_CLASS, DefaultHeapMemoryTuner.class, HeapMemoryTuner.class);
254      heapMemTuner = ReflectionUtils.newInstance(tunerKlass, server.getConfiguration());
255      tunerContext
256          .setOffheapMemStore(regionServerAccounting.isOffheap());
257    }
258
259    @Override
260    protected void chore() {
261      // Sample heap occupancy
262      final MemoryUsage usage = MemorySizeUtil.safeGetHeapMemoryUsage();
263      if (usage != null) {
264        heapOccupancyPercent = (float)usage.getUsed() / (float)usage.getCommitted();
265      } else {
266        // previously, an exception would have meant death for the tuning chore
267        // so switch to alarming so that we similarly stop tuning until we get
268        // heap usage information again.
269        heapOccupancyPercent = Float.MAX_VALUE;
270      }
271      // If we are above the heap occupancy alarm low watermark, switch to short
272      // sleeps for close monitoring. Stop autotuning, we are in a danger zone.
273      if (heapOccupancyPercent >= heapOccupancyLowWatermark) {
274        if (!alarming) {
275          LOG.warn("heapOccupancyPercent " + heapOccupancyPercent +
276            " is above heap occupancy alarm watermark (" + heapOccupancyLowWatermark + ")");
277          alarming = true;
278        }
279        metricsHeapMemoryManager.increaseAboveHeapOccupancyLowWatermarkCounter();
280        triggerNow();
281        try {
282          // Need to sleep ourselves since we've told the chore's sleeper
283          // to skip the next sleep cycle.
284          Thread.sleep(1000);
285        } catch (InterruptedException e) {
286          // Interrupted, propagate
287          Thread.currentThread().interrupt();
288        }
289      } else {
290        if (alarming) {
291          LOG.info("heapOccupancyPercent " + heapOccupancyPercent +
292            " is now below the heap occupancy alarm watermark (" +
293            heapOccupancyLowWatermark + ")");
294          alarming = false;
295        }
296      }
297      // Autotune if tuning is enabled and allowed
298      if (tunerOn && !alarming) {
299        tune();
300      }
301    }
302
303    private void tune() {
304      // TODO check if we can increase the memory boundaries
305      // while remaining in the limits
306      long curEvictCount;
307      long curCacheMisCount;
308      long blockedFlushCnt;
309      long unblockedFlushCnt;
310      curEvictCount = blockCache.getStats().getEvictedCount();
311      tunerContext.setEvictCount(curEvictCount - evictCount);
312      evictCount = curEvictCount;
313      curCacheMisCount = blockCache.getStats().getMissCachingCount();
314      tunerContext.setCacheMissCount(curCacheMisCount-cacheMissCount);
315      cacheMissCount = curCacheMisCount;
316      blockedFlushCnt = blockedFlushCount.getAndSet(0);
317      tunerContext.setBlockedFlushCount(blockedFlushCnt);
318      metricsHeapMemoryManager.updateBlockedFlushCount(blockedFlushCnt);
319      unblockedFlushCnt = unblockedFlushCount.getAndSet(0);
320      tunerContext.setUnblockedFlushCount(unblockedFlushCnt);
321      metricsHeapMemoryManager.updateUnblockedFlushCount(unblockedFlushCnt);
322      // TODO : add support for offheap metrics
323      tunerContext.setCurBlockCacheUsed((float) blockCache.getCurrentSize() / maxHeapSize);
324      metricsHeapMemoryManager.setCurBlockCacheSizeGauge(blockCache.getCurrentSize());
325      long globalMemstoreHeapSize = regionServerAccounting.getGlobalMemStoreHeapSize();
326      tunerContext.setCurMemStoreUsed((float) globalMemstoreHeapSize / maxHeapSize);
327      metricsHeapMemoryManager.setCurMemStoreSizeGauge(globalMemstoreHeapSize);
328      tunerContext.setCurBlockCacheSize(blockCachePercent);
329      tunerContext.setCurMemStoreSize(globalMemStorePercent);
330      TunerResult result = null;
331      try {
332        result = this.heapMemTuner.tune(tunerContext);
333      } catch (Throwable t) {
334        LOG.error("Exception thrown from the HeapMemoryTuner implementation", t);
335      }
336      if (result != null && result.needsTuning()) {
337        float memstoreSize = result.getMemStoreSize();
338        float blockCacheSize = result.getBlockCacheSize();
339        LOG.debug("From HeapMemoryTuner new memstoreSize: " + memstoreSize
340            + ". new blockCacheSize: " + blockCacheSize);
341        if (memstoreSize < globalMemStorePercentMinRange) {
342          LOG.info("New memstoreSize from HeapMemoryTuner " + memstoreSize + " is below min level "
343              + globalMemStorePercentMinRange + ". Resetting memstoreSize to min size");
344          memstoreSize = globalMemStorePercentMinRange;
345        } else if (memstoreSize > globalMemStorePercentMaxRange) {
346          LOG.info("New memstoreSize from HeapMemoryTuner " + memstoreSize + " is above max level "
347              + globalMemStorePercentMaxRange + ". Resetting memstoreSize to max size");
348          memstoreSize = globalMemStorePercentMaxRange;
349        }
350        if (blockCacheSize < blockCachePercentMinRange) {
351          LOG.info("New blockCacheSize from HeapMemoryTuner " + blockCacheSize
352              + " is below min level " + blockCachePercentMinRange
353              + ". Resetting blockCacheSize to min size");
354          blockCacheSize = blockCachePercentMinRange;
355        } else if (blockCacheSize > blockCachePercentMaxRange) {
356          LOG.info("New blockCacheSize from HeapMemoryTuner " + blockCacheSize
357              + " is above max level " + blockCachePercentMaxRange
358              + ". Resetting blockCacheSize to min size");
359          blockCacheSize = blockCachePercentMaxRange;
360        }
361        int gml = (int) (memstoreSize * CONVERT_TO_PERCENTAGE);
362        int bcul = (int) ((blockCacheSize) * CONVERT_TO_PERCENTAGE);
363        if (CONVERT_TO_PERCENTAGE - (gml + bcul) < CLUSTER_MINIMUM_MEMORY_THRESHOLD) {
364          LOG.info("Current heap configuration from HeapMemoryTuner exceeds "
365              + "the threshold required for successful cluster operation. "
366              + "The combined value cannot exceed 0.8. " + MemorySizeUtil.MEMSTORE_SIZE_KEY
367              + " is " + memstoreSize + " and " + HFILE_BLOCK_CACHE_SIZE_KEY + " is "
368              + blockCacheSize);
369          // TODO can adjust the value so as not exceed 80%. Is that correct? may be.
370        } else {
371          int memStoreDeltaSize =
372              (int) ((memstoreSize - globalMemStorePercent) * CONVERT_TO_PERCENTAGE);
373          int blockCacheDeltaSize =
374              (int) ((blockCacheSize - blockCachePercent) * CONVERT_TO_PERCENTAGE);
375          metricsHeapMemoryManager.updateMemStoreDeltaSizeHistogram(memStoreDeltaSize);
376          metricsHeapMemoryManager.updateBlockCacheDeltaSizeHistogram(blockCacheDeltaSize);
377          long newBlockCacheSize = (long) (maxHeapSize * blockCacheSize);
378          // we could have got an increase or decrease in size for the offheap memstore
379          // also if the flush had happened due to heap overhead. In that case it is ok
380          // to adjust the onheap memstore limit configs
381          long newMemstoreSize = (long) (maxHeapSize * memstoreSize);
382          LOG.info("Setting block cache heap size to " + newBlockCacheSize
383              + " and memstore heap size to " + newMemstoreSize);
384          blockCachePercent = blockCacheSize;
385          blockCache.setMaxSize(newBlockCacheSize);
386          globalMemStorePercent = memstoreSize;
387          // Internally sets it to RegionServerAccounting
388          // TODO : Set directly on RSAccounting??
389          memStoreFlusher.setGlobalMemStoreLimit(newMemstoreSize);
390          for (HeapMemoryTuneObserver observer : tuneObservers) {
391            // Risky.. If this newMemstoreSize decreases we reduce the count in offheap chunk pool
392            observer.onHeapMemoryTune(newMemstoreSize, newBlockCacheSize);
393          }
394        }
395      } else {
396        metricsHeapMemoryManager.increaseTunerDoNothingCounter();
397        if (LOG.isDebugEnabled()) {
398          LOG.debug("No changes made by HeapMemoryTuner.");
399        }
400      }
401    }
402
403    @Override
404    public void flushRequested(FlushType type, Region region) {
405      switch (type) {
406      case ABOVE_ONHEAP_HIGHER_MARK:
407        blockedFlushCount.incrementAndGet();
408        break;
409      case ABOVE_ONHEAP_LOWER_MARK:
410        unblockedFlushCount.incrementAndGet();
411        break;
412      // Removed the counting of the offheap related flushes (after reviews). Will add later if
413      // needed
414      default:
415        // In case of any other flush don't do any action.
416        break;
417      }
418    }
419  }
420
421  /**
422   * POJO to pass all the relevant information required to do the heap memory tuning. It holds the
423   * flush counts and block cache evictions happened within the interval. Also holds the current
424   * heap percentage allocated for memstore and block cache.
425   */
426  public static final class TunerContext {
427    private long blockedFlushCount;
428    private long unblockedFlushCount;
429    private long evictCount;
430    private long cacheMissCount;
431    private float curBlockCacheUsed;
432    private float curMemStoreUsed;
433    private float curMemStoreSize;
434    private float curBlockCacheSize;
435    private boolean offheapMemstore;
436
437    public long getBlockedFlushCount() {
438      return blockedFlushCount;
439    }
440
441    public void setBlockedFlushCount(long blockedFlushCount) {
442      this.blockedFlushCount = blockedFlushCount;
443    }
444
445    public long getUnblockedFlushCount() {
446      return unblockedFlushCount;
447    }
448
449    public void setUnblockedFlushCount(long unblockedFlushCount) {
450      this.unblockedFlushCount = unblockedFlushCount;
451    }
452
453    public long getEvictCount() {
454      return evictCount;
455    }
456
457    public void setEvictCount(long evictCount) {
458      this.evictCount = evictCount;
459    }
460
461    public float getCurMemStoreSize() {
462      return curMemStoreSize;
463    }
464
465    public void setCurMemStoreSize(float curMemStoreSize) {
466      this.curMemStoreSize = curMemStoreSize;
467    }
468
469    public float getCurBlockCacheSize() {
470      return curBlockCacheSize;
471    }
472
473    public void setCurBlockCacheSize(float curBlockCacheSize) {
474      this.curBlockCacheSize = curBlockCacheSize;
475    }
476
477    public long getCacheMissCount() {
478      return cacheMissCount;
479    }
480
481    public void setCacheMissCount(long cacheMissCount) {
482      this.cacheMissCount = cacheMissCount;
483    }
484
485    public float getCurBlockCacheUsed() {
486      return curBlockCacheUsed;
487    }
488
489    public void setCurBlockCacheUsed(float curBlockCacheUsed) {
490      this.curBlockCacheUsed = curBlockCacheUsed;
491    }
492
493    public float getCurMemStoreUsed() {
494      return curMemStoreUsed;
495    }
496
497    public void setCurMemStoreUsed(float d) {
498        this.curMemStoreUsed = d;
499    }
500
501    public void setOffheapMemStore(boolean offheapMemstore) {
502      this.offheapMemstore = offheapMemstore;
503    }
504
505    public boolean isOffheapMemStore() {
506      return this.offheapMemstore;
507    }
508  }
509
510  /**
511   * POJO which holds the result of memory tuning done by HeapMemoryTuner implementation.
512   * It includes the new heap percentage for memstore and block cache.
513   */
514  public static final class TunerResult {
515    private float memstoreSize;
516    private float blockCacheSize;
517    private final boolean needsTuning;
518
519    public TunerResult(boolean needsTuning) {
520      this.needsTuning = needsTuning;
521    }
522
523    public float getMemStoreSize() {
524      return memstoreSize;
525    }
526
527    public void setMemStoreSize(float memstoreSize) {
528      this.memstoreSize = memstoreSize;
529    }
530
531    public float getBlockCacheSize() {
532      return blockCacheSize;
533    }
534
535    public void setBlockCacheSize(float blockCacheSize) {
536      this.blockCacheSize = blockCacheSize;
537    }
538
539    public boolean needsTuning() {
540      return needsTuning;
541    }
542  }
543
544  /**
545   * Every class that wants to observe heap memory tune actions must implement this interface.
546   */
547  public static interface HeapMemoryTuneObserver {
548
549    /**
550     * This method would be called by HeapMemoryManger when a heap memory tune action took place.
551     * @param newMemstoreSize The newly calculated global memstore size
552     * @param newBlockCacheSize The newly calculated global blockcache size
553     */
554    void onHeapMemoryTune(long newMemstoreSize, long newBlockCacheSize);
555  }
556}