/**
* 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.io.hfile;
import java.lang.management.ManagementFactory;
import java.lang.management.MemoryUsage;
import org.apache.commons.logging.Log;
import org.apache.commons.logging.LogFactory;
import org.apache.hadoop.conf.Configuration;
import org.apache.hadoop.hbase.HColumnDescriptor;
import org.apache.hadoop.hbase.HConstants;
import org.apache.hadoop.hbase.regionserver.StoreFile;
import org.apache.hadoop.hbase.util.DirectMemoryUtils;
import org.apache.hadoop.util.StringUtils;
import org.apache.hadoop.hbase.io.hfile.BlockType.BlockCategory;
/**
* Stores all of the cache objects and configuration for a single HFile.
*/
public class CacheConfig {
private static final Log LOG = LogFactory.getLog(CacheConfig.class.getName());
/**
* Configuration key to cache data blocks on write. There are separate
* switches for bloom blocks and non-root index blocks.
*/
public static final String CACHE_BLOCKS_ON_WRITE_KEY =
"hbase.rs.cacheblocksonwrite";
/**
* Configuration key to cache leaf and intermediate-level index blocks on
* write.
*/
public static final String CACHE_INDEX_BLOCKS_ON_WRITE_KEY =
"hfile.block.index.cacheonwrite";
/**
* Configuration key to cache compound bloom filter blocks on write.
*/
public static final String CACHE_BLOOM_BLOCKS_ON_WRITE_KEY =
"hfile.block.bloom.cacheonwrite";
/**
* TODO: Implement this (jgray)
* Configuration key to cache data blocks in compressed format.
*/
public static final String CACHE_DATA_BLOCKS_COMPRESSED_KEY =
"hbase.rs.blockcache.cachedatacompressed";
/**
* Configuration key to evict all blocks of a given file from the block cache
* when the file is closed.
*/
public static final String EVICT_BLOCKS_ON_CLOSE_KEY =
"hbase.rs.evictblocksonclose";
// Defaults
public static final boolean DEFAULT_CACHE_DATA_ON_READ = true;
public static final boolean DEFAULT_CACHE_DATA_ON_WRITE = false;
public static final boolean DEFAULT_IN_MEMORY = false;
public static final boolean DEFAULT_CACHE_INDEXES_ON_WRITE = false;
public static final boolean DEFAULT_CACHE_BLOOMS_ON_WRITE = false;
public static final boolean DEFAULT_EVICT_ON_CLOSE = false;
public static final boolean DEFAULT_COMPRESSED_CACHE = false;
/** Local reference to the block cache, null if completely disabled */
private final BlockCache blockCache;
/**
* Whether blocks should be cached on read (default is on if there is a
* cache but this can be turned off on a per-family or per-request basis)
*/
private boolean cacheDataOnRead;
/** Whether blocks should be flagged as in-memory when being cached */
private final boolean inMemory;
/** Whether data blocks should be cached when new files are written */
private boolean cacheDataOnWrite;
/** Whether index blocks should be cached when new files are written */
private final boolean cacheIndexesOnWrite;
/** Whether compound bloom filter blocks should be cached on write */
private final boolean cacheBloomsOnWrite;
/** Whether blocks of a file should be evicted when the file is closed */
private boolean evictOnClose;
/** Whether data blocks should be stored in compressed form in the cache */
private final boolean cacheCompressed;
/**
* Create a cache configuration using the specified configuration object and
* family descriptor.
* @param conf hbase configuration
* @param family column family configuration
*/
public CacheConfig(Configuration conf, HColumnDescriptor family) {
this(CacheConfig.instantiateBlockCache(conf),
family.isBlockCacheEnabled(), family.isInMemory(),
conf.getBoolean(CACHE_BLOCKS_ON_WRITE_KEY, DEFAULT_CACHE_DATA_ON_WRITE),
conf.getBoolean(CACHE_INDEX_BLOCKS_ON_WRITE_KEY,
DEFAULT_CACHE_INDEXES_ON_WRITE),
conf.getBoolean(CACHE_BLOOM_BLOCKS_ON_WRITE_KEY,
DEFAULT_CACHE_BLOOMS_ON_WRITE),
conf.getBoolean(EVICT_BLOCKS_ON_CLOSE_KEY, DEFAULT_EVICT_ON_CLOSE),
conf.getBoolean(CACHE_DATA_BLOCKS_COMPRESSED_KEY, DEFAULT_COMPRESSED_CACHE)
);
}
/**
* Create a cache configuration using the specified configuration object and
* defaults for family level settings.
* @param conf hbase configuration
*/
public CacheConfig(Configuration conf) {
this(CacheConfig.instantiateBlockCache(conf),
DEFAULT_CACHE_DATA_ON_READ,
DEFAULT_IN_MEMORY, // This is a family-level setting so can't be set
// strictly from conf
conf.getBoolean(CACHE_BLOCKS_ON_WRITE_KEY, DEFAULT_CACHE_DATA_ON_WRITE),
conf.getBoolean(CACHE_INDEX_BLOCKS_ON_WRITE_KEY,
DEFAULT_CACHE_INDEXES_ON_WRITE),
conf.getBoolean(CACHE_BLOOM_BLOCKS_ON_WRITE_KEY,
DEFAULT_CACHE_BLOOMS_ON_WRITE),
conf.getBoolean(EVICT_BLOCKS_ON_CLOSE_KEY, DEFAULT_EVICT_ON_CLOSE),
conf.getBoolean(CACHE_DATA_BLOCKS_COMPRESSED_KEY,
DEFAULT_COMPRESSED_CACHE)
);
}
/**
* Create a block cache configuration with the specified cache and
* configuration parameters.
* @param blockCache reference to block cache, null if completely disabled
* @param cacheDataOnRead whether data blocks should be cached on read
* @param inMemory whether blocks should be flagged as in-memory
* @param cacheDataOnWrite whether data blocks should be cached on write
* @param cacheIndexesOnWrite whether index blocks should be cached on write
* @param cacheBloomsOnWrite whether blooms should be cached on write
* @param evictOnClose whether blocks should be evicted when HFile is closed
* @param cacheCompressed whether to store blocks as compressed in the cache
*/
CacheConfig(final BlockCache blockCache,
final boolean cacheDataOnRead, final boolean inMemory,
final boolean cacheDataOnWrite, final boolean cacheIndexesOnWrite,
final boolean cacheBloomsOnWrite, final boolean evictOnClose,
final boolean cacheCompressed) {
this.blockCache = blockCache;
this.cacheDataOnRead = cacheDataOnRead;
this.inMemory = inMemory;
this.cacheDataOnWrite = cacheDataOnWrite;
this.cacheIndexesOnWrite = cacheIndexesOnWrite;
this.cacheBloomsOnWrite = cacheBloomsOnWrite;
this.evictOnClose = evictOnClose;
this.cacheCompressed = cacheCompressed;
}
/**
* Constructs a cache configuration copied from the specified configuration.
* @param cacheConf
*/
public CacheConfig(CacheConfig cacheConf) {
this(cacheConf.blockCache, cacheConf.cacheDataOnRead, cacheConf.inMemory,
cacheConf.cacheDataOnWrite, cacheConf.cacheIndexesOnWrite,
cacheConf.cacheBloomsOnWrite, cacheConf.evictOnClose,
cacheConf.cacheCompressed);
}
/**
* Checks whether the block cache is enabled.
*/
public boolean isBlockCacheEnabled() {
return this.blockCache != null;
}
/**
* Returns the block cache.
* @return the block cache, or null if caching is completely disabled
*/
public BlockCache getBlockCache() {
return this.blockCache;
}
/**
* Returns whether the blocks of this HFile should be cached on read or not.
* @return true if blocks should be cached on read, false if not
*/
public boolean shouldCacheDataOnRead() {
return isBlockCacheEnabled() && cacheDataOnRead;
}
/**
* Should we cache a block of a particular category? We always cache
* important blocks such as index blocks, as long as the block cache is
* available.
*/
public boolean shouldCacheBlockOnRead(BlockCategory category) {
boolean shouldCache = isBlockCacheEnabled()
&& (cacheDataOnRead ||
category == BlockCategory.INDEX ||
category == BlockCategory.BLOOM);
return shouldCache;
}
/**
* @return true if blocks in this file should be flagged as in-memory
*/
public boolean isInMemory() {
return isBlockCacheEnabled() && this.inMemory;
}
/**
* @return true if data blocks should be written to the cache when an HFile is
* written, false if not
*/
public boolean shouldCacheDataOnWrite() {
return isBlockCacheEnabled() && this.cacheDataOnWrite;
}
/**
* Only used for testing.
* @param cacheDataOnWrite whether data blocks should be written to the cache
* when an HFile is written
*/
public void forTestsOnly_setCacheDataOnWrite(boolean cacheDataOnWrite) {
this.cacheDataOnWrite = cacheDataOnWrite;
}
/**
* @return true if index blocks should be written to the cache when an HFile
* is written, false if not
*/
public boolean shouldCacheIndexesOnWrite() {
return isBlockCacheEnabled() && this.cacheIndexesOnWrite;
}
/**
* @return true if bloom blocks should be written to the cache when an HFile
* is written, false if not
*/
public boolean shouldCacheBloomsOnWrite() {
return isBlockCacheEnabled() && this.cacheBloomsOnWrite;
}
/**
* @return true if blocks should be evicted from the cache when an HFile
* reader is closed, false if not
*/
public boolean shouldEvictOnClose() {
return isBlockCacheEnabled() && this.evictOnClose;
}
/**
* Only used for testing.
* @param evictOnClose whether blocks should be evicted from the cache when an
* HFile reader is closed
*/
public void forTestsOnly_setEvictOnClose(boolean evictOnClose) {
this.evictOnClose = evictOnClose;
}
/**
* @return true if blocks should be compressed in the cache, false if not
*/
public boolean shouldCacheCompressed() {
return isBlockCacheEnabled() && this.cacheCompressed;
}
@Override
public String toString() {
if (!isBlockCacheEnabled()) {
return "CacheConfig:disabled";
}
return "CacheConfig:enabled " +
"[cacheDataOnRead=" + shouldCacheDataOnRead() + "] " +
"[cacheDataOnWrite=" + shouldCacheDataOnWrite() + "] " +
"[cacheIndexesOnWrite=" + shouldCacheIndexesOnWrite() + "] " +
"[cacheBloomsOnWrite=" + shouldCacheBloomsOnWrite() + "] " +
"[cacheEvictOnClose=" + shouldEvictOnClose() + "] " +
"[cacheCompressed=" + shouldCacheCompressed() + "]";
}
// Static block cache reference and methods
/**
* Static reference to the block cache, or null if no caching should be used
* at all.
*/
private static BlockCache globalBlockCache;
/** Boolean whether we have disabled the block cache entirely. */
private static boolean blockCacheDisabled = false;
/**
* Returns the block cache or <code>null</code> in case none should be used.
*
* @param conf The current configuration.
* @return The block cache or <code>null</code>.
*/
private static synchronized BlockCache instantiateBlockCache(
Configuration conf) {
if (globalBlockCache != null) return globalBlockCache;
if (blockCacheDisabled) return null;
float cachePercentage = conf.getFloat(HConstants.HFILE_BLOCK_CACHE_SIZE_KEY,
HConstants.HFILE_BLOCK_CACHE_SIZE_DEFAULT);
if (cachePercentage == 0L) {
blockCacheDisabled = true;
return null;
}
if (cachePercentage > 1.0) {
throw new IllegalArgumentException(HConstants.HFILE_BLOCK_CACHE_SIZE_KEY +
" must be between 0.0 and 1.0, and not > 1.0");
}
// Calculate the amount of heap to give the heap.
MemoryUsage mu = ManagementFactory.getMemoryMXBean().getHeapMemoryUsage();
long cacheSize = (long)(mu.getMax() * cachePercentage);
int blockSize = conf.getInt("hbase.offheapcache.minblocksize",
HFile.DEFAULT_BLOCKSIZE);
long offHeapCacheSize =
(long) (conf.getFloat("hbase.offheapcache.percentage", (float) 0) *
DirectMemoryUtils.getDirectMemorySize());
LOG.info("Allocating LruBlockCache with maximum size " +
StringUtils.humanReadableInt(cacheSize));
if (offHeapCacheSize <= 0) {
globalBlockCache = new LruBlockCache(cacheSize,
StoreFile.DEFAULT_BLOCKSIZE_SMALL);
} else {
globalBlockCache = new DoubleBlockCache(cacheSize, offHeapCacheSize,
StoreFile.DEFAULT_BLOCKSIZE_SMALL, blockSize, conf);
}
return globalBlockCache;
}
}