/*
*
* 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 static org.junit.Assert.assertEquals;
import static org.junit.Assert.assertNull;
import static org.junit.Assert.assertFalse;
import static org.junit.Assert.assertTrue;
import java.io.IOException;
import java.util.ArrayList;
import java.util.Collection;
import java.util.EnumMap;
import java.util.List;
import java.util.Map;
import java.util.Random;
import org.apache.commons.logging.Log;
import org.apache.commons.logging.LogFactory;
import org.apache.hadoop.conf.Configuration;
import org.apache.hadoop.fs.FileSystem;
import org.apache.hadoop.fs.Path;
import org.apache.hadoop.hbase.Cell;
import org.apache.hadoop.hbase.HBaseTestingUtility;
import org.apache.hadoop.hbase.HColumnDescriptor;
import org.apache.hadoop.hbase.HConstants;
import org.apache.hadoop.hbase.KeyValue;
import org.apache.hadoop.hbase.testclassification.MediumTests;
import org.apache.hadoop.hbase.Tag;
import org.apache.hadoop.hbase.client.Durability;
import org.apache.hadoop.hbase.client.Put;
import org.apache.hadoop.hbase.fs.HFileSystem;
import org.apache.hadoop.hbase.io.compress.Compression;
import org.apache.hadoop.hbase.io.encoding.DataBlockEncoding;
import org.apache.hadoop.hbase.io.hfile.bucket.BucketCache;
import org.apache.hadoop.hbase.regionserver.BloomType;
import org.apache.hadoop.hbase.regionserver.HRegion;
import org.apache.hadoop.hbase.regionserver.StoreFile;
import org.apache.hadoop.hbase.util.BloomFilterFactory;
import org.apache.hadoop.hbase.util.Bytes;
import org.apache.hadoop.hbase.util.ChecksumType;
import org.apache.hadoop.hbase.util.EnvironmentEdgeManager;
import org.junit.After;
import org.junit.Before;
import org.junit.Test;
import org.junit.experimental.categories.Category;
import org.junit.runner.RunWith;
import org.junit.runners.Parameterized;
import org.junit.runners.Parameterized.Parameters;
/**
* Tests {@link HFile} cache-on-write functionality for the following block
* types: data blocks, non-root index blocks, and Bloom filter blocks.
*/
@RunWith(Parameterized.class)
@Category(MediumTests.class)
public class TestCacheOnWrite {
private static final Log LOG = LogFactory.getLog(TestCacheOnWrite.class);
private static final HBaseTestingUtility TEST_UTIL = HBaseTestingUtility.createLocalHTU();
private Configuration conf;
private CacheConfig cacheConf;
private FileSystem fs;
private Random rand = new Random(12983177L);
private Path storeFilePath;
private BlockCache blockCache;
private String testDescription;
private final CacheOnWriteType cowType;
private final Compression.Algorithm compress;
private final BlockEncoderTestType encoderType;
private final HFileDataBlockEncoder encoder;
private final boolean cacheCompressedData;
private static final int DATA_BLOCK_SIZE = 2048;
private static final int NUM_KV = 25000;
private static final int INDEX_BLOCK_SIZE = 512;
private static final int BLOOM_BLOCK_SIZE = 4096;
private static final BloomType BLOOM_TYPE = BloomType.ROWCOL;
private static final int CKBYTES = 512;
/** The number of valid key types possible in a store file */
private static final int NUM_VALID_KEY_TYPES =
KeyValue.Type.values().length - 2;
private static enum CacheOnWriteType {
DATA_BLOCKS(CacheConfig.CACHE_BLOCKS_ON_WRITE_KEY,
BlockType.DATA, BlockType.ENCODED_DATA),
BLOOM_BLOCKS(CacheConfig.CACHE_BLOOM_BLOCKS_ON_WRITE_KEY,
BlockType.BLOOM_CHUNK),
INDEX_BLOCKS(CacheConfig.CACHE_INDEX_BLOCKS_ON_WRITE_KEY,
BlockType.LEAF_INDEX, BlockType.INTERMEDIATE_INDEX);
private final String confKey;
private final BlockType blockType1;
private final BlockType blockType2;
private CacheOnWriteType(String confKey, BlockType blockType) {
this(confKey, blockType, blockType);
}
private CacheOnWriteType(String confKey, BlockType blockType1,
BlockType blockType2) {
this.blockType1 = blockType1;
this.blockType2 = blockType2;
this.confKey = confKey;
}
public boolean shouldBeCached(BlockType blockType) {
return blockType == blockType1 || blockType == blockType2;
}
public void modifyConf(Configuration conf) {
for (CacheOnWriteType cowType : CacheOnWriteType.values()) {
conf.setBoolean(cowType.confKey, cowType == this);
}
}
}
private static final DataBlockEncoding ENCODING_ALGO =
DataBlockEncoding.PREFIX;
/** Provides fancy names for three combinations of two booleans */
private static enum BlockEncoderTestType {
NO_BLOCK_ENCODING_NOOP(true, false),
NO_BLOCK_ENCODING(false, false),
BLOCK_ENCODING_EVERYWHERE(false, true);
private final boolean noop;
private final boolean encode;
BlockEncoderTestType(boolean noop, boolean encode) {
this.encode = encode;
this.noop = noop;
}
public HFileDataBlockEncoder getEncoder() {
return noop ? NoOpDataBlockEncoder.INSTANCE : new HFileDataBlockEncoderImpl(
encode ? ENCODING_ALGO : DataBlockEncoding.NONE);
}
}
public TestCacheOnWrite(CacheOnWriteType cowType, Compression.Algorithm compress,
BlockEncoderTestType encoderType, boolean cacheCompressedData, BlockCache blockCache) {
this.cowType = cowType;
this.compress = compress;
this.encoderType = encoderType;
this.encoder = encoderType.getEncoder();
this.cacheCompressedData = cacheCompressedData;
this.blockCache = blockCache;
testDescription = "[cacheOnWrite=" + cowType + ", compress=" + compress +
", encoderType=" + encoderType + ", cacheCompressedData=" + cacheCompressedData + "]";
System.out.println(testDescription);
}
private static List<BlockCache> getBlockCaches() throws IOException {
Configuration conf = TEST_UTIL.getConfiguration();
List<BlockCache> blockcaches = new ArrayList<BlockCache>();
// default
blockcaches.add(new CacheConfig(conf).getBlockCache());
// memory
BlockCache lru = new LruBlockCache(128 * 1024 * 1024, 64 * 1024, TEST_UTIL.getConfiguration());
blockcaches.add(lru);
// bucket cache
FileSystem.get(conf).mkdirs(TEST_UTIL.getDataTestDir());
int[] bucketSizes = {INDEX_BLOCK_SIZE, DATA_BLOCK_SIZE, BLOOM_BLOCK_SIZE, 64 * 1024 };
BlockCache bucketcache =
new BucketCache("file:" + TEST_UTIL.getDataTestDir() + "/bucket.data",
128 * 1024 * 1024, 64 * 1024, bucketSizes, 5, 64 * 100, null);
blockcaches.add(bucketcache);
return blockcaches;
}
@Parameters
public static Collection<Object[]> getParameters() throws IOException {
List<Object[]> cowTypes = new ArrayList<Object[]>();
for (BlockCache blockache : getBlockCaches()) {
for (CacheOnWriteType cowType : CacheOnWriteType.values()) {
for (Compression.Algorithm compress : HBaseTestingUtility.COMPRESSION_ALGORITHMS) {
for (BlockEncoderTestType encoderType : BlockEncoderTestType.values()) {
for (boolean cacheCompressedData : new boolean[] { false, true }) {
cowTypes.add(new Object[] { cowType, compress, encoderType, cacheCompressedData, blockache});
}
}
}
}
}
return cowTypes;
}
@Before
public void setUp() throws IOException {
conf = TEST_UTIL.getConfiguration();
this.conf.set("dfs.datanode.data.dir.perm", "700");
conf.setInt(HFile.FORMAT_VERSION_KEY, HFile.MAX_FORMAT_VERSION);
conf.setInt(HFileBlockIndex.MAX_CHUNK_SIZE_KEY, INDEX_BLOCK_SIZE);
conf.setInt(BloomFilterFactory.IO_STOREFILE_BLOOM_BLOCK_SIZE,
BLOOM_BLOCK_SIZE);
conf.setBoolean(CacheConfig.CACHE_DATA_BLOCKS_COMPRESSED_KEY, cacheCompressedData);
cowType.modifyConf(conf);
fs = HFileSystem.get(conf);
cacheConf =
new CacheConfig(blockCache, true, true, cowType.shouldBeCached(BlockType.DATA),
cowType.shouldBeCached(BlockType.LEAF_INDEX),
cowType.shouldBeCached(BlockType.BLOOM_CHUNK), false, cacheCompressedData, true, false);
}
@After
public void tearDown() {
cacheConf = new CacheConfig(conf);
blockCache = cacheConf.getBlockCache();
}
@Test
public void testStoreFileCacheOnWrite() throws IOException {
testStoreFileCacheOnWriteInternals(false);
testStoreFileCacheOnWriteInternals(true);
}
protected void testStoreFileCacheOnWriteInternals(boolean useTags) throws IOException {
writeStoreFile(useTags);
readStoreFile(useTags);
}
private void readStoreFile(boolean useTags) throws IOException {
AbstractHFileReader reader;
if (useTags) {
reader = (HFileReaderV3) HFile.createReader(fs, storeFilePath, cacheConf, conf);
} else {
reader = (HFileReaderV2) HFile.createReader(fs, storeFilePath, cacheConf, conf);
}
LOG.info("HFile information: " + reader);
HFileContext meta = new HFileContextBuilder().withCompression(compress)
.withBytesPerCheckSum(CKBYTES).withChecksumType(ChecksumType.NULL)
.withBlockSize(DATA_BLOCK_SIZE).withDataBlockEncoding(encoder.getDataBlockEncoding())
.withIncludesTags(useTags).build();
final boolean cacheBlocks = false;
final boolean pread = false;
HFileScanner scanner = reader.getScanner(cacheBlocks, pread);
assertTrue(testDescription, scanner.seekTo());
long offset = 0;
HFileBlock prevBlock = null;
EnumMap<BlockType, Integer> blockCountByType =
new EnumMap<BlockType, Integer>(BlockType.class);
DataBlockEncoding encodingInCache =
encoderType.getEncoder().getDataBlockEncoding();
while (offset < reader.getTrailer().getLoadOnOpenDataOffset()) {
long onDiskSize = -1;
if (prevBlock != null) {
onDiskSize = prevBlock.getNextBlockOnDiskSizeWithHeader();
}
// Flags: don't cache the block, use pread, this is not a compaction.
// Also, pass null for expected block type to avoid checking it.
HFileBlock block = reader.readBlock(offset, onDiskSize, false, true,
false, true, null, encodingInCache);
BlockCacheKey blockCacheKey = new BlockCacheKey(reader.getName(),
offset);
HFileBlock fromCache = (HFileBlock) blockCache.getBlock(blockCacheKey, true, false, true);
boolean isCached = fromCache != null;
boolean shouldBeCached = cowType.shouldBeCached(block.getBlockType());
assertTrue("shouldBeCached: " + shouldBeCached+ "\n" +
"isCached: " + isCached + "\n" +
"Test description: " + testDescription + "\n" +
"block: " + block + "\n" +
"encodingInCache: " + encodingInCache + "\n" +
"blockCacheKey: " + blockCacheKey,
shouldBeCached == isCached);
if (isCached) {
if (cacheConf.shouldCacheCompressed(fromCache.getBlockType().getCategory())) {
if (compress != Compression.Algorithm.NONE) {
assertFalse(fromCache.isUnpacked());
}
fromCache = fromCache.unpack(meta, reader.getUncachedBlockReader());
} else {
assertTrue(fromCache.isUnpacked());
}
// block we cached at write-time and block read from file should be identical
assertEquals(block.getChecksumType(), fromCache.getChecksumType());
assertEquals(block.getBlockType(), fromCache.getBlockType());
if (block.getBlockType() == BlockType.ENCODED_DATA) {
assertEquals(block.getDataBlockEncodingId(), fromCache.getDataBlockEncodingId());
assertEquals(block.getDataBlockEncoding(), fromCache.getDataBlockEncoding());
}
assertEquals(block.getOnDiskSizeWithHeader(), fromCache.getOnDiskSizeWithHeader());
assertEquals(block.getOnDiskSizeWithoutHeader(), fromCache.getOnDiskSizeWithoutHeader());
assertEquals(
block.getUncompressedSizeWithoutHeader(), fromCache.getUncompressedSizeWithoutHeader());
}
prevBlock = block;
offset += block.getOnDiskSizeWithHeader();
BlockType bt = block.getBlockType();
Integer count = blockCountByType.get(bt);
blockCountByType.put(bt, (count == null ? 0 : count) + 1);
}
LOG.info("Block count by type: " + blockCountByType);
String countByType = blockCountByType.toString();
BlockType cachedDataBlockType =
encoderType.encode ? BlockType.ENCODED_DATA : BlockType.DATA;
if (useTags) {
assertEquals("{" + cachedDataBlockType
+ "=1550, LEAF_INDEX=173, BLOOM_CHUNK=9, INTERMEDIATE_INDEX=20}", countByType);
} else {
assertEquals("{" + cachedDataBlockType
+ "=1379, LEAF_INDEX=154, BLOOM_CHUNK=9, INTERMEDIATE_INDEX=18}", countByType);
}
// iterate all the keyvalue from hfile
while (scanner.next()) {
Cell cell = scanner.getKeyValue();
}
reader.close();
}
public static KeyValue.Type generateKeyType(Random rand) {
if (rand.nextBoolean()) {
// Let's make half of KVs puts.
return KeyValue.Type.Put;
} else {
KeyValue.Type keyType =
KeyValue.Type.values()[1 + rand.nextInt(NUM_VALID_KEY_TYPES)];
if (keyType == KeyValue.Type.Minimum || keyType == KeyValue.Type.Maximum)
{
throw new RuntimeException("Generated an invalid key type: " + keyType
+ ". " + "Probably the layout of KeyValue.Type has changed.");
}
return keyType;
}
}
public void writeStoreFile(boolean useTags) throws IOException {
if(useTags) {
TEST_UTIL.getConfiguration().setInt("hfile.format.version", 3);
} else {
TEST_UTIL.getConfiguration().setInt("hfile.format.version", 2);
}
Path storeFileParentDir = new Path(TEST_UTIL.getDataTestDir(),
"test_cache_on_write");
HFileContext meta = new HFileContextBuilder().withCompression(compress)
.withBytesPerCheckSum(CKBYTES).withChecksumType(ChecksumType.NULL)
.withBlockSize(DATA_BLOCK_SIZE).withDataBlockEncoding(encoder.getDataBlockEncoding())
.withIncludesTags(useTags).build();
StoreFile.Writer sfw = new StoreFile.WriterBuilder(conf, cacheConf, fs)
.withOutputDir(storeFileParentDir).withComparator(KeyValue.COMPARATOR)
.withFileContext(meta)
.withBloomType(BLOOM_TYPE).withMaxKeyCount(NUM_KV).build();
final int rowLen = 32;
for (int i = 0; i < NUM_KV; ++i) {
byte[] k = TestHFileWriterV2.randomOrderedKey(rand, i);
byte[] v = TestHFileWriterV2.randomValue(rand);
int cfLen = rand.nextInt(k.length - rowLen + 1);
KeyValue kv;
if(useTags) {
Tag t = new Tag((byte) 1, "visibility");
List<Tag> tagList = new ArrayList<Tag>();
tagList.add(t);
Tag[] tags = new Tag[1];
tags[0] = t;
kv = new KeyValue(
k, 0, rowLen,
k, rowLen, cfLen,
k, rowLen + cfLen, k.length - rowLen - cfLen,
rand.nextLong(),
generateKeyType(rand),
v, 0, v.length, tagList);
} else {
kv = new KeyValue(
k, 0, rowLen,
k, rowLen, cfLen,
k, rowLen + cfLen, k.length - rowLen - cfLen,
rand.nextLong(),
generateKeyType(rand),
v, 0, v.length);
}
sfw.append(kv);
}
sfw.close();
storeFilePath = sfw.getPath();
}
@Test
public void testNotCachingDataBlocksDuringCompaction() throws IOException {
testNotCachingDataBlocksDuringCompactionInternals(false);
testNotCachingDataBlocksDuringCompactionInternals(true);
}
protected void testNotCachingDataBlocksDuringCompactionInternals(boolean useTags) throws IOException {
if (useTags) {
TEST_UTIL.getConfiguration().setInt("hfile.format.version", 3);
} else {
TEST_UTIL.getConfiguration().setInt("hfile.format.version", 2);
}
// TODO: need to change this test if we add a cache size threshold for
// compactions, or if we implement some other kind of intelligent logic for
// deciding what blocks to cache-on-write on compaction.
final String table = "CompactionCacheOnWrite";
final String cf = "myCF";
final byte[] cfBytes = Bytes.toBytes(cf);
final int maxVersions = 3;
HRegion region = TEST_UTIL.createTestRegion(table,
new HColumnDescriptor(cf)
.setCompressionType(compress)
.setBloomFilterType(BLOOM_TYPE)
.setMaxVersions(maxVersions)
.setDataBlockEncoding(encoder.getDataBlockEncoding())
);
int rowIdx = 0;
long ts = EnvironmentEdgeManager.currentTime();
for (int iFile = 0; iFile < 5; ++iFile) {
for (int iRow = 0; iRow < 500; ++iRow) {
String rowStr = "" + (rowIdx * rowIdx * rowIdx) + "row" + iFile + "_" +
iRow;
Put p = new Put(Bytes.toBytes(rowStr));
++rowIdx;
for (int iCol = 0; iCol < 10; ++iCol) {
String qualStr = "col" + iCol;
String valueStr = "value_" + rowStr + "_" + qualStr;
for (int iTS = 0; iTS < 5; ++iTS) {
if (useTags) {
Tag t = new Tag((byte) 1, "visibility");
Tag[] tags = new Tag[1];
tags[0] = t;
KeyValue kv = new KeyValue(Bytes.toBytes(rowStr), cfBytes, Bytes.toBytes(qualStr),
HConstants.LATEST_TIMESTAMP, Bytes.toBytes(valueStr), tags);
p.add(kv);
} else {
p.add(cfBytes, Bytes.toBytes(qualStr), ts++, Bytes.toBytes(valueStr));
}
}
}
p.setDurability(Durability.ASYNC_WAL);
region.put(p);
}
region.flushcache();
}
LruBlockCache blockCache =
(LruBlockCache) new CacheConfig(conf).getBlockCache();
blockCache.clearCache();
assertEquals(0, blockCache.getBlockTypeCountsForTest().size());
region.compactStores();
LOG.debug("compactStores() returned");
Map<BlockType, Integer> blockTypesInCache =
blockCache.getBlockTypeCountsForTest();
LOG.debug("Block types in cache: " + blockTypesInCache);
assertNull(blockTypesInCache.get(BlockType.ENCODED_DATA));
assertNull(blockTypesInCache.get(BlockType.DATA));
region.close();
blockCache.shutdown();
}
}