HBASE-15477 Purge 'next block header' from cached blocks

When we read from HDFS, we overread to pick up the next blocks header.
Doing this saves a seek as we move through the hfile; we save having to
do an explicit seek just to read the block header every time we need to
read the body.  We used to read in the next header as part of the
current blocks buffer. This buffer was then what got persisted to
blockcache; so we were over-persisting: our block plus the next blocks'
header (33 bytes).

This patch undoes this over-persisting.

Removes support for version 1 blocks (0.2 was added in hbase-0.92.0).
Not needed any more.

There is an open question on whether checksums should be persisted
when caching. The code seems to say no but if cache is SSD backed or
backed by anything that does not do error correction, we'll want
checksums.

Adds loads of documentation.

M hbase-common/src/main/java/org/apache/hadoop/hbase/io/hfile/BlockType.java
  (write) Add writing from a ByteBuff.

M hbase-common/src/main/java/org/apache/hadoop/hbase/nio/ByteBuff.java
  (toString) Add one so ByteBuff looks like ByteBuffer when you click on
  it in IDE

M hbase-server/src/main/java/org/apache/hadoop/hbase/io/hfile/HFileBlock.java
  Remove support for version 1 blocks.

  Cleaned up handling of metadata added when we serialize a block to
  caches. Metadata is smaller now.

  When we serialize (used when caching), do not persist the next blocks
  header if present.

  Removed a bunch of methods, a few of which had overlapping
  functionality and others that exposed too much of our internals.
  Also removed a bunch of constructors and unified the constructors we
  had left over making them share a common init method.
  Shutdown access to defines that should only be used internally here.

  Renamed all to do w/ 'EXTRA' and 'extraSerialization' to instead talk
  about metadata saved to caches; was unclear previously what EXTRA was
  about.

  Renamed static final declarations as all uppercase.

  (readBlockDataInternal): Redid. Couldn't make sense of it previously.
  Undid heavy-duty parse of header by constructing HFileBlock. Other
  cleanups. Its 1/3rd the length it used to be. More to do in here.
This commit is contained in:
stack 2016-03-17 11:18:06 -07:00
parent ef94b55239
commit 000117ad9f
23 changed files with 614 additions and 1381 deletions

View File

@ -132,6 +132,10 @@ public enum BlockType {
out.write(magic);
}
public void write(ByteBuffer buf) {
buf.put(magic);
}
public void write(ByteBuff buf) {
buf.put(magic);
}

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@ -55,6 +55,26 @@ public class HFileContextBuilder {
private String hfileName = null;
public HFileContextBuilder() {}
/**
* Use this constructor if you want to change a few settings only in another context.
*/
public HFileContextBuilder(final HFileContext hfc) {
this.usesHBaseChecksum = hfc.isUseHBaseChecksum();
this.includesMvcc = hfc.isIncludesMvcc();
this.includesTags = hfc.isIncludesTags();
this.compression = hfc.getCompression();
this.compressTags = hfc.isCompressTags();
this.checksumType = hfc.getChecksumType();
this.bytesPerChecksum = hfc.getBytesPerChecksum();
this.blocksize = hfc.getBlocksize();
this.encoding = hfc.getDataBlockEncoding();
this.cryptoContext = hfc.getEncryptionContext();
this.fileCreateTime = hfc.getFileCreateTime();
this.hfileName = hfc.getHFileName();
}
public HFileContextBuilder withHBaseCheckSum(boolean useHBaseCheckSum) {
this.usesHBaseChecksum = useHBaseCheckSum;
return this;

View File

@ -496,6 +496,12 @@ public abstract class ByteBuff {
return -(low + 1); // key not found.
}
@Override
public String toString() {
return this.getClass().getSimpleName() + "[pos=" + position() + ", lim=" + limit() +
", cap= " + capacity() + "]";
}
public static String toStringBinary(final ByteBuff b, int off, int len) {
StringBuilder result = new StringBuilder();
// Just in case we are passed a 'len' that is > buffer length...

View File

@ -260,7 +260,7 @@ public class MemcachedBlockCache implements BlockCache {
public HFileBlock decode(CachedData d) {
try {
ByteBuff buf = new SingleByteBuff(ByteBuffer.wrap(d.getData()));
return (HFileBlock) HFileBlock.blockDeserializer.deserialize(buf, true,
return (HFileBlock) HFileBlock.BLOCK_DESERIALIZER.deserialize(buf, true,
MemoryType.EXCLUSIVE);
} catch (IOException e) {
LOG.warn("Error deserializing data from memcached",e);

View File

@ -91,7 +91,7 @@ public class ChecksumUtil {
// If this is an older version of the block that does not have
// checksums, then return false indicating that checksum verification
// did not succeed. Actually, this methiod should never be called
// did not succeed. Actually, this method should never be called
// when the minorVersion is 0, thus this is a defensive check for a
// cannot-happen case. Since this is a cannot-happen case, it is
// better to return false to indicate a checksum validation failure.
@ -141,8 +141,7 @@ public class ChecksumUtil {
* @return The number of bytes needed to store the checksum values
*/
static long numBytes(long datasize, int bytesPerChecksum) {
return numChunks(datasize, bytesPerChecksum) *
HFileBlock.CHECKSUM_SIZE;
return numChunks(datasize, bytesPerChecksum) * HFileBlock.CHECKSUM_SIZE;
}
/**

View File

@ -60,7 +60,7 @@ import org.apache.hadoop.util.StringUtils;
* Examples of how to use the block index writer can be found in
* {@link org.apache.hadoop.hbase.io.hfile.CompoundBloomFilterWriter} and
* {@link HFileWriterImpl}. Examples of how to use the reader can be
* found in {@link HFileWriterImpl} and
* found in {@link HFileReaderImpl} and
* {@link org.apache.hadoop.hbase.io.hfile.TestHFileBlockIndex}.
*/
@InterfaceAudience.Private

View File

@ -252,18 +252,20 @@ public class HFileReaderImpl implements HFile.Reader, Configurable {
long end = 0;
try {
end = getTrailer().getLoadOnOpenDataOffset();
HFileBlock prevBlock = null;
if (LOG.isTraceEnabled()) {
LOG.trace("File=" + path.toString() + ", offset=" + offset + ", end=" + end);
}
// TODO: Could we use block iterator in here? Would that get stuff into the cache?
HFileBlock prevBlock = null;
while (offset < end) {
if (Thread.interrupted()) {
break;
}
long onDiskSize = -1;
if (prevBlock != null) {
onDiskSize = prevBlock.getNextBlockOnDiskSizeWithHeader();
}
// Perhaps we got our block from cache? Unlikely as this may be, if it happens, then
// the internal-to-hfileblock thread local which holds the overread that gets the
// next header, will not have happened...so, pass in the onDiskSize gotten from the
// cached block. This 'optimization' triggers extremely rarely I'd say.
long onDiskSize = prevBlock != null? prevBlock.getNextBlockOnDiskSize(): -1;
HFileBlock block = readBlock(offset, onDiskSize, true, false, false, false,
null, null);
// Need not update the current block. Ideally here the readBlock won't find the
@ -903,9 +905,8 @@ public class HFileReaderImpl implements HFile.Reader, Configurable {
// We are reading the next block without block type validation, because
// it might turn out to be a non-data block.
block = reader.readBlock(block.getOffset()
+ block.getOnDiskSizeWithHeader(),
block.getNextBlockOnDiskSizeWithHeader(), cacheBlocks, pread,
block = reader.readBlock(block.getOffset() + block.getOnDiskSizeWithHeader(),
block.getNextBlockOnDiskSize(), cacheBlocks, pread,
isCompaction, true, null, getEffectiveDataBlockEncoding());
if (block != null && !block.getBlockType().isData()) { // Findbugs: NP_NULL_ON_SOME_PATH
// Whatever block we read we will be returning it unless
@ -1439,8 +1440,8 @@ public class HFileReaderImpl implements HFile.Reader, Configurable {
// Cache Miss, please load.
}
HFileBlock metaBlock = fsBlockReader.readBlockData(metaBlockOffset,
blockSize, -1, true).unpack(hfileContext, fsBlockReader);
HFileBlock metaBlock = fsBlockReader.readBlockData(metaBlockOffset, blockSize, true).
unpack(hfileContext, fsBlockReader);
// Cache the block
if (cacheBlock) {
@ -1526,8 +1527,8 @@ public class HFileReaderImpl implements HFile.Reader, Configurable {
traceScope.getSpan().addTimelineAnnotation("blockCacheMiss");
}
// Load block from filesystem.
HFileBlock hfileBlock = fsBlockReader.readBlockData(dataBlockOffset, onDiskBlockSize, -1,
pread);
HFileBlock hfileBlock =
fsBlockReader.readBlockData(dataBlockOffset, onDiskBlockSize, pread);
validateBlockType(hfileBlock, expectedBlockType);
HFileBlock unpacked = hfileBlock.unpack(hfileContext, fsBlockReader);
BlockType.BlockCategory category = hfileBlock.getBlockType().getCategory();
@ -1871,6 +1872,7 @@ public class HFileReaderImpl implements HFile.Reader, Configurable {
* @return Scanner on this file.
*/
@Override
@VisibleForTesting
public HFileScanner getScanner(boolean cacheBlocks, final boolean pread) {
return getScanner(cacheBlocks, pread, false);
}

View File

@ -99,18 +99,21 @@ public interface HFileScanner extends Shipper, Closeable {
* @throws IOException
*/
boolean seekTo() throws IOException;
/**
* Scans to the next entry in the file.
* @return Returns false if you are at the end otherwise true if more in file.
* @throws IOException
*/
boolean next() throws IOException;
/**
* Gets the current key in the form of a cell. You must call
* {@link #seekTo(Cell)} before this method.
* @return gets the current key as a Cell.
*/
Cell getKey();
/**
* Gets a buffer view to the current value. You must call
* {@link #seekTo(Cell)} before this method.
@ -119,26 +122,35 @@ public interface HFileScanner extends Shipper, Closeable {
* the position is 0, the start of the buffer view.
*/
ByteBuffer getValue();
/**
* @return Instance of {@link org.apache.hadoop.hbase.Cell}.
*/
Cell getCell();
/**
* Convenience method to get a copy of the key as a string - interpreting the
* bytes as UTF8. You must call {@link #seekTo(Cell)} before this method.
* @return key as a string
* @deprecated Since hbase-2.0.0
*/
@Deprecated
String getKeyString();
/**
* Convenience method to get a copy of the value as a string - interpreting
* the bytes as UTF8. You must call {@link #seekTo(Cell)} before this method.
* @return value as a string
* @deprecated Since hbase-2.0.0
*/
@Deprecated
String getValueString();
/**
* @return Reader that underlies this Scanner instance.
*/
HFile.Reader getReader();
/**
* @return True is scanner has had one of the seek calls invoked; i.e.
* {@link #seekBefore(Cell)} or {@link #seekTo()} or {@link #seekTo(Cell)}.

View File

@ -1317,25 +1317,22 @@ public class BucketCache implements BlockCache, HeapSize {
final AtomicLong realCacheSize) throws CacheFullException, IOException,
BucketAllocatorException {
int len = data.getSerializedLength();
// This cacheable thing can't be serialized...
// This cacheable thing can't be serialized
if (len == 0) return null;
long offset = bucketAllocator.allocateBlock(len);
BucketEntry bucketEntry = new BucketEntry(offset, len, accessCounter, inMemory);
bucketEntry.setDeserialiserReference(data.getDeserializer(), deserialiserMap);
try {
if (data instanceof HFileBlock) {
HFileBlock block = (HFileBlock) data;
ByteBuff sliceBuf = block.getBufferReadOnlyWithHeader();
sliceBuf.rewind();
assert len == sliceBuf.limit() + HFileBlock.EXTRA_SERIALIZATION_SPACE ||
len == sliceBuf.limit() + block.headerSize() + HFileBlock.EXTRA_SERIALIZATION_SPACE;
ByteBuffer extraInfoBuffer = ByteBuffer.allocate(HFileBlock.EXTRA_SERIALIZATION_SPACE);
block.serializeExtraInfo(extraInfoBuffer);
// If an instance of HFileBlock, save on some allocations.
HFileBlock block = (HFileBlock)data;
ByteBuff sliceBuf = block.getBufferReadOnly();
ByteBuffer metadata = block.getMetaData();
if (LOG.isTraceEnabled()) {
LOG.trace("Write offset=" + offset + ", len=" + len);
}
ioEngine.write(sliceBuf, offset);
ioEngine.write(extraInfoBuffer, offset + len - HFileBlock.EXTRA_SERIALIZATION_SPACE);
ioEngine.write(metadata, offset + len - metadata.limit());
} else {
ByteBuffer bb = ByteBuffer.allocate(len);
data.serialize(bb);

View File

@ -18,6 +18,7 @@
*/
package org.apache.hadoop.hbase.regionserver;
import java.io.Closeable;
import java.io.IOException;
import org.apache.hadoop.hbase.classification.InterfaceAudience;
@ -32,7 +33,7 @@ import org.apache.hadoop.hbase.client.Scan;
// TODO: Change name from KeyValueScanner to CellScanner only we already have a simple CellScanner
// so this should be something else altogether, a decoration on our base CellScanner. TODO.
// This class shows in CPs so do it all in one swell swoop. HBase-2.0.0.
public interface KeyValueScanner extends Shipper {
public interface KeyValueScanner extends Shipper, Closeable {
/**
* The byte array represents for NO_NEXT_INDEXED_KEY;
* The actual value is irrelevant because this is always compared by reference.
@ -74,6 +75,7 @@ public interface KeyValueScanner extends Shipper {
* The default implementation for this would be to return 0. A file having
* lower sequence id will be considered to be the older one.
*/
// TODO: Implement SequenceId Interface instead.
long getSequenceID();
/**
@ -137,11 +139,11 @@ public interface KeyValueScanner extends Shipper {
* peek KeyValue of scanner has the same row with specified Cell,
* otherwise seek the scanner at the first Cell of the row which is the
* previous row of specified KeyValue
*
*
* @param key seek KeyValue
* @return true if the scanner is at the valid KeyValue, false if such
* KeyValue does not exist
*
*
*/
public boolean backwardSeek(Cell key) throws IOException;
@ -156,7 +158,7 @@ public interface KeyValueScanner extends Shipper {
/**
* Seek the scanner at the first KeyValue of last row
*
*
* @return true if scanner has values left, false if the underlying data is
* empty
* @throws IOException
@ -169,4 +171,4 @@ public interface KeyValueScanner extends Shipper {
* see HFileWriterImpl#getMidpoint, or null if not known.
*/
public Cell getNextIndexedKey();
}
}

View File

@ -1271,7 +1271,7 @@ public class StoreFile {
}
/**
* Warning: Do not write further code which depends on this call. Instead
* @deprecated Do not write further code which depends on this call. Instead
* use getStoreFileScanner() which uses the StoreFileScanner class/interface
* which is the preferred way to scan a store with higher level concepts.
*
@ -1285,7 +1285,7 @@ public class StoreFile {
}
/**
* Warning: Do not write further code which depends on this call. Instead
* @deprecated Do not write further code which depends on this call. Instead
* use getStoreFileScanner() which uses the StoreFileScanner class/interface
* which is the preferred way to scan a store with higher level concepts.
*

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@ -40,7 +40,6 @@ import org.apache.hadoop.hbase.io.HeapSize;
import org.apache.hadoop.hbase.io.compress.Compression;
import org.apache.hadoop.hbase.io.hfile.bucket.BucketCache;
import org.apache.hadoop.hbase.nio.ByteBuff;
import org.apache.hadoop.hbase.nio.SingleByteBuff;
import org.apache.hadoop.hbase.util.ChecksumType;
public class CacheTestUtils {
@ -66,6 +65,7 @@ public class CacheTestUtils {
/*Post eviction, heapsize should be the same */
assertEquals(heapSize, ((HeapSize) toBeTested).heapSize());
}
public static void testCacheMultiThreaded(final BlockCache toBeTested,
final int blockSize, final int numThreads, final int numQueries,
final double passingScore) throws Exception {
@ -339,25 +339,16 @@ public class CacheTestUtils {
}
private static HFileBlockPair[] generateHFileBlocks(int blockSize,
int numBlocks) {
private static HFileBlockPair[] generateHFileBlocks(int blockSize, int numBlocks) {
HFileBlockPair[] returnedBlocks = new HFileBlockPair[numBlocks];
Random rand = new Random();
HashSet<String> usedStrings = new HashSet<String>();
for (int i = 0; i < numBlocks; i++) {
// The buffer serialized size needs to match the size of BlockSize. So we
// declare our data size to be smaller than it by the serialization space
// required.
SingleByteBuff cachedBuffer = new SingleByteBuff(ByteBuffer.allocate(blockSize
- HFileBlock.EXTRA_SERIALIZATION_SPACE));
ByteBuffer cachedBuffer = ByteBuffer.allocate(blockSize);
rand.nextBytes(cachedBuffer.array());
cachedBuffer.rewind();
int onDiskSizeWithoutHeader = blockSize
- HFileBlock.EXTRA_SERIALIZATION_SPACE;
int uncompressedSizeWithoutHeader = blockSize
- HFileBlock.EXTRA_SERIALIZATION_SPACE;
int onDiskSizeWithoutHeader = blockSize;
int uncompressedSizeWithoutHeader = blockSize;
long prevBlockOffset = rand.nextLong();
BlockType.DATA.write(cachedBuffer);
cachedBuffer.putInt(onDiskSizeWithoutHeader);
@ -376,7 +367,7 @@ public class CacheTestUtils {
onDiskSizeWithoutHeader, uncompressedSizeWithoutHeader,
prevBlockOffset, cachedBuffer, HFileBlock.DONT_FILL_HEADER,
blockSize,
onDiskSizeWithoutHeader + HConstants.HFILEBLOCK_HEADER_SIZE, meta);
onDiskSizeWithoutHeader + HConstants.HFILEBLOCK_HEADER_SIZE, -1, meta);
String strKey;
/* No conflicting keys */
@ -395,4 +386,4 @@ public class CacheTestUtils {
BlockCacheKey blockName;
HFileBlock block;
}
}
}

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@ -259,7 +259,6 @@ public class TestCacheOnWrite {
assertTrue(testDescription, scanner.seekTo());
long offset = 0;
HFileBlock prevBlock = null;
EnumMap<BlockType, Integer> blockCountByType =
new EnumMap<BlockType, Integer>(BlockType.class);
@ -267,14 +266,10 @@ public class TestCacheOnWrite {
List<Long> cachedBlocksOffset = new ArrayList<Long>();
Map<Long, HFileBlock> cachedBlocks = new HashMap<Long, HFileBlock>();
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);
HFileBlock block = reader.readBlock(offset, -1, false, true, false, true, null,
encodingInCache);
BlockCacheKey blockCacheKey = new BlockCacheKey(reader.getName(),
offset);
HFileBlock fromCache = (HFileBlock) blockCache.getBlock(blockCacheKey, true, false, true);
@ -307,7 +302,6 @@ public class TestCacheOnWrite {
assertEquals(
block.getUncompressedSizeWithoutHeader(), fromCache.getUncompressedSizeWithoutHeader());
}
prevBlock = block;
offset += block.getOnDiskSizeWithHeader();
BlockType bt = block.getBlockType();
Integer count = blockCountByType.get(bt);

View File

@ -94,7 +94,7 @@ public class TestChecksum {
meta = new HFileContextBuilder().withHBaseCheckSum(true).build();
HFileBlock.FSReader hbr = new HFileBlock.FSReaderImpl(
is, totalSize, (HFileSystem) fs, path, meta);
HFileBlock b = hbr.readBlockData(0, -1, -1, false);
HFileBlock b = hbr.readBlockData(0, -1, false);
assertEquals(b.getChecksumType(), ChecksumType.getDefaultChecksumType().getCode());
}
@ -108,12 +108,14 @@ public class TestChecksum {
ChecksumType cktype = itr.next();
Path path = new Path(TEST_UTIL.getDataTestDir(), "checksum" + cktype.getName());
FSDataOutputStream os = fs.create(path);
HFileContext meta = new HFileContextBuilder()
.withChecksumType(cktype).build();
HFileContext meta = new HFileContextBuilder().
withChecksumType(cktype).
build();
HFileBlock.Writer hbw = new HFileBlock.Writer(null, meta);
DataOutputStream dos = hbw.startWriting(BlockType.DATA);
for (int i = 0; i < 1000; ++i)
for (int i = 0; i < 1000; ++i) {
dos.writeInt(i);
}
hbw.writeHeaderAndData(os);
int totalSize = hbw.getOnDiskSizeWithHeader();
os.close();
@ -125,7 +127,7 @@ public class TestChecksum {
meta = new HFileContextBuilder().withHBaseCheckSum(true).build();
HFileBlock.FSReader hbr = new HFileBlock.FSReaderImpl(
is, totalSize, (HFileSystem) fs, path, meta);
HFileBlock b = hbr.readBlockData(0, -1, -1, false);
HFileBlock b = hbr.readBlockData(0, -1, false);
ByteBuff data = b.getBufferWithoutHeader();
for (int i = 0; i < 1000; i++) {
assertEquals(i, data.getInt());
@ -188,7 +190,7 @@ public class TestChecksum {
.withHBaseCheckSum(true)
.build();
HFileBlock.FSReader hbr = new FSReaderImplTest(is, totalSize, fs, path, meta);
HFileBlock b = hbr.readBlockData(0, -1, -1, pread);
HFileBlock b = hbr.readBlockData(0, -1, pread);
b.sanityCheck();
assertEquals(4936, b.getUncompressedSizeWithoutHeader());
assertEquals(algo == GZ ? 2173 : 4936,
@ -209,17 +211,17 @@ public class TestChecksum {
// requests. Verify that this is correct.
for (int i = 0; i <
HFileBlock.CHECKSUM_VERIFICATION_NUM_IO_THRESHOLD + 1; i++) {
b = hbr.readBlockData(0, -1, -1, pread);
b = hbr.readBlockData(0, -1, pread);
assertEquals(0, HFile.getChecksumFailuresCount());
}
// The next read should have hbase checksum verification reanabled,
// we verify this by assertng that there was a hbase-checksum failure.
b = hbr.readBlockData(0, -1, -1, pread);
b = hbr.readBlockData(0, -1, pread);
assertEquals(1, HFile.getChecksumFailuresCount());
// Since the above encountered a checksum failure, we switch
// back to not checking hbase checksums.
b = hbr.readBlockData(0, -1, -1, pread);
b = hbr.readBlockData(0, -1, pread);
assertEquals(0, HFile.getChecksumFailuresCount());
is.close();
@ -230,7 +232,7 @@ public class TestChecksum {
assertEquals(false, newfs.useHBaseChecksum());
is = new FSDataInputStreamWrapper(newfs, path);
hbr = new FSReaderImplTest(is, totalSize, newfs, path, meta);
b = hbr.readBlockData(0, -1, -1, pread);
b = hbr.readBlockData(0, -1, pread);
is.close();
b.sanityCheck();
b = b.unpack(meta, hbr);
@ -314,7 +316,7 @@ public class TestChecksum {
.build();
HFileBlock.FSReader hbr = new HFileBlock.FSReaderImpl(new FSDataInputStreamWrapper(
is, nochecksum), totalSize, hfs, path, meta);
HFileBlock b = hbr.readBlockData(0, -1, -1, pread);
HFileBlock b = hbr.readBlockData(0, -1, pread);
is.close();
b.sanityCheck();
assertEquals(dataSize, b.getUncompressedSizeWithoutHeader());
@ -354,5 +356,4 @@ public class TestChecksum {
return false; // checksum validation failure
}
}
}
}

View File

@ -320,7 +320,7 @@ public class TestHFileBlock {
.withIncludesTags(includesTag)
.withCompression(algo).build();
HFileBlock.FSReader hbr = new HFileBlock.FSReaderImpl(is, totalSize, meta);
HFileBlock b = hbr.readBlockData(0, -1, -1, pread);
HFileBlock b = hbr.readBlockData(0, -1, pread);
is.close();
assertEquals(0, HFile.getChecksumFailuresCount());
@ -334,17 +334,15 @@ public class TestHFileBlock {
is = fs.open(path);
hbr = new HFileBlock.FSReaderImpl(is, totalSize, meta);
b = hbr.readBlockData(0, 2173 + HConstants.HFILEBLOCK_HEADER_SIZE +
b.totalChecksumBytes(), -1, pread);
b.totalChecksumBytes(), pread);
assertEquals(expected, b);
int wrongCompressedSize = 2172;
try {
b = hbr.readBlockData(0, wrongCompressedSize
+ HConstants.HFILEBLOCK_HEADER_SIZE, -1, pread);
+ HConstants.HFILEBLOCK_HEADER_SIZE, pread);
fail("Exception expected");
} catch (IOException ex) {
String expectedPrefix = "On-disk size without header provided is "
+ wrongCompressedSize + ", but block header contains "
+ b.getOnDiskSizeWithoutHeader() + ".";
String expectedPrefix = "Passed in onDiskSizeWithHeader=";
assertTrue("Invalid exception message: '" + ex.getMessage()
+ "'.\nMessage is expected to start with: '" + expectedPrefix
+ "'", ex.getMessage().startsWith(expectedPrefix));
@ -424,7 +422,7 @@ public class TestHFileBlock {
HFileBlock blockFromHFile, blockUnpacked;
int pos = 0;
for (int blockId = 0; blockId < numBlocks; ++blockId) {
blockFromHFile = hbr.readBlockData(pos, -1, -1, pread);
blockFromHFile = hbr.readBlockData(pos, -1, pread);
assertEquals(0, HFile.getChecksumFailuresCount());
blockFromHFile.sanityCheck();
pos += blockFromHFile.getOnDiskSizeWithHeader();
@ -560,7 +558,7 @@ public class TestHFileBlock {
if (detailedLogging) {
LOG.info("Reading block #" + i + " at offset " + curOffset);
}
HFileBlock b = hbr.readBlockData(curOffset, -1, -1, pread);
HFileBlock b = hbr.readBlockData(curOffset, -1, pread);
if (detailedLogging) {
LOG.info("Block #" + i + ": " + b);
}
@ -574,8 +572,7 @@ public class TestHFileBlock {
// Now re-load this block knowing the on-disk size. This tests a
// different branch in the loader.
HFileBlock b2 = hbr.readBlockData(curOffset,
b.getOnDiskSizeWithHeader(), -1, pread);
HFileBlock b2 = hbr.readBlockData(curOffset, b.getOnDiskSizeWithHeader(), pread);
b2.sanityCheck();
assertEquals(b.getBlockType(), b2.getBlockType());
@ -601,7 +598,7 @@ public class TestHFileBlock {
b = b.unpack(meta, hbr);
// b's buffer has header + data + checksum while
// expectedContents have header + data only
ByteBuff bufRead = b.getBufferWithHeader();
ByteBuff bufRead = b.getBufferReadOnly();
ByteBuffer bufExpected = expectedContents.get(i);
boolean bytesAreCorrect = Bytes.compareTo(bufRead.array(),
bufRead.arrayOffset(),
@ -684,7 +681,7 @@ public class TestHFileBlock {
HFileBlock b;
try {
long onDiskSizeArg = withOnDiskSize ? expectedSize : -1;
b = hbr.readBlockData(offset, onDiskSizeArg, -1, pread);
b = hbr.readBlockData(offset, onDiskSizeArg, pread);
} catch (IOException ex) {
LOG.error("Error in client " + clientId + " trying to read block at "
+ offset + ", pread=" + pread + ", withOnDiskSize=" +
@ -719,8 +716,7 @@ public class TestHFileBlock {
protected void testConcurrentReadingInternals() throws IOException,
InterruptedException, ExecutionException {
for (Compression.Algorithm compressAlgo : COMPRESSION_ALGORITHMS) {
Path path =
new Path(TEST_UTIL.getDataTestDir(), "concurrent_reading");
Path path = new Path(TEST_UTIL.getDataTestDir(), "concurrent_reading");
Random rand = defaultRandom();
List<Long> offsets = new ArrayList<Long>();
List<BlockType> types = new ArrayList<BlockType>();
@ -843,8 +839,7 @@ public class TestHFileBlock {
.withBytesPerCheckSum(HFile.DEFAULT_BYTES_PER_CHECKSUM)
.withChecksumType(ChecksumType.NULL).build();
HFileBlock block = new HFileBlock(BlockType.DATA, size, size, -1, buf,
HFileBlock.FILL_HEADER, -1,
0, meta);
HFileBlock.FILL_HEADER, -1, 0, -1, meta);
long byteBufferExpectedSize = ClassSize.align(ClassSize.estimateBase(
new MultiByteBuff(buf).getClass(), true)
+ HConstants.HFILEBLOCK_HEADER_SIZE + size);

View File

@ -1,750 +0,0 @@
/*
*
* 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.apache.hadoop.hbase.io.compress.Compression.Algorithm.GZ;
import static org.apache.hadoop.hbase.io.compress.Compression.Algorithm.NONE;
import static org.junit.Assert.*;
import java.io.ByteArrayOutputStream;
import java.io.DataOutputStream;
import java.io.IOException;
import java.io.OutputStream;
import java.nio.ByteBuffer;
import java.util.ArrayList;
import java.util.Collection;
import java.util.List;
import org.apache.commons.logging.Log;
import org.apache.commons.logging.LogFactory;
import org.apache.hadoop.fs.FSDataInputStream;
import org.apache.hadoop.fs.FSDataOutputStream;
import org.apache.hadoop.fs.Path;
import org.apache.hadoop.hbase.Cell;
import org.apache.hadoop.hbase.HBaseTestingUtility;
import org.apache.hadoop.hbase.HConstants;
import org.apache.hadoop.hbase.KeyValue;
import org.apache.hadoop.hbase.KeyValueUtil;
import org.apache.hadoop.hbase.fs.HFileSystem;
import org.apache.hadoop.hbase.io.FSDataInputStreamWrapper;
import org.apache.hadoop.hbase.io.compress.Compression;
import org.apache.hadoop.hbase.io.encoding.DataBlockEncoding;
import org.apache.hadoop.hbase.io.encoding.HFileBlockDefaultEncodingContext;
import org.apache.hadoop.hbase.io.encoding.HFileBlockEncodingContext;
import org.apache.hadoop.hbase.io.hfile.HFileBlock.BlockWritable;
import org.apache.hadoop.hbase.nio.ByteBuff;
import org.apache.hadoop.hbase.nio.SingleByteBuff;
import org.apache.hadoop.hbase.testclassification.IOTests;
import org.apache.hadoop.hbase.testclassification.SmallTests;
import org.apache.hadoop.hbase.util.Bytes;
import org.apache.hadoop.hbase.util.ChecksumType;
import org.apache.hadoop.io.WritableUtils;
import org.apache.hadoop.io.compress.Compressor;
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;
import com.google.common.base.Preconditions;
/**
* This class has unit tests to prove that older versions of
* HFiles (without checksums) are compatible with current readers.
*/
@Category({IOTests.class, SmallTests.class})
@RunWith(Parameterized.class)
public class TestHFileBlockCompatibility {
private static final Log LOG = LogFactory.getLog(TestHFileBlockCompatibility.class);
private static final Compression.Algorithm[] COMPRESSION_ALGORITHMS = {
NONE, GZ };
private static final HBaseTestingUtility TEST_UTIL = new HBaseTestingUtility();
private HFileSystem fs;
private final boolean includesMemstoreTS;
private final boolean includesTag;
public TestHFileBlockCompatibility(boolean includesMemstoreTS, boolean includesTag) {
this.includesMemstoreTS = includesMemstoreTS;
this.includesTag = includesTag;
}
@Parameters
public static Collection<Object[]> parameters() {
return HBaseTestingUtility.MEMSTORETS_TAGS_PARAMETRIZED;
}
@Before
public void setUp() throws IOException {
fs = (HFileSystem)HFileSystem.get(TEST_UTIL.getConfiguration());
}
public byte[] createTestV1Block(Compression.Algorithm algo)
throws IOException {
Compressor compressor = algo.getCompressor();
ByteArrayOutputStream baos = new ByteArrayOutputStream();
OutputStream os = algo.createCompressionStream(baos, compressor, 0);
DataOutputStream dos = new DataOutputStream(os);
BlockType.META.write(dos); // Let's make this a meta block.
TestHFileBlock.writeTestBlockContents(dos);
dos.flush();
algo.returnCompressor(compressor);
return baos.toByteArray();
}
private Writer createTestV2Block(Compression.Algorithm algo)
throws IOException {
final BlockType blockType = BlockType.DATA;
Writer hbw = new Writer(algo, null,
includesMemstoreTS, includesTag);
DataOutputStream dos = hbw.startWriting(blockType);
TestHFileBlock.writeTestBlockContents(dos);
// make sure the block is ready by calling hbw.getHeaderAndData()
hbw.getHeaderAndData();
assertEquals(1000 * 4, hbw.getUncompressedSizeWithoutHeader());
hbw.releaseCompressor();
return hbw;
}
private String createTestBlockStr(Compression.Algorithm algo,
int correctLength) throws IOException {
Writer hbw = createTestV2Block(algo);
byte[] testV2Block = hbw.getHeaderAndData();
int osOffset = HConstants.HFILEBLOCK_HEADER_SIZE_NO_CHECKSUM + 9;
if (testV2Block.length == correctLength) {
// Force-set the "OS" field of the gzip header to 3 (Unix) to avoid
// variations across operating systems.
// See http://www.gzip.org/zlib/rfc-gzip.html for gzip format.
testV2Block[osOffset] = 3;
}
return Bytes.toStringBinary(testV2Block);
}
@Test
public void testNoCompression() throws IOException {
assertEquals(4000, createTestV2Block(NONE).getBlockForCaching().
getUncompressedSizeWithoutHeader());
}
@Test
public void testGzipCompression() throws IOException {
final String correctTestBlockStr =
"DATABLK*\\x00\\x00\\x00:\\x00\\x00\\x0F\\xA0\\xFF\\xFF\\xFF\\xFF"
+ "\\xFF\\xFF\\xFF\\xFF"
// gzip-compressed block: http://www.gzip.org/zlib/rfc-gzip.html
+ "\\x1F\\x8B" // gzip magic signature
+ "\\x08" // Compression method: 8 = "deflate"
+ "\\x00" // Flags
+ "\\x00\\x00\\x00\\x00" // mtime
+ "\\x00" // XFL (extra flags)
// OS (0 = FAT filesystems, 3 = Unix). However, this field
// sometimes gets set to 0 on Linux and Mac, so we reset it to 3.
+ "\\x03"
+ "\\xED\\xC3\\xC1\\x11\\x00 \\x08\\xC00DD\\xDD\\x7Fa"
+ "\\xD6\\xE8\\xA3\\xB9K\\x84`\\x96Q\\xD3\\xA8\\xDB\\xA8e\\xD4c"
+ "\\xD46\\xEA5\\xEA3\\xEA7\\xE7\\x00LI\\x5Cs\\xA0\\x0F\\x00\\x00";
final int correctGzipBlockLength = 82;
String returnedStr = createTestBlockStr(GZ, correctGzipBlockLength);
assertEquals(correctTestBlockStr, returnedStr);
}
@Test
public void testReaderV2() throws IOException {
if(includesTag) {
TEST_UTIL.getConfiguration().setInt("hfile.format.version", 3);
}
for (Compression.Algorithm algo : COMPRESSION_ALGORITHMS) {
for (boolean pread : new boolean[] { false, true }) {
LOG.info("testReaderV2: Compression algorithm: " + algo +
", pread=" + pread);
Path path = new Path(TEST_UTIL.getDataTestDir(), "blocks_v2_"
+ algo);
FSDataOutputStream os = fs.create(path);
Writer hbw = new Writer(algo, null,
includesMemstoreTS, includesTag);
long totalSize = 0;
for (int blockId = 0; blockId < 2; ++blockId) {
DataOutputStream dos = hbw.startWriting(BlockType.DATA);
for (int i = 0; i < 1234; ++i)
dos.writeInt(i);
hbw.writeHeaderAndData(os);
totalSize += hbw.getOnDiskSizeWithHeader();
}
os.close();
FSDataInputStream is = fs.open(path);
HFileContext meta = new HFileContextBuilder()
.withHBaseCheckSum(false)
.withIncludesMvcc(includesMemstoreTS)
.withIncludesTags(includesTag)
.withCompression(algo)
.build();
HFileBlock.FSReader hbr =
new HFileBlock.FSReaderImpl(new FSDataInputStreamWrapper(is), totalSize, fs, path, meta);
HFileBlock b = hbr.readBlockData(0, -1, -1, pread);
is.close();
b.sanityCheck();
assertEquals(4936, b.getUncompressedSizeWithoutHeader());
assertEquals(algo == GZ ? 2173 : 4936,
b.getOnDiskSizeWithoutHeader() - b.totalChecksumBytes());
HFileBlock expected = b;
if (algo == GZ) {
is = fs.open(path);
hbr = new HFileBlock.FSReaderImpl(new FSDataInputStreamWrapper(is), totalSize, fs, path,
meta);
b = hbr.readBlockData(0, 2173 + HConstants.HFILEBLOCK_HEADER_SIZE_NO_CHECKSUM +
b.totalChecksumBytes(), -1, pread);
assertEquals(expected, b);
int wrongCompressedSize = 2172;
try {
b = hbr.readBlockData(0, wrongCompressedSize
+ HConstants.HFILEBLOCK_HEADER_SIZE_NO_CHECKSUM, -1, pread);
fail("Exception expected");
} catch (IOException ex) {
String expectedPrefix = "On-disk size without header provided is "
+ wrongCompressedSize + ", but block header contains "
+ b.getOnDiskSizeWithoutHeader() + ".";
assertTrue("Invalid exception message: '" + ex.getMessage()
+ "'.\nMessage is expected to start with: '" + expectedPrefix
+ "'", ex.getMessage().startsWith(expectedPrefix));
}
is.close();
}
}
}
}
/**
* Test encoding/decoding data blocks.
* @throws IOException a bug or a problem with temporary files.
*/
@Test
public void testDataBlockEncoding() throws IOException {
if(includesTag) {
TEST_UTIL.getConfiguration().setInt("hfile.format.version", 3);
}
final int numBlocks = 5;
for (Compression.Algorithm algo : COMPRESSION_ALGORITHMS) {
for (boolean pread : new boolean[] { false, true }) {
for (DataBlockEncoding encoding : DataBlockEncoding.values()) {
LOG.info("testDataBlockEncoding algo " + algo +
" pread = " + pread +
" encoding " + encoding);
Path path = new Path(TEST_UTIL.getDataTestDir(), "blocks_v2_"
+ algo + "_" + encoding.toString());
FSDataOutputStream os = fs.create(path);
HFileDataBlockEncoder dataBlockEncoder = (encoding != DataBlockEncoding.NONE) ?
new HFileDataBlockEncoderImpl(encoding) : NoOpDataBlockEncoder.INSTANCE;
TestHFileBlockCompatibility.Writer hbw =
new TestHFileBlockCompatibility.Writer(algo,
dataBlockEncoder, includesMemstoreTS, includesTag);
long totalSize = 0;
final List<Integer> encodedSizes = new ArrayList<Integer>();
final List<ByteBuffer> encodedBlocks = new ArrayList<ByteBuffer>();
for (int blockId = 0; blockId < numBlocks; ++blockId) {
hbw.startWriting(BlockType.DATA);
TestHFileBlock.writeTestKeyValues(hbw, blockId, pread, includesTag);
hbw.writeHeaderAndData(os);
int headerLen = HConstants.HFILEBLOCK_HEADER_SIZE_NO_CHECKSUM;
byte[] encodedResultWithHeader = hbw.getUncompressedDataWithHeader();
final int encodedSize = encodedResultWithHeader.length - headerLen;
if (encoding != DataBlockEncoding.NONE) {
// We need to account for the two-byte encoding algorithm ID that
// comes after the 24-byte block header but before encoded KVs.
headerLen += DataBlockEncoding.ID_SIZE;
}
byte[] encodedDataSection =
new byte[encodedResultWithHeader.length - headerLen];
System.arraycopy(encodedResultWithHeader, headerLen,
encodedDataSection, 0, encodedDataSection.length);
final ByteBuffer encodedBuf =
ByteBuffer.wrap(encodedDataSection);
encodedSizes.add(encodedSize);
encodedBlocks.add(encodedBuf);
totalSize += hbw.getOnDiskSizeWithHeader();
}
os.close();
FSDataInputStream is = fs.open(path);
HFileContext meta = new HFileContextBuilder()
.withHBaseCheckSum(false)
.withIncludesMvcc(includesMemstoreTS)
.withIncludesTags(includesTag)
.withCompression(algo)
.build();
HFileBlock.FSReaderImpl hbr = new HFileBlock.FSReaderImpl(new FSDataInputStreamWrapper(is),
totalSize, fs, path, meta);
hbr.setDataBlockEncoder(dataBlockEncoder);
hbr.setIncludesMemstoreTS(includesMemstoreTS);
HFileBlock b;
int pos = 0;
for (int blockId = 0; blockId < numBlocks; ++blockId) {
b = hbr.readBlockData(pos, -1, -1, pread);
b.sanityCheck();
if (meta.isCompressedOrEncrypted()) {
assertFalse(b.isUnpacked());
b = b.unpack(meta, hbr);
}
pos += b.getOnDiskSizeWithHeader();
assertEquals((int) encodedSizes.get(blockId),
b.getUncompressedSizeWithoutHeader());
ByteBuff actualBuffer = b.getBufferWithoutHeader();
if (encoding != DataBlockEncoding.NONE) {
// We expect a two-byte big-endian encoding id.
assertEquals(0, actualBuffer.get(0));
assertEquals(encoding.getId(), actualBuffer.get(1));
actualBuffer.position(2);
actualBuffer = actualBuffer.slice();
}
ByteBuffer expectedBuffer = encodedBlocks.get(blockId);
expectedBuffer.rewind();
// test if content matches, produce nice message
TestHFileBlock.assertBuffersEqual(new SingleByteBuff(expectedBuffer), actualBuffer,
algo, encoding, pread);
}
is.close();
}
}
}
}
/**
* This is the version of the HFileBlock.Writer that is used to
* create V2 blocks with minor version 0. These blocks do not
* have hbase-level checksums. The code is here to test
* backward compatibility. The reason we do not inherit from
* HFileBlock.Writer is because we never ever want to change the code
* in this class but the code in HFileBlock.Writer will continually
* evolve.
*/
public static final class Writer extends HFileBlock.Writer {
// These constants are as they were in minorVersion 0.
private static final int HEADER_SIZE = HConstants.HFILEBLOCK_HEADER_SIZE_NO_CHECKSUM;
private static final boolean DONT_FILL_HEADER = HFileBlock.DONT_FILL_HEADER;
private static final byte[] DUMMY_HEADER = HFileBlock.DUMMY_HEADER_NO_CHECKSUM;
private enum State {
INIT,
WRITING,
BLOCK_READY
};
/** Writer state. Used to ensure the correct usage protocol. */
private State state = State.INIT;
/** Compression algorithm for all blocks this instance writes. */
private final Compression.Algorithm compressAlgo;
/** Data block encoder used for data blocks */
private final HFileDataBlockEncoder dataBlockEncoder;
private HFileBlockEncodingContext dataBlockEncodingCtx;
/** block encoding context for non-data blocks */
private HFileBlockDefaultEncodingContext defaultBlockEncodingCtx;
/**
* The stream we use to accumulate data in uncompressed format for each
* block. We reset this stream at the end of each block and reuse it. The
* header is written as the first {@link #HEADER_SIZE} bytes into this
* stream.
*/
private ByteArrayOutputStream baosInMemory;
/** Compressor, which is also reused between consecutive blocks. */
private Compressor compressor;
/**
* Current block type. Set in {@link #startWriting(BlockType)}. Could be
* changed in {@link #encodeDataBlockForDisk()} from {@link BlockType#DATA}
* to {@link BlockType#ENCODED_DATA}.
*/
private BlockType blockType;
/**
* A stream that we write uncompressed bytes to, which compresses them and
* writes them to {@link #baosInMemory}.
*/
private DataOutputStream userDataStream;
/**
* Bytes to be written to the file system, including the header. Compressed
* if compression is turned on.
*/
private byte[] onDiskBytesWithHeader;
/**
* Valid in the READY state. Contains the header and the uncompressed (but
* potentially encoded, if this is a data block) bytes, so the length is
* {@link #uncompressedSizeWithoutHeader} + {@link org.apache.hadoop.hbase.HConstants#HFILEBLOCK_HEADER_SIZE}.
*/
private byte[] uncompressedBytesWithHeader;
/**
* Current block's start offset in the {@link HFile}. Set in
* {@link #writeHeaderAndData(FSDataOutputStream)}.
*/
private long startOffset;
/**
* Offset of previous block by block type. Updated when the next block is
* started.
*/
private long[] prevOffsetByType;
/** The offset of the previous block of the same type */
private long prevOffset;
private int unencodedDataSizeWritten;
public Writer(Compression.Algorithm compressionAlgorithm,
HFileDataBlockEncoder dataBlockEncoder, boolean includesMemstoreTS, boolean includesTag) {
this(dataBlockEncoder, new HFileContextBuilder().withHBaseCheckSum(false)
.withIncludesMvcc(includesMemstoreTS).withIncludesTags(includesTag)
.withCompression(compressionAlgorithm).build());
}
public Writer(HFileDataBlockEncoder dataBlockEncoder, HFileContext meta) {
super(dataBlockEncoder, meta);
compressAlgo = meta.getCompression() == null ? NONE : meta.getCompression();
this.dataBlockEncoder = dataBlockEncoder != null ? dataBlockEncoder
: NoOpDataBlockEncoder.INSTANCE;
defaultBlockEncodingCtx = new HFileBlockDefaultEncodingContext(null, DUMMY_HEADER, meta);
dataBlockEncodingCtx = this.dataBlockEncoder.newDataBlockEncodingContext(DUMMY_HEADER, meta);
baosInMemory = new ByteArrayOutputStream();
prevOffsetByType = new long[BlockType.values().length];
for (int i = 0; i < prevOffsetByType.length; ++i)
prevOffsetByType[i] = -1;
}
/**
* Starts writing into the block. The previous block's data is discarded.
*
* @return the stream the user can write their data into
* @throws IOException
*/
public DataOutputStream startWriting(BlockType newBlockType)
throws IOException {
if (state == State.BLOCK_READY && startOffset != -1) {
// We had a previous block that was written to a stream at a specific
// offset. Save that offset as the last offset of a block of that type.
prevOffsetByType[blockType.getId()] = startOffset;
}
startOffset = -1;
blockType = newBlockType;
baosInMemory.reset();
baosInMemory.write(DUMMY_HEADER);
state = State.WRITING;
// We will compress it later in finishBlock()
userDataStream = new DataOutputStream(baosInMemory);
if (newBlockType == BlockType.DATA) {
this.dataBlockEncoder.startBlockEncoding(dataBlockEncodingCtx, userDataStream);
}
this.unencodedDataSizeWritten = 0;
return userDataStream;
}
@Override
public void write(Cell c) throws IOException {
KeyValue kv = KeyValueUtil.ensureKeyValue(c);
expectState(State.WRITING);
this.dataBlockEncoder.encode(kv, dataBlockEncodingCtx, this.userDataStream);
this.unencodedDataSizeWritten += kv.getLength();
if (dataBlockEncodingCtx.getHFileContext().isIncludesMvcc()) {
this.unencodedDataSizeWritten += WritableUtils.getVIntSize(kv.getSequenceId());
}
}
/**
* Returns the stream for the user to write to. The block writer takes care
* of handling compression and buffering for caching on write. Can only be
* called in the "writing" state.
*
* @return the data output stream for the user to write to
*/
DataOutputStream getUserDataStream() {
expectState(State.WRITING);
return userDataStream;
}
/**
* Transitions the block writer from the "writing" state to the "block
* ready" state. Does nothing if a block is already finished.
*/
void ensureBlockReady() throws IOException {
Preconditions.checkState(state != State.INIT,
"Unexpected state: " + state);
if (state == State.BLOCK_READY)
return;
// This will set state to BLOCK_READY.
finishBlock();
}
/**
* An internal method that flushes the compressing stream (if using
* compression), serializes the header, and takes care of the separate
* uncompressed stream for caching on write, if applicable. Sets block
* write state to "block ready".
*/
void finishBlock() throws IOException {
if (blockType == BlockType.DATA) {
this.dataBlockEncoder.endBlockEncoding(dataBlockEncodingCtx, userDataStream,
baosInMemory.toByteArray(), blockType);
blockType = dataBlockEncodingCtx.getBlockType();
}
userDataStream.flush();
// This does an array copy, so it is safe to cache this byte array.
uncompressedBytesWithHeader = baosInMemory.toByteArray();
prevOffset = prevOffsetByType[blockType.getId()];
// We need to set state before we can package the block up for
// cache-on-write. In a way, the block is ready, but not yet encoded or
// compressed.
state = State.BLOCK_READY;
if (blockType == BlockType.DATA || blockType == BlockType.ENCODED_DATA) {
onDiskBytesWithHeader = dataBlockEncodingCtx
.compressAndEncrypt(uncompressedBytesWithHeader);
} else {
onDiskBytesWithHeader = defaultBlockEncodingCtx
.compressAndEncrypt(uncompressedBytesWithHeader);
}
// put the header for on disk bytes
putHeader(onDiskBytesWithHeader, 0,
onDiskBytesWithHeader.length,
uncompressedBytesWithHeader.length);
//set the header for the uncompressed bytes (for cache-on-write)
putHeader(uncompressedBytesWithHeader, 0,
onDiskBytesWithHeader.length,
uncompressedBytesWithHeader.length);
}
/**
* Put the header into the given byte array at the given offset.
* @param onDiskSize size of the block on disk
* @param uncompressedSize size of the block after decompression (but
* before optional data block decoding)
*/
private void putHeader(byte[] dest, int offset, int onDiskSize,
int uncompressedSize) {
offset = blockType.put(dest, offset);
offset = Bytes.putInt(dest, offset, onDiskSize - HEADER_SIZE);
offset = Bytes.putInt(dest, offset, uncompressedSize - HEADER_SIZE);
Bytes.putLong(dest, offset, prevOffset);
}
/**
* Similar to {@link #writeHeaderAndData(FSDataOutputStream)}, but records
* the offset of this block so that it can be referenced in the next block
* of the same type.
*
* @param out
* @throws IOException
*/
public void writeHeaderAndData(FSDataOutputStream out) throws IOException {
long offset = out.getPos();
if (startOffset != -1 && offset != startOffset) {
throw new IOException("A " + blockType + " block written to a "
+ "stream twice, first at offset " + startOffset + ", then at "
+ offset);
}
startOffset = offset;
writeHeaderAndData((DataOutputStream) out);
}
/**
* Writes the header and the compressed data of this block (or uncompressed
* data when not using compression) into the given stream. Can be called in
* the "writing" state or in the "block ready" state. If called in the
* "writing" state, transitions the writer to the "block ready" state.
*
* @param out the output stream to write the
* @throws IOException
*/
private void writeHeaderAndData(DataOutputStream out) throws IOException {
ensureBlockReady();
out.write(onDiskBytesWithHeader);
}
/**
* Returns the header or the compressed data (or uncompressed data when not
* using compression) as a byte array. Can be called in the "writing" state
* or in the "block ready" state. If called in the "writing" state,
* transitions the writer to the "block ready" state.
*
* @return header and data as they would be stored on disk in a byte array
* @throws IOException
*/
public byte[] getHeaderAndData() throws IOException {
ensureBlockReady();
return onDiskBytesWithHeader;
}
/**
* Releases the compressor this writer uses to compress blocks into the
* compressor pool. Needs to be called before the writer is discarded.
*/
public void releaseCompressor() {
if (compressor != null) {
compressAlgo.returnCompressor(compressor);
compressor = null;
}
}
/**
* Returns the on-disk size of the data portion of the block. This is the
* compressed size if compression is enabled. Can only be called in the
* "block ready" state. Header is not compressed, and its size is not
* included in the return value.
*
* @return the on-disk size of the block, not including the header.
*/
public int getOnDiskSizeWithoutHeader() {
expectState(State.BLOCK_READY);
return onDiskBytesWithHeader.length - HEADER_SIZE;
}
/**
* Returns the on-disk size of the block. Can only be called in the
* "block ready" state.
*
* @return the on-disk size of the block ready to be written, including the
* header size
*/
public int getOnDiskSizeWithHeader() {
expectState(State.BLOCK_READY);
return onDiskBytesWithHeader.length;
}
/**
* The uncompressed size of the block data. Does not include header size.
*/
public int getUncompressedSizeWithoutHeader() {
expectState(State.BLOCK_READY);
return uncompressedBytesWithHeader.length - HEADER_SIZE;
}
/**
* The uncompressed size of the block data, including header size.
*/
public int getUncompressedSizeWithHeader() {
expectState(State.BLOCK_READY);
return uncompressedBytesWithHeader.length;
}
/** @return true if a block is being written */
public boolean isWriting() {
return state == State.WRITING;
}
/**
* Returns the number of bytes written into the current block so far, or
* zero if not writing the block at the moment. Note that this will return
* zero in the "block ready" state as well.
*
* @return the number of bytes written
*/
public int blockSizeWritten() {
if (state != State.WRITING)
return 0;
return this.unencodedDataSizeWritten;
}
/**
* Returns the header followed by the uncompressed data, even if using
* compression. This is needed for storing uncompressed blocks in the block
* cache. Can be called in the "writing" state or the "block ready" state.
*
* @return uncompressed block bytes for caching on write
*/
private byte[] getUncompressedDataWithHeader() {
expectState(State.BLOCK_READY);
return uncompressedBytesWithHeader;
}
private void expectState(State expectedState) {
if (state != expectedState) {
throw new IllegalStateException("Expected state: " + expectedState +
", actual state: " + state);
}
}
/**
* Similar to {@link #getUncompressedBufferWithHeader()} but returns a byte
* buffer.
*
* @return uncompressed block for caching on write in the form of a buffer
*/
public ByteBuffer getUncompressedBufferWithHeader() {
byte[] b = getUncompressedDataWithHeader();
return ByteBuffer.wrap(b, 0, b.length);
}
/**
* Takes the given {@link BlockWritable} instance, creates a new block of
* its appropriate type, writes the writable into this block, and flushes
* the block into the output stream. The writer is instructed not to buffer
* uncompressed bytes for cache-on-write.
*
* @param bw the block-writable object to write as a block
* @param out the file system output stream
* @throws IOException
*/
public void writeBlock(BlockWritable bw, FSDataOutputStream out)
throws IOException {
bw.writeToBlock(startWriting(bw.getBlockType()));
writeHeaderAndData(out);
}
/**
* Creates a new HFileBlock.
*/
public HFileBlock getBlockForCaching() {
HFileContext meta = new HFileContextBuilder()
.withHBaseCheckSum(false)
.withChecksumType(ChecksumType.NULL)
.withBytesPerCheckSum(0)
.build();
return new HFileBlock(blockType, getOnDiskSizeWithoutHeader(),
getUncompressedSizeWithoutHeader(), prevOffset,
getUncompressedBufferWithHeader(), DONT_FILL_HEADER, startOffset,
getOnDiskSizeWithoutHeader(), meta);
}
}
}

View File

@ -185,8 +185,7 @@ public class TestHFileBlockIndex {
}
missCount += 1;
prevBlock = realReader.readBlockData(offset, onDiskSize,
-1, pread);
prevBlock = realReader.readBlockData(offset, onDiskSize, pread);
prevOffset = offset;
prevOnDiskSize = onDiskSize;
prevPread = pread;

View File

@ -92,8 +92,7 @@ public class TestHFileDataBlockEncoder {
if (blockEncoder.getDataBlockEncoding() ==
DataBlockEncoding.NONE) {
assertEquals(block.getBufferWithHeader(),
returnedBlock.getBufferWithHeader());
assertEquals(block.getBufferReadOnly(), returnedBlock.getBufferReadOnly());
} else {
if (BlockType.ENCODED_DATA != returnedBlock.getBlockType()) {
System.out.println(blockEncoder);
@ -127,7 +126,7 @@ public class TestHFileDataBlockEncoder {
.build();
HFileBlock block = new HFileBlock(BlockType.DATA, size, size, -1, buf,
HFileBlock.FILL_HEADER, 0,
0, hfileContext);
0, -1, hfileContext);
HFileBlock cacheBlock = createBlockOnDisk(kvs, block, useTags);
assertEquals(headerSize, cacheBlock.getDummyHeaderForVersion().length);
}
@ -198,7 +197,7 @@ public class TestHFileDataBlockEncoder {
.build();
HFileBlock b = new HFileBlock(BlockType.DATA, size, size, -1, buf,
HFileBlock.FILL_HEADER, 0,
0, meta);
0, -1, meta);
return b;
}
@ -220,7 +219,8 @@ public class TestHFileDataBlockEncoder {
byte[] encodedBytes = baos.toByteArray();
size = encodedBytes.length - block.getDummyHeaderForVersion().length;
return new HFileBlock(context.getBlockType(), size, size, -1, ByteBuffer.wrap(encodedBytes),
HFileBlock.FILL_HEADER, 0, block.getOnDiskDataSizeWithHeader(), block.getHFileContext());
HFileBlock.FILL_HEADER, 0, block.getOnDiskDataSizeWithHeader(), -1,
block.getHFileContext());
}
private void writeBlock(List<Cell> kvs, HFileContext fileContext, boolean useTags)

View File

@ -99,7 +99,7 @@ public class TestHFileEncryption {
private long readAndVerifyBlock(long pos, HFileContext ctx, HFileBlock.FSReaderImpl hbr, int size)
throws IOException {
HFileBlock b = hbr.readBlockData(pos, -1, -1, false);
HFileBlock b = hbr.readBlockData(pos, -1, false);
assertEquals(0, HFile.getChecksumFailuresCount());
b.sanityCheck();
assertFalse(b.isUnpacked());

View File

@ -218,7 +218,7 @@ public class TestHFileWriterV3 {
fsdis.seek(0);
long curBlockPos = 0;
while (curBlockPos <= trailer.getLastDataBlockOffset()) {
HFileBlock block = blockReader.readBlockData(curBlockPos, -1, -1, false)
HFileBlock block = blockReader.readBlockData(curBlockPos, -1, false)
.unpack(context, blockReader);
assertEquals(BlockType.DATA, block.getBlockType());
ByteBuff buf = block.getBufferWithoutHeader();
@ -279,13 +279,14 @@ public class TestHFileWriterV3 {
while (fsdis.getPos() < trailer.getLoadOnOpenDataOffset()) {
LOG.info("Current offset: " + fsdis.getPos() + ", scanning until " +
trailer.getLoadOnOpenDataOffset());
HFileBlock block = blockReader.readBlockData(curBlockPos, -1, -1, false)
HFileBlock block = blockReader.readBlockData(curBlockPos, -1, false)
.unpack(context, blockReader);
assertEquals(BlockType.META, block.getBlockType());
Text t = new Text();
ByteBuff buf = block.getBufferWithoutHeader();
if (Writables.getWritable(buf.array(), buf.arrayOffset(), buf.limit(), t) == null) {
throw new IOException("Failed to deserialize block " + this + " into a " + t.getClass().getSimpleName());
throw new IOException("Failed to deserialize block " + this +
" into a " + t.getClass().getSimpleName());
}
Text expectedText =
(metaCounter == 0 ? new Text("Paris") : metaCounter == 1 ? new Text(

View File

@ -78,14 +78,8 @@ public class TestPrefetch {
// Check that all of the data blocks were preloaded
BlockCache blockCache = cacheConf.getBlockCache();
long offset = 0;
HFileBlock prevBlock = null;
while (offset < reader.getTrailer().getLoadOnOpenDataOffset()) {
long onDiskSize = -1;
if (prevBlock != null) {
onDiskSize = prevBlock.getNextBlockOnDiskSizeWithHeader();
}
HFileBlock block = reader.readBlock(offset, onDiskSize, false, true, false, true, null,
null);
HFileBlock block = reader.readBlock(offset, -1, false, true, false, true, null, null);
BlockCacheKey blockCacheKey = new BlockCacheKey(reader.getName(), offset);
boolean isCached = blockCache.getBlock(blockCacheKey, true, false, true) != null;
if (block.getBlockType() == BlockType.DATA ||
@ -93,7 +87,6 @@ public class TestPrefetch {
block.getBlockType() == BlockType.INTERMEDIATE_INDEX) {
assertTrue(isCached);
}
prevBlock = block;
offset += block.getOnDiskSizeWithHeader();
}
}

View File

@ -227,15 +227,10 @@ public class TestCacheOnWriteInSchema {
assertTrue(testDescription, scanner.seekTo());
// Cribbed from io.hfile.TestCacheOnWrite
long offset = 0;
HFileBlock prevBlock = null;
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,
HFileBlock block = reader.readBlock(offset, -1, false, true,
false, true, null, DataBlockEncoding.NONE);
BlockCacheKey blockCacheKey = new BlockCacheKey(reader.getName(),
offset);
@ -249,7 +244,6 @@ public class TestCacheOnWriteInSchema {
"block: " + block + "\n" +
"blockCacheKey: " + blockCacheKey);
}
prevBlock = block;
offset += block.getOnDiskSizeWithHeader();
}
} finally {