/*
* Copyright 2011 The Apache Software Foundation
*
* 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.io.DataInput;
import java.io.IOException;
import java.nio.ByteBuffer;
import java.util.ArrayList;
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.Path;
import org.apache.hadoop.hbase.HConstants;
import org.apache.hadoop.hbase.KeyValue;
import org.apache.hadoop.hbase.fs.HFileSystem;
import org.apache.hadoop.hbase.io.encoding.DataBlockEncoder;
import org.apache.hadoop.hbase.io.encoding.DataBlockEncoding;
import org.apache.hadoop.hbase.io.hfile.BlockType.BlockCategory;
import org.apache.hadoop.hbase.io.hfile.HFile.FileInfo;
import org.apache.hadoop.hbase.util.Bytes;
import org.apache.hadoop.hbase.util.IdLock;
import org.apache.hadoop.io.WritableUtils;
/**
* {@link HFile} reader for version 2.
*/
public class HFileReaderV2 extends AbstractHFileReader {
private static final Log LOG = LogFactory.getLog(HFileReaderV2.class);
/**
* The size of a (key length, value length) tuple that prefixes each entry in
* a data block.
*/
private static int KEY_VALUE_LEN_SIZE = 2 * Bytes.SIZEOF_INT;
private boolean includesMemstoreTS = false;
private boolean decodeMemstoreTS = false;
private boolean shouldIncludeMemstoreTS() {
return includesMemstoreTS;
}
/**
* A "sparse lock" implementation allowing to lock on a particular block
* identified by offset. The purpose of this is to avoid two clients loading
* the same block, and have all but one client wait to get the block from the
* cache.
*/
private IdLock offsetLock = new IdLock();
/**
* Blocks read from the load-on-open section, excluding data root index, meta
* index, and file info.
*/
private List<HFileBlock> loadOnOpenBlocks = new ArrayList<HFileBlock>();
/** Minimum minor version supported by this HFile format */
static final int MIN_MINOR_VERSION = 0;
/** Maximum minor version supported by this HFile format */
static final int MAX_MINOR_VERSION = 1;
/**
* Opens a HFile. You must load the index before you can use it by calling
* {@link #loadFileInfo()}.
*
* @param path Path to HFile.
* @param trailer File trailer.
* @param fsdis input stream. Caller is responsible for closing the passed
* stream.
* @param size Length of the stream.
* @param closeIStream Whether to close the stream.
* @param cacheConf Cache configuration.
* @param preferredEncodingInCache the encoding to use in cache in case we
* have a choice. If the file is already encoded on disk, we will
* still use its on-disk encoding in cache.
*/
public HFileReaderV2(Path path, FixedFileTrailer trailer,
final FSDataInputStream fsdis, final FSDataInputStream fsdisNoFsChecksum,
final long size,
final boolean closeIStream, final CacheConfig cacheConf,
DataBlockEncoding preferredEncodingInCache, final HFileSystem hfs)
throws IOException {
super(path, trailer, fsdis, fsdisNoFsChecksum, size,
closeIStream, cacheConf, hfs);
trailer.expectMajorVersion(2);
validateMinorVersion(path, trailer.getMinorVersion());
HFileBlock.FSReaderV2 fsBlockReaderV2 = new HFileBlock.FSReaderV2(fsdis,
fsdisNoFsChecksum,
compressAlgo, fileSize, trailer.getMinorVersion(), hfs, path);
this.fsBlockReader = fsBlockReaderV2; // upcast
// Comparator class name is stored in the trailer in version 2.
comparator = trailer.createComparator();
dataBlockIndexReader = new HFileBlockIndex.BlockIndexReader(comparator,
trailer.getNumDataIndexLevels(), this);
metaBlockIndexReader = new HFileBlockIndex.BlockIndexReader(
Bytes.BYTES_RAWCOMPARATOR, 1);
// Parse load-on-open data.
HFileBlock.BlockIterator blockIter = fsBlockReaderV2.blockRange(
trailer.getLoadOnOpenDataOffset(),
fileSize - trailer.getTrailerSize());
// Data index. We also read statistics about the block index written after
// the root level.
dataBlockIndexReader.readMultiLevelIndexRoot(
blockIter.nextBlockWithBlockType(BlockType.ROOT_INDEX),
trailer.getDataIndexCount());
// Meta index.
metaBlockIndexReader.readRootIndex(
blockIter.nextBlockWithBlockType(BlockType.ROOT_INDEX),
trailer.getMetaIndexCount());
// File info
fileInfo = new FileInfo();
fileInfo.readFields(blockIter.nextBlockWithBlockType(BlockType.FILE_INFO).getByteStream());
lastKey = fileInfo.get(FileInfo.LASTKEY);
avgKeyLen = Bytes.toInt(fileInfo.get(FileInfo.AVG_KEY_LEN));
avgValueLen = Bytes.toInt(fileInfo.get(FileInfo.AVG_VALUE_LEN));
byte [] keyValueFormatVersion =
fileInfo.get(HFileWriterV2.KEY_VALUE_VERSION);
includesMemstoreTS = keyValueFormatVersion != null &&
Bytes.toInt(keyValueFormatVersion) ==
HFileWriterV2.KEY_VALUE_VER_WITH_MEMSTORE;
fsBlockReaderV2.setIncludesMemstoreTS(includesMemstoreTS);
if (includesMemstoreTS) {
decodeMemstoreTS = Bytes.toLong(fileInfo.get(HFileWriterV2.MAX_MEMSTORE_TS_KEY)) > 0;
}
// Read data block encoding algorithm name from file info.
dataBlockEncoder = HFileDataBlockEncoderImpl.createFromFileInfo(fileInfo,
preferredEncodingInCache);
fsBlockReaderV2.setDataBlockEncoder(dataBlockEncoder);
// Store all other load-on-open blocks for further consumption.
HFileBlock b;
while ((b = blockIter.nextBlock()) != null) {
loadOnOpenBlocks.add(b);
}
}
/**
* Create a Scanner on this file. No seeks or reads are done on creation. Call
* {@link HFileScanner#seekTo(byte[])} to position an start the read. There is
* nothing to clean up in a Scanner. Letting go of your references to the
* scanner is sufficient.
*
* @param cacheBlocks True if we should cache blocks read in by this scanner.
* @param pread Use positional read rather than seek+read if true (pread is
* better for random reads, seek+read is better scanning).
* @param isCompaction is scanner being used for a compaction?
* @return Scanner on this file.
*/
@Override
public HFileScanner getScanner(boolean cacheBlocks, final boolean pread,
final boolean isCompaction) {
// check if we want to use data block encoding in memory
if (dataBlockEncoder.useEncodedScanner(isCompaction)) {
return new EncodedScannerV2(this, cacheBlocks, pread, isCompaction,
includesMemstoreTS);
}
return new ScannerV2(this, cacheBlocks, pread, isCompaction);
}
/**
* @param metaBlockName
* @param cacheBlock Add block to cache, if found
* @return block wrapped in a ByteBuffer, with header skipped
* @throws IOException
*/
@Override
public ByteBuffer getMetaBlock(String metaBlockName, boolean cacheBlock)
throws IOException {
if (trailer.getMetaIndexCount() == 0) {
return null; // there are no meta blocks
}
if (metaBlockIndexReader == null) {
throw new IOException("Meta index not loaded");
}
byte[] mbname = Bytes.toBytes(metaBlockName);
int block = metaBlockIndexReader.rootBlockContainingKey(mbname, 0,
mbname.length);
if (block == -1)
return null;
long blockSize = metaBlockIndexReader.getRootBlockDataSize(block);
long startTimeNs = System.nanoTime();
// Per meta key from any given file, synchronize reads for said block. This
// is OK to do for meta blocks because the meta block index is always
// single-level.
synchronized (metaBlockIndexReader.getRootBlockKey(block)) {
// Check cache for block. If found return.
long metaBlockOffset = metaBlockIndexReader.getRootBlockOffset(block);
BlockCacheKey cacheKey = new BlockCacheKey(name, metaBlockOffset,
DataBlockEncoding.NONE, BlockType.META);
cacheBlock &= cacheConf.shouldCacheDataOnRead();
if (cacheConf.isBlockCacheEnabled()) {
HFileBlock cachedBlock =
(HFileBlock) cacheConf.getBlockCache().getBlock(cacheKey, cacheBlock, false);
if (cachedBlock != null) {
// Return a distinct 'shallow copy' of the block,
// so pos does not get messed by the scanner
getSchemaMetrics().updateOnCacheHit(BlockCategory.META, false);
return cachedBlock.getBufferWithoutHeader();
}
// Cache Miss, please load.
}
HFileBlock metaBlock = fsBlockReader.readBlockData(metaBlockOffset,
blockSize, -1, true);
passSchemaMetricsTo(metaBlock);
final long delta = System.nanoTime() - startTimeNs;
HFile.offerReadLatency(delta, true);
getSchemaMetrics().updateOnCacheMiss(BlockCategory.META, false, delta);
// Cache the block
if (cacheBlock) {
cacheConf.getBlockCache().cacheBlock(cacheKey, metaBlock,
cacheConf.isInMemory());
}
return metaBlock.getBufferWithoutHeader();
}
}
/**
* Read in a file block.
* @param dataBlockOffset offset to read.
* @param onDiskBlockSize size of the block
* @param cacheBlock
* @param pread Use positional read instead of seek+read (positional is
* better doing random reads whereas seek+read is better scanning).
* @param isCompaction is this block being read as part of a compaction
* @param expectedBlockType the block type we are expecting to read with this
* read operation, or null to read whatever block type is available
* and avoid checking (that might reduce caching efficiency of
* encoded data blocks)
* @return Block wrapped in a ByteBuffer.
* @throws IOException
*/
@Override
public HFileBlock readBlock(long dataBlockOffset, long onDiskBlockSize,
final boolean cacheBlock, boolean pread, final boolean isCompaction,
BlockType expectedBlockType)
throws IOException {
if (dataBlockIndexReader == null) {
throw new IOException("Block index not loaded");
}
if (dataBlockOffset < 0
|| dataBlockOffset >= trailer.getLoadOnOpenDataOffset()) {
throw new IOException("Requested block is out of range: "
+ dataBlockOffset + ", lastDataBlockOffset: "
+ trailer.getLastDataBlockOffset());
}
// For any given block from any given file, synchronize reads for said
// block.
// Without a cache, this synchronizing is needless overhead, but really
// the other choice is to duplicate work (which the cache would prevent you
// from doing).
BlockCacheKey cacheKey =
new BlockCacheKey(name, dataBlockOffset,
dataBlockEncoder.getEffectiveEncodingInCache(isCompaction),
expectedBlockType);
boolean useLock = false;
IdLock.Entry lockEntry = null;
try {
while (true) {
if (useLock) {
lockEntry = offsetLock.getLockEntry(dataBlockOffset);
}
// Check cache for block. If found return.
if (cacheConf.isBlockCacheEnabled()) {
// Try and get the block from the block cache. If the useLock variable is true then this
// is the second time through the loop and it should not be counted as a block cache miss.
HFileBlock cachedBlock = (HFileBlock)
cacheConf.getBlockCache().getBlock(cacheKey, cacheBlock, useLock);
if (cachedBlock != null) {
BlockCategory blockCategory =
cachedBlock.getBlockType().getCategory();
getSchemaMetrics().updateOnCacheHit(blockCategory, isCompaction);
if (cachedBlock.getBlockType() == BlockType.DATA) {
HFile.dataBlockReadCnt.incrementAndGet();
}
validateBlockType(cachedBlock, expectedBlockType);
// Validate encoding type for encoded blocks. We include encoding
// type in the cache key, and we expect it to match on a cache hit.
if (cachedBlock.getBlockType() == BlockType.ENCODED_DATA &&
cachedBlock.getDataBlockEncoding() !=
dataBlockEncoder.getEncodingInCache()) {
throw new IOException("Cached block under key " + cacheKey + " " +
"has wrong encoding: " + cachedBlock.getDataBlockEncoding() +
" (expected: " + dataBlockEncoder.getEncodingInCache() + ")");
}
return cachedBlock;
}
// Carry on, please load.
}
if (!useLock) {
// check cache again with lock
useLock = true;
continue;
}
// Load block from filesystem.
long startTimeNs = System.nanoTime();
HFileBlock hfileBlock = fsBlockReader.readBlockData(dataBlockOffset,
onDiskBlockSize, -1, pread);
hfileBlock = dataBlockEncoder.diskToCacheFormat(hfileBlock,
isCompaction);
validateBlockType(hfileBlock, expectedBlockType);
passSchemaMetricsTo(hfileBlock);
BlockCategory blockCategory = hfileBlock.getBlockType().getCategory();
final long delta = System.nanoTime() - startTimeNs;
HFile.offerReadLatency(delta, pread);
getSchemaMetrics().updateOnCacheMiss(blockCategory, isCompaction, delta);
// Cache the block if necessary
if (cacheBlock && cacheConf.shouldCacheBlockOnRead(
hfileBlock.getBlockType().getCategory())) {
cacheConf.getBlockCache().cacheBlock(cacheKey, hfileBlock,
cacheConf.isInMemory());
}
if (hfileBlock.getBlockType() == BlockType.DATA) {
HFile.dataBlockReadCnt.incrementAndGet();
}
return hfileBlock;
}
} finally {
if (lockEntry != null) {
offsetLock.releaseLockEntry(lockEntry);
}
}
}
/**
* Compares the actual type of a block retrieved from cache or disk with its
* expected type and throws an exception in case of a mismatch. Expected
* block type of {@link BlockType#DATA} is considered to match the actual
* block type [@link {@link BlockType#ENCODED_DATA} as well.
* @param block a block retrieved from cache or disk
* @param expectedBlockType the expected block type, or null to skip the
* check
*/
private void validateBlockType(HFileBlock block,
BlockType expectedBlockType) throws IOException {
if (expectedBlockType == null) {
return;
}
BlockType actualBlockType = block.getBlockType();
if (actualBlockType == BlockType.ENCODED_DATA &&
expectedBlockType == BlockType.DATA) {
// We consider DATA to match ENCODED_DATA for the purpose of this
// verification.
return;
}
if (actualBlockType != expectedBlockType) {
throw new IOException("Expected block type " + expectedBlockType + ", " +
"but got " + actualBlockType + ": " + block);
}
}
/**
* @return Last key in the file. May be null if file has no entries. Note that
* this is not the last row key, but rather the byte form of the last
* KeyValue.
*/
@Override
public byte[] getLastKey() {
return dataBlockIndexReader.isEmpty() ? null : lastKey;
}
/**
* @return Midkey for this file. We work with block boundaries only so
* returned midkey is an approximation only.
* @throws IOException
*/
@Override
public byte[] midkey() throws IOException {
return dataBlockIndexReader.midkey();
}
@Override
public void close() throws IOException {
close(cacheConf.shouldEvictOnClose());
}
public void close(boolean evictOnClose) throws IOException {
if (evictOnClose && cacheConf.isBlockCacheEnabled()) {
int numEvicted = cacheConf.getBlockCache().evictBlocksByHfileName(name);
if (LOG.isTraceEnabled()) {
LOG.trace("On close, file=" + name + " evicted=" + numEvicted
+ " block(s)");
}
}
if (closeIStream) {
if (istream != istreamNoFsChecksum && istreamNoFsChecksum != null) {
istreamNoFsChecksum.close();
istreamNoFsChecksum = null;
}
if (istream != null) {
istream.close();
istream = null;
}
}
getSchemaMetrics().flushMetrics();
}
protected abstract static class AbstractScannerV2
extends AbstractHFileReader.Scanner {
protected HFileBlock block;
/**
* The next indexed key is to keep track of the indexed key of the next data block.
* If the nextIndexedKey is HConstants.NO_NEXT_INDEXED_KEY, it means that the
* current data block is the last data block.
*
* If the nextIndexedKey is null, it means the nextIndexedKey has not been loaded yet.
*/
protected byte[] nextIndexedKey;
public AbstractScannerV2(HFileReaderV2 r, boolean cacheBlocks,
final boolean pread, final boolean isCompaction) {
super(r, cacheBlocks, pread, isCompaction);
}
/**
* An internal API function. Seek to the given key, optionally rewinding to
* the first key of the block before doing the seek.
*
* @param key key byte array
* @param offset key offset in the key byte array
* @param length key length
* @param rewind whether to rewind to the first key of the block before
* doing the seek. If this is false, we are assuming we never go
* back, otherwise the result is undefined.
* @return -1 if the key is earlier than the first key of the file,
* 0 if we are at the given key, and 1 if we are past the given key
* @throws IOException
*/
protected int seekTo(byte[] key, int offset, int length, boolean rewind)
throws IOException {
HFileBlockIndex.BlockIndexReader indexReader =
reader.getDataBlockIndexReader();
BlockWithScanInfo blockWithScanInfo =
indexReader.loadDataBlockWithScanInfo(key, offset, length, block,
cacheBlocks, pread, isCompaction);
if (blockWithScanInfo == null || blockWithScanInfo.getHFileBlock() == null) {
// This happens if the key e.g. falls before the beginning of the file.
return -1;
}
return loadBlockAndSeekToKey(blockWithScanInfo.getHFileBlock(),
blockWithScanInfo.getNextIndexedKey(), rewind, key, offset, length, false);
}
protected abstract ByteBuffer getFirstKeyInBlock(HFileBlock curBlock);
protected abstract int loadBlockAndSeekToKey(HFileBlock seekToBlock, byte[] nextIndexedKey,
boolean rewind, byte[] key, int offset, int length, boolean seekBefore)
throws IOException;
@Override
public int seekTo(byte[] key, int offset, int length) throws IOException {
// Always rewind to the first key of the block, because the given key
// might be before or after the current key.
return seekTo(key, offset, length, true);
}
@Override
public int reseekTo(byte[] key, int offset, int length) throws IOException {
int compared;
if (isSeeked()) {
ByteBuffer bb = getKey();
compared = reader.getComparator().compare(key, offset,
length, bb.array(), bb.arrayOffset(), bb.limit());
if (compared < 1) {
// If the required key is less than or equal to current key, then
// don't do anything.
return compared;
} else {
if (this.nextIndexedKey != null &&
(this.nextIndexedKey == HConstants.NO_NEXT_INDEXED_KEY ||
reader.getComparator().compare(key, offset, length,
nextIndexedKey, 0, nextIndexedKey.length) < 0)) {
// The reader shall continue to scan the current data block instead of querying the
// block index as long as it knows the target key is strictly smaller than
// the next indexed key or the current data block is the last data block.
return loadBlockAndSeekToKey(this.block, this.nextIndexedKey,
false, key, offset, length, false);
}
}
}
// Don't rewind on a reseek operation, because reseek implies that we are
// always going forward in the file.
return seekTo(key, offset, length, false);
}
@Override
public boolean seekBefore(byte[] key, int offset, int length)
throws IOException {
HFileBlock seekToBlock =
reader.getDataBlockIndexReader().seekToDataBlock(key, offset, length,
block, cacheBlocks, pread, isCompaction);
if (seekToBlock == null) {
return false;
}
ByteBuffer firstKey = getFirstKeyInBlock(seekToBlock);
if (reader.getComparator().compare(firstKey.array(),
firstKey.arrayOffset(), firstKey.limit(), key, offset, length) == 0)
{
long previousBlockOffset = seekToBlock.getPrevBlockOffset();
// The key we are interested in
if (previousBlockOffset == -1) {
// we have a 'problem', the key we want is the first of the file.
return false;
}
// It is important that we compute and pass onDiskSize to the block
// reader so that it does not have to read the header separately to
// figure out the size.
seekToBlock = reader.readBlock(previousBlockOffset,
seekToBlock.getOffset() - previousBlockOffset, cacheBlocks,
pread, isCompaction, BlockType.DATA);
// TODO shortcut: seek forward in this block to the last key of the
// block.
}
byte[] firstKeyInCurrentBlock = Bytes.getBytes(firstKey);
loadBlockAndSeekToKey(seekToBlock, firstKeyInCurrentBlock, true, key, offset, length, true);
return true;
}
/**
* Scans blocks in the "scanned" section of the {@link HFile} until the next
* data block is found.
*
* @return the next block, or null if there are no more data blocks
* @throws IOException
*/
protected HFileBlock readNextDataBlock() throws IOException {
long lastDataBlockOffset = reader.getTrailer().getLastDataBlockOffset();
if (block == null)
return null;
HFileBlock curBlock = block;
do {
if (curBlock.getOffset() >= lastDataBlockOffset)
return null;
if (curBlock.getOffset() < 0) {
throw new IOException("Invalid block file offset: " + block);
}
// We are reading the next block without block type validation, because
// it might turn out to be a non-data block.
curBlock = reader.readBlock(curBlock.getOffset()
+ curBlock.getOnDiskSizeWithHeader(),
curBlock.getNextBlockOnDiskSizeWithHeader(), cacheBlocks, pread,
isCompaction, null);
} while (!(curBlock.getBlockType().equals(BlockType.DATA) ||
curBlock.getBlockType().equals(BlockType.ENCODED_DATA)));
return curBlock;
}
}
/**
* Implementation of {@link HFileScanner} interface.
*/
protected static class ScannerV2 extends AbstractScannerV2 {
private HFileReaderV2 reader;
public ScannerV2(HFileReaderV2 r, boolean cacheBlocks,
final boolean pread, final boolean isCompaction) {
super(r, cacheBlocks, pread, isCompaction);
this.reader = r;
}
@Override
public KeyValue getKeyValue() {
if (!isSeeked())
return null;
KeyValue ret = new KeyValue(blockBuffer.array(),
blockBuffer.arrayOffset() + blockBuffer.position(),
KEY_VALUE_LEN_SIZE + currKeyLen + currValueLen,
currKeyLen);
if (this.reader.shouldIncludeMemstoreTS()) {
ret.setMemstoreTS(currMemstoreTS);
}
return ret;
}
@Override
public ByteBuffer getKey() {
assertSeeked();
return ByteBuffer.wrap(
blockBuffer.array(),
blockBuffer.arrayOffset() + blockBuffer.position()
+ KEY_VALUE_LEN_SIZE, currKeyLen).slice();
}
@Override
public ByteBuffer getValue() {
assertSeeked();
return ByteBuffer.wrap(
blockBuffer.array(),
blockBuffer.arrayOffset() + blockBuffer.position()
+ KEY_VALUE_LEN_SIZE + currKeyLen, currValueLen).slice();
}
private void setNonSeekedState() {
block = null;
blockBuffer = null;
currKeyLen = 0;
currValueLen = 0;
currMemstoreTS = 0;
currMemstoreTSLen = 0;
}
/**
* Go to the next key/value in the block section. Loads the next block if
* necessary. If successful, {@link #getKey()} and {@link #getValue()} can
* be called.
*
* @return true if successfully navigated to the next key/value
*/
@Override
public boolean next() throws IOException {
assertSeeked();
try {
blockBuffer.position(blockBuffer.position() + KEY_VALUE_LEN_SIZE
+ currKeyLen + currValueLen + currMemstoreTSLen);
} catch (IllegalArgumentException e) {
LOG.error("Current pos = " + blockBuffer.position()
+ "; currKeyLen = " + currKeyLen + "; currValLen = "
+ currValueLen + "; block limit = " + blockBuffer.limit()
+ "; HFile name = " + reader.getName()
+ "; currBlock currBlockOffset = " + block.getOffset());
throw e;
}
if (blockBuffer.remaining() <= 0) {
long lastDataBlockOffset =
reader.getTrailer().getLastDataBlockOffset();
if (block.getOffset() >= lastDataBlockOffset) {
setNonSeekedState();
return false;
}
// read the next block
HFileBlock nextBlock = readNextDataBlock();
if (nextBlock == null) {
setNonSeekedState();
return false;
}
updateCurrBlock(nextBlock);
return true;
}
// We are still in the same block.
readKeyValueLen();
return true;
}
/**
* Positions this scanner at the start of the file.
*
* @return false if empty file; i.e. a call to next would return false and
* the current key and value are undefined.
* @throws IOException
*/
@Override
public boolean seekTo() throws IOException {
if (reader == null) {
return false;
}
if (reader.getTrailer().getEntryCount() == 0) {
// No data blocks.
return false;
}
long firstDataBlockOffset =
reader.getTrailer().getFirstDataBlockOffset();
if (block != null && block.getOffset() == firstDataBlockOffset) {
blockBuffer.rewind();
readKeyValueLen();
return true;
}
block = reader.readBlock(firstDataBlockOffset, -1, cacheBlocks, pread,
isCompaction, BlockType.DATA);
if (block.getOffset() < 0) {
throw new IOException("Invalid block offset: " + block.getOffset());
}
updateCurrBlock(block);
return true;
}
@Override
protected int loadBlockAndSeekToKey(HFileBlock seekToBlock, byte[] nextIndexedKey,
boolean rewind, byte[] key, int offset, int length, boolean seekBefore)
throws IOException {
if (block == null || block.getOffset() != seekToBlock.getOffset()) {
updateCurrBlock(seekToBlock);
} else if (rewind) {
blockBuffer.rewind();
}
// Update the nextIndexedKey
this.nextIndexedKey = nextIndexedKey;
return blockSeek(key, offset, length, seekBefore);
}
/**
* Updates the current block to be the given {@link HFileBlock}. Seeks to
* the the first key/value pair.
*
* @param newBlock the block to make current
*/
private void updateCurrBlock(HFileBlock newBlock) {
block = newBlock;
// sanity check
if (block.getBlockType() != BlockType.DATA) {
throw new IllegalStateException("ScannerV2 works only on data " +
"blocks, got " + block.getBlockType() + "; " +
"fileName=" + reader.name + ", " +
"dataBlockEncoder=" + reader.dataBlockEncoder + ", " +
"isCompaction=" + isCompaction);
}
blockBuffer = block.getBufferWithoutHeader();
readKeyValueLen();
blockFetches++;
// Reset the next indexed key
this.nextIndexedKey = null;
}
private final void readKeyValueLen() {
blockBuffer.mark();
currKeyLen = blockBuffer.getInt();
currValueLen = blockBuffer.getInt();
blockBuffer.reset();
if (this.reader.shouldIncludeMemstoreTS()) {
if (this.reader.decodeMemstoreTS) {
try {
int memstoreTSOffset = blockBuffer.arrayOffset()
+ blockBuffer.position() + KEY_VALUE_LEN_SIZE + currKeyLen
+ currValueLen;
currMemstoreTS = Bytes.readVLong(blockBuffer.array(),
memstoreTSOffset);
currMemstoreTSLen = WritableUtils.getVIntSize(currMemstoreTS);
} catch (Exception e) {
throw new RuntimeException("Error reading memstore timestamp", e);
}
} else {
currMemstoreTS = 0;
currMemstoreTSLen = 1;
}
}
if (currKeyLen < 0 || currValueLen < 0
|| currKeyLen > blockBuffer.limit()
|| currValueLen > blockBuffer.limit()) {
throw new IllegalStateException("Invalid currKeyLen " + currKeyLen
+ " or currValueLen " + currValueLen + ". Block offset: "
+ block.getOffset() + ", block length: " + blockBuffer.limit()
+ ", position: " + blockBuffer.position() + " (without header).");
}
}
/**
* Within a loaded block, seek looking for the last key that is smaller
* than (or equal to?) the key we are interested in.
*
* A note on the seekBefore: if you have seekBefore = true, AND the first
* key in the block = key, then you'll get thrown exceptions. The caller has
* to check for that case and load the previous block as appropriate.
*
* @param key the key to find
* @param seekBefore find the key before the given key in case of exact
* match.
* @return 0 in case of an exact key match, 1 in case of an inexact match
*/
private int blockSeek(byte[] key, int offset, int length,
boolean seekBefore) {
int klen, vlen;
long memstoreTS = 0;
int memstoreTSLen = 0;
int lastKeyValueSize = -1;
do {
blockBuffer.mark();
klen = blockBuffer.getInt();
vlen = blockBuffer.getInt();
blockBuffer.reset();
if (this.reader.shouldIncludeMemstoreTS()) {
if (this.reader.decodeMemstoreTS) {
try {
int memstoreTSOffset = blockBuffer.arrayOffset()
+ blockBuffer.position() + KEY_VALUE_LEN_SIZE + klen + vlen;
memstoreTS = Bytes.readVLong(blockBuffer.array(),
memstoreTSOffset);
memstoreTSLen = WritableUtils.getVIntSize(memstoreTS);
} catch (Exception e) {
throw new RuntimeException("Error reading memstore timestamp", e);
}
} else {
memstoreTS = 0;
memstoreTSLen = 1;
}
}
int keyOffset = blockBuffer.arrayOffset() + blockBuffer.position()
+ KEY_VALUE_LEN_SIZE;
int comp = reader.getComparator().compare(key, offset, length,
blockBuffer.array(), keyOffset, klen);
if (comp == 0) {
if (seekBefore) {
if (lastKeyValueSize < 0) {
throw new IllegalStateException("blockSeek with seekBefore "
+ "at the first key of the block: key="
+ Bytes.toStringBinary(key) + ", blockOffset="
+ block.getOffset() + ", onDiskSize="
+ block.getOnDiskSizeWithHeader());
}
blockBuffer.position(blockBuffer.position() - lastKeyValueSize);
readKeyValueLen();
return 1; // non exact match.
}
currKeyLen = klen;
currValueLen = vlen;
if (this.reader.shouldIncludeMemstoreTS()) {
currMemstoreTS = memstoreTS;
currMemstoreTSLen = memstoreTSLen;
}
return 0; // indicate exact match
}
if (comp < 0) {
if (lastKeyValueSize > 0)
blockBuffer.position(blockBuffer.position() - lastKeyValueSize);
readKeyValueLen();
return 1;
}
// The size of this key/value tuple, including key/value length fields.
lastKeyValueSize = klen + vlen + memstoreTSLen + KEY_VALUE_LEN_SIZE;
blockBuffer.position(blockBuffer.position() + lastKeyValueSize);
} while (blockBuffer.remaining() > 0);
// Seek to the last key we successfully read. This will happen if this is
// the last key/value pair in the file, in which case the following call
// to next() has to return false.
blockBuffer.position(blockBuffer.position() - lastKeyValueSize);
readKeyValueLen();
return 1; // didn't exactly find it.
}
@Override
protected ByteBuffer getFirstKeyInBlock(HFileBlock curBlock) {
ByteBuffer buffer = curBlock.getBufferWithoutHeader();
// It is safe to manipulate this buffer because we own the buffer object.
buffer.rewind();
int klen = buffer.getInt();
buffer.getInt();
ByteBuffer keyBuff = buffer.slice();
keyBuff.limit(klen);
keyBuff.rewind();
return keyBuff;
}
@Override
public String getKeyString() {
return Bytes.toStringBinary(blockBuffer.array(),
blockBuffer.arrayOffset() + blockBuffer.position()
+ KEY_VALUE_LEN_SIZE, currKeyLen);
}
@Override
public String getValueString() {
return Bytes.toString(blockBuffer.array(), blockBuffer.arrayOffset()
+ blockBuffer.position() + KEY_VALUE_LEN_SIZE + currKeyLen,
currValueLen);
}
}
/**
* ScannerV2 that operates on encoded data blocks.
*/
protected static class EncodedScannerV2 extends AbstractScannerV2 {
private DataBlockEncoder.EncodedSeeker seeker = null;
private DataBlockEncoder dataBlockEncoder = null;
private final boolean includesMemstoreTS;
public EncodedScannerV2(HFileReaderV2 reader, boolean cacheBlocks,
boolean pread, boolean isCompaction, boolean includesMemstoreTS) {
super(reader, cacheBlocks, pread, isCompaction);
this.includesMemstoreTS = includesMemstoreTS;
}
private void setDataBlockEncoder(DataBlockEncoder dataBlockEncoder) {
this.dataBlockEncoder = dataBlockEncoder;
seeker = dataBlockEncoder.createSeeker(reader.getComparator(),
includesMemstoreTS);
}
/**
* Updates the current block to be the given {@link HFileBlock}. Seeks to
* the the first key/value pair.
*
* @param newBlock the block to make current
*/
private void updateCurrentBlock(HFileBlock newBlock) {
block = newBlock;
// sanity checks
if (block.getBlockType() != BlockType.ENCODED_DATA) {
throw new IllegalStateException(
"EncodedScannerV2 works only on encoded data blocks");
}
short dataBlockEncoderId = block.getDataBlockEncodingId();
if (dataBlockEncoder == null ||
!DataBlockEncoding.isCorrectEncoder(dataBlockEncoder,
dataBlockEncoderId)) {
DataBlockEncoder encoder =
DataBlockEncoding.getDataBlockEncoderById(dataBlockEncoderId);
setDataBlockEncoder(encoder);
}
seeker.setCurrentBuffer(getEncodedBuffer(newBlock));
blockFetches++;
}
private ByteBuffer getEncodedBuffer(HFileBlock newBlock) {
ByteBuffer origBlock = newBlock.getBufferReadOnly();
ByteBuffer encodedBlock = ByteBuffer.wrap(origBlock.array(),
origBlock.arrayOffset() + newBlock.headerSize() +
DataBlockEncoding.ID_SIZE,
newBlock.getUncompressedSizeWithoutHeader() -
DataBlockEncoding.ID_SIZE).slice();
return encodedBlock;
}
@Override
public boolean seekTo() throws IOException {
if (reader == null) {
return false;
}
if (reader.getTrailer().getEntryCount() == 0) {
// No data blocks.
return false;
}
long firstDataBlockOffset =
reader.getTrailer().getFirstDataBlockOffset();
if (block != null && block.getOffset() == firstDataBlockOffset) {
seeker.rewind();
return true;
}
block = reader.readBlock(firstDataBlockOffset, -1, cacheBlocks, pread,
isCompaction, BlockType.DATA);
if (block.getOffset() < 0) {
throw new IOException("Invalid block offset: " + block.getOffset());
}
updateCurrentBlock(block);
return true;
}
@Override
public boolean next() throws IOException {
boolean isValid = seeker.next();
if (!isValid) {
block = readNextDataBlock();
isValid = block != null;
if (isValid) {
updateCurrentBlock(block);
}
}
return isValid;
}
@Override
public ByteBuffer getKey() {
assertValidSeek();
return seeker.getKeyDeepCopy();
}
@Override
public ByteBuffer getValue() {
assertValidSeek();
return seeker.getValueShallowCopy();
}
@Override
public KeyValue getKeyValue() {
if (block == null) {
return null;
}
return seeker.getKeyValue();
}
@Override
public String getKeyString() {
ByteBuffer keyBuffer = getKey();
return Bytes.toStringBinary(keyBuffer.array(),
keyBuffer.arrayOffset(), keyBuffer.limit());
}
@Override
public String getValueString() {
ByteBuffer valueBuffer = getValue();
return Bytes.toStringBinary(valueBuffer.array(),
valueBuffer.arrayOffset(), valueBuffer.limit());
}
private void assertValidSeek() {
if (block == null) {
throw new NotSeekedException();
}
}
@Override
protected ByteBuffer getFirstKeyInBlock(HFileBlock curBlock) {
return dataBlockEncoder.getFirstKeyInBlock(getEncodedBuffer(curBlock));
}
@Override
protected int loadBlockAndSeekToKey(HFileBlock seekToBlock, byte[] nextIndexedKey,
boolean rewind, byte[] key, int offset, int length, boolean seekBefore)
throws IOException {
if (block == null || block.getOffset() != seekToBlock.getOffset()) {
updateCurrentBlock(seekToBlock);
} else if (rewind) {
seeker.rewind();
}
this.nextIndexedKey = nextIndexedKey;
return seeker.seekToKeyInBlock(key, offset, length, seekBefore);
}
}
/**
* Returns a buffer with the Bloom filter metadata. The caller takes
* ownership of the buffer.
*/
@Override
public DataInput getGeneralBloomFilterMetadata() throws IOException {
return this.getBloomFilterMetadata(BlockType.GENERAL_BLOOM_META);
}
@Override
public DataInput getDeleteBloomFilterMetadata() throws IOException {
return this.getBloomFilterMetadata(BlockType.DELETE_FAMILY_BLOOM_META);
}
private DataInput getBloomFilterMetadata(BlockType blockType)
throws IOException {
if (blockType != BlockType.GENERAL_BLOOM_META &&
blockType != BlockType.DELETE_FAMILY_BLOOM_META) {
throw new RuntimeException("Block Type: " + blockType.toString() +
" is not supported") ;
}
for (HFileBlock b : loadOnOpenBlocks)
if (b.getBlockType() == blockType)
return b.getByteStream();
return null;
}
@Override
public boolean isFileInfoLoaded() {
return true; // We load file info in constructor in version 2.
}
/**
* Validates that the minor version is within acceptable limits.
* Otherwise throws an Runtime exception
*/
private void validateMinorVersion(Path path, int minorVersion) {
if (minorVersion < MIN_MINOR_VERSION ||
minorVersion > MAX_MINOR_VERSION) {
String msg = "Minor version for path " + path +
" is expected to be between " +
MIN_MINOR_VERSION + " and " + MAX_MINOR_VERSION +
" but is found to be " + minorVersion;
LOG.error(msg);
throw new RuntimeException(msg);
}
}
}