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/**
 *
 * 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.ByteArrayInputStream;
import java.io.Closeable;
import java.io.DataInput;
import java.io.DataInputStream;
import java.io.DataOutputStream;
import java.io.IOException;
import java.io.SequenceInputStream;
import java.net.InetSocketAddress;
import java.nio.ByteBuffer;
import java.util.ArrayList;
import java.util.Collection;
import java.util.Comparator;
import java.util.List;
import java.util.Map;
import java.util.Set;
import java.util.SortedMap;
import java.util.TreeMap;

import org.apache.commons.logging.Log;
import org.apache.commons.logging.LogFactory;
import org.apache.hadoop.hbase.classification.InterfaceAudience;
import org.apache.hadoop.conf.Configuration;
import org.apache.hadoop.fs.FSDataInputStream;
import org.apache.hadoop.fs.FSDataOutputStream;
import org.apache.hadoop.fs.FileStatus;
import org.apache.hadoop.fs.FileSystem;
import org.apache.hadoop.fs.Path;
import org.apache.hadoop.fs.PathFilter;
import org.apache.hadoop.hbase.Cell;
import org.apache.hadoop.hbase.HConstants;
import org.apache.hadoop.hbase.KeyValue;
import org.apache.hadoop.hbase.KeyValue.KVComparator;
import org.apache.hadoop.hbase.fs.HFileSystem;
import org.apache.hadoop.hbase.io.FSDataInputStreamWrapper;
import org.apache.hadoop.hbase.io.MetricsIO;
import org.apache.hadoop.hbase.io.MetricsIOWrapperImpl;
import org.apache.hadoop.hbase.io.compress.Compression;
import org.apache.hadoop.hbase.io.encoding.DataBlockEncoding;
import org.apache.hadoop.hbase.protobuf.ProtobufUtil;
import org.apache.hadoop.hbase.protobuf.generated.HBaseProtos;
import org.apache.hadoop.hbase.protobuf.generated.HBaseProtos.BytesBytesPair;
import org.apache.hadoop.hbase.protobuf.generated.HFileProtos;
import org.apache.hadoop.hbase.util.BloomFilterWriter;
import org.apache.hadoop.hbase.util.ByteStringer;
import org.apache.hadoop.hbase.util.Bytes;
import org.apache.hadoop.hbase.util.Counter;
import org.apache.hadoop.hbase.util.FSUtils;
import org.apache.hadoop.io.Writable;

import com.google.common.base.Preconditions;

/**
 * File format for hbase.
 * A file of sorted key/value pairs. Both keys and values are byte arrays.
 * 

* The memory footprint of a HFile includes the following (below is taken from the * TFile documentation * but applies also to HFile): *

    *
  • Some constant overhead of reading or writing a compressed block. *
      *
    • Each compressed block requires one compression/decompression codec for * I/O. *
    • Temporary space to buffer the key. *
    • Temporary space to buffer the value. *
    *
  • HFile index, which is proportional to the total number of Data Blocks. * The total amount of memory needed to hold the index can be estimated as * (56+AvgKeySize)*NumBlocks. *
* Suggestions on performance optimization. *
    *
  • Minimum block size. We recommend a setting of minimum block size between * 8KB to 1MB for general usage. Larger block size is preferred if files are * primarily for sequential access. However, it would lead to inefficient random * access (because there are more data to decompress). Smaller blocks are good * for random access, but require more memory to hold the block index, and may * be slower to create (because we must flush the compressor stream at the * conclusion of each data block, which leads to an FS I/O flush). Further, due * to the internal caching in Compression codec, the smallest possible block * size would be around 20KB-30KB. *
  • The current implementation does not offer true multi-threading for * reading. The implementation uses FSDataInputStream seek()+read(), which is * shown to be much faster than positioned-read call in single thread mode. * However, it also means that if multiple threads attempt to access the same * HFile (using multiple scanners) simultaneously, the actual I/O is carried out * sequentially even if they access different DFS blocks (Reexamine! pread seems * to be 10% faster than seek+read in my testing -- stack). *
  • Compression codec. Use "none" if the data is not very compressable (by * compressable, I mean a compression ratio at least 2:1). Generally, use "lzo" * as the starting point for experimenting. "gz" overs slightly better * compression ratio over "lzo" but requires 4x CPU to compress and 2x CPU to * decompress, comparing to "lzo". *
* * For more on the background behind HFile, see HBASE-61. *

* File is made of data blocks followed by meta data blocks (if any), a fileinfo * block, data block index, meta data block index, and a fixed size trailer * which records the offsets at which file changes content type. *

<data blocks><meta blocks><fileinfo><
 * data index><meta index><trailer>
* Each block has a bit of magic at its start. Block are comprised of * key/values. In data blocks, they are both byte arrays. Metadata blocks are * a String key and a byte array value. An empty file looks like this: *
<fileinfo><trailer>
. That is, there are not data nor meta * blocks present. *

* TODO: Do scanners need to be able to take a start and end row? * TODO: Should BlockIndex know the name of its file? Should it have a Path * that points at its file say for the case where an index lives apart from * an HFile instance? */ @InterfaceAudience.Private public class HFile { // LOG is being used in HFileBlock and CheckSumUtil static final Log LOG = LogFactory.getLog(HFile.class); /** * Maximum length of key in HFile. */ public final static int MAXIMUM_KEY_LENGTH = Integer.MAX_VALUE; /** * Default compression: none. */ public final static Compression.Algorithm DEFAULT_COMPRESSION_ALGORITHM = Compression.Algorithm.NONE; /** Minimum supported HFile format version */ public static final int MIN_FORMAT_VERSION = 2; /** Maximum supported HFile format version */ public static final int MAX_FORMAT_VERSION = 3; /** * Minimum HFile format version with support for persisting cell tags */ public static final int MIN_FORMAT_VERSION_WITH_TAGS = 3; /** Default compression name: none. */ public final static String DEFAULT_COMPRESSION = DEFAULT_COMPRESSION_ALGORITHM.getName(); /** Meta data block name for bloom filter bits. */ public static final String BLOOM_FILTER_DATA_KEY = "BLOOM_FILTER_DATA"; /** * We assume that HFile path ends with * ROOT_DIR/TABLE_NAME/REGION_NAME/CF_NAME/HFILE, so it has at least this * many levels of nesting. This is needed for identifying table and CF name * from an HFile path. */ public final static int MIN_NUM_HFILE_PATH_LEVELS = 5; /** * The number of bytes per checksum. */ public static final int DEFAULT_BYTES_PER_CHECKSUM = 16 * 1024; // For measuring number of checksum failures static final Counter CHECKSUM_FAILURES = new Counter(); // For tests. Gets incremented when we read a block whether from HDFS or from Cache. public static final Counter DATABLOCK_READ_COUNT = new Counter(); /** Static instance for the metrics so that HFileReaders access the same instance */ static final MetricsIO metrics = new MetricsIO(new MetricsIOWrapperImpl()); /** * Number of checksum verification failures. It also * clears the counter. */ public static final long getAndResetChecksumFailuresCount() { long count = CHECKSUM_FAILURES.get(); CHECKSUM_FAILURES.set(0); return count; } /** * Number of checksum verification failures. */ public static final long getChecksumFailuresCount() { long count = CHECKSUM_FAILURES.get(); return count; } public static final void updateReadLatency(long latencyMillis, boolean pread) { if (pread) { metrics.updateFsPreadTime(latencyMillis); } else { metrics.updateFsReadTime(latencyMillis); } } public static final void updateWriteLatency(long latencyMillis) { metrics.updateFsWriteTime(latencyMillis); } /** API required to write an {@link HFile} */ public interface Writer extends Closeable { /** Add an element to the file info map. */ void appendFileInfo(byte[] key, byte[] value) throws IOException; void append(Cell cell) throws IOException; /** @return the path to this {@link HFile} */ Path getPath(); /** * Adds an inline block writer such as a multi-level block index writer or * a compound Bloom filter writer. */ void addInlineBlockWriter(InlineBlockWriter bloomWriter); // The below three methods take Writables. We'd like to undo Writables but undoing the below would be pretty // painful. Could take a byte [] or a Message but we want to be backward compatible around hfiles so would need // to map between Message and Writable or byte [] and current Writable serialization. This would be a bit of work // to little gain. Thats my thinking at moment. St.Ack 20121129 void appendMetaBlock(String bloomFilterMetaKey, Writable metaWriter); /** * Store general Bloom filter in the file. This does not deal with Bloom filter * internals but is necessary, since Bloom filters are stored differently * in HFile version 1 and version 2. */ void addGeneralBloomFilter(BloomFilterWriter bfw); /** * Store delete family Bloom filter in the file, which is only supported in * HFile V2. */ void addDeleteFamilyBloomFilter(BloomFilterWriter bfw) throws IOException; /** * Return the file context for the HFile this writer belongs to */ HFileContext getFileContext(); } /** * This variety of ways to construct writers is used throughout the code, and * we want to be able to swap writer implementations. */ public static abstract class WriterFactory { protected final Configuration conf; protected final CacheConfig cacheConf; protected FileSystem fs; protected Path path; protected FSDataOutputStream ostream; protected KVComparator comparator = KeyValue.COMPARATOR; protected InetSocketAddress[] favoredNodes; private HFileContext fileContext; protected boolean shouldDropBehind = false; WriterFactory(Configuration conf, CacheConfig cacheConf) { this.conf = conf; this.cacheConf = cacheConf; } public WriterFactory withPath(FileSystem fs, Path path) { Preconditions.checkNotNull(fs); Preconditions.checkNotNull(path); this.fs = fs; this.path = path; return this; } public WriterFactory withOutputStream(FSDataOutputStream ostream) { Preconditions.checkNotNull(ostream); this.ostream = ostream; return this; } public WriterFactory withComparator(KVComparator comparator) { Preconditions.checkNotNull(comparator); this.comparator = comparator; return this; } public WriterFactory withFavoredNodes(InetSocketAddress[] favoredNodes) { // Deliberately not checking for null here. this.favoredNodes = favoredNodes; return this; } public WriterFactory withFileContext(HFileContext fileContext) { this.fileContext = fileContext; return this; } public WriterFactory withShouldDropCacheBehind(boolean shouldDropBehind) { this.shouldDropBehind = shouldDropBehind; return this; } public Writer create() throws IOException { if ((path != null ? 1 : 0) + (ostream != null ? 1 : 0) != 1) { throw new AssertionError("Please specify exactly one of " + "filesystem/path or path"); } if (path != null) { ostream = AbstractHFileWriter.createOutputStream(conf, fs, path, favoredNodes); try { ostream.setDropBehind(shouldDropBehind && cacheConf.shouldDropBehindCompaction()); } catch (UnsupportedOperationException uoe) { if (LOG.isTraceEnabled()) LOG.trace("Unable to set drop behind on " + path, uoe); else if (LOG.isDebugEnabled()) LOG.debug("Unable to set drop behind on " + path); } } return createWriter(fs, path, ostream, comparator, fileContext); } protected abstract Writer createWriter(FileSystem fs, Path path, FSDataOutputStream ostream, KVComparator comparator, HFileContext fileContext) throws IOException; } /** The configuration key for HFile version to use for new files */ public static final String FORMAT_VERSION_KEY = "hfile.format.version"; public static int getFormatVersion(Configuration conf) { int version = conf.getInt(FORMAT_VERSION_KEY, MAX_FORMAT_VERSION); checkFormatVersion(version); return version; } /** * Returns the factory to be used to create {@link HFile} writers. * Disables block cache access for all writers created through the * returned factory. */ public static final WriterFactory getWriterFactoryNoCache(Configuration conf) { Configuration tempConf = new Configuration(conf); tempConf.setFloat(HConstants.HFILE_BLOCK_CACHE_SIZE_KEY, 0.0f); return HFile.getWriterFactory(conf, new CacheConfig(tempConf)); } /** * Returns the factory to be used to create {@link HFile} writers */ public static final WriterFactory getWriterFactory(Configuration conf, CacheConfig cacheConf) { int version = getFormatVersion(conf); switch (version) { case 2: return new HFileWriterV2.WriterFactoryV2(conf, cacheConf); case 3: return new HFileWriterV3.WriterFactoryV3(conf, cacheConf); default: throw new IllegalArgumentException("Cannot create writer for HFile " + "format version " + version); } } /** * An abstraction used by the block index. * Implementations will check cache for any asked-for block and return cached block if found. * Otherwise, after reading from fs, will try and put block into cache before returning. */ public interface CachingBlockReader { /** * Read in a file block. * @param offset offset to read. * @param onDiskBlockSize size of the block * @param cacheBlock * @param pread * @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) * @param expectedDataBlockEncoding the data block encoding the caller is expecting data blocks * to be in, or null to not perform this check and return the block irrespective of the * encoding. This check only applies to data blocks and can be set to null when the caller is * expecting to read a non-data block and has set expectedBlockType accordingly. * @return Block wrapped in a ByteBuffer. * @throws IOException */ HFileBlock readBlock(long offset, long onDiskBlockSize, boolean cacheBlock, final boolean pread, final boolean isCompaction, final boolean updateCacheMetrics, BlockType expectedBlockType, DataBlockEncoding expectedDataBlockEncoding) throws IOException; } /** An interface used by clients to open and iterate an {@link HFile}. */ public interface Reader extends Closeable, CachingBlockReader { /** * Returns this reader's "name". Usually the last component of the path. * Needs to be constant as the file is being moved to support caching on * write. */ String getName(); KVComparator getComparator(); HFileScanner getScanner(boolean cacheBlocks, final boolean pread, final boolean isCompaction); ByteBuffer getMetaBlock(String metaBlockName, boolean cacheBlock) throws IOException; Map loadFileInfo() throws IOException; byte[] getLastKey(); byte[] midkey() throws IOException; long length(); long getEntries(); byte[] getFirstKey(); long indexSize(); byte[] getFirstRowKey(); byte[] getLastRowKey(); FixedFileTrailer getTrailer(); HFileBlockIndex.BlockIndexReader getDataBlockIndexReader(); HFileScanner getScanner(boolean cacheBlocks, boolean pread); Compression.Algorithm getCompressionAlgorithm(); /** * Retrieves general Bloom filter metadata as appropriate for each * {@link HFile} version. * Knows nothing about how that metadata is structured. */ DataInput getGeneralBloomFilterMetadata() throws IOException; /** * Retrieves delete family Bloom filter metadata as appropriate for each * {@link HFile} version. * Knows nothing about how that metadata is structured. */ DataInput getDeleteBloomFilterMetadata() throws IOException; Path getPath(); /** Close method with optional evictOnClose */ void close(boolean evictOnClose) throws IOException; DataBlockEncoding getDataBlockEncoding(); boolean hasMVCCInfo(); /** * Return the file context of the HFile this reader belongs to */ HFileContext getFileContext(); boolean isPrimaryReplicaReader(); void setPrimaryReplicaReader(boolean isPrimaryReplicaReader); /** * To close the stream's socket. Note: This can be concurrently called from multiple threads and * implementation should take care of thread safety. */ void unbufferStream(); } /** * Method returns the reader given the specified arguments. * TODO This is a bad abstraction. See HBASE-6635. * * @param path hfile's path * @param fsdis stream of path's file * @param size max size of the trailer. * @param cacheConf Cache configuation values, cannot be null. * @param hfs * @return an appropriate instance of HFileReader * @throws IOException If file is invalid, will throw CorruptHFileException flavored IOException */ @edu.umd.cs.findbugs.annotations.SuppressWarnings(value="SF_SWITCH_FALLTHROUGH", justification="Intentional") private static Reader openReader(Path path, FSDataInputStreamWrapper fsdis, long size, CacheConfig cacheConf, HFileSystem hfs, Configuration conf) throws IOException { FixedFileTrailer trailer = null; try { boolean isHBaseChecksum = fsdis.shouldUseHBaseChecksum(); assert !isHBaseChecksum; // Initially we must read with FS checksum. trailer = FixedFileTrailer.readFromStream(fsdis.getStream(isHBaseChecksum), size); switch (trailer.getMajorVersion()) { case 2: return new HFileReaderV2(path, trailer, fsdis, size, cacheConf, hfs, conf); case 3 : return new HFileReaderV3(path, trailer, fsdis, size, cacheConf, hfs, conf); default: throw new IllegalArgumentException("Invalid HFile version " + trailer.getMajorVersion()); } } catch (Throwable t) { try { fsdis.close(); } catch (Throwable t2) { LOG.warn("Error closing fsdis FSDataInputStreamWrapper", t2); } throw new CorruptHFileException("Problem reading HFile Trailer from file " + path, t); } finally { fsdis.unbuffer(); } } /** * The sockets and the file descriptors held by the method parameter * {@code FSDataInputStreamWrapper} passed will be freed after its usage so caller needs to ensure * that no other threads have access to the same passed reference. * @param fs A file system * @param path Path to HFile * @param fsdis a stream of path's file * @param size max size of the trailer. * @param cacheConf Cache configuration for hfile's contents * @param conf Configuration * @return A version specific Hfile Reader * @throws IOException If file is invalid, will throw CorruptHFileException flavored IOException */ public static Reader createReader(FileSystem fs, Path path, FSDataInputStreamWrapper fsdis, long size, CacheConfig cacheConf, Configuration conf) throws IOException { HFileSystem hfs = null; // If the fs is not an instance of HFileSystem, then create an // instance of HFileSystem that wraps over the specified fs. // In this case, we will not be able to avoid checksumming inside // the filesystem. if (!(fs instanceof HFileSystem)) { hfs = new HFileSystem(fs); } else { hfs = (HFileSystem)fs; } return openReader(path, fsdis, size, cacheConf, hfs, conf); } /** * * @param fs filesystem * @param path Path to file to read * @param cacheConf This must not be null. @see {@link org.apache.hadoop.hbase.io.hfile.CacheConfig#CacheConfig(Configuration)} * @return an active Reader instance * @throws IOException Will throw a CorruptHFileException (DoNotRetryIOException subtype) if hfile is corrupt/invalid. */ public static Reader createReader( FileSystem fs, Path path, CacheConfig cacheConf, Configuration conf) throws IOException { Preconditions.checkNotNull(cacheConf, "Cannot create Reader with null CacheConf"); FSDataInputStreamWrapper stream = new FSDataInputStreamWrapper(fs, path); return openReader(path, stream, fs.getFileStatus(path).getLen(), cacheConf, stream.getHfs(), conf); } /** * This factory method is used only by unit tests.
* The sockets and the file descriptors held by the method parameter * {@code FSDataInputStreamWrapper} passed will be freed after its usage so caller needs to ensure * that no other threads have access to the same passed reference. */ static Reader createReaderFromStream(Path path, FSDataInputStream fsdis, long size, CacheConfig cacheConf, Configuration conf) throws IOException { FSDataInputStreamWrapper wrapper = new FSDataInputStreamWrapper(fsdis); return openReader(path, wrapper, size, cacheConf, null, conf); } /** * Returns true if the specified file has a valid HFile Trailer. * @param fs filesystem * @param path Path to file to verify * @return true if the file has a valid HFile Trailer, otherwise false * @throws IOException if failed to read from the underlying stream */ public static boolean isHFileFormat(final FileSystem fs, final Path path) throws IOException { return isHFileFormat(fs, fs.getFileStatus(path)); } /** * Returns true if the specified file has a valid HFile Trailer. * @param fs filesystem * @param fileStatus the file to verify * @return true if the file has a valid HFile Trailer, otherwise false * @throws IOException if failed to read from the underlying stream */ public static boolean isHFileFormat(final FileSystem fs, final FileStatus fileStatus) throws IOException { final Path path = fileStatus.getPath(); final long size = fileStatus.getLen(); FSDataInputStreamWrapper fsdis = new FSDataInputStreamWrapper(fs, path); try { boolean isHBaseChecksum = fsdis.shouldUseHBaseChecksum(); assert !isHBaseChecksum; // Initially we must read with FS checksum. FixedFileTrailer.readFromStream(fsdis.getStream(isHBaseChecksum), size); return true; } catch (IllegalArgumentException e) { return false; } catch (IOException e) { throw e; } finally { try { fsdis.close(); } catch (Throwable t) { LOG.warn("Error closing fsdis FSDataInputStreamWrapper: " + path, t); } } } /** * Metadata for this file. Conjured by the writer. Read in by the reader. */ public static class FileInfo implements SortedMap { static final String RESERVED_PREFIX = "hfile."; static final byte[] RESERVED_PREFIX_BYTES = Bytes.toBytes(RESERVED_PREFIX); static final byte [] LASTKEY = Bytes.toBytes(RESERVED_PREFIX + "LASTKEY"); static final byte [] AVG_KEY_LEN = Bytes.toBytes(RESERVED_PREFIX + "AVG_KEY_LEN"); static final byte [] AVG_VALUE_LEN = Bytes.toBytes(RESERVED_PREFIX + "AVG_VALUE_LEN"); static final byte [] CREATE_TIME_TS = Bytes.toBytes(RESERVED_PREFIX + "CREATE_TIME_TS"); static final byte [] COMPARATOR = Bytes.toBytes(RESERVED_PREFIX + "COMPARATOR"); static final byte [] TAGS_COMPRESSED = Bytes.toBytes(RESERVED_PREFIX + "TAGS_COMPRESSED"); public static final byte [] MAX_TAGS_LEN = Bytes.toBytes(RESERVED_PREFIX + "MAX_TAGS_LEN"); private final SortedMap map = new TreeMap(Bytes.BYTES_COMPARATOR); public FileInfo() { super(); } /** * Append the given key/value pair to the file info, optionally checking the * key prefix. * * @param k key to add * @param v value to add * @param checkPrefix whether to check that the provided key does not start * with the reserved prefix * @return this file info object * @throws IOException if the key or value is invalid */ public FileInfo append(final byte[] k, final byte[] v, final boolean checkPrefix) throws IOException { if (k == null || v == null) { throw new NullPointerException("Key nor value may be null"); } if (checkPrefix && isReservedFileInfoKey(k)) { throw new IOException("Keys with a " + FileInfo.RESERVED_PREFIX + " are reserved"); } put(k, v); return this; } @Override public void clear() { this.map.clear(); } @Override public Comparator comparator() { return map.comparator(); } @Override public boolean containsKey(Object key) { return map.containsKey(key); } @Override public boolean containsValue(Object value) { return map.containsValue(value); } @Override public Set> entrySet() { return map.entrySet(); } @Override public boolean equals(Object o) { return map.equals(o); } @Override public byte[] firstKey() { return map.firstKey(); } @Override public byte[] get(Object key) { return map.get(key); } @Override public int hashCode() { return map.hashCode(); } @Override public SortedMap headMap(byte[] toKey) { return this.map.headMap(toKey); } @Override public boolean isEmpty() { return map.isEmpty(); } @Override public Set keySet() { return map.keySet(); } @Override public byte[] lastKey() { return map.lastKey(); } @Override public byte[] put(byte[] key, byte[] value) { return this.map.put(key, value); } @Override public void putAll(Map m) { this.map.putAll(m); } @Override public byte[] remove(Object key) { return this.map.remove(key); } @Override public int size() { return map.size(); } @Override public SortedMap subMap(byte[] fromKey, byte[] toKey) { return this.map.subMap(fromKey, toKey); } @Override public SortedMap tailMap(byte[] fromKey) { return this.map.tailMap(fromKey); } @Override public Collection values() { return map.values(); } /** * Write out this instance on the passed in out stream. * We write it as a protobuf. * @param out * @throws IOException * @see #read(DataInputStream) */ void write(final DataOutputStream out) throws IOException { HFileProtos.FileInfoProto.Builder builder = HFileProtos.FileInfoProto.newBuilder(); for (Map.Entry e: this.map.entrySet()) { HBaseProtos.BytesBytesPair.Builder bbpBuilder = HBaseProtos.BytesBytesPair.newBuilder(); bbpBuilder.setFirst(ByteStringer.wrap(e.getKey())); bbpBuilder.setSecond(ByteStringer.wrap(e.getValue())); builder.addMapEntry(bbpBuilder.build()); } out.write(ProtobufUtil.PB_MAGIC); builder.build().writeDelimitedTo(out); } /** * Populate this instance with what we find on the passed in in stream. * Can deserialize protobuf of old Writables format. * @param in * @throws IOException * @see #write(DataOutputStream) */ void read(final DataInputStream in) throws IOException { // This code is tested over in TestHFileReaderV1 where we read an old hfile w/ this new code. int pblen = ProtobufUtil.lengthOfPBMagic(); byte [] pbuf = new byte[pblen]; if (in.markSupported()) in.mark(pblen); int read = in.read(pbuf); if (read != pblen) throw new IOException("read=" + read + ", wanted=" + pblen); if (ProtobufUtil.isPBMagicPrefix(pbuf)) { parsePB(HFileProtos.FileInfoProto.parseDelimitedFrom(in)); } else { if (in.markSupported()) { in.reset(); parseWritable(in); } else { // We cannot use BufferedInputStream, it consumes more than we read from the underlying IS ByteArrayInputStream bais = new ByteArrayInputStream(pbuf); SequenceInputStream sis = new SequenceInputStream(bais, in); // Concatenate input streams // TODO: Am I leaking anything here wrapping the passed in stream? We are not calling close on the wrapped // streams but they should be let go after we leave this context? I see that we keep a reference to the // passed in inputstream but since we no longer have a reference to this after we leave, we should be ok. parseWritable(new DataInputStream(sis)); } } } /** Now parse the old Writable format. It was a list of Map entries. Each map entry was a key and a value of * a byte []. The old map format had a byte before each entry that held a code which was short for the key or * value type. We know it was a byte [] so in below we just read and dump it. * @throws IOException */ void parseWritable(final DataInputStream in) throws IOException { // First clear the map. Otherwise we will just accumulate entries every time this method is called. this.map.clear(); // Read the number of entries in the map int entries = in.readInt(); // Then read each key/value pair for (int i = 0; i < entries; i++) { byte [] key = Bytes.readByteArray(in); // We used to read a byte that encoded the class type. Read and ignore it because it is always byte [] in hfile in.readByte(); byte [] value = Bytes.readByteArray(in); this.map.put(key, value); } } /** * Fill our map with content of the pb we read off disk * @param fip protobuf message to read */ void parsePB(final HFileProtos.FileInfoProto fip) { this.map.clear(); for (BytesBytesPair pair: fip.getMapEntryList()) { this.map.put(pair.getFirst().toByteArray(), pair.getSecond().toByteArray()); } } } /** Return true if the given file info key is reserved for internal use. */ public static boolean isReservedFileInfoKey(byte[] key) { return Bytes.startsWith(key, FileInfo.RESERVED_PREFIX_BYTES); } /** * Get names of supported compression algorithms. The names are acceptable by * HFile.Writer. * * @return Array of strings, each represents a supported compression * algorithm. Currently, the following compression algorithms are * supported. *

    *
  • "none" - No compression. *
  • "gz" - GZIP compression. *
*/ public static String[] getSupportedCompressionAlgorithms() { return Compression.getSupportedAlgorithms(); } // Utility methods. /* * @param l Long to convert to an int. * @return l cast as an int. */ static int longToInt(final long l) { // Expecting the size() of a block not exceeding 4GB. Assuming the // size() will wrap to negative integer if it exceeds 2GB (From tfile). return (int)(l & 0x00000000ffffffffL); } /** * Returns all HFiles belonging to the given region directory. Could return an * empty list. * * @param fs The file system reference. * @param regionDir The region directory to scan. * @return The list of files found. * @throws IOException When scanning the files fails. */ static List getStoreFiles(FileSystem fs, Path regionDir) throws IOException { List regionHFiles = new ArrayList(); PathFilter dirFilter = new FSUtils.DirFilter(fs); FileStatus[] familyDirs = fs.listStatus(regionDir, dirFilter); for(FileStatus dir : familyDirs) { FileStatus[] files = fs.listStatus(dir.getPath()); for (FileStatus file : files) { if (!file.isDirectory() && (!file.getPath().toString().contains(HConstants.HREGION_OLDLOGDIR_NAME)) && (!file.getPath().toString().contains(HConstants.RECOVERED_EDITS_DIR))) { regionHFiles.add(file.getPath()); } } } return regionHFiles; } /** * Checks the given {@link HFile} format version, and throws an exception if * invalid. Note that if the version number comes from an input file and has * not been verified, the caller needs to re-throw an {@link IOException} to * indicate that this is not a software error, but corrupted input. * * @param version an HFile version * @throws IllegalArgumentException if the version is invalid */ public static void checkFormatVersion(int version) throws IllegalArgumentException { if (version < MIN_FORMAT_VERSION || version > MAX_FORMAT_VERSION) { throw new IllegalArgumentException("Invalid HFile version: " + version + " (expected to be " + "between " + MIN_FORMAT_VERSION + " and " + MAX_FORMAT_VERSION + ")"); } } public static void main(String[] args) throws Exception { // delegate to preserve old behavior HFilePrettyPrinter.main(args); } }




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