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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.io;

import java.io.*;
import java.nio.charset.StandardCharsets;
import java.util.*;
import java.rmi.server.UID;
import java.security.MessageDigest;

import io.prestosql.hadoop.$internal.com.google.common.annotations.VisibleForTesting;
import org.apache.hadoop.util.Options;
import org.apache.hadoop.fs.*;
import org.apache.hadoop.fs.Options.CreateOpts;
import org.apache.hadoop.io.compress.CodecPool;
import org.apache.hadoop.io.compress.CompressionCodec;
import org.apache.hadoop.io.compress.CompressionInputStream;
import org.apache.hadoop.io.compress.CompressionOutputStream;
import org.apache.hadoop.io.compress.Compressor;
import org.apache.hadoop.io.compress.Decompressor;
import org.apache.hadoop.io.compress.DefaultCodec;
import org.apache.hadoop.io.compress.GzipCodec;
import org.apache.hadoop.io.compress.zlib.ZlibFactory;
import org.apache.hadoop.io.serializer.Deserializer;
import org.apache.hadoop.io.serializer.Serializer;
import org.apache.hadoop.io.serializer.SerializationFactory;
import org.apache.hadoop.classification.InterfaceAudience;
import org.apache.hadoop.classification.InterfaceStability;
import org.apache.hadoop.conf.*;
import org.apache.hadoop.util.Progressable;
import org.apache.hadoop.util.Progress;
import org.apache.hadoop.util.ReflectionUtils;
import org.apache.hadoop.util.NativeCodeLoader;
import org.apache.hadoop.util.MergeSort;
import org.apache.hadoop.util.PriorityQueue;
import org.apache.hadoop.util.Time;
import io.prestosql.hadoop.$internal.org.slf4j.Logger;
import io.prestosql.hadoop.$internal.org.slf4j.LoggerFactory;

import static org.apache.hadoop.fs.CommonConfigurationKeysPublic.IO_FILE_BUFFER_SIZE_DEFAULT;
import static org.apache.hadoop.fs.CommonConfigurationKeysPublic.IO_FILE_BUFFER_SIZE_KEY;
import static org.apache.hadoop.fs.CommonConfigurationKeysPublic.IO_SEQFILE_COMPRESS_BLOCKSIZE_DEFAULT;
import static org.apache.hadoop.fs.CommonConfigurationKeysPublic.IO_SEQFILE_COMPRESS_BLOCKSIZE_KEY;
import static org.apache.hadoop.fs.CommonConfigurationKeysPublic.IO_SKIP_CHECKSUM_ERRORS_DEFAULT;
import static org.apache.hadoop.fs.CommonConfigurationKeysPublic.IO_SKIP_CHECKSUM_ERRORS_KEY;

/** 
 * SequenceFiles are flat files consisting of binary key/value 
 * pairs.
 * 
 * 

SequenceFile provides {@link SequenceFile.Writer}, * {@link SequenceFile.Reader} and {@link Sorter} classes for writing, * reading and sorting respectively.

* * There are three SequenceFile Writers based on the * {@link CompressionType} used to compress key/value pairs: *
    *
  1. * Writer : Uncompressed records. *
  2. *
  3. * RecordCompressWriter : Record-compressed files, only compress * values. *
  4. *
  5. * BlockCompressWriter : Block-compressed files, both keys & * values are collected in 'blocks' * separately and compressed. The size of * the 'block' is configurable. *
* *

The actual compression algorithm used to compress key and/or values can be * specified by using the appropriate {@link CompressionCodec}.

* *

The recommended way is to use the static createWriter methods * provided by the SequenceFile to chose the preferred format.

* *

The {@link SequenceFile.Reader} acts as the bridge and can read any of the * above SequenceFile formats.

* *

SequenceFile Formats

* *

Essentially there are 3 different formats for SequenceFiles * depending on the CompressionType specified. All of them share a * common header described below. * *

*
    *
  • * version - 3 bytes of magic header SEQ, followed by 1 byte of actual * version number (e.g. SEQ4 or SEQ6) *
  • *
  • * keyClassName -key class *
  • *
  • * valueClassName - value class *
  • *
  • * compression - A boolean which specifies if compression is turned on for * keys/values in this file. *
  • *
  • * blockCompression - A boolean which specifies if block-compression is * turned on for keys/values in this file. *
  • *
  • * compression codec - CompressionCodec class which is used for * compression of keys and/or values (if compression is * enabled). *
  • *
  • * metadata - {@link Metadata} for this file. *
  • *
  • * sync - A sync marker to denote end of the header. *
  • *
* *
Uncompressed SequenceFile Format
*
    *
  • * Header *
  • *
  • * Record *
      *
    • Record length
    • *
    • Key length
    • *
    • Key
    • *
    • Value
    • *
    *
  • *
  • * A sync-marker every few 100 kilobytes or so. *
  • *
* *
Record-Compressed SequenceFile Format
*
    *
  • * Header *
  • *
  • * Record *
      *
    • Record length
    • *
    • Key length
    • *
    • Key
    • *
    • Compressed Value
    • *
    *
  • *
  • * A sync-marker every few 100 kilobytes or so. *
  • *
* *
Block-Compressed SequenceFile Format
*
    *
  • * Header *
  • *
  • * Record Block *
      *
    • Uncompressed number of records in the block
    • *
    • Compressed key-lengths block-size
    • *
    • Compressed key-lengths block
    • *
    • Compressed keys block-size
    • *
    • Compressed keys block
    • *
    • Compressed value-lengths block-size
    • *
    • Compressed value-lengths block
    • *
    • Compressed values block-size
    • *
    • Compressed values block
    • *
    *
  • *
  • * A sync-marker every block. *
  • *
* *

The compressed blocks of key lengths and value lengths consist of the * actual lengths of individual keys/values encoded in ZeroCompressedInteger * format.

* * @see CompressionCodec */ @InterfaceAudience.Public @InterfaceStability.Stable public class SequenceFile { private static final Logger LOG = LoggerFactory.getLogger(SequenceFile.class); private SequenceFile() {} // no public ctor private static final byte BLOCK_COMPRESS_VERSION = (byte)4; private static final byte CUSTOM_COMPRESS_VERSION = (byte)5; private static final byte VERSION_WITH_METADATA = (byte)6; private static byte[] VERSION = new byte[] { (byte)'S', (byte)'E', (byte)'Q', VERSION_WITH_METADATA }; private static final int SYNC_ESCAPE = -1; // "length" of sync entries private static final int SYNC_HASH_SIZE = 16; // number of bytes in hash private static final int SYNC_SIZE = 4+SYNC_HASH_SIZE; // escape + hash /** * The number of bytes between sync points. 100 KB, default. * Computed as 5 KB * 20 = 100 KB */ public static final int SYNC_INTERVAL = 5 * 1024 * SYNC_SIZE; // 5KB*(16+4) /** * The compression type used to compress key/value pairs in the * {@link SequenceFile}. * * @see SequenceFile.Writer */ public enum CompressionType { /** Do not compress records. */ NONE, /** Compress values only, each separately. */ RECORD, /** Compress sequences of records together in blocks. */ BLOCK } /** * Get the compression type for the reduce outputs * @param job the job config to look in * @return the kind of compression to use */ static public CompressionType getDefaultCompressionType(Configuration job) { String name = job.get("io.seqfile.compression.type"); return name == null ? CompressionType.RECORD : CompressionType.valueOf(name); } /** * Set the default compression type for sequence files. * @param job the configuration to modify * @param val the new compression type (none, block, record) */ static public void setDefaultCompressionType(Configuration job, CompressionType val) { job.set("io.seqfile.compression.type", val.toString()); } /** * Create a new Writer with the given options. * @param conf the configuration to use * @param opts the options to create the file with * @return a new Writer * @throws IOException */ public static Writer createWriter(Configuration conf, Writer.Option... opts ) throws IOException { Writer.CompressionOption compressionOption = Options.getOption(Writer.CompressionOption.class, opts); CompressionType kind; if (compressionOption != null) { kind = compressionOption.getValue(); } else { kind = getDefaultCompressionType(conf); opts = Options.prependOptions(opts, Writer.compression(kind)); } switch (kind) { default: case NONE: return new Writer(conf, opts); case RECORD: return new RecordCompressWriter(conf, opts); case BLOCK: return new BlockCompressWriter(conf, opts); } } /** * Construct the preferred type of SequenceFile Writer. * @param fs The configured filesystem. * @param conf The configuration. * @param name The name of the file. * @param keyClass The 'key' type. * @param valClass The 'value' type. * @return Returns the handle to the constructed SequenceFile Writer. * @throws IOException * @deprecated Use {@link #createWriter(Configuration, Writer.Option...)} * instead. */ @Deprecated public static Writer createWriter(FileSystem fs, Configuration conf, Path name, Class keyClass, Class valClass) throws IOException { return createWriter(conf, Writer.filesystem(fs), Writer.file(name), Writer.keyClass(keyClass), Writer.valueClass(valClass)); } /** * Construct the preferred type of SequenceFile Writer. * @param fs The configured filesystem. * @param conf The configuration. * @param name The name of the file. * @param keyClass The 'key' type. * @param valClass The 'value' type. * @param compressionType The compression type. * @return Returns the handle to the constructed SequenceFile Writer. * @throws IOException * @deprecated Use {@link #createWriter(Configuration, Writer.Option...)} * instead. */ @Deprecated public static Writer createWriter(FileSystem fs, Configuration conf, Path name, Class keyClass, Class valClass, CompressionType compressionType) throws IOException { return createWriter(conf, Writer.filesystem(fs), Writer.file(name), Writer.keyClass(keyClass), Writer.valueClass(valClass), Writer.compression(compressionType)); } /** * Construct the preferred type of SequenceFile Writer. * @param fs The configured filesystem. * @param conf The configuration. * @param name The name of the file. * @param keyClass The 'key' type. * @param valClass The 'value' type. * @param compressionType The compression type. * @param progress The Progressable object to track progress. * @return Returns the handle to the constructed SequenceFile Writer. * @throws IOException * @deprecated Use {@link #createWriter(Configuration, Writer.Option...)} * instead. */ @Deprecated public static Writer createWriter(FileSystem fs, Configuration conf, Path name, Class keyClass, Class valClass, CompressionType compressionType, Progressable progress) throws IOException { return createWriter(conf, Writer.file(name), Writer.filesystem(fs), Writer.keyClass(keyClass), Writer.valueClass(valClass), Writer.compression(compressionType), Writer.progressable(progress)); } /** * Construct the preferred type of SequenceFile Writer. * @param fs The configured filesystem. * @param conf The configuration. * @param name The name of the file. * @param keyClass The 'key' type. * @param valClass The 'value' type. * @param compressionType The compression type. * @param codec The compression codec. * @return Returns the handle to the constructed SequenceFile Writer. * @throws IOException * @deprecated Use {@link #createWriter(Configuration, Writer.Option...)} * instead. */ @Deprecated public static Writer createWriter(FileSystem fs, Configuration conf, Path name, Class keyClass, Class valClass, CompressionType compressionType, CompressionCodec codec) throws IOException { return createWriter(conf, Writer.file(name), Writer.filesystem(fs), Writer.keyClass(keyClass), Writer.valueClass(valClass), Writer.compression(compressionType, codec)); } /** * Construct the preferred type of SequenceFile Writer. * @param fs The configured filesystem. * @param conf The configuration. * @param name The name of the file. * @param keyClass The 'key' type. * @param valClass The 'value' type. * @param compressionType The compression type. * @param codec The compression codec. * @param progress The Progressable object to track progress. * @param metadata The metadata of the file. * @return Returns the handle to the constructed SequenceFile Writer. * @throws IOException * @deprecated Use {@link #createWriter(Configuration, Writer.Option...)} * instead. */ @Deprecated public static Writer createWriter(FileSystem fs, Configuration conf, Path name, Class keyClass, Class valClass, CompressionType compressionType, CompressionCodec codec, Progressable progress, Metadata metadata) throws IOException { return createWriter(conf, Writer.file(name), Writer.filesystem(fs), Writer.keyClass(keyClass), Writer.valueClass(valClass), Writer.compression(compressionType, codec), Writer.progressable(progress), Writer.metadata(metadata)); } /** * Construct the preferred type of SequenceFile Writer. * @param fs The configured filesystem. * @param conf The configuration. * @param name The name of the file. * @param keyClass The 'key' type. * @param valClass The 'value' type. * @param bufferSize buffer size for the underlaying outputstream. * @param replication replication factor for the file. * @param blockSize block size for the file. * @param compressionType The compression type. * @param codec The compression codec. * @param progress The Progressable object to track progress. * @param metadata The metadata of the file. * @return Returns the handle to the constructed SequenceFile Writer. * @throws IOException * @deprecated Use {@link #createWriter(Configuration, Writer.Option...)} * instead. */ @Deprecated public static Writer createWriter(FileSystem fs, Configuration conf, Path name, Class keyClass, Class valClass, int bufferSize, short replication, long blockSize, CompressionType compressionType, CompressionCodec codec, Progressable progress, Metadata metadata) throws IOException { return createWriter(conf, Writer.file(name), Writer.filesystem(fs), Writer.keyClass(keyClass), Writer.valueClass(valClass), Writer.bufferSize(bufferSize), Writer.replication(replication), Writer.blockSize(blockSize), Writer.compression(compressionType, codec), Writer.progressable(progress), Writer.metadata(metadata)); } /** * Construct the preferred type of SequenceFile Writer. * @param fs The configured filesystem. * @param conf The configuration. * @param name The name of the file. * @param keyClass The 'key' type. * @param valClass The 'value' type. * @param bufferSize buffer size for the underlaying outputstream. * @param replication replication factor for the file. * @param blockSize block size for the file. * @param createParent create parent directory if non-existent * @param compressionType The compression type. * @param codec The compression codec. * @param metadata The metadata of the file. * @return Returns the handle to the constructed SequenceFile Writer. * @throws IOException */ @Deprecated public static Writer createWriter(FileSystem fs, Configuration conf, Path name, Class keyClass, Class valClass, int bufferSize, short replication, long blockSize, boolean createParent, CompressionType compressionType, CompressionCodec codec, Metadata metadata) throws IOException { return createWriter(FileContext.getFileContext(fs.getUri(), conf), conf, name, keyClass, valClass, compressionType, codec, metadata, EnumSet.of(CreateFlag.CREATE,CreateFlag.OVERWRITE), CreateOpts.bufferSize(bufferSize), createParent ? CreateOpts.createParent() : CreateOpts.donotCreateParent(), CreateOpts.repFac(replication), CreateOpts.blockSize(blockSize) ); } /** * Construct the preferred type of SequenceFile Writer. * @param fc The context for the specified file. * @param conf The configuration. * @param name The name of the file. * @param keyClass The 'key' type. * @param valClass The 'value' type. * @param compressionType The compression type. * @param codec The compression codec. * @param metadata The metadata of the file. * @param createFlag gives the semantics of create: overwrite, append etc. * @param opts file creation options; see {@link CreateOpts}. * @return Returns the handle to the constructed SequenceFile Writer. * @throws IOException */ public static Writer createWriter(FileContext fc, Configuration conf, Path name, Class keyClass, Class valClass, CompressionType compressionType, CompressionCodec codec, Metadata metadata, final EnumSet createFlag, CreateOpts... opts) throws IOException { return createWriter(conf, fc.create(name, createFlag, opts), keyClass, valClass, compressionType, codec, metadata).ownStream(); } /** * Construct the preferred type of SequenceFile Writer. * @param fs The configured filesystem. * @param conf The configuration. * @param name The name of the file. * @param keyClass The 'key' type. * @param valClass The 'value' type. * @param compressionType The compression type. * @param codec The compression codec. * @param progress The Progressable object to track progress. * @return Returns the handle to the constructed SequenceFile Writer. * @throws IOException * @deprecated Use {@link #createWriter(Configuration, Writer.Option...)} * instead. */ @Deprecated public static Writer createWriter(FileSystem fs, Configuration conf, Path name, Class keyClass, Class valClass, CompressionType compressionType, CompressionCodec codec, Progressable progress) throws IOException { return createWriter(conf, Writer.file(name), Writer.filesystem(fs), Writer.keyClass(keyClass), Writer.valueClass(valClass), Writer.compression(compressionType, codec), Writer.progressable(progress)); } /** * Construct the preferred type of 'raw' SequenceFile Writer. * @param conf The configuration. * @param out The stream on top which the writer is to be constructed. * @param keyClass The 'key' type. * @param valClass The 'value' type. * @param compressionType The compression type. * @param codec The compression codec. * @param metadata The metadata of the file. * @return Returns the handle to the constructed SequenceFile Writer. * @throws IOException * @deprecated Use {@link #createWriter(Configuration, Writer.Option...)} * instead. */ @Deprecated public static Writer createWriter(Configuration conf, FSDataOutputStream out, Class keyClass, Class valClass, CompressionType compressionType, CompressionCodec codec, Metadata metadata) throws IOException { return createWriter(conf, Writer.stream(out), Writer.keyClass(keyClass), Writer.valueClass(valClass), Writer.compression(compressionType, codec), Writer.metadata(metadata)); } /** * Construct the preferred type of 'raw' SequenceFile Writer. * @param conf The configuration. * @param out The stream on top which the writer is to be constructed. * @param keyClass The 'key' type. * @param valClass The 'value' type. * @param compressionType The compression type. * @param codec The compression codec. * @return Returns the handle to the constructed SequenceFile Writer. * @throws IOException * @deprecated Use {@link #createWriter(Configuration, Writer.Option...)} * instead. */ @Deprecated public static Writer createWriter(Configuration conf, FSDataOutputStream out, Class keyClass, Class valClass, CompressionType compressionType, CompressionCodec codec) throws IOException { return createWriter(conf, Writer.stream(out), Writer.keyClass(keyClass), Writer.valueClass(valClass), Writer.compression(compressionType, codec)); } /** The interface to 'raw' values of SequenceFiles. */ public static interface ValueBytes { /** Writes the uncompressed bytes to the outStream. * @param outStream : Stream to write uncompressed bytes into. * @throws IOException */ public void writeUncompressedBytes(DataOutputStream outStream) throws IOException; /** Write compressed bytes to outStream. * Note: that it will NOT compress the bytes if they are not compressed. * @param outStream : Stream to write compressed bytes into. */ public void writeCompressedBytes(DataOutputStream outStream) throws IllegalArgumentException, IOException; /** * Size of stored data. */ public int getSize(); } private static class UncompressedBytes implements ValueBytes { private int dataSize; private byte[] data; private UncompressedBytes() { data = null; dataSize = 0; } private void reset(DataInputStream in, int length) throws IOException { if (data == null) { data = new byte[length]; } else if (length > data.length) { data = new byte[Math.max(length, data.length * 2)]; } dataSize = -1; in.readFully(data, 0, length); dataSize = length; } @Override public int getSize() { return dataSize; } @Override public void writeUncompressedBytes(DataOutputStream outStream) throws IOException { outStream.write(data, 0, dataSize); } @Override public void writeCompressedBytes(DataOutputStream outStream) throws IllegalArgumentException, IOException { throw new IllegalArgumentException("UncompressedBytes cannot be compressed!"); } } // UncompressedBytes private static class CompressedBytes implements ValueBytes { private int dataSize; private byte[] data; DataInputBuffer rawData = null; CompressionCodec codec = null; CompressionInputStream decompressedStream = null; private CompressedBytes(CompressionCodec codec) { data = null; dataSize = 0; this.codec = codec; } private void reset(DataInputStream in, int length) throws IOException { if (data == null) { data = new byte[length]; } else if (length > data.length) { data = new byte[Math.max(length, data.length * 2)]; } dataSize = -1; in.readFully(data, 0, length); dataSize = length; } @Override public int getSize() { return dataSize; } @Override public void writeUncompressedBytes(DataOutputStream outStream) throws IOException { if (decompressedStream == null) { rawData = new DataInputBuffer(); decompressedStream = codec.createInputStream(rawData); } else { decompressedStream.resetState(); } rawData.reset(data, 0, dataSize); byte[] buffer = new byte[8192]; int bytesRead = 0; while ((bytesRead = decompressedStream.read(buffer, 0, 8192)) != -1) { outStream.write(buffer, 0, bytesRead); } } @Override public void writeCompressedBytes(DataOutputStream outStream) throws IllegalArgumentException, IOException { outStream.write(data, 0, dataSize); } } // CompressedBytes /** * The class encapsulating with the metadata of a file. * The metadata of a file is a list of attribute name/value * pairs of Text type. * */ public static class Metadata implements Writable { private TreeMap theMetadata; public Metadata() { this(new TreeMap()); } public Metadata(TreeMap arg) { if (arg == null) { this.theMetadata = new TreeMap(); } else { this.theMetadata = arg; } } public Text get(Text name) { return this.theMetadata.get(name); } public void set(Text name, Text value) { this.theMetadata.put(name, value); } public TreeMap getMetadata() { return new TreeMap(this.theMetadata); } @Override public void write(DataOutput out) throws IOException { out.writeInt(this.theMetadata.size()); Iterator> iter = this.theMetadata.entrySet().iterator(); while (iter.hasNext()) { Map.Entry en = iter.next(); en.getKey().write(out); en.getValue().write(out); } } @Override public void readFields(DataInput in) throws IOException { int sz = in.readInt(); if (sz < 0) throw new IOException("Invalid size: " + sz + " for file metadata object"); this.theMetadata = new TreeMap(); for (int i = 0; i < sz; i++) { Text key = new Text(); Text val = new Text(); key.readFields(in); val.readFields(in); this.theMetadata.put(key, val); } } @Override public boolean equals(Object other) { if (other == null) { return false; } if (other.getClass() != this.getClass()) { return false; } else { return equals((Metadata)other); } } public boolean equals(Metadata other) { if (other == null) return false; if (this.theMetadata.size() != other.theMetadata.size()) { return false; } Iterator> iter1 = this.theMetadata.entrySet().iterator(); Iterator> iter2 = other.theMetadata.entrySet().iterator(); while (iter1.hasNext() && iter2.hasNext()) { Map.Entry en1 = iter1.next(); Map.Entry en2 = iter2.next(); if (!en1.getKey().equals(en2.getKey())) { return false; } if (!en1.getValue().equals(en2.getValue())) { return false; } } if (iter1.hasNext() || iter2.hasNext()) { return false; } return true; } @Override public int hashCode() { assert false : "hashCode not designed"; return 42; // any arbitrary constant will do } @Override public String toString() { StringBuilder sb = new StringBuilder(); sb.append("size: ").append(this.theMetadata.size()).append("\n"); Iterator> iter = this.theMetadata.entrySet().iterator(); while (iter.hasNext()) { Map.Entry en = iter.next(); sb.append("\t").append(en.getKey().toString()).append("\t").append(en.getValue().toString()); sb.append("\n"); } return sb.toString(); } } /** Write key/value pairs to a sequence-format file. */ public static class Writer implements java.io.Closeable, Syncable { private Configuration conf; FSDataOutputStream out; boolean ownOutputStream = true; DataOutputBuffer buffer = new DataOutputBuffer(); Class keyClass; Class valClass; private final CompressionType compress; CompressionCodec codec = null; CompressionOutputStream deflateFilter = null; DataOutputStream deflateOut = null; Metadata metadata = null; Compressor compressor = null; private boolean appendMode = false; protected Serializer keySerializer; protected Serializer uncompressedValSerializer; protected Serializer compressedValSerializer; // Insert a globally unique 16-byte value every few entries, so that one // can seek into the middle of a file and then synchronize with record // starts and ends by scanning for this value. long lastSyncPos; // position of last sync byte[] sync; // 16 random bytes @VisibleForTesting int syncInterval; { try { MessageDigest digester = MessageDigest.getInstance("MD5"); long time = Time.now(); digester.update((new UID()+"@"+time).getBytes(StandardCharsets.UTF_8)); sync = digester.digest(); } catch (Exception e) { throw new RuntimeException(e); } } public static interface Option {} static class FileOption extends Options.PathOption implements Option { FileOption(Path path) { super(path); } } /** * @deprecated only used for backwards-compatibility in the createWriter methods * that take FileSystem. */ @Deprecated private static class FileSystemOption implements Option { private final FileSystem value; protected FileSystemOption(FileSystem value) { this.value = value; } public FileSystem getValue() { return value; } } static class StreamOption extends Options.FSDataOutputStreamOption implements Option { StreamOption(FSDataOutputStream stream) { super(stream); } } static class BufferSizeOption extends Options.IntegerOption implements Option { BufferSizeOption(int value) { super(value); } } static class BlockSizeOption extends Options.LongOption implements Option { BlockSizeOption(long value) { super(value); } } static class ReplicationOption extends Options.IntegerOption implements Option { ReplicationOption(int value) { super(value); } } static class AppendIfExistsOption extends Options.BooleanOption implements Option { AppendIfExistsOption(boolean value) { super(value); } } static class KeyClassOption extends Options.ClassOption implements Option { KeyClassOption(Class value) { super(value); } } static class ValueClassOption extends Options.ClassOption implements Option { ValueClassOption(Class value) { super(value); } } static class MetadataOption implements Option { private final Metadata value; MetadataOption(Metadata value) { this.value = value; } Metadata getValue() { return value; } } static class ProgressableOption extends Options.ProgressableOption implements Option { ProgressableOption(Progressable value) { super(value); } } private static class CompressionOption implements Option { private final CompressionType value; private final CompressionCodec codec; CompressionOption(CompressionType value) { this(value, null); } CompressionOption(CompressionType value, CompressionCodec codec) { this.value = value; this.codec = (CompressionType.NONE != value && null == codec) ? new DefaultCodec() : codec; } CompressionType getValue() { return value; } CompressionCodec getCodec() { return codec; } } public static Option file(Path value) { return new FileOption(value); } /** * @deprecated only used for backwards-compatibility in the createWriter methods * that take FileSystem. */ @Deprecated private static Option filesystem(FileSystem fs) { return new SequenceFile.Writer.FileSystemOption(fs); } private static class SyncIntervalOption extends Options.IntegerOption implements Option { SyncIntervalOption(int val) { // If a negative sync interval is provided, // fall back to the default sync interval. super(val < 0 ? SYNC_INTERVAL : val); } } public static Option bufferSize(int value) { return new BufferSizeOption(value); } public static Option stream(FSDataOutputStream value) { return new StreamOption(value); } public static Option replication(short value) { return new ReplicationOption(value); } public static Option appendIfExists(boolean value) { return new AppendIfExistsOption(value); } public static Option blockSize(long value) { return new BlockSizeOption(value); } public static Option progressable(Progressable value) { return new ProgressableOption(value); } public static Option keyClass(Class value) { return new KeyClassOption(value); } public static Option valueClass(Class value) { return new ValueClassOption(value); } public static Option metadata(Metadata value) { return new MetadataOption(value); } public static Option compression(CompressionType value) { return new CompressionOption(value); } public static Option compression(CompressionType value, CompressionCodec codec) { return new CompressionOption(value, codec); } public static Option syncInterval(int value) { return new SyncIntervalOption(value); } /** * Construct a uncompressed writer from a set of options. * @param conf the configuration to use * @param opts the options used when creating the writer * @throws IOException if it fails */ Writer(Configuration conf, Option... opts) throws IOException { BlockSizeOption blockSizeOption = Options.getOption(BlockSizeOption.class, opts); BufferSizeOption bufferSizeOption = Options.getOption(BufferSizeOption.class, opts); ReplicationOption replicationOption = Options.getOption(ReplicationOption.class, opts); ProgressableOption progressOption = Options.getOption(ProgressableOption.class, opts); FileOption fileOption = Options.getOption(FileOption.class, opts); AppendIfExistsOption appendIfExistsOption = Options.getOption( AppendIfExistsOption.class, opts); FileSystemOption fsOption = Options.getOption(FileSystemOption.class, opts); StreamOption streamOption = Options.getOption(StreamOption.class, opts); KeyClassOption keyClassOption = Options.getOption(KeyClassOption.class, opts); ValueClassOption valueClassOption = Options.getOption(ValueClassOption.class, opts); MetadataOption metadataOption = Options.getOption(MetadataOption.class, opts); CompressionOption compressionTypeOption = Options.getOption(CompressionOption.class, opts); SyncIntervalOption syncIntervalOption = Options.getOption(SyncIntervalOption.class, opts); // check consistency of options if ((fileOption == null) == (streamOption == null)) { throw new IllegalArgumentException("file or stream must be specified"); } if (fileOption == null && (blockSizeOption != null || bufferSizeOption != null || replicationOption != null || progressOption != null)) { throw new IllegalArgumentException("file modifier options not " + "compatible with stream"); } FSDataOutputStream out; boolean ownStream = fileOption != null; if (ownStream) { Path p = fileOption.getValue(); FileSystem fs; if (fsOption != null) { fs = fsOption.getValue(); } else { fs = p.getFileSystem(conf); } int bufferSize = bufferSizeOption == null ? getBufferSize(conf) : bufferSizeOption.getValue(); short replication = replicationOption == null ? fs.getDefaultReplication(p) : (short) replicationOption.getValue(); long blockSize = blockSizeOption == null ? fs.getDefaultBlockSize(p) : blockSizeOption.getValue(); Progressable progress = progressOption == null ? null : progressOption.getValue(); if (appendIfExistsOption != null && appendIfExistsOption.getValue() && fs.exists(p)) { // Read the file and verify header details SequenceFile.Reader reader = new SequenceFile.Reader(conf, SequenceFile.Reader.file(p), new Reader.OnlyHeaderOption()); try { if (keyClassOption.getValue() != reader.getKeyClass() || valueClassOption.getValue() != reader.getValueClass()) { throw new IllegalArgumentException( "Key/value class provided does not match the file"); } if (reader.getVersion() != VERSION[3]) { throw new VersionMismatchException(VERSION[3], reader.getVersion()); } if (metadataOption != null) { LOG.info("MetaData Option is ignored during append"); } metadataOption = (MetadataOption) SequenceFile.Writer .metadata(reader.getMetadata()); CompressionOption readerCompressionOption = new CompressionOption( reader.getCompressionType(), reader.getCompressionCodec()); // Codec comparison will be ignored if the compression is NONE if (readerCompressionOption.value != compressionTypeOption.value || (readerCompressionOption.value != CompressionType.NONE && readerCompressionOption.codec .getClass() != compressionTypeOption.codec .getClass())) { throw new IllegalArgumentException( "Compression option provided does not match the file"); } sync = reader.getSync(); } finally { reader.close(); } out = fs.append(p, bufferSize, progress); this.appendMode = true; } else { out = fs .create(p, true, bufferSize, replication, blockSize, progress); } } else { out = streamOption.getValue(); } Class keyClass = keyClassOption == null ? Object.class : keyClassOption.getValue(); Class valueClass = valueClassOption == null ? Object.class : valueClassOption.getValue(); Metadata metadata = metadataOption == null ? new Metadata() : metadataOption.getValue(); this.compress = compressionTypeOption.getValue(); final CompressionCodec codec = compressionTypeOption.getCodec(); if (codec != null && (codec instanceof GzipCodec) && !NativeCodeLoader.isNativeCodeLoaded() && !ZlibFactory.isNativeZlibLoaded(conf)) { throw new IllegalArgumentException("SequenceFile doesn't work with " + "GzipCodec without native-hadoop " + "code!"); } this.syncInterval = (syncIntervalOption == null) ? SYNC_INTERVAL : syncIntervalOption.getValue(); init( conf, out, ownStream, keyClass, valueClass, codec, metadata, syncInterval); } /** Create the named file. * @deprecated Use * {@link SequenceFile#createWriter(Configuration, Writer.Option...)} * instead. */ @Deprecated public Writer(FileSystem fs, Configuration conf, Path name, Class keyClass, Class valClass) throws IOException { this.compress = CompressionType.NONE; init(conf, fs.create(name), true, keyClass, valClass, null, new Metadata(), SYNC_INTERVAL); } /** Create the named file with write-progress reporter. * @deprecated Use * {@link SequenceFile#createWriter(Configuration, Writer.Option...)} * instead. */ @Deprecated public Writer(FileSystem fs, Configuration conf, Path name, Class keyClass, Class valClass, Progressable progress, Metadata metadata) throws IOException { this.compress = CompressionType.NONE; init(conf, fs.create(name, progress), true, keyClass, valClass, null, metadata, SYNC_INTERVAL); } /** Create the named file with write-progress reporter. * @deprecated Use * {@link SequenceFile#createWriter(Configuration, Writer.Option...)} * instead. */ @Deprecated public Writer(FileSystem fs, Configuration conf, Path name, Class keyClass, Class valClass, int bufferSize, short replication, long blockSize, Progressable progress, Metadata metadata) throws IOException { this.compress = CompressionType.NONE; init(conf, fs.create(name, true, bufferSize, replication, blockSize, progress), true, keyClass, valClass, null, metadata, SYNC_INTERVAL); } boolean isCompressed() { return compress != CompressionType.NONE; } boolean isBlockCompressed() { return compress == CompressionType.BLOCK; } Writer ownStream() { this.ownOutputStream = true; return this; } /** Write and flush the file header. */ private void writeFileHeader() throws IOException { out.write(VERSION); Text.writeString(out, keyClass.getName()); Text.writeString(out, valClass.getName()); out.writeBoolean(this.isCompressed()); out.writeBoolean(this.isBlockCompressed()); if (this.isCompressed()) { Text.writeString(out, (codec.getClass()).getName()); } this.metadata.write(out); out.write(sync); // write the sync bytes out.flush(); // flush header } /** Initialize. */ @SuppressWarnings("unchecked") void init(Configuration config, FSDataOutputStream outStream, boolean ownStream, Class key, Class val, CompressionCodec compCodec, Metadata meta, int syncIntervalVal) throws IOException { this.conf = config; this.out = outStream; this.ownOutputStream = ownStream; this.keyClass = key; this.valClass = val; this.codec = compCodec; this.metadata = meta; this.syncInterval = syncIntervalVal; SerializationFactory serializationFactory = new SerializationFactory(config); this.keySerializer = serializationFactory.getSerializer(keyClass); if (this.keySerializer == null) { throw new IOException( "Could not find a serializer for the Key class: '" + keyClass.getCanonicalName() + "'. " + "Please ensure that the configuration '" + CommonConfigurationKeys.IO_SERIALIZATIONS_KEY + "' is " + "properly configured, if you're using" + "custom serialization."); } this.keySerializer.open(buffer); this.uncompressedValSerializer = serializationFactory.getSerializer(valClass); if (this.uncompressedValSerializer == null) { throw new IOException( "Could not find a serializer for the Value class: '" + valClass.getCanonicalName() + "'. " + "Please ensure that the configuration '" + CommonConfigurationKeys.IO_SERIALIZATIONS_KEY + "' is " + "properly configured, if you're using" + "custom serialization."); } this.uncompressedValSerializer.open(buffer); if (this.codec != null) { ReflectionUtils.setConf(this.codec, this.conf); this.compressor = CodecPool.getCompressor(this.codec); this.deflateFilter = this.codec.createOutputStream(buffer, compressor); this.deflateOut = new DataOutputStream(new BufferedOutputStream(deflateFilter)); this.compressedValSerializer = serializationFactory.getSerializer(valClass); if (this.compressedValSerializer == null) { throw new IOException( "Could not find a serializer for the Value class: '" + valClass.getCanonicalName() + "'. " + "Please ensure that the configuration '" + CommonConfigurationKeys.IO_SERIALIZATIONS_KEY + "' is " + "properly configured, if you're using" + "custom serialization."); } this.compressedValSerializer.open(deflateOut); } if (appendMode) { sync(); } else { writeFileHeader(); } } /** Returns the class of keys in this file. */ public Class getKeyClass() { return keyClass; } /** Returns the class of values in this file. */ public Class getValueClass() { return valClass; } /** Returns the compression codec of data in this file. */ public CompressionCodec getCompressionCodec() { return codec; } /** create a sync point */ public void sync() throws IOException { if (sync != null && lastSyncPos != out.getPos()) { out.writeInt(SYNC_ESCAPE); // mark the start of the sync out.write(sync); // write sync lastSyncPos = out.getPos(); // update lastSyncPos } } /** * flush all currently written data to the file system * @deprecated Use {@link #hsync()} or {@link #hflush()} instead */ @Deprecated public void syncFs() throws IOException { if (out != null) { out.hflush(); // flush contents to file system } } @Override public void hsync() throws IOException { if (out != null) { out.hsync(); } } @Override public void hflush() throws IOException { if (out != null) { out.hflush(); } } /** Returns the configuration of this file. */ Configuration getConf() { return conf; } /** Close the file. */ @Override public synchronized void close() throws IOException { keySerializer.close(); uncompressedValSerializer.close(); if (compressedValSerializer != null) { compressedValSerializer.close(); } CodecPool.returnCompressor(compressor); compressor = null; if (out != null) { // Close the underlying stream iff we own it... if (ownOutputStream) { out.close(); } else { out.flush(); } out = null; } } synchronized void checkAndWriteSync() throws IOException { if (sync != null && out.getPos() >= lastSyncPos+this.syncInterval) { // time to emit sync sync(); } } /** Append a key/value pair. */ public void append(Writable key, Writable val) throws IOException { append((Object) key, (Object) val); } /** Append a key/value pair. */ @SuppressWarnings("unchecked") public synchronized void append(Object key, Object val) throws IOException { if (key.getClass() != keyClass) throw new IOException("wrong key class: "+key.getClass().getName() +" is not "+keyClass); if (val.getClass() != valClass) throw new IOException("wrong value class: "+val.getClass().getName() +" is not "+valClass); buffer.reset(); // Append the 'key' keySerializer.serialize(key); int keyLength = buffer.getLength(); if (keyLength < 0) throw new IOException("negative length keys not allowed: " + key); // Append the 'value' if (compress == CompressionType.RECORD) { deflateFilter.resetState(); compressedValSerializer.serialize(val); deflateOut.flush(); deflateFilter.finish(); } else { uncompressedValSerializer.serialize(val); } // Write the record out checkAndWriteSync(); // sync out.writeInt(buffer.getLength()); // total record length out.writeInt(keyLength); // key portion length out.write(buffer.getData(), 0, buffer.getLength()); // data } public synchronized void appendRaw(byte[] keyData, int keyOffset, int keyLength, ValueBytes val) throws IOException { if (keyLength < 0) throw new IOException("negative length keys not allowed: " + keyLength); int valLength = val.getSize(); checkAndWriteSync(); out.writeInt(keyLength+valLength); // total record length out.writeInt(keyLength); // key portion length out.write(keyData, keyOffset, keyLength); // key val.writeUncompressedBytes(out); // value } /** Returns the current length of the output file. * *

This always returns a synchronized position. In other words, * immediately after calling {@link SequenceFile.Reader#seek(long)} with a position * returned by this method, {@link SequenceFile.Reader#next(Writable)} may be called. However * the key may be earlier in the file than key last written when this * method was called (e.g., with block-compression, it may be the first key * in the block that was being written when this method was called). */ public synchronized long getLength() throws IOException { return out.getPos(); } } // class Writer /** Write key/compressed-value pairs to a sequence-format file. */ static class RecordCompressWriter extends Writer { RecordCompressWriter(Configuration conf, Option... options) throws IOException { super(conf, options); } /** Append a key/value pair. */ @Override @SuppressWarnings("unchecked") public synchronized void append(Object key, Object val) throws IOException { if (key.getClass() != keyClass) throw new IOException("wrong key class: "+key.getClass().getName() +" is not "+keyClass); if (val.getClass() != valClass) throw new IOException("wrong value class: "+val.getClass().getName() +" is not "+valClass); buffer.reset(); // Append the 'key' keySerializer.serialize(key); int keyLength = buffer.getLength(); if (keyLength < 0) throw new IOException("negative length keys not allowed: " + key); // Compress 'value' and append it deflateFilter.resetState(); compressedValSerializer.serialize(val); deflateOut.flush(); deflateFilter.finish(); // Write the record out checkAndWriteSync(); // sync out.writeInt(buffer.getLength()); // total record length out.writeInt(keyLength); // key portion length out.write(buffer.getData(), 0, buffer.getLength()); // data } /** Append a key/value pair. */ @Override public synchronized void appendRaw(byte[] keyData, int keyOffset, int keyLength, ValueBytes val) throws IOException { if (keyLength < 0) throw new IOException("negative length keys not allowed: " + keyLength); int valLength = val.getSize(); checkAndWriteSync(); // sync out.writeInt(keyLength+valLength); // total record length out.writeInt(keyLength); // key portion length out.write(keyData, keyOffset, keyLength); // 'key' data val.writeCompressedBytes(out); // 'value' data } } // RecordCompressionWriter /** Write compressed key/value blocks to a sequence-format file. */ static class BlockCompressWriter extends Writer { private int noBufferedRecords = 0; private DataOutputBuffer keyLenBuffer = new DataOutputBuffer(); private DataOutputBuffer keyBuffer = new DataOutputBuffer(); private DataOutputBuffer valLenBuffer = new DataOutputBuffer(); private DataOutputBuffer valBuffer = new DataOutputBuffer(); private final int compressionBlockSize; BlockCompressWriter(Configuration conf, Option... options) throws IOException { super(conf, options); compressionBlockSize = conf.getInt(IO_SEQFILE_COMPRESS_BLOCKSIZE_KEY, IO_SEQFILE_COMPRESS_BLOCKSIZE_DEFAULT ); keySerializer.close(); keySerializer.open(keyBuffer); uncompressedValSerializer.close(); uncompressedValSerializer.open(valBuffer); } /** Workhorse to check and write out compressed data/lengths */ private synchronized void writeBuffer(DataOutputBuffer uncompressedDataBuffer) throws IOException { deflateFilter.resetState(); buffer.reset(); deflateOut.write(uncompressedDataBuffer.getData(), 0, uncompressedDataBuffer.getLength()); deflateOut.flush(); deflateFilter.finish(); WritableUtils.writeVInt(out, buffer.getLength()); out.write(buffer.getData(), 0, buffer.getLength()); } /** Compress and flush contents to dfs */ @Override public synchronized void sync() throws IOException { if (noBufferedRecords > 0) { super.sync(); // No. of records WritableUtils.writeVInt(out, noBufferedRecords); // Write 'keys' and lengths writeBuffer(keyLenBuffer); writeBuffer(keyBuffer); // Write 'values' and lengths writeBuffer(valLenBuffer); writeBuffer(valBuffer); // Flush the file-stream out.flush(); // Reset internal states keyLenBuffer.reset(); keyBuffer.reset(); valLenBuffer.reset(); valBuffer.reset(); noBufferedRecords = 0; } } /** Close the file. */ @Override public synchronized void close() throws IOException { if (out != null) { sync(); } super.close(); } /** Append a key/value pair. */ @Override @SuppressWarnings("unchecked") public synchronized void append(Object key, Object val) throws IOException { if (key.getClass() != keyClass) throw new IOException("wrong key class: "+key+" is not "+keyClass); if (val.getClass() != valClass) throw new IOException("wrong value class: "+val+" is not "+valClass); // Save key/value into respective buffers int oldKeyLength = keyBuffer.getLength(); keySerializer.serialize(key); int keyLength = keyBuffer.getLength() - oldKeyLength; if (keyLength < 0) throw new IOException("negative length keys not allowed: " + key); WritableUtils.writeVInt(keyLenBuffer, keyLength); int oldValLength = valBuffer.getLength(); uncompressedValSerializer.serialize(val); int valLength = valBuffer.getLength() - oldValLength; WritableUtils.writeVInt(valLenBuffer, valLength); // Added another key/value pair ++noBufferedRecords; // Compress and flush? int currentBlockSize = keyBuffer.getLength() + valBuffer.getLength(); if (currentBlockSize >= compressionBlockSize) { sync(); } } /** Append a key/value pair. */ @Override public synchronized void appendRaw(byte[] keyData, int keyOffset, int keyLength, ValueBytes val) throws IOException { if (keyLength < 0) throw new IOException("negative length keys not allowed"); int valLength = val.getSize(); // Save key/value data in relevant buffers WritableUtils.writeVInt(keyLenBuffer, keyLength); keyBuffer.write(keyData, keyOffset, keyLength); WritableUtils.writeVInt(valLenBuffer, valLength); val.writeUncompressedBytes(valBuffer); // Added another key/value pair ++noBufferedRecords; // Compress and flush? int currentBlockSize = keyBuffer.getLength() + valBuffer.getLength(); if (currentBlockSize >= compressionBlockSize) { sync(); } } } // BlockCompressionWriter /** Get the configured buffer size */ private static int getBufferSize(Configuration conf) { return conf.getInt(IO_FILE_BUFFER_SIZE_KEY, IO_FILE_BUFFER_SIZE_DEFAULT); } /** Reads key/value pairs from a sequence-format file. */ public static class Reader implements java.io.Closeable { private String filename; private FSDataInputStream in; private DataOutputBuffer outBuf = new DataOutputBuffer(); private byte version; private String keyClassName; private String valClassName; private Class keyClass; private Class valClass; private CompressionCodec codec = null; private Metadata metadata = null; private byte[] sync = new byte[SYNC_HASH_SIZE]; private byte[] syncCheck = new byte[SYNC_HASH_SIZE]; private boolean syncSeen; private long headerEnd; private long end; private int keyLength; private int recordLength; private boolean decompress; private boolean blockCompressed; private Configuration conf; private int noBufferedRecords = 0; private boolean lazyDecompress = true; private boolean valuesDecompressed = true; private int noBufferedKeys = 0; private int noBufferedValues = 0; private DataInputBuffer keyLenBuffer = null; private CompressionInputStream keyLenInFilter = null; private DataInputStream keyLenIn = null; private Decompressor keyLenDecompressor = null; private DataInputBuffer keyBuffer = null; private CompressionInputStream keyInFilter = null; private DataInputStream keyIn = null; private Decompressor keyDecompressor = null; private DataInputBuffer valLenBuffer = null; private CompressionInputStream valLenInFilter = null; private DataInputStream valLenIn = null; private Decompressor valLenDecompressor = null; private DataInputBuffer valBuffer = null; private CompressionInputStream valInFilter = null; private DataInputStream valIn = null; private Decompressor valDecompressor = null; private Deserializer keyDeserializer; private Deserializer valDeserializer; /** * A tag interface for all of the Reader options */ public static interface Option {} /** * Create an option to specify the path name of the sequence file. * @param value the path to read * @return a new option */ public static Option file(Path value) { return new FileOption(value); } /** * Create an option to specify the stream with the sequence file. * @param value the stream to read. * @return a new option */ public static Option stream(FSDataInputStream value) { return new InputStreamOption(value); } /** * Create an option to specify the starting byte to read. * @param value the number of bytes to skip over * @return a new option */ public static Option start(long value) { return new StartOption(value); } /** * Create an option to specify the number of bytes to read. * @param value the number of bytes to read * @return a new option */ public static Option length(long value) { return new LengthOption(value); } /** * Create an option with the buffer size for reading the given pathname. * @param value the number of bytes to buffer * @return a new option */ public static Option bufferSize(int value) { return new BufferSizeOption(value); } private static class FileOption extends Options.PathOption implements Option { private FileOption(Path value) { super(value); } } private static class InputStreamOption extends Options.FSDataInputStreamOption implements Option { private InputStreamOption(FSDataInputStream value) { super(value); } } private static class StartOption extends Options.LongOption implements Option { private StartOption(long value) { super(value); } } private static class LengthOption extends Options.LongOption implements Option { private LengthOption(long value) { super(value); } } private static class BufferSizeOption extends Options.IntegerOption implements Option { private BufferSizeOption(int value) { super(value); } } // only used directly private static class OnlyHeaderOption extends Options.BooleanOption implements Option { private OnlyHeaderOption() { super(true); } } public Reader(Configuration conf, Option... opts) throws IOException { // Look up the options, these are null if not set FileOption fileOpt = Options.getOption(FileOption.class, opts); InputStreamOption streamOpt = Options.getOption(InputStreamOption.class, opts); StartOption startOpt = Options.getOption(StartOption.class, opts); LengthOption lenOpt = Options.getOption(LengthOption.class, opts); BufferSizeOption bufOpt = Options.getOption(BufferSizeOption.class,opts); OnlyHeaderOption headerOnly = Options.getOption(OnlyHeaderOption.class, opts); // check for consistency if ((fileOpt == null) == (streamOpt == null)) { throw new IllegalArgumentException("File or stream option must be specified"); } if (fileOpt == null && bufOpt != null) { throw new IllegalArgumentException("buffer size can only be set when" + " a file is specified."); } // figure out the real values Path filename = null; FSDataInputStream file; final long len; if (fileOpt != null) { filename = fileOpt.getValue(); FileSystem fs = filename.getFileSystem(conf); int bufSize = bufOpt == null ? getBufferSize(conf): bufOpt.getValue(); len = null == lenOpt ? fs.getFileStatus(filename).getLen() : lenOpt.getValue(); file = openFile(fs, filename, bufSize, len); } else { len = null == lenOpt ? Long.MAX_VALUE : lenOpt.getValue(); file = streamOpt.getValue(); } long start = startOpt == null ? 0 : startOpt.getValue(); // really set up initialize(filename, file, start, len, conf, headerOnly != null); } /** * Construct a reader by opening a file from the given file system. * @param fs The file system used to open the file. * @param file The file being read. * @param conf Configuration * @throws IOException * @deprecated Use Reader(Configuration, Option...) instead. */ @Deprecated public Reader(FileSystem fs, Path file, Configuration conf) throws IOException { this(conf, file(fs.makeQualified(file))); } /** * Construct a reader by the given input stream. * @param in An input stream. * @param buffersize unused * @param start The starting position. * @param length The length being read. * @param conf Configuration * @throws IOException * @deprecated Use Reader(Configuration, Reader.Option...) instead. */ @Deprecated public Reader(FSDataInputStream in, int buffersize, long start, long length, Configuration conf) throws IOException { this(conf, stream(in), start(start), length(length)); } /** Common work of the constructors. */ private void initialize(Path filename, FSDataInputStream in, long start, long length, Configuration conf, boolean tempReader) throws IOException { if (in == null) { throw new IllegalArgumentException("in == null"); } this.filename = filename == null ? "" : filename.toString(); this.in = in; this.conf = conf; boolean succeeded = false; try { seek(start); this.end = this.in.getPos() + length; // if it wrapped around, use the max if (end < length) { end = Long.MAX_VALUE; } init(tempReader); succeeded = true; } finally { if (!succeeded) { IOUtils.cleanupWithLogger(LOG, this.in); } } } /** * Override this method to specialize the type of * {@link FSDataInputStream} returned. * @param fs The file system used to open the file. * @param file The file being read. * @param bufferSize The buffer size used to read the file. * @param length The length being read if it is >= 0. Otherwise, * the length is not available. * @return The opened stream. * @throws IOException */ protected FSDataInputStream openFile(FileSystem fs, Path file, int bufferSize, long length) throws IOException { return fs.open(file, bufferSize); } /** * Initialize the {@link Reader} * @param tmpReader true if we are constructing a temporary * reader {@link SequenceFile.Sorter.cloneFileAttributes}, * and hence do not initialize every component; * false otherwise. * @throws IOException */ private void init(boolean tempReader) throws IOException { byte[] versionBlock = new byte[VERSION.length]; String exceptionMsg = this + " not a SequenceFile"; // Try to read sequence file header. try { in.readFully(versionBlock); } catch (EOFException e) { throw new EOFException(exceptionMsg); } if ((versionBlock[0] != VERSION[0]) || (versionBlock[1] != VERSION[1]) || (versionBlock[2] != VERSION[2])) { throw new IOException(this + " not a SequenceFile"); } // Set 'version' version = versionBlock[3]; if (version > VERSION[3]) { throw new VersionMismatchException(VERSION[3], version); } if (version < BLOCK_COMPRESS_VERSION) { UTF8 className = new UTF8(); className.readFields(in); keyClassName = className.toStringChecked(); // key class name className.readFields(in); valClassName = className.toStringChecked(); // val class name } else { keyClassName = Text.readString(in); valClassName = Text.readString(in); } if (version > 2) { // if version > 2 this.decompress = in.readBoolean(); // is compressed? } else { decompress = false; } if (version >= BLOCK_COMPRESS_VERSION) { // if version >= 4 this.blockCompressed = in.readBoolean(); // is block-compressed? } else { blockCompressed = false; } // if version >= 5 // setup the compression codec if (decompress) { if (version >= CUSTOM_COMPRESS_VERSION) { String codecClassname = Text.readString(in); try { Class codecClass = conf.getClassByName(codecClassname).asSubclass(CompressionCodec.class); this.codec = ReflectionUtils.newInstance(codecClass, conf); } catch (ClassNotFoundException cnfe) { throw new IllegalArgumentException("Unknown codec: " + codecClassname, cnfe); } } else { codec = new DefaultCodec(); ((Configurable)codec).setConf(conf); } } this.metadata = new Metadata(); if (version >= VERSION_WITH_METADATA) { // if version >= 6 this.metadata.readFields(in); } if (version > 1) { // if version > 1 in.readFully(sync); // read sync bytes headerEnd = in.getPos(); // record end of header } // Initialize... *not* if this we are constructing a temporary Reader if (!tempReader) { valBuffer = new DataInputBuffer(); if (decompress) { valDecompressor = CodecPool.getDecompressor(codec); valInFilter = codec.createInputStream(valBuffer, valDecompressor); valIn = new DataInputStream(valInFilter); } else { valIn = valBuffer; } if (blockCompressed) { keyLenBuffer = new DataInputBuffer(); keyBuffer = new DataInputBuffer(); valLenBuffer = new DataInputBuffer(); keyLenDecompressor = CodecPool.getDecompressor(codec); keyLenInFilter = codec.createInputStream(keyLenBuffer, keyLenDecompressor); keyLenIn = new DataInputStream(keyLenInFilter); keyDecompressor = CodecPool.getDecompressor(codec); keyInFilter = codec.createInputStream(keyBuffer, keyDecompressor); keyIn = new DataInputStream(keyInFilter); valLenDecompressor = CodecPool.getDecompressor(codec); valLenInFilter = codec.createInputStream(valLenBuffer, valLenDecompressor); valLenIn = new DataInputStream(valLenInFilter); } SerializationFactory serializationFactory = new SerializationFactory(conf); this.keyDeserializer = getDeserializer(serializationFactory, getKeyClass()); if (this.keyDeserializer == null) { throw new IOException( "Could not find a deserializer for the Key class: '" + getKeyClass().getCanonicalName() + "'. " + "Please ensure that the configuration '" + CommonConfigurationKeys.IO_SERIALIZATIONS_KEY + "' is " + "properly configured, if you're using " + "custom serialization."); } if (!blockCompressed) { this.keyDeserializer.open(valBuffer); } else { this.keyDeserializer.open(keyIn); } this.valDeserializer = getDeserializer(serializationFactory, getValueClass()); if (this.valDeserializer == null) { throw new IOException( "Could not find a deserializer for the Value class: '" + getValueClass().getCanonicalName() + "'. " + "Please ensure that the configuration '" + CommonConfigurationKeys.IO_SERIALIZATIONS_KEY + "' is " + "properly configured, if you're using " + "custom serialization."); } this.valDeserializer.open(valIn); } } @SuppressWarnings("unchecked") private Deserializer getDeserializer(SerializationFactory sf, Class c) { return sf.getDeserializer(c); } /** Close the file. */ @Override public synchronized void close() throws IOException { // Return the decompressors to the pool CodecPool.returnDecompressor(keyLenDecompressor); CodecPool.returnDecompressor(keyDecompressor); CodecPool.returnDecompressor(valLenDecompressor); CodecPool.returnDecompressor(valDecompressor); keyLenDecompressor = keyDecompressor = null; valLenDecompressor = valDecompressor = null; if (keyDeserializer != null) { keyDeserializer.close(); } if (valDeserializer != null) { valDeserializer.close(); } // Close the input-stream in.close(); } /** Returns the name of the key class. */ public String getKeyClassName() { return keyClassName; } /** Returns the class of keys in this file. */ public synchronized Class getKeyClass() { if (null == keyClass) { try { keyClass = WritableName.getClass(getKeyClassName(), conf); } catch (IOException e) { throw new RuntimeException(e); } } return keyClass; } /** Returns the name of the value class. */ public String getValueClassName() { return valClassName; } /** Returns the class of values in this file. */ public synchronized Class getValueClass() { if (null == valClass) { try { valClass = WritableName.getClass(getValueClassName(), conf); } catch (IOException e) { throw new RuntimeException(e); } } return valClass; } /** Returns true if values are compressed. */ public boolean isCompressed() { return decompress; } /** Returns true if records are block-compressed. */ public boolean isBlockCompressed() { return blockCompressed; } /** Returns the compression codec of data in this file. */ public CompressionCodec getCompressionCodec() { return codec; } private byte[] getSync() { return sync; } private byte getVersion() { return version; } /** * Get the compression type for this file. * @return the compression type */ public CompressionType getCompressionType() { if (decompress) { return blockCompressed ? CompressionType.BLOCK : CompressionType.RECORD; } else { return CompressionType.NONE; } } /** Returns the metadata object of the file */ public Metadata getMetadata() { return this.metadata; } /** Returns the configuration used for this file. */ Configuration getConf() { return conf; } /** Read a compressed buffer */ private synchronized void readBuffer(DataInputBuffer buffer, CompressionInputStream filter) throws IOException { // Read data into a temporary buffer DataOutputBuffer dataBuffer = new DataOutputBuffer(); try { int dataBufferLength = WritableUtils.readVInt(in); dataBuffer.write(in, dataBufferLength); // Set up 'buffer' connected to the input-stream buffer.reset(dataBuffer.getData(), 0, dataBuffer.getLength()); } finally { dataBuffer.close(); } // Reset the codec filter.resetState(); } /** Read the next 'compressed' block */ private synchronized void readBlock() throws IOException { // Check if we need to throw away a whole block of // 'values' due to 'lazy decompression' if (lazyDecompress && !valuesDecompressed) { in.seek(WritableUtils.readVInt(in)+in.getPos()); in.seek(WritableUtils.readVInt(in)+in.getPos()); } // Reset internal states noBufferedKeys = 0; noBufferedValues = 0; noBufferedRecords = 0; valuesDecompressed = false; //Process sync if (sync != null) { in.readInt(); in.readFully(syncCheck); // read syncCheck if (!Arrays.equals(sync, syncCheck)) // check it throw new IOException("File is corrupt!"); } syncSeen = true; // Read number of records in this block noBufferedRecords = WritableUtils.readVInt(in); // Read key lengths and keys readBuffer(keyLenBuffer, keyLenInFilter); readBuffer(keyBuffer, keyInFilter); noBufferedKeys = noBufferedRecords; // Read value lengths and values if (!lazyDecompress) { readBuffer(valLenBuffer, valLenInFilter); readBuffer(valBuffer, valInFilter); noBufferedValues = noBufferedRecords; valuesDecompressed = true; } } /** * Position valLenIn/valIn to the 'value' * corresponding to the 'current' key */ private synchronized void seekToCurrentValue() throws IOException { if (!blockCompressed) { if (decompress) { valInFilter.resetState(); } valBuffer.reset(); } else { // Check if this is the first value in the 'block' to be read if (lazyDecompress && !valuesDecompressed) { // Read the value lengths and values readBuffer(valLenBuffer, valLenInFilter); readBuffer(valBuffer, valInFilter); noBufferedValues = noBufferedRecords; valuesDecompressed = true; } // Calculate the no. of bytes to skip // Note: 'current' key has already been read! int skipValBytes = 0; int currentKey = noBufferedKeys + 1; for (int i=noBufferedValues; i > currentKey; --i) { skipValBytes += WritableUtils.readVInt(valLenIn); --noBufferedValues; } // Skip to the 'val' corresponding to 'current' key if (skipValBytes > 0) { if (valIn.skipBytes(skipValBytes) != skipValBytes) { throw new IOException("Failed to seek to " + currentKey + "(th) value!"); } } } } /** * Get the 'value' corresponding to the last read 'key'. * @param val : The 'value' to be read. * @throws IOException */ public synchronized void getCurrentValue(Writable val) throws IOException { if (val instanceof Configurable) { ((Configurable) val).setConf(this.conf); } // Position stream to 'current' value seekToCurrentValue(); if (!blockCompressed) { val.readFields(valIn); if (valIn.read() > 0) { LOG.info("available bytes: " + valIn.available()); throw new IOException(val+" read "+(valBuffer.getPosition()-keyLength) + " bytes, should read " + (valBuffer.getLength()-keyLength)); } } else { // Get the value int valLength = WritableUtils.readVInt(valLenIn); val.readFields(valIn); // Read another compressed 'value' --noBufferedValues; // Sanity check if ((valLength < 0) && LOG.isDebugEnabled()) { LOG.debug(val + " is a zero-length value"); } } } /** * Get the 'value' corresponding to the last read 'key'. * @param val : The 'value' to be read. * @throws IOException */ public synchronized Object getCurrentValue(Object val) throws IOException { if (val instanceof Configurable) { ((Configurable) val).setConf(this.conf); } // Position stream to 'current' value seekToCurrentValue(); if (!blockCompressed) { val = deserializeValue(val); if (valIn.read() > 0) { LOG.info("available bytes: " + valIn.available()); throw new IOException(val+" read "+(valBuffer.getPosition()-keyLength) + " bytes, should read " + (valBuffer.getLength()-keyLength)); } } else { // Get the value int valLength = WritableUtils.readVInt(valLenIn); val = deserializeValue(val); // Read another compressed 'value' --noBufferedValues; // Sanity check if ((valLength < 0) && LOG.isDebugEnabled()) { LOG.debug(val + " is a zero-length value"); } } return val; } @SuppressWarnings("unchecked") private Object deserializeValue(Object val) throws IOException { return valDeserializer.deserialize(val); } /** Read the next key in the file into key, skipping its * value. True if another entry exists, and false at end of file. */ public synchronized boolean next(Writable key) throws IOException { if (key.getClass() != getKeyClass()) throw new IOException("wrong key class: "+key.getClass().getName() +" is not "+keyClass); if (!blockCompressed) { outBuf.reset(); keyLength = next(outBuf); if (keyLength < 0) return false; valBuffer.reset(outBuf.getData(), outBuf.getLength()); key.readFields(valBuffer); valBuffer.mark(0); if (valBuffer.getPosition() != keyLength) throw new IOException(key + " read " + valBuffer.getPosition() + " bytes, should read " + keyLength); } else { //Reset syncSeen syncSeen = false; if (noBufferedKeys == 0) { try { readBlock(); } catch (EOFException eof) { return false; } } int keyLength = WritableUtils.readVInt(keyLenIn); // Sanity check if (keyLength < 0) { return false; } //Read another compressed 'key' key.readFields(keyIn); --noBufferedKeys; } return true; } /** Read the next key/value pair in the file into key and * val. Returns true if such a pair exists and false when at * end of file */ public synchronized boolean next(Writable key, Writable val) throws IOException { if (val.getClass() != getValueClass()) throw new IOException("wrong value class: "+val+" is not "+valClass); boolean more = next(key); if (more) { getCurrentValue(val); } return more; } /** * Read and return the next record length, potentially skipping over * a sync block. * @return the length of the next record or -1 if there is no next record * @throws IOException */ private synchronized int readRecordLength() throws IOException { if (in.getPos() >= end) { return -1; } int length = in.readInt(); if (version > 1 && sync != null && length == SYNC_ESCAPE) { // process a sync entry in.readFully(syncCheck); // read syncCheck if (!Arrays.equals(sync, syncCheck)) // check it throw new IOException("File is corrupt!"); syncSeen = true; if (in.getPos() >= end) { return -1; } length = in.readInt(); // re-read length } else { syncSeen = false; } return length; } /** Read the next key/value pair in the file into buffer. * Returns the length of the key read, or -1 if at end of file. The length * of the value may be computed by calling buffer.getLength() before and * after calls to this method. */ /** @deprecated Call {@link #nextRaw(DataOutputBuffer,SequenceFile.ValueBytes)}. */ @Deprecated synchronized int next(DataOutputBuffer buffer) throws IOException { // Unsupported for block-compressed sequence files if (blockCompressed) { throw new IOException("Unsupported call for block-compressed" + " SequenceFiles - use SequenceFile.Reader.next(DataOutputStream, ValueBytes)"); } try { int length = readRecordLength(); if (length == -1) { return -1; } int keyLength = in.readInt(); buffer.write(in, length); return keyLength; } catch (ChecksumException e) { // checksum failure handleChecksumException(e); return next(buffer); } } public ValueBytes createValueBytes() { ValueBytes val = null; if (!decompress || blockCompressed) { val = new UncompressedBytes(); } else { val = new CompressedBytes(codec); } return val; } /** * Read 'raw' records. * @param key - The buffer into which the key is read * @param val - The 'raw' value * @return Returns the total record length or -1 for end of file * @throws IOException */ public synchronized int nextRaw(DataOutputBuffer key, ValueBytes val) throws IOException { if (!blockCompressed) { int length = readRecordLength(); if (length == -1) { return -1; } int keyLength = in.readInt(); int valLength = length - keyLength; key.write(in, keyLength); if (decompress) { CompressedBytes value = (CompressedBytes)val; value.reset(in, valLength); } else { UncompressedBytes value = (UncompressedBytes)val; value.reset(in, valLength); } return length; } else { //Reset syncSeen syncSeen = false; // Read 'key' if (noBufferedKeys == 0) { if (in.getPos() >= end) return -1; try { readBlock(); } catch (EOFException eof) { return -1; } } int keyLength = WritableUtils.readVInt(keyLenIn); if (keyLength < 0) { throw new IOException("zero length key found!"); } key.write(keyIn, keyLength); --noBufferedKeys; // Read raw 'value' seekToCurrentValue(); int valLength = WritableUtils.readVInt(valLenIn); UncompressedBytes rawValue = (UncompressedBytes)val; rawValue.reset(valIn, valLength); --noBufferedValues; return (keyLength+valLength); } } /** * Read 'raw' keys. * @param key - The buffer into which the key is read * @return Returns the key length or -1 for end of file * @throws IOException */ public synchronized int nextRawKey(DataOutputBuffer key) throws IOException { if (!blockCompressed) { recordLength = readRecordLength(); if (recordLength == -1) { return -1; } keyLength = in.readInt(); key.write(in, keyLength); return keyLength; } else { //Reset syncSeen syncSeen = false; // Read 'key' if (noBufferedKeys == 0) { if (in.getPos() >= end) return -1; try { readBlock(); } catch (EOFException eof) { return -1; } } int keyLength = WritableUtils.readVInt(keyLenIn); if (keyLength < 0) { throw new IOException("zero length key found!"); } key.write(keyIn, keyLength); --noBufferedKeys; return keyLength; } } /** Read the next key in the file, skipping its * value. Return null at end of file. */ public synchronized Object next(Object key) throws IOException { if (key != null && key.getClass() != getKeyClass()) { throw new IOException("wrong key class: "+key.getClass().getName() +" is not "+keyClass); } if (!blockCompressed) { outBuf.reset(); keyLength = next(outBuf); if (keyLength < 0) return null; valBuffer.reset(outBuf.getData(), outBuf.getLength()); key = deserializeKey(key); valBuffer.mark(0); if (valBuffer.getPosition() != keyLength) throw new IOException(key + " read " + valBuffer.getPosition() + " bytes, should read " + keyLength); } else { //Reset syncSeen syncSeen = false; if (noBufferedKeys == 0) { try { readBlock(); } catch (EOFException eof) { return null; } } int keyLength = WritableUtils.readVInt(keyLenIn); // Sanity check if (keyLength < 0) { return null; } //Read another compressed 'key' key = deserializeKey(key); --noBufferedKeys; } return key; } @SuppressWarnings("unchecked") private Object deserializeKey(Object key) throws IOException { return keyDeserializer.deserialize(key); } /** * Read 'raw' values. * @param val - The 'raw' value * @return Returns the value length * @throws IOException */ public synchronized int nextRawValue(ValueBytes val) throws IOException { // Position stream to current value seekToCurrentValue(); if (!blockCompressed) { int valLength = recordLength - keyLength; if (decompress) { CompressedBytes value = (CompressedBytes)val; value.reset(in, valLength); } else { UncompressedBytes value = (UncompressedBytes)val; value.reset(in, valLength); } return valLength; } else { int valLength = WritableUtils.readVInt(valLenIn); UncompressedBytes rawValue = (UncompressedBytes)val; rawValue.reset(valIn, valLength); --noBufferedValues; return valLength; } } private void handleChecksumException(ChecksumException e) throws IOException { if (this.conf.getBoolean( IO_SKIP_CHECKSUM_ERRORS_KEY, IO_SKIP_CHECKSUM_ERRORS_DEFAULT)) { LOG.warn("Bad checksum at "+getPosition()+". Skipping entries."); sync(getPosition()+this.conf.getInt("io.bytes.per.checksum", 512)); } else { throw e; } } /** disables sync. often invoked for tmp files */ synchronized void ignoreSync() { sync = null; } /** Set the current byte position in the input file. * *

The position passed must be a position returned by {@link * SequenceFile.Writer#getLength()} when writing this file. To seek to an arbitrary * position, use {@link SequenceFile.Reader#sync(long)}. */ public synchronized void seek(long position) throws IOException { in.seek(position); if (blockCompressed) { // trigger block read noBufferedKeys = 0; valuesDecompressed = true; } } /** Seek to the next sync mark past a given position.*/ public synchronized void sync(long position) throws IOException { if (position+SYNC_SIZE >= end) { seek(end); return; } if (position < headerEnd) { // seek directly to first record in.seek(headerEnd); // note the sync marker "seen" in the header syncSeen = true; return; } try { seek(position+4); // skip escape in.readFully(syncCheck); int syncLen = sync.length; for (int i = 0; in.getPos() < end; i++) { int j = 0; for (; j < syncLen; j++) { if (sync[j] != syncCheck[(i+j)%syncLen]) break; } if (j == syncLen) { in.seek(in.getPos() - SYNC_SIZE); // position before sync return; } syncCheck[i%syncLen] = in.readByte(); } } catch (ChecksumException e) { // checksum failure handleChecksumException(e); } } /** Returns true iff the previous call to next passed a sync mark.*/ public synchronized boolean syncSeen() { return syncSeen; } /** Return the current byte position in the input file. */ public synchronized long getPosition() throws IOException { return in.getPos(); } /** Returns the name of the file. */ @Override public String toString() { return filename; } } /** Sorts key/value pairs in a sequence-format file. * *

For best performance, applications should make sure that the {@link * Writable#readFields(DataInput)} implementation of their keys is * very efficient. In particular, it should avoid allocating memory. */ public static class Sorter { private RawComparator comparator; private MergeSort mergeSort; //the implementation of merge sort private Path[] inFiles; // when merging or sorting private Path outFile; private int memory; // bytes private int factor; // merged per pass private FileSystem fs = null; private Class keyClass; private Class valClass; private Configuration conf; private Metadata metadata; private Progressable progressable = null; /** Sort and merge files containing the named classes. */ public Sorter(FileSystem fs, Class keyClass, Class valClass, Configuration conf) { this(fs, WritableComparator.get(keyClass, conf), keyClass, valClass, conf); } /** Sort and merge using an arbitrary {@link RawComparator}. */ public Sorter(FileSystem fs, RawComparator comparator, Class keyClass, Class valClass, Configuration conf) { this(fs, comparator, keyClass, valClass, conf, new Metadata()); } /** Sort and merge using an arbitrary {@link RawComparator}. */ @SuppressWarnings("deprecation") public Sorter(FileSystem fs, RawComparator comparator, Class keyClass, Class valClass, Configuration conf, Metadata metadata) { this.fs = fs; this.comparator = comparator; this.keyClass = keyClass; this.valClass = valClass; // Remember to fall-back on the deprecated MB and Factor keys // until they are removed away permanently. if (conf.get(CommonConfigurationKeys.IO_SORT_MB_KEY) != null) { this.memory = conf.getInt(CommonConfigurationKeys.IO_SORT_MB_KEY, CommonConfigurationKeys.SEQ_IO_SORT_MB_DEFAULT) * 1024 * 1024; } else { this.memory = conf.getInt(CommonConfigurationKeys.SEQ_IO_SORT_MB_KEY, CommonConfigurationKeys.SEQ_IO_SORT_MB_DEFAULT) * 1024 * 1024; } if (conf.get(CommonConfigurationKeys.IO_SORT_FACTOR_KEY) != null) { this.factor = conf.getInt(CommonConfigurationKeys.IO_SORT_FACTOR_KEY, CommonConfigurationKeys.SEQ_IO_SORT_FACTOR_DEFAULT); } else { this.factor = conf.getInt( CommonConfigurationKeys.SEQ_IO_SORT_FACTOR_KEY, CommonConfigurationKeys.SEQ_IO_SORT_FACTOR_DEFAULT); } this.conf = conf; this.metadata = metadata; } /** Set the number of streams to merge at once.*/ public void setFactor(int factor) { this.factor = factor; } /** Get the number of streams to merge at once.*/ public int getFactor() { return factor; } /** Set the total amount of buffer memory, in bytes.*/ public void setMemory(int memory) { this.memory = memory; } /** Get the total amount of buffer memory, in bytes.*/ public int getMemory() { return memory; } /** Set the progressable object in order to report progress. */ public void setProgressable(Progressable progressable) { this.progressable = progressable; } /** * Perform a file sort from a set of input files into an output file. * @param inFiles the files to be sorted * @param outFile the sorted output file * @param deleteInput should the input files be deleted as they are read? */ public void sort(Path[] inFiles, Path outFile, boolean deleteInput) throws IOException { if (fs.exists(outFile)) { throw new IOException("already exists: " + outFile); } this.inFiles = inFiles; this.outFile = outFile; int segments = sortPass(deleteInput); if (segments > 1) { mergePass(outFile.getParent()); } } /** * Perform a file sort from a set of input files and return an iterator. * @param inFiles the files to be sorted * @param tempDir the directory where temp files are created during sort * @param deleteInput should the input files be deleted as they are read? * @return iterator the RawKeyValueIterator */ public RawKeyValueIterator sortAndIterate(Path[] inFiles, Path tempDir, boolean deleteInput) throws IOException { Path outFile = new Path(tempDir + Path.SEPARATOR + "all.2"); if (fs.exists(outFile)) { throw new IOException("already exists: " + outFile); } this.inFiles = inFiles; //outFile will basically be used as prefix for temp files in the cases //where sort outputs multiple sorted segments. For the single segment //case, the outputFile itself will contain the sorted data for that //segment this.outFile = outFile; int segments = sortPass(deleteInput); if (segments > 1) return merge(outFile.suffix(".0"), outFile.suffix(".0.index"), tempDir); else if (segments == 1) return merge(new Path[]{outFile}, true, tempDir); else return null; } /** * The backwards compatible interface to sort. * @param inFile the input file to sort * @param outFile the sorted output file */ public void sort(Path inFile, Path outFile) throws IOException { sort(new Path[]{inFile}, outFile, false); } private int sortPass(boolean deleteInput) throws IOException { if(LOG.isDebugEnabled()) { LOG.debug("running sort pass"); } SortPass sortPass = new SortPass(); // make the SortPass sortPass.setProgressable(progressable); mergeSort = new MergeSort(sortPass.new SeqFileComparator()); try { return sortPass.run(deleteInput); // run it } finally { sortPass.close(); // close it } } private class SortPass { private int memoryLimit = memory/4; private int recordLimit = 1000000; private DataOutputBuffer rawKeys = new DataOutputBuffer(); private byte[] rawBuffer; private int[] keyOffsets = new int[1024]; private int[] pointers = new int[keyOffsets.length]; private int[] pointersCopy = new int[keyOffsets.length]; private int[] keyLengths = new int[keyOffsets.length]; private ValueBytes[] rawValues = new ValueBytes[keyOffsets.length]; private ArrayList segmentLengths = new ArrayList(); private Reader in = null; private FSDataOutputStream out = null; private FSDataOutputStream indexOut = null; private Path outName; private Progressable progressable = null; public int run(boolean deleteInput) throws IOException { int segments = 0; int currentFile = 0; boolean atEof = (currentFile >= inFiles.length); CompressionType compressionType; CompressionCodec codec = null; segmentLengths.clear(); if (atEof) { return 0; } // Initialize in = new Reader(fs, inFiles[currentFile], conf); compressionType = in.getCompressionType(); codec = in.getCompressionCodec(); for (int i=0; i < rawValues.length; ++i) { rawValues[i] = null; } while (!atEof) { int count = 0; int bytesProcessed = 0; rawKeys.reset(); while (!atEof && bytesProcessed < memoryLimit && count < recordLimit) { // Read a record into buffer // Note: Attempt to re-use 'rawValue' as far as possible int keyOffset = rawKeys.getLength(); ValueBytes rawValue = (count == keyOffsets.length || rawValues[count] == null) ? in.createValueBytes() : rawValues[count]; int recordLength = in.nextRaw(rawKeys, rawValue); if (recordLength == -1) { in.close(); if (deleteInput) { fs.delete(inFiles[currentFile], true); } currentFile += 1; atEof = currentFile >= inFiles.length; if (!atEof) { in = new Reader(fs, inFiles[currentFile], conf); } else { in = null; } continue; } int keyLength = rawKeys.getLength() - keyOffset; if (count == keyOffsets.length) grow(); keyOffsets[count] = keyOffset; // update pointers pointers[count] = count; keyLengths[count] = keyLength; rawValues[count] = rawValue; bytesProcessed += recordLength; count++; } // buffer is full -- sort & flush it if(LOG.isDebugEnabled()) { LOG.debug("flushing segment " + segments); } rawBuffer = rawKeys.getData(); sort(count); // indicate we're making progress if (progressable != null) { progressable.progress(); } flush(count, bytesProcessed, compressionType, codec, segments==0 && atEof); segments++; } return segments; } public void close() throws IOException { if (in != null) { in.close(); } if (out != null) { out.close(); } if (indexOut != null) { indexOut.close(); } } private void grow() { int newLength = keyOffsets.length * 3 / 2; keyOffsets = grow(keyOffsets, newLength); pointers = grow(pointers, newLength); pointersCopy = new int[newLength]; keyLengths = grow(keyLengths, newLength); rawValues = grow(rawValues, newLength); } private int[] grow(int[] old, int newLength) { int[] result = new int[newLength]; System.arraycopy(old, 0, result, 0, old.length); return result; } private ValueBytes[] grow(ValueBytes[] old, int newLength) { ValueBytes[] result = new ValueBytes[newLength]; System.arraycopy(old, 0, result, 0, old.length); for (int i=old.length; i < newLength; ++i) { result[i] = null; } return result; } private void flush(int count, int bytesProcessed, CompressionType compressionType, CompressionCodec codec, boolean done) throws IOException { if (out == null) { outName = done ? outFile : outFile.suffix(".0"); out = fs.create(outName); if (!done) { indexOut = fs.create(outName.suffix(".index")); } } long segmentStart = out.getPos(); Writer writer = createWriter(conf, Writer.stream(out), Writer.keyClass(keyClass), Writer.valueClass(valClass), Writer.compression(compressionType, codec), Writer.metadata(done ? metadata : new Metadata())); if (!done) { writer.sync = null; // disable sync on temp files } for (int i = 0; i < count; i++) { // write in sorted order int p = pointers[i]; writer.appendRaw(rawBuffer, keyOffsets[p], keyLengths[p], rawValues[p]); } writer.close(); if (!done) { // Save the segment length WritableUtils.writeVLong(indexOut, segmentStart); WritableUtils.writeVLong(indexOut, (out.getPos()-segmentStart)); indexOut.flush(); } } private void sort(int count) { System.arraycopy(pointers, 0, pointersCopy, 0, count); mergeSort.mergeSort(pointersCopy, pointers, 0, count); } class SeqFileComparator implements Comparator { @Override public int compare(IntWritable I, IntWritable J) { return comparator.compare(rawBuffer, keyOffsets[I.get()], keyLengths[I.get()], rawBuffer, keyOffsets[J.get()], keyLengths[J.get()]); } } /** set the progressable object in order to report progress */ public void setProgressable(Progressable progressable) { this.progressable = progressable; } } // SequenceFile.Sorter.SortPass /** The interface to iterate over raw keys/values of SequenceFiles. */ public static interface RawKeyValueIterator { /** Gets the current raw key * @return DataOutputBuffer * @throws IOException */ DataOutputBuffer getKey() throws IOException; /** Gets the current raw value * @return ValueBytes * @throws IOException */ ValueBytes getValue() throws IOException; /** Sets up the current key and value (for getKey and getValue) * @return true if there exists a key/value, false otherwise * @throws IOException */ boolean next() throws IOException; /** closes the iterator so that the underlying streams can be closed * @throws IOException */ void close() throws IOException; /** Gets the Progress object; this has a float (0.0 - 1.0) * indicating the bytes processed by the iterator so far */ Progress getProgress(); } /** * Merges the list of segments of type SegmentDescriptor * @param segments the list of SegmentDescriptors * @param tmpDir the directory to write temporary files into * @return RawKeyValueIterator * @throws IOException */ public RawKeyValueIterator merge(List segments, Path tmpDir) throws IOException { // pass in object to report progress, if present MergeQueue mQueue = new MergeQueue(segments, tmpDir, progressable); return mQueue.merge(); } /** * Merges the contents of files passed in Path[] using a max factor value * that is already set * @param inNames the array of path names * @param deleteInputs true if the input files should be deleted when * unnecessary * @param tmpDir the directory to write temporary files into * @return RawKeyValueIteratorMergeQueue * @throws IOException */ public RawKeyValueIterator merge(Path [] inNames, boolean deleteInputs, Path tmpDir) throws IOException { return merge(inNames, deleteInputs, (inNames.length < factor) ? inNames.length : factor, tmpDir); } /** * Merges the contents of files passed in Path[] * @param inNames the array of path names * @param deleteInputs true if the input files should be deleted when * unnecessary * @param factor the factor that will be used as the maximum merge fan-in * @param tmpDir the directory to write temporary files into * @return RawKeyValueIteratorMergeQueue * @throws IOException */ public RawKeyValueIterator merge(Path [] inNames, boolean deleteInputs, int factor, Path tmpDir) throws IOException { //get the segments from inNames ArrayList a = new ArrayList (); for (int i = 0; i < inNames.length; i++) { SegmentDescriptor s = new SegmentDescriptor(0, fs.getFileStatus(inNames[i]).getLen(), inNames[i]); s.preserveInput(!deleteInputs); s.doSync(); a.add(s); } this.factor = factor; MergeQueue mQueue = new MergeQueue(a, tmpDir, progressable); return mQueue.merge(); } /** * Merges the contents of files passed in Path[] * @param inNames the array of path names * @param tempDir the directory for creating temp files during merge * @param deleteInputs true if the input files should be deleted when * unnecessary * @return RawKeyValueIteratorMergeQueue * @throws IOException */ public RawKeyValueIterator merge(Path [] inNames, Path tempDir, boolean deleteInputs) throws IOException { //outFile will basically be used as prefix for temp files for the //intermediate merge outputs this.outFile = new Path(tempDir + Path.SEPARATOR + "merged"); //get the segments from inNames ArrayList a = new ArrayList (); for (int i = 0; i < inNames.length; i++) { SegmentDescriptor s = new SegmentDescriptor(0, fs.getFileStatus(inNames[i]).getLen(), inNames[i]); s.preserveInput(!deleteInputs); s.doSync(); a.add(s); } factor = (inNames.length < factor) ? inNames.length : factor; // pass in object to report progress, if present MergeQueue mQueue = new MergeQueue(a, tempDir, progressable); return mQueue.merge(); } /** * Clones the attributes (like compression of the input file and creates a * corresponding Writer * @param inputFile the path of the input file whose attributes should be * cloned * @param outputFile the path of the output file * @param prog the Progressable to report status during the file write * @return Writer * @throws IOException */ public Writer cloneFileAttributes(Path inputFile, Path outputFile, Progressable prog) throws IOException { Reader reader = new Reader(conf, Reader.file(inputFile), new Reader.OnlyHeaderOption()); CompressionType compress = reader.getCompressionType(); CompressionCodec codec = reader.getCompressionCodec(); reader.close(); Writer writer = createWriter(conf, Writer.file(outputFile), Writer.keyClass(keyClass), Writer.valueClass(valClass), Writer.compression(compress, codec), Writer.progressable(prog)); return writer; } /** * Writes records from RawKeyValueIterator into a file represented by the * passed writer * @param records the RawKeyValueIterator * @param writer the Writer created earlier * @throws IOException */ public void writeFile(RawKeyValueIterator records, Writer writer) throws IOException { while(records.next()) { writer.appendRaw(records.getKey().getData(), 0, records.getKey().getLength(), records.getValue()); } writer.sync(); } /** Merge the provided files. * @param inFiles the array of input path names * @param outFile the final output file * @throws IOException */ public void merge(Path[] inFiles, Path outFile) throws IOException { if (fs.exists(outFile)) { throw new IOException("already exists: " + outFile); } RawKeyValueIterator r = merge(inFiles, false, outFile.getParent()); Writer writer = cloneFileAttributes(inFiles[0], outFile, null); writeFile(r, writer); writer.close(); } /** sort calls this to generate the final merged output */ private int mergePass(Path tmpDir) throws IOException { if(LOG.isDebugEnabled()) { LOG.debug("running merge pass"); } Writer writer = cloneFileAttributes( outFile.suffix(".0"), outFile, null); RawKeyValueIterator r = merge(outFile.suffix(".0"), outFile.suffix(".0.index"), tmpDir); writeFile(r, writer); writer.close(); return 0; } /** Used by mergePass to merge the output of the sort * @param inName the name of the input file containing sorted segments * @param indexIn the offsets of the sorted segments * @param tmpDir the relative directory to store intermediate results in * @return RawKeyValueIterator * @throws IOException */ private RawKeyValueIterator merge(Path inName, Path indexIn, Path tmpDir) throws IOException { //get the segments from indexIn //we create a SegmentContainer so that we can track segments belonging to //inName and delete inName as soon as we see that we have looked at all //the contained segments during the merge process & hence don't need //them anymore SegmentContainer container = new SegmentContainer(inName, indexIn); MergeQueue mQueue = new MergeQueue(container.getSegmentList(), tmpDir, progressable); return mQueue.merge(); } /** This class implements the core of the merge logic */ private class MergeQueue extends PriorityQueue implements RawKeyValueIterator { private boolean compress; private boolean blockCompress; private DataOutputBuffer rawKey = new DataOutputBuffer(); private ValueBytes rawValue; private long totalBytesProcessed; private float progPerByte; private Progress mergeProgress = new Progress(); private Path tmpDir; private Progressable progress = null; //handle to the progress reporting object private SegmentDescriptor minSegment; //a TreeMap used to store the segments sorted by size (segment offset and //segment path name is used to break ties between segments of same sizes) private Map sortedSegmentSizes = new TreeMap(); @SuppressWarnings("unchecked") public void put(SegmentDescriptor stream) throws IOException { if (size() == 0) { compress = stream.in.isCompressed(); blockCompress = stream.in.isBlockCompressed(); } else if (compress != stream.in.isCompressed() || blockCompress != stream.in.isBlockCompressed()) { throw new IOException("All merged files must be compressed or not."); } super.put(stream); } /** * A queue of file segments to merge * @param segments the file segments to merge * @param tmpDir a relative local directory to save intermediate files in * @param progress the reference to the Progressable object */ public MergeQueue(List segments, Path tmpDir, Progressable progress) { int size = segments.size(); for (int i = 0; i < size; i++) { sortedSegmentSizes.put(segments.get(i), null); } this.tmpDir = tmpDir; this.progress = progress; } @Override protected boolean lessThan(Object a, Object b) { // indicate we're making progress if (progress != null) { progress.progress(); } SegmentDescriptor msa = (SegmentDescriptor)a; SegmentDescriptor msb = (SegmentDescriptor)b; return comparator.compare(msa.getKey().getData(), 0, msa.getKey().getLength(), msb.getKey().getData(), 0, msb.getKey().getLength()) < 0; } @Override public void close() throws IOException { SegmentDescriptor ms; // close inputs while ((ms = (SegmentDescriptor)pop()) != null) { ms.cleanup(); } minSegment = null; } @Override public DataOutputBuffer getKey() throws IOException { return rawKey; } @Override public ValueBytes getValue() throws IOException { return rawValue; } @Override public boolean next() throws IOException { if (size() == 0) return false; if (minSegment != null) { //minSegment is non-null for all invocations of next except the first //one. For the first invocation, the priority queue is ready for use //but for the subsequent invocations, first adjust the queue adjustPriorityQueue(minSegment); if (size() == 0) { minSegment = null; return false; } } minSegment = (SegmentDescriptor)top(); long startPos = minSegment.in.getPosition(); // Current position in stream //save the raw key reference rawKey = minSegment.getKey(); //load the raw value. Re-use the existing rawValue buffer if (rawValue == null) { rawValue = minSegment.in.createValueBytes(); } minSegment.nextRawValue(rawValue); long endPos = minSegment.in.getPosition(); // End position after reading value updateProgress(endPos - startPos); return true; } @Override public Progress getProgress() { return mergeProgress; } private void adjustPriorityQueue(SegmentDescriptor ms) throws IOException{ long startPos = ms.in.getPosition(); // Current position in stream boolean hasNext = ms.nextRawKey(); long endPos = ms.in.getPosition(); // End position after reading key updateProgress(endPos - startPos); if (hasNext) { adjustTop(); } else { pop(); ms.cleanup(); } } private void updateProgress(long bytesProcessed) { totalBytesProcessed += bytesProcessed; if (progPerByte > 0) { mergeProgress.set(totalBytesProcessed * progPerByte); } } /** This is the single level merge that is called multiple times * depending on the factor size and the number of segments * @return RawKeyValueIterator * @throws IOException */ public RawKeyValueIterator merge() throws IOException { //create the MergeStreams from the sorted map created in the constructor //and dump the final output to a file int numSegments = sortedSegmentSizes.size(); int origFactor = factor; int passNo = 1; LocalDirAllocator lDirAlloc = new LocalDirAllocator("io.seqfile.local.dir"); do { //get the factor for this pass of merge factor = getPassFactor(passNo, numSegments); List segmentsToMerge = new ArrayList(); int segmentsConsidered = 0; int numSegmentsToConsider = factor; while (true) { //extract the smallest 'factor' number of segment pointers from the //TreeMap. Call cleanup on the empty segments (no key/value data) SegmentDescriptor[] mStream = getSegmentDescriptors(numSegmentsToConsider); for (int i = 0; i < mStream.length; i++) { if (mStream[i].nextRawKey()) { segmentsToMerge.add(mStream[i]); segmentsConsidered++; // Count the fact that we read some bytes in calling nextRawKey() updateProgress(mStream[i].in.getPosition()); } else { mStream[i].cleanup(); numSegments--; //we ignore this segment for the merge } } //if we have the desired number of segments //or looked at all available segments, we break if (segmentsConsidered == factor || sortedSegmentSizes.size() == 0) { break; } numSegmentsToConsider = factor - segmentsConsidered; } //feed the streams to the priority queue initialize(segmentsToMerge.size()); clear(); for (int i = 0; i < segmentsToMerge.size(); i++) { put(segmentsToMerge.get(i)); } //if we have lesser number of segments remaining, then just return the //iterator, else do another single level merge if (numSegments <= factor) { //calculate the length of the remaining segments. Required for //calculating the merge progress long totalBytes = 0; for (int i = 0; i < segmentsToMerge.size(); i++) { totalBytes += segmentsToMerge.get(i).segmentLength; } if (totalBytes != 0) //being paranoid progPerByte = 1.0f / (float)totalBytes; //reset factor to what it originally was factor = origFactor; return this; } else { //we want to spread the creation of temp files on multiple disks if //available under the space constraints long approxOutputSize = 0; for (SegmentDescriptor s : segmentsToMerge) { approxOutputSize += s.segmentLength + ChecksumFileSystem.getApproxChkSumLength( s.segmentLength); } Path tmpFilename = new Path(tmpDir, "intermediate").suffix("." + passNo); Path outputFile = lDirAlloc.getLocalPathForWrite( tmpFilename.toString(), approxOutputSize, conf); if(LOG.isDebugEnabled()) { LOG.debug("writing intermediate results to " + outputFile); } Writer writer = cloneFileAttributes( fs.makeQualified(segmentsToMerge.get(0).segmentPathName), fs.makeQualified(outputFile), null); writer.sync = null; //disable sync for temp files writeFile(this, writer); writer.close(); //we finished one single level merge; now clean up the priority //queue this.close(); SegmentDescriptor tempSegment = new SegmentDescriptor(0, fs.getFileStatus(outputFile).getLen(), outputFile); //put the segment back in the TreeMap sortedSegmentSizes.put(tempSegment, null); numSegments = sortedSegmentSizes.size(); passNo++; } //we are worried about only the first pass merge factor. So reset the //factor to what it originally was factor = origFactor; } while(true); } //Hadoop-591 public int getPassFactor(int passNo, int numSegments) { if (passNo > 1 || numSegments <= factor || factor == 1) return factor; int mod = (numSegments - 1) % (factor - 1); if (mod == 0) return factor; return mod + 1; } /** Return (& remove) the requested number of segment descriptors from the * sorted map. */ public SegmentDescriptor[] getSegmentDescriptors(int numDescriptors) { if (numDescriptors > sortedSegmentSizes.size()) numDescriptors = sortedSegmentSizes.size(); SegmentDescriptor[] SegmentDescriptors = new SegmentDescriptor[numDescriptors]; Iterator iter = sortedSegmentSizes.keySet().iterator(); int i = 0; while (i < numDescriptors) { SegmentDescriptors[i++] = (SegmentDescriptor)iter.next(); iter.remove(); } return SegmentDescriptors; } } // SequenceFile.Sorter.MergeQueue /** This class defines a merge segment. This class can be subclassed to * provide a customized cleanup method implementation. In this * implementation, cleanup closes the file handle and deletes the file */ public class SegmentDescriptor implements Comparable { long segmentOffset; //the start of the segment in the file long segmentLength; //the length of the segment Path segmentPathName; //the path name of the file containing the segment boolean ignoreSync = true; //set to true for temp files private Reader in = null; private DataOutputBuffer rawKey = null; //this will hold the current key private boolean preserveInput = false; //delete input segment files? /** Constructs a segment * @param segmentOffset the offset of the segment in the file * @param segmentLength the length of the segment * @param segmentPathName the path name of the file containing the segment */ public SegmentDescriptor (long segmentOffset, long segmentLength, Path segmentPathName) { this.segmentOffset = segmentOffset; this.segmentLength = segmentLength; this.segmentPathName = segmentPathName; } /** Do the sync checks */ public void doSync() {ignoreSync = false;} /** Whether to delete the files when no longer needed */ public void preserveInput(boolean preserve) { preserveInput = preserve; } public boolean shouldPreserveInput() { return preserveInput; } @Override public int compareTo(Object o) { SegmentDescriptor that = (SegmentDescriptor)o; if (this.segmentLength != that.segmentLength) { return (this.segmentLength < that.segmentLength ? -1 : 1); } if (this.segmentOffset != that.segmentOffset) { return (this.segmentOffset < that.segmentOffset ? -1 : 1); } return (this.segmentPathName.toString()). compareTo(that.segmentPathName.toString()); } @Override public boolean equals(Object o) { if (!(o instanceof SegmentDescriptor)) { return false; } SegmentDescriptor that = (SegmentDescriptor)o; if (this.segmentLength == that.segmentLength && this.segmentOffset == that.segmentOffset && this.segmentPathName.toString().equals( that.segmentPathName.toString())) { return true; } return false; } @Override public int hashCode() { return 37 * 17 + (int) (segmentOffset^(segmentOffset>>>32)); } /** Fills up the rawKey object with the key returned by the Reader * @return true if there is a key returned; false, otherwise * @throws IOException */ public boolean nextRawKey() throws IOException { if (in == null) { int bufferSize = getBufferSize(conf); Reader reader = new Reader(conf, Reader.file(segmentPathName), Reader.bufferSize(bufferSize), Reader.start(segmentOffset), Reader.length(segmentLength)); //sometimes we ignore syncs especially for temp merge files if (ignoreSync) reader.ignoreSync(); if (reader.getKeyClass() != keyClass) throw new IOException("wrong key class: " + reader.getKeyClass() + " is not " + keyClass); if (reader.getValueClass() != valClass) throw new IOException("wrong value class: "+reader.getValueClass()+ " is not " + valClass); this.in = reader; rawKey = new DataOutputBuffer(); } rawKey.reset(); int keyLength = in.nextRawKey(rawKey); return (keyLength >= 0); } /** Fills up the passed rawValue with the value corresponding to the key * read earlier * @param rawValue * @return the length of the value * @throws IOException */ public int nextRawValue(ValueBytes rawValue) throws IOException { int valLength = in.nextRawValue(rawValue); return valLength; } /** Returns the stored rawKey */ public DataOutputBuffer getKey() { return rawKey; } /** closes the underlying reader */ private void close() throws IOException { this.in.close(); this.in = null; } /** The default cleanup. Subclasses can override this with a custom * cleanup */ public void cleanup() throws IOException { close(); if (!preserveInput) { fs.delete(segmentPathName, true); } } } // SequenceFile.Sorter.SegmentDescriptor /** This class provisions multiple segments contained within a single * file */ private class LinkedSegmentsDescriptor extends SegmentDescriptor { SegmentContainer parentContainer = null; /** Constructs a segment * @param segmentOffset the offset of the segment in the file * @param segmentLength the length of the segment * @param segmentPathName the path name of the file containing the segment * @param parent the parent SegmentContainer that holds the segment */ public LinkedSegmentsDescriptor (long segmentOffset, long segmentLength, Path segmentPathName, SegmentContainer parent) { super(segmentOffset, segmentLength, segmentPathName); this.parentContainer = parent; } /** The default cleanup. Subclasses can override this with a custom * cleanup */ @Override public void cleanup() throws IOException { super.close(); if (super.shouldPreserveInput()) return; parentContainer.cleanup(); } @Override public boolean equals(Object o) { if (!(o instanceof LinkedSegmentsDescriptor)) { return false; } return super.equals(o); } } //SequenceFile.Sorter.LinkedSegmentsDescriptor /** The class that defines a container for segments to be merged. Primarily * required to delete temp files as soon as all the contained segments * have been looked at */ private class SegmentContainer { private int numSegmentsCleanedUp = 0; //track the no. of segment cleanups private int numSegmentsContained; //# of segments contained private Path inName; //input file from where segments are created //the list of segments read from the file private ArrayList segments = new ArrayList (); /** This constructor is there primarily to serve the sort routine that * generates a single output file with an associated index file */ public SegmentContainer(Path inName, Path indexIn) throws IOException { //get the segments from indexIn FSDataInputStream fsIndexIn = fs.open(indexIn); long end = fs.getFileStatus(indexIn).getLen(); while (fsIndexIn.getPos() < end) { long segmentOffset = WritableUtils.readVLong(fsIndexIn); long segmentLength = WritableUtils.readVLong(fsIndexIn); Path segmentName = inName; segments.add(new LinkedSegmentsDescriptor(segmentOffset, segmentLength, segmentName, this)); } fsIndexIn.close(); fs.delete(indexIn, true); numSegmentsContained = segments.size(); this.inName = inName; } public List getSegmentList() { return segments; } public void cleanup() throws IOException { numSegmentsCleanedUp++; if (numSegmentsCleanedUp == numSegmentsContained) { fs.delete(inName, true); } } } //SequenceFile.Sorter.SegmentContainer } // SequenceFile.Sorter } // SequenceFile





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