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/*
* Licensed to the Apache Software Foundation (ASF) under one
* or more contributor license agreements. See the NOTICE file
* distributed with this work for additional information
* regarding copyright ownership. The ASF licenses this file
* to you under the Apache License, Version 2.0 (the
* "License"); you may not use this file except in compliance
* with the License. You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package org.apache.hadoop.hbase.mapreduce;
import static org.apache.hadoop.hbase.regionserver.HStoreFile.BULKLOAD_TASK_KEY;
import static org.apache.hadoop.hbase.regionserver.HStoreFile.BULKLOAD_TIME_KEY;
import static org.apache.hadoop.hbase.regionserver.HStoreFile.EXCLUDE_FROM_MINOR_COMPACTION_KEY;
import static org.apache.hadoop.hbase.regionserver.HStoreFile.MAJOR_COMPACTION_KEY;
import java.io.IOException;
import java.io.UnsupportedEncodingException;
import java.net.InetSocketAddress;
import java.net.URLDecoder;
import java.net.URLEncoder;
import java.util.ArrayList;
import java.util.Arrays;
import java.util.List;
import java.util.Map;
import java.util.Map.Entry;
import java.util.Set;
import java.util.TreeMap;
import java.util.TreeSet;
import java.util.UUID;
import java.util.function.Function;
import java.util.stream.Collectors;
import org.apache.commons.lang3.StringUtils;
import org.apache.hadoop.conf.Configuration;
import org.apache.hadoop.fs.FileSystem;
import org.apache.hadoop.fs.Path;
import org.apache.hadoop.hbase.Cell;
import org.apache.hadoop.hbase.CellUtil;
import org.apache.hadoop.hbase.HConstants;
import org.apache.hadoop.hbase.HRegionLocation;
import org.apache.hadoop.hbase.HTableDescriptor;
import org.apache.hadoop.hbase.KeyValue;
import org.apache.hadoop.hbase.PrivateCellUtil;
import org.apache.hadoop.hbase.TableName;
import org.apache.hadoop.hbase.client.ColumnFamilyDescriptor;
import org.apache.hadoop.hbase.client.ColumnFamilyDescriptorBuilder;
import org.apache.hadoop.hbase.client.Connection;
import org.apache.hadoop.hbase.client.ConnectionFactory;
import org.apache.hadoop.hbase.client.Put;
import org.apache.hadoop.hbase.client.RegionLocator;
import org.apache.hadoop.hbase.client.Table;
import org.apache.hadoop.hbase.client.TableDescriptor;
import org.apache.hadoop.hbase.fs.HFileSystem;
import org.apache.hadoop.hbase.io.ImmutableBytesWritable;
import org.apache.hadoop.hbase.io.compress.Compression;
import org.apache.hadoop.hbase.io.compress.Compression.Algorithm;
import org.apache.hadoop.hbase.io.encoding.DataBlockEncoding;
import org.apache.hadoop.hbase.io.hfile.CacheConfig;
import org.apache.hadoop.hbase.io.hfile.HFile;
import org.apache.hadoop.hbase.io.hfile.HFileContext;
import org.apache.hadoop.hbase.io.hfile.HFileContextBuilder;
import org.apache.hadoop.hbase.io.hfile.HFileWriterImpl;
import org.apache.hadoop.hbase.regionserver.BloomType;
import org.apache.hadoop.hbase.regionserver.HStore;
import org.apache.hadoop.hbase.regionserver.StoreFileWriter;
import org.apache.hadoop.hbase.regionserver.StoreUtils;
import org.apache.hadoop.hbase.util.BloomFilterUtil;
import org.apache.hadoop.hbase.util.Bytes;
import org.apache.hadoop.hbase.util.CommonFSUtils;
import org.apache.hadoop.hbase.util.EnvironmentEdgeManager;
import org.apache.hadoop.hbase.util.MapReduceExtendedCell;
import org.apache.hadoop.io.NullWritable;
import org.apache.hadoop.io.SequenceFile;
import org.apache.hadoop.io.Text;
import org.apache.hadoop.mapreduce.Job;
import org.apache.hadoop.mapreduce.OutputCommitter;
import org.apache.hadoop.mapreduce.OutputFormat;
import org.apache.hadoop.mapreduce.RecordWriter;
import org.apache.hadoop.mapreduce.TaskAttemptContext;
import org.apache.hadoop.mapreduce.lib.output.FileOutputCommitter;
import org.apache.hadoop.mapreduce.lib.output.FileOutputFormat;
import org.apache.hadoop.mapreduce.lib.partition.TotalOrderPartitioner;
import org.apache.yetus.audience.InterfaceAudience;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
/**
* Writes HFiles. Passed Cells must arrive in order. Writes current time as the sequence id for the
* file. Sets the major compacted attribute on created {@link HFile}s. Calling write(null,null) will
* forcibly roll all HFiles being written.
*
* Using this class as part of a MapReduce job is best done using
* {@link #configureIncrementalLoad(Job, TableDescriptor, RegionLocator)}.
*/
@InterfaceAudience.Public
public class HFileOutputFormat2 extends FileOutputFormat {
private static final Logger LOG = LoggerFactory.getLogger(HFileOutputFormat2.class);
static class TableInfo {
private TableDescriptor tableDesctiptor;
private RegionLocator regionLocator;
public TableInfo(TableDescriptor tableDesctiptor, RegionLocator regionLocator) {
this.tableDesctiptor = tableDesctiptor;
this.regionLocator = regionLocator;
}
/**
* The modification for the returned HTD doesn't affect the inner TD.
* @return A clone of inner table descriptor
* @deprecated since 2.0.0 and will be removed in 3.0.0. Use {@link #getTableDescriptor()}
* instead.
* @see #getTableDescriptor()
* @see HBASE-18241
*/
@Deprecated
public HTableDescriptor getHTableDescriptor() {
return new HTableDescriptor(tableDesctiptor);
}
public TableDescriptor getTableDescriptor() {
return tableDesctiptor;
}
public RegionLocator getRegionLocator() {
return regionLocator;
}
}
protected static final byte[] tableSeparator = Bytes.toBytes(";");
protected static byte[] combineTableNameSuffix(byte[] tableName, byte[] suffix) {
return Bytes.add(tableName, tableSeparator, suffix);
}
// The following constants are private since these are used by
// HFileOutputFormat2 to internally transfer data between job setup and
// reducer run using conf.
// These should not be changed by the client.
static final String COMPRESSION_FAMILIES_CONF_KEY =
"hbase.hfileoutputformat.families.compression";
static final String BLOOM_TYPE_FAMILIES_CONF_KEY = "hbase.hfileoutputformat.families.bloomtype";
static final String BLOOM_PARAM_FAMILIES_CONF_KEY = "hbase.hfileoutputformat.families.bloomparam";
static final String BLOCK_SIZE_FAMILIES_CONF_KEY = "hbase.mapreduce.hfileoutputformat.blocksize";
static final String DATABLOCK_ENCODING_FAMILIES_CONF_KEY =
"hbase.mapreduce.hfileoutputformat.families.datablock.encoding";
// This constant is public since the client can modify this when setting
// up their conf object and thus refer to this symbol.
// It is present for backwards compatibility reasons. Use it only to
// override the auto-detection of datablock encoding and compression.
public static final String DATABLOCK_ENCODING_OVERRIDE_CONF_KEY =
"hbase.mapreduce.hfileoutputformat.datablock.encoding";
public static final String COMPRESSION_OVERRIDE_CONF_KEY =
"hbase.mapreduce.hfileoutputformat.compression";
/**
* Keep locality while generating HFiles for bulkload. See HBASE-12596
*/
public static final String LOCALITY_SENSITIVE_CONF_KEY =
"hbase.bulkload.locality.sensitive.enabled";
private static final boolean DEFAULT_LOCALITY_SENSITIVE = true;
static final String OUTPUT_TABLE_NAME_CONF_KEY = "hbase.mapreduce.hfileoutputformat.table.name";
static final String MULTI_TABLE_HFILEOUTPUTFORMAT_CONF_KEY =
"hbase.mapreduce.use.multi.table.hfileoutputformat";
public static final String REMOTE_CLUSTER_CONF_PREFIX = "hbase.hfileoutputformat.remote.cluster.";
public static final String REMOTE_CLUSTER_ZOOKEEPER_QUORUM_CONF_KEY =
REMOTE_CLUSTER_CONF_PREFIX + "zookeeper.quorum";
public static final String REMOTE_CLUSTER_ZOOKEEPER_CLIENT_PORT_CONF_KEY =
REMOTE_CLUSTER_CONF_PREFIX + "zookeeper." + HConstants.CLIENT_PORT_STR;
public static final String REMOTE_CLUSTER_ZOOKEEPER_ZNODE_PARENT_CONF_KEY =
REMOTE_CLUSTER_CONF_PREFIX + HConstants.ZOOKEEPER_ZNODE_PARENT;
public static final String STORAGE_POLICY_PROPERTY = HStore.BLOCK_STORAGE_POLICY_KEY;
public static final String STORAGE_POLICY_PROPERTY_CF_PREFIX = STORAGE_POLICY_PROPERTY + ".";
@Override
public RecordWriter
getRecordWriter(final TaskAttemptContext context) throws IOException, InterruptedException {
return createRecordWriter(context, this.getOutputCommitter(context));
}
protected static byte[] getTableNameSuffixedWithFamily(byte[] tableName, byte[] family) {
return combineTableNameSuffix(tableName, family);
}
static RecordWriter createRecordWriter(
final TaskAttemptContext context, final OutputCommitter committer) throws IOException {
// Get the path of the temporary output file
final Path outputDir = ((FileOutputCommitter) committer).getWorkPath();
final Configuration conf = context.getConfiguration();
final boolean writeMultipleTables =
conf.getBoolean(MULTI_TABLE_HFILEOUTPUTFORMAT_CONF_KEY, false);
final String writeTableNames = conf.get(OUTPUT_TABLE_NAME_CONF_KEY);
if (writeTableNames == null || writeTableNames.isEmpty()) {
throw new IllegalArgumentException("" + OUTPUT_TABLE_NAME_CONF_KEY + " cannot be empty");
}
final FileSystem fs = outputDir.getFileSystem(conf);
// These configs. are from hbase-*.xml
final long maxsize =
conf.getLong(HConstants.HREGION_MAX_FILESIZE, HConstants.DEFAULT_MAX_FILE_SIZE);
// Invented config. Add to hbase-*.xml if other than default compression.
final String defaultCompressionStr =
conf.get("hfile.compression", Compression.Algorithm.NONE.getName());
final Algorithm defaultCompression = HFileWriterImpl.compressionByName(defaultCompressionStr);
String compressionStr = conf.get(COMPRESSION_OVERRIDE_CONF_KEY);
final Algorithm overriddenCompression =
compressionStr != null ? Compression.getCompressionAlgorithmByName(compressionStr) : null;
final boolean compactionExclude =
conf.getBoolean("hbase.mapreduce.hfileoutputformat.compaction.exclude", false);
final Set allTableNames = Arrays
.stream(writeTableNames.split(Bytes.toString(tableSeparator))).collect(Collectors.toSet());
// create a map from column family to the compression algorithm
final Map compressionMap = createFamilyCompressionMap(conf);
final Map bloomTypeMap = createFamilyBloomTypeMap(conf);
final Map bloomParamMap = createFamilyBloomParamMap(conf);
final Map blockSizeMap = createFamilyBlockSizeMap(conf);
String dataBlockEncodingStr = conf.get(DATABLOCK_ENCODING_OVERRIDE_CONF_KEY);
final Map datablockEncodingMap =
createFamilyDataBlockEncodingMap(conf);
final DataBlockEncoding overriddenEncoding =
dataBlockEncodingStr != null ? DataBlockEncoding.valueOf(dataBlockEncodingStr) : null;
return new RecordWriter() {
// Map of families to writers and how much has been output on the writer.
private final Map writers = new TreeMap<>(Bytes.BYTES_COMPARATOR);
private final Map previousRows = new TreeMap<>(Bytes.BYTES_COMPARATOR);
private final long now = EnvironmentEdgeManager.currentTime();
@Override
public void write(ImmutableBytesWritable row, V cell) throws IOException {
Cell kv = cell;
// null input == user explicitly wants to flush
if (row == null && kv == null) {
rollWriters(null);
return;
}
byte[] rowKey = CellUtil.cloneRow(kv);
int length = (PrivateCellUtil.estimatedSerializedSizeOf(kv)) - Bytes.SIZEOF_INT;
byte[] family = CellUtil.cloneFamily(kv);
byte[] tableNameBytes = null;
if (writeMultipleTables) {
tableNameBytes = MultiTableHFileOutputFormat.getTableName(row.get());
tableNameBytes = TableName.valueOf(tableNameBytes).toBytes();
if (!allTableNames.contains(Bytes.toString(tableNameBytes))) {
throw new IllegalArgumentException(
"TableName " + Bytes.toString(tableNameBytes) + " not expected");
}
} else {
tableNameBytes = Bytes.toBytes(writeTableNames);
}
Path tableRelPath = getTableRelativePath(tableNameBytes);
byte[] tableAndFamily = getTableNameSuffixedWithFamily(tableNameBytes, family);
WriterLength wl = this.writers.get(tableAndFamily);
// If this is a new column family, verify that the directory exists
if (wl == null) {
Path writerPath = null;
if (writeMultipleTables) {
writerPath = new Path(outputDir, new Path(tableRelPath, Bytes.toString(family)));
} else {
writerPath = new Path(outputDir, Bytes.toString(family));
}
fs.mkdirs(writerPath);
configureStoragePolicy(conf, fs, tableAndFamily, writerPath);
}
// This can only happen once a row is finished though
if (
wl != null && wl.written + length >= maxsize
&& Bytes.compareTo(this.previousRows.get(family), rowKey) != 0
) {
rollWriters(wl);
}
// create a new WAL writer, if necessary
if (wl == null || wl.writer == null) {
if (conf.getBoolean(LOCALITY_SENSITIVE_CONF_KEY, DEFAULT_LOCALITY_SENSITIVE)) {
HRegionLocation loc = null;
String tableName = Bytes.toString(tableNameBytes);
if (tableName != null) {
try (
Connection connection =
ConnectionFactory.createConnection(createRemoteClusterConf(conf));
RegionLocator locator = connection.getRegionLocator(TableName.valueOf(tableName))) {
loc = locator.getRegionLocation(rowKey);
} catch (Throwable e) {
LOG.warn("Something wrong locating rowkey {} in {}", Bytes.toString(rowKey),
tableName, e);
loc = null;
}
}
if (null == loc) {
LOG.trace("Failed get of location, use default writer {}", Bytes.toString(rowKey));
wl = getNewWriter(tableNameBytes, family, conf, null);
} else {
LOG.debug("First rowkey: [{}]", Bytes.toString(rowKey));
InetSocketAddress initialIsa =
new InetSocketAddress(loc.getHostname(), loc.getPort());
if (initialIsa.isUnresolved()) {
LOG.trace("Failed resolve address {}, use default writer", loc.getHostnamePort());
wl = getNewWriter(tableNameBytes, family, conf, null);
} else {
LOG.debug("Use favored nodes writer: {}", initialIsa.getHostString());
wl = getNewWriter(tableNameBytes, family, conf,
new InetSocketAddress[] { initialIsa });
}
}
} else {
wl = getNewWriter(tableNameBytes, family, conf, null);
}
}
// we now have the proper WAL writer. full steam ahead
PrivateCellUtil.updateLatestStamp(cell, this.now);
wl.writer.append(kv);
wl.written += length;
// Copy the row so we know when a row transition.
this.previousRows.put(family, rowKey);
}
private Path getTableRelativePath(byte[] tableNameBytes) {
String tableName = Bytes.toString(tableNameBytes);
String[] tableNameParts = tableName.split(":");
Path tableRelPath = new Path(tableName.split(":")[0]);
if (tableNameParts.length > 1) {
tableRelPath = new Path(tableRelPath, tableName.split(":")[1]);
}
return tableRelPath;
}
private void rollWriters(WriterLength writerLength) throws IOException {
if (writerLength != null) {
closeWriter(writerLength);
} else {
for (WriterLength wl : this.writers.values()) {
closeWriter(wl);
}
}
}
private void closeWriter(WriterLength wl) throws IOException {
if (wl.writer != null) {
LOG.info(
"Writer=" + wl.writer.getPath() + ((wl.written == 0) ? "" : ", wrote=" + wl.written));
close(wl.writer);
wl.writer = null;
}
wl.written = 0;
}
private Configuration createRemoteClusterConf(Configuration conf) {
final Configuration newConf = new Configuration(conf);
final String quorum = conf.get(REMOTE_CLUSTER_ZOOKEEPER_QUORUM_CONF_KEY);
final String clientPort = conf.get(REMOTE_CLUSTER_ZOOKEEPER_CLIENT_PORT_CONF_KEY);
final String parent = conf.get(REMOTE_CLUSTER_ZOOKEEPER_ZNODE_PARENT_CONF_KEY);
if (quorum != null && clientPort != null && parent != null) {
newConf.set(HConstants.ZOOKEEPER_QUORUM, quorum);
newConf.setInt(HConstants.ZOOKEEPER_CLIENT_PORT, Integer.parseInt(clientPort));
newConf.set(HConstants.ZOOKEEPER_ZNODE_PARENT, parent);
}
for (Entry entry : conf) {
String key = entry.getKey();
if (
REMOTE_CLUSTER_ZOOKEEPER_QUORUM_CONF_KEY.equals(key)
|| REMOTE_CLUSTER_ZOOKEEPER_CLIENT_PORT_CONF_KEY.equals(key)
|| REMOTE_CLUSTER_ZOOKEEPER_ZNODE_PARENT_CONF_KEY.equals(key)
) {
// Handled them above
continue;
}
if (entry.getKey().startsWith(REMOTE_CLUSTER_CONF_PREFIX)) {
String originalKey = entry.getKey().substring(REMOTE_CLUSTER_CONF_PREFIX.length());
if (!originalKey.isEmpty()) {
newConf.set(originalKey, entry.getValue());
}
}
}
return newConf;
}
/*
* Create a new StoreFile.Writer.
* @return A WriterLength, containing a new StoreFile.Writer.
*/
@edu.umd.cs.findbugs.annotations.SuppressWarnings(value = "BX_UNBOXING_IMMEDIATELY_REBOXED",
justification = "Not important")
private WriterLength getNewWriter(byte[] tableName, byte[] family, Configuration conf,
InetSocketAddress[] favoredNodes) throws IOException {
byte[] tableAndFamily = getTableNameSuffixedWithFamily(tableName, family);
Path familydir = new Path(outputDir, Bytes.toString(family));
if (writeMultipleTables) {
familydir =
new Path(outputDir, new Path(getTableRelativePath(tableName), Bytes.toString(family)));
}
WriterLength wl = new WriterLength();
Algorithm compression = overriddenCompression;
compression = compression == null ? compressionMap.get(tableAndFamily) : compression;
compression = compression == null ? defaultCompression : compression;
BloomType bloomType = bloomTypeMap.get(tableAndFamily);
bloomType = bloomType == null ? BloomType.NONE : bloomType;
String bloomParam = bloomParamMap.get(tableAndFamily);
if (bloomType == BloomType.ROWPREFIX_FIXED_LENGTH) {
conf.set(BloomFilterUtil.PREFIX_LENGTH_KEY, bloomParam);
}
Integer blockSize = blockSizeMap.get(tableAndFamily);
blockSize = blockSize == null ? HConstants.DEFAULT_BLOCKSIZE : blockSize;
DataBlockEncoding encoding = overriddenEncoding;
encoding = encoding == null ? datablockEncodingMap.get(tableAndFamily) : encoding;
encoding = encoding == null ? DataBlockEncoding.NONE : encoding;
HFileContextBuilder contextBuilder = new HFileContextBuilder().withCompression(compression)
.withDataBlockEncoding(encoding).withChecksumType(StoreUtils.getChecksumType(conf))
.withBytesPerCheckSum(StoreUtils.getBytesPerChecksum(conf)).withBlockSize(blockSize)
.withColumnFamily(family).withTableName(tableName)
.withCreateTime(EnvironmentEdgeManager.currentTime());
if (HFile.getFormatVersion(conf) >= HFile.MIN_FORMAT_VERSION_WITH_TAGS) {
contextBuilder.withIncludesTags(true);
}
HFileContext hFileContext = contextBuilder.build();
if (null == favoredNodes) {
wl.writer =
new StoreFileWriter.Builder(conf, CacheConfig.DISABLED, fs).withOutputDir(familydir)
.withBloomType(bloomType).withFileContext(hFileContext).build();
} else {
wl.writer = new StoreFileWriter.Builder(conf, CacheConfig.DISABLED, new HFileSystem(fs))
.withOutputDir(familydir).withBloomType(bloomType).withFileContext(hFileContext)
.withFavoredNodes(favoredNodes).build();
}
this.writers.put(tableAndFamily, wl);
return wl;
}
private void close(final StoreFileWriter w) throws IOException {
if (w != null) {
w.appendFileInfo(BULKLOAD_TIME_KEY, Bytes.toBytes(System.currentTimeMillis()));
w.appendFileInfo(BULKLOAD_TASK_KEY, Bytes.toBytes(context.getTaskAttemptID().toString()));
w.appendFileInfo(MAJOR_COMPACTION_KEY, Bytes.toBytes(true));
w.appendFileInfo(EXCLUDE_FROM_MINOR_COMPACTION_KEY, Bytes.toBytes(compactionExclude));
w.appendTrackedTimestampsToMetadata();
w.close();
}
}
@Override
public void close(TaskAttemptContext c) throws IOException, InterruptedException {
for (WriterLength wl : this.writers.values()) {
close(wl.writer);
}
}
};
}
/**
* Configure block storage policy for CF after the directory is created.
*/
static void configureStoragePolicy(final Configuration conf, final FileSystem fs,
byte[] tableAndFamily, Path cfPath) {
if (null == conf || null == fs || null == tableAndFamily || null == cfPath) {
return;
}
String policy = conf.get(STORAGE_POLICY_PROPERTY_CF_PREFIX + Bytes.toString(tableAndFamily),
conf.get(STORAGE_POLICY_PROPERTY));
CommonFSUtils.setStoragePolicy(fs, cfPath, policy);
}
/*
* Data structure to hold a Writer and amount of data written on it.
*/
static class WriterLength {
long written = 0;
StoreFileWriter writer = null;
}
/**
* Return the start keys of all of the regions in this table, as a list of ImmutableBytesWritable.
*/
private static List getRegionStartKeys(List regionLocators,
boolean writeMultipleTables) throws IOException {
ArrayList ret = new ArrayList<>();
for (RegionLocator regionLocator : regionLocators) {
TableName tableName = regionLocator.getName();
LOG.info("Looking up current regions for table " + tableName);
byte[][] byteKeys = regionLocator.getStartKeys();
for (byte[] byteKey : byteKeys) {
byte[] fullKey = byteKey; // HFileOutputFormat2 use case
if (writeMultipleTables) {
// MultiTableHFileOutputFormat use case
fullKey = combineTableNameSuffix(tableName.getName(), byteKey);
}
if (LOG.isDebugEnabled()) {
LOG.debug("SplitPoint startkey for " + tableName + ": " + Bytes.toStringBinary(fullKey));
}
ret.add(new ImmutableBytesWritable(fullKey));
}
}
return ret;
}
/**
* Write out a {@link SequenceFile} that can be read by {@link TotalOrderPartitioner} that
* contains the split points in startKeys.
*/
@SuppressWarnings("deprecation")
private static void writePartitions(Configuration conf, Path partitionsPath,
List startKeys, boolean writeMultipleTables) throws IOException {
LOG.info("Writing partition information to " + partitionsPath);
if (startKeys.isEmpty()) {
throw new IllegalArgumentException("No regions passed");
}
// We're generating a list of split points, and we don't ever
// have keys < the first region (which has an empty start key)
// so we need to remove it. Otherwise we would end up with an
// empty reducer with index 0
TreeSet sorted = new TreeSet<>(startKeys);
ImmutableBytesWritable first = sorted.first();
if (writeMultipleTables) {
first =
new ImmutableBytesWritable(MultiTableHFileOutputFormat.getSuffix(sorted.first().get()));
}
if (!first.equals(HConstants.EMPTY_BYTE_ARRAY)) {
throw new IllegalArgumentException(
"First region of table should have empty start key. Instead has: "
+ Bytes.toStringBinary(first.get()));
}
sorted.remove(sorted.first());
// Write the actual file
FileSystem fs = partitionsPath.getFileSystem(conf);
SequenceFile.Writer writer = SequenceFile.createWriter(fs, conf, partitionsPath,
ImmutableBytesWritable.class, NullWritable.class);
try {
for (ImmutableBytesWritable startKey : sorted) {
writer.append(startKey, NullWritable.get());
}
} finally {
writer.close();
}
}
/**
* Configure a MapReduce Job to perform an incremental load into the given table. This
*
* - Inspects the table to configure a total order partitioner
* - Uploads the partitions file to the cluster and adds it to the DistributedCache
* - Sets the number of reduce tasks to match the current number of regions
* - Sets the output key/value class to match HFileOutputFormat2's requirements
* - Sets the reducer up to perform the appropriate sorting (either KeyValueSortReducer or
* PutSortReducer)
* - Sets the HBase cluster key to load region locations for locality-sensitive
*
* The user should be sure to set the map output value class to either KeyValue or Put before
* running this function.
*/
public static void configureIncrementalLoad(Job job, Table table, RegionLocator regionLocator)
throws IOException {
configureIncrementalLoad(job, table.getDescriptor(), regionLocator);
configureRemoteCluster(job, table.getConfiguration());
}
/**
* Configure a MapReduce Job to perform an incremental load into the given table. This
*
* - Inspects the table to configure a total order partitioner
* - Uploads the partitions file to the cluster and adds it to the DistributedCache
* - Sets the number of reduce tasks to match the current number of regions
* - Sets the output key/value class to match HFileOutputFormat2's requirements
* - Sets the reducer up to perform the appropriate sorting (either KeyValueSortReducer or
* PutSortReducer)
*
* The user should be sure to set the map output value class to either KeyValue or Put before
* running this function.
*/
public static void configureIncrementalLoad(Job job, TableDescriptor tableDescriptor,
RegionLocator regionLocator) throws IOException {
ArrayList singleTableInfo = new ArrayList<>();
singleTableInfo.add(new TableInfo(tableDescriptor, regionLocator));
configureIncrementalLoad(job, singleTableInfo, HFileOutputFormat2.class);
}
static void configureIncrementalLoad(Job job, List multiTableInfo,
Class> cls) throws IOException {
Configuration conf = job.getConfiguration();
job.setOutputKeyClass(ImmutableBytesWritable.class);
job.setOutputValueClass(MapReduceExtendedCell.class);
job.setOutputFormatClass(cls);
if (multiTableInfo.stream().distinct().count() != multiTableInfo.size()) {
throw new IllegalArgumentException("Duplicate entries found in TableInfo argument");
}
boolean writeMultipleTables = false;
if (MultiTableHFileOutputFormat.class.equals(cls)) {
writeMultipleTables = true;
conf.setBoolean(MULTI_TABLE_HFILEOUTPUTFORMAT_CONF_KEY, true);
}
// Based on the configured map output class, set the correct reducer to properly
// sort the incoming values.
// TODO it would be nice to pick one or the other of these formats.
if (
KeyValue.class.equals(job.getMapOutputValueClass())
|| MapReduceExtendedCell.class.equals(job.getMapOutputValueClass())
) {
job.setReducerClass(CellSortReducer.class);
} else if (Put.class.equals(job.getMapOutputValueClass())) {
job.setReducerClass(PutSortReducer.class);
} else if (Text.class.equals(job.getMapOutputValueClass())) {
job.setReducerClass(TextSortReducer.class);
} else {
LOG.warn("Unknown map output value type:" + job.getMapOutputValueClass());
}
conf.setStrings("io.serializations", conf.get("io.serializations"),
MutationSerialization.class.getName(), ResultSerialization.class.getName(),
CellSerialization.class.getName());
if (conf.getBoolean(LOCALITY_SENSITIVE_CONF_KEY, DEFAULT_LOCALITY_SENSITIVE)) {
LOG.info("bulkload locality sensitive enabled");
}
/* Now get the region start keys for every table required */
List allTableNames = new ArrayList<>(multiTableInfo.size());
List regionLocators = new ArrayList<>(multiTableInfo.size());
List tableDescriptors = new ArrayList<>(multiTableInfo.size());
for (TableInfo tableInfo : multiTableInfo) {
regionLocators.add(tableInfo.getRegionLocator());
allTableNames.add(tableInfo.getRegionLocator().getName().getNameAsString());
tableDescriptors.add(tableInfo.getTableDescriptor());
}
// Record tablenames for creating writer by favored nodes, and decoding compression,
// block size and other attributes of columnfamily per table
conf.set(OUTPUT_TABLE_NAME_CONF_KEY,
StringUtils.join(allTableNames, Bytes.toString(tableSeparator)));
List startKeys =
getRegionStartKeys(regionLocators, writeMultipleTables);
// Use table's region boundaries for TOP split points.
LOG.info("Configuring " + startKeys.size() + " reduce partitions "
+ "to match current region count for all tables");
job.setNumReduceTasks(startKeys.size());
configurePartitioner(job, startKeys, writeMultipleTables);
// Set compression algorithms based on column families
conf.set(COMPRESSION_FAMILIES_CONF_KEY,
serializeColumnFamilyAttribute(compressionDetails, tableDescriptors));
conf.set(BLOCK_SIZE_FAMILIES_CONF_KEY,
serializeColumnFamilyAttribute(blockSizeDetails, tableDescriptors));
conf.set(BLOOM_TYPE_FAMILIES_CONF_KEY,
serializeColumnFamilyAttribute(bloomTypeDetails, tableDescriptors));
conf.set(BLOOM_PARAM_FAMILIES_CONF_KEY,
serializeColumnFamilyAttribute(bloomParamDetails, tableDescriptors));
conf.set(DATABLOCK_ENCODING_FAMILIES_CONF_KEY,
serializeColumnFamilyAttribute(dataBlockEncodingDetails, tableDescriptors));
TableMapReduceUtil.addDependencyJars(job);
TableMapReduceUtil.initCredentials(job);
LOG.info("Incremental output configured for tables: " + StringUtils.join(allTableNames, ","));
}
public static void configureIncrementalLoadMap(Job job, TableDescriptor tableDescriptor)
throws IOException {
Configuration conf = job.getConfiguration();
job.setOutputKeyClass(ImmutableBytesWritable.class);
job.setOutputValueClass(MapReduceExtendedCell.class);
job.setOutputFormatClass(HFileOutputFormat2.class);
ArrayList singleTableDescriptor = new ArrayList<>(1);
singleTableDescriptor.add(tableDescriptor);
conf.set(OUTPUT_TABLE_NAME_CONF_KEY, tableDescriptor.getTableName().getNameAsString());
// Set compression algorithms based on column families
conf.set(COMPRESSION_FAMILIES_CONF_KEY,
serializeColumnFamilyAttribute(compressionDetails, singleTableDescriptor));
conf.set(BLOCK_SIZE_FAMILIES_CONF_KEY,
serializeColumnFamilyAttribute(blockSizeDetails, singleTableDescriptor));
conf.set(BLOOM_TYPE_FAMILIES_CONF_KEY,
serializeColumnFamilyAttribute(bloomTypeDetails, singleTableDescriptor));
conf.set(BLOOM_PARAM_FAMILIES_CONF_KEY,
serializeColumnFamilyAttribute(bloomParamDetails, singleTableDescriptor));
conf.set(DATABLOCK_ENCODING_FAMILIES_CONF_KEY,
serializeColumnFamilyAttribute(dataBlockEncodingDetails, singleTableDescriptor));
TableMapReduceUtil.addDependencyJars(job);
TableMapReduceUtil.initCredentials(job);
LOG.info("Incremental table " + tableDescriptor.getTableName() + " output configured.");
}
/**
* Configure HBase cluster key for remote cluster to load region location for locality-sensitive
* if it's enabled. It's not necessary to call this method explicitly when the cluster key for
* HBase cluster to be used to load region location is configured in the job configuration. Call
* this method when another HBase cluster key is configured in the job configuration. For example,
* you should call when you load data from HBase cluster A using {@link TableInputFormat} and
* generate hfiles for HBase cluster B. Otherwise, HFileOutputFormat2 fetch location from cluster
* A and locality-sensitive won't working correctly.
* {@link #configureIncrementalLoad(Job, Table, RegionLocator)} calls this method using
* {@link Table#getConfiguration} as clusterConf. See HBASE-25608.
* @param job which has configuration to be updated
* @param clusterConf which contains cluster key of the HBase cluster to be locality-sensitive
* @see #configureIncrementalLoad(Job, Table, RegionLocator)
* @see #LOCALITY_SENSITIVE_CONF_KEY
* @see #REMOTE_CLUSTER_ZOOKEEPER_QUORUM_CONF_KEY
* @see #REMOTE_CLUSTER_ZOOKEEPER_CLIENT_PORT_CONF_KEY
* @see #REMOTE_CLUSTER_ZOOKEEPER_ZNODE_PARENT_CONF_KEY
*/
public static void configureRemoteCluster(Job job, Configuration clusterConf) {
Configuration conf = job.getConfiguration();
if (!conf.getBoolean(LOCALITY_SENSITIVE_CONF_KEY, DEFAULT_LOCALITY_SENSITIVE)) {
return;
}
final String quorum = clusterConf.get(HConstants.ZOOKEEPER_QUORUM);
final int clientPort = clusterConf.getInt(HConstants.ZOOKEEPER_CLIENT_PORT,
HConstants.DEFAULT_ZOOKEEPER_CLIENT_PORT);
final String parent =
clusterConf.get(HConstants.ZOOKEEPER_ZNODE_PARENT, HConstants.DEFAULT_ZOOKEEPER_ZNODE_PARENT);
conf.set(REMOTE_CLUSTER_ZOOKEEPER_QUORUM_CONF_KEY, quorum);
conf.setInt(REMOTE_CLUSTER_ZOOKEEPER_CLIENT_PORT_CONF_KEY, clientPort);
conf.set(REMOTE_CLUSTER_ZOOKEEPER_ZNODE_PARENT_CONF_KEY, parent);
LOG.info("ZK configs for remote cluster of bulkload is configured: " + quorum + ":" + clientPort
+ "/" + parent);
}
/**
* Runs inside the task to deserialize column family to compression algorithm map from the
* configuration.
* @param conf to read the serialized values from
* @return a map from column family to the configured compression algorithm
*/
@InterfaceAudience.Private
static Map createFamilyCompressionMap(Configuration conf) {
Map stringMap = createFamilyConfValueMap(conf, COMPRESSION_FAMILIES_CONF_KEY);
Map compressionMap = new TreeMap<>(Bytes.BYTES_COMPARATOR);
for (Map.Entry e : stringMap.entrySet()) {
Algorithm algorithm = HFileWriterImpl.compressionByName(e.getValue());
compressionMap.put(e.getKey(), algorithm);
}
return compressionMap;
}
/**
* Runs inside the task to deserialize column family to bloom filter type map from the
* configuration.
* @param conf to read the serialized values from
* @return a map from column family to the the configured bloom filter type
*/
@InterfaceAudience.Private
static Map createFamilyBloomTypeMap(Configuration conf) {
Map stringMap = createFamilyConfValueMap(conf, BLOOM_TYPE_FAMILIES_CONF_KEY);
Map bloomTypeMap = new TreeMap<>(Bytes.BYTES_COMPARATOR);
for (Map.Entry e : stringMap.entrySet()) {
BloomType bloomType = BloomType.valueOf(e.getValue());
bloomTypeMap.put(e.getKey(), bloomType);
}
return bloomTypeMap;
}
/**
* Runs inside the task to deserialize column family to bloom filter param map from the
* configuration.
* @param conf to read the serialized values from
* @return a map from column family to the the configured bloom filter param
*/
@InterfaceAudience.Private
static Map createFamilyBloomParamMap(Configuration conf) {
return createFamilyConfValueMap(conf, BLOOM_PARAM_FAMILIES_CONF_KEY);
}
/**
* Runs inside the task to deserialize column family to block size map from the configuration.
* @param conf to read the serialized values from
* @return a map from column family to the configured block size
*/
@InterfaceAudience.Private
static Map createFamilyBlockSizeMap(Configuration conf) {
Map stringMap = createFamilyConfValueMap(conf, BLOCK_SIZE_FAMILIES_CONF_KEY);
Map blockSizeMap = new TreeMap<>(Bytes.BYTES_COMPARATOR);
for (Map.Entry e : stringMap.entrySet()) {
Integer blockSize = Integer.parseInt(e.getValue());
blockSizeMap.put(e.getKey(), blockSize);
}
return blockSizeMap;
}
/**
* Runs inside the task to deserialize column family to data block encoding type map from the
* configuration.
* @param conf to read the serialized values from
* @return a map from column family to HFileDataBlockEncoder for the configured data block type
* for the family
*/
@InterfaceAudience.Private
static Map createFamilyDataBlockEncodingMap(Configuration conf) {
Map stringMap =
createFamilyConfValueMap(conf, DATABLOCK_ENCODING_FAMILIES_CONF_KEY);
Map encoderMap = new TreeMap<>(Bytes.BYTES_COMPARATOR);
for (Map.Entry e : stringMap.entrySet()) {
encoderMap.put(e.getKey(), DataBlockEncoding.valueOf((e.getValue())));
}
return encoderMap;
}
/**
* Run inside the task to deserialize column family to given conf value map.
* @param conf to read the serialized values from
* @param confName conf key to read from the configuration
* @return a map of column family to the given configuration value
*/
private static Map createFamilyConfValueMap(Configuration conf, String confName) {
Map confValMap = new TreeMap<>(Bytes.BYTES_COMPARATOR);
String confVal = conf.get(confName, "");
for (String familyConf : confVal.split("&")) {
String[] familySplit = familyConf.split("=");
if (familySplit.length != 2) {
continue;
}
try {
confValMap.put(Bytes.toBytes(URLDecoder.decode(familySplit[0], "UTF-8")),
URLDecoder.decode(familySplit[1], "UTF-8"));
} catch (UnsupportedEncodingException e) {
// will not happen with UTF-8 encoding
throw new AssertionError(e);
}
}
return confValMap;
}
/**
* Configure job with a TotalOrderPartitioner, partitioning against
* splitPoints. Cleans up the partitions file after job exists.
*/
static void configurePartitioner(Job job, List splitPoints,
boolean writeMultipleTables) throws IOException {
Configuration conf = job.getConfiguration();
// create the partitions file
FileSystem fs = FileSystem.get(conf);
String hbaseTmpFsDir =
conf.get(HConstants.TEMPORARY_FS_DIRECTORY_KEY, HConstants.DEFAULT_TEMPORARY_HDFS_DIRECTORY);
Path partitionsPath = new Path(hbaseTmpFsDir, "partitions_" + UUID.randomUUID());
fs.makeQualified(partitionsPath);
writePartitions(conf, partitionsPath, splitPoints, writeMultipleTables);
fs.deleteOnExit(partitionsPath);
// configure job to use it
job.setPartitionerClass(TotalOrderPartitioner.class);
TotalOrderPartitioner.setPartitionFile(conf, partitionsPath);
}
@edu.umd.cs.findbugs.annotations.SuppressWarnings(
value = "RCN_REDUNDANT_NULLCHECK_OF_NONNULL_VALUE")
@InterfaceAudience.Private
static String serializeColumnFamilyAttribute(Function fn,
List allTables) throws UnsupportedEncodingException {
StringBuilder attributeValue = new StringBuilder();
int i = 0;
for (TableDescriptor tableDescriptor : allTables) {
if (tableDescriptor == null) {
// could happen with mock table instance
// CODEREVIEW: Can I set an empty string in conf if mock table instance?
return "";
}
for (ColumnFamilyDescriptor familyDescriptor : tableDescriptor.getColumnFamilies()) {
if (i++ > 0) {
attributeValue.append('&');
}
attributeValue.append(URLEncoder
.encode(Bytes.toString(combineTableNameSuffix(tableDescriptor.getTableName().getName(),
familyDescriptor.getName())), "UTF-8"));
attributeValue.append('=');
attributeValue.append(URLEncoder.encode(fn.apply(familyDescriptor), "UTF-8"));
}
}
// Get rid of the last ampersand
return attributeValue.toString();
}
/**
* Serialize column family to compression algorithm map to configuration. Invoked while
* configuring the MR job for incremental load.
*/
@InterfaceAudience.Private
static Function compressionDetails =
familyDescriptor -> familyDescriptor.getCompressionType().getName();
/**
* Serialize column family to block size map to configuration. Invoked while configuring the MR
* job for incremental load.
*/
@InterfaceAudience.Private
static Function blockSizeDetails =
familyDescriptor -> String.valueOf(familyDescriptor.getBlocksize());
/**
* Serialize column family to bloom type map to configuration. Invoked while configuring the MR
* job for incremental load.
*/
@InterfaceAudience.Private
static Function bloomTypeDetails = familyDescriptor -> {
String bloomType = familyDescriptor.getBloomFilterType().toString();
if (bloomType == null) {
bloomType = ColumnFamilyDescriptorBuilder.DEFAULT_BLOOMFILTER.name();
}
return bloomType;
};
/**
* Serialize column family to bloom param map to configuration. Invoked while configuring the MR
* job for incremental load.
*/
@InterfaceAudience.Private
static Function bloomParamDetails = familyDescriptor -> {
BloomType bloomType = familyDescriptor.getBloomFilterType();
String bloomParam = "";
if (bloomType == BloomType.ROWPREFIX_FIXED_LENGTH) {
bloomParam = familyDescriptor.getConfigurationValue(BloomFilterUtil.PREFIX_LENGTH_KEY);
}
return bloomParam;
};
/**
* Serialize column family to data block encoding map to configuration. Invoked while configuring
* the MR job for incremental load.
*/
@InterfaceAudience.Private
static Function dataBlockEncodingDetails = familyDescriptor -> {
DataBlockEncoding encoding = familyDescriptor.getDataBlockEncoding();
if (encoding == null) {
encoding = DataBlockEncoding.NONE;
}
return encoding.toString();
};
}