/*
* Licensed 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 io.prestosql.plugin.hive;
import com.google.common.collect.ImmutableList;
import com.google.common.primitives.Ints;
import com.google.common.util.concurrent.Futures;
import com.google.common.util.concurrent.ListenableFuture;
import com.google.common.util.concurrent.ListeningExecutorService;
import io.airlift.concurrent.MoreFutures;
import io.airlift.json.JsonCodec;
import io.airlift.log.Logger;
import io.airlift.slice.Slice;
import io.prestosql.plugin.hive.util.HiveBucketing.BucketingVersion;
import io.prestosql.spi.Page;
import io.prestosql.spi.PageIndexer;
import io.prestosql.spi.PageIndexerFactory;
import io.prestosql.spi.PrestoException;
import io.prestosql.spi.block.Block;
import io.prestosql.spi.block.IntArrayBlockBuilder;
import io.prestosql.spi.connector.ConnectorPageSink;
import io.prestosql.spi.connector.ConnectorSession;
import io.prestosql.spi.type.Type;
import it.unimi.dsi.fastutil.objects.Object2IntMap;
import it.unimi.dsi.fastutil.objects.Object2IntOpenHashMap;
import java.util.ArrayList;
import java.util.Collection;
import java.util.HashMap;
import java.util.List;
import java.util.Map;
import java.util.Optional;
import java.util.OptionalInt;
import java.util.concurrent.Callable;
import java.util.concurrent.CompletableFuture;
import java.util.concurrent.Executors;
import static com.google.common.base.Verify.verify;
import static com.google.common.util.concurrent.MoreExecutors.directExecutor;
import static io.airlift.slice.Slices.wrappedBuffer;
import static io.prestosql.plugin.hive.HiveErrorCode.HIVE_TOO_MANY_OPEN_PARTITIONS;
import static io.prestosql.plugin.hive.HiveErrorCode.HIVE_WRITER_CLOSE_ERROR;
import static io.prestosql.spi.type.IntegerType.INTEGER;
import static java.lang.String.format;
import static java.util.Objects.requireNonNull;
import static java.util.stream.Collectors.toList;
public class HivePageSink
implements ConnectorPageSink
{
private static final Logger log = Logger.get(HivePageSink.class);
private static final int MAX_PAGE_POSITIONS = 4096;
private final HiveWriterFactory writerFactory;
private final int[] dataColumnInputIndex; // ordinal of columns (not counting sample weight column)
private final int[] partitionColumnsInputIndex; // ordinal of columns (not counting sample weight column)
private final int[] bucketColumns;
private final HiveBucketFunction bucketFunction;
private final HiveWriterPagePartitioner pagePartitioner;
private final HdfsEnvironment hdfsEnvironment;
private final int maxOpenWriters;
private final ListeningExecutorService writeVerificationExecutor;
private final JsonCodec<PartitionUpdate> partitionUpdateCodec;
private final List<HiveWriter> writers = new ArrayList<>();
private final ConnectorSession session;
private long writtenBytes;
private long systemMemoryUsage;
private long validationCpuNanos;
public HivePageSink(
HiveWriterFactory writerFactory,
List<HiveColumnHandle> inputColumns,
Optional<HiveBucketProperty> bucketProperty,
PageIndexerFactory pageIndexerFactory,
HdfsEnvironment hdfsEnvironment,
int maxOpenWriters,
ListeningExecutorService writeVerificationExecutor,
JsonCodec<PartitionUpdate> partitionUpdateCodec,
ConnectorSession session)
{
this.writerFactory = requireNonNull(writerFactory, "writerFactory is null");
requireNonNull(inputColumns, "inputColumns is null");
requireNonNull(pageIndexerFactory, "pageIndexerFactory is null");
this.hdfsEnvironment = requireNonNull(hdfsEnvironment, "hdfsEnvironment is null");
this.maxOpenWriters = maxOpenWriters;
this.writeVerificationExecutor = requireNonNull(writeVerificationExecutor, "writeVerificationExecutor is null");
this.partitionUpdateCodec = requireNonNull(partitionUpdateCodec, "partitionUpdateCodec is null");
requireNonNull(bucketProperty, "bucketProperty is null");
this.pagePartitioner = new HiveWriterPagePartitioner(
inputColumns,
bucketProperty.isPresent(),
pageIndexerFactory);
// determine the input index of the partition columns and data columns
// and determine the input index and type of bucketing columns
ImmutableList.Builder<Integer> partitionColumns = ImmutableList.builder();
ImmutableList.Builder<Integer> dataColumnsInputIndex = ImmutableList.builder();
Object2IntMap<String> dataColumnNameToIdMap = new Object2IntOpenHashMap<>();
Map<String, HiveType> dataColumnNameToTypeMap = new HashMap<>();
// sample weight column is passed separately, so index must be calculated without this column
for (int inputIndex = 0; inputIndex < inputColumns.size(); inputIndex++) {
HiveColumnHandle column = inputColumns.get(inputIndex);
if (column.isPartitionKey()) {
partitionColumns.add(inputIndex);
}
else {
dataColumnsInputIndex.add(inputIndex);
dataColumnNameToIdMap.put(column.getName(), inputIndex);
dataColumnNameToTypeMap.put(column.getName(), column.getHiveType());
}
}
this.partitionColumnsInputIndex = Ints.toArray(partitionColumns.build());
this.dataColumnInputIndex = Ints.toArray(dataColumnsInputIndex.build());
if (bucketProperty.isPresent()) {
BucketingVersion bucketingVersion = bucketProperty.get().getBucketingVersion();
int bucketCount = bucketProperty.get().getBucketCount();
bucketColumns = bucketProperty.get().getBucketedBy().stream()
.mapToInt(dataColumnNameToIdMap::get)
.toArray();
List<HiveType> bucketColumnTypes = bucketProperty.get().getBucketedBy().stream()
.map(dataColumnNameToTypeMap::get)
.collect(toList());
bucketFunction = new HiveBucketFunction(bucketingVersion, bucketCount, bucketColumnTypes);
}
else {
bucketColumns = null;
bucketFunction = null;
}
this.session = requireNonNull(session, "session is null");
}
@Override
public long getCompletedBytes()
{
return writtenBytes;
}
@Override
public long getSystemMemoryUsage()
{
return systemMemoryUsage;
}
@Override
public long getValidationCpuNanos()
{
return validationCpuNanos;
}
@Override
public CompletableFuture<Collection<Slice>> finish()
{
// Must be wrapped in doAs entirely
// Implicit FileSystem initializations are possible in HiveRecordWriter#commit -> RecordWriter#close
ListenableFuture<Collection<Slice>> result = hdfsEnvironment.doAs(session.getUser(), this::doFinish);
return MoreFutures.toCompletableFuture(result);
}
private ListenableFuture<Collection<Slice>> doFinish()
{
ImmutableList.Builder<Slice> partitionUpdates = ImmutableList.builder();
List<Callable<Object>> verificationTasks = new ArrayList<>();
for (HiveWriter writer : writers) {
writer.commit();
PartitionUpdate partitionUpdate = writer.getPartitionUpdate();
partitionUpdates.add(wrappedBuffer(partitionUpdateCodec.toJsonBytes(partitionUpdate)));
writer.getVerificationTask()
.map(Executors::callable)
.ifPresent(verificationTasks::add);
}
List<Slice> result = partitionUpdates.build();
writtenBytes = writers.stream()
.mapToLong(HiveWriter::getWrittenBytes)
.sum();
validationCpuNanos = writers.stream()
.mapToLong(HiveWriter::getValidationCpuNanos)
.sum();
if (verificationTasks.isEmpty()) {
return Futures.immediateFuture(result);
}
try {
List<ListenableFuture<?>> futures = writeVerificationExecutor.invokeAll(verificationTasks).stream()
.map(future -> (ListenableFuture<?>) future)
.collect(toList());
return Futures.transform(Futures.allAsList(futures), input -> result, directExecutor());
}
catch (InterruptedException e) {
Thread.currentThread().interrupt();
throw new RuntimeException(e);
}
}
@Override
public void abort()
{
// Must be wrapped in doAs entirely
// Implicit FileSystem initializations are possible in HiveRecordWriter#rollback -> RecordWriter#close
hdfsEnvironment.doAs(session.getUser(), this::doAbort);
}
private void doAbort()
{
Optional<Exception> rollbackException = Optional.empty();
for (HiveWriter writer : writers) {
// writers can contain nulls if an exception is thrown when doAppend expends the writer list
if (writer != null) {
try {
writer.rollback();
}
catch (Exception e) {
log.warn("exception '%s' while rollback on %s", e, writer);
rollbackException = Optional.of(e);
}
}
}
if (rollbackException.isPresent()) {
throw new PrestoException(HIVE_WRITER_CLOSE_ERROR, "Error rolling back write to Hive", rollbackException.get());
}
}
@Override
public CompletableFuture<?> appendPage(Page page)
{
if (page.getPositionCount() > 0) {
// Must be wrapped in doAs entirely
// Implicit FileSystem initializations are possible in HiveRecordWriter#addRow or #createWriter
hdfsEnvironment.doAs(session.getUser(), () -> doAppend(page));
}
return NOT_BLOCKED;
}
private void doAppend(Page page)
{
while (page.getPositionCount() > MAX_PAGE_POSITIONS) {
Page chunk = page.getRegion(0, MAX_PAGE_POSITIONS);
page = page.getRegion(MAX_PAGE_POSITIONS, page.getPositionCount() - MAX_PAGE_POSITIONS);
writePage(chunk);
}
writePage(page);
}
private void writePage(Page page)
{
int[] writerIndexes = getWriterIndexes(page);
// position count for each writer
int[] sizes = new int[writers.size()];
for (int index : writerIndexes) {
sizes[index]++;
}
// record which positions are used by which writer
int[][] writerPositions = new int[writers.size()][];
int[] counts = new int[writers.size()];
for (int position = 0; position < page.getPositionCount(); position++) {
int index = writerIndexes[position];
int count = counts[index];
if (count == 0) {
writerPositions[index] = new int[sizes[index]];
}
writerPositions[index][count] = position;
counts[index] = count + 1;
}
// invoke the writers
Page dataPage = getDataPage(page);
for (int index = 0; index < writerPositions.length; index++) {
int[] positions = writerPositions[index];
if (positions == null) {
continue;
}
// If write is partitioned across multiple writers, filter page using dictionary blocks
Page pageForWriter = dataPage;
if (positions.length != dataPage.getPositionCount()) {
verify(positions.length == counts[index]);
pageForWriter = pageForWriter.getPositions(positions, 0, positions.length);
}
HiveWriter writer = writers.get(index);
long currentWritten = writer.getWrittenBytes();
long currentMemory = writer.getSystemMemoryUsage();
writer.append(pageForWriter);
writtenBytes += (writer.getWrittenBytes() - currentWritten);
systemMemoryUsage += (writer.getSystemMemoryUsage() - currentMemory);
}
}
private int[] getWriterIndexes(Page page)
{
Page partitionColumns = extractColumns(page, partitionColumnsInputIndex);
Block bucketBlock = buildBucketBlock(page);
int[] writerIndexes = pagePartitioner.partitionPage(partitionColumns, bucketBlock);
if (pagePartitioner.getMaxIndex() >= maxOpenWriters) {
throw new PrestoException(HIVE_TOO_MANY_OPEN_PARTITIONS, format("Exceeded limit of %s open writers for partitions/buckets", maxOpenWriters));
}
// expand writers list to new size
while (writers.size() <= pagePartitioner.getMaxIndex()) {
writers.add(null);
}
// create missing writers
for (int position = 0; position < page.getPositionCount(); position++) {
int writerIndex = writerIndexes[position];
if (writers.get(writerIndex) != null) {
continue;
}
OptionalInt bucketNumber = OptionalInt.empty();
if (bucketBlock != null) {
bucketNumber = OptionalInt.of(bucketBlock.getInt(position, 0));
}
HiveWriter writer = writerFactory.createWriter(partitionColumns, position, bucketNumber);
writers.set(writerIndex, writer);
}
verify(writers.size() == pagePartitioner.getMaxIndex() + 1);
verify(!writers.contains(null));
return writerIndexes;
}
private Page getDataPage(Page page)
{
Block[] blocks = new Block[dataColumnInputIndex.length];
for (int i = 0; i < dataColumnInputIndex.length; i++) {
int dataColumn = dataColumnInputIndex[i];
blocks[i] = page.getBlock(dataColumn);
}
return new Page(page.getPositionCount(), blocks);
}
private Block buildBucketBlock(Page page)
{
if (bucketFunction == null) {
return null;
}
IntArrayBlockBuilder bucketColumnBuilder = new IntArrayBlockBuilder(null, page.getPositionCount());
Page bucketColumnsPage = extractColumns(page, bucketColumns);
for (int position = 0; position < page.getPositionCount(); position++) {
int bucket = bucketFunction.getBucket(bucketColumnsPage, position);
bucketColumnBuilder.writeInt(bucket);
}
return bucketColumnBuilder.build();
}
private static Page extractColumns(Page page, int[] columns)
{
Block[] blocks = new Block[columns.length];
for (int i = 0; i < columns.length; i++) {
int dataColumn = columns[i];
blocks[i] = page.getBlock(dataColumn);
}
return new Page(page.getPositionCount(), blocks);
}
private static class HiveWriterPagePartitioner
{
private final PageIndexer pageIndexer;
public HiveWriterPagePartitioner(
List<HiveColumnHandle> inputColumns,
boolean bucketed,
PageIndexerFactory pageIndexerFactory)
{
requireNonNull(inputColumns, "inputColumns is null");
requireNonNull(pageIndexerFactory, "pageIndexerFactory is null");
List<Type> partitionColumnTypes = inputColumns.stream()
.filter(HiveColumnHandle::isPartitionKey)
.map(HiveColumnHandle::getType)
.collect(toList());
if (bucketed) {
partitionColumnTypes.add(INTEGER);
}
this.pageIndexer = pageIndexerFactory.createPageIndexer(partitionColumnTypes);
}
public int[] partitionPage(Page partitionColumns, Block bucketBlock)
{
if (bucketBlock != null) {
Block[] blocks = new Block[partitionColumns.getChannelCount() + 1];
for (int i = 0; i < partitionColumns.getChannelCount(); i++) {
blocks[i] = partitionColumns.getBlock(i);
}
blocks[blocks.length - 1] = bucketBlock;
partitionColumns = new Page(partitionColumns.getPositionCount(), blocks);
}
return pageIndexer.indexPage(partitionColumns);
}
public int getMaxIndex()
{
return pageIndexer.getMaxIndex();
}
}
}
