/**
* 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.drill.exec.physical.impl.partitionsender;
import java.io.IOException;
import java.util.Iterator;
import java.util.List;
import javax.inject.Named;
import org.apache.drill.common.expression.SchemaPath;
import org.apache.drill.exec.compile.sig.RuntimeOverridden;
import org.apache.drill.exec.exception.SchemaChangeException;
import org.apache.drill.exec.expr.TypeHelper;
import org.apache.drill.exec.memory.BufferAllocator;
import org.apache.drill.exec.ops.FragmentContext;
import org.apache.drill.exec.ops.OperatorContext;
import org.apache.drill.exec.ops.OperatorStats;
import org.apache.drill.exec.physical.config.HashPartitionSender;
import org.apache.drill.exec.physical.impl.SendingAccountor;
import org.apache.drill.exec.physical.impl.partitionsender.PartitionSenderRootExec.Metric;
import org.apache.drill.exec.proto.CoordinationProtos.DrillbitEndpoint;
import org.apache.drill.exec.proto.ExecProtos;
import org.apache.drill.exec.proto.ExecProtos.FragmentHandle;
import org.apache.drill.exec.record.BatchSchema;
import org.apache.drill.exec.record.BatchSchema.SelectionVectorMode;
import org.apache.drill.exec.record.FragmentWritableBatch;
import org.apache.drill.exec.record.RecordBatch;
import org.apache.drill.exec.record.SchemaBuilder;
import org.apache.drill.exec.record.TypedFieldId;
import org.apache.drill.exec.record.VectorAccessible;
import org.apache.drill.exec.record.VectorContainer;
import org.apache.drill.exec.record.VectorWrapper;
import org.apache.drill.exec.record.WritableBatch;
import org.apache.drill.exec.record.selection.SelectionVector2;
import org.apache.drill.exec.record.selection.SelectionVector4;
import org.apache.drill.exec.rpc.data.DataTunnel;
import org.apache.drill.exec.vector.ValueVector;
import com.google.common.base.Preconditions;
import com.google.common.collect.Lists;
public abstract class PartitionerTemplate implements Partitioner {
static final org.slf4j.Logger logger = org.slf4j.LoggerFactory.getLogger(PartitionerTemplate.class);
private SelectionVector2 sv2;
private SelectionVector4 sv4;
private RecordBatch incoming;
private List<OutgoingRecordBatch> outgoingBatches = Lists.newArrayList();
private static final String REWRITE_MSG = "Failed to write the record {} in available space. Attempting to rewrite.";
private static final String RECORD_TOO_BIG_MSG = "Record {} is too big to fit into the allocated memory of ValueVector.";
public PartitionerTemplate() throws SchemaChangeException {
}
@Override
public List<? extends PartitionOutgoingBatch> getOutgoingBatches() {
return outgoingBatches;
}
public final void setup(FragmentContext context,
RecordBatch incoming,
HashPartitionSender popConfig,
OperatorStats stats,
SendingAccountor sendingAccountor,
OperatorContext oContext,
StatusHandler statusHandler) throws SchemaChangeException {
this.incoming = incoming;
doSetup(context, incoming, null);
int fieldId = 0;
for (DrillbitEndpoint endpoint : popConfig.getDestinations()) {
FragmentHandle opposite = context.getHandle().toBuilder().setMajorFragmentId(popConfig.getOppositeMajorFragmentId()).setMinorFragmentId(fieldId).build();
outgoingBatches.add(new OutgoingRecordBatch(stats, sendingAccountor, popConfig,
context.getDataTunnel(endpoint, opposite), context, oContext.getAllocator(), fieldId, statusHandler));
fieldId++;
}
for (OutgoingRecordBatch outgoingRecordBatch : outgoingBatches) {
outgoingRecordBatch.initializeBatch();
}
SelectionVectorMode svMode = incoming.getSchema().getSelectionVectorMode();
switch(svMode){
case FOUR_BYTE:
this.sv4 = incoming.getSelectionVector4();
break;
case TWO_BYTE:
this.sv2 = incoming.getSelectionVector2();
break;
case NONE:
break;
default:
throw new UnsupportedOperationException("Unknown selection vector mode: " + svMode.toString());
}
}
/**
* Flush each outgoing record batch, and optionally reset the state of each outgoing record
* batch (on schema change). Note that the schema is updated based on incoming at the time
* this function is invoked.
*
* @param isLastBatch true if this is the last incoming batch
* @param schemaChanged true if the schema has changed
*/
public void flushOutgoingBatches(boolean isLastBatch, boolean schemaChanged) throws IOException {
for (OutgoingRecordBatch batch : outgoingBatches) {
logger.debug("Attempting to flush all outgoing batches");
if (isLastBatch) {
batch.setIsLast();
}
batch.flush();
if (schemaChanged) {
batch.resetBatch();
batch.initializeBatch();
}
}
}
@Override
public void partitionBatch(RecordBatch incoming) throws IOException {
SelectionVectorMode svMode = incoming.getSchema().getSelectionVectorMode();
// Keeping the for loop inside the case to avoid case evaluation for each record.
switch(svMode) {
case NONE:
for (int recordId = 0; recordId < incoming.getRecordCount(); ++recordId) {
OutgoingRecordBatch outgoingBatch = outgoingBatches.get(doEval(recordId));
if (!outgoingBatch.copy(recordId)) {
logger.trace(REWRITE_MSG, recordId);
outgoingBatch.flush();
if (!outgoingBatch.copy(recordId)) {
logger.debug(RECORD_TOO_BIG_MSG, recordId);
throw new IOException(RECORD_TOO_BIG_MSG);
}
}
}
break;
case TWO_BYTE:
for (int recordId = 0; recordId < incoming.getRecordCount(); ++recordId) {
int svIndex = sv2.getIndex(recordId);
OutgoingRecordBatch outgoingBatch = outgoingBatches.get(doEval(svIndex));
if (!outgoingBatch.copy(svIndex)) {
logger.trace(REWRITE_MSG, svIndex);
outgoingBatch.flush();
if (!outgoingBatch.copy(svIndex)) {
logger.debug(RECORD_TOO_BIG_MSG, recordId);
throw new IOException(RECORD_TOO_BIG_MSG);
}
}
}
break;
case FOUR_BYTE:
for (int recordId = 0; recordId < incoming.getRecordCount(); ++recordId) {
int svIndex = sv4.get(recordId);
OutgoingRecordBatch outgoingBatch = outgoingBatches.get(doEval(svIndex));
if (!outgoingBatch.copy(svIndex)) {
logger.trace(REWRITE_MSG, svIndex);
outgoingBatch.flush();
if (!outgoingBatch.copy(svIndex)) {
logger.debug(RECORD_TOO_BIG_MSG, recordId);
throw new IOException(RECORD_TOO_BIG_MSG);
}
}
}
break;
default:
throw new UnsupportedOperationException("Unknown selection vector mode: " + svMode.toString());
}
}
@Override
public void clear() {
for (OutgoingRecordBatch outgoingRecordBatch : outgoingBatches) {
outgoingRecordBatch.clear();
}
}
public abstract void doSetup(@Named("context") FragmentContext context, @Named("incoming") RecordBatch incoming, @Named("outgoing") OutgoingRecordBatch[] outgoing) throws SchemaChangeException;
public abstract int doEval(@Named("inIndex") int inIndex);
public class OutgoingRecordBatch implements PartitionOutgoingBatch, VectorAccessible {
private final DataTunnel tunnel;
private final HashPartitionSender operator;
private final FragmentContext context;
private final BufferAllocator allocator;
private final VectorContainer vectorContainer = new VectorContainer();
private final SendingAccountor sendCount;
private final int oppositeMinorFragmentId;
private boolean isLast = false;
private volatile boolean terminated = false;
private boolean dropAll = false;
private BatchSchema outSchema;
private int recordCount;
private int totalRecords;
private OperatorStats stats;
private static final int DEFAULT_RECORD_BATCH_SIZE = 1000;
private final StatusHandler statusHandler;
public OutgoingRecordBatch(OperatorStats stats, SendingAccountor sendCount, HashPartitionSender operator, DataTunnel tunnel,
FragmentContext context, BufferAllocator allocator, int oppositeMinorFragmentId,
StatusHandler statusHandler) {
this.context = context;
this.allocator = allocator;
this.operator = operator;
this.tunnel = tunnel;
this.sendCount = sendCount;
this.stats = stats;
this.oppositeMinorFragmentId = oppositeMinorFragmentId;
this.statusHandler = statusHandler;
}
protected boolean copy(int inIndex) throws IOException {
if (doEval(inIndex, recordCount)) {
recordCount++;
totalRecords++;
if (recordCount == DEFAULT_RECORD_BATCH_SIZE) {
flush();
}
return true;
}
return false;
}
@Override
public void terminate() {
terminated = true;
}
@RuntimeOverridden
protected void doSetup(@Named("incoming") RecordBatch incoming, @Named("outgoing") VectorAccessible outgoing) {};
@RuntimeOverridden
protected boolean doEval(@Named("inIndex") int inIndex, @Named("outIndex") int outIndex) { return false; };
public void flush() throws IOException {
if (dropAll) {
vectorContainer.zeroVectors();
return;
}
final FragmentHandle handle = context.getHandle();
if (recordCount != 0 && !terminated) {
for(VectorWrapper<?> w : vectorContainer){
w.getValueVector().getMutator().setValueCount(recordCount);
}
FragmentWritableBatch writableBatch = new FragmentWritableBatch(isLast,
handle.getQueryId(),
handle.getMajorFragmentId(),
handle.getMinorFragmentId(),
operator.getOppositeMajorFragmentId(),
oppositeMinorFragmentId,
getWritableBatch());
updateStats(writableBatch);
stats.startWait();
try {
tunnel.sendRecordBatch(statusHandler, writableBatch);
} finally {
stats.stopWait();
}
this.sendCount.increment();
} else {
logger.debug("Flush requested on an empty outgoing record batch" + (isLast ? " (last batch)" : ""));
if (isLast || terminated) {
// send final (empty) batch
FragmentWritableBatch writableBatch = new FragmentWritableBatch(true,
handle.getQueryId(),
handle.getMajorFragmentId(),
handle.getMinorFragmentId(),
operator.getOppositeMajorFragmentId(),
oppositeMinorFragmentId,
getWritableBatch());
stats.startWait();
try {
tunnel.sendRecordBatch(statusHandler, writableBatch);
} finally {
stats.stopWait();
}
this.sendCount.increment();
vectorContainer.zeroVectors();
dropAll = true;
return;
}
}
// reset values and reallocate the buffer for each value vector based on the incoming batch.
// NOTE: the value vector is directly referenced by generated code; therefore references
// must remain valid.
recordCount = 0;
vectorContainer.zeroVectors();
for (VectorWrapper<?> v : vectorContainer) {
v.getValueVector().allocateNew();
}
if (!statusHandler.isOk()) {
throw new IOException(statusHandler.getException());
}
}
public void updateStats(FragmentWritableBatch writableBatch) {
stats.addLongStat(Metric.BYTES_SENT, writableBatch.getByteCount());
stats.addLongStat(Metric.BATCHES_SENT, 1);
stats.addLongStat(Metric.RECORDS_SENT, writableBatch.getHeader().getDef().getRecordCount());
}
public void initializeBatch() {
isLast = false;
vectorContainer.clear();
SchemaBuilder bldr = BatchSchema.newBuilder().setSelectionVectorMode(BatchSchema.SelectionVectorMode.NONE);
for (VectorWrapper<?> v : incoming) {
// add field to the output schema
bldr.addField(v.getField());
// allocate a new value vector
ValueVector outgoingVector = TypeHelper.getNewVector(v.getField(), allocator);
outgoingVector.allocateNew();
vectorContainer.add(outgoingVector);
}
outSchema = bldr.build();
doSetup(incoming, vectorContainer);
}
public void resetBatch() {
isLast = false;
recordCount = 0;
for (VectorWrapper<?> v : vectorContainer){
v.getValueVector().clear();
}
}
public void setIsLast() {
isLast = true;
}
@Override
public BatchSchema getSchema() {
Preconditions.checkNotNull(outSchema);
return outSchema;
}
@Override
public int getRecordCount() {
return recordCount;
}
@Override
public long getTotalRecords() {
return totalRecords;
}
@Override
public TypedFieldId getValueVectorId(SchemaPath path) {
return vectorContainer.getValueVectorId(path);
}
@Override
public VectorWrapper<?> getValueAccessorById(Class<?> clazz, int... fieldIds) {
return vectorContainer.getValueAccessorById(clazz, fieldIds);
}
@Override
public Iterator<VectorWrapper<?>> iterator() {
return vectorContainer.iterator();
}
public WritableBatch getWritableBatch() {
return WritableBatch.getBatchNoHVWrap(recordCount, this, false);
}
public void clear(){
vectorContainer.clear();
}
}
}