[GitHub] weijietong commented on a change in pull request #1334: DRILL-6385: Support JPPD feature

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weijietong commented on a change in pull request #1334: DRILL-6385: Support 
JPPD feature
URL: https://github.com/apache/drill/pull/1334#discussion_r200520720
 
 

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 File path: 
exec/java-exec/src/main/java/org/apache/drill/exec/work/filter/RuntimeFilterManager.java
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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.drill.exec.work.filter;
+
+import com.google.common.collect.Sets;
+import org.apache.calcite.rel.core.JoinRelType;
+import org.apache.commons.collections.CollectionUtils;
+import org.apache.drill.common.expression.LogicalExpression;
+import org.apache.drill.common.expression.SchemaPath;
+import org.apache.drill.common.expression.visitors.AbstractExprVisitor;
+import org.apache.drill.common.logical.data.JoinCondition;
+import org.apache.drill.exec.ExecConstants;
+import org.apache.drill.exec.ops.AccountingDataTunnel;
+import org.apache.drill.exec.ops.Consumer;
+import org.apache.drill.exec.ops.QueryContext;
+import org.apache.drill.exec.ops.SendingAccountor;
+import org.apache.drill.exec.ops.StatusHandler;
+import org.apache.drill.exec.physical.PhysicalPlan;
+
+import org.apache.drill.exec.physical.base.AbstractPhysicalVisitor;
+import org.apache.drill.exec.physical.base.Exchange;
+import org.apache.drill.exec.physical.base.GroupScan;
+import org.apache.drill.exec.physical.base.PhysicalOperator;
+import org.apache.drill.exec.physical.base.Store;
+import org.apache.drill.exec.physical.config.BroadcastExchange;
+import org.apache.drill.exec.physical.config.HashAggregate;
+import org.apache.drill.exec.physical.config.HashJoinPOP;
+import org.apache.drill.exec.physical.config.StreamingAggregate;
+import org.apache.drill.exec.planner.fragment.Fragment;
+import org.apache.drill.exec.planner.fragment.Wrapper;
+import org.apache.drill.exec.proto.BitData;
+import org.apache.drill.exec.proto.CoordinationProtos;
+import org.apache.drill.exec.proto.GeneralRPCProtos;
+import org.apache.drill.exec.proto.UserBitShared;
+import org.apache.drill.exec.proto.helper.QueryIdHelper;
+import org.apache.drill.exec.rpc.RpcException;
+import org.apache.drill.exec.rpc.RpcOutcomeListener;
+import org.apache.drill.exec.rpc.data.DataTunnel;
+import org.apache.drill.exec.server.DrillbitContext;
+import org.apache.drill.exec.util.Pointer;
+import org.apache.drill.exec.work.QueryWorkUnit;
+import org.slf4j.Logger;
+import org.slf4j.LoggerFactory;
+
+import java.util.ArrayList;
+import java.util.HashMap;
+import java.util.List;
+import java.util.Map;
+import java.util.Set;
+import java.util.concurrent.ConcurrentHashMap;
+
+/**
+ * This class traverses the physical operator tree to find the HashJoin 
operator
+ * for which is JPPD (join predicate push down) is possible. The prerequisite 
to do JPPD
+ * is:
+ * 1. The join condition is equality
+ * 2. The physical join node is a HashJoin one
+ * 3. The probe side children of the HashJoin node should not contain a 
blocking operator like HashAgg
+ */
+public class RuntimeFilterManager {
+
+  private Wrapper rootWrapper;
+  //HashJoin node's major fragment id to its corresponding probe side nodes's 
endpoints
+  private Map<Integer, List<CoordinationProtos.DrillbitEndpoint>> 
joinMjId2probdeScanEps = new HashMap<>();
+  //HashJoin node's major fragment id to its corresponding probe side nodes's 
number
+  private Map<Integer, Integer> joinMjId2scanSize = new ConcurrentHashMap<>();
+  //HashJoin node's major fragment id to its corresponding probe side scan 
node's belonging major fragment id
+  private Map<Integer, Integer> joinMjId2ScanMjId = new HashMap<>();
+
+  private RuntimeFilterWritable aggregatedRuntimeFilter;
+
+  private DrillbitContext drillbitContext;
+
+  private QueryContext queryContext;
+
+  private SendingAccountor sendingAccountor = new SendingAccountor();
+
+  private String lineSeparator;
+
+
+
+  private static final Logger logger = 
LoggerFactory.getLogger(RuntimeFilterManager.class);
+
+  /**
+   * This class maintains context for the runtime join push down's filter 
management. It
+   * does a traversal of the physical operators by leveraging the root wrapper 
which indirectly
+   * holds the global PhysicalOperator tree and contains the minor fragment 
endpoints.
+   * @param workUnit
+   * @param queryContext
+   */
+  public RuntimeFilterManager(QueryWorkUnit workUnit, QueryContext 
queryContext, DrillbitContext drillbitContext) {
+    this.rootWrapper = workUnit.getRootWrapper();
+    this.queryContext = queryContext;
+    this.drillbitContext = drillbitContext;
+    lineSeparator = java.security.AccessController.doPrivileged(new 
sun.security.action.GetPropertyAction("line.separator"));
+  }
+
+  /**
+   * Apply runtime filter to the physical plan if possible
+   * @param plan
+   * @param queryContext
+   */
+  public static void applyRuntimeFilter(PhysicalPlan plan, QueryContext 
queryContext) {
+    //TODO except the default configured bloom filter bytes size, we should 
also calculate it by the NDV (number of distinct value)
+    int bloomFilterSizeInBytes = 
queryContext.getOption(ExecConstants.HASHJOIN_BLOOM_FILTER_DEFAULT_SIZE_KEY).int_val;
+    boolean enableRuntimeFilter = 
queryContext.getOption(ExecConstants.HASHJOIN_ENABLE_RUNTIME_FILTER_KEY).bool_val;
+    if (!enableRuntimeFilter) {
+      return;
+    }
+    final PhysicalOperator rootOperator = 
plan.getSortedOperators(false).iterator().next();
+    CandidateHashJoinOpIdentifier candidateHashJoinOpIdentifier = new 
CandidateHashJoinOpIdentifier();
+    rootOperator.accept(candidateHashJoinOpIdentifier, null);
+    List<HashJoinOpHolder> qualifiedHolders = 
candidateHashJoinOpIdentifier.qualifiedHolders();
+    //set the RuntimeFilterDef to its corresponding HashJoin node from top to 
down.
+    for (HashJoinOpHolder holder : qualifiedHolders) {
+      boolean sendToSelf = false;
+      if (holder.isBroadcastHashJoin) {
+        // send RuntimeFilter to the join node itself
+        sendToSelf = true;
+      }
+      List<BloomFilterDef> bloomFilterDefs = constructBloomFilterDefs(holder, 
bloomFilterSizeInBytes, sendToSelf);
+      RuntimeFilterDef runtimeFilterDef = new RuntimeFilterDef(true, false, 
bloomFilterDefs, !sendToSelf);
+      holder.getHashJoinPOP().setRuntimeFilterDef(runtimeFilterDef);
+    }
+  }
+
+
+  /**
+   * This method is to find the possible HashJoin physical nodes from the 
PhysicalOperator tree to
+   * applyRuntimeFilter RuntimeFilter. Then it constructs a 
RuntimeFilterRouting to record the relationship between
+   * the RuntimeFilter producers and consumers.
+   */
+  public void collectRuntimeFilterControlInfo(Pointer<String> textPlan) {
+    Map<String, String> mjOpIdPair2runtimeFilter = new HashMap<>();
+    RuntimeFilterParallelismCollector runtimeFilterParallelismCollector = new 
RuntimeFilterParallelismCollector();
+    rootWrapper.getNode().getRoot().accept(runtimeFilterParallelismCollector, 
null);
+    List<HashJoinOpHolder> holders = 
runtimeFilterParallelismCollector.getHolders();
+    int bloomFilterSizeInBytes = 
queryContext.getOption(ExecConstants.HASHJOIN_BLOOM_FILTER_DEFAULT_SIZE_KEY).int_val;
+
+    for (HashJoinOpHolder holder : holders) {
+      List<CoordinationProtos.DrillbitEndpoint> probeSideEndpoints = 
holder.getProbeSideScanEndpoints();
+      int probeSideScanMajorId = holder.getProbeSideScanMajorId();
+      int joinNodeMajorId = holder.getJoinMajorId();
+      boolean sendToSelf = false;
+      if (holder.isBroadcastHashJoin) {
+        // send RuntimeFilter to the join node itself
+        sendToSelf = true;
+      }
+      //mark the runtime filter info to the profile
+      int probeSideScanOpId = holder.getProbeSideScanOpId();
+      List<BloomFilterDef> bloomFilterDefs = constructBloomFilterDefs(holder, 
bloomFilterSizeInBytes, sendToSelf);
+      String mjOpIdPair = String.format("%02d-%02d", probeSideScanMajorId, 
probeSideScanOpId);
+      StringBuilder stringBuilder = new StringBuilder();
+      stringBuilder.append("RuntimeFilter[");
+      for (BloomFilterDef bloomFilterDef : bloomFilterDefs) {
+        stringBuilder.append(bloomFilterDef.toString()).append(",");
+      }
+      stringBuilder.append("]");
+      String runtimeFiltersJson = stringBuilder.toString();
+      mjOpIdPair2runtimeFilter.put(mjOpIdPair, runtimeFiltersJson);
+      if (!sendToSelf) {
+        //send RuntimeFilter to Foreman
+        joinMjId2probdeScanEps.put(joinNodeMajorId, probeSideEndpoints);
+        joinMjId2scanSize.put(joinNodeMajorId, probeSideEndpoints.size());
+        joinMjId2ScanMjId.put(joinNodeMajorId, probeSideScanMajorId);
+      }
+    }
+    reconstructTextPlan(textPlan, mjOpIdPair2runtimeFilter);
+  }
+
+
+  public void waitForComplete() {
+    sendingAccountor.waitForSendComplete();
+  }
+
+  /**
+   * This method is passively invoked by receiving a runtime filter from the 
network
+   * @param runtimeFilterWritable
+   */
+  public void registerRuntimeFilter(RuntimeFilterWritable 
runtimeFilterWritable) {
+    BitData.RuntimeFilterBDef runtimeFilterB = 
runtimeFilterWritable.getRuntimeFilterBDef();
+    int majorId = runtimeFilterB.getMajorFragmentId();
+    UserBitShared.QueryId queryId = runtimeFilterB.getQueryId();
+    List<String> probeFields = runtimeFilterB.getProbeFieldsList();
+    logger.info("RuntimeFilterManager receives a runtime filter , majorId:{}, 
queryId:{}", majorId, QueryIdHelper.getQueryId(queryId));
+    int size;
+    synchronized (this) {
+      size = joinMjId2scanSize.get(majorId);
+      if (aggregatedRuntimeFilter == null) {
+        aggregatedRuntimeFilter = runtimeFilterWritable;
+      } else {
+        this.aggregatedRuntimeFilter.aggregate(runtimeFilterWritable);
+      }
+      size--;
+      joinMjId2scanSize.put(majorId, size);
+    }
+    if (size == 0) {
+      broadcastAggregatedRuntimeFilter(majorId, queryId, probeFields);
+    }
+  }
+
+
+  private static List<BloomFilterDef> 
constructBloomFilterDefs(HashJoinOpHolder holder, int bloomFilterSizeInBytes, 
boolean sendToSelf) {
+    List<JoinCondition> joinConditions = holder.hashJoinPOP.getConditions();
+    List<BloomFilterDef> bloomFilterDefs = new ArrayList<>();
+    for (JoinCondition joinCondition : joinConditions) {
+      LogicalExpression leftProExp = joinCondition.getLeft();
+      FieldReferenceFinder fieldReferenceFinder = new FieldReferenceFinder();
 
 Review comment:
   You are right, will update that to consider a join condition with function.

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