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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.storm.task;
// import org.apache.storm.generated.GlobalStreamId;
// import org.apache.storm.generated.Grouping;
import java.util.Collection;
import java.util.List;
import java.util.Map;
import java.util.Set;
import org.apache.storm.generated.StormTopology;
import org.apache.storm.hooks.ITaskHook;
import org.apache.storm.hooks.ITaskHookDelegate;
import org.apache.storm.metric.api.CombinedMetric;
import org.apache.storm.metric.api.ICombiner;
import org.apache.storm.metric.api.IMetric;
import org.apache.storm.metric.api.IReducer;
import org.apache.storm.metric.api.MetricDelegate;
import org.apache.storm.metric.api.ReducedMetric;
import org.apache.storm.tuple.Fields;
// import org.apache.storm.state.ISubscribedState;
// import org.apache.storm.state.ISubscribedState;
// import org.apache.commons.lang.NotImplementedException;
/**
* A TopologyContext is given to bolts and spouts in their "prepare" and "open"
* methods, respectively. This object provides information about the component's
* place within the topology, such as task ids, inputs and outputs, etc.
* <p>The TopologyContext is also used to declare ISubscribedState objects to
* synchronize state with StateSpouts this object is subscribed to.
*/
public class TopologyContext extends WorkerTopologyContext implements IMetricsContext {
private org.apache.heron.api.topology.TopologyContext delegate;
// Constructor to match the signature of the storm's TopologyContext
// Note that here, we fake the clojure.lang.Atom by creating our own class
// This is real hacking a hack!
@SuppressWarnings("rawtypes")
public TopologyContext(StormTopology topology, Map stormConf,
Map<Integer, String> taskToComponent,
Map<String, List<Integer>> componentToSortedTasks,
Map<String, Map<String, Fields>> componentToStreamToFields,
String stormId, String codeDir, String pidDir, Integer taskId,
Integer workerPort, List<Integer> workerTasks,
Map<String, Object> defaultResources,
Map<String, Object> userResources,
Map<String, Object> executorData, Map<String, Object> registeredMetrics,
org.apache.storm.clojure.lang.Atom openOrPrepareWasCalled) {
super((org.apache.heron.api.topology.TopologyContext) null);
}
public TopologyContext(org.apache.heron.api.topology.TopologyContext delegate) {
super(delegate);
this.delegate = delegate;
}
/**
* All state from all subscribed state spouts streams will be synced with
* the provided object.
*
* <p>It is recommended that your ISubscribedState object is kept as an instance
* variable of this object. The recommended usage of this method is as follows:</p>
*
* <p>
* _myState = context.setAllSubscribedState(new MyState());
* </p>
* @param obj Provided ISubscribedState implementation
* @return Returns the ISubscribedState object provided
*/
/*
public <T extends ISubscribedState> T setAllSubscribedState(T obj) {
//check that only subscribed to one component/stream for statespout
//setsubscribedstate appropriately
throw new NotImplementedException();
}
*/
/**
* Synchronizes the default stream from the specified state spout component
* id with the provided ISubscribedState object.
*
* <p>The recommended usage of this method is as follows:</p>
* <p>
* _myState = context.setSubscribedState(componentId, new MyState());
* </p>
*
* @param componentId the id of the StateSpout component to subscribe to
* @param obj Provided ISubscribedState implementation
* @return Returns the ISubscribedState object provided
*/
/*
public <T extends ISubscribedState> T setSubscribedState(String componentId, T obj) {
return setSubscribedState(componentId, Utils.DEFAULT_STREAM_ID, obj);
}
*/
/**
* Synchronizes the specified stream from the specified state spout component
* id with the provided ISubscribedState object.
*
* <p>The recommended usage of this method is as follows:</p>
* <p>
* _myState = context.setSubscribedState(componentId, streamId, new MyState());
* </p>
*
* @param componentId the id of the StateSpout component to subscribe to
* @param streamId the stream to subscribe to
* @param obj Provided ISubscribedState implementation
* @return Returns the ISubscribedState object provided
*/
/*
public <T extends ISubscribedState> T setSubscribedState(
String componentId, String streamId, T obj) {
throw new NotImplementedException();
}
*/
/**
* Gets the task id of this task.
*
* @return the task id
*/
public int getThisTaskId() {
return delegate.getThisTaskId();
}
/**
* Gets the component id for this task. The component id maps
* to a component id specified for a Spout or Bolt in the topology definition.
*/
public String getThisComponentId() {
return delegate.getThisComponentId();
}
/**
* Gets the declared output fields for the specified stream id for the component
* this task is a part of.
*/
public Fields getThisOutputFields(String streamId) {
return new Fields(delegate.getThisOutputFields(streamId));
}
/**
* Gets the set of streams declared for the component of this task.
*/
public Set<String> getThisStreams() {
return delegate.getThisStreams();
}
/**
* Gets the index of this task id in getComponentTasks(getThisComponentId()).
* An example use case for this method is determining which task
* accesses which resource in a distributed resource to ensure an even distribution.
*/
public int getThisTaskIndex() {
return delegate.getThisTaskIndex();
}
/*
* Gets the declared inputs to this component.
*
* @return A map from subscribed component/stream to the grouping subscribed with.
*/
/*
public Map<GlobalStreamId, Grouping> getThisSources() {
return getSources(getThisComponentId());
}
*/
/*
* Gets information about who is consuming the outputs of this component, and how.
*
* @return Map from stream id to component id to the Grouping used.
*/
/*
public Map<String, Map<String, Grouping>> getThisTargets() {
return getTargets(getThisComponentId());
}
*/
public void setTaskData(String name, Object data) {
delegate.setTaskData(name, data);
}
public Object getTaskData(String name) {
return delegate.getTaskData(name);
}
/*
public void setExecutorData(String name, Object data) {
_executorData.put(name, data);
}
public Object getExecutorData(String name) {
return _executorData.get(name);
}
*/
public void addTaskHook(ITaskHook newHook) {
Collection<org.apache.heron.api.hooks.ITaskHook> hooks = delegate.getHooks();
if (hooks == null) {
ITaskHookDelegate delegateHook = new ITaskHookDelegate();
delegateHook.addHook(newHook);
delegate.addTaskHook(delegateHook);
} else {
for (org.apache.heron.api.hooks.ITaskHook hook : hooks) {
if (hook instanceof ITaskHookDelegate) {
ITaskHookDelegate delegateHook = (ITaskHookDelegate) hook;
delegateHook.addHook(newHook);
return;
}
}
throw new RuntimeException("StormCompat taskHooks not setup properly");
}
}
public Collection<ITaskHook> getHooks() {
Collection<org.apache.heron.api.hooks.ITaskHook> hooks = delegate.getHooks();
if (hooks != null) {
for (org.apache.heron.api.hooks.ITaskHook hook : hooks) {
if (hook instanceof ITaskHookDelegate) {
return ((ITaskHookDelegate) hook).getHooks();
}
}
}
return null;
}
/*
* Register a IMetric instance.
* Storm will then call getValueAndReset on the metric every timeBucketSizeInSecs
* and the returned value is sent to all metrics consumers.
* You must call this during IBolt::prepare or ISpout::open.
* @return The IMetric argument unchanged.
*/
@SuppressWarnings("unchecked")
public <T extends IMetric> T registerMetric(String name, T metric, int timeBucketSizeInSecs) {
MetricDelegate d = new MetricDelegate(metric);
delegate.registerMetric(name, d, timeBucketSizeInSecs);
return metric;
}
/*
* Convenience method for registering ReducedMetric.
*/
@SuppressWarnings("rawtypes")
public ReducedMetric registerMetric(String name, IReducer reducer, int timeBucketSizeInSecs) {
return registerMetric(name, new ReducedMetric(reducer), timeBucketSizeInSecs);
}
/*
* Convenience method for registering CombinedMetric.
*/
@SuppressWarnings("rawtypes")
public CombinedMetric registerMetric(String name, ICombiner combiner, int timeBucketSizeInSecs) {
return registerMetric(name, new CombinedMetric(combiner), timeBucketSizeInSecs);
}
}