/**************************************************************************************
* Copyright (C) 2008 EsperTech, Inc. All rights reserved. *
* http://esper.codehaus.org *
* http://www.espertech.com *
* ---------------------------------------------------------------------------------- *
* The software in this package is published under the terms of the GPL license *
* a copy of which has been included with this distribution in the license.txt file. *
**************************************************************************************/
package com.espertech.esper.core.service;
import com.espertech.esper.client.*;
import com.espertech.esper.client.context.ContextPartitionSelector;
import com.espertech.esper.client.dataflow.EPDataFlowRuntime;
import com.espertech.esper.client.time.CurrentTimeEvent;
import com.espertech.esper.client.time.CurrentTimeSpanEvent;
import com.espertech.esper.client.time.TimerControlEvent;
import com.espertech.esper.client.time.TimerEvent;
import com.espertech.esper.client.util.EventRenderer;
import com.espertech.esper.collection.ArrayBackedCollection;
import com.espertech.esper.collection.DualWorkQueue;
import com.espertech.esper.collection.ThreadWorkQueue;
import com.espertech.esper.core.context.util.EPStatementAgentInstanceHandle;
import com.espertech.esper.core.context.util.EPStatementAgentInstanceHandleComparator;
import com.espertech.esper.core.start.EPPreparedExecuteMethod;
import com.espertech.esper.core.thread.*;
import com.espertech.esper.epl.annotation.AnnotationUtil;
import com.espertech.esper.epl.declexpr.ExprDeclaredNode;
import com.espertech.esper.epl.expression.ExprEvaluatorContext;
import com.espertech.esper.epl.expression.ExprNodeSubselectDeclaredDotVisitor;
import com.espertech.esper.epl.expression.ExprValidationException;
import com.espertech.esper.epl.metric.MetricReportingPath;
import com.espertech.esper.epl.script.AgentInstanceScriptContext;
import com.espertech.esper.epl.spec.SelectClauseStreamSelectorEnum;
import com.espertech.esper.epl.spec.StatementSpecCompiled;
import com.espertech.esper.epl.spec.StatementSpecRaw;
import com.espertech.esper.epl.spec.util.StatementSpecRawAnalyzer;
import com.espertech.esper.epl.variable.VariableReader;
import com.espertech.esper.event.util.EventRendererImpl;
import com.espertech.esper.filter.FilterHandle;
import com.espertech.esper.filter.FilterHandleCallback;
import com.espertech.esper.schedule.ScheduleHandle;
import com.espertech.esper.schedule.ScheduleHandleCallback;
import com.espertech.esper.schedule.SchedulingServiceSPI;
import com.espertech.esper.schedule.TimeProvider;
import com.espertech.esper.timer.TimerCallback;
import com.espertech.esper.util.ExecutionPathDebugLog;
import com.espertech.esper.util.MetricUtil;
import com.espertech.esper.util.ThreadLogUtil;
import com.espertech.esper.util.UuidGenerator;
import org.apache.commons.logging.Log;
import org.apache.commons.logging.LogFactory;
import org.w3c.dom.Node;
import java.lang.annotation.Annotation;
import java.net.URI;
import java.util.*;
import java.util.concurrent.atomic.AtomicLong;
/**
* Implements runtime interface. Also accepts timer callbacks for synchronizing time events with regular events
* sent in.
*/
public class EPRuntimeImpl implements EPRuntimeSPI, EPRuntimeEventSender, TimerCallback, InternalEventRouteDest
{
private EPServicesContext services;
private boolean isLatchStatementInsertStream;
private boolean isUsingExternalClocking;
private boolean isSubselectPreeval;
private boolean isPrioritized;
private volatile UnmatchedListener unmatchedListener;
private AtomicLong routedInternal;
private AtomicLong routedExternal;
private EventRenderer eventRenderer;
private ThreadLocal<Map<EPStatementAgentInstanceHandle, ArrayDeque<FilterHandleCallback>>> matchesPerStmtThreadLocal;
private ThreadLocal<Map<EPStatementAgentInstanceHandle, Object>> schedulePerStmtThreadLocal;
private InternalEventRouter internalEventRouter;
private ExprEvaluatorContext engineFilterAndDispatchTimeContext;
private ThreadWorkQueue threadWorkQueue;
private ThreadLocal<ArrayBackedCollection<FilterHandle>> matchesArrayThreadLocal = new ThreadLocal<ArrayBackedCollection<FilterHandle>>()
{
protected synchronized ArrayBackedCollection<FilterHandle> initialValue()
{
return new ArrayBackedCollection<FilterHandle>(100);
}
};
private ThreadLocal<ArrayBackedCollection<ScheduleHandle>> scheduleArrayThreadLocal = new ThreadLocal<ArrayBackedCollection<ScheduleHandle>>()
{
protected synchronized ArrayBackedCollection<ScheduleHandle> initialValue()
{
return new ArrayBackedCollection<ScheduleHandle>(100);
}
};
/**
* Constructor.
* @param services - references to services
*/
public EPRuntimeImpl(final EPServicesContext services)
{
this.services = services;
this.threadWorkQueue = new ThreadWorkQueue();
isLatchStatementInsertStream = this.services.getEngineSettingsService().getEngineSettings().getThreading().isInsertIntoDispatchPreserveOrder();
isUsingExternalClocking = !this.services.getEngineSettingsService().getEngineSettings().getThreading().isInternalTimerEnabled();
isSubselectPreeval = services.getEngineSettingsService().getEngineSettings().getExpression().isSelfSubselectPreeval();
isPrioritized = services.getEngineSettingsService().getEngineSettings().getExecution().isPrioritized();
routedInternal = new AtomicLong();
routedExternal = new AtomicLong();
engineFilterAndDispatchTimeContext = new ExprEvaluatorContext()
{
private ExpressionResultCacheService expressionResultCacheService = new ExpressionResultCacheService();
public TimeProvider getTimeProvider() {
return services.getSchedulingService();
}
public ExpressionResultCacheService getExpressionResultCacheService() {
return expressionResultCacheService;
}
public int getAgentInstanceId() {
return -1;
}
public EventBean getContextProperties() {
return null;
}
public AgentInstanceScriptContext getAgentInstanceScriptContext() {
return null;
}
public String getStatementName() {
return null;
}
public String getEngineURI() {
return null;
}
public String getStatementId() {
return null;
}
public StatementAgentInstanceLock getAgentInstanceLock() {
return null;
}
};
matchesPerStmtThreadLocal =
new ThreadLocal<Map<EPStatementAgentInstanceHandle, ArrayDeque<FilterHandleCallback>>>()
{
protected synchronized Map<EPStatementAgentInstanceHandle, ArrayDeque<FilterHandleCallback>> initialValue()
{
if (isPrioritized)
{
return new TreeMap<EPStatementAgentInstanceHandle, ArrayDeque<FilterHandleCallback>>(EPStatementAgentInstanceHandleComparator.INSTANCE);
}
else
{
return new HashMap<EPStatementAgentInstanceHandle, ArrayDeque<FilterHandleCallback>>(10000);
}
}
};
schedulePerStmtThreadLocal = new ThreadLocal<Map<EPStatementAgentInstanceHandle, Object>>()
{
protected synchronized Map<EPStatementAgentInstanceHandle, Object> initialValue()
{
if (isPrioritized)
{
return new TreeMap<EPStatementAgentInstanceHandle, Object>(EPStatementAgentInstanceHandleComparator.INSTANCE);
}
else
{
return new HashMap<EPStatementAgentInstanceHandle, Object>(10000);
}
}
};
services.getThreadingService().initThreading(services, this);
}
/**
* Sets the route for events to use
* @param internalEventRouter router
*/
public void setInternalEventRouter(InternalEventRouter internalEventRouter)
{
this.internalEventRouter = internalEventRouter;
}
public long getRoutedInternal()
{
return routedInternal.get();
}
public long getRoutedExternal()
{
return routedExternal.get();
}
public void timerCallback()
{
long msec = services.getTimeSource().getTimeMillis();
if ((ExecutionPathDebugLog.isDebugEnabled) && (log.isDebugEnabled() && (ExecutionPathDebugLog.isTimerDebugEnabled)))
{
log.debug(".timerCallback Evaluating scheduled callbacks, time is " + msec);
}
CurrentTimeEvent currentTimeEvent = new CurrentTimeEvent(msec);
sendEvent(currentTimeEvent);
}
public void sendEvent(Object theEvent) throws EPException
{
if (theEvent == null)
{
log.fatal(".sendEvent Null object supplied");
return;
}
if ((ExecutionPathDebugLog.isDebugEnabled) && (log.isDebugEnabled()))
{
if ((!(theEvent instanceof CurrentTimeEvent)) || (ExecutionPathDebugLog.isTimerDebugEnabled))
{
log.debug(".sendEvent Processing event " + theEvent);
}
}
// Process event
if ((ThreadingOption.isThreadingEnabled) && (services.getThreadingService().isInboundThreading()))
{
services.getThreadingService().submitInbound(new InboundUnitSendEvent(theEvent, this));
}
else
{
processEvent(theEvent);
}
}
public void sendEvent(org.w3c.dom.Node document) throws EPException
{
if (document == null)
{
log.fatal(".sendEvent Null object supplied");
return;
}
if ((ExecutionPathDebugLog.isDebugEnabled) && (log.isDebugEnabled()))
{
log.debug(".sendEvent Processing DOM node event " + document);
}
// Process event
if ((ThreadingOption.isThreadingEnabled) && (services.getThreadingService().isInboundThreading()))
{
services.getThreadingService().submitInbound(new InboundUnitSendDOM(document, services, this));
}
else
{
// Get it wrapped up, process event
EventBean eventBean = wrapEvent(document);
processEvent(eventBean);
}
}
public EventBean wrapEvent(Node node) {
return services.getEventAdapterService().adapterForDOM(node);
}
public void route(org.w3c.dom.Node document) throws EPException
{
if (document == null)
{
log.fatal(".sendEvent Null object supplied");
return;
}
if ((ExecutionPathDebugLog.isDebugEnabled) && (log.isDebugEnabled()))
{
log.debug(".sendEvent Processing DOM node event " + document);
}
// Get it wrapped up, process event
EventBean eventBean = services.getEventAdapterService().adapterForDOM(document);
threadWorkQueue.addBack(eventBean);
}
public void sendEvent(Map map, String mapEventTypeName) throws EPException
{
if (map == null)
{
throw new IllegalArgumentException("Invalid null event object");
}
if ((ExecutionPathDebugLog.isDebugEnabled) && (log.isDebugEnabled()))
{
log.debug(".sendMap Processing event " + map);
}
if ((ThreadingOption.isThreadingEnabled) && (services.getThreadingService().isInboundThreading()))
{
services.getThreadingService().submitInbound(new InboundUnitSendMap(map, mapEventTypeName, services, this));
}
else
{
// Process event
EventBean eventBean = wrapEvent(map, mapEventTypeName);
processWrappedEvent(eventBean);
}
}
public void sendEvent(Object[] propertyValues, String objectArrayEventTypeName) throws EPException
{
if (propertyValues == null)
{
throw new IllegalArgumentException("Invalid null event object");
}
if ((ExecutionPathDebugLog.isDebugEnabled) && (log.isDebugEnabled()))
{
log.debug(".sendMap Processing event " + Arrays.toString(propertyValues));
}
if ((ThreadingOption.isThreadingEnabled) && (services.getThreadingService().isInboundThreading()))
{
services.getThreadingService().submitInbound(new InboundUnitSendObjectArray(propertyValues, objectArrayEventTypeName, services, this));
}
else
{
// Process event
EventBean eventBean = wrapEvent(propertyValues, objectArrayEventTypeName);
processWrappedEvent(eventBean);
}
}
public EventBean wrapEvent(Map map, String eventTypeName) {
return services.getEventAdapterService().adapterForMap(map, eventTypeName);
}
public EventBean wrapEvent(Object[] objectArray, String eventTypeName) {
return services.getEventAdapterService().adapterForObjectArray(objectArray, eventTypeName);
}
public void route(Map map, String eventTypeName) throws EPException
{
if (map == null)
{
throw new IllegalArgumentException("Invalid null event object");
}
if ((ExecutionPathDebugLog.isDebugEnabled) && (log.isDebugEnabled()))
{
log.debug(".route Processing event " + map);
}
// Process event
EventBean theEvent = services.getEventAdapterService().adapterForMap(map, eventTypeName);
if (internalEventRouter.isHasPreprocessing())
{
theEvent = internalEventRouter.preprocess(theEvent,engineFilterAndDispatchTimeContext);
if (theEvent == null)
{
return;
}
}
threadWorkQueue.addBack(theEvent);
}
public void route(Object[] objectArray, String eventTypeName) throws EPException
{
if (objectArray == null)
{
throw new IllegalArgumentException("Invalid null event object");
}
if ((ExecutionPathDebugLog.isDebugEnabled) && (log.isDebugEnabled()))
{
log.debug(".route Processing event " + Arrays.toString(objectArray));
}
// Process event
EventBean theEvent = services.getEventAdapterService().adapterForObjectArray(objectArray, eventTypeName);
if (internalEventRouter.isHasPreprocessing())
{
theEvent = internalEventRouter.preprocess(theEvent,engineFilterAndDispatchTimeContext);
if (theEvent == null)
{
return;
}
}
threadWorkQueue.addBack(theEvent);
}
public long getNumEventsEvaluated()
{
return services.getFilterService().getNumEventsEvaluated();
}
public void resetStats() {
services.getFilterService().resetStats();
routedInternal.set(0);
routedExternal.set(0);
}
public void routeEventBean(EventBean theEvent)
{
threadWorkQueue.addBack(theEvent);
}
public void route(Object theEvent)
{
routedExternal.incrementAndGet();
if (internalEventRouter.isHasPreprocessing())
{
EventBean eventBean = services.getEventAdapterService().adapterForBean(theEvent);
theEvent = internalEventRouter.preprocess(eventBean,engineFilterAndDispatchTimeContext);
if (theEvent == null)
{
return;
}
}
threadWorkQueue.addBack(theEvent);
}
// Internal route of events via insert-into, holds a statement lock
public void route(EventBean theEvent, EPStatementHandle epStatementHandle, boolean addToFront)
{
routedInternal.incrementAndGet();
if (isLatchStatementInsertStream)
{
if (addToFront) {
Object latch = epStatementHandle.getInsertIntoFrontLatchFactory().newLatch(theEvent);
threadWorkQueue.addFront(latch);
}
else {
Object latch = epStatementHandle.getInsertIntoBackLatchFactory().newLatch(theEvent);
threadWorkQueue.addBack(latch);
}
}
else
{
if (addToFront) {
threadWorkQueue.addFront(theEvent);
}
else {
threadWorkQueue.addBack(theEvent);
}
}
}
/**
* Process an unwrapped event.
* @param theEvent to process.
*/
public void processEvent(Object theEvent)
{
if (theEvent instanceof TimerEvent)
{
processTimeEvent((TimerEvent) theEvent);
return;
}
EventBean eventBean;
if (theEvent instanceof EventBean)
{
eventBean = (EventBean) theEvent;
}
else
{
eventBean = wrapEvent(theEvent);
}
processWrappedEvent(eventBean);
}
public EventBean wrapEvent(Object theEvent) {
return services.getEventAdapterService().adapterForBean(theEvent);
}
public void processWrappedEvent(EventBean eventBean)
{
if (internalEventRouter.isHasPreprocessing())
{
eventBean = internalEventRouter.preprocess(eventBean, engineFilterAndDispatchTimeContext);
if (eventBean == null)
{
return;
}
}
// Acquire main processing lock which locks out statement management
services.getEventProcessingRWLock().acquireReadLock();
try
{
processMatches(eventBean);
}
catch (RuntimeException ex)
{
matchesArrayThreadLocal.get().clear();
throw new EPException(ex);
}
finally
{
services.getEventProcessingRWLock().releaseReadLock();
}
// Dispatch results to listeners
// Done outside of the read-lock to prevent lockups when listeners create statements
dispatch();
// Work off the event queue if any events accumulated in there via a route() or insert-into
processThreadWorkQueue();
}
private void processTimeEvent(TimerEvent theEvent)
{
if (theEvent instanceof TimerControlEvent)
{
TimerControlEvent timerControlEvent = (TimerControlEvent) theEvent;
if (timerControlEvent.getClockType() == TimerControlEvent.ClockType.CLOCK_INTERNAL)
{
// Start internal clock which supplies CurrentTimeEvent events every 100ms
// This may be done without delay thus the write lock indeed must be reentrant.
services.getTimerService().startInternalClock();
isUsingExternalClocking = false;
}
else
{
// Stop internal clock, for unit testing and for external clocking
services.getTimerService().stopInternalClock(true);
isUsingExternalClocking = true;
}
return;
}
if (theEvent instanceof CurrentTimeEvent) {
CurrentTimeEvent current = (CurrentTimeEvent) theEvent;
long currentTime = current.getTimeInMillis();
// Evaluation of all time events is protected from statement management
if ((ExecutionPathDebugLog.isDebugEnabled) && (log.isDebugEnabled()) && (ExecutionPathDebugLog.isTimerDebugEnabled))
{
log.debug(".processTimeEvent Setting time and evaluating schedules for time " + currentTime);
}
if (isUsingExternalClocking && (currentTime == services.getSchedulingService().getTime()))
{
if (log.isWarnEnabled())
{
log.warn("Duplicate time event received for currentTime " + currentTime);
}
}
services.getSchedulingService().setTime(currentTime);
if (MetricReportingPath.isMetricsEnabled)
{
services.getMetricsReportingService().processTimeEvent(currentTime);
}
processSchedule();
// Let listeners know of results
dispatch();
// Work off the event queue if any events accumulated in there via a route()
processThreadWorkQueue();
return;
}
// handle time span
CurrentTimeSpanEvent span = (CurrentTimeSpanEvent) theEvent;
long targetTime = span.getTargetTimeInMillis();
long currentTime = services.getSchedulingService().getTime();
Long optionalResolution = span.getOptionalResolution();
if (isUsingExternalClocking && (targetTime < currentTime))
{
if (log.isWarnEnabled())
{
log.warn("Past or current time event received for currentTime " + targetTime);
}
}
// Evaluation of all time events is protected from statement management
if ((ExecutionPathDebugLog.isDebugEnabled) && (log.isDebugEnabled()) && (ExecutionPathDebugLog.isTimerDebugEnabled))
{
log.debug(".processTimeEvent Setting time span and evaluating schedules for time " + targetTime + " optional resolution " + span.getOptionalResolution());
}
while(currentTime < targetTime) {
if ((optionalResolution != null) && (optionalResolution > 0)) {
currentTime += optionalResolution;
}
else {
Long nearest = services.getSchedulingService().getNearestTimeHandle();
if (nearest == null) {
currentTime = targetTime;
}
else {
currentTime = nearest;
}
}
if (currentTime > targetTime) {
currentTime = targetTime;
}
// Evaluation of all time events is protected from statement management
if ((ExecutionPathDebugLog.isDebugEnabled) && (log.isDebugEnabled()) && (ExecutionPathDebugLog.isTimerDebugEnabled))
{
log.debug(".processTimeEvent Setting time and evaluating schedules for time " + currentTime);
}
services.getSchedulingService().setTime(currentTime);
if (MetricReportingPath.isMetricsEnabled)
{
services.getMetricsReportingService().processTimeEvent(currentTime);
}
processSchedule();
// Let listeners know of results
dispatch();
// Work off the event queue if any events accumulated in there via a route()
processThreadWorkQueue();
}
}
private void processSchedule()
{
ArrayBackedCollection<ScheduleHandle> handles = scheduleArrayThreadLocal.get();
// Evaluation of schedules is protected by an optional scheduling service lock and then the engine lock
// We want to stay in this order for allowing the engine lock as a second-order lock to the
// services own lock, if it has one.
services.getEventProcessingRWLock().acquireReadLock();
try
{
services.getSchedulingService().evaluate(handles);
}
finally
{
services.getEventProcessingRWLock().releaseReadLock();
}
services.getEventProcessingRWLock().acquireReadLock();
try
{
processScheduleHandles(handles);
}
catch (RuntimeException ex)
{
handles.clear();
throw ex;
}
finally
{
services.getEventProcessingRWLock().releaseReadLock();
}
}
private void processScheduleHandles(ArrayBackedCollection<ScheduleHandle> handles)
{
if (ThreadLogUtil.ENABLED_TRACE)
{
ThreadLogUtil.trace("Found schedules for", handles.size());
}
if (handles.size() == 0)
{
return;
}
// handle 1 result separatly for performance reasons
if (handles.size() == 1)
{
Object[] handleArray = handles.getArray();
EPStatementHandleCallback handle = (EPStatementHandleCallback) handleArray[0];
if ((MetricReportingPath.isMetricsEnabled) && (handle.getAgentInstanceHandle().getStatementHandle().getMetricsHandle().isEnabled()))
{
long cpuTimeBefore = MetricUtil.getCPUCurrentThread();
long wallTimeBefore = MetricUtil.getWall();
processStatementScheduleSingle(handle, services, engineFilterAndDispatchTimeContext);
long wallTimeAfter = MetricUtil.getWall();
long cpuTimeAfter = MetricUtil.getCPUCurrentThread();
long deltaCPU = cpuTimeAfter - cpuTimeBefore;
long deltaWall = wallTimeAfter - wallTimeBefore;
services.getMetricsReportingService().accountTime(handle.getAgentInstanceHandle().getStatementHandle().getMetricsHandle(), deltaCPU, deltaWall, 1);
}
else
{
if ((ThreadingOption.isThreadingEnabled) && (services.getThreadingService().isTimerThreading()))
{
services.getThreadingService().submitTimerWork(new TimerUnitSingle(services, this, handle, this.engineFilterAndDispatchTimeContext));
}
else
{
processStatementScheduleSingle(handle, services, engineFilterAndDispatchTimeContext);
}
}
handles.clear();
return;
}
Object[] matchArray = handles.getArray();
int entryCount = handles.size();
// sort multiple matches for the event into statements
Map<EPStatementAgentInstanceHandle, Object> stmtCallbacks = schedulePerStmtThreadLocal.get();
stmtCallbacks.clear();
for (int i = 0; i < entryCount; i++) // need to use the size of the collection
{
EPStatementHandleCallback handleCallback = (EPStatementHandleCallback) matchArray[i];
EPStatementAgentInstanceHandle handle = handleCallback.getAgentInstanceHandle();
ScheduleHandleCallback callback = handleCallback.getScheduleCallback();
Object entry = stmtCallbacks.get(handle);
// This statement has not been encountered before
if (entry == null)
{
stmtCallbacks.put(handle, callback);
continue;
}
// This statement has been encountered once before
if (entry instanceof ScheduleHandleCallback)
{
ScheduleHandleCallback existingCallback = (ScheduleHandleCallback) entry;
ArrayDeque<ScheduleHandleCallback> entries = new ArrayDeque<ScheduleHandleCallback>();
entries.add(existingCallback);
entries.add(callback);
stmtCallbacks.put(handle, entries);
continue;
}
// This statement has been encountered more then once before
ArrayDeque<ScheduleHandleCallback> entries = (ArrayDeque<ScheduleHandleCallback>) entry;
entries.add(callback);
}
handles.clear();
for (Map.Entry<EPStatementAgentInstanceHandle, Object> entry : stmtCallbacks.entrySet())
{
EPStatementAgentInstanceHandle handle = entry.getKey();
Object callbackObject = entry.getValue();
if ((MetricReportingPath.isMetricsEnabled) && (handle.getStatementHandle().getMetricsHandle().isEnabled()))
{
long cpuTimeBefore = MetricUtil.getCPUCurrentThread();
long wallTimeBefore = MetricUtil.getWall();
processStatementScheduleMultiple(handle, callbackObject, services, this.engineFilterAndDispatchTimeContext);
long wallTimeAfter = MetricUtil.getWall();
long cpuTimeAfter = MetricUtil.getCPUCurrentThread();
long deltaCPU = cpuTimeAfter - cpuTimeBefore;
long deltaWall = wallTimeAfter - wallTimeBefore;
int numInput = (callbackObject instanceof Collection) ? ((Collection) callbackObject).size() : 1;
services.getMetricsReportingService().accountTime(handle.getStatementHandle().getMetricsHandle(), deltaCPU, deltaWall, numInput);
}
else
{
if ((ThreadingOption.isThreadingEnabled) && (services.getThreadingService().isTimerThreading()))
{
services.getThreadingService().submitTimerWork(new TimerUnitMultiple(services, this, handle, callbackObject, this.engineFilterAndDispatchTimeContext));
}
else
{
processStatementScheduleMultiple(handle, callbackObject, services, this.engineFilterAndDispatchTimeContext);
}
}
if ((isPrioritized) && (handle.isPreemptive()))
{
break;
}
}
}
/**
* Works off the thread's work queue.
*/
public void processThreadWorkQueue()
{
DualWorkQueue queues = threadWorkQueue.getThreadQueue();
if (queues.getFrontQueue().isEmpty()) {
boolean haveDispatched = services.getNamedWindowService().dispatch(engineFilterAndDispatchTimeContext);
if (haveDispatched)
{
// Dispatch results to listeners
dispatch();
}
}
else {
Object item;
while ( (item = queues.getFrontQueue().poll()) != null)
{
if (item instanceof InsertIntoLatchSpin)
{
processThreadWorkQueueLatchedSpin((InsertIntoLatchSpin) item);
}
else if (item instanceof InsertIntoLatchWait)
{
processThreadWorkQueueLatchedWait((InsertIntoLatchWait) item);
}
else
{
processThreadWorkQueueUnlatched(item);
}
boolean haveDispatched = services.getNamedWindowService().dispatch(engineFilterAndDispatchTimeContext);
if (haveDispatched)
{
dispatch();
}
}
}
Object item;
while ( (item = queues.getBackQueue().poll()) != null)
{
if (item instanceof InsertIntoLatchSpin)
{
processThreadWorkQueueLatchedSpin((InsertIntoLatchSpin) item);
}
else if (item instanceof InsertIntoLatchWait)
{
processThreadWorkQueueLatchedWait((InsertIntoLatchWait) item);
}
else
{
processThreadWorkQueueUnlatched(item);
}
boolean haveDispatched = services.getNamedWindowService().dispatch(engineFilterAndDispatchTimeContext);
if (haveDispatched)
{
dispatch();
}
if (!queues.getFrontQueue().isEmpty()) {
processThreadWorkQueue();
}
}
}
private void processThreadWorkQueueLatchedWait(InsertIntoLatchWait insertIntoLatch)
{
// wait for the latch to complete
EventBean eventBean = insertIntoLatch.await();
services.getEventProcessingRWLock().acquireReadLock();
try
{
processMatches(eventBean);
}
catch (RuntimeException ex)
{
matchesArrayThreadLocal.get().clear();
throw ex;
}
finally
{
insertIntoLatch.done();
services.getEventProcessingRWLock().releaseReadLock();
}
dispatch();
}
private void processThreadWorkQueueLatchedSpin(InsertIntoLatchSpin insertIntoLatch)
{
// wait for the latch to complete
EventBean eventBean = insertIntoLatch.await();
services.getEventProcessingRWLock().acquireReadLock();
try
{
processMatches(eventBean);
}
catch (RuntimeException ex)
{
matchesArrayThreadLocal.get().clear();
throw ex;
}
finally
{
insertIntoLatch.done();
services.getEventProcessingRWLock().releaseReadLock();
}
dispatch();
}
private void processThreadWorkQueueUnlatched(Object item)
{
EventBean eventBean;
if (item instanceof EventBean)
{
eventBean = (EventBean) item;
}
else
{
eventBean = services.getEventAdapterService().adapterForBean(item);
}
services.getEventProcessingRWLock().acquireReadLock();
try
{
processMatches(eventBean);
}
catch (RuntimeException ex)
{
matchesArrayThreadLocal.get().clear();
throw ex;
}
finally
{
services.getEventProcessingRWLock().releaseReadLock();
}
dispatch();
}
private void processMatches(EventBean theEvent)
{
// get matching filters
ArrayBackedCollection<FilterHandle> matches = matchesArrayThreadLocal.get();
long version = services.getFilterService().evaluate(theEvent, matches);
if (ThreadLogUtil.ENABLED_TRACE)
{
ThreadLogUtil.trace("Found matches for underlying ", matches.size(), theEvent.getUnderlying());
}
if (matches.size() == 0)
{
if (unmatchedListener != null)
{
services.getEventProcessingRWLock().releaseReadLock(); // Allow listener to create new statements
try {
unmatchedListener.update(theEvent);
}
catch (Throwable t) {
log.error("Exception thrown by unmatched listener: " + t.getMessage(), t);
}
finally {
// acquire read lock for release by caller
services.getEventProcessingRWLock().acquireReadLock();
}
}
return;
}
Map<EPStatementAgentInstanceHandle, ArrayDeque<FilterHandleCallback>> stmtCallbacks = matchesPerStmtThreadLocal.get();
Object[] matchArray = matches.getArray();
int entryCount = matches.size();
for (int i = 0; i < entryCount; i++)
{
EPStatementHandleCallback handleCallback = (EPStatementHandleCallback) matchArray[i];
EPStatementAgentInstanceHandle handle = handleCallback.getAgentInstanceHandle();
// Self-joins require that the internal dispatch happens after all streams are evaluated.
// Priority or preemptive settings also require special ordering.
if (handle.isCanSelfJoin() || isPrioritized)
{
ArrayDeque<FilterHandleCallback> callbacks = stmtCallbacks.get(handle);
if (callbacks == null)
{
callbacks = new ArrayDeque<FilterHandleCallback>();
stmtCallbacks.put(handle, callbacks);
}
callbacks.add(handleCallback.getFilterCallback());
continue;
}
if ((MetricReportingPath.isMetricsEnabled) && (handle.getStatementHandle().getMetricsHandle().isEnabled()))
{
long cpuTimeBefore = MetricUtil.getCPUCurrentThread();
long wallTimeBefore = MetricUtil.getWall();
processStatementFilterSingle(handle, handleCallback, theEvent, version);
long wallTimeAfter = MetricUtil.getWall();
long cpuTimeAfter = MetricUtil.getCPUCurrentThread();
long deltaCPU = cpuTimeAfter - cpuTimeBefore;
long deltaWall = wallTimeAfter - wallTimeBefore;
services.getMetricsReportingService().accountTime(handle.getStatementHandle().getMetricsHandle(), deltaCPU, deltaWall, 1);
}
else
{
if ((ThreadingOption.isThreadingEnabled) && (services.getThreadingService().isRouteThreading()))
{
services.getThreadingService().submitRoute(new RouteUnitSingle(this, handleCallback, theEvent, version));
}
else
{
processStatementFilterSingle(handle, handleCallback, theEvent, version);
}
}
}
matches.clear();
if (stmtCallbacks.isEmpty())
{
return;
}
for (Map.Entry<EPStatementAgentInstanceHandle, ArrayDeque<FilterHandleCallback>> entry : stmtCallbacks.entrySet())
{
EPStatementAgentInstanceHandle handle = entry.getKey();
ArrayDeque<FilterHandleCallback> callbackList = entry.getValue();
if ((MetricReportingPath.isMetricsEnabled) && (handle.getStatementHandle().getMetricsHandle().isEnabled()))
{
long cpuTimeBefore = MetricUtil.getCPUCurrentThread();
long wallTimeBefore = MetricUtil.getWall();
processStatementFilterMultiple(handle, callbackList, theEvent, version);
long wallTimeAfter = MetricUtil.getWall();
long cpuTimeAfter = MetricUtil.getCPUCurrentThread();
long deltaCPU = cpuTimeAfter - cpuTimeBefore;
long deltaWall = wallTimeAfter - wallTimeBefore;
services.getMetricsReportingService().accountTime(handle.getStatementHandle().getMetricsHandle(), deltaCPU, deltaWall, callbackList.size());
}
else
{
if ((ThreadingOption.isThreadingEnabled) && (services.getThreadingService().isRouteThreading()))
{
services.getThreadingService().submitRoute(new RouteUnitMultiple(this, callbackList, theEvent, handle, version));
}
else
{
processStatementFilterMultiple(handle, callbackList, theEvent, version);
}
if ((isPrioritized) && (handle.isPreemptive()))
{
break;
}
}
}
stmtCallbacks.clear();
}
/**
* Processing multiple schedule matches for a statement.
* @param handle statement handle
* @param callbackObject object containing matches
* @param services engine services
* @param exprEvaluatorContext context for expression evaluatiom
*/
public static void processStatementScheduleMultiple(EPStatementAgentInstanceHandle handle, Object callbackObject, EPServicesContext services, ExprEvaluatorContext exprEvaluatorContext)
{
handle.getStatementAgentInstanceLock().acquireWriteLock(services.getStatementLockFactory());
try
{
if (!handle.isDestroyed()) {
if (handle.isHasVariables())
{
services.getVariableService().setLocalVersion();
}
if (callbackObject instanceof ArrayDeque)
{
ArrayDeque<ScheduleHandleCallback> callbackList = (ArrayDeque<ScheduleHandleCallback>) callbackObject;
for (ScheduleHandleCallback callback : callbackList)
{
callback.scheduledTrigger(services.getExtensionServicesContext());
}
}
else
{
ScheduleHandleCallback callback = (ScheduleHandleCallback) callbackObject;
callback.scheduledTrigger(services.getExtensionServicesContext());
}
// internal join processing, if applicable
handle.internalDispatch(exprEvaluatorContext);
}
}
catch (RuntimeException ex) {
services.getExceptionHandlingService().handleException(ex, handle);
}
finally
{
handle.getStatementAgentInstanceLock().releaseWriteLock(services.getStatementLockFactory());
}
}
/**
* Processing single schedule matche for a statement.
* @param handle statement handle
* @param services engine services
* @param exprEvaluatorContext context for expression evaluatiom
*/
public static void processStatementScheduleSingle(EPStatementHandleCallback handle, EPServicesContext services,ExprEvaluatorContext exprEvaluatorContext)
{
StatementAgentInstanceLock statementLock = handle.getAgentInstanceHandle().getStatementAgentInstanceLock();
statementLock.acquireWriteLock(services.getStatementLockFactory());
try
{
if (!handle.getAgentInstanceHandle().isDestroyed()) {
if (handle.getAgentInstanceHandle().isHasVariables()) {
services.getVariableService().setLocalVersion();
}
handle.getScheduleCallback().scheduledTrigger(services.getExtensionServicesContext());
handle.getAgentInstanceHandle().internalDispatch(exprEvaluatorContext);
}
}
catch (RuntimeException ex) {
services.getExceptionHandlingService().handleException(ex, handle.getAgentInstanceHandle());
}
finally
{
handle.getAgentInstanceHandle().getStatementAgentInstanceLock().releaseWriteLock(services.getStatementLockFactory());
}
}
/**
* Processing multiple filter matches for a statement.
* @param handle statement handle
* @param callbackList object containing callbacks
* @param theEvent to process
* @param version filter version
*/
public void processStatementFilterMultiple(EPStatementAgentInstanceHandle handle, ArrayDeque<FilterHandleCallback> callbackList, EventBean theEvent, long version)
{
handle.getStatementAgentInstanceLock().acquireWriteLock(services.getStatementLockFactory());
try
{
if (handle.isHasVariables())
{
services.getVariableService().setLocalVersion();
}
if (!handle.isCurrentFilter(version)) {
if (handle.getFilterFaultHandler() != null) {
handle.getFilterFaultHandler().handleFilterFault(theEvent, version);
}
callbackList.clear();
ArrayDeque<FilterHandle> callbackListNew = getCallbackList(theEvent, handle.getStatementId());
for (FilterHandle callback : callbackListNew)
{
EPStatementHandleCallback handleCallbackFilter = (EPStatementHandleCallback) callback;
callbackList.add(handleCallbackFilter.getFilterCallback());
}
}
if (isSubselectPreeval)
{
// sub-selects always go first
for (FilterHandleCallback callback : callbackList)
{
if (callback.isSubSelect())
{
callback.matchFound(theEvent, callbackList);
}
}
for (FilterHandleCallback callback : callbackList)
{
if (!callback.isSubSelect())
{
callback.matchFound(theEvent, callbackList);
}
}
}
else
{
// sub-selects always go last
for (FilterHandleCallback callback : callbackList)
{
if (!callback.isSubSelect())
{
callback.matchFound(theEvent, callbackList);
}
}
for (FilterHandleCallback callback : callbackList)
{
if (callback.isSubSelect())
{
callback.matchFound(theEvent, callbackList);
}
}
}
// internal join processing, if applicable
handle.internalDispatch(this.engineFilterAndDispatchTimeContext);
}
catch (RuntimeException ex) {
services.getExceptionHandlingService().handleException(ex, handle);
}
finally
{
handle.getStatementAgentInstanceLock().releaseWriteLock(services.getStatementLockFactory());
}
}
private ArrayDeque<FilterHandle> getCallbackList(EventBean theEvent, String statementId) {
ArrayDeque<FilterHandle> callbacks = new ArrayDeque<FilterHandle>();
services.getFilterService().evaluate(theEvent, callbacks, statementId);
return callbacks;
}
/**
* Process a single match.
* @param handle statement
* @param handleCallback callback
* @param theEvent event to indicate
* @param version filter version
*/
public void processStatementFilterSingle(EPStatementAgentInstanceHandle handle, EPStatementHandleCallback handleCallback, EventBean theEvent, long version)
{
handle.getStatementAgentInstanceLock().acquireWriteLock(services.getStatementLockFactory());
try
{
if (handle.isHasVariables())
{
services.getVariableService().setLocalVersion();
}
if (!handle.isCurrentFilter(version)) {
if (handle.getFilterFaultHandler() != null) {
handle.getFilterFaultHandler().handleFilterFault(theEvent, version);
}
ArrayDeque<FilterHandle> callbackList = getCallbackList(theEvent, handle.getStatementId());
for (FilterHandle callback : callbackList)
{
EPStatementHandleCallback handleCallbackFilter = (EPStatementHandleCallback) callback;
handleCallbackFilter.getFilterCallback().matchFound(theEvent, null);
}
}
else {
handleCallback.getFilterCallback().matchFound(theEvent, null);
}
// internal join processing, if applicable
handle.internalDispatch(engineFilterAndDispatchTimeContext);
}
catch (RuntimeException ex) {
services.getExceptionHandlingService().handleException(ex, handle);
}
finally
{
handleCallback.getAgentInstanceHandle().getStatementAgentInstanceLock().releaseWriteLock(services.getStatementLockFactory());
}
}
/**
* Dispatch events.
*/
public void dispatch()
{
try
{
services.getDispatchService().dispatch();
}
catch (RuntimeException ex)
{
throw new EPException(ex);
}
}
/**
* Destroy for destroying an engine instance: sets references to null and clears thread-locals
*/
public void destroy()
{
services = null;
if (matchesArrayThreadLocal != null) {
matchesArrayThreadLocal.remove();
}
if (matchesPerStmtThreadLocal != null) {
matchesPerStmtThreadLocal.remove();
}
if (scheduleArrayThreadLocal != null) {
scheduleArrayThreadLocal.remove();
}
if (schedulePerStmtThreadLocal != null) {
schedulePerStmtThreadLocal.remove();
}
matchesArrayThreadLocal = null;
matchesPerStmtThreadLocal = null;
scheduleArrayThreadLocal = null;
schedulePerStmtThreadLocal = null;
}
public void initialize() {
matchesArrayThreadLocal = new ThreadLocal<ArrayBackedCollection<FilterHandle>>()
{
protected synchronized ArrayBackedCollection<FilterHandle> initialValue()
{
return new ArrayBackedCollection<FilterHandle>(100);
}
};
scheduleArrayThreadLocal = new ThreadLocal<ArrayBackedCollection<ScheduleHandle>>()
{
protected synchronized ArrayBackedCollection<ScheduleHandle> initialValue()
{
return new ArrayBackedCollection<ScheduleHandle>(100);
}
};
threadWorkQueue = new ThreadWorkQueue();
}
public void setUnmatchedListener(UnmatchedListener listener)
{
this.unmatchedListener = listener;
}
public void setVariableValue(String variableName, Object variableValue) throws EPException
{
VariableReader reader = services.getVariableService().getReader(variableName);
if (reader == null) {
throw new VariableNotFoundException("Variable by name '" + variableName + "' has not been declared");
}
if (reader.isConstant()) {
throw new VariableConstantValueException("Variable by name '" + variableName + "' is declared as constant and may not be assigned a new value");
}
services.getVariableService().checkAndWrite(reader.getVariableNumber(), variableValue);
services.getVariableService().commit();
}
public void setVariableValue(Map<String, Object> variableValues) throws EPException
{
// verify
for (Map.Entry<String, Object> entry : variableValues.entrySet())
{
String variableName = entry.getKey();
VariableReader reader = services.getVariableService().getReader(variableName);
if (reader == null) {
throw new VariableNotFoundException("Variable by name '" + variableName + "' has not been declared");
}
if (reader.isConstant()) {
throw new VariableConstantValueException("Variable by name '" + variableName + "' is declared as constant and may not be assigned a new value");
}
}
// set values
for (Map.Entry<String, Object> entry : variableValues.entrySet())
{
String variableName = entry.getKey();
VariableReader reader = services.getVariableService().getReader(variableName);
try
{
services.getVariableService().checkAndWrite(reader.getVariableNumber(), entry.getValue());
}
catch (RuntimeException ex)
{
services.getVariableService().rollback();
throw ex;
}
}
services.getVariableService().commit();
}
public Object getVariableValue(String variableName) throws EPException
{
services.getVariableService().setLocalVersion();
VariableReader reader = services.getVariableService().getReader(variableName);
if (reader == null) {
throw new VariableNotFoundException("Variable by name '" + variableName + "' has not been declared");
}
Object value = reader.getValue();
if (value == null || reader.getEventType() == null) {
return value;
}
return ((EventBean) value).getUnderlying();
}
public Map<String, Object> getVariableValue(Set<String> variableNames) throws EPException
{
services.getVariableService().setLocalVersion();
Map<String, Object> values = new HashMap<String, Object>();
for (String variableName : variableNames)
{
VariableReader reader = services.getVariableService().getReader(variableName);
if (reader == null)
{
throw new VariableNotFoundException("Variable by name '" + variableName + "' has not been declared");
}
Object value = reader.getValue();
if (value != null && reader.getEventType() != null) {
value = ((EventBean) value).getUnderlying();
}
values.put(variableName, value);
}
return values;
}
public Map<String, Object> getVariableValueAll() throws EPException
{
services.getVariableService().setLocalVersion();
Map<String, VariableReader> variables = services.getVariableService().getVariables();
Map<String, Object> values = new HashMap<String, Object>();
for (Map.Entry<String, VariableReader> entry : variables.entrySet())
{
Object value = entry.getValue().getValue();
values.put(entry.getValue().getVariableName(), value);
}
return values;
}
public Map<String, Class> getVariableTypeAll()
{
Map<String, VariableReader> variables = services.getVariableService().getVariables();
Map<String, Class> values = new HashMap<String, Class>();
for (Map.Entry<String, VariableReader> entry : variables.entrySet())
{
Class type = entry.getValue().getType();
values.put(entry.getValue().getVariableName(), type);
}
return values;
}
public Class getVariableType(String variableName)
{
VariableReader reader = services.getVariableService().getReader(variableName);
if (reader == null)
{
return null;
}
return reader.getType();
}
public EPOnDemandQueryResult executeQuery(String epl, ContextPartitionSelector[] contextPartitionSelectors) {
if (contextPartitionSelectors == null) {
throw new IllegalArgumentException("No context partition selectors provided");
}
return executeQueryInternal(epl, contextPartitionSelectors);
}
public EPOnDemandQueryResult executeQuery(String epl) {
return executeQueryInternal(epl, null);
}
private EPOnDemandQueryResult executeQueryInternal(String epl, ContextPartitionSelector[] contextPartitionSelectors)
{
try
{
EPPreparedExecuteMethod executeMethod = getExecuteMethod(epl);
EPPreparedQueryResult result = executeMethod.execute(contextPartitionSelectors);
return new EPQueryResultImpl(result);
}
catch (EPStatementException ex)
{
throw ex;
}
catch (Throwable t)
{
String message = "Error executing statement: " + t.getMessage();
log.info(message, t);
throw new EPStatementException(message, epl);
}
}
public EPOnDemandPreparedQuery prepareQuery(String epl)
{
try
{
EPPreparedExecuteMethod startMethod = getExecuteMethod(epl);
return new EPPreparedQueryImpl(startMethod, epl);
}
catch (EPStatementException ex)
{
throw ex;
}
catch (Throwable t)
{
String message = "Error executing statement: " + t.getMessage();
log.debug(message, t);
throw new EPStatementException(message, epl);
}
}
private EPPreparedExecuteMethod getExecuteMethod(String epl)
{
String stmtName = UuidGenerator.generate();
String stmtId = UuidGenerator.generate();
try
{
StatementSpecRaw spec = EPAdministratorHelper.compileEPL(epl, epl, true, stmtName, services, SelectClauseStreamSelectorEnum.ISTREAM_ONLY);
Annotation[] annotations = AnnotationUtil.compileAnnotations(spec.getAnnotations(), services.getEngineImportService(), epl);
StatementContext statementContext = services.getStatementContextFactory().makeContext(stmtId, stmtName, epl, services, null, true, annotations, null, true, spec);
// walk subselects, declared expressions, dot-expressions
ExprNodeSubselectDeclaredDotVisitor visitor;
try {
visitor = StatementSpecRawAnalyzer.walkSubselectAndDeclaredDotExpr(spec);
}
catch (ExprValidationException ex) {
throw new EPStatementException(ex.getMessage(), epl);
}
StatementSpecCompiled compiledSpec = StatementLifecycleSvcImpl.compile(spec, epl, statementContext, true, annotations, visitor.getSubselects(), Collections.<ExprDeclaredNode>emptyList(), services);
return new EPPreparedExecuteMethod(compiledSpec, services, statementContext);
}
catch (EPStatementException ex)
{
throw ex;
}
catch (Throwable t)
{
String message = "Error executing statement: " + t.getMessage();
log.debug(message, t);
throw new EPStatementException(message, t, epl);
}
}
public EventSender getEventSender(String eventTypeName)
{
return services.getEventAdapterService().getStaticTypeEventSender(this, eventTypeName, services.getThreadingService());
}
public EventSender getEventSender(URI uri[]) throws EventTypeException
{
return services.getEventAdapterService().getDynamicTypeEventSender(this, uri, services.getThreadingService());
}
public EventRenderer getEventRenderer()
{
if (eventRenderer == null)
{
eventRenderer = new EventRendererImpl();
}
return eventRenderer;
}
public long getCurrentTime()
{
return services.getSchedulingService().getTime();
}
public Long getNextScheduledTime() {
return services.getSchedulingService().getNearestTimeHandle();
}
public Map<String, Long> getStatementNearestSchedules() {
return getStatementNearestSchedulesInternal(services.getSchedulingService(), services.getStatementLifecycleSvc());
}
protected static Map<String, Long> getStatementNearestSchedulesInternal(SchedulingServiceSPI schedulingService, StatementLifecycleSvc statementLifecycleSvc) {
Map<String, Long> schedulePerStatementId = schedulingService.getStatementSchedules();
Map<String, Long> result = new HashMap<String, Long>();
for (Map.Entry<String, Long> schedule : schedulePerStatementId.entrySet()) {
String stmtName = statementLifecycleSvc.getStatementNameById(schedule.getKey());
if (stmtName != null) {
result.put(stmtName, schedule.getValue());
}
}
return result;
}
public String getEngineURI() {
return services.getEngineURI();
}
public EPDataFlowRuntime getDataFlowRuntime() {
return services.getGraphService();
}
private static final Log log = LogFactory.getLog(EPRuntimeImpl.class);
}