use of org.ballerinalang.siddhi.core.query.output.ratelimit.OutputRateLimiter in project ballerina by ballerina-lang.
the class QueryRuntime method clone.
public QueryRuntime clone(String key, ConcurrentMap<String, StreamJunction> localStreamJunctionMap) {
LockWrapper lockWrapper = null;
if (synchronised) {
lockWrapper = new LockWrapper("");
lockWrapper.setLock(new ReentrantLock());
}
StreamRuntime clonedStreamRuntime = this.streamRuntime.clone(key);
QuerySelector clonedSelector = this.selector.clone(key);
OutputRateLimiter clonedOutputRateLimiter = outputRateLimiter.clone(key);
clonedOutputRateLimiter.init(siddhiAppContext, lockWrapper, queryId);
QueryRuntime queryRuntime = new QueryRuntime(query, siddhiAppContext, clonedStreamRuntime, clonedSelector, clonedOutputRateLimiter, outputCallback, this.metaComplexEvent, synchronised, this.queryId + key);
QueryParserHelper.initStreamRuntime(clonedStreamRuntime, metaComplexEvent, lockWrapper, queryId);
queryRuntime.setToLocalStream(toLocalStream);
if (!toLocalStream) {
queryRuntime.outputRateLimiter.setOutputCallback(outputCallback);
queryRuntime.outputCallback = this.outputCallback;
} else {
OutputCallback clonedQueryOutputCallback = OutputParser.constructOutputCallback(query.getOutputStream(), key, localStreamJunctionMap, outputStreamDefinition, siddhiAppContext, queryId);
queryRuntime.outputRateLimiter.setOutputCallback(clonedQueryOutputCallback);
queryRuntime.outputCallback = clonedQueryOutputCallback;
}
return queryRuntime;
}
use of org.ballerinalang.siddhi.core.query.output.ratelimit.OutputRateLimiter in project ballerina by ballerina-lang.
the class SingleStreamRuntime method clone.
@Override
public StreamRuntime clone(String key) {
ProcessStreamReceiver clonedProcessStreamReceiver = this.processStreamReceiver.clone(key);
EntryValveProcessor entryValveProcessor = null;
SchedulingProcessor schedulingProcessor;
Processor clonedProcessorChain = null;
if (processorChain != null) {
if (!(processorChain instanceof QuerySelector || processorChain instanceof OutputRateLimiter)) {
clonedProcessorChain = processorChain.cloneProcessor(key);
if (clonedProcessorChain instanceof EntryValveProcessor) {
entryValveProcessor = (EntryValveProcessor) clonedProcessorChain;
}
}
Processor processor = processorChain.getNextProcessor();
while (processor != null) {
if (!(processor instanceof QuerySelector || processor instanceof OutputRateLimiter)) {
Processor clonedProcessor = processor.cloneProcessor(key);
clonedProcessorChain.setToLast(clonedProcessor);
if (clonedProcessor instanceof EntryValveProcessor) {
entryValveProcessor = (EntryValveProcessor) clonedProcessor;
} else if (clonedProcessor instanceof SchedulingProcessor) {
schedulingProcessor = (SchedulingProcessor) clonedProcessor;
schedulingProcessor.setScheduler(((SchedulingProcessor) processor).getScheduler().clone(key, entryValveProcessor));
}
}
processor = processor.getNextProcessor();
}
}
return new SingleStreamRuntime(clonedProcessStreamReceiver, clonedProcessorChain, metaComplexEvent);
}
use of org.ballerinalang.siddhi.core.query.output.ratelimit.OutputRateLimiter in project ballerina by ballerina-lang.
the class QueryParser method parse.
/**
* Parse a query and return corresponding QueryRuntime.
*
* @param query query to be parsed.
* @param siddhiAppContext associated Siddhi app context.
* @param streamDefinitionMap keyvalue containing user given stream definitions.
* @param tableDefinitionMap keyvalue containing table definitions.
* @param windowDefinitionMap keyvalue containing window definition map.
* @param aggregationDefinitionMap keyvalue containing aggregation definition map.
* @param tableMap keyvalue containing event tables.
* @param aggregationMap keyvalue containing aggrigation runtimes.
* @param windowMap keyvalue containing event window map.
* @param lockSynchronizer Lock synchronizer for sync the lock across queries.
* @param queryIndex query index to identify unknown query by number
* @return queryRuntime
*/
public static QueryRuntime parse(Query query, SiddhiAppContext siddhiAppContext, Map<String, AbstractDefinition> streamDefinitionMap, Map<String, AbstractDefinition> tableDefinitionMap, Map<String, AbstractDefinition> windowDefinitionMap, Map<String, AbstractDefinition> aggregationDefinitionMap, Map<String, Table> tableMap, Map<String, AggregationRuntime> aggregationMap, Map<String, Window> windowMap, LockSynchronizer lockSynchronizer, String queryIndex) {
List<VariableExpressionExecutor> executors = new ArrayList<VariableExpressionExecutor>();
QueryRuntime queryRuntime;
Element nameElement = null;
LatencyTracker latencyTracker = null;
LockWrapper lockWrapper = null;
try {
nameElement = AnnotationHelper.getAnnotationElement("info", "name", query.getAnnotations());
String queryName = null;
if (nameElement != null) {
queryName = nameElement.getValue();
} else {
queryName = "query_" + queryIndex + "_" + UUID.randomUUID().toString();
}
latencyTracker = QueryParserHelper.createLatencyTracker(siddhiAppContext, queryName, SiddhiConstants.METRIC_INFIX_QUERIES, null);
OutputStream.OutputEventType outputEventType = query.getOutputStream().getOutputEventType();
boolean outputExpectsExpiredEvents = false;
if (outputEventType != OutputStream.OutputEventType.CURRENT_EVENTS) {
outputExpectsExpiredEvents = true;
}
StreamRuntime streamRuntime = InputStreamParser.parse(query.getInputStream(), siddhiAppContext, streamDefinitionMap, tableDefinitionMap, windowDefinitionMap, aggregationDefinitionMap, tableMap, windowMap, aggregationMap, executors, latencyTracker, outputExpectsExpiredEvents, queryName);
QuerySelector selector = SelectorParser.parse(query.getSelector(), query.getOutputStream(), siddhiAppContext, streamRuntime.getMetaComplexEvent(), tableMap, executors, queryName, SiddhiConstants.UNKNOWN_STATE);
boolean isWindow = query.getInputStream() instanceof JoinInputStream;
if (!isWindow && query.getInputStream() instanceof SingleInputStream) {
for (StreamHandler streamHandler : ((SingleInputStream) query.getInputStream()).getStreamHandlers()) {
if (streamHandler instanceof org.ballerinalang.siddhi.query.api.execution.query.input.handler.Window) {
isWindow = true;
break;
}
}
}
Element synchronizedElement = AnnotationHelper.getAnnotationElement("synchronized", null, query.getAnnotations());
if (synchronizedElement != null) {
if (!("false".equalsIgnoreCase(synchronizedElement.getValue()))) {
// Query LockWrapper does not need a unique
lockWrapper = new LockWrapper("");
// id since it will
// not be passed to the LockSynchronizer.
// LockWrapper does not have a default lock
lockWrapper.setLock(new ReentrantLock());
}
} else {
if (isWindow || !(streamRuntime instanceof SingleStreamRuntime)) {
if (streamRuntime instanceof JoinStreamRuntime) {
// If at least one Window is involved in the join, use the LockWrapper of that window
// for the query as well.
// If join is between two EventWindows, sync the locks of the LockWrapper of those windows
// and use either of them for query.
MetaStateEvent metaStateEvent = (MetaStateEvent) streamRuntime.getMetaComplexEvent();
MetaStreamEvent[] metaStreamEvents = metaStateEvent.getMetaStreamEvents();
if (metaStreamEvents[0].getEventType() == EventType.WINDOW && metaStreamEvents[1].getEventType() == EventType.WINDOW) {
LockWrapper leftLockWrapper = windowMap.get(metaStreamEvents[0].getLastInputDefinition().getId()).getLock();
LockWrapper rightLockWrapper = windowMap.get(metaStreamEvents[1].getLastInputDefinition().getId()).getLock();
if (!leftLockWrapper.equals(rightLockWrapper)) {
// Sync the lock across both wrappers
lockSynchronizer.sync(leftLockWrapper, rightLockWrapper);
}
// Can use either leftLockWrapper or rightLockWrapper since both of them will hold the
// same lock internally
// If either of their lock is updated later, the other lock also will be update by the
// LockSynchronizer.
lockWrapper = leftLockWrapper;
} else if (metaStreamEvents[0].getEventType() == EventType.WINDOW) {
// Share the same wrapper as the query lock wrapper
lockWrapper = windowMap.get(metaStreamEvents[0].getLastInputDefinition().getId()).getLock();
} else if (metaStreamEvents[1].getEventType() == EventType.WINDOW) {
// Share the same wrapper as the query lock wrapper
lockWrapper = windowMap.get(metaStreamEvents[1].getLastInputDefinition().getId()).getLock();
} else {
// Join does not contain any Window
// Query LockWrapper does not need a unique
lockWrapper = new LockWrapper("");
// id since
// it will not be passed to the LockSynchronizer.
// LockWrapper does not have a default lock
lockWrapper.setLock(new ReentrantLock());
}
} else {
lockWrapper = new LockWrapper("");
lockWrapper.setLock(new ReentrantLock());
}
}
}
OutputRateLimiter outputRateLimiter = OutputParser.constructOutputRateLimiter(query.getOutputStream().getId(), query.getOutputRate(), query.getSelector().getGroupByList().size() != 0, isWindow, siddhiAppContext.getScheduledExecutorService(), siddhiAppContext, queryName);
if (outputRateLimiter instanceof WrappedSnapshotOutputRateLimiter) {
selector.setBatchingEnabled(false);
}
siddhiAppContext.addEternalReferencedHolder(outputRateLimiter);
OutputCallback outputCallback = OutputParser.constructOutputCallback(query.getOutputStream(), streamRuntime.getMetaComplexEvent().getOutputStreamDefinition(), tableMap, windowMap, siddhiAppContext, !(streamRuntime instanceof SingleStreamRuntime), queryName);
QueryParserHelper.reduceMetaComplexEvent(streamRuntime.getMetaComplexEvent());
QueryParserHelper.updateVariablePosition(streamRuntime.getMetaComplexEvent(), executors);
QueryParserHelper.initStreamRuntime(streamRuntime, streamRuntime.getMetaComplexEvent(), lockWrapper, queryName);
selector.setEventPopulator(StateEventPopulatorFactory.constructEventPopulator(streamRuntime.getMetaComplexEvent()));
queryRuntime = new QueryRuntime(query, siddhiAppContext, streamRuntime, selector, outputRateLimiter, outputCallback, streamRuntime.getMetaComplexEvent(), lockWrapper != null, queryName);
if (outputRateLimiter instanceof WrappedSnapshotOutputRateLimiter) {
selector.setBatchingEnabled(false);
((WrappedSnapshotOutputRateLimiter) outputRateLimiter).init(streamRuntime.getMetaComplexEvent().getOutputStreamDefinition().getAttributeList().size(), selector.getAttributeProcessorList(), streamRuntime.getMetaComplexEvent());
}
outputRateLimiter.init(siddhiAppContext, lockWrapper, queryName);
} catch (DuplicateDefinitionException e) {
if (nameElement != null) {
throw new DuplicateDefinitionException(e.getMessageWithOutContext() + ", when creating query " + nameElement.getValue(), e, e.getQueryContextStartIndex(), e.getQueryContextEndIndex(), siddhiAppContext.getName(), siddhiAppContext.getSiddhiAppString());
} else {
throw new DuplicateDefinitionException(e.getMessage(), e, e.getQueryContextStartIndex(), e.getQueryContextEndIndex(), siddhiAppContext.getName(), siddhiAppContext.getSiddhiAppString());
}
} catch (Throwable t) {
ExceptionUtil.populateQueryContext(t, query, siddhiAppContext);
throw t;
}
return queryRuntime;
}
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