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本文主要研究一下flink的consecutive windowed operations
实例
代码语言:javascript复制DataStream<Integer> input = ...;
DataStream<Integer> resultsPerKey = input
.keyBy(<key selector>)
.window(TumblingEventTimeWindows.of(Time.seconds(5)))
.reduce(new Summer());
DataStream<Integer> globalResults = resultsPerKey
.windowAll(TumblingEventTimeWindows.of(Time.seconds(5)))
.process(new TopKWindowFunction());- 本实例首先根据key进行partition,然后再按指定的window对这些key进行计数,之后对该dataStream进行windowAll操作,其时间WindowAssigner与前面的相同,这样可以达到在同样的时间窗口内先partition汇总,再全局汇总的效果(
可以解决类似top-k elements的问题)
TimestampsAndPeriodicWatermarksOperator
flink-streaming-java_2.11-1.7.0-sources.jar!/org/apache/flink/streaming/runtime/operators/TimestampsAndPeriodicWatermarksOperator.java
代码语言:javascript复制public class TimestampsAndPeriodicWatermarksOperator<T>
extends AbstractUdfStreamOperator<T, AssignerWithPeriodicWatermarks<T>>
implements OneInputStreamOperator<T, T>, ProcessingTimeCallback {
private static final long serialVersionUID = 1L;
private transient long watermarkInterval;
private transient long currentWatermark;
public TimestampsAndPeriodicWatermarksOperator(AssignerWithPeriodicWatermarks<T> assigner) {
super(assigner);
this.chainingStrategy = ChainingStrategy.ALWAYS;
}
@Override
public void open() throws Exception {
super.open();
currentWatermark = Long.MIN_VALUE;
watermarkInterval = getExecutionConfig().getAutoWatermarkInterval();
if (watermarkInterval > 0) {
long now = getProcessingTimeService().getCurrentProcessingTime();
getProcessingTimeService().registerTimer(now watermarkInterval, this);
}
}
@Override
public void processElement(StreamRecord<T> element) throws Exception {
final long newTimestamp = userFunction.extractTimestamp(element.getValue(),
element.hasTimestamp() ? element.getTimestamp() : Long.MIN_VALUE);
output.collect(element.replace(element.getValue(), newTimestamp));
}
@Override
public void onProcessingTime(long timestamp) throws Exception {
// register next timer
Watermark newWatermark = userFunction.getCurrentWatermark();
if (newWatermark != null && newWatermark.getTimestamp() > currentWatermark) {
currentWatermark = newWatermark.getTimestamp();
// emit watermark
output.emitWatermark(newWatermark);
}
long now = getProcessingTimeService().getCurrentProcessingTime();
getProcessingTimeService().registerTimer(now watermarkInterval, this);
}
/**
* Override the base implementation to completely ignore watermarks propagated from
* upstream (we rely only on the {@link AssignerWithPeriodicWatermarks} to emit
* watermarks from here).
*/
@Override
public void processWatermark(Watermark mark) throws Exception {
// if we receive a Long.MAX_VALUE watermark we forward it since it is used
// to signal the end of input and to not block watermark progress downstream
if (mark.getTimestamp() == Long.MAX_VALUE && currentWatermark != Long.MAX_VALUE) {
currentWatermark = Long.MAX_VALUE;
output.emitWatermark(mark);
}
}
@Override
public void close() throws Exception {
super.close();
// emit a final watermark
Watermark newWatermark = userFunction.getCurrentWatermark();
if (newWatermark != null && newWatermark.getTimestamp() > currentWatermark) {
currentWatermark = newWatermark.getTimestamp();
// emit watermark
output.emitWatermark(newWatermark);
}
}
}- 假设assignTimestampsAndWatermarks使用的是AssignerWithPeriodicWatermarks类型的参数,那么创建的是TimestampsAndPeriodicWatermarksOperator;它在open的时候根据指定的watermarkInterval注册了一个延时任务
- 该延时任务会回调onProcessingTime方法,而onProcessingTime在这里则会调用AssignerWithPeriodicWatermarks的getCurrentWatermark方法获取watermark,然后重新注册新的延时任务,延时时间为getProcessingTimeService().getCurrentProcessingTime() watermarkInterval;这里的watermarkInterval即为env.getConfig().setAutoWatermarkInterval设置的值
- AssignerWithPeriodicWatermarks的getCurrentWatermark方法除了注册延时任务实现不断定时的效果外,还会在新的watermark值大于currentWatermark的条件下发射watermark
SystemProcessingTimeService
flink-streaming-java_2.11-1.7.0-sources.jar!/org/apache/flink/streaming/runtime/tasks/SystemProcessingTimeService.java
代码语言:javascript复制public class SystemProcessingTimeService extends ProcessingTimeService {
private static final Logger LOG = LoggerFactory.getLogger(SystemProcessingTimeService.class);
private static final int STATUS_ALIVE = 0;
private static final int STATUS_QUIESCED = 1;
private static final int STATUS_SHUTDOWN = 2;
// ------------------------------------------------------------------------
/** The containing task that owns this time service provider. */
private final AsyncExceptionHandler task;
/** The lock that timers acquire upon triggering. */
private final Object checkpointLock;
/** The executor service that schedules and calls the triggers of this task. */
private final ScheduledThreadPoolExecutor timerService;
private final AtomicInteger status;
public SystemProcessingTimeService(AsyncExceptionHandler failureHandler, Object checkpointLock) {
this(failureHandler, checkpointLock, null);
}
public SystemProcessingTimeService(
AsyncExceptionHandler task,
Object checkpointLock,
ThreadFactory threadFactory) {
this.task = checkNotNull(task);
this.checkpointLock = checkNotNull(checkpointLock);
this.status = new AtomicInteger(STATUS_ALIVE);
if (threadFactory == null) {
this.timerService = new ScheduledThreadPoolExecutor(1);
} else {
this.timerService = new ScheduledThreadPoolExecutor(1, threadFactory);
}
// tasks should be removed if the future is canceled
this.timerService.setRemoveOnCancelPolicy(true);
// make sure shutdown removes all pending tasks
this.timerService.setContinueExistingPeriodicTasksAfterShutdownPolicy(false);
this.timerService.setExecuteExistingDelayedTasksAfterShutdownPolicy(false);
}
@Override
public long getCurrentProcessingTime() {
return System.currentTimeMillis();
}
@Override
public ScheduledFuture<?> registerTimer(long timestamp, ProcessingTimeCallback target) {
// delay the firing of the timer by 1 ms to align the semantics with watermark. A watermark
// T says we won't see elements in the future with a timestamp smaller or equal to T.
// With processing time, we therefore need to delay firing the timer by one ms.
long delay = Math.max(timestamp - getCurrentProcessingTime(), 0) 1;
// we directly try to register the timer and only react to the status on exception
// that way we save unnecessary volatile accesses for each timer
try {
return timerService.schedule(
new TriggerTask(status, task, checkpointLock, target, timestamp), delay, TimeUnit.MILLISECONDS);
}
catch (RejectedExecutionException e) {
final int status = this.status.get();
if (status == STATUS_QUIESCED) {
return new NeverCompleteFuture(delay);
}
else if (status == STATUS_SHUTDOWN) {
throw new IllegalStateException("Timer service is shut down");
}
else {
// something else happened, so propagate the exception
throw e;
}
}
}
//......
}- SystemProcessingTimeService的registerTimer方法根据指定的timestamp注册了一个延时任务TriggerTask;timerService为JDK自带的ScheduledThreadPoolExecutor;TriggerTask的run方法会在service状态为STATUS_LIVE时,触发ProcessingTimeCallback(
这里为TimestampsAndPeriodicWatermarksOperator)的onProcessingTime方法
WindowOperator
flink-streaming-java_2.11-1.7.0-sources.jar!/org/apache/flink/streaming/runtime/operators/windowing/WindowOperator.java
代码语言:javascript复制@Internal
public class WindowOperator<K, IN, ACC, OUT, W extends Window>
extends AbstractUdfStreamOperator<OUT, InternalWindowFunction<ACC, OUT, K, W>>
implements OneInputStreamOperator<IN, OUT>, Triggerable<K, W> {
//......
@Override
public void processElement(StreamRecord<IN> element) throws Exception {
final Collection<W> elementWindows = windowAssigner.assignWindows(
element.getValue(), element.getTimestamp(), windowAssignerContext);
//if element is handled by none of assigned elementWindows
boolean isSkippedElement = true;
final K key = this.<K>getKeyedStateBackend().getCurrentKey();
if (windowAssigner instanceof MergingWindowAssigner) {
//......
} else {
for (W window: elementWindows) {
// drop if the window is already late
if (isWindowLate(window)) {
continue;
}
isSkippedElement = false;
windowState.setCurrentNamespace(window);
windowState.add(element.getValue());
triggerContext.key = key;
triggerContext.window = window;
TriggerResult triggerResult = triggerContext.onElement(element);
if (triggerResult.isFire()) {
ACC contents = windowState.get();
if (contents == null) {
continue;
}
emitWindowContents(window, contents);
}
if (triggerResult.isPurge()) {
windowState.clear();
}
registerCleanupTimer(window);
}
}
// side output input event if
// element not handled by any window
// late arriving tag has been set
// windowAssigner is event time and current timestamp allowed lateness no less than element timestamp
if (isSkippedElement && isElementLate(element)) {
if (lateDataOutputTag != null){
sideOutput(element);
} else {
this.numLateRecordsDropped.inc();
}
}
}
/**
* Emits the contents of the given window using the {@link InternalWindowFunction}.
*/
@SuppressWarnings("unchecked")
private void emitWindowContents(W window, ACC contents) throws Exception {
timestampedCollector.setAbsoluteTimestamp(window.maxTimestamp());
processContext.window = window;
userFunction.process(triggerContext.key, window, processContext, contents, timestampedCollector);
}
//......
}- WindowOperator的processElement方法会把element添加到windowState,这里为HeapAggregatingState,即在内存中累积,之后调用triggerContext.onElement方法(
里头使用的是trigger.onElement方法,这里的trigger为EventTimeTrigger)获取TriggerResult,如果需要fire,则会触发emitWindowContents,如果需要purge则会清空windowState;emitWindowContents则是调用userFunction.process执行用户定义的窗口操作
EventTimeTrigger
flink-streaming-java_2.11-1.7.0-sources.jar!/org/apache/flink/streaming/api/windowing/triggers/EventTimeTrigger.java
代码语言:javascript复制@PublicEvolving
public class EventTimeTrigger extends Trigger<Object, TimeWindow> {
private static final long serialVersionUID = 1L;
private EventTimeTrigger() {}
@Override
public TriggerResult onElement(Object element, long timestamp, TimeWindow window, TriggerContext ctx) throws Exception {
if (window.maxTimestamp() <= ctx.getCurrentWatermark()) {
// if the watermark is already past the window fire immediately
return TriggerResult.FIRE;
} else {
ctx.registerEventTimeTimer(window.maxTimestamp());
return TriggerResult.CONTINUE;
}
}
@Override
public TriggerResult onEventTime(long time, TimeWindow window, TriggerContext ctx) {
return time == window.maxTimestamp() ?
TriggerResult.FIRE :
TriggerResult.CONTINUE;
}
@Override
public TriggerResult onProcessingTime(long time, TimeWindow window, TriggerContext ctx) throws Exception {
return TriggerResult.CONTINUE;
}
@Override
public void clear(TimeWindow window, TriggerContext ctx) throws Exception {
ctx.deleteEventTimeTimer(window.maxTimestamp());
}
@Override
public boolean canMerge() {
return true;
}
@Override
public void onMerge(TimeWindow window,
OnMergeContext ctx) {
// only register a timer if the watermark is not yet past the end of the merged window
// this is in line with the logic in onElement(). If the watermark is past the end of
// the window onElement() will fire and setting a timer here would fire the window twice.
long windowMaxTimestamp = window.maxTimestamp();
if (windowMaxTimestamp > ctx.getCurrentWatermark()) {
ctx.registerEventTimeTimer(windowMaxTimestamp);
}
}
@Override
public String toString() {
return "EventTimeTrigger()";
}
public static EventTimeTrigger create() {
return new EventTimeTrigger();
}
}- EventTimeTrigger的onElement方法会判断,如果window.maxTimestamp() <= ctx.getCurrentWatermark()则会返回TriggerResult.FIRE,告知WindowOperator可以emitWindowContents
小结
- flink支持consecutive windowed operations,比如先根据key进行partition,然后再按指定的window对这些key进行计数,之后对该dataStream进行windowAll操作,其时间WindowAssigner与前面的相同,这样可以达到在同样的时间窗口内先partition汇总,再全局汇总的效果(
可以解决类似top-k elements的问题) - AssignerWithPeriodicWatermarks或者AssignerWithPunctuatedWatermarks它们有两个功能,一个是从element提取timestamp作为eventTime,一个就是发射watermark;由于element实际上不一定是严格按eventTime时间到来的,可能存在乱序,因而watermark的作用就是限制迟到的数据进入窗口,不让窗口无限等待迟到的可能属于该窗口的element,即告知窗口eventTime小于等于该watermark的元素可以认为都到达了(
窗口可以根据自己设定的时间范围,借助trigger判断是否可以关闭窗口然后开始对该窗口数据执行相关操作);对于consecutive windowed operations来说,上游的watermark会forward给下游的operations - Trigger的作用就是告知WindowOperator什么时候可以对关闭该窗口开始对该窗口数据执行相关操作(
返回TriggerResult.FIRE的情况下),对于EventTimeTrigger来说,其onElement方法的判断逻辑跟watermark相关,如果window.maxTimestamp() <= ctx.getCurrentWatermark()则会返回TriggerResult.FIRE
doc
- Consecutive windowed operations
