本文主要研究一下Elasticsearch的TimedRunnable

elasticsearch 时区设置(聊聊Elasticsearch的TimedRunnable)(1)

TimedRunnable

elasticsearch-7.0.1/server/src/main/java/org/elasticsearch/common/util/concurrent/TimedRunnable.java

class TimedRunnable extends AbstractRunnable implements WrappedRunnable { private final Runnable original; private final long creationTimeNanos; private long startTimeNanos; private long finishTimeNanos = -1; ​ TimedRunnable(final Runnable original) { this.original = original; this.creationTimeNanos = System.nanoTime(); } ​ @Override public void doRun() { try { startTimeNanos = System.nanoTime(); original.run(); } finally { finishTimeNanos = System.nanoTime(); } } ​ @Override public void onRejection(final Exception e) { if (original instanceof AbstractRunnable) { ((AbstractRunnable) original).onRejection(e); } } ​ @Override public void onAfter() { if (original instanceof AbstractRunnable) { ((AbstractRunnable) original).onAfter(); } } ​ @Override public void onFailure(final Exception e) { if (original instanceof AbstractRunnable) { ((AbstractRunnable) original).onFailure(e); } } ​ @Override public boolean isForceExecution() { return original instanceof AbstractRunnable && ((AbstractRunnable) original).isForceExecution(); } ​ /** * Return the time since this task was created until it finished running. * If the task is still running or has not yet been run, returns -1. */ long getTotalNanos() { if (finishTimeNanos == -1) { // There must have been an exception thrown, the total time is unknown (-1) return -1; } return Math.max(finishTimeNanos - creationTimeNanos, 1); } ​ /** * Return the time this task spent being run. * If the task is still running or has not yet been run, returns -1. */ long getTotalExecutionNanos() { if (startTimeNanos == -1 || finishTimeNanos == -1) { // There must have been an exception thrown, the total time is unknown (-1) return -1; } return Math.max(finishTimeNanos - startTimeNanos, 1); } ​ @Override public Runnable unwrap() { return original; } ​ }

实例

elasticsearch-7.0.1/server/src/main/java/org/elasticsearch/common/util/concurrent/QueueResizingEsThreadPoolExecutor.java

public final class QueueResizingEsThreadPoolExecutor extends EsThreadPoolExecutor { //...... ​ protected void afterExecute(Runnable r, Throwable t) { super.afterExecute(r, t); // A task has been completed, it has left the building. We should now be able to get the // total time as a combination of the time in the queue and time spent running the task. We // only want runnables that did not throw errors though, because they could be fast-failures // that throw off our timings, so only check when t is null. assert super.unwrap(r) instanceof TimedRunnable : "expected only TimedRunnables in queue"; final TimedRunnable timedRunnable = (TimedRunnable) super.unwrap(r); final long taskNanos = timedRunnable.getTotalNanos(); final long totalNanos = totalTaskNanos.addAndGet(taskNanos); ​ final long taskExecutionNanos = timedRunnable.getTotalExecutionNanos(); assert taskExecutionNanos >= 0 : "expected task to always take longer than 0 nanoseconds, got: " taskExecutionNanos; executionEWMA.addValue(taskExecutionNanos); ​ if (taskCount.incrementAndGet() == this.tasksPerFrame) { final long endTimeNs = System.nanoTime(); final long totalRuntime = endTimeNs - this.startNs; // Reset the start time for all tasks. At first glance this appears to need to be // volatile, since we are reading from a different thread when it is set, but it // is protected by the taskCount memory barrier. // See: https://docs.oracle.com/javase/8/docs/api/java/util/concurrent/atomic/package-summary.html startNs = endTimeNs; ​ // Calculate the new desired queue size try { final double lambda = calculateLambda(tasksPerFrame, Math.max(totalNanos, 1L)); final int desiredQueueSize = calculateL(lambda, targetedResponseTimeNanos); final int oldCapacity = workQueue.capacity(); ​ if (logger.isDebugEnabled()) { final long avgTaskTime = totalNanos / tasksPerFrame; logger.debug("[{}]: there were [{}] tasks in [{}], avg task time [{}], EWMA task execution [{}], " "[{} tasks/s], optimal queue is [{}], current capacity [{}]", getName(), tasksPerFrame, TimeValue.timeValueNanos(totalRuntime), TimeValue.timeValueNanos(avgTaskTime), TimeValue.timeValueNanos((long)executionEWMA.getAverage()), String.format(Locale.ROOT, "%.2f", lambda * TimeValue.timeValueSeconds(1).nanos()), desiredQueueSize, oldCapacity); } ​ // Adjust the queue size towards the desired capacity using an adjust of // QUEUE_ADJUSTMENT_AMOUNT (either up or down), keeping in mind the min and max // values the queue size can have. final int newCapacity = workQueue.adjustCapacity(desiredQueueSize, QUEUE_ADJUSTMENT_AMOUNT, minQueueSize, maxQueueSize); if (oldCapacity != newCapacity && logger.isDebugEnabled()) { logger.debug("adjusted [{}] queue size by [{}], old capacity: [{}], new capacity: [{}]", getName(), newCapacity > oldCapacity ? QUEUE_ADJUSTMENT_AMOUNT : -QUEUE_ADJUSTMENT_AMOUNT, oldCapacity, newCapacity); } } catch (ArithmeticException e) { // There was an integer overflow, so just log about it, rather than adjust the queue size logger.warn(() -> new ParameterizedMessage( "failed to calculate optimal queue size for [{}] thread pool, " "total frame time [{}ns], tasks [{}], task execution time [{}ns]", getName(), totalRuntime, tasksPerFrame, totalNanos), e); } finally { // Finally, decrement the task count and time back to their starting values. We // do this at the end so there is no concurrent adjustments happening. We also // decrement them instead of resetting them back to zero, as resetting them back // to zero causes operations that came in during the adjustment to be uncounted int tasks = taskCount.addAndGet(-this.tasksPerFrame); assert tasks >= 0 : "tasks should never be negative, got: " tasks; ​ if (tasks >= this.tasksPerFrame) { // Start over, because we can potentially reach a "never adjusting" state, // // consider the following: // - If the frame window is 10, and there are 10 tasks, then an adjustment will begin. (taskCount == 10) // - Prior to the adjustment being done, 15 more tasks come in, the taskCount is now 25 // - Adjustment happens and we decrement the tasks by 10, taskCount is now 15 // - Since taskCount will now be incremented forever, it will never be 10 again, // so there will be no further adjustments logger.debug( "[{}]: too many incoming tasks while queue size adjustment occurs, resetting measurements to 0", getName()); totalTaskNanos.getAndSet(1); taskCount.getAndSet(0); startNs = System.nanoTime(); } else { // Do a regular adjustment totalTaskNanos.addAndGet(-totalNanos); } } } } ​ //...... }

小结

TimedRunnable继承了AbstractRunnable,同时实现了WrappedRunnable接口;它在doRun方法里头记录了原始Runnable的startTimeNanos及finishTimeNanos;同时提供了getTotalExecutionNanos来返回该task的执行耗时

doc

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