org.jitsi.utils.concurrent.FakeScheduledExecutorService.kt Maven / Gradle / Ivy
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A set of basic utilities used in Jitsi projects
/*
* Copyright @ 2018 - present 8x8, Inc.
*
* Licensed 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.jitsi.utils.concurrent
import edu.umd.cs.findbugs.annotations.SuppressFBWarnings
import org.jitsi.utils.time.FakeClock
import java.time.Duration
import java.time.Instant
import java.util.concurrent.Callable
import java.util.concurrent.Delayed
import java.util.concurrent.Future
import java.util.concurrent.ScheduledExecutorService
import java.util.concurrent.ScheduledFuture
import java.util.concurrent.TimeUnit
/**
* A fake [ScheduledExecutorService] which gives control over when scheduled tasks are run without requiring a
* separate thread
*/
class FakeScheduledExecutorService(
val clock: FakeClock = FakeClock()
) : ScheduledExecutorService {
private var jobs = JobsTimeline()
override fun scheduleAtFixedRate(
command: Runnable,
initialDelay: Long,
period: Long,
unit: TimeUnit
): ScheduledFuture<*> {
val nextRunTime = clock.instant().plus(Duration.ofMillis(unit.toMillis(initialDelay)))
val job = FixedRateJob(command, nextRunTime, Duration.ofMillis(unit.toMillis(period)))
jobs.add(job)
return EmptyFuture { job.cancelled = true }
}
override fun schedule(command: Runnable, delay: Long, unit: TimeUnit): ScheduledFuture<*> {
// println("scheduling job with a delay of $delay $unit from time ${clock.instant()}")
val nextRunTime = clock.instant().plus(Duration.ofNanos(unit.toNanos(delay)))
val job = Job(command, nextRunTime)
jobs.add(job)
return EmptyFuture { job.cancelled = true }
}
override fun scheduleWithFixedDelay(
command: Runnable,
initialDelay: Long,
delay: Long,
unit: TimeUnit
): ScheduledFuture<*> {
val nextRunTime = clock.instant().plus(Duration.ofMillis(unit.toMillis(initialDelay)))
val job = FixedDelayJob(command, nextRunTime, Duration.ofMillis(unit.toMillis(delay)))
jobs.add(job)
return EmptyFuture { job.cancelled = true }
}
// Note that, when a job is cancelled, we don't remove it from the timeline, we just mark it
// as cancelled. We only want to reflect non-cancelled jobs in the count here, so we filter
// them
fun numPendingJobs(): Int = jobs.filter { !it.cancelled }.size
/**
* Run the next pending task and advance the clock to that time
*/
fun runOne() {
while (jobs.isNotEmpty() && jobs[0].cancelled) {
jobs.removeAt(0)
}
if (jobs.isNotEmpty()) {
val nextJob = jobs.removeAt(0)
if (clock.instant() < nextJob.nextRunTime) {
clock.setTime(nextJob.nextRunTime)
}
nextJob.run()
if (nextJob is RecurringJob) {
nextJob.updateNextRuntime(clock.instant())
jobs.add(nextJob)
}
}
}
/**
* Run pending tasks until [endTime], or until there are no pending tasks
* in the queue, advancing the clock with each task.
*/
fun runUntil(endTime: Instant) {
while (jobs.isNotEmpty() && clock.instant() <= endTime && jobs.first().nextRunTime <= endTime) {
runOne()
}
}
/**
* Runs all jobs that are due to run by the current time. This may include a single job multiple times if the
* time since the last run is longer than 2 times the job's period
*/
fun run() {
val now = clock.instant()
if (jobs.isNotEmpty()) {
val job = jobs.removeAt(0)
if (!job.cancelled) {
if (job.ready(now)) {
job.run()
if (job is RecurringJob) {
job.updateNextRuntime(now)
jobs.add(job)
}
run()
} else {
// The job wasn't ready yet, re-add it to the front of the queue
jobs.add(0, job)
}
}
}
}
override fun execute(command: Runnable) {
schedule(command, 0, TimeUnit.MILLISECONDS)
}
/* Methods required by ScheduledExecutorService, but not needed by our unit tests. */
override fun shutdown() = TODO("Not yet implemented")
override fun shutdownNow(): MutableList = TODO("Not yet implemented")
override fun isShutdown(): Boolean = TODO("Not yet implemented")
override fun isTerminated(): Boolean = TODO("Not yet implemented")
override fun awaitTermination(timeout: Long, unit: TimeUnit): Boolean = TODO("Not yet implemented")
override fun submit(task: Callable): Future = TODO("Not yet implemented")
override fun submit(task: Runnable, result: T): Future = TODO("Not yet implemented")
override fun submit(task: Runnable): Future<*> = TODO("Not yet implemented")
override fun invokeAll(tasks: MutableCollection>): MutableList> =
TODO("Not yet implemented")
override fun invokeAll(
tasks: MutableCollection>,
timeout: Long,
unit: TimeUnit
): MutableList> = TODO("Not yet implemented")
override fun invokeAny(tasks: MutableCollection>): T = TODO("Not yet implemented")
override fun invokeAny(tasks: MutableCollection>, timeout: Long, unit: TimeUnit): T =
TODO("Not yet implemented")
override fun schedule(callable: Callable, delay: Long, unit: TimeUnit): ScheduledFuture =
TODO("Not yet implemented")
}
/**
* Model a Job that is track in the [FakeScheduledExecutorService]
*/
internal open class Job(val command: Runnable, var nextRunTime: Instant) {
var cancelled = false
fun run() = command.run()
fun ready(now: Instant): Boolean = nextRunTime <= now
override fun toString(): String = with(StringBuffer()) {
append("next run time: $nextRunTime")
toString()
}
}
internal abstract class RecurringJob(command: Runnable, nextRunTime: Instant) : Job(command, nextRunTime) {
abstract fun updateNextRuntime(now: Instant)
}
internal class FixedRateJob(
command: Runnable,
nextRunTime: Instant,
val period: Duration
) : RecurringJob(command, nextRunTime) {
override fun updateNextRuntime(now: Instant) {
nextRunTime += period
}
}
internal class FixedDelayJob(
command: Runnable,
nextRunTime: Instant,
val period: Duration
) : RecurringJob(command, nextRunTime) {
override fun updateNextRuntime(now: Instant) {
nextRunTime = now + period
}
}
/**
* An [ArrayList] which keeps a list of [Job]s sorted according to their next run tim
*/
internal class JobsTimeline : ArrayList() {
override fun add(element: Job): Boolean {
val result = super.add(element)
sortBy(Job::nextRunTime)
return result
}
}
/**
* A simple implementation of [ScheduledFuture] which allows passing a handler
* to be invoked on cancellation.
*/
@SuppressFBWarnings("EQ_COMPARETO_USE_OBJECT_EQUALS")
private class EmptyFuture(
private val cancelHandler: () -> Unit
) : ScheduledFuture {
private var cancelled = false
override fun cancel(mayInterruptIfRunning: Boolean): Boolean {
cancelHandler()
cancelled = true
return true
}
override fun get() {}
override fun get(timeout: Long, unit: TimeUnit) {}
override fun getDelay(unit: TimeUnit): Long = TODO("Not yet implemented")
override fun isCancelled(): Boolean = cancelled
override fun isDone(): Boolean = TODO("Not yet implemented")
override fun compareTo(other: Delayed?): Int = TODO("Not yet implemented")
}
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