test/jdk/java/net/httpclient/reactivestreams-tck/org/reactivestreams/tck/IdentityProcessorVerification.java
8226602: Test convenience reactive primitives from java.net.http with RS TCK
Reviewed-by: chegar, dfuchs
/*
* Copyright (c) 2019, Oracle and/or its affiliates. All rights reserved.
* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
*
* This code is free software; you can redistribute it and/or modify it
* under the terms of the GNU General Public License version 2 only, as
* published by the Free Software Foundation.
*
* This code is distributed in the hope that it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
* version 2 for more details (a copy is included in the LICENSE file that
* accompanied this code).
*
* You should have received a copy of the GNU General Public License version
* 2 along with this work; if not, write to the Free Software Foundation,
* Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
*
* Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
* or visit www.oracle.com if you need additional information or have any
* questions.
*/
package org.reactivestreams.tck;
import org.reactivestreams.Processor;
import org.reactivestreams.Publisher;
import org.reactivestreams.Subscriber;
import org.reactivestreams.Subscription;
import org.reactivestreams.tck.TestEnvironment.ManualPublisher;
import org.reactivestreams.tck.TestEnvironment.ManualSubscriber;
import org.reactivestreams.tck.TestEnvironment.ManualSubscriberWithSubscriptionSupport;
import org.reactivestreams.tck.TestEnvironment.Promise;
import org.reactivestreams.tck.flow.support.Function;
import org.reactivestreams.tck.flow.support.SubscriberWhiteboxVerificationRules;
import org.reactivestreams.tck.flow.support.PublisherVerificationRules;
import org.testng.annotations.BeforeMethod;
import org.testng.annotations.Test;
import java.util.HashSet;
import java.util.Set;
public abstract class IdentityProcessorVerification<T> extends WithHelperPublisher<T>
implements SubscriberWhiteboxVerificationRules, PublisherVerificationRules {
private final TestEnvironment env;
////////////////////// DELEGATED TO SPECS //////////////////////
// for delegating tests
private final SubscriberWhiteboxVerification<T> subscriberVerification;
// for delegating tests
private final PublisherVerification<T> publisherVerification;
////////////////// END OF DELEGATED TO SPECS //////////////////
// number of elements the processor under test must be able ot buffer,
// without dropping elements. Defaults to `TestEnvironment.TEST_BUFFER_SIZE`.
private final int processorBufferSize;
/**
* Test class must specify the expected time it takes for the publisher to
* shut itself down when the the last downstream {@code Subscription} is cancelled.
*
* The processor will be required to be able to buffer {@code TestEnvironment.TEST_BUFFER_SIZE} elements.
*/
@SuppressWarnings("unused")
public IdentityProcessorVerification(final TestEnvironment env) {
this(env, PublisherVerification.envPublisherReferenceGCTimeoutMillis(), TestEnvironment.TEST_BUFFER_SIZE);
}
/**
* Test class must specify the expected time it takes for the publisher to
* shut itself down when the the last downstream {@code Subscription} is cancelled.
*
* The processor will be required to be able to buffer {@code TestEnvironment.TEST_BUFFER_SIZE} elements.
*
* @param publisherReferenceGCTimeoutMillis used to determine after how much time a reference to a Subscriber should be already dropped by the Publisher.
*/
@SuppressWarnings("unused")
public IdentityProcessorVerification(final TestEnvironment env, long publisherReferenceGCTimeoutMillis) {
this(env, publisherReferenceGCTimeoutMillis, TestEnvironment.TEST_BUFFER_SIZE);
}
/**
* Test class must specify the expected time it takes for the publisher to
* shut itself down when the the last downstream {@code Subscription} is cancelled.
*
* @param publisherReferenceGCTimeoutMillis used to determine after how much time a reference to a Subscriber should be already dropped by the Publisher.
* @param processorBufferSize number of elements the processor is required to be able to buffer.
*/
public IdentityProcessorVerification(final TestEnvironment env, long publisherReferenceGCTimeoutMillis, int processorBufferSize) {
this.env = env;
this.processorBufferSize = processorBufferSize;
this.subscriberVerification = new SubscriberWhiteboxVerification<T>(env) {
@Override
public Subscriber<T> createSubscriber(WhiteboxSubscriberProbe<T> probe) {
return IdentityProcessorVerification.this.createSubscriber(probe);
}
@Override public T createElement(int element) {
return IdentityProcessorVerification.this.createElement(element);
}
@Override
public Publisher<T> createHelperPublisher(long elements) {
return IdentityProcessorVerification.this.createHelperPublisher(elements);
}
};
publisherVerification = new PublisherVerification<T>(env, publisherReferenceGCTimeoutMillis) {
@Override
public Publisher<T> createPublisher(long elements) {
return IdentityProcessorVerification.this.createPublisher(elements);
}
@Override
public Publisher<T> createFailedPublisher() {
return IdentityProcessorVerification.this.createFailedPublisher();
}
@Override
public long maxElementsFromPublisher() {
return IdentityProcessorVerification.this.maxElementsFromPublisher();
}
@Override
public long boundedDepthOfOnNextAndRequestRecursion() {
return IdentityProcessorVerification.this.boundedDepthOfOnNextAndRequestRecursion();
}
@Override
public boolean skipStochasticTests() {
return IdentityProcessorVerification.this.skipStochasticTests();
}
};
}
/**
* This is the main method you must implement in your test incarnation.
* It must create a {@link Processor}, which simply forwards all stream elements from its upstream
* to its downstream. It must be able to internally buffer the given number of elements.
*
* @param bufferSize number of elements the processor is required to be able to buffer.
*/
public abstract Processor<T, T> createIdentityProcessor(int bufferSize);
/**
* By implementing this method, additional TCK tests concerning a "failed" publishers will be run.
*
* The expected behaviour of the {@link Publisher} returned by this method is hand out a subscription,
* followed by signalling {@code onError} on it, as specified by Rule 1.9.
*
* If you want to ignore these additional tests, return {@code null} from this method.
*/
public abstract Publisher<T> createFailedPublisher();
/**
* Override and return lower value if your Publisher is only able to produce a known number of elements.
* For example, if it is designed to return at-most-one element, return {@code 1} from this method.
*
* Defaults to {@code Long.MAX_VALUE - 1}, meaning that the Publisher can be produce a huge but NOT an unbounded number of elements.
*
* To mark your Publisher will *never* signal an {@code onComplete} override this method and return {@code Long.MAX_VALUE},
* which will result in *skipping all tests which require an onComplete to be triggered* (!).
*/
public long maxElementsFromPublisher() {
return Long.MAX_VALUE - 1;
}
/**
* In order to verify rule 3.3 of the reactive streams spec, this number will be used to check if a
* {@code Subscription} actually solves the "unbounded recursion" problem by not allowing the number of
* recursive calls to exceed the number returned by this method.
*
* @see <a href="https://github.com/reactive-streams/reactive-streams-jvm#3.3">reactive streams spec, rule 3.3</a>
* @see PublisherVerification#required_spec303_mustNotAllowUnboundedRecursion()
*/
public long boundedDepthOfOnNextAndRequestRecursion() {
return 1;
}
/**
* Override and return {@code true} in order to skip executing tests marked as {@code Stochastic}.
* Stochastic in this case means that the Rule is impossible or infeasible to deterministically verify—
* usually this means that this test case can yield false positives ("be green") even if for some case,
* the given implementation may violate the tested behaviour.
*/
public boolean skipStochasticTests() {
return false;
}
/**
* Describes the tested implementation in terms of how many subscribers they can support.
* Some tests require the {@code Publisher} under test to support multiple Subscribers,
* yet the spec does not require all publishers to be able to do so, thus – if an implementation
* supports only a limited number of subscribers (e.g. only 1 subscriber, also known as "no fanout")
* you MUST return that number from this method by overriding it.
*/
public long maxSupportedSubscribers() {
return Long.MAX_VALUE;
}
/**
* Override this method and return {@code true} if the {@link Processor} returned by the
* {@link #createIdentityProcessor(int)} coordinates its {@link Subscriber}s
* request amounts and only delivers onNext signals if all Subscribers have
* indicated (via their Subscription#request(long)) they are ready to receive elements.
*/
public boolean doesCoordinatedEmission() {
return false;
}
////////////////////// TEST ENV CLEANUP /////////////////////////////////////
@BeforeMethod
public void setUp() throws Exception {
publisherVerification.setUp();
subscriberVerification.setUp();
}
////////////////////// PUBLISHER RULES VERIFICATION ///////////////////////////
// A Processor
// must obey all Publisher rules on its publishing side
public Publisher<T> createPublisher(long elements) {
final Processor<T, T> processor = createIdentityProcessor(processorBufferSize);
final Publisher<T> pub = createHelperPublisher(elements);
pub.subscribe(processor);
return processor; // we run the PublisherVerification against this
}
@Override @Test
public void required_validate_maxElementsFromPublisher() throws Exception {
publisherVerification.required_validate_maxElementsFromPublisher();
}
@Override @Test
public void required_validate_boundedDepthOfOnNextAndRequestRecursion() throws Exception {
publisherVerification.required_validate_boundedDepthOfOnNextAndRequestRecursion();
}
/////////////////////// DELEGATED TESTS, A PROCESSOR "IS A" PUBLISHER //////////////////////
// Verifies rule: https://github.com/reactive-streams/reactive-streams-jvm#4.1
@Test
public void required_createPublisher1MustProduceAStreamOfExactly1Element() throws Throwable {
publisherVerification.required_createPublisher1MustProduceAStreamOfExactly1Element();
}
@Test
public void required_createPublisher3MustProduceAStreamOfExactly3Elements() throws Throwable {
publisherVerification.required_createPublisher3MustProduceAStreamOfExactly3Elements();
}
@Override @Test
public void required_spec101_subscriptionRequestMustResultInTheCorrectNumberOfProducedElements() throws Throwable {
publisherVerification.required_spec101_subscriptionRequestMustResultInTheCorrectNumberOfProducedElements();
}
@Override @Test
public void required_spec102_maySignalLessThanRequestedAndTerminateSubscription() throws Throwable {
publisherVerification.required_spec102_maySignalLessThanRequestedAndTerminateSubscription();
}
@Override @Test
public void stochastic_spec103_mustSignalOnMethodsSequentially() throws Throwable {
publisherVerification.stochastic_spec103_mustSignalOnMethodsSequentially();
}
@Override @Test
public void optional_spec104_mustSignalOnErrorWhenFails() throws Throwable {
publisherVerification.optional_spec104_mustSignalOnErrorWhenFails();
}
@Override @Test
public void required_spec105_mustSignalOnCompleteWhenFiniteStreamTerminates() throws Throwable {
publisherVerification.required_spec105_mustSignalOnCompleteWhenFiniteStreamTerminates();
}
@Override @Test
public void optional_spec105_emptyStreamMustTerminateBySignallingOnComplete() throws Throwable {
publisherVerification.optional_spec105_emptyStreamMustTerminateBySignallingOnComplete();
}
@Override @Test
public void untested_spec106_mustConsiderSubscriptionCancelledAfterOnErrorOrOnCompleteHasBeenCalled() throws Throwable {
publisherVerification.untested_spec106_mustConsiderSubscriptionCancelledAfterOnErrorOrOnCompleteHasBeenCalled();
}
@Override @Test
public void required_spec107_mustNotEmitFurtherSignalsOnceOnCompleteHasBeenSignalled() throws Throwable {
publisherVerification.required_spec107_mustNotEmitFurtherSignalsOnceOnCompleteHasBeenSignalled();
}
@Override @Test
public void untested_spec107_mustNotEmitFurtherSignalsOnceOnErrorHasBeenSignalled() throws Throwable {
publisherVerification.untested_spec107_mustNotEmitFurtherSignalsOnceOnErrorHasBeenSignalled();
}
@Override @Test
public void untested_spec108_possiblyCanceledSubscriptionShouldNotReceiveOnErrorOrOnCompleteSignals() throws Throwable {
publisherVerification.untested_spec108_possiblyCanceledSubscriptionShouldNotReceiveOnErrorOrOnCompleteSignals();
}
@Override @Test
public void untested_spec109_subscribeShouldNotThrowNonFatalThrowable() throws Throwable {
publisherVerification.untested_spec109_subscribeShouldNotThrowNonFatalThrowable();
}
@Override @Test
public void required_spec109_subscribeThrowNPEOnNullSubscriber() throws Throwable {
publisherVerification.required_spec109_subscribeThrowNPEOnNullSubscriber();
}
@Override @Test
public void required_spec109_mayRejectCallsToSubscribeIfPublisherIsUnableOrUnwillingToServeThemRejectionMustTriggerOnErrorAfterOnSubscribe() throws Throwable {
publisherVerification.required_spec109_mayRejectCallsToSubscribeIfPublisherIsUnableOrUnwillingToServeThemRejectionMustTriggerOnErrorAfterOnSubscribe();
}
@Override @Test
public void required_spec109_mustIssueOnSubscribeForNonNullSubscriber() throws Throwable {
publisherVerification.required_spec109_mustIssueOnSubscribeForNonNullSubscriber();
}
@Override @Test
public void untested_spec110_rejectASubscriptionRequestIfTheSameSubscriberSubscribesTwice() throws Throwable {
publisherVerification.untested_spec110_rejectASubscriptionRequestIfTheSameSubscriberSubscribesTwice();
}
@Override @Test
public void optional_spec111_maySupportMultiSubscribe() throws Throwable {
publisherVerification.optional_spec111_maySupportMultiSubscribe();
}
@Override @Test
public void optional_spec111_registeredSubscribersMustReceiveOnNextOrOnCompleteSignals() throws Throwable {
publisherVerification.optional_spec111_registeredSubscribersMustReceiveOnNextOrOnCompleteSignals();
}
@Override @Test
public void optional_spec111_multicast_mustProduceTheSameElementsInTheSameSequenceToAllOfItsSubscribersWhenRequestingOneByOne() throws Throwable {
publisherVerification.optional_spec111_multicast_mustProduceTheSameElementsInTheSameSequenceToAllOfItsSubscribersWhenRequestingOneByOne();
}
@Override @Test
public void optional_spec111_multicast_mustProduceTheSameElementsInTheSameSequenceToAllOfItsSubscribersWhenRequestingManyUpfront() throws Throwable {
publisherVerification.optional_spec111_multicast_mustProduceTheSameElementsInTheSameSequenceToAllOfItsSubscribersWhenRequestingManyUpfront();
}
@Override @Test
public void optional_spec111_multicast_mustProduceTheSameElementsInTheSameSequenceToAllOfItsSubscribersWhenRequestingManyUpfrontAndCompleteAsExpected() throws Throwable {
publisherVerification.optional_spec111_multicast_mustProduceTheSameElementsInTheSameSequenceToAllOfItsSubscribersWhenRequestingManyUpfrontAndCompleteAsExpected();
}
@Override @Test
public void required_spec302_mustAllowSynchronousRequestCallsFromOnNextAndOnSubscribe() throws Throwable {
publisherVerification.required_spec302_mustAllowSynchronousRequestCallsFromOnNextAndOnSubscribe();
}
@Override @Test
public void required_spec303_mustNotAllowUnboundedRecursion() throws Throwable {
publisherVerification.required_spec303_mustNotAllowUnboundedRecursion();
}
@Override @Test
public void untested_spec304_requestShouldNotPerformHeavyComputations() throws Exception {
publisherVerification.untested_spec304_requestShouldNotPerformHeavyComputations();
}
@Override @Test
public void untested_spec305_cancelMustNotSynchronouslyPerformHeavyComputation() throws Exception {
publisherVerification.untested_spec305_cancelMustNotSynchronouslyPerformHeavyComputation();
}
@Override @Test
public void required_spec306_afterSubscriptionIsCancelledRequestMustBeNops() throws Throwable {
publisherVerification.required_spec306_afterSubscriptionIsCancelledRequestMustBeNops();
}
@Override @Test
public void required_spec307_afterSubscriptionIsCancelledAdditionalCancelationsMustBeNops() throws Throwable {
publisherVerification.required_spec307_afterSubscriptionIsCancelledAdditionalCancelationsMustBeNops();
}
@Override @Test
public void required_spec309_requestZeroMustSignalIllegalArgumentException() throws Throwable {
publisherVerification.required_spec309_requestZeroMustSignalIllegalArgumentException();
}
@Override @Test
public void required_spec309_requestNegativeNumberMustSignalIllegalArgumentException() throws Throwable {
publisherVerification.required_spec309_requestNegativeNumberMustSignalIllegalArgumentException();
}
@Override @Test
public void optional_spec309_requestNegativeNumberMaySignalIllegalArgumentExceptionWithSpecificMessage() throws Throwable {
publisherVerification.optional_spec309_requestNegativeNumberMaySignalIllegalArgumentExceptionWithSpecificMessage();
}
@Override @Test
public void required_spec312_cancelMustMakeThePublisherToEventuallyStopSignaling() throws Throwable {
publisherVerification.required_spec312_cancelMustMakeThePublisherToEventuallyStopSignaling();
}
@Override @Test
public void required_spec313_cancelMustMakeThePublisherEventuallyDropAllReferencesToTheSubscriber() throws Throwable {
publisherVerification.required_spec313_cancelMustMakeThePublisherEventuallyDropAllReferencesToTheSubscriber();
}
@Override @Test
public void required_spec317_mustSupportAPendingElementCountUpToLongMaxValue() throws Throwable {
publisherVerification.required_spec317_mustSupportAPendingElementCountUpToLongMaxValue();
}
@Override @Test
public void required_spec317_mustSupportACumulativePendingElementCountUpToLongMaxValue() throws Throwable {
publisherVerification.required_spec317_mustSupportACumulativePendingElementCountUpToLongMaxValue();
}
@Override @Test
public void required_spec317_mustNotSignalOnErrorWhenPendingAboveLongMaxValue() throws Throwable {
publisherVerification.required_spec317_mustNotSignalOnErrorWhenPendingAboveLongMaxValue();
}
/**
* Asks for a {@code Processor} that supports at least 2 {@code Subscriber}s at once and checks if two {@code Subscriber}s
* receive the same items and a terminal {@code Exception}.
* <p>
* If the {@code Processor} requests and/or emits items only when all of its {@code Subscriber}s have requested,
* override {@link #doesCoordinatedEmission()} and return {@code true} to indicate this property.
* <p>
* <b>Verifies rule:</b> <a href='https://github.com/reactive-streams/reactive-streams-jvm#1.4'>1.4</a> with multiple
* {@code Subscriber}s.
* <p>
* The test is not executed if {@link IdentityProcessorVerification#maxSupportedSubscribers()} is less than 2.
* <p>
* If this test fails, the following could be checked within the {@code Processor} implementation:
* <ul>
* <li>The {@code TestEnvironment} has large enough timeout specified in case the {@code Processor} has some time-delay behavior.</li>
* <li>The {@code Processor} is able to fulfill requests of its {@code Subscriber}s independently of each other's requests or
* else override {@link #doesCoordinatedEmission()} and return {@code true} to indicate the test {@code Subscriber}s
* both have to request first.</li>
* </ul>
*/
@Test
public void required_spec104_mustCallOnErrorOnAllItsSubscribersIfItEncountersANonRecoverableError() throws Throwable {
optionalMultipleSubscribersTest(2, new Function<Long,TestSetup>() {
@Override
public TestSetup apply(Long aLong) throws Throwable {
return new TestSetup(env, processorBufferSize) {{
final ManualSubscriberWithErrorCollection<T> sub1 = new ManualSubscriberWithErrorCollection<T>(env);
env.subscribe(processor, sub1);
final ManualSubscriberWithErrorCollection<T> sub2 = new ManualSubscriberWithErrorCollection<T>(env);
env.subscribe(processor, sub2);
final Exception ex = new RuntimeException("Test exception");
if (doesCoordinatedEmission()) {
sub1.request(1);
sub2.request(1);
expectRequest();
final T x = sendNextTFromUpstream();
expectNextElement(sub1, x);
expectNextElement(sub2, x);
sub1.request(1);
sub2.request(1);
} else {
sub1.request(1);
expectRequest(env.defaultTimeoutMillis(),
"If the Processor coordinates requests/emissions when having multiple Subscribers"
+ " at once, please override doesCoordinatedEmission() to return true in this "
+ "IdentityProcessorVerification to allow this test to pass.");
final T x = sendNextTFromUpstream();
expectNextElement(sub1, x,
"If the Processor coordinates requests/emissions when having multiple Subscribers"
+ " at once, please override doesCoordinatedEmission() to return true in this "
+ "IdentityProcessorVerification to allow this test to pass.");
sub1.request(1);
// sub1 has received one element, and has one demand pending
// sub2 has not yet requested anything
}
sendError(ex);
sub1.expectError(ex);
sub2.expectError(ex);
env.verifyNoAsyncErrorsNoDelay();
}};
}
});
}
////////////////////// SUBSCRIBER RULES VERIFICATION ///////////////////////////
// Verifies rule: https://github.com/reactive-streams/reactive-streams-jvm#4.1
// A Processor
// must obey all Subscriber rules on its consuming side
public Subscriber<T> createSubscriber(final SubscriberWhiteboxVerification.WhiteboxSubscriberProbe<T> probe) {
final Processor<T, T> processor = createIdentityProcessor(processorBufferSize);
processor.subscribe(
new Subscriber<T>() {
private final Promise<Subscription> subs = new Promise<Subscription>(env);
@Override
public void onSubscribe(final Subscription subscription) {
if (env.debugEnabled()) {
env.debug(String.format("whiteboxSubscriber::onSubscribe(%s)", subscription));
}
if (subs.isCompleted()) subscription.cancel(); // the Probe must also pass subscriber verification
probe.registerOnSubscribe(new SubscriberWhiteboxVerification.SubscriberPuppet() {
@Override
public void triggerRequest(long elements) {
subscription.request(elements);
}
@Override
public void signalCancel() {
subscription.cancel();
}
});
}
@Override
public void onNext(T element) {
if (env.debugEnabled()) {
env.debug(String.format("whiteboxSubscriber::onNext(%s)", element));
}
probe.registerOnNext(element);
}
@Override
public void onComplete() {
if (env.debugEnabled()) {
env.debug("whiteboxSubscriber::onComplete()");
}
probe.registerOnComplete();
}
@Override
public void onError(Throwable cause) {
if (env.debugEnabled()) {
env.debug(String.format("whiteboxSubscriber::onError(%s)", cause));
}
probe.registerOnError(cause);
}
});
return processor; // we run the SubscriberVerification against this
}
////////////////////// OTHER RULE VERIFICATION ///////////////////////////
// A Processor
// must immediately pass on `onError` events received from its upstream to its downstream
@Test
public void mustImmediatelyPassOnOnErrorEventsReceivedFromItsUpstreamToItsDownstream() throws Exception {
new TestSetup(env, processorBufferSize) {{
final ManualSubscriberWithErrorCollection<T> sub = new ManualSubscriberWithErrorCollection<T>(env);
env.subscribe(processor, sub);
final Exception ex = new RuntimeException("Test exception");
sendError(ex);
sub.expectError(ex); // "immediately", i.e. without a preceding request
env.verifyNoAsyncErrorsNoDelay();
}};
}
/////////////////////// DELEGATED TESTS, A PROCESSOR "IS A" SUBSCRIBER //////////////////////
// Verifies rule: https://github.com/reactive-streams/reactive-streams-jvm#4.1
@Test
public void required_exerciseWhiteboxHappyPath() throws Throwable {
subscriberVerification.required_exerciseWhiteboxHappyPath();
}
@Override @Test
public void required_spec201_mustSignalDemandViaSubscriptionRequest() throws Throwable {
subscriberVerification.required_spec201_mustSignalDemandViaSubscriptionRequest();
}
@Override @Test
public void untested_spec202_shouldAsynchronouslyDispatch() throws Exception {
subscriberVerification.untested_spec202_shouldAsynchronouslyDispatch();
}
@Override @Test
public void required_spec203_mustNotCallMethodsOnSubscriptionOrPublisherInOnComplete() throws Throwable {
subscriberVerification.required_spec203_mustNotCallMethodsOnSubscriptionOrPublisherInOnComplete();
}
@Override @Test
public void required_spec203_mustNotCallMethodsOnSubscriptionOrPublisherInOnError() throws Throwable {
subscriberVerification.required_spec203_mustNotCallMethodsOnSubscriptionOrPublisherInOnError();
}
@Override @Test
public void untested_spec204_mustConsiderTheSubscriptionAsCancelledInAfterRecievingOnCompleteOrOnError() throws Exception {
subscriberVerification.untested_spec204_mustConsiderTheSubscriptionAsCancelledInAfterRecievingOnCompleteOrOnError();
}
@Override @Test
public void required_spec205_mustCallSubscriptionCancelIfItAlreadyHasAnSubscriptionAndReceivesAnotherOnSubscribeSignal() throws Throwable {
subscriberVerification.required_spec205_mustCallSubscriptionCancelIfItAlreadyHasAnSubscriptionAndReceivesAnotherOnSubscribeSignal();
}
@Override @Test
public void untested_spec206_mustCallSubscriptionCancelIfItIsNoLongerValid() throws Exception {
subscriberVerification.untested_spec206_mustCallSubscriptionCancelIfItIsNoLongerValid();
}
@Override @Test
public void untested_spec207_mustEnsureAllCallsOnItsSubscriptionTakePlaceFromTheSameThreadOrTakeCareOfSynchronization() throws Exception {
subscriberVerification.untested_spec207_mustEnsureAllCallsOnItsSubscriptionTakePlaceFromTheSameThreadOrTakeCareOfSynchronization();
}
@Override @Test
public void required_spec208_mustBePreparedToReceiveOnNextSignalsAfterHavingCalledSubscriptionCancel() throws Throwable {
subscriberVerification.required_spec208_mustBePreparedToReceiveOnNextSignalsAfterHavingCalledSubscriptionCancel();
}
@Override @Test
public void required_spec209_mustBePreparedToReceiveAnOnCompleteSignalWithPrecedingRequestCall() throws Throwable {
subscriberVerification.required_spec209_mustBePreparedToReceiveAnOnCompleteSignalWithPrecedingRequestCall();
}
@Override @Test
public void required_spec209_mustBePreparedToReceiveAnOnCompleteSignalWithoutPrecedingRequestCall() throws Throwable {
subscriberVerification.required_spec209_mustBePreparedToReceiveAnOnCompleteSignalWithoutPrecedingRequestCall();
}
@Override @Test
public void required_spec210_mustBePreparedToReceiveAnOnErrorSignalWithPrecedingRequestCall() throws Throwable {
subscriberVerification.required_spec210_mustBePreparedToReceiveAnOnErrorSignalWithPrecedingRequestCall();
}
@Override @Test
public void required_spec210_mustBePreparedToReceiveAnOnErrorSignalWithoutPrecedingRequestCall() throws Throwable {
subscriberVerification.required_spec210_mustBePreparedToReceiveAnOnErrorSignalWithoutPrecedingRequestCall();
}
@Override @Test
public void untested_spec211_mustMakeSureThatAllCallsOnItsMethodsHappenBeforeTheProcessingOfTheRespectiveEvents() throws Exception {
subscriberVerification.untested_spec211_mustMakeSureThatAllCallsOnItsMethodsHappenBeforeTheProcessingOfTheRespectiveEvents();
}
@Override @Test
public void untested_spec212_mustNotCallOnSubscribeMoreThanOnceBasedOnObjectEquality_specViolation() throws Throwable {
subscriberVerification.untested_spec212_mustNotCallOnSubscribeMoreThanOnceBasedOnObjectEquality_specViolation();
}
@Override @Test
public void untested_spec213_failingOnSignalInvocation() throws Exception {
subscriberVerification.untested_spec213_failingOnSignalInvocation();
}
@Override @Test
public void required_spec213_onSubscribe_mustThrowNullPointerExceptionWhenParametersAreNull() throws Throwable {
subscriberVerification.required_spec213_onSubscribe_mustThrowNullPointerExceptionWhenParametersAreNull();
}
@Override @Test
public void required_spec213_onNext_mustThrowNullPointerExceptionWhenParametersAreNull() throws Throwable {
subscriberVerification.required_spec213_onNext_mustThrowNullPointerExceptionWhenParametersAreNull();
}
@Override @Test
public void required_spec213_onError_mustThrowNullPointerExceptionWhenParametersAreNull() throws Throwable {
subscriberVerification.required_spec213_onError_mustThrowNullPointerExceptionWhenParametersAreNull();
}
@Override @Test
public void untested_spec301_mustNotBeCalledOutsideSubscriberContext() throws Exception {
subscriberVerification.untested_spec301_mustNotBeCalledOutsideSubscriberContext();
}
@Override @Test
public void required_spec308_requestMustRegisterGivenNumberElementsToBeProduced() throws Throwable {
subscriberVerification.required_spec308_requestMustRegisterGivenNumberElementsToBeProduced();
}
@Override @Test
public void untested_spec310_requestMaySynchronouslyCallOnNextOnSubscriber() throws Exception {
subscriberVerification.untested_spec310_requestMaySynchronouslyCallOnNextOnSubscriber();
}
@Override @Test
public void untested_spec311_requestMaySynchronouslyCallOnCompleteOrOnError() throws Exception {
subscriberVerification.untested_spec311_requestMaySynchronouslyCallOnCompleteOrOnError();
}
@Override @Test
public void untested_spec314_cancelMayCauseThePublisherToShutdownIfNoOtherSubscriptionExists() throws Exception {
subscriberVerification.untested_spec314_cancelMayCauseThePublisherToShutdownIfNoOtherSubscriptionExists();
}
@Override @Test
public void untested_spec315_cancelMustNotThrowExceptionAndMustSignalOnError() throws Exception {
subscriberVerification.untested_spec315_cancelMustNotThrowExceptionAndMustSignalOnError();
}
@Override @Test
public void untested_spec316_requestMustNotThrowExceptionAndMustOnErrorTheSubscriber() throws Exception {
subscriberVerification.untested_spec316_requestMustNotThrowExceptionAndMustOnErrorTheSubscriber();
}
/////////////////////// ADDITIONAL "COROLLARY" TESTS //////////////////////
/**
* Asks for a {@code Processor} that supports at least 2 {@code Subscriber}s at once and checks requests
* from {@code Subscriber}s will eventually lead to requests towards the upstream of the {@code Processor}.
* <p>
* If the {@code Processor} requests and/or emits items only when all of its {@code Subscriber}s have requested,
* override {@link #doesCoordinatedEmission()} and return {@code true} to indicate this property.
* <p>
* <b>Verifies rule:</b> <a href='https://github.com/reactive-streams/reactive-streams-jvm#1.4'>2.1</a> with multiple
* {@code Subscriber}s.
* <p>
* The test is not executed if {@link IdentityProcessorVerification#maxSupportedSubscribers()} is less than 2.
* <p>
* If this test fails, the following could be checked within the {@code Processor} implementation:
* <ul>
* <li>The {@code TestEnvironment} has large enough timeout specified in case the {@code Processor} has some time-delay behavior.</li>
* <li>The {@code Processor} is able to fulfill requests of its {@code Subscriber}s independently of each other's requests or
* else override {@link #doesCoordinatedEmission()} and return {@code true} to indicate the test {@code Subscriber}s
* both have to request first.</li>
* </ul>
*/
@Test
public void required_mustRequestFromUpstreamForElementsThatHaveBeenRequestedLongAgo() throws Throwable {
optionalMultipleSubscribersTest(2, new Function<Long,TestSetup>() {
@Override
public TestSetup apply(Long subscribers) throws Throwable {
return new TestSetup(env, processorBufferSize) {{
ManualSubscriber<T> sub1 = newSubscriber();
sub1.request(20);
long totalRequests = expectRequest();
final T x = sendNextTFromUpstream();
expectNextElement(sub1, x);
if (totalRequests == 1) {
totalRequests += expectRequest();
}
final T y = sendNextTFromUpstream();
expectNextElement(sub1, y);
if (totalRequests == 2) {
totalRequests += expectRequest();
}
final ManualSubscriber<T> sub2 = newSubscriber();
// sub1 now has 18 pending
// sub2 has 0 pending
if (doesCoordinatedEmission()) {
sub2.expectNone(); // since sub2 hasn't requested anything yet
sub2.request(1);
final T z = sendNextTFromUpstream();
expectNextElement(sub1, z);
expectNextElement(sub2, z);
} else {
final T z = sendNextTFromUpstream();
expectNextElement(sub1, z,
"If the Processor coordinates requests/emissions when having multiple Subscribers"
+ " at once, please override doesCoordinatedEmission() to return true in this "
+ "IdentityProcessorVerification to allow this test to pass.");
sub2.expectNone(); // since sub2 hasn't requested anything yet
sub2.request(1);
expectNextElement(sub2, z);
}
if (totalRequests == 3) {
expectRequest();
}
// to avoid error messages during test harness shutdown
sendCompletion();
sub1.expectCompletion(env.defaultTimeoutMillis());
sub2.expectCompletion(env.defaultTimeoutMillis());
env.verifyNoAsyncErrorsNoDelay();
}};
}
});
}
/////////////////////// TEST INFRASTRUCTURE //////////////////////
public void notVerified() {
publisherVerification.notVerified();
}
public void notVerified(String message) {
publisherVerification.notVerified(message);
}
/**
* Test for feature that REQUIRES multiple subscribers to be supported by Publisher.
*/
public void optionalMultipleSubscribersTest(long requiredSubscribersSupport, Function<Long, TestSetup> body) throws Throwable {
if (requiredSubscribersSupport > maxSupportedSubscribers())
notVerified(String.format("The Publisher under test only supports %d subscribers, while this test requires at least %d to run.",
maxSupportedSubscribers(), requiredSubscribersSupport));
else body.apply(requiredSubscribersSupport);
}
public abstract class TestSetup extends ManualPublisher<T> {
final private ManualSubscriber<T> tees; // gives us access to an infinite stream of T values
private Set<T> seenTees = new HashSet<T>();
final Processor<T, T> processor;
public TestSetup(TestEnvironment env, int testBufferSize) throws InterruptedException {
super(env);
tees = env.newManualSubscriber(createHelperPublisher(Long.MAX_VALUE));
processor = createIdentityProcessor(testBufferSize);
subscribe(processor);
}
public ManualSubscriber<T> newSubscriber() throws InterruptedException {
return env.newManualSubscriber(processor);
}
public T nextT() throws InterruptedException {
final T t = tees.requestNextElement();
if (seenTees.contains(t)) {
env.flop(String.format("Helper publisher illegally produced the same element %s twice", t));
}
seenTees.add(t);
return t;
}
public void expectNextElement(ManualSubscriber<T> sub, T expected) throws InterruptedException {
final T elem = sub.nextElement(String.format("timeout while awaiting %s", expected));
if (!elem.equals(expected)) {
env.flop(String.format("Received `onNext(%s)` on downstream but expected `onNext(%s)`", elem, expected));
}
}
public void expectNextElement(ManualSubscriber<T> sub, T expected, String errorMessageAddendum) throws InterruptedException {
final T elem = sub.nextElement(String.format("timeout while awaiting %s. %s", expected, errorMessageAddendum));
if (!elem.equals(expected)) {
env.flop(String.format("Received `onNext(%s)` on downstream but expected `onNext(%s)`", elem, expected));
}
}
public T sendNextTFromUpstream() throws InterruptedException {
final T x = nextT();
sendNext(x);
return x;
}
}
public class ManualSubscriberWithErrorCollection<A> extends ManualSubscriberWithSubscriptionSupport<A> {
Promise<Throwable> error;
public ManualSubscriberWithErrorCollection(TestEnvironment env) {
super(env);
error = new Promise<Throwable>(env);
}
@Override
public void onError(Throwable cause) {
error.complete(cause);
}
public void expectError(Throwable cause) throws InterruptedException {
expectError(cause, env.defaultTimeoutMillis());
}
@SuppressWarnings("ThrowableResultOfMethodCallIgnored")
public void expectError(Throwable cause, long timeoutMillis) throws InterruptedException {
error.expectCompletion(timeoutMillis, "Did not receive expected error on downstream");
if (!cause.equals(error.value())) {
env.flop(String.format("Expected error %s but got %s", cause, error.value()));
}
}
}
}