[TEST] Address rejected execution in SearchAsyncActionTests (#37028)

SearchAsyncActionTests may fail with RejectedExecutionException as InitialSearchPhase may try to execute a runnable after the test has successfully completed, and the corresponding executor was already shut down. The latch was located in getNextPhase that is almost correct, but does not cover for the last finishAndRunNext round that gets executed after onShardResult is invoked.

This commit moves the latch to count the number of shards, and allowing the test to count down later, after finishAndRunNext has been potentially forked. This way nothing else will be executed once the executor is shut down at the end of the tests.

Closes #36221
Closes #33699
This commit is contained in:
Luca Cavanna 2019-01-02 09:47:13 +01:00 committed by GitHub
parent 35c09adbe1
commit 9e70696628
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3 changed files with 69 additions and 83 deletions

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@ -166,7 +166,6 @@ abstract class AbstractSearchAsyncAction<Result extends SearchPhaseResult> exten
} }
} }
private ShardSearchFailure[] buildShardFailures() { private ShardSearchFailure[] buildShardFailures() {
AtomicArray<ShardSearchFailure> shardFailures = this.shardFailures.get(); AtomicArray<ShardSearchFailure> shardFailures = this.shardFailures.get();
if (shardFailures == null) { if (shardFailures == null) {

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@ -160,14 +160,6 @@ abstract class InitialSearchPhase<FirstResult extends SearchPhaseResult> extends
} }
} }
private void maybeFork(final Thread thread, final Runnable runnable) {
if (thread == Thread.currentThread()) {
fork(runnable);
} else {
runnable.run();
}
}
private void fork(final Runnable runnable) { private void fork(final Runnable runnable) {
executor.execute(new AbstractRunnable() { executor.execute(new AbstractRunnable() {
@Override @Override
@ -232,10 +224,18 @@ abstract class InitialSearchPhase<FirstResult extends SearchPhaseResult> extends
} }
private void executeNext(PendingExecutions pendingExecutions, Thread originalThread) { private void executeNext(PendingExecutions pendingExecutions, Thread originalThread) {
executeNext(pendingExecutions == null ? null : pendingExecutions::finishAndRunNext, originalThread);
}
protected void executeNext(Runnable runnable, Thread originalThread) {
if (throttleConcurrentRequests) { if (throttleConcurrentRequests) {
maybeFork(originalThread, pendingExecutions::finishAndRunNext); if (originalThread == Thread.currentThread()) {
fork(runnable);
} else { } else {
assert pendingExecutions == null; runnable.run();
}
} else {
assert runnable == null;
} }
} }
@ -256,8 +256,8 @@ abstract class InitialSearchPhase<FirstResult extends SearchPhaseResult> extends
Runnable r = () -> { Runnable r = () -> {
final Thread thread = Thread.currentThread(); final Thread thread = Thread.currentThread();
try { try {
executePhaseOnShard(shardIt, shard, new SearchActionListener<FirstResult>( executePhaseOnShard(shardIt, shard,
shardIt.newSearchShardTarget(shard.currentNodeId()), shardIndex) { new SearchActionListener<FirstResult>(shardIt.newSearchShardTarget(shard.currentNodeId()), shardIndex) {
@Override @Override
public void innerOnResponse(FirstResult result) { public void innerOnResponse(FirstResult result) {
try { try {
@ -276,8 +276,6 @@ abstract class InitialSearchPhase<FirstResult extends SearchPhaseResult> extends
} }
} }
}); });
} catch (final Exception e) { } catch (final Exception e) {
try { try {
/* /*

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@ -62,27 +62,16 @@ public class SearchAsyncActionTests extends ESTestCase {
public void testSkipSearchShards() throws InterruptedException { public void testSkipSearchShards() throws InterruptedException {
SearchRequest request = new SearchRequest(); SearchRequest request = new SearchRequest();
request.allowPartialSearchResults(true); request.allowPartialSearchResults(true);
CountDownLatch latch = new CountDownLatch(1); int numShards = 10;
AtomicReference<TestSearchResponse> response = new AtomicReference<>(); ActionListener<SearchResponse> responseListener = ActionListener.wrap(response -> {},
ActionListener<SearchResponse> responseListener = new ActionListener<SearchResponse>() { (e) -> { throw new AssertionError("unexpected", e);});
@Override
public void onResponse(SearchResponse searchResponse) {
response.set((TestSearchResponse) searchResponse);
}
@Override
public void onFailure(Exception e) {
logger.warn("test failed", e);
fail(e.getMessage());
}
};
DiscoveryNode primaryNode = new DiscoveryNode("node_1", buildNewFakeTransportAddress(), Version.CURRENT); DiscoveryNode primaryNode = new DiscoveryNode("node_1", buildNewFakeTransportAddress(), Version.CURRENT);
DiscoveryNode replicaNode = new DiscoveryNode("node_2", buildNewFakeTransportAddress(), Version.CURRENT); DiscoveryNode replicaNode = new DiscoveryNode("node_2", buildNewFakeTransportAddress(), Version.CURRENT);
AtomicInteger contextIdGenerator = new AtomicInteger(0); AtomicInteger contextIdGenerator = new AtomicInteger(0);
GroupShardsIterator<SearchShardIterator> shardsIter = getShardsIter("idx", GroupShardsIterator<SearchShardIterator> shardsIter = getShardsIter("idx",
new OriginalIndices(new String[]{"idx"}, SearchRequest.DEFAULT_INDICES_OPTIONS), new OriginalIndices(new String[]{"idx"}, SearchRequest.DEFAULT_INDICES_OPTIONS),
10, randomBoolean(), primaryNode, replicaNode); numShards, randomBoolean(), primaryNode, replicaNode);
int numSkipped = 0; int numSkipped = 0;
for (SearchShardIterator iter : shardsIter) { for (SearchShardIterator iter : shardsIter) {
if (iter.shardId().id() % 2 == 0) { if (iter.shardId().id() % 2 == 0) {
@ -90,6 +79,8 @@ public class SearchAsyncActionTests extends ESTestCase {
numSkipped++; numSkipped++;
} }
} }
CountDownLatch latch = new CountDownLatch(numShards - numSkipped);
AtomicBoolean searchPhaseDidRun = new AtomicBoolean(false);
SearchTransportService transportService = new SearchTransportService(null, null); SearchTransportService transportService = new SearchTransportService(null, null);
Map<String, Transport.Connection> lookup = new HashMap<>(); Map<String, Transport.Connection> lookup = new HashMap<>();
@ -142,15 +133,22 @@ public class SearchAsyncActionTests extends ESTestCase {
return new SearchPhase("test") { return new SearchPhase("test") {
@Override @Override
public void run() { public void run() {
latch.countDown(); assertTrue(searchPhaseDidRun.compareAndSet(false, true));
} }
}; };
} }
@Override
protected void executeNext(Runnable runnable, Thread originalThread) {
super.executeNext(runnable, originalThread);
latch.countDown();
}
}; };
asyncAction.start(); asyncAction.start();
latch.await(); latch.await();
assertTrue(searchPhaseDidRun.get());
SearchResponse searchResponse = asyncAction.buildSearchResponse(null, null); SearchResponse searchResponse = asyncAction.buildSearchResponse(null, null);
assertEquals(shardsIter.size()-numSkipped, numRequests.get()); assertEquals(shardsIter.size() - numSkipped, numRequests.get());
assertEquals(0, searchResponse.getFailedShards()); assertEquals(0, searchResponse.getFailedShards());
assertEquals(numSkipped, searchResponse.getSkippedShards()); assertEquals(numSkipped, searchResponse.getSkippedShards());
assertEquals(shardsIter.size(), searchResponse.getSuccessfulShards()); assertEquals(shardsIter.size(), searchResponse.getSuccessfulShards());
@ -161,20 +159,11 @@ public class SearchAsyncActionTests extends ESTestCase {
request.allowPartialSearchResults(true); request.allowPartialSearchResults(true);
int numConcurrent = randomIntBetween(1, 5); int numConcurrent = randomIntBetween(1, 5);
request.setMaxConcurrentShardRequests(numConcurrent); request.setMaxConcurrentShardRequests(numConcurrent);
CountDownLatch latch = new CountDownLatch(1); int numShards = 10;
AtomicReference<TestSearchResponse> response = new AtomicReference<>(); CountDownLatch latch = new CountDownLatch(numShards);
ActionListener<SearchResponse> responseListener = new ActionListener<SearchResponse>() { AtomicBoolean searchPhaseDidRun = new AtomicBoolean(false);
@Override ActionListener<SearchResponse> responseListener = ActionListener.wrap(response -> {},
public void onResponse(SearchResponse searchResponse) { (e) -> { throw new AssertionError("unexpected", e);});
response.set((TestSearchResponse) searchResponse);
}
@Override
public void onFailure(Exception e) {
logger.warn("test failed", e);
fail(e.getMessage());
}
};
DiscoveryNode primaryNode = new DiscoveryNode("node_1", buildNewFakeTransportAddress(), Version.CURRENT); DiscoveryNode primaryNode = new DiscoveryNode("node_1", buildNewFakeTransportAddress(), Version.CURRENT);
// for the sake of this test we place the replica on the same node. ie. this is not a mistake since we limit per node now // for the sake of this test we place the replica on the same node. ie. this is not a mistake since we limit per node now
DiscoveryNode replicaNode = new DiscoveryNode("node_1", buildNewFakeTransportAddress(), Version.CURRENT); DiscoveryNode replicaNode = new DiscoveryNode("node_1", buildNewFakeTransportAddress(), Version.CURRENT);
@ -182,7 +171,7 @@ public class SearchAsyncActionTests extends ESTestCase {
AtomicInteger contextIdGenerator = new AtomicInteger(0); AtomicInteger contextIdGenerator = new AtomicInteger(0);
GroupShardsIterator<SearchShardIterator> shardsIter = getShardsIter("idx", GroupShardsIterator<SearchShardIterator> shardsIter = getShardsIter("idx",
new OriginalIndices(new String[]{"idx"}, SearchRequest.DEFAULT_INDICES_OPTIONS), new OriginalIndices(new String[]{"idx"}, SearchRequest.DEFAULT_INDICES_OPTIONS),
10, randomBoolean(), primaryNode, replicaNode); numShards, randomBoolean(), primaryNode, replicaNode);
SearchTransportService transportService = new SearchTransportService(null, null); SearchTransportService transportService = new SearchTransportService(null, null);
Map<String, Transport.Connection> lookup = new HashMap<>(); Map<String, Transport.Connection> lookup = new HashMap<>();
Map<ShardId, Boolean> seenShard = new ConcurrentHashMap<>(); Map<ShardId, Boolean> seenShard = new ConcurrentHashMap<>();
@ -246,15 +235,22 @@ public class SearchAsyncActionTests extends ESTestCase {
return new SearchPhase("test") { return new SearchPhase("test") {
@Override @Override
public void run() { public void run() {
latch.countDown(); assertTrue(searchPhaseDidRun.compareAndSet(false, true));
} }
}; };
} }
@Override
protected void executeNext(Runnable runnable, Thread originalThread) {
super.executeNext(runnable, originalThread);
latch.countDown();
}
}; };
asyncAction.start(); asyncAction.start();
assertEquals(numConcurrent, numRequests.get()); assertEquals(numConcurrent, numRequests.get());
awaitInitialRequests.countDown(); awaitInitialRequests.countDown();
latch.await(); latch.await();
assertTrue(searchPhaseDidRun.get());
assertEquals(10, numRequests.get()); assertEquals(10, numRequests.get());
} }
@ -263,26 +259,18 @@ public class SearchAsyncActionTests extends ESTestCase {
request.allowPartialSearchResults(true); request.allowPartialSearchResults(true);
request.setMaxConcurrentShardRequests(randomIntBetween(1, 100)); request.setMaxConcurrentShardRequests(randomIntBetween(1, 100));
AtomicReference<TestSearchResponse> response = new AtomicReference<>(); AtomicReference<TestSearchResponse> response = new AtomicReference<>();
ActionListener<SearchResponse> responseListener = new ActionListener<SearchResponse>() { ActionListener<SearchResponse> responseListener = ActionListener.wrap(
@Override searchResponse -> response.set((TestSearchResponse) searchResponse),
public void onResponse(SearchResponse searchResponse) { (e) -> { throw new AssertionError("unexpected", e);});
response.set((TestSearchResponse) searchResponse);
}
@Override
public void onFailure(Exception e) {
logger.warn("test failed", e);
fail(e.getMessage());
}
};
DiscoveryNode primaryNode = new DiscoveryNode("node_1", buildNewFakeTransportAddress(), Version.CURRENT); DiscoveryNode primaryNode = new DiscoveryNode("node_1", buildNewFakeTransportAddress(), Version.CURRENT);
DiscoveryNode replicaNode = new DiscoveryNode("node_2", buildNewFakeTransportAddress(), Version.CURRENT); DiscoveryNode replicaNode = new DiscoveryNode("node_2", buildNewFakeTransportAddress(), Version.CURRENT);
Map<DiscoveryNode, Set<Long>> nodeToContextMap = newConcurrentMap(); Map<DiscoveryNode, Set<Long>> nodeToContextMap = newConcurrentMap();
AtomicInteger contextIdGenerator = new AtomicInteger(0); AtomicInteger contextIdGenerator = new AtomicInteger(0);
int numShards = randomIntBetween(1, 10);
GroupShardsIterator<SearchShardIterator> shardsIter = getShardsIter("idx", GroupShardsIterator<SearchShardIterator> shardsIter = getShardsIter("idx",
new OriginalIndices(new String[]{"idx"}, SearchRequest.DEFAULT_INDICES_OPTIONS), new OriginalIndices(new String[]{"idx"}, SearchRequest.DEFAULT_INDICES_OPTIONS),
randomIntBetween(1, 10), randomBoolean(), primaryNode, replicaNode); numShards, randomBoolean(), primaryNode, replicaNode);
AtomicInteger numFreedContext = new AtomicInteger(); AtomicInteger numFreedContext = new AtomicInteger();
SearchTransportService transportService = new SearchTransportService(null, null) { SearchTransportService transportService = new SearchTransportService(null, null) {
@Override @Override
@ -296,9 +284,8 @@ public class SearchAsyncActionTests extends ESTestCase {
lookup.put(primaryNode.getId(), new MockConnection(primaryNode)); lookup.put(primaryNode.getId(), new MockConnection(primaryNode));
lookup.put(replicaNode.getId(), new MockConnection(replicaNode)); lookup.put(replicaNode.getId(), new MockConnection(replicaNode));
Map<String, AliasFilter> aliasFilters = Collections.singletonMap("_na_", new AliasFilter(null, Strings.EMPTY_ARRAY)); Map<String, AliasFilter> aliasFilters = Collections.singletonMap("_na_", new AliasFilter(null, Strings.EMPTY_ARRAY));
final ExecutorService executor = Executors.newFixedThreadPool(randomIntBetween(1, Runtime.getRuntime().availableProcessors())); ExecutorService executor = Executors.newFixedThreadPool(randomIntBetween(1, Runtime.getRuntime().availableProcessors()));
final CountDownLatch latch = new CountDownLatch(1); final CountDownLatch latch = new CountDownLatch(numShards);
final AtomicBoolean latchTriggered = new AtomicBoolean();
AbstractSearchAsyncAction<TestSearchPhaseResult> asyncAction = AbstractSearchAsyncAction<TestSearchPhaseResult> asyncAction =
new AbstractSearchAsyncAction<TestSearchPhaseResult>( new AbstractSearchAsyncAction<TestSearchPhaseResult>(
"test", "test",
@ -349,13 +336,15 @@ public class SearchAsyncActionTests extends ESTestCase {
sendReleaseSearchContext(result.getRequestId(), new MockConnection(result.node), OriginalIndices.NONE); sendReleaseSearchContext(result.getRequestId(), new MockConnection(result.node), OriginalIndices.NONE);
} }
responseListener.onResponse(response); responseListener.onResponse(response);
if (latchTriggered.compareAndSet(false, true) == false) {
throw new AssertionError("latch triggered twice");
}
latch.countDown();
} }
}; };
} }
@Override
protected void executeNext(Runnable runnable, Thread originalThread) {
super.executeNext(runnable, originalThread);
latch.countDown();
}
}; };
asyncAction.start(); asyncAction.start();
latch.await(); latch.await();