use of com.datastax.oss.driver.internal.core.util.concurrent.CapturingTimer.CapturedTimeout in project java-driver by datastax.
the class ContinuousGraphRequestHandlerSpeculativeExecutionTest method should_schedule_speculative_executions.
@Test
@UseDataProvider(location = DseTestDataProviders.class, value = "idempotentGraphConfig")
public void should_schedule_speculative_executions(boolean defaultIdempotence, GraphStatement<?> statement) throws Exception {
GraphRequestHandlerTestHarness.Builder harnessBuilder = GraphRequestHandlerTestHarness.builder().withDefaultIdempotence(defaultIdempotence);
PoolBehavior node1Behavior = harnessBuilder.customBehavior(node1);
PoolBehavior node2Behavior = harnessBuilder.customBehavior(node2);
PoolBehavior node3Behavior = harnessBuilder.customBehavior(node3);
try (GraphRequestHandlerTestHarness harness = harnessBuilder.build()) {
SpeculativeExecutionPolicy speculativeExecutionPolicy = harness.getContext().getSpeculativeExecutionPolicy(DriverExecutionProfile.DEFAULT_NAME);
long firstExecutionDelay = 100L;
long secondExecutionDelay = 200L;
when(speculativeExecutionPolicy.nextExecution(any(Node.class), eq(null), eq(statement), eq(1))).thenReturn(firstExecutionDelay);
when(speculativeExecutionPolicy.nextExecution(any(Node.class), eq(null), eq(statement), eq(2))).thenReturn(secondExecutionDelay);
when(speculativeExecutionPolicy.nextExecution(any(Node.class), eq(null), eq(statement), eq(3))).thenReturn(-1L);
GraphBinaryModule module = createGraphBinaryModule(harness.getContext());
new ContinuousGraphRequestHandler(statement, harness.getSession(), harness.getContext(), "test", module, graphSupportChecker).handle();
node1Behavior.verifyWrite();
node1Behavior.setWriteSuccess();
CapturedTimeout speculativeExecution1 = harness.nextScheduledTimeout();
assertThat(speculativeExecution1.getDelay(TimeUnit.MILLISECONDS)).isEqualTo(firstExecutionDelay);
verifyNoMoreInteractions(nodeMetricUpdater1);
speculativeExecution1.task().run(speculativeExecution1);
verify(nodeMetricUpdater1).incrementCounter(DefaultNodeMetric.SPECULATIVE_EXECUTIONS, DriverExecutionProfile.DEFAULT_NAME);
node2Behavior.verifyWrite();
node2Behavior.setWriteSuccess();
CapturedTimeout speculativeExecution2 = harness.nextScheduledTimeout();
assertThat(speculativeExecution2.getDelay(TimeUnit.MILLISECONDS)).isEqualTo(secondExecutionDelay);
verifyNoMoreInteractions(nodeMetricUpdater2);
speculativeExecution2.task().run(speculativeExecution2);
verify(nodeMetricUpdater2).incrementCounter(DefaultNodeMetric.SPECULATIVE_EXECUTIONS, DriverExecutionProfile.DEFAULT_NAME);
node3Behavior.verifyWrite();
node3Behavior.setWriteSuccess();
// No more scheduled tasks since the policy returns 0 on the third call.
assertThat(harness.nextScheduledTimeout()).isNull();
// Note that we don't need to complete any response, the test is just about checking that
// executions are started.
}
}
use of com.datastax.oss.driver.internal.core.util.concurrent.CapturingTimer.CapturedTimeout in project java-driver by datastax.
the class ContinuousGraphRequestHandlerSpeculativeExecutionTest method should_not_start_execution_if_result_complete.
@Test
@UseDataProvider(location = DseTestDataProviders.class, value = "idempotentGraphConfig")
public void should_not_start_execution_if_result_complete(boolean defaultIdempotence, GraphStatement<?> statement) throws Exception {
GraphRequestHandlerTestHarness.Builder harnessBuilder = GraphRequestHandlerTestHarness.builder().withGraphTimeout(Duration.ofSeconds(10)).withDefaultIdempotence(defaultIdempotence);
PoolBehavior node1Behavior = harnessBuilder.customBehavior(node1);
PoolBehavior node2Behavior = harnessBuilder.customBehavior(node2);
try (GraphRequestHandlerTestHarness harness = harnessBuilder.build()) {
SpeculativeExecutionPolicy speculativeExecutionPolicy = harness.getContext().getSpeculativeExecutionPolicy(DriverExecutionProfile.DEFAULT_NAME);
long firstExecutionDelay = 100L;
when(speculativeExecutionPolicy.nextExecution(any(Node.class), eq(null), eq(statement), eq(1))).thenReturn(firstExecutionDelay);
GraphBinaryModule module = createGraphBinaryModule(harness.getContext());
ContinuousGraphRequestHandler requestHandler = new ContinuousGraphRequestHandler(statement, harness.getSession(), harness.getContext(), "test", module, graphSupportChecker);
CompletionStage<AsyncGraphResultSet> resultSetFuture = requestHandler.handle();
node1Behavior.verifyWrite();
node1Behavior.setWriteSuccess();
// The first timeout scheduled should be the global timeout
CapturedTimeout globalTimeout = harness.nextScheduledTimeout();
assertThat(globalTimeout.getDelay(TimeUnit.SECONDS)).isEqualTo(10);
// Check that the first execution was scheduled but don't run it yet
CapturedTimeout speculativeExecution1 = harness.nextScheduledTimeout();
assertThat(speculativeExecution1.getDelay(TimeUnit.MILLISECONDS)).isEqualTo(firstExecutionDelay);
// Complete the request from the initial execution
node1Behavior.setResponseSuccess(defaultDseFrameOf(singleGraphRow(GraphProtocol.GRAPH_BINARY_1_0, module)));
assertThatStage(resultSetFuture).isSuccess();
// Pending speculative executions should have been cancelled. However we don't check
// firstExecutionTask directly because the request handler's onResponse can sometimes be
// invoked before operationComplete (this is very unlikely in practice, but happens in our
// Travis CI build). When that happens, the speculative execution is not recorded yet when
// cancelScheduledTasks runs.
// The fact that we missed the speculative execution is not a problem; even if it starts, it
// will eventually find out that the result is already complete and cancel itself:
speculativeExecution1.task().run(speculativeExecution1);
node2Behavior.verifyNoWrite();
verify(nodeMetricUpdater1).updateTimer(eq(DseNodeMetric.GRAPH_MESSAGES), eq(DriverExecutionProfile.DEFAULT_NAME), anyLong(), eq(TimeUnit.NANOSECONDS));
verifyNoMoreInteractions(nodeMetricUpdater1);
}
}
use of com.datastax.oss.driver.internal.core.util.concurrent.CapturingTimer.CapturedTimeout in project java-driver by datastax.
the class ContinuousGraphRequestHandlerSpeculativeExecutionTest method should_retry_in_speculative_executions.
@Test
@UseDataProvider(location = DseTestDataProviders.class, value = "idempotentGraphConfig")
public void should_retry_in_speculative_executions(boolean defaultIdempotence, GraphStatement<?> statement) throws Exception {
GraphRequestHandlerTestHarness.Builder harnessBuilder = GraphRequestHandlerTestHarness.builder().withDefaultIdempotence(defaultIdempotence);
PoolBehavior node1Behavior = harnessBuilder.customBehavior(node1);
PoolBehavior node2Behavior = harnessBuilder.customBehavior(node2);
PoolBehavior node3Behavior = harnessBuilder.customBehavior(node3);
try (GraphRequestHandlerTestHarness harness = harnessBuilder.build()) {
SpeculativeExecutionPolicy speculativeExecutionPolicy = harness.getContext().getSpeculativeExecutionPolicy(DriverExecutionProfile.DEFAULT_NAME);
long firstExecutionDelay = 100L;
when(speculativeExecutionPolicy.nextExecution(any(Node.class), eq(null), eq(statement), eq(1))).thenReturn(firstExecutionDelay);
GraphBinaryModule module = createGraphBinaryModule(harness.getContext());
CompletionStage<AsyncGraphResultSet> resultSetFuture = new ContinuousGraphRequestHandler(statement, harness.getSession(), harness.getContext(), "test", module, graphSupportChecker).handle();
node1Behavior.verifyWrite();
node1Behavior.setWriteSuccess();
// do not simulate a response from node1. The request will stay hanging for the rest of this
// test
// next scheduled timeout should be the first speculative execution. Get it and run it.
CapturedTimeout speculativeExecution1 = harness.nextScheduledTimeout();
assertThat(speculativeExecution1.getDelay(TimeUnit.MILLISECONDS)).isEqualTo(firstExecutionDelay);
speculativeExecution1.task().run(speculativeExecution1);
node2Behavior.verifyWrite();
node2Behavior.setWriteSuccess();
// node2 replies with a response that triggers a RETRY_NEXT
node2Behavior.setResponseSuccess(defaultDseFrameOf(new Error(ProtocolConstants.ErrorCode.IS_BOOTSTRAPPING, "mock message")));
node3Behavior.setResponseSuccess(defaultDseFrameOf(singleGraphRow(GraphProtocol.GRAPH_BINARY_1_0, module)));
// The second execution should move to node3 and complete the request
assertThatStage(resultSetFuture).isSuccess();
// The request to node1 was still in flight, it should have been cancelled
node1Behavior.verifyCancellation();
}
}
use of com.datastax.oss.driver.internal.core.util.concurrent.CapturingTimer.CapturedTimeout in project java-driver by datastax.
the class ContinuousGraphRequestHandlerTest method should_honor_statement_timeout.
@Test
public void should_honor_statement_timeout() throws Exception {
// given
GraphBinaryModule binaryModule = createGraphBinaryModule(mockContext);
Duration defaultTimeout = Duration.ofSeconds(1);
Duration statementTimeout = Duration.ofSeconds(2);
RequestHandlerTestHarness.Builder builder = GraphRequestHandlerTestHarness.builder().withGraphTimeout(defaultTimeout);
PoolBehavior node1Behavior = builder.customBehavior(node);
try (RequestHandlerTestHarness harness = builder.build()) {
DriverExecutionProfile profile = harness.getContext().getConfig().getDefaultProfile();
when(profile.isDefined(DseDriverOption.GRAPH_SUB_PROTOCOL)).thenReturn(true);
when(profile.getString(DseDriverOption.GRAPH_SUB_PROTOCOL)).thenReturn(GraphProtocol.GRAPH_BINARY_1_0.toInternalCode());
GraphStatement<?> graphStatement = ScriptGraphStatement.newInstance("mockQuery").setTimeout(statementTimeout);
// when
ContinuousGraphRequestHandler handler = new ContinuousGraphRequestHandler(graphStatement, harness.getSession(), harness.getContext(), "test", binaryModule, new GraphSupportChecker());
// send the initial request
CompletionStage<AsyncGraphResultSet> page1Future = handler.handle();
// acknowledge the write, will set the global timeout
node1Behavior.verifyWrite();
node1Behavior.setWriteSuccess();
CapturedTimeout globalTimeout = harness.nextScheduledTimeout();
assertThat(globalTimeout.getDelay(TimeUnit.NANOSECONDS)).isEqualTo(statementTimeout.toNanos());
// will trigger the global timeout and complete it exceptionally
globalTimeout.task().run(globalTimeout);
assertThat(page1Future.toCompletableFuture()).isCompletedExceptionally();
assertThatThrownBy(() -> page1Future.toCompletableFuture().get()).hasRootCauseExactlyInstanceOf(DriverTimeoutException.class).hasMessageContaining("Query timed out after " + statementTimeout);
}
}
use of com.datastax.oss.driver.internal.core.util.concurrent.CapturingTimer.CapturedTimeout in project java-driver by datastax.
the class CqlRequestHandlerSpeculativeExecutionTest method should_retry_in_speculative_executions.
@Test
@UseDataProvider("idempotentConfig")
public void should_retry_in_speculative_executions(boolean defaultIdempotence, Statement<?> statement) throws Exception {
RequestHandlerTestHarness.Builder harnessBuilder = RequestHandlerTestHarness.builder().withDefaultIdempotence(defaultIdempotence);
PoolBehavior node1Behavior = harnessBuilder.customBehavior(node1);
PoolBehavior node2Behavior = harnessBuilder.customBehavior(node2);
harnessBuilder.withResponse(node3, defaultFrameOf(singleRow()));
try (RequestHandlerTestHarness harness = harnessBuilder.build()) {
SpeculativeExecutionPolicy speculativeExecutionPolicy = harness.getContext().getSpeculativeExecutionPolicy(DriverExecutionProfile.DEFAULT_NAME);
long firstExecutionDelay = 100L;
when(speculativeExecutionPolicy.nextExecution(any(Node.class), eq(null), eq(statement), eq(1))).thenReturn(firstExecutionDelay);
CompletionStage<AsyncResultSet> resultSetFuture = new CqlRequestHandler(statement, harness.getSession(), harness.getContext(), "test").handle();
node1Behavior.verifyWrite();
node1Behavior.setWriteSuccess();
// do not simulate a response from node1. The request will stay hanging for the rest of this
// test
// Discard the timeout task
harness.nextScheduledTimeout();
// next scheduled timeout should be the first speculative execution. Get it and run it.
CapturedTimeout speculativeExecution1 = harness.nextScheduledTimeout();
assertThat(speculativeExecution1.getDelay(TimeUnit.MILLISECONDS)).isEqualTo(firstExecutionDelay);
speculativeExecution1.task().run(speculativeExecution1);
node2Behavior.verifyWrite();
node2Behavior.setWriteSuccess();
// node2 replies with a response that triggers a RETRY_NEXT
node2Behavior.setResponseSuccess(defaultFrameOf(new Error(ProtocolConstants.ErrorCode.IS_BOOTSTRAPPING, "mock message")));
// The second execution should move to node3 and complete the request
assertThatStage(resultSetFuture).isSuccess();
// The request to node1 was still in flight, it should have been cancelled
node1Behavior.verifyCancellation();
}
}
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