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com.hazelcast.client.proxy.ClientScheduledFutureProxy Maven / Gradle / Ivy
/*
* Copyright (c) 2008-2017, Hazelcast, Inc. All Rights Reserved.
*
* 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 com.hazelcast.client.proxy;
import com.hazelcast.client.impl.protocol.ClientMessage;
import com.hazelcast.client.impl.protocol.codec.ScheduledExecutorCancelFromAddressCodec;
import com.hazelcast.client.impl.protocol.codec.ScheduledExecutorCancelFromPartitionCodec;
import com.hazelcast.client.impl.protocol.codec.ScheduledExecutorDisposeFromAddressCodec;
import com.hazelcast.client.impl.protocol.codec.ScheduledExecutorDisposeFromPartitionCodec;
import com.hazelcast.client.impl.protocol.codec.ScheduledExecutorGetDelayFromAddressCodec;
import com.hazelcast.client.impl.protocol.codec.ScheduledExecutorGetDelayFromPartitionCodec;
import com.hazelcast.client.impl.protocol.codec.ScheduledExecutorGetResultFromAddressCodec;
import com.hazelcast.client.impl.protocol.codec.ScheduledExecutorGetResultFromPartitionCodec;
import com.hazelcast.client.impl.protocol.codec.ScheduledExecutorGetStatsFromAddressCodec;
import com.hazelcast.client.impl.protocol.codec.ScheduledExecutorGetStatsFromPartitionCodec;
import com.hazelcast.client.impl.protocol.codec.ScheduledExecutorIsCancelledFromAddressCodec;
import com.hazelcast.client.impl.protocol.codec.ScheduledExecutorIsCancelledFromPartitionCodec;
import com.hazelcast.client.impl.protocol.codec.ScheduledExecutorIsDoneFromAddressCodec;
import com.hazelcast.client.impl.protocol.codec.ScheduledExecutorIsDoneFromPartitionCodec;
import com.hazelcast.client.spi.ClientContext;
import com.hazelcast.client.spi.ClientProxy;
import com.hazelcast.client.spi.impl.ClientInvocation;
import com.hazelcast.client.spi.impl.ClientInvocationFuture;
import com.hazelcast.nio.Address;
import com.hazelcast.nio.serialization.Data;
import com.hazelcast.scheduledexecutor.IScheduledFuture;
import com.hazelcast.scheduledexecutor.ScheduledTaskHandler;
import com.hazelcast.scheduledexecutor.ScheduledTaskStatistics;
import com.hazelcast.scheduledexecutor.StaleTaskException;
import com.hazelcast.scheduledexecutor.impl.DistributedScheduledExecutorService;
import com.hazelcast.scheduledexecutor.impl.ScheduledTaskStatisticsImpl;
import java.util.concurrent.Callable;
import java.util.concurrent.Delayed;
import java.util.concurrent.ExecutionException;
import java.util.concurrent.TimeUnit;
import java.util.concurrent.TimeoutException;
import static com.hazelcast.util.ExceptionUtil.rethrow;
import static com.hazelcast.util.Preconditions.checkNotNull;
/**
* Proxy implementation of {@link IScheduledFuture}.
*
* @param the return type of the {@link Callable#call()}
*/
public class ClientScheduledFutureProxy
extends ClientProxy
implements IScheduledFuture {
private ScheduledTaskHandler handler;
ClientScheduledFutureProxy(ScheduledTaskHandler handler, ClientContext context) {
super(DistributedScheduledExecutorService.SERVICE_NAME, handler.getSchedulerName(), context);
this.handler = handler;
}
@Override
public ScheduledTaskHandler getHandler() {
return handler;
}
@Override
public ScheduledTaskStatistics getStats() {
checkAccessibleHandler();
Address address = handler.getAddress();
String schedulerName = handler.getSchedulerName();
String taskName = handler.getTaskName();
int partitionId = handler.getPartitionId();
if (address != null) {
ClientMessage request = ScheduledExecutorGetStatsFromAddressCodec.encodeRequest(schedulerName, taskName, address);
ClientMessage response = invokeOnAddress(request, address);
ScheduledExecutorGetStatsFromAddressCodec.ResponseParameters responseParameters =
ScheduledExecutorGetStatsFromAddressCodec.decodeResponse(response);
return new ScheduledTaskStatisticsImpl(responseParameters.totalRuns, responseParameters.lastIdleTimeNanos,
responseParameters.totalRunTimeNanos, responseParameters.totalIdleTimeNanos);
} else {
ClientMessage request = ScheduledExecutorGetStatsFromPartitionCodec.encodeRequest(schedulerName, taskName);
ClientMessage response = invokeOnPartition(request, partitionId);
ScheduledExecutorGetStatsFromAddressCodec.ResponseParameters responseParameters =
ScheduledExecutorGetStatsFromAddressCodec.decodeResponse(response);
return new ScheduledTaskStatisticsImpl(responseParameters.totalRuns, responseParameters.lastIdleTimeNanos,
responseParameters.totalRunTimeNanos, responseParameters.totalIdleTimeNanos);
}
}
@Override
public long getDelay(TimeUnit unit) {
checkNotNull(unit, "Unit is null");
checkAccessibleHandler();
Address address = handler.getAddress();
String schedulerName = handler.getSchedulerName();
String taskName = handler.getTaskName();
int partitionId = handler.getPartitionId();
if (address != null) {
ClientMessage request = ScheduledExecutorGetDelayFromAddressCodec.encodeRequest(schedulerName, taskName, address);
ClientMessage response = invokeOnAddress(request, address);
long nanos = ScheduledExecutorGetDelayFromAddressCodec.decodeResponse(response).response;
return unit.convert(nanos, TimeUnit.NANOSECONDS);
} else {
ClientMessage request = ScheduledExecutorGetDelayFromPartitionCodec.encodeRequest(schedulerName, taskName);
ClientMessage response = invokeOnPartition(request, partitionId);
long nanos = ScheduledExecutorGetDelayFromPartitionCodec.decodeResponse(response).response;
return unit.convert(nanos, TimeUnit.NANOSECONDS);
}
}
@Override
public int compareTo(Delayed o) {
throw new UnsupportedOperationException();
}
@Override
public boolean cancel(boolean mayInterruptIfRunning) {
if (mayInterruptIfRunning) {
// DelegateAndSkipOnConcurrentExecutionDecorator doesn't expose the Executor's future
// therefore we don't have access to the runner thread to interrupt. We could access through Thread.currentThread()
// inside the TaskRunner but it adds extra complexity.
throw new UnsupportedOperationException("mayInterruptIfRunning flag is not supported.");
}
checkAccessibleHandler();
Address address = handler.getAddress();
String schedulerName = handler.getSchedulerName();
String taskName = handler.getTaskName();
int partitionId = handler.getPartitionId();
if (address != null) {
ClientMessage request = ScheduledExecutorCancelFromAddressCodec.encodeRequest(schedulerName, taskName,
address, false);
ClientMessage response = invokeOnAddress(request, address);
return ScheduledExecutorCancelFromAddressCodec.decodeResponse(response).response;
} else {
ClientMessage request = ScheduledExecutorCancelFromPartitionCodec.encodeRequest(schedulerName,
taskName, false);
ClientMessage response = invokeOnPartition(request, partitionId);
return ScheduledExecutorCancelFromPartitionCodec.decodeResponse(response).response;
}
}
@Override
public boolean isCancelled() {
checkAccessibleHandler();
Address address = handler.getAddress();
String schedulerName = handler.getSchedulerName();
String taskName = handler.getTaskName();
int partitionId = handler.getPartitionId();
if (address != null) {
ClientMessage request = ScheduledExecutorIsCancelledFromAddressCodec.encodeRequest(schedulerName,
taskName, address);
ClientMessage response = invokeOnAddress(request, address);
return ScheduledExecutorIsCancelledFromAddressCodec.decodeResponse(response).response;
} else {
ClientMessage request = ScheduledExecutorIsCancelledFromPartitionCodec.encodeRequest(schedulerName, taskName);
ClientMessage response = invokeOnPartition(request, partitionId);
return ScheduledExecutorIsCancelledFromPartitionCodec.decodeResponse(response).response;
}
}
@Override
public boolean isDone() {
checkAccessibleHandler();
Address address = handler.getAddress();
String schedulerName = handler.getSchedulerName();
String taskName = handler.getTaskName();
int partitionId = handler.getPartitionId();
if (address != null) {
ClientMessage request = ScheduledExecutorIsDoneFromAddressCodec.encodeRequest(schedulerName, taskName, address);
ClientMessage response = invokeOnAddress(request, address);
return ScheduledExecutorIsDoneFromAddressCodec.decodeResponse(response).response;
} else {
ClientMessage request = ScheduledExecutorIsDoneFromPartitionCodec.encodeRequest(schedulerName, taskName);
ClientMessage response = invokeOnPartition(request, partitionId);
return ScheduledExecutorIsDoneFromPartitionCodec.decodeResponse(response).response;
}
}
private V get0(long timeout, TimeUnit unit) throws InterruptedException, ExecutionException, TimeoutException {
checkAccessibleHandler();
Address address = handler.getAddress();
String schedulerName = handler.getSchedulerName();
String taskName = handler.getTaskName();
int partitionId = handler.getPartitionId();
if (address != null) {
ClientMessage request = ScheduledExecutorGetResultFromAddressCodec.encodeRequest(schedulerName, taskName, address);
ClientInvocationFuture future = new ClientInvocation(getClient(), request, schedulerName, address).invoke();
ClientMessage response = future.get(timeout, unit);
Data data = ScheduledExecutorGetResultFromAddressCodec.decodeResponse(response).response;
return toObject(data);
} else {
ClientMessage request = ScheduledExecutorGetResultFromPartitionCodec.encodeRequest(schedulerName, taskName);
ClientInvocationFuture future = new ClientInvocation(getClient(), request, schedulerName, partitionId).invoke();
ClientMessage response = future.get(timeout, unit);
Data data = ScheduledExecutorGetResultFromPartitionCodec.decodeResponse(response).response;
return toObject(data);
}
}
@Override
public V get()
throws InterruptedException, ExecutionException {
try {
return this.get0(Long.MAX_VALUE, TimeUnit.DAYS);
} catch (TimeoutException e) {
throw rethrow(e);
}
}
@Override
public V get(long timeout, TimeUnit unit)
throws InterruptedException, ExecutionException, TimeoutException {
checkNotNull(unit, "Unit is null");
return this.get0(timeout, unit);
}
public void dispose() {
checkAccessibleHandler();
Address address = handler.getAddress();
String schedulerName = handler.getSchedulerName();
String taskName = handler.getTaskName();
int partitionId = handler.getPartitionId();
if (address != null) {
ClientMessage request = ScheduledExecutorDisposeFromAddressCodec.encodeRequest(schedulerName, taskName, address);
invokeOnAddress(request, address);
} else {
ClientMessage request = ScheduledExecutorDisposeFromPartitionCodec.encodeRequest(schedulerName, taskName);
invokeOnPartition(request, partitionId);
}
handler = null;
}
private void checkAccessibleHandler() {
if (handler == null) {
throw new StaleTaskException(
"Scheduled task was previously disposed.");
}
}
}