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/**
* Licensed to the Apache Software Foundation (ASF) under one
* or more contributor license agreements. See the NOTICE file
* distributed with this work for additional information
* regarding copyright ownership. The ASF licenses this file
* to you 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.apache.hadoop.hdfs.server.datanode.checker;
import io.prestosql.hadoop.$internal.com.google.common.annotations.VisibleForTesting;
import io.prestosql.hadoop.$internal.com.google.common.base.Optional;
import io.prestosql.hadoop.$internal.com.google.common.base.Preconditions;
import io.prestosql.hadoop.$internal.com.google.common.collect.Sets;
import io.prestosql.hadoop.$internal.com.google.common.util.concurrent.FutureCallback;
import io.prestosql.hadoop.$internal.com.google.common.util.concurrent.Futures;
import io.prestosql.hadoop.$internal.com.google.common.util.concurrent.ListenableFuture;
import io.prestosql.hadoop.$internal.com.google.common.util.concurrent.ThreadFactoryBuilder;
import org.apache.hadoop.conf.Configuration;
import org.apache.hadoop.hdfs.DFSConfigKeys;
import org.apache.hadoop.hdfs.server.datanode.DataNode;
import org.apache.hadoop.hdfs.server.datanode.fsdataset.FsDatasetSpi;
import org.apache.hadoop.hdfs.server.datanode.fsdataset.FsVolumeReference;
import org.apache.hadoop.hdfs.server.datanode.fsdataset.FsVolumeSpi;
import org.apache.hadoop.hdfs.server.datanode.fsdataset.FsVolumeSpi.VolumeCheckContext;
import org.apache.hadoop.io.IOUtils;
import org.apache.hadoop.util.DiskChecker.DiskErrorException;
import org.apache.hadoop.util.Timer;
import io.prestosql.hadoop.$internal.org.slf4j.Logger;
import io.prestosql.hadoop.$internal.org.slf4j.LoggerFactory;
import javax.annotation.Nonnull;
import javax.annotation.Nullable;
import java.nio.channels.ClosedChannelException;
import java.util.Collections;
import java.util.HashSet;
import java.util.Set;
import java.util.concurrent.CountDownLatch;
import java.util.concurrent.ExecutionException;
import java.util.concurrent.ExecutorService;
import java.util.concurrent.Executors;
import java.util.concurrent.TimeUnit;
import java.util.concurrent.atomic.AtomicLong;
import static org.apache.hadoop.hdfs.DFSConfigKeys.DFS_DATANODE_DISK_CHECK_MIN_GAP_KEY;
import static org.apache.hadoop.hdfs.DFSConfigKeys.DFS_DATANODE_DISK_CHECK_TIMEOUT_DEFAULT;
import static org.apache.hadoop.hdfs.DFSConfigKeys.DFS_DATANODE_DISK_CHECK_TIMEOUT_KEY;
import static org.apache.hadoop.hdfs.DFSConfigKeys.DFS_DATANODE_FAILED_VOLUMES_TOLERATED_DEFAULT;
import static org.apache.hadoop.hdfs.DFSConfigKeys.DFS_DATANODE_FAILED_VOLUMES_TOLERATED_KEY;
/**
* A class that encapsulates running disk checks against each volume of an
* {@link FsDatasetSpi} and allows retrieving a list of failed volumes.
*
* This splits out behavior that was originally implemented across
* DataNode, FsDatasetImpl and FsVolumeList.
*/
public class DatasetVolumeChecker {
public static final Logger LOG =
LoggerFactory.getLogger(DatasetVolumeChecker.class);
private AsyncChecker delegateChecker;
private final AtomicLong numVolumeChecks = new AtomicLong(0);
private final AtomicLong numSyncDatasetChecks = new AtomicLong(0);
private final AtomicLong numAsyncDatasetChecks = new AtomicLong(0);
private final AtomicLong numSkippedChecks = new AtomicLong(0);
/**
* Max allowed time for a disk check in milliseconds. If the check
* doesn't complete within this time we declare the disk as dead.
*/
private final long maxAllowedTimeForCheckMs;
/**
* Maximum number of volume failures that can be tolerated without
* declaring a fatal error.
*/
private final int maxVolumeFailuresTolerated;
/**
* Minimum time between two successive disk checks of a volume.
*/
private final long minDiskCheckGapMs;
private final long diskCheckTimeout;
/**
* Timestamp of the last check of all volumes.
*/
private long lastAllVolumesCheck;
private final Timer timer;
private static final VolumeCheckContext IGNORED_CONTEXT =
new VolumeCheckContext();
private final ExecutorService checkVolumeResultHandlerExecutorService;
/**
* @param conf Configuration object.
* @param timer {@link Timer} object used for throttling checks.
*/
public DatasetVolumeChecker(Configuration conf, Timer timer)
throws DiskErrorException {
maxAllowedTimeForCheckMs = conf.getTimeDuration(
DFS_DATANODE_DISK_CHECK_TIMEOUT_KEY,
DFS_DATANODE_DISK_CHECK_TIMEOUT_DEFAULT,
TimeUnit.MILLISECONDS);
if (maxAllowedTimeForCheckMs <= 0) {
throw new DiskErrorException("Invalid value configured for "
+ DFS_DATANODE_DISK_CHECK_TIMEOUT_KEY + " - "
+ maxAllowedTimeForCheckMs + " (should be > 0)");
}
this.timer = timer;
maxVolumeFailuresTolerated = conf.getInt(
DFS_DATANODE_FAILED_VOLUMES_TOLERATED_KEY,
DFS_DATANODE_FAILED_VOLUMES_TOLERATED_DEFAULT);
minDiskCheckGapMs = conf.getTimeDuration(
DFSConfigKeys.DFS_DATANODE_DISK_CHECK_MIN_GAP_KEY,
DFSConfigKeys.DFS_DATANODE_DISK_CHECK_MIN_GAP_DEFAULT,
TimeUnit.MILLISECONDS);
if (minDiskCheckGapMs < 0) {
throw new DiskErrorException("Invalid value configured for "
+ DFS_DATANODE_DISK_CHECK_MIN_GAP_KEY + " - "
+ minDiskCheckGapMs + " (should be >= 0)");
}
diskCheckTimeout = conf.getTimeDuration(
DFSConfigKeys.DFS_DATANODE_DISK_CHECK_TIMEOUT_KEY,
DFSConfigKeys.DFS_DATANODE_DISK_CHECK_TIMEOUT_DEFAULT,
TimeUnit.MILLISECONDS);
if (diskCheckTimeout < 0) {
throw new DiskErrorException("Invalid value configured for "
+ DFS_DATANODE_DISK_CHECK_TIMEOUT_KEY + " - "
+ diskCheckTimeout + " (should be >= 0)");
}
lastAllVolumesCheck = timer.monotonicNow() - minDiskCheckGapMs;
if (maxVolumeFailuresTolerated < DataNode.MAX_VOLUME_FAILURE_TOLERATED_LIMIT) {
throw new DiskErrorException("Invalid value configured for "
+ DFS_DATANODE_FAILED_VOLUMES_TOLERATED_KEY + " - "
+ maxVolumeFailuresTolerated + " "
+ DataNode.MAX_VOLUME_FAILURES_TOLERATED_MSG);
}
delegateChecker = new ThrottledAsyncChecker<>(
timer, minDiskCheckGapMs, diskCheckTimeout,
Executors.newCachedThreadPool(
new ThreadFactoryBuilder()
.setNameFormat("DataNode DiskChecker thread %d")
.setDaemon(true)
.build()));
checkVolumeResultHandlerExecutorService = Executors.newCachedThreadPool(
new ThreadFactoryBuilder()
.setNameFormat("VolumeCheck ResultHandler thread %d")
.setDaemon(true)
.build());
}
/**
* Run checks against all volumes of a dataset.
*
* This check may be performed at service startup and subsequently at
* regular intervals to detect and handle failed volumes.
*
* @param dataset - FsDatasetSpi to be checked.
* @return set of failed volumes.
*/
public Set checkAllVolumes(
final FsDatasetSpi extends FsVolumeSpi> dataset)
throws InterruptedException {
final long gap = timer.monotonicNow() - lastAllVolumesCheck;
if (gap < minDiskCheckGapMs) {
numSkippedChecks.incrementAndGet();
LOG.trace(
"Skipped checking all volumes, time since last check {} is less " +
"than the minimum gap between checks ({} ms).",
gap, minDiskCheckGapMs);
return Collections.emptySet();
}
final FsDatasetSpi.FsVolumeReferences references =
dataset.getFsVolumeReferences();
if (references.size() == 0) {
LOG.warn("checkAllVolumesAsync - no volumes can be referenced");
return Collections.emptySet();
}
lastAllVolumesCheck = timer.monotonicNow();
final Set healthyVolumes = new HashSet<>();
final Set failedVolumes = new HashSet<>();
final Set allVolumes = new HashSet<>();
final AtomicLong numVolumes = new AtomicLong(references.size());
final CountDownLatch latch = new CountDownLatch(1);
for (int i = 0; i < references.size(); ++i) {
final FsVolumeReference reference = references.getReference(i);
Optional> olf =
delegateChecker.schedule(reference.getVolume(), IGNORED_CONTEXT);
LOG.info("Scheduled health check for volume {}", reference.getVolume());
if (olf.isPresent()) {
allVolumes.add(reference.getVolume());
Futures.addCallback(olf.get(),
new ResultHandler(reference, healthyVolumes, failedVolumes,
numVolumes, new Callback() {
@Override
public void call(Set ignored1,
Set ignored2) {
latch.countDown();
}
}));
} else {
IOUtils.cleanup(null, reference);
if (numVolumes.decrementAndGet() == 0) {
latch.countDown();
}
}
}
// Wait until our timeout elapses, after which we give up on
// the remaining volumes.
if (!latch.await(maxAllowedTimeForCheckMs, TimeUnit.MILLISECONDS)) {
LOG.warn("checkAllVolumes timed out after {} ms" +
maxAllowedTimeForCheckMs);
}
numSyncDatasetChecks.incrementAndGet();
synchronized (this) {
// All volumes that have not been detected as healthy should be
// considered failed. This is a superset of 'failedVolumes'.
//
// Make a copy under the mutex as Sets.difference() returns a view
// of a potentially changing set.
return new HashSet<>(Sets.difference(allVolumes, healthyVolumes));
}
}
/**
* A callback interface that is supplied the result of running an
* async disk check on multiple volumes.
*/
public interface Callback {
/**
* @param healthyVolumes set of volumes that passed disk checks.
* @param failedVolumes set of volumes that failed disk checks.
*/
void call(Set healthyVolumes,
Set failedVolumes);
}
/**
* Check a single volume asynchronously, returning a {@link ListenableFuture}
* that can be used to retrieve the final result.
*
* If the volume cannot be referenced then it is already closed and
* cannot be checked. No error is propagated to the callback.
*
* @param volume the volume that is to be checked.
* @param callback callback to be invoked when the volume check completes.
* @return true if the check was scheduled and the callback will be invoked.
* false otherwise.
*/
public boolean checkVolume(
final FsVolumeSpi volume,
Callback callback) {
if (volume == null) {
LOG.debug("Cannot schedule check on null volume");
return false;
}
FsVolumeReference volumeReference;
try {
volumeReference = volume.obtainReference();
} catch (ClosedChannelException e) {
// The volume has already been closed.
return false;
}
Optional> olf =
delegateChecker.schedule(volume, IGNORED_CONTEXT);
if (olf.isPresent()) {
numVolumeChecks.incrementAndGet();
Futures.addCallback(olf.get(),
new ResultHandler(volumeReference, new HashSet<>(), new HashSet<>(),
new AtomicLong(1), callback),
checkVolumeResultHandlerExecutorService
);
return true;
} else {
IOUtils.cleanup(null, volumeReference);
}
return false;
}
/**
* A callback to process the results of checking a volume.
*/
private class ResultHandler
implements FutureCallback {
private final FsVolumeReference reference;
private final Set failedVolumes;
private final Set healthyVolumes;
private final AtomicLong volumeCounter;
@Nullable
private final Callback callback;
/**
*
* @param reference FsVolumeReference to be released when the check is
* complete.
* @param healthyVolumes set of healthy volumes. If the disk check is
* successful, add the volume here.
* @param failedVolumes set of failed volumes. If the disk check fails,
* add the volume here.
* @param volumeCounter volumeCounter used to trigger callback invocation.
* @param callback invoked when the volumeCounter reaches 0.
*/
ResultHandler(FsVolumeReference reference,
Set healthyVolumes,
Set failedVolumes,
AtomicLong volumeCounter,
@Nullable Callback callback) {
Preconditions.checkState(reference != null);
this.reference = reference;
this.healthyVolumes = healthyVolumes;
this.failedVolumes = failedVolumes;
this.volumeCounter = volumeCounter;
this.callback = callback;
}
@Override
public void onSuccess(@Nonnull VolumeCheckResult result) {
switch(result) {
case HEALTHY:
case DEGRADED:
LOG.debug("Volume {} is {}.", reference.getVolume(), result);
markHealthy();
break;
case FAILED:
LOG.warn("Volume {} detected as being unhealthy",
reference.getVolume());
markFailed();
break;
default:
LOG.error("Unexpected health check result {} for volume {}",
result, reference.getVolume());
markHealthy();
break;
}
cleanup();
}
@Override
public void onFailure(@Nonnull Throwable t) {
Throwable exception = (t instanceof ExecutionException) ?
t.getCause() : t;
LOG.warn("Exception running disk checks against volume " +
reference.getVolume(), exception);
markFailed();
cleanup();
}
private void markHealthy() {
synchronized (DatasetVolumeChecker.this) {
healthyVolumes.add(reference.getVolume());
}
}
private void markFailed() {
synchronized (DatasetVolumeChecker.this) {
failedVolumes.add(reference.getVolume());
}
}
private void cleanup() {
IOUtils.cleanup(null, reference);
invokeCallback();
}
private void invokeCallback() {
try {
final long remaining = volumeCounter.decrementAndGet();
if (callback != null && remaining == 0) {
callback.call(healthyVolumes, failedVolumes);
}
} catch(Exception e) {
// Propagating this exception is unlikely to be helpful.
LOG.warn("Unexpected exception", e);
}
}
}
/**
* Shutdown the checker and its associated ExecutorService.
*
* See {@link ExecutorService#awaitTermination} for the interpretation
* of the parameters.
*/
public void shutdownAndWait(int gracePeriod, TimeUnit timeUnit) {
try {
delegateChecker.shutdownAndWait(gracePeriod, timeUnit);
} catch (InterruptedException e) {
LOG.warn("DatasetVolumeChecker interrupted during shutdown.");
Thread.currentThread().interrupt();
}
}
/**
* This method is for testing only.
*
* @param testDelegate
*/
@VisibleForTesting
void setDelegateChecker(
AsyncChecker testDelegate) {
delegateChecker = testDelegate;
}
/**
* Return the number of {@link #checkVolume} invocations.
*/
public long getNumVolumeChecks() {
return numVolumeChecks.get();
}
/**
* Return the number of {@link #checkAllVolumes} invocations.
*/
public long getNumSyncDatasetChecks() {
return numSyncDatasetChecks.get();
}
/**
* Return the number of checks skipped because the minimum gap since the
* last check had not elapsed.
*/
public long getNumSkippedChecks() {
return numSkippedChecks.get();
}
}