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/*
* Licensed to Elasticsearch under one or more contributor
* license agreements. See the NOTICE file distributed with
* this work for additional information regarding copyright
* ownership. Elasticsearch 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.elasticsearch.index.engine;
import org.apache.lucene.index.DirectoryReader;
import org.apache.lucene.index.FilterLeafReader;
import org.apache.lucene.index.IndexCommit;
import org.apache.lucene.index.IndexFileNames;
import org.apache.lucene.index.IndexReader;
import org.apache.lucene.index.IndexWriter;
import org.apache.lucene.index.LeafReader;
import org.apache.lucene.index.LeafReaderContext;
import org.apache.lucene.index.SegmentCommitInfo;
import org.apache.lucene.index.SegmentInfo;
import org.apache.lucene.index.SegmentInfos;
import org.apache.lucene.index.SegmentReader;
import org.apache.lucene.index.SnapshotDeletionPolicy;
import org.apache.lucene.index.Term;
import org.apache.lucene.search.IndexSearcher;
import org.apache.lucene.search.Query;
import org.apache.lucene.search.SearcherManager;
import org.apache.lucene.search.join.BitSetProducer;
import org.apache.lucene.store.AlreadyClosedException;
import org.apache.lucene.store.Directory;
import org.apache.lucene.store.IOContext;
import org.apache.lucene.util.Accountable;
import org.apache.lucene.util.Accountables;
import org.elasticsearch.ExceptionsHelper;
import org.elasticsearch.common.Base64;
import org.elasticsearch.common.Nullable;
import org.elasticsearch.common.bytes.BytesReference;
import org.elasticsearch.common.collect.ImmutableOpenMap;
import org.elasticsearch.common.io.stream.StreamInput;
import org.elasticsearch.common.io.stream.StreamOutput;
import org.elasticsearch.common.io.stream.Writeable;
import org.elasticsearch.common.lease.Releasable;
import org.elasticsearch.common.lease.Releasables;
import org.elasticsearch.common.logging.ESLogger;
import org.elasticsearch.common.logging.Loggers;
import org.elasticsearch.common.lucene.Lucene;
import org.elasticsearch.common.lucene.uid.Versions;
import org.elasticsearch.common.metrics.CounterMetric;
import org.elasticsearch.common.unit.TimeValue;
import org.elasticsearch.common.util.concurrent.ReleasableLock;
import org.elasticsearch.index.VersionType;
import org.elasticsearch.index.mapper.ParseContext.Document;
import org.elasticsearch.index.mapper.ParsedDocument;
import org.elasticsearch.index.mapper.Uid;
import org.elasticsearch.index.merge.MergeStats;
import org.elasticsearch.index.shard.ShardId;
import org.elasticsearch.index.shard.TranslogRecoveryPerformer;
import org.elasticsearch.index.store.Store;
import org.elasticsearch.index.translog.Translog;
import java.io.Closeable;
import java.io.FileNotFoundException;
import java.io.IOException;
import java.nio.file.NoSuchFileException;
import java.util.Arrays;
import java.util.Collection;
import java.util.Comparator;
import java.util.HashMap;
import java.util.List;
import java.util.Map;
import java.util.Objects;
import java.util.concurrent.TimeUnit;
import java.util.concurrent.atomic.AtomicBoolean;
import java.util.concurrent.locks.Condition;
import java.util.concurrent.locks.Lock;
import java.util.concurrent.locks.ReentrantLock;
import java.util.concurrent.locks.ReentrantReadWriteLock;
import java.util.function.Function;
/**
*
*/
public abstract class Engine implements Closeable {
public static final String SYNC_COMMIT_ID = "sync_id";
protected final ShardId shardId;
protected final ESLogger logger;
protected final EngineConfig engineConfig;
protected final Store store;
protected final AtomicBoolean isClosed = new AtomicBoolean(false);
protected final EventListener eventListener;
protected final SnapshotDeletionPolicy deletionPolicy;
protected final ReentrantLock failEngineLock = new ReentrantLock();
protected final ReentrantReadWriteLock rwl = new ReentrantReadWriteLock();
protected final ReleasableLock readLock = new ReleasableLock(rwl.readLock());
protected final ReleasableLock writeLock = new ReleasableLock(rwl.writeLock());
protected volatile Throwable failedEngine = null;
/*
* on lastWriteNanos we use System.nanoTime() to initialize this since:
* - we use the value for figuring out if the shard / engine is active so if we startup and no write has happened yet we still consider it active
* for the duration of the configured active to inactive period. If we initialize to 0 or Long.MAX_VALUE we either immediately or never mark it
* inactive if no writes at all happen to the shard.
* - we also use this to flush big-ass merges on an inactive engine / shard but if we we initialize 0 or Long.MAX_VALUE we either immediately or never
* commit merges even though we shouldn't from a user perspective (this can also have funky sideeffects in tests when we open indices with lots of segments
* and suddenly merges kick in.
* NOTE: don't use this value for anything accurate it's a best effort for freeing up diskspace after merges and on a shard level to reduce index buffer sizes on
* inactive shards.
*/
protected volatile long lastWriteNanos = System.nanoTime();
protected Engine(EngineConfig engineConfig) {
Objects.requireNonNull(engineConfig.getStore(), "Store must be provided to the engine");
Objects.requireNonNull(engineConfig.getDeletionPolicy(), "Snapshot deletion policy must be provided to the engine");
this.engineConfig = engineConfig;
this.shardId = engineConfig.getShardId();
this.store = engineConfig.getStore();
this.logger = Loggers.getLogger(Engine.class, // we use the engine class directly here to make sure all subclasses have the same logger name
engineConfig.getIndexSettings().getSettings(), engineConfig.getShardId());
this.eventListener = engineConfig.getEventListener();
this.deletionPolicy = engineConfig.getDeletionPolicy();
}
/** Returns 0 in the case where accountable is null, otherwise returns {@code ramBytesUsed()} */
protected static long guardedRamBytesUsed(Accountable a) {
if (a == null) {
return 0;
}
return a.ramBytesUsed();
}
/**
* Tries to extract a segment reader from the given index reader.
* If no SegmentReader can be extracted an {@link IllegalStateException} is thrown.
*/
protected static SegmentReader segmentReader(LeafReader reader) {
if (reader instanceof SegmentReader) {
return (SegmentReader) reader;
} else if (reader instanceof FilterLeafReader) {
final FilterLeafReader fReader = (FilterLeafReader) reader;
return segmentReader(FilterLeafReader.unwrap(fReader));
}
// hard fail - we can't get a SegmentReader
throw new IllegalStateException("Can not extract segment reader from given index reader [" + reader + "]");
}
/**
* Returns whether a leaf reader comes from a merge (versus flush or addIndexes).
*/
protected static boolean isMergedSegment(LeafReader reader) {
// We expect leaves to be segment readers
final Map diagnostics = segmentReader(reader).getSegmentInfo().info.getDiagnostics();
final String source = diagnostics.get(IndexWriter.SOURCE);
assert Arrays.asList(IndexWriter.SOURCE_ADDINDEXES_READERS, IndexWriter.SOURCE_FLUSH,
IndexWriter.SOURCE_MERGE).contains(source) : "Unknown source " + source;
return IndexWriter.SOURCE_MERGE.equals(source);
}
protected Searcher newSearcher(String source, IndexSearcher searcher, SearcherManager manager) {
return new EngineSearcher(source, searcher, manager, store, logger);
}
public final EngineConfig config() {
return engineConfig;
}
protected abstract SegmentInfos getLastCommittedSegmentInfos();
public MergeStats getMergeStats() {
return new MergeStats();
}
/**
* A throttling class that can be activated, causing the
* {@code acquireThrottle} method to block on a lock when throttling
* is enabled
*/
protected static final class IndexThrottle {
private final CounterMetric throttleTimeMillisMetric = new CounterMetric();
private volatile long startOfThrottleNS;
private static final ReleasableLock NOOP_LOCK = new ReleasableLock(new NoOpLock());
private final ReleasableLock lockReference = new ReleasableLock(new ReentrantLock());
private volatile ReleasableLock lock = NOOP_LOCK;
public Releasable acquireThrottle() {
return lock.acquire();
}
/** Activate throttling, which switches the lock to be a real lock */
public void activate() {
assert lock == NOOP_LOCK : "throttling activated while already active";
startOfThrottleNS = System.nanoTime();
lock = lockReference;
}
/** Deactivate throttling, which switches the lock to be an always-acquirable NoOpLock */
public void deactivate() {
assert lock != NOOP_LOCK : "throttling deactivated but not active";
lock = NOOP_LOCK;
assert startOfThrottleNS > 0 : "Bad state of startOfThrottleNS";
long throttleTimeNS = System.nanoTime() - startOfThrottleNS;
if (throttleTimeNS >= 0) {
// Paranoia (System.nanoTime() is supposed to be monotonic): time slip may have occurred but never want to add a negative number
throttleTimeMillisMetric.inc(TimeValue.nsecToMSec(throttleTimeNS));
}
}
long getThrottleTimeInMillis() {
long currentThrottleNS = 0;
if (isThrottled() && startOfThrottleNS != 0) {
currentThrottleNS += System.nanoTime() - startOfThrottleNS;
if (currentThrottleNS < 0) {
// Paranoia (System.nanoTime() is supposed to be monotonic): time slip must have happened, have to ignore this value
currentThrottleNS = 0;
}
}
return throttleTimeMillisMetric.count() + TimeValue.nsecToMSec(currentThrottleNS);
}
boolean isThrottled() {
return lock != NOOP_LOCK;
}
}
/**
* Returns the number of milliseconds this engine was under index throttling.
*/
public long getIndexThrottleTimeInMillis() {
return 0;
}
/**
* Returns the true iff this engine is currently under index throttling.
* @see #getIndexThrottleTimeInMillis()
*/
public boolean isThrottled() {
return false;
}
/** A Lock implementation that always allows the lock to be acquired */
protected static final class NoOpLock implements Lock {
@Override
public void lock() {
}
@Override
public void lockInterruptibly() throws InterruptedException {
}
@Override
public boolean tryLock() {
return true;
}
@Override
public boolean tryLock(long time, TimeUnit unit) throws InterruptedException {
return true;
}
@Override
public void unlock() {
}
@Override
public Condition newCondition() {
throw new UnsupportedOperationException("NoOpLock can't provide a condition");
}
}
public abstract boolean index(Index operation) throws EngineException;
public abstract void delete(Delete delete) throws EngineException;
/**
* Attempts to do a special commit where the given syncID is put into the commit data. The attempt
* succeeds if there are not pending writes in lucene and the current point is equal to the expected one.
*
* @param syncId id of this sync
* @param expectedCommitId the expected value of
* @return true if the sync commit was made, false o.w.
*/
public abstract SyncedFlushResult syncFlush(String syncId, CommitId expectedCommitId) throws EngineException;
public enum SyncedFlushResult {
SUCCESS,
COMMIT_MISMATCH,
PENDING_OPERATIONS
}
final protected GetResult getFromSearcher(Get get, Function searcherFactory) throws EngineException {
final Searcher searcher = searcherFactory.apply("get");
final Versions.DocIdAndVersion docIdAndVersion;
try {
docIdAndVersion = Versions.loadDocIdAndVersion(searcher.reader(), get.uid());
} catch (Throwable e) {
Releasables.closeWhileHandlingException(searcher);
//TODO: A better exception goes here
throw new EngineException(shardId, "Couldn't resolve version", e);
}
if (docIdAndVersion != null) {
if (get.versionType().isVersionConflictForReads(docIdAndVersion.version, get.version())) {
Releasables.close(searcher);
Uid uid = Uid.createUid(get.uid().text());
throw new VersionConflictEngineException(shardId, uid.type(), uid.id(),
get.versionType().explainConflictForReads(docIdAndVersion.version, get.version()));
}
}
if (docIdAndVersion != null) {
// don't release the searcher on this path, it is the
// responsibility of the caller to call GetResult.release
return new GetResult(searcher, docIdAndVersion);
} else {
Releasables.close(searcher);
return GetResult.NOT_EXISTS;
}
}
public final GetResult get(Get get) throws EngineException {
return get(get, this::acquireSearcher);
}
public abstract GetResult get(Get get, Function searcherFactory) throws EngineException;
/**
* Returns a new searcher instance. The consumer of this
* API is responsible for releasing the returned seacher in a
* safe manner, preferably in a try/finally block.
*
* @see Searcher#close()
*/
public final Searcher acquireSearcher(String source) throws EngineException {
boolean success = false;
/* Acquire order here is store -> manager since we need
* to make sure that the store is not closed before
* the searcher is acquired. */
store.incRef();
try {
final SearcherManager manager = getSearcherManager(); // can never be null
/* This might throw NPE but that's fine we will run ensureOpen()
* in the catch block and throw the right exception */
final IndexSearcher searcher = manager.acquire();
try {
final Searcher retVal = newSearcher(source, searcher, manager);
success = true;
return retVal;
} finally {
if (!success) {
manager.release(searcher);
}
}
} catch (EngineClosedException ex) {
throw ex;
} catch (Throwable ex) {
ensureOpen(); // throw EngineCloseException here if we are already closed
logger.error("failed to acquire searcher, source {}", ex, source);
throw new EngineException(shardId, "failed to acquire searcher, source " + source, ex);
} finally {
if (!success) { // release the ref in the case of an error...
store.decRef();
}
}
}
/** returns the translog for this engine */
public abstract Translog getTranslog();
protected void ensureOpen() {
if (isClosed.get()) {
throw new EngineClosedException(shardId, failedEngine);
}
}
/** get commits stats for the last commit */
public CommitStats commitStats() {
return new CommitStats(getLastCommittedSegmentInfos());
}
/**
* Read the last segments info from the commit pointed to by the searcher manager
*/
protected static SegmentInfos readLastCommittedSegmentInfos(final SearcherManager sm, final Store store) throws IOException {
IndexSearcher searcher = sm.acquire();
try {
IndexCommit latestCommit = ((DirectoryReader) searcher.getIndexReader()).getIndexCommit();
return Lucene.readSegmentInfos(latestCommit);
} catch (IOException e) {
// Fall back to reading from the store if reading from the commit fails
try {
return store.readLastCommittedSegmentsInfo();
} catch (IOException e2) {
e2.addSuppressed(e);
throw e2;
}
} finally {
sm.release(searcher);
}
}
/**
* Global stats on segments.
*/
public final SegmentsStats segmentsStats(boolean includeSegmentFileSizes) {
ensureOpen();
try (final Searcher searcher = acquireSearcher("segments_stats")) {
SegmentsStats stats = new SegmentsStats();
for (LeafReaderContext reader : searcher.reader().leaves()) {
final SegmentReader segmentReader = segmentReader(reader.reader());
stats.add(1, segmentReader.ramBytesUsed());
stats.addTermsMemoryInBytes(guardedRamBytesUsed(segmentReader.getPostingsReader()));
stats.addStoredFieldsMemoryInBytes(guardedRamBytesUsed(segmentReader.getFieldsReader()));
stats.addTermVectorsMemoryInBytes(guardedRamBytesUsed(segmentReader.getTermVectorsReader()));
stats.addNormsMemoryInBytes(guardedRamBytesUsed(segmentReader.getNormsReader()));
stats.addPointsMemoryInBytes(guardedRamBytesUsed(segmentReader.getPointsReader()));
stats.addDocValuesMemoryInBytes(guardedRamBytesUsed(segmentReader.getDocValuesReader()));
if (includeSegmentFileSizes) {
// TODO: consider moving this to StoreStats
stats.addFileSizes(getSegmentFileSizes(segmentReader));
}
}
writerSegmentStats(stats);
return stats;
}
}
private ImmutableOpenMap getSegmentFileSizes(SegmentReader segmentReader) {
Directory directory = null;
SegmentCommitInfo segmentCommitInfo = segmentReader.getSegmentInfo();
boolean useCompoundFile = segmentCommitInfo.info.getUseCompoundFile();
if (useCompoundFile) {
try {
directory = engineConfig.getCodec().compoundFormat().getCompoundReader(segmentReader.directory(), segmentCommitInfo.info, IOContext.READ);
} catch (IOException e) {
logger.warn("Error when opening compound reader for Directory [{}] and SegmentCommitInfo [{}]", e,
segmentReader.directory(), segmentCommitInfo);
return ImmutableOpenMap.of();
}
} else {
directory = segmentReader.directory();
}
assert directory != null;
String[] files;
if (useCompoundFile) {
try {
files = directory.listAll();
} catch (IOException e) {
logger.warn("Couldn't list Compound Reader Directory [{}]", e, directory);
return ImmutableOpenMap.of();
}
} else {
try {
files = segmentReader.getSegmentInfo().files().toArray(new String[]{});
} catch (IOException e) {
logger.warn("Couldn't list Directory from SegmentReader [{}] and SegmentInfo [{}]", e, segmentReader, segmentReader.getSegmentInfo());
return ImmutableOpenMap.of();
}
}
ImmutableOpenMap.Builder map = ImmutableOpenMap.builder();
for (String file : files) {
String extension = IndexFileNames.getExtension(file);
long length = 0L;
try {
length = directory.fileLength(file);
} catch (NoSuchFileException | FileNotFoundException e) {
logger.warn("Tried to query fileLength but file is gone [{}] [{}]", e, directory, file);
} catch (IOException e) {
logger.warn("Error when trying to query fileLength [{}] [{}]", e, directory, file);
}
if (length == 0L) {
continue;
}
map.put(extension, length);
}
if (useCompoundFile && directory != null) {
try {
directory.close();
} catch (IOException e) {
logger.warn("Error when closing compound reader on Directory [{}]", e, directory);
}
}
return map.build();
}
protected void writerSegmentStats(SegmentsStats stats) {
// by default we don't have a writer here... subclasses can override this
stats.addVersionMapMemoryInBytes(0);
stats.addIndexWriterMemoryInBytes(0);
stats.addIndexWriterMaxMemoryInBytes(0);
}
/** How much heap is used that would be freed by a refresh. Note that this may throw {@link AlreadyClosedException}. */
abstract public long getIndexBufferRAMBytesUsed();
protected Segment[] getSegmentInfo(SegmentInfos lastCommittedSegmentInfos, boolean verbose) {
ensureOpen();
Map segments = new HashMap<>();
// first, go over and compute the search ones...
Searcher searcher = acquireSearcher("segments");
try {
for (LeafReaderContext reader : searcher.reader().leaves()) {
SegmentCommitInfo info = segmentReader(reader.reader()).getSegmentInfo();
assert !segments.containsKey(info.info.name);
Segment segment = new Segment(info.info.name);
segment.search = true;
segment.docCount = reader.reader().numDocs();
segment.delDocCount = reader.reader().numDeletedDocs();
segment.version = info.info.getVersion();
segment.compound = info.info.getUseCompoundFile();
try {
segment.sizeInBytes = info.sizeInBytes();
} catch (IOException e) {
logger.trace("failed to get size for [{}]", e, info.info.name);
}
final SegmentReader segmentReader = segmentReader(reader.reader());
segment.memoryInBytes = segmentReader.ramBytesUsed();
if (verbose) {
segment.ramTree = Accountables.namedAccountable("root", segmentReader);
}
// TODO: add more fine grained mem stats values to per segment info here
segments.put(info.info.name, segment);
}
} finally {
searcher.close();
}
// now, correlate or add the committed ones...
if (lastCommittedSegmentInfos != null) {
SegmentInfos infos = lastCommittedSegmentInfos;
for (SegmentCommitInfo info : infos) {
Segment segment = segments.get(info.info.name);
if (segment == null) {
segment = new Segment(info.info.name);
segment.search = false;
segment.committed = true;
segment.docCount = info.info.maxDoc();
segment.delDocCount = info.getDelCount();
segment.version = info.info.getVersion();
segment.compound = info.info.getUseCompoundFile();
try {
segment.sizeInBytes = info.sizeInBytes();
} catch (IOException e) {
logger.trace("failed to get size for [{}]", e, info.info.name);
}
segments.put(info.info.name, segment);
} else {
segment.committed = true;
}
}
}
Segment[] segmentsArr = segments.values().toArray(new Segment[segments.values().size()]);
Arrays.sort(segmentsArr, new Comparator() {
@Override
public int compare(Segment o1, Segment o2) {
return (int) (o1.getGeneration() - o2.getGeneration());
}
});
return segmentsArr;
}
/**
* The list of segments in the engine.
*/
public abstract List segments(boolean verbose);
public final boolean refreshNeeded() {
if (store.tryIncRef()) {
/*
we need to inc the store here since searcherManager.isSearcherCurrent()
acquires a searcher internally and that might keep a file open on the
store. this violates the assumption that all files are closed when
the store is closed so we need to make sure we increment it here
*/
try {
return !getSearcherManager().isSearcherCurrent();
} catch (IOException e) {
logger.error("failed to access searcher manager", e);
failEngine("failed to access searcher manager", e);
throw new EngineException(shardId, "failed to access searcher manager", e);
} finally {
store.decRef();
}
}
return false;
}
/**
* Synchronously refreshes the engine for new search operations to reflect the latest
* changes.
*/
public abstract void refresh(String source) throws EngineException;
/**
* Called when our engine is using too much heap and should move buffered indexed/deleted documents to disk.
*/
// NOTE: do NOT rename this to something containing flush or refresh!
public abstract void writeIndexingBuffer() throws EngineException;
/**
* Flushes the state of the engine including the transaction log, clearing memory.
*
* @param force if true a lucene commit is executed even if no changes need to be committed.
* @param waitIfOngoing if true this call will block until all currently running flushes have finished.
* Otherwise this call will return without blocking.
* @return the commit Id for the resulting commit
*/
public abstract CommitId flush(boolean force, boolean waitIfOngoing) throws EngineException;
/**
* Flushes the state of the engine including the transaction log, clearing memory and persisting
* documents in the lucene index to disk including a potentially heavy and durable fsync operation.
* This operation is not going to block if another flush operation is currently running and won't write
* a lucene commit if nothing needs to be committed.
*
* @return the commit Id for the resulting commit
*/
public abstract CommitId flush() throws EngineException;
/**
* Force merges to 1 segment
*/
public void forceMerge(boolean flush) throws IOException {
forceMerge(flush, 1, false, false, false);
}
/**
* Triggers a forced merge on this engine
*/
public abstract void forceMerge(boolean flush, int maxNumSegments, boolean onlyExpungeDeletes, boolean upgrade, boolean upgradeOnlyAncientSegments) throws EngineException, IOException;
/**
* Snapshots the index and returns a handle to it. If needed will try and "commit" the
* lucene index to make sure we have a "fresh" copy of the files to snapshot.
*
* @param flushFirst indicates whether the engine should flush before returning the snapshot
*/
public abstract IndexCommit snapshotIndex(boolean flushFirst) throws EngineException;
/**
* fail engine due to some error. the engine will also be closed.
* The underlying store is marked corrupted iff failure is caused by index corruption
*/
public void failEngine(String reason, @Nullable Throwable failure) {
if (failEngineLock.tryLock()) {
store.incRef();
try {
try {
// we just go and close this engine - no way to recover
closeNoLock("engine failed on: [" + reason + "]");
} finally {
if (failedEngine != null) {
logger.debug("tried to fail engine but engine is already failed. ignoring. [{}]", failure, reason);
return;
}
logger.warn("failed engine [{}]", failure, reason);
// we must set a failure exception, generate one if not supplied
failedEngine = (failure != null) ? failure : new IllegalStateException(reason);
// we first mark the store as corrupted before we notify any listeners
// this must happen first otherwise we might try to reallocate so quickly
// on the same node that we don't see the corrupted marker file when
// the shard is initializing
if (Lucene.isCorruptionException(failure)) {
try {
store.markStoreCorrupted(new IOException("failed engine (reason: [" + reason + "])", ExceptionsHelper.unwrapCorruption(failure)));
} catch (IOException e) {
logger.warn("Couldn't mark store corrupted", e);
}
}
eventListener.onFailedEngine(reason, failure);
}
} catch (Throwable t) {
// don't bubble up these exceptions up
logger.warn("failEngine threw exception", t);
} finally {
store.decRef();
}
} else {
logger.debug("tried to fail engine but could not acquire lock - engine should be failed by now [{}]", failure, reason);
}
}
/** Check whether the engine should be failed */
protected boolean maybeFailEngine(String source, Throwable t) {
if (Lucene.isCorruptionException(t)) {
failEngine("corrupt file (source: [" + source + "])", t);
return true;
} else if (ExceptionsHelper.isOOM(t)) {
failEngine("out of memory (source: [" + source + "])", t);
return true;
}
return false;
}
public interface EventListener {
/**
* Called when a fatal exception occurred
*/
default void onFailedEngine(String reason, @Nullable Throwable t) {}
}
public static class Searcher implements Releasable {
private final String source;
private final IndexSearcher searcher;
public Searcher(String source, IndexSearcher searcher) {
this.source = source;
this.searcher = searcher;
}
/**
* The source that caused this searcher to be acquired.
*/
public String source() {
return source;
}
public IndexReader reader() {
return searcher.getIndexReader();
}
public DirectoryReader getDirectoryReader() {
if (reader() instanceof DirectoryReader) {
return (DirectoryReader) reader();
}
throw new IllegalStateException("Can't use " + reader().getClass() + " as a directory reader");
}
public IndexSearcher searcher() {
return searcher;
}
@Override
public void close() {
// Nothing to close here
}
}
public static abstract class Operation {
private final Term uid;
private long version;
private final VersionType versionType;
private final Origin origin;
private Translog.Location location;
private final long startTime;
private long endTime;
public Operation(Term uid, long version, VersionType versionType, Origin origin, long startTime) {
this.uid = uid;
this.version = version;
this.versionType = versionType;
this.origin = origin;
this.startTime = startTime;
}
public static enum Origin {
PRIMARY,
REPLICA,
RECOVERY
}
public Origin origin() {
return this.origin;
}
public Term uid() {
return this.uid;
}
public long version() {
return this.version;
}
public void updateVersion(long version) {
this.version = version;
}
public void setTranslogLocation(Translog.Location location) {
this.location = location;
}
public Translog.Location getTranslogLocation() {
return this.location;
}
public VersionType versionType() {
return this.versionType;
}
/**
* Returns operation start time in nanoseconds.
*/
public long startTime() {
return this.startTime;
}
public void endTime(long endTime) {
this.endTime = endTime;
}
/**
* Returns operation end time in nanoseconds.
*/
public long endTime() {
return this.endTime;
}
}
public static class Index extends Operation {
private final ParsedDocument doc;
public Index(Term uid, ParsedDocument doc, long version, VersionType versionType, Origin origin, long startTime) {
super(uid, version, versionType, origin, startTime);
this.doc = doc;
}
public Index(Term uid, ParsedDocument doc) {
this(uid, doc, Versions.MATCH_ANY);
}
public Index(Term uid, ParsedDocument doc, long version) {
this(uid, doc, version, VersionType.INTERNAL, Origin.PRIMARY, System.nanoTime());
}
public ParsedDocument parsedDoc() {
return this.doc;
}
public String type() {
return this.doc.type();
}
public String id() {
return this.doc.id();
}
public String routing() {
return this.doc.routing();
}
public long timestamp() {
return this.doc.timestamp();
}
public long ttl() {
return this.doc.ttl();
}
@Override
public void updateVersion(long version) {
super.updateVersion(version);
this.doc.version().setLongValue(version);
}
public String parent() {
return this.doc.parent();
}
public List docs() {
return this.doc.docs();
}
public BytesReference source() {
return this.doc.source();
}
}
public static class Delete extends Operation {
private final String type;
private final String id;
private boolean found;
public Delete(String type, String id, Term uid, long version, VersionType versionType, Origin origin, long startTime, boolean found) {
super(uid, version, versionType, origin, startTime);
this.type = type;
this.id = id;
this.found = found;
}
public Delete(String type, String id, Term uid) {
this(type, id, uid, Versions.MATCH_ANY, VersionType.INTERNAL, Origin.PRIMARY, System.nanoTime(), false);
}
public Delete(Delete template, VersionType versionType) {
this(template.type(), template.id(), template.uid(), template.version(), versionType, template.origin(), template.startTime(), template.found());
}
public String type() {
return this.type;
}
public String id() {
return this.id;
}
public void updateVersion(long version, boolean found) {
updateVersion(version);
this.found = found;
}
public boolean found() {
return this.found;
}
}
public static class Get {
private final boolean realtime;
private final Term uid;
private long version = Versions.MATCH_ANY;
private VersionType versionType = VersionType.INTERNAL;
public Get(boolean realtime, Term uid) {
this.realtime = realtime;
this.uid = uid;
}
public boolean realtime() {
return this.realtime;
}
public Term uid() {
return uid;
}
public long version() {
return version;
}
public Get version(long version) {
this.version = version;
return this;
}
public VersionType versionType() {
return versionType;
}
public Get versionType(VersionType versionType) {
this.versionType = versionType;
return this;
}
}
public static class GetResult implements Releasable {
private final boolean exists;
private final long version;
private final Translog.Source source;
private final Versions.DocIdAndVersion docIdAndVersion;
private final Searcher searcher;
public static final GetResult NOT_EXISTS = new GetResult(false, Versions.NOT_FOUND, null);
public GetResult(boolean exists, long version, @Nullable Translog.Source source) {
this.source = source;
this.exists = exists;
this.version = version;
this.docIdAndVersion = null;
this.searcher = null;
}
public GetResult(Searcher searcher, Versions.DocIdAndVersion docIdAndVersion) {
this.exists = true;
this.source = null;
this.version = docIdAndVersion.version;
this.docIdAndVersion = docIdAndVersion;
this.searcher = searcher;
}
public boolean exists() {
return exists;
}
public long version() {
return this.version;
}
@Nullable
public Translog.Source source() {
return source;
}
public Searcher searcher() {
return this.searcher;
}
public Versions.DocIdAndVersion docIdAndVersion() {
return docIdAndVersion;
}
@Override
public void close() {
release();
}
public void release() {
if (searcher != null) {
searcher.close();
}
}
}
protected abstract SearcherManager getSearcherManager();
/**
* Method to close the engine while the write lock is held.
*/
protected abstract void closeNoLock(String reason);
/**
* Flush the engine (committing segments to disk and truncating the
* translog) and close it.
*/
public void flushAndClose() throws IOException {
if (isClosed.get() == false) {
logger.trace("flushAndClose now acquire writeLock");
try (ReleasableLock lock = writeLock.acquire()) {
logger.trace("flushAndClose now acquired writeLock");
try {
logger.debug("flushing shard on close - this might take some time to sync files to disk");
try {
flush(); // TODO we might force a flush in the future since we have the write lock already even though recoveries are running.
} catch (FlushNotAllowedEngineException ex) {
logger.debug("flush not allowed during flushAndClose - skipping");
} catch (EngineClosedException ex) {
logger.debug("engine already closed - skipping flushAndClose");
}
} finally {
close(); // double close is not a problem
}
}
}
}
@Override
public void close() throws IOException {
if (isClosed.get() == false) { // don't acquire the write lock if we are already closed
logger.debug("close now acquiring writeLock");
try (ReleasableLock lock = writeLock.acquire()) {
logger.debug("close acquired writeLock");
closeNoLock("api");
}
}
}
public static class CommitId implements Writeable {
private final byte[] id;
public CommitId(byte[] id) {
assert id != null;
this.id = Arrays.copyOf(id, id.length);
}
/**
* Read from a stream.
*/
public CommitId(StreamInput in) throws IOException {
assert in != null;
this.id = in.readByteArray();
}
@Override
public void writeTo(StreamOutput out) throws IOException {
out.writeByteArray(id);
}
@Override
public String toString() {
return Base64.encodeBytes(id);
}
public boolean idsEqual(byte[] id) {
return Arrays.equals(id, this.id);
}
@Override
public boolean equals(Object o) {
if (this == o) {
return true;
}
if (o == null || getClass() != o.getClass()) {
return false;
}
CommitId commitId = (CommitId) o;
if (!Arrays.equals(id, commitId.id)) {
return false;
}
return true;
}
@Override
public int hashCode() {
return Arrays.hashCode(id);
}
}
public void onSettingsChanged() {
}
/**
* Returns the timestamp of the last write in nanoseconds.
* Note: this time might not be absolutely accurate since the {@link Operation#startTime()} is used which might be
* slightly inaccurate.
* @see System#nanoTime()
* @see Operation#startTime()
*/
public long getLastWriteNanos() {
return this.lastWriteNanos;
}
/**
* Called for each new opened engine searcher to warm new segments
* @see EngineConfig#getWarmer()
*/
public interface Warmer {
/**
* Called once a new Searcher is opened on the top-level searcher.
*/
void warm(Engine.Searcher searcher);
}
/**
* Request that this engine throttle incoming indexing requests to one thread. Must be matched by a later call to {@link #deactivateThrottling()}.
*/
public abstract void activateThrottling();
/**
* Reverses a previous {@link #activateThrottling} call.
*/
public abstract void deactivateThrottling();
/**
* Performs recovery from the transaction log.
* This operation will close the engine if the recovery fails.
*/
public abstract Engine recoverFromTranslog() throws IOException;
}
