use of org.elasticsearch.index.store.StoreFileMetaData in project crate by crate.
the class BlobStoreRepository method snapshotShard.
@Override
public void snapshotShard(Store store, MapperService mapperService, SnapshotId snapshotId, IndexId indexId, IndexCommit snapshotIndexCommit, IndexShardSnapshotStatus snapshotStatus, boolean writeShardGens, ActionListener<String> listener) {
final ShardId shardId = store.shardId();
final long startTime = threadPool.absoluteTimeInMillis();
try {
final String generation = snapshotStatus.generation();
LOGGER.debug("[{}] [{}] snapshot to [{}] [{}] ...", shardId, snapshotId, metadata.name(), generation);
final BlobContainer shardContainer = shardContainer(indexId, shardId);
final Set<String> blobs;
if (generation == null) {
try {
blobs = shardContainer.listBlobsByPrefix(INDEX_FILE_PREFIX).keySet();
} catch (IOException e) {
throw new IndexShardSnapshotFailedException(shardId, "failed to list blobs", e);
}
} else {
blobs = Collections.singleton(INDEX_FILE_PREFIX + generation);
}
Tuple<BlobStoreIndexShardSnapshots, String> tuple = buildBlobStoreIndexShardSnapshots(blobs, shardContainer, generation);
BlobStoreIndexShardSnapshots snapshots = tuple.v1();
final String fileListGeneration = tuple.v2();
if (snapshots.snapshots().stream().anyMatch(sf -> sf.snapshot().equals(snapshotId.getName()))) {
throw new IndexShardSnapshotFailedException(shardId, "Duplicate snapshot name [" + snapshotId.getName() + "] detected, aborting");
}
final List<BlobStoreIndexShardSnapshot.FileInfo> indexCommitPointFiles = new ArrayList<>();
final BlockingQueue<BlobStoreIndexShardSnapshot.FileInfo> filesToSnapshot = new LinkedBlockingQueue<>();
store.incRef();
final Collection<String> fileNames;
final Store.MetadataSnapshot metadataFromStore;
try {
// TODO apparently we don't use the MetadataSnapshot#.recoveryDiff(...) here but we should
try {
LOGGER.trace("[{}] [{}] Loading store metadata using index commit [{}]", shardId, snapshotId, snapshotIndexCommit);
metadataFromStore = store.getMetadata(snapshotIndexCommit);
fileNames = snapshotIndexCommit.getFileNames();
} catch (IOException e) {
throw new IndexShardSnapshotFailedException(shardId, "Failed to get store file metadata", e);
}
} finally {
store.decRef();
}
int indexIncrementalFileCount = 0;
int indexTotalNumberOfFiles = 0;
long indexIncrementalSize = 0;
long indexTotalFileCount = 0;
for (String fileName : fileNames) {
if (snapshotStatus.isAborted()) {
LOGGER.debug("[{}] [{}] Aborted on the file [{}], exiting", shardId, snapshotId, fileName);
throw new IndexShardSnapshotFailedException(shardId, "Aborted");
}
LOGGER.trace("[{}] [{}] Processing [{}]", shardId, snapshotId, fileName);
final StoreFileMetadata md = metadataFromStore.get(fileName);
BlobStoreIndexShardSnapshot.FileInfo existingFileInfo = null;
List<BlobStoreIndexShardSnapshot.FileInfo> filesInfo = snapshots.findPhysicalIndexFiles(fileName);
if (filesInfo != null) {
for (BlobStoreIndexShardSnapshot.FileInfo fileInfo : filesInfo) {
if (fileInfo.isSame(md)) {
// a commit point file with the same name, size and checksum was already copied to repository
// we will reuse it for this snapshot
existingFileInfo = fileInfo;
break;
}
}
}
indexTotalFileCount += md.length();
indexTotalNumberOfFiles++;
if (existingFileInfo == null) {
indexIncrementalFileCount++;
indexIncrementalSize += md.length();
// create a new FileInfo
BlobStoreIndexShardSnapshot.FileInfo snapshotFileInfo = new BlobStoreIndexShardSnapshot.FileInfo(DATA_BLOB_PREFIX + UUIDs.randomBase64UUID(), md, chunkSize());
indexCommitPointFiles.add(snapshotFileInfo);
filesToSnapshot.add(snapshotFileInfo);
} else {
indexCommitPointFiles.add(existingFileInfo);
}
}
snapshotStatus.moveToStarted(startTime, indexIncrementalFileCount, indexTotalNumberOfFiles, indexIncrementalSize, indexTotalFileCount);
assert indexIncrementalFileCount == filesToSnapshot.size();
final StepListener<Collection<Void>> allFilesUploadedListener = new StepListener<>();
allFilesUploadedListener.whenComplete(v -> {
final IndexShardSnapshotStatus.Copy lastSnapshotStatus = snapshotStatus.moveToFinalize(snapshotIndexCommit.getGeneration());
// now create and write the commit point
final BlobStoreIndexShardSnapshot snapshot = new BlobStoreIndexShardSnapshot(snapshotId.getName(), lastSnapshotStatus.getIndexVersion(), indexCommitPointFiles, lastSnapshotStatus.getStartTime(), threadPool.absoluteTimeInMillis() - lastSnapshotStatus.getStartTime(), lastSnapshotStatus.getIncrementalFileCount(), lastSnapshotStatus.getIncrementalSize());
LOGGER.trace("[{}] [{}] writing shard snapshot file", shardId, snapshotId);
try {
indexShardSnapshotFormat.write(snapshot, shardContainer, snapshotId.getUUID(), false);
} catch (IOException e) {
throw new IndexShardSnapshotFailedException(shardId, "Failed to write commit point", e);
}
// build a new BlobStoreIndexShardSnapshot, that includes this one and all the saved ones
List<SnapshotFiles> newSnapshotsList = new ArrayList<>();
newSnapshotsList.add(new SnapshotFiles(snapshot.snapshot(), snapshot.indexFiles()));
for (SnapshotFiles point : snapshots) {
newSnapshotsList.add(point);
}
final List<String> blobsToDelete;
final String indexGeneration;
if (writeShardGens) {
indexGeneration = UUIDs.randomBase64UUID();
blobsToDelete = Collections.emptyList();
} else {
indexGeneration = Long.toString(Long.parseLong(fileListGeneration) + 1);
// Delete all previous index-N blobs
blobsToDelete = blobs.stream().filter(blob -> blob.startsWith(SNAPSHOT_INDEX_PREFIX)).collect(Collectors.toList());
assert blobsToDelete.stream().mapToLong(b -> Long.parseLong(b.replaceFirst(SNAPSHOT_INDEX_PREFIX, ""))).max().orElse(-1L) < Long.parseLong(indexGeneration) : "Tried to delete an index-N blob newer than the current generation [" + indexGeneration + "] when deleting index-N blobs " + blobsToDelete;
}
try {
writeShardIndexBlob(shardContainer, indexGeneration, new BlobStoreIndexShardSnapshots(newSnapshotsList));
} catch (IOException e) {
throw new IndexShardSnapshotFailedException(shardId, "Failed to finalize snapshot creation [" + snapshotId + "] with shard index [" + indexShardSnapshotsFormat.blobName(indexGeneration) + "]", e);
}
if (writeShardGens == false) {
try {
shardContainer.deleteBlobsIgnoringIfNotExists(blobsToDelete);
} catch (IOException e) {
LOGGER.warn(() -> new ParameterizedMessage("[{}][{}] failed to delete old index-N blobs during finalization", snapshotId, shardId), e);
}
}
snapshotStatus.moveToDone(threadPool.absoluteTimeInMillis(), indexGeneration);
listener.onResponse(indexGeneration);
}, listener::onFailure);
if (indexIncrementalFileCount == 0) {
allFilesUploadedListener.onResponse(Collections.emptyList());
return;
}
final Executor executor = threadPool.executor(ThreadPool.Names.SNAPSHOT);
int maximumPoolSize = executor instanceof ThreadPoolExecutor ? ((ThreadPoolExecutor) executor).getMaximumPoolSize() : 1;
// Start as many workers as fit into the snapshot pool at once at the most
final int workers = Math.min(maximumPoolSize, indexIncrementalFileCount);
final ActionListener<Void> filesListener = fileQueueListener(filesToSnapshot, workers, allFilesUploadedListener);
for (int i = 0; i < workers; ++i) {
executor.execute(ActionRunnable.run(filesListener, () -> {
BlobStoreIndexShardSnapshot.FileInfo snapshotFileInfo = filesToSnapshot.poll(0L, TimeUnit.MILLISECONDS);
if (snapshotFileInfo != null) {
store.incRef();
try {
do {
snapshotFile(snapshotFileInfo, indexId, shardId, snapshotId, snapshotStatus, store);
snapshotFileInfo = filesToSnapshot.poll(0L, TimeUnit.MILLISECONDS);
} while (snapshotFileInfo != null);
} finally {
store.decRef();
}
}
}));
}
} catch (Exception e) {
listener.onFailure(e);
}
}
use of org.elasticsearch.index.store.StoreFileMetaData in project crate by crate.
the class ReplicaShardAllocatorTests method testFileChecksumMatch.
/**
* Verifies that when there is no sync id match but files match, we allocate it to matching node.
*/
public void testFileChecksumMatch() {
RoutingAllocation allocation = onePrimaryOnNode1And1Replica(yesAllocationDeciders());
DiscoveryNode nodeToMatch = randomBoolean() ? node2 : node3;
testAllocator.addData(node1, "MATCH", new StoreFileMetadata("file1", 10, "MATCH_CHECKSUM", MIN_SUPPORTED_LUCENE_VERSION)).addData(nodeToMatch, "NO_MATCH", new StoreFileMetadata("file1", 10, "MATCH_CHECKSUM", MIN_SUPPORTED_LUCENE_VERSION));
testAllocator.allocateUnassigned(allocation);
assertThat(allocation.routingNodes().shardsWithState(ShardRoutingState.INITIALIZING).size(), equalTo(1));
assertThat(allocation.routingNodes().shardsWithState(ShardRoutingState.INITIALIZING).get(0).currentNodeId(), equalTo(nodeToMatch.getId()));
}
use of org.elasticsearch.index.store.StoreFileMetaData in project crate by crate.
the class ReplicaShardAllocatorTests method testCancelRecoveryBetterSyncId.
public void testCancelRecoveryBetterSyncId() {
RoutingAllocation allocation = onePrimaryOnNode1And1ReplicaRecovering(yesAllocationDeciders());
testAllocator.addData(node1, "MATCH", new StoreFileMetadata("file1", 10, "MATCH_CHECKSUM", MIN_SUPPORTED_LUCENE_VERSION)).addData(node2, "NO_MATCH", new StoreFileMetadata("file1", 10, "MATCH_CHECKSUM", MIN_SUPPORTED_LUCENE_VERSION)).addData(node3, "MATCH", new StoreFileMetadata("file1", 10, "MATCH_CHECKSUM", MIN_SUPPORTED_LUCENE_VERSION));
testAllocator.processExistingRecoveries(allocation);
assertThat(allocation.routingNodesChanged(), equalTo(true));
assertThat(allocation.routingNodes().shardsWithState(ShardRoutingState.UNASSIGNED).size(), equalTo(1));
assertThat(allocation.routingNodes().shardsWithState(ShardRoutingState.UNASSIGNED).get(0).shardId(), equalTo(shardId));
}
use of org.elasticsearch.index.store.StoreFileMetaData in project crate by crate.
the class ReplicaShardAllocatorTests method testIgnoreRetentionLeaseIfCopyIsEmpty.
public void testIgnoreRetentionLeaseIfCopyIsEmpty() {
RoutingAllocation allocation = onePrimaryOnNode1And1Replica(yesAllocationDeciders());
long retainingSeqNo = randomLongBetween(1, Long.MAX_VALUE);
List<RetentionLease> retentionLeases = new ArrayList<>();
retentionLeases.add(newRetentionLease(node1, retainingSeqNo));
retentionLeases.add(newRetentionLease(node2, randomLongBetween(0, retainingSeqNo)));
if (randomBoolean()) {
retentionLeases.add(newRetentionLease(node3, randomLongBetween(0, retainingSeqNo)));
}
testAllocator.addData(node1, retentionLeases, randomSyncId(), new StoreFileMetadata("file1", 10, "MATCH_CHECKSUM", MIN_SUPPORTED_LUCENE_VERSION));
// has retention lease but store is empty
testAllocator.addData(node2, null);
testAllocator.addData(node3, randomSyncId(), new StoreFileMetadata("file1", 10, "MATCH_CHECKSUM", MIN_SUPPORTED_LUCENE_VERSION));
testAllocator.allocateUnassigned(allocation);
assertThat(allocation.routingNodes().shardsWithState(ShardRoutingState.INITIALIZING).size(), equalTo(1));
assertThat(allocation.routingNodes().shardsWithState(ShardRoutingState.INITIALIZING).get(0).currentNodeId(), equalTo(node3.getId()));
}
use of org.elasticsearch.index.store.StoreFileMetaData in project crate by crate.
the class ReplicaShardAllocatorTests method testSyncIdMatch.
/**
* Verifies that when there is a sync id match but no files match, we allocate it to matching node.
*/
public void testSyncIdMatch() {
RoutingAllocation allocation = onePrimaryOnNode1And1Replica(yesAllocationDeciders());
DiscoveryNode nodeToMatch = randomBoolean() ? node2 : node3;
testAllocator.addData(node1, "MATCH", new StoreFileMetadata("file1", 10, "MATCH_CHECKSUM", MIN_SUPPORTED_LUCENE_VERSION)).addData(nodeToMatch, "MATCH", new StoreFileMetadata("file1", 10, "NO_MATCH_CHECKSUM", MIN_SUPPORTED_LUCENE_VERSION));
testAllocator.allocateUnassigned(allocation);
assertThat(allocation.routingNodes().shardsWithState(ShardRoutingState.INITIALIZING).size(), equalTo(1));
assertThat(allocation.routingNodes().shardsWithState(ShardRoutingState.INITIALIZING).get(0).currentNodeId(), equalTo(nodeToMatch.getId()));
}
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