use of org.elasticsearch.cluster.metadata.AliasMetadata in project crate by crate.
the class TableAliasIntegrationTest method testPartitionedTableKeepsAliasAfterSchemaUpdate.
@Test
public void testPartitionedTableKeepsAliasAfterSchemaUpdate() throws Exception {
execute("create table t (name string, p string) partitioned by (p) " + "clustered into 2 shards with (number_of_replicas = 0)");
ensureYellow();
execute("insert into t (name, p) values ('Arthur', 'a')");
execute("insert into t (name, p) values ('Trillian', 'a')");
execute("alter table t add column age integer");
execute("insert into t (name, p) values ('Marvin', 'b')");
waitNoPendingTasksOnAll();
refresh();
execute("select count(*) from t");
assertThat(response.rowCount(), is(1L));
assertThat((Long) response.rows()[0][0], is(3L));
GetIndexTemplatesResponse indexTemplatesResponse = client().admin().indices().prepareGetTemplates(".partitioned.t.").execute().actionGet();
IndexTemplateMetaData indexTemplateMetaData = indexTemplatesResponse.getIndexTemplates().get(0);
AliasMetaData t = indexTemplateMetaData.aliases().get("t");
assertThat(t.alias(), is("t"));
execute("select partitioned_by from information_schema.tables where table_name = 't'");
assertThat((String) ((Object[]) response.rows()[0][0])[0], is("p"));
}
use of org.elasticsearch.cluster.metadata.AliasMetadata in project crate by crate.
the class AlterTableOperation method updateTemplate.
private CompletableFuture<Long> updateTemplate(Map<String, Object> newMappings, Settings newSettings, TableIdent tableIdent) {
String templateName = PartitionName.templateName(tableIdent.schema(), tableIdent.name());
IndexTemplateMetaData indexTemplateMetaData = clusterService.state().metaData().templates().get(templateName);
if (indexTemplateMetaData == null) {
return CompletableFutures.failedFuture(new RuntimeException("Template for partitioned table is missing"));
}
// merge mappings
Map<String, Object> mapping = mergeTemplateMapping(indexTemplateMetaData, newMappings);
// merge settings
Settings.Builder settingsBuilder = Settings.builder();
settingsBuilder.put(indexTemplateMetaData.settings());
settingsBuilder.put(newSettings);
PutIndexTemplateRequest request = new PutIndexTemplateRequest(templateName).create(false).mapping(Constants.DEFAULT_MAPPING_TYPE, mapping).order(indexTemplateMetaData.order()).settings(settingsBuilder.build()).template(indexTemplateMetaData.template());
for (ObjectObjectCursor<String, AliasMetaData> container : indexTemplateMetaData.aliases()) {
Alias alias = new Alias(container.key);
request.alias(alias);
}
FutureActionListener<PutIndexTemplateResponse, Long> listener = new FutureActionListener<>(LONG_NULL_FUNCTION);
transportActionProvider.transportPutIndexTemplateAction().execute(request, listener);
return listener;
}
use of org.elasticsearch.cluster.metadata.AliasMetadata in project crate by crate.
the class IndexTemplateUpgrader method archiveUnknownOrInvalidSettings.
/**
* Filter out all unknown/old/invalid settings. Archiving them *only* is not working as they would be "un-archived"
* by {@link IndexTemplateMetadata.Builder#fromXContent} logic to prefix all settings with `index.` when applying
* the new cluster state.
*/
private HashMap<String, IndexTemplateMetadata> archiveUnknownOrInvalidSettings(Map<String, IndexTemplateMetadata> templates) {
HashMap<String, IndexTemplateMetadata> upgradedTemplates = new HashMap<>(templates.size());
for (Map.Entry<String, IndexTemplateMetadata> entry : templates.entrySet()) {
IndexTemplateMetadata templateMetadata = entry.getValue();
Settings.Builder settingsBuilder = Settings.builder().put(templateMetadata.settings());
String templateName = entry.getKey();
// only process partition table templates
if (IndexParts.isPartitioned(templateName) == false) {
upgradedTemplates.put(templateName, templateMetadata);
continue;
}
Settings settings = DEFAULT_SCOPED_SETTINGS.archiveUnknownOrInvalidSettings(settingsBuilder.build(), e -> {
}, (e, ex) -> {
}).filter(k -> k.startsWith(ARCHIVED_SETTINGS_PREFIX) == false);
IndexTemplateMetadata.Builder builder = IndexTemplateMetadata.builder(templateName).patterns(templateMetadata.patterns()).order(templateMetadata.order()).settings(settings);
try {
for (ObjectObjectCursor<String, CompressedXContent> cursor : templateMetadata.getMappings()) {
var mappingSource = XContentHelper.toMap(cursor.value.compressedReference(), XContentType.JSON);
Object defaultMapping = mappingSource.get("default");
if (defaultMapping instanceof Map && ((Map<?, ?>) defaultMapping).containsKey("_all")) {
Map<?, ?> mapping = (Map<?, ?>) defaultMapping;
// Support for `_all` was removed (in favour of `copy_to`.
// We never utilized this but always set `_all: {enabled: false}` if you created a table using SQL in earlier version, so we can safely drop it.
mapping.remove("_all");
builder.putMapping(cursor.key, new CompressedXContent(BytesReference.bytes(XContentFactory.jsonBuilder().value(mappingSource))));
} else {
builder.putMapping(cursor.key, cursor.value);
}
}
} catch (IOException e) {
logger.error("Error while trying to upgrade template '" + templateName + "'", e);
continue;
}
for (ObjectObjectCursor<String, AliasMetadata> container : templateMetadata.aliases()) {
builder.putAlias(container.value);
}
upgradedTemplates.put(templateName, builder.build());
}
return upgradedTemplates;
}
use of org.elasticsearch.cluster.metadata.AliasMetadata in project crate by crate.
the class TransportCreatePartitionsAction method executeCreateIndices.
/**
* This code is more or less the same as the stuff in {@link MetadataCreateIndexService}
* but optimized for bulk operation without separate mapping/alias/index settings.
*/
private ClusterState executeCreateIndices(ClusterState currentState, CreatePartitionsRequest request) throws Exception {
List<String> indicesToCreate = new ArrayList<>(request.indices().size());
List<String> removalReasons = new ArrayList<>(request.indices().size());
List<Index> createdIndices = new ArrayList<>(request.indices().size());
try {
validateAndFilterExistingIndices(currentState, indicesToCreate, request);
if (indicesToCreate.isEmpty()) {
return currentState;
}
Map<String, Map<String, Object>> mappings = new HashMap<>();
Map<String, AliasMetadata> templatesAliases = new HashMap<>();
List<String> templateNames = new ArrayList<>();
List<IndexTemplateMetadata> templates = findTemplates(request, currentState);
applyTemplates(mappings, templatesAliases, templateNames, templates);
Metadata.Builder newMetadataBuilder = Metadata.builder(currentState.metadata());
for (String index : indicesToCreate) {
Settings indexSettings = createIndexSettings(currentState, templates);
shardLimitValidator.validateShardLimit(indexSettings, currentState);
int routingNumShards = IndexMetadata.INDEX_NUMBER_OF_ROUTING_SHARDS_SETTING.get(indexSettings);
String testIndex = indicesToCreate.get(0);
IndexMetadata.Builder tmpImdBuilder = IndexMetadata.builder(testIndex).setRoutingNumShards(routingNumShards);
// Set up everything, now locally create the index to see that things are ok, and apply
final IndexMetadata tmpImd = tmpImdBuilder.settings(indexSettings).build();
ActiveShardCount waitForActiveShards = tmpImd.getWaitForActiveShards();
if (!waitForActiveShards.validate(tmpImd.getNumberOfReplicas())) {
throw new IllegalArgumentException("invalid wait_for_active_shards[" + waitForActiveShards + "]: cannot be greater than number of shard copies [" + (tmpImd.getNumberOfReplicas() + 1) + "]");
}
// create the index here (on the master) to validate it can be created, as well as adding the mapping
IndexService indexService = indicesService.createIndex(tmpImd, Collections.emptyList(), false);
createdIndices.add(indexService.index());
// now add the mappings
MapperService mapperService = indexService.mapperService();
if (!mappings.isEmpty()) {
assert mappings.size() == 1 : "Must have at most 1 mapping type";
var entry = mappings.entrySet().iterator().next();
try {
mapperService.merge(entry.getKey(), entry.getValue(), MapperService.MergeReason.MAPPING_UPDATE);
} catch (MapperParsingException mpe) {
removalReasons.add("failed on parsing mappings on index creation");
throw mpe;
}
}
// now, update the mappings with the actual source
HashMap<String, MappingMetadata> mappingsMetadata = new HashMap<>();
DocumentMapper mapper = mapperService.documentMapper();
if (mapper != null) {
MappingMetadata mappingMd = new MappingMetadata(mapper);
mappingsMetadata.put(mapper.type(), mappingMd);
}
final IndexMetadata.Builder indexMetadataBuilder = IndexMetadata.builder(index).setRoutingNumShards(routingNumShards).settings(indexSettings);
for (MappingMetadata mappingMd : mappingsMetadata.values()) {
indexMetadataBuilder.putMapping(mappingMd);
}
for (AliasMetadata aliasMetadata : templatesAliases.values()) {
indexMetadataBuilder.putAlias(aliasMetadata);
}
indexMetadataBuilder.state(IndexMetadata.State.OPEN);
final IndexMetadata indexMetadata;
try {
indexMetadata = indexMetadataBuilder.build();
} catch (Exception e) {
removalReasons.add("failed to build index metadata");
throw e;
}
logger.info("[{}] creating index, cause [bulk], templates {}, shards [{}]/[{}], mappings {}", index, templateNames, indexMetadata.getNumberOfShards(), indexMetadata.getNumberOfReplicas(), mappings.keySet());
indexService.getIndexEventListener().beforeIndexAddedToCluster(indexMetadata.getIndex(), indexMetadata.getSettings());
newMetadataBuilder.put(indexMetadata, false);
removalReasons.add("cleaning up after validating index on master");
}
Metadata newMetadata = newMetadataBuilder.build();
ClusterState updatedState = ClusterState.builder(currentState).metadata(newMetadata).build();
RoutingTable.Builder routingTableBuilder = RoutingTable.builder(updatedState.routingTable());
for (String index : indicesToCreate) {
routingTableBuilder.addAsNew(updatedState.metadata().index(index));
}
return allocationService.reroute(ClusterState.builder(updatedState).routingTable(routingTableBuilder.build()).build(), "bulk-index-creation");
} finally {
for (int i = 0; i < createdIndices.size(); i++) {
// Index was already partially created - need to clean up
String removalReason = removalReasons.size() > i ? removalReasons.get(i) : "failed to create index";
indicesService.removeIndex(createdIndices.get(i), IndicesClusterStateService.AllocatedIndices.IndexRemovalReason.NO_LONGER_ASSIGNED, removalReason);
}
}
}
use of org.elasticsearch.cluster.metadata.AliasMetadata in project crate by crate.
the class RestoreService method restoreSnapshot.
/**
* Restores snapshot specified in the restore request.
*
* @param request restore request
* @param listener restore listener
*/
public void restoreSnapshot(final RestoreRequest request, final ActionListener<RestoreCompletionResponse> listener) {
try {
// Read snapshot info and metadata from the repository
final String repositoryName = request.repositoryName;
Repository repository = repositoriesService.repository(repositoryName);
final StepListener<RepositoryData> repositoryDataListener = new StepListener<>();
repository.getRepositoryData(repositoryDataListener);
repositoryDataListener.whenComplete(repositoryData -> {
final String snapshotName = request.snapshotName;
final Optional<SnapshotId> matchingSnapshotId = repositoryData.getSnapshotIds().stream().filter(s -> snapshotName.equals(s.getName())).findFirst();
if (matchingSnapshotId.isPresent() == false) {
throw new SnapshotRestoreException(repositoryName, snapshotName, "snapshot does not exist");
}
final SnapshotId snapshotId = matchingSnapshotId.get();
repository.getSnapshotInfo(snapshotId, ActionListener.delegateFailure(listener, (delegate, snapshotInfo) -> {
final Snapshot snapshot = new Snapshot(repositoryName, snapshotId);
// Make sure that we can restore from this snapshot
validateSnapshotRestorable(repositoryName, snapshotInfo);
// Resolve the indices from the snapshot that need to be restored
final List<String> indicesInSnapshot = request.includeIndices() ? filterIndices(snapshotInfo.indices(), request.indices(), request.indicesOptions()) : List.of();
final StepListener<Metadata> globalMetadataListener = new StepListener<>();
if (request.includeCustomMetadata() || request.includeGlobalSettings() || request.allTemplates() || (request.templates() != null && request.templates().length > 0)) {
repository.getSnapshotGlobalMetadata(snapshotId, globalMetadataListener);
} else {
globalMetadataListener.onResponse(Metadata.EMPTY_METADATA);
}
globalMetadataListener.whenComplete(globalMetadata -> {
var metadataBuilder = Metadata.builder(globalMetadata);
var indexIdsInSnapshot = repositoryData.resolveIndices(indicesInSnapshot);
var snapshotIndexMetadataListener = new StepListener<Collection<IndexMetadata>>();
repository.getSnapshotIndexMetadata(snapshotId, indexIdsInSnapshot, snapshotIndexMetadataListener);
snapshotIndexMetadataListener.whenComplete(snapshotIndexMetadata -> {
for (IndexMetadata indexMetadata : snapshotIndexMetadata) {
metadataBuilder.put(indexMetadata, false);
}
final Metadata metadata = metadataBuilder.build();
// Apply renaming on index names, returning a map of names where
// the key is the renamed index and the value is the original name
final Map<String, String> indices = renamedIndices(request, indicesInSnapshot);
// Now we can start the actual restore process by adding shards to be recovered in the cluster state
// and updating cluster metadata (global and index) as needed
clusterService.submitStateUpdateTask("restore_snapshot[" + snapshotName + ']', new ClusterStateUpdateTask() {
final String restoreUUID = UUIDs.randomBase64UUID();
RestoreInfo restoreInfo = null;
@Override
public ClusterState execute(ClusterState currentState) {
RestoreInProgress restoreInProgress = currentState.custom(RestoreInProgress.TYPE);
// Check if the snapshot to restore is currently being deleted
SnapshotDeletionsInProgress deletionsInProgress = currentState.custom(SnapshotDeletionsInProgress.TYPE);
if (deletionsInProgress != null && deletionsInProgress.getEntries().stream().anyMatch(entry -> entry.getSnapshot().equals(snapshot))) {
throw new ConcurrentSnapshotExecutionException(snapshot, "cannot restore a snapshot while a snapshot deletion is in-progress [" + deletionsInProgress.getEntries().get(0).getSnapshot() + "]");
}
// Updating cluster state
ClusterState.Builder builder = ClusterState.builder(currentState);
Metadata.Builder mdBuilder = Metadata.builder(currentState.metadata());
ClusterBlocks.Builder blocks = ClusterBlocks.builder().blocks(currentState.blocks());
RoutingTable.Builder rtBuilder = RoutingTable.builder(currentState.routingTable());
ImmutableOpenMap<ShardId, RestoreInProgress.ShardRestoreStatus> shards;
Set<String> aliases = new HashSet<>();
if (indices.isEmpty() == false) {
// We have some indices to restore
ImmutableOpenMap.Builder<ShardId, RestoreInProgress.ShardRestoreStatus> shardsBuilder = ImmutableOpenMap.builder();
final Version minIndexCompatibilityVersion = currentState.getNodes().getMaxNodeVersion().minimumIndexCompatibilityVersion();
for (Map.Entry<String, String> indexEntry : indices.entrySet()) {
String index = indexEntry.getValue();
boolean partial = checkPartial(index);
SnapshotRecoverySource recoverySource = new SnapshotRecoverySource(restoreUUID, snapshot, snapshotInfo.version(), index);
String renamedIndexName = indexEntry.getKey();
IndexMetadata snapshotIndexMetadata = metadata.index(index);
snapshotIndexMetadata = updateIndexSettings(snapshotIndexMetadata, request.indexSettings(), request.ignoreIndexSettings());
try {
snapshotIndexMetadata = metadataIndexUpgradeService.upgradeIndexMetadata(snapshotIndexMetadata, minIndexCompatibilityVersion);
} catch (Exception ex) {
throw new SnapshotRestoreException(snapshot, "cannot restore index [" + index + "] because it cannot be upgraded", ex);
}
// Check that the index is closed or doesn't exist
IndexMetadata currentIndexMetadata = currentState.metadata().index(renamedIndexName);
IntSet ignoreShards = new IntHashSet();
final Index renamedIndex;
if (currentIndexMetadata == null) {
// Index doesn't exist - create it and start recovery
// Make sure that the index we are about to create has a validate name
MetadataCreateIndexService.validateIndexName(renamedIndexName, currentState);
createIndexService.validateIndexSettings(renamedIndexName, snapshotIndexMetadata.getSettings(), currentState, false);
IndexMetadata.Builder indexMdBuilder = IndexMetadata.builder(snapshotIndexMetadata).state(IndexMetadata.State.OPEN).index(renamedIndexName);
indexMdBuilder.settings(Settings.builder().put(snapshotIndexMetadata.getSettings()).put(IndexMetadata.SETTING_INDEX_UUID, UUIDs.randomBase64UUID()));
shardLimitValidator.validateShardLimit(snapshotIndexMetadata.getSettings(), currentState);
if (!request.includeAliases() && !snapshotIndexMetadata.getAliases().isEmpty()) {
// Remove all aliases - they shouldn't be restored
indexMdBuilder.removeAllAliases();
} else {
for (ObjectCursor<String> alias : snapshotIndexMetadata.getAliases().keys()) {
aliases.add(alias.value);
}
}
IndexMetadata updatedIndexMetadata = indexMdBuilder.build();
if (partial) {
populateIgnoredShards(index, ignoreShards);
}
rtBuilder.addAsNewRestore(updatedIndexMetadata, recoverySource, ignoreShards);
blocks.addBlocks(updatedIndexMetadata);
mdBuilder.put(updatedIndexMetadata, true);
renamedIndex = updatedIndexMetadata.getIndex();
} else {
validateExistingIndex(currentIndexMetadata, snapshotIndexMetadata, renamedIndexName, partial);
// Index exists and it's closed - open it in metadata and start recovery
IndexMetadata.Builder indexMdBuilder = IndexMetadata.builder(snapshotIndexMetadata).state(IndexMetadata.State.OPEN);
indexMdBuilder.version(Math.max(snapshotIndexMetadata.getVersion(), 1 + currentIndexMetadata.getVersion()));
indexMdBuilder.mappingVersion(Math.max(snapshotIndexMetadata.getMappingVersion(), 1 + currentIndexMetadata.getMappingVersion()));
indexMdBuilder.settingsVersion(Math.max(snapshotIndexMetadata.getSettingsVersion(), 1 + currentIndexMetadata.getSettingsVersion()));
for (int shard = 0; shard < snapshotIndexMetadata.getNumberOfShards(); shard++) {
indexMdBuilder.primaryTerm(shard, Math.max(snapshotIndexMetadata.primaryTerm(shard), currentIndexMetadata.primaryTerm(shard)));
}
if (!request.includeAliases()) {
// Remove all snapshot aliases
if (!snapshotIndexMetadata.getAliases().isEmpty()) {
indexMdBuilder.removeAllAliases();
}
// Add existing aliases
for (ObjectCursor<AliasMetadata> alias : currentIndexMetadata.getAliases().values()) {
indexMdBuilder.putAlias(alias.value);
}
} else {
for (ObjectCursor<String> alias : snapshotIndexMetadata.getAliases().keys()) {
aliases.add(alias.value);
}
}
indexMdBuilder.settings(Settings.builder().put(snapshotIndexMetadata.getSettings()).put(IndexMetadata.SETTING_INDEX_UUID, currentIndexMetadata.getIndexUUID()));
IndexMetadata updatedIndexMetadata = indexMdBuilder.index(renamedIndexName).build();
rtBuilder.addAsRestore(updatedIndexMetadata, recoverySource);
blocks.updateBlocks(updatedIndexMetadata);
mdBuilder.put(updatedIndexMetadata, true);
renamedIndex = updatedIndexMetadata.getIndex();
}
for (int shard = 0; shard < snapshotIndexMetadata.getNumberOfShards(); shard++) {
if (!ignoreShards.contains(shard)) {
shardsBuilder.put(new ShardId(renamedIndex, shard), new RestoreInProgress.ShardRestoreStatus(clusterService.state().nodes().getLocalNodeId()));
} else {
shardsBuilder.put(new ShardId(renamedIndex, shard), new RestoreInProgress.ShardRestoreStatus(clusterService.state().nodes().getLocalNodeId(), RestoreInProgress.State.FAILURE));
}
}
}
shards = shardsBuilder.build();
RestoreInProgress.Entry restoreEntry = new RestoreInProgress.Entry(restoreUUID, snapshot, overallState(RestoreInProgress.State.INIT, shards), List.copyOf(indices.keySet()), shards);
RestoreInProgress.Builder restoreInProgressBuilder;
if (restoreInProgress != null) {
restoreInProgressBuilder = new RestoreInProgress.Builder(restoreInProgress);
} else {
restoreInProgressBuilder = new RestoreInProgress.Builder();
}
builder.putCustom(RestoreInProgress.TYPE, restoreInProgressBuilder.add(restoreEntry).build());
} else {
shards = ImmutableOpenMap.of();
}
validateExistingTemplates();
checkAliasNameConflicts(indices, aliases);
// Restore templates (but do NOT overwrite existing templates)
restoreTemplates(mdBuilder, currentState);
// Restore global state if needed
if (request.includeGlobalSettings() && metadata.persistentSettings() != null) {
Settings settings = metadata.persistentSettings();
// CrateDB patch to only restore defined settings
if (request.globalSettings().length > 0) {
var filteredSettingBuilder = Settings.builder();
for (String prefix : request.globalSettings()) {
filteredSettingBuilder.put(settings.filter(s -> s.startsWith(prefix)));
}
settings = filteredSettingBuilder.build();
}
clusterSettings.validateUpdate(settings);
mdBuilder.persistentSettings(settings);
}
if (request.includeCustomMetadata() && metadata.customs() != null) {
// CrateDB patch to only restore defined custom metadata types
List<String> customMetadataTypes = Arrays.asList(request.customMetadataTypes());
boolean includeAll = customMetadataTypes.size() == 0;
for (ObjectObjectCursor<String, Metadata.Custom> cursor : metadata.customs()) {
if (!RepositoriesMetadata.TYPE.equals(cursor.key)) {
if (includeAll || customMetadataTypes.contains(cursor.key)) {
mdBuilder.putCustom(cursor.key, cursor.value);
}
}
}
}
if (completed(shards)) {
// We don't have any indices to restore - we are done
restoreInfo = new RestoreInfo(snapshotId.getName(), Collections.unmodifiableList(new ArrayList<>(indices.keySet())), shards.size(), shards.size() - failedShards(shards));
}
RoutingTable rt = rtBuilder.build();
ClusterState updatedState = builder.metadata(mdBuilder).blocks(blocks).routingTable(rt).build();
return allocationService.reroute(updatedState, "restored snapshot [" + snapshot + "]");
}
private void checkAliasNameConflicts(Map<String, String> renamedIndices, Set<String> aliases) {
for (Map.Entry<String, String> renamedIndex : renamedIndices.entrySet()) {
if (aliases.contains(renamedIndex.getKey())) {
throw new SnapshotRestoreException(snapshot, "cannot rename index [" + renamedIndex.getValue() + "] into [" + renamedIndex.getKey() + "] because of conflict with an alias with the same name");
}
}
}
private void populateIgnoredShards(String index, IntSet ignoreShards) {
for (SnapshotShardFailure failure : snapshotInfo.shardFailures()) {
if (index.equals(failure.index())) {
ignoreShards.add(failure.shardId());
}
}
}
private boolean checkPartial(String index) {
// Make sure that index was fully snapshotted
if (failed(snapshotInfo, index)) {
if (request.partial()) {
return true;
} else {
throw new SnapshotRestoreException(snapshot, "index [" + index + "] wasn't fully snapshotted - cannot " + "restore");
}
} else {
return false;
}
}
private void validateExistingIndex(IndexMetadata currentIndexMetadata, IndexMetadata snapshotIndexMetadata, String renamedIndex, boolean partial) {
// Index exist - checking that it's closed
if (currentIndexMetadata.getState() != IndexMetadata.State.CLOSE) {
// TODO: Enable restore for open indices
throw new SnapshotRestoreException(snapshot, "cannot restore index [" + renamedIndex + "] because an open index " + "with same name already exists in the cluster. Either close or delete the existing index or restore the " + "index under a different name by providing a rename pattern and replacement name");
}
// Index exist - checking if it's partial restore
if (partial) {
throw new SnapshotRestoreException(snapshot, "cannot restore partial index [" + renamedIndex + "] because such index already exists");
}
// Make sure that the number of shards is the same. That's the only thing that we cannot change
if (currentIndexMetadata.getNumberOfShards() != snapshotIndexMetadata.getNumberOfShards()) {
throw new SnapshotRestoreException(snapshot, "cannot restore index [" + renamedIndex + "] with [" + currentIndexMetadata.getNumberOfShards() + "] shards from a snapshot of index [" + snapshotIndexMetadata.getIndex().getName() + "] with [" + snapshotIndexMetadata.getNumberOfShards() + "] shards");
}
}
/**
* Optionally updates index settings in indexMetadata by removing settings listed in ignoreSettings and
* merging them with settings in changeSettings.
*/
private IndexMetadata updateIndexSettings(IndexMetadata indexMetadata, Settings changeSettings, String[] ignoreSettings) {
if (changeSettings.names().isEmpty() && ignoreSettings.length == 0) {
return indexMetadata;
}
Settings normalizedChangeSettings = Settings.builder().put(changeSettings).normalizePrefix(IndexMetadata.INDEX_SETTING_PREFIX).build();
IndexMetadata.Builder builder = IndexMetadata.builder(indexMetadata);
Settings settings = indexMetadata.getSettings();
Set<String> keyFilters = new HashSet<>();
List<String> simpleMatchPatterns = new ArrayList<>();
for (String ignoredSetting : ignoreSettings) {
if (!Regex.isSimpleMatchPattern(ignoredSetting)) {
if (UNREMOVABLE_SETTINGS.contains(ignoredSetting)) {
throw new SnapshotRestoreException(snapshot, "cannot remove setting [" + ignoredSetting + "] on restore");
} else {
keyFilters.add(ignoredSetting);
}
} else {
simpleMatchPatterns.add(ignoredSetting);
}
}
Predicate<String> settingsFilter = k -> {
if (UNREMOVABLE_SETTINGS.contains(k) == false) {
for (String filterKey : keyFilters) {
if (k.equals(filterKey)) {
return false;
}
}
for (String pattern : simpleMatchPatterns) {
if (Regex.simpleMatch(pattern, k)) {
return false;
}
}
}
return true;
};
Settings.Builder settingsBuilder = Settings.builder().put(settings.filter(settingsFilter)).put(normalizedChangeSettings.filter(k -> {
if (UNMODIFIABLE_SETTINGS.contains(k)) {
throw new SnapshotRestoreException(snapshot, "cannot modify setting [" + k + "] on restore");
} else {
return true;
}
}));
settingsBuilder.remove(IndexMetadata.VERIFIED_BEFORE_CLOSE_SETTING.getKey());
return builder.settings(settingsBuilder).build();
}
private void restoreTemplates(Metadata.Builder mdBuilder, ClusterState currentState) {
List<String> toRestore = Arrays.asList(request.templates());
if (metadata.templates() != null) {
for (ObjectCursor<IndexTemplateMetadata> cursor : metadata.templates().values()) {
if (currentState.metadata().templates().get(cursor.value.name()) == null && (request.allTemplates() || toRestore.contains(cursor.value.name()))) {
mdBuilder.put(cursor.value);
}
}
}
}
private void validateExistingTemplates() {
if (request.indicesOptions().ignoreUnavailable() || request.allTemplates()) {
return;
}
for (String template : request.templates()) {
if (!metadata.templates().containsKey(template)) {
throw new ResourceNotFoundException("[{}] template not found", template);
}
}
}
@Override
public void onFailure(String source, Exception e) {
LOGGER.warn(() -> new ParameterizedMessage("[{}] failed to restore snapshot", snapshotId), e);
listener.onFailure(e);
}
@Override
public TimeValue timeout() {
return request.masterNodeTimeout();
}
@Override
public void clusterStateProcessed(String source, ClusterState oldState, ClusterState newState) {
listener.onResponse(new RestoreCompletionResponse(restoreUUID, snapshot, restoreInfo));
}
});
}, listener::onFailure);
}, listener::onFailure);
}));
}, listener::onFailure);
} catch (Exception e) {
LOGGER.warn(() -> new ParameterizedMessage("[{}] failed to restore snapshot", request.repositoryName + ":" + request.snapshotName), e);
listener.onFailure(e);
}
}
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