/*
* 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.cluster.metadata;
import com.carrotsearch.hppc.LongArrayList;
import com.carrotsearch.hppc.cursors.IntObjectCursor;
import com.carrotsearch.hppc.cursors.ObjectCursor;
import com.carrotsearch.hppc.cursors.ObjectObjectCursor;
import org.elasticsearch.Version;
import org.elasticsearch.action.support.ActiveShardCount;
import org.elasticsearch.cluster.Diff;
import org.elasticsearch.cluster.Diffable;
import org.elasticsearch.cluster.DiffableUtils;
import org.elasticsearch.cluster.block.ClusterBlock;
import org.elasticsearch.cluster.block.ClusterBlockLevel;
import org.elasticsearch.cluster.node.DiscoveryNodeFilters;
import org.elasticsearch.cluster.routing.allocation.IndexMetaDataUpdater;
import org.elasticsearch.common.Nullable;
import org.elasticsearch.common.bytes.BytesArray;
import org.elasticsearch.common.collect.ImmutableOpenIntMap;
import org.elasticsearch.common.collect.ImmutableOpenMap;
import org.elasticsearch.common.collect.MapBuilder;
import org.elasticsearch.common.compress.CompressedXContent;
import org.elasticsearch.common.io.stream.StreamInput;
import org.elasticsearch.common.io.stream.StreamOutput;
import org.elasticsearch.common.settings.Setting;
import org.elasticsearch.common.settings.Setting.Property;
import org.elasticsearch.common.settings.Settings;
import org.elasticsearch.common.settings.loader.SettingsLoader;
import org.elasticsearch.common.xcontent.ToXContent;
import org.elasticsearch.common.xcontent.XContentBuilder;
import org.elasticsearch.common.xcontent.XContentFactory;
import org.elasticsearch.common.xcontent.XContentHelper;
import org.elasticsearch.common.xcontent.XContentParser;
import org.elasticsearch.common.xcontent.XContentType;
import org.elasticsearch.gateway.MetaDataStateFormat;
import org.elasticsearch.index.Index;
import org.elasticsearch.index.mapper.MapperService;
import org.elasticsearch.index.shard.ShardId;
import org.elasticsearch.rest.RestStatus;
import org.joda.time.DateTime;
import org.joda.time.DateTimeZone;
import java.io.IOException;
import java.util.Arrays;
import java.util.Collections;
import java.util.EnumSet;
import java.util.HashMap;
import java.util.HashSet;
import java.util.Locale;
import java.util.Map;
import java.util.Set;
import java.util.function.Function;
import static org.elasticsearch.cluster.node.DiscoveryNodeFilters.IP_VALIDATOR;
import static org.elasticsearch.cluster.node.DiscoveryNodeFilters.OpType.AND;
import static org.elasticsearch.cluster.node.DiscoveryNodeFilters.OpType.OR;
import static org.elasticsearch.common.settings.Settings.readSettingsFromStream;
import static org.elasticsearch.common.settings.Settings.writeSettingsToStream;
public class IndexMetaData implements Diffable<IndexMetaData>, ToXContent {
/**
* This class will be removed in v7.0
*/
@Deprecated
public interface Custom extends Diffable<Custom>, ToXContent {
String type();
Custom fromMap(Map<String, Object> map) throws IOException;
Custom fromXContent(XContentParser parser) throws IOException;
/**
* Reads the {@link org.elasticsearch.cluster.Diff} from StreamInput
*/
Diff<Custom> readDiffFrom(StreamInput in) throws IOException;
/**
* Reads an object of this type from the provided {@linkplain StreamInput}. The receiving instance remains unchanged.
*/
Custom readFrom(StreamInput in) throws IOException;
/**
* Merges from this to another, with this being more important, i.e., if something exists in this and another,
* this will prevail.
*/
Custom mergeWith(Custom another);
}
public static Map<String, Custom> customPrototypes = new HashMap<>();
/**
* Register a custom index meta data factory. Make sure to call it from a static block.
*/
public static void registerPrototype(String type, Custom proto) {
customPrototypes.put(type, proto);
}
@Nullable
public static <T extends Custom> T lookupPrototype(String type) {
//noinspection unchecked
return (T) customPrototypes.get(type);
}
public static <T extends Custom> T lookupPrototypeSafe(String type) {
//noinspection unchecked
T proto = (T) customPrototypes.get(type);
if (proto == null) {
throw new IllegalArgumentException("No custom metadata prototype registered for type [" + type + "]");
}
return proto;
}
public static final ClusterBlock INDEX_READ_ONLY_BLOCK = new ClusterBlock(5, "index read-only (api)", false, false, RestStatus.FORBIDDEN, EnumSet.of(ClusterBlockLevel.WRITE, ClusterBlockLevel.METADATA_WRITE));
public static final ClusterBlock INDEX_READ_BLOCK = new ClusterBlock(7, "index read (api)", false, false, RestStatus.FORBIDDEN, EnumSet.of(ClusterBlockLevel.READ));
public static final ClusterBlock INDEX_WRITE_BLOCK = new ClusterBlock(8, "index write (api)", false, false, RestStatus.FORBIDDEN, EnumSet.of(ClusterBlockLevel.WRITE));
public static final ClusterBlock INDEX_METADATA_BLOCK = new ClusterBlock(9, "index metadata (api)", false, false, RestStatus.FORBIDDEN, EnumSet.of(ClusterBlockLevel.METADATA_WRITE, ClusterBlockLevel.METADATA_READ));
public enum State {
OPEN((byte) 0),
CLOSE((byte) 1);
private final byte id;
State(byte id) {
this.id = id;
}
public byte id() {
return this.id;
}
public static State fromId(byte id) {
if (id == 0) {
return OPEN;
} else if (id == 1) {
return CLOSE;
}
throw new IllegalStateException("No state match for id [" + id + "]");
}
public static State fromString(String state) {
if ("open".equals(state)) {
return OPEN;
} else if ("close".equals(state)) {
return CLOSE;
}
throw new IllegalStateException("No state match for [" + state + "]");
}
}
static Setting<Integer> buildNumberOfShardsSetting() {
/* This is a safety limit that should only be exceeded in very rare and special cases. The assumption is that
* 99% of the users have less than 1024 shards per index. We also make it a hard check that requires restart of nodes
* if a cluster should allow to create more than 1024 shards per index. NOTE: this does not limit the number of shards per cluster.
* this also prevents creating stuff like a new index with millions of shards by accident which essentially kills the entire cluster
* with OOM on the spot.*/
final int maxNumShards = Integer.parseInt(System.getProperty("es.index.max_number_of_shards", "1024"));
if (maxNumShards < 1) {
throw new IllegalArgumentException("es.index.max_number_of_shards must be > 0");
}
return Setting.intSetting(SETTING_NUMBER_OF_SHARDS, Math.min(5, maxNumShards), 1, maxNumShards,
Property.IndexScope, Property.Final);
}
public static final String INDEX_SETTING_PREFIX = "index.";
public static final String SETTING_NUMBER_OF_SHARDS = "index.number_of_shards";
public static final Setting<Integer> INDEX_NUMBER_OF_SHARDS_SETTING = buildNumberOfShardsSetting();
public static final String SETTING_NUMBER_OF_REPLICAS = "index.number_of_replicas";
public static final Setting<Integer> INDEX_NUMBER_OF_REPLICAS_SETTING =
Setting.intSetting(SETTING_NUMBER_OF_REPLICAS, 1, 0, Property.Dynamic, Property.IndexScope);
public static final String SETTING_ROUTING_PARTITION_SIZE = "index.routing_partition_size";
public static final Setting<Integer> INDEX_ROUTING_PARTITION_SIZE_SETTING =
Setting.intSetting(SETTING_ROUTING_PARTITION_SIZE, 1, 1, Property.IndexScope);
public static final String SETTING_AUTO_EXPAND_REPLICAS = "index.auto_expand_replicas";
public static final Setting<AutoExpandReplicas> INDEX_AUTO_EXPAND_REPLICAS_SETTING = AutoExpandReplicas.SETTING;
public static final String SETTING_READ_ONLY = "index.blocks.read_only";
public static final Setting<Boolean> INDEX_READ_ONLY_SETTING =
Setting.boolSetting(SETTING_READ_ONLY, false, Property.Dynamic, Property.IndexScope);
public static final String SETTING_BLOCKS_READ = "index.blocks.read";
public static final Setting<Boolean> INDEX_BLOCKS_READ_SETTING =
Setting.boolSetting(SETTING_BLOCKS_READ, false, Property.Dynamic, Property.IndexScope);
public static final String SETTING_BLOCKS_WRITE = "index.blocks.write";
public static final Setting<Boolean> INDEX_BLOCKS_WRITE_SETTING =
Setting.boolSetting(SETTING_BLOCKS_WRITE, false, Property.Dynamic, Property.IndexScope);
public static final String SETTING_BLOCKS_METADATA = "index.blocks.metadata";
public static final Setting<Boolean> INDEX_BLOCKS_METADATA_SETTING =
Setting.boolSetting(SETTING_BLOCKS_METADATA, false, Property.Dynamic, Property.IndexScope);
public static final String SETTING_VERSION_CREATED = "index.version.created";
public static final String SETTING_VERSION_CREATED_STRING = "index.version.created_string";
public static final String SETTING_VERSION_UPGRADED = "index.version.upgraded";
public static final String SETTING_VERSION_UPGRADED_STRING = "index.version.upgraded_string";
public static final String SETTING_CREATION_DATE = "index.creation_date";
/**
* The user provided name for an index. This is the plain string provided by the user when the index was created.
* It might still contain date math expressions etc. (added in 5.0)
*/
public static final String SETTING_INDEX_PROVIDED_NAME = "index.provided_name";
public static final String SETTING_PRIORITY = "index.priority";
public static final Setting<Integer> INDEX_PRIORITY_SETTING =
Setting.intSetting("index.priority", 1, 0, Property.Dynamic, Property.IndexScope);
public static final String SETTING_CREATION_DATE_STRING = "index.creation_date_string";
public static final String SETTING_INDEX_UUID = "index.uuid";
public static final String SETTING_DATA_PATH = "index.data_path";
public static final Setting<String> INDEX_DATA_PATH_SETTING =
new Setting<>(SETTING_DATA_PATH, "", Function.identity(), Property.IndexScope);
public static final String INDEX_UUID_NA_VALUE = "_na_";
public static final String INDEX_ROUTING_REQUIRE_GROUP_PREFIX = "index.routing.allocation.require";
public static final String INDEX_ROUTING_INCLUDE_GROUP_PREFIX = "index.routing.allocation.include";
public static final String INDEX_ROUTING_EXCLUDE_GROUP_PREFIX = "index.routing.allocation.exclude";
public static final Setting<Settings> INDEX_ROUTING_REQUIRE_GROUP_SETTING =
Setting.groupSetting(INDEX_ROUTING_REQUIRE_GROUP_PREFIX + ".", IP_VALIDATOR, Property.Dynamic, Property.IndexScope);
public static final Setting<Settings> INDEX_ROUTING_INCLUDE_GROUP_SETTING =
Setting.groupSetting(INDEX_ROUTING_INCLUDE_GROUP_PREFIX + ".", IP_VALIDATOR, Property.Dynamic, Property.IndexScope);
public static final Setting<Settings> INDEX_ROUTING_EXCLUDE_GROUP_SETTING =
Setting.groupSetting(INDEX_ROUTING_EXCLUDE_GROUP_PREFIX + ".", IP_VALIDATOR, Property.Dynamic, Property.IndexScope);
public static final Setting<Settings> INDEX_ROUTING_INITIAL_RECOVERY_GROUP_SETTING =
Setting.groupSetting("index.routing.allocation.initial_recovery."); // this is only setable internally not a registered setting!!
/**
* The number of active shard copies to check for before proceeding with a write operation.
*/
public static final Setting<ActiveShardCount> SETTING_WAIT_FOR_ACTIVE_SHARDS =
new Setting<>("index.write.wait_for_active_shards",
"1",
ActiveShardCount::parseString,
Setting.Property.Dynamic,
Setting.Property.IndexScope);
public static final String KEY_IN_SYNC_ALLOCATIONS = "in_sync_allocations";
static final String KEY_VERSION = "version";
static final String KEY_ROUTING_NUM_SHARDS = "routing_num_shards";
static final String KEY_SETTINGS = "settings";
static final String KEY_STATE = "state";
static final String KEY_MAPPINGS = "mappings";
static final String KEY_ALIASES = "aliases";
public static final String KEY_PRIMARY_TERMS = "primary_terms";
public static final String INDEX_STATE_FILE_PREFIX = "state-";
private final int routingNumShards;
private final int routingFactor;
private final int routingPartitionSize;
private final int numberOfShards;
private final int numberOfReplicas;
private final Index index;
private final long version;
private final long[] primaryTerms;
private final State state;
private final ImmutableOpenMap<String, AliasMetaData> aliases;
private final Settings settings;
private final ImmutableOpenMap<String, MappingMetaData> mappings;
private final ImmutableOpenMap<String, Custom> customs;
private final ImmutableOpenIntMap<Set<String>> inSyncAllocationIds;
private final transient int totalNumberOfShards;
private final DiscoveryNodeFilters requireFilters;
private final DiscoveryNodeFilters includeFilters;
private final DiscoveryNodeFilters excludeFilters;
private final DiscoveryNodeFilters initialRecoveryFilters;
private final Version indexCreatedVersion;
private final Version indexUpgradedVersion;
private final ActiveShardCount waitForActiveShards;
private IndexMetaData(Index index, long version, long[] primaryTerms, State state, int numberOfShards, int numberOfReplicas, Settings settings,
ImmutableOpenMap<String, MappingMetaData> mappings, ImmutableOpenMap<String, AliasMetaData> aliases,
ImmutableOpenMap<String, Custom> customs, ImmutableOpenIntMap<Set<String>> inSyncAllocationIds,
DiscoveryNodeFilters requireFilters, DiscoveryNodeFilters initialRecoveryFilters, DiscoveryNodeFilters includeFilters, DiscoveryNodeFilters excludeFilters,
Version indexCreatedVersion, Version indexUpgradedVersion,
int routingNumShards, int routingPartitionSize, ActiveShardCount waitForActiveShards) {
this.index = index;
this.version = version;
this.primaryTerms = primaryTerms;
assert primaryTerms.length == numberOfShards;
this.state = state;
this.numberOfShards = numberOfShards;
this.numberOfReplicas = numberOfReplicas;
this.totalNumberOfShards = numberOfShards * (numberOfReplicas + 1);
this.settings = settings;
this.mappings = mappings;
this.customs = customs;
this.aliases = aliases;
this.inSyncAllocationIds = inSyncAllocationIds;
this.requireFilters = requireFilters;
this.includeFilters = includeFilters;
this.excludeFilters = excludeFilters;
this.initialRecoveryFilters = initialRecoveryFilters;
this.indexCreatedVersion = indexCreatedVersion;
this.indexUpgradedVersion = indexUpgradedVersion;
this.routingNumShards = routingNumShards;
this.routingFactor = routingNumShards / numberOfShards;
this.routingPartitionSize = routingPartitionSize;
this.waitForActiveShards = waitForActiveShards;
assert numberOfShards * routingFactor == routingNumShards : routingNumShards + " must be a multiple of " + numberOfShards;
}
public Index getIndex() {
return index;
}
public String getIndexUUID() {
return index.getUUID();
}
/**
* Test whether the current index UUID is the same as the given one. Returns true if either are _na_
*/
public boolean isSameUUID(String otherUUID) {
assert otherUUID != null;
assert getIndexUUID() != null;
if (INDEX_UUID_NA_VALUE.equals(otherUUID) || INDEX_UUID_NA_VALUE.equals(getIndexUUID())) {
return true;
}
return otherUUID.equals(getIndexUUID());
}
public long getVersion() {
return this.version;
}
/**
* The term of the current selected primary. This is a non-negative number incremented when
* a primary shard is assigned after a full cluster restart or a replica shard is promoted to a primary.
*
* Note: since we increment the term every time a shard is assigned, the term for any operational shard (i.e., a shard
* that can be indexed into) is larger than 0. See {@link IndexMetaDataUpdater#applyChanges}.
**/
public long primaryTerm(int shardId) {
return this.primaryTerms[shardId];
}
/**
* Return the {@link Version} on which this index has been created. This
* information is typically useful for backward compatibility.
*/
public Version getCreationVersion() {
return indexCreatedVersion;
}
/**
* Return the {@link Version} on which this index has been upgraded. This
* information is typically useful for backward compatibility.
*/
public Version getUpgradedVersion() {
return indexUpgradedVersion;
}
public long getCreationDate() {
return settings.getAsLong(SETTING_CREATION_DATE, -1L);
}
public State getState() {
return this.state;
}
public int getNumberOfShards() {
return numberOfShards;
}
public int getNumberOfReplicas() {
return numberOfReplicas;
}
public int getRoutingPartitionSize() {
return routingPartitionSize;
}
public boolean isRoutingPartitionedIndex() {
return routingPartitionSize != 1;
}
public int getTotalNumberOfShards() {
return totalNumberOfShards;
}
/**
* Returns the configured {@link #SETTING_WAIT_FOR_ACTIVE_SHARDS}, which defaults
* to an active shard count of 1 if not specified.
*/
public ActiveShardCount getWaitForActiveShards() {
return waitForActiveShards;
}
public Settings getSettings() {
return settings;
}
public ImmutableOpenMap<String, AliasMetaData> getAliases() {
return this.aliases;
}
public ImmutableOpenMap<String, MappingMetaData> getMappings() {
return mappings;
}
@Nullable
public MappingMetaData mapping(String mappingType) {
return mappings.get(mappingType);
}
public static final String INDEX_SHRINK_SOURCE_UUID_KEY = "index.shrink.source.uuid";
public static final String INDEX_SHRINK_SOURCE_NAME_KEY = "index.shrink.source.name";
public static final Setting<String> INDEX_SHRINK_SOURCE_UUID = Setting.simpleString(INDEX_SHRINK_SOURCE_UUID_KEY);
public static final Setting<String> INDEX_SHRINK_SOURCE_NAME = Setting.simpleString(INDEX_SHRINK_SOURCE_NAME_KEY);
public Index getMergeSourceIndex() {
return INDEX_SHRINK_SOURCE_UUID.exists(settings) ? new Index(INDEX_SHRINK_SOURCE_NAME.get(settings), INDEX_SHRINK_SOURCE_UUID.get(settings)) : null;
}
/**
* Sometimes, the default mapping exists and an actual mapping is not created yet (introduced),
* in this case, we want to return the default mapping in case it has some default mapping definitions.
* <p>
* Note, once the mapping type is introduced, the default mapping is applied on the actual typed MappingMetaData,
* setting its routing, timestamp, and so on if needed.
*/
@Nullable
public MappingMetaData mappingOrDefault(String mappingType) {
MappingMetaData mapping = mappings.get(mappingType);
if (mapping != null) {
return mapping;
}
return mappings.get(MapperService.DEFAULT_MAPPING);
}
public ImmutableOpenMap<String, Custom> getCustoms() {
return this.customs;
}
@SuppressWarnings("unchecked")
public <T extends Custom> T custom(String type) {
return (T) customs.get(type);
}
public ImmutableOpenIntMap<Set<String>> getInSyncAllocationIds() {
return inSyncAllocationIds;
}
public Set<String> inSyncAllocationIds(int shardId) {
assert shardId >= 0 && shardId < numberOfShards;
return inSyncAllocationIds.get(shardId);
}
@Nullable
public DiscoveryNodeFilters requireFilters() {
return requireFilters;
}
@Nullable
public DiscoveryNodeFilters getInitialRecoveryFilters() {
return initialRecoveryFilters;
}
@Nullable
public DiscoveryNodeFilters includeFilters() {
return includeFilters;
}
@Nullable
public DiscoveryNodeFilters excludeFilters() {
return excludeFilters;
}
@Override
public boolean equals(Object o) {
if (this == o) {
return true;
}
if (o == null || getClass() != o.getClass()) {
return false;
}
IndexMetaData that = (IndexMetaData) o;
if (version != that.version) {
return false;
}
if (!aliases.equals(that.aliases)) {
return false;
}
if (!index.equals(that.index)) {
return false;
}
if (!mappings.equals(that.mappings)) {
return false;
}
if (!settings.equals(that.settings)) {
return false;
}
if (state != that.state) {
return false;
}
if (!customs.equals(that.customs)) {
return false;
}
if (routingNumShards != that.routingNumShards) {
return false;
}
if (routingFactor != that.routingFactor) {
return false;
}
if (Arrays.equals(primaryTerms, that.primaryTerms) == false) {
return false;
}
if (!inSyncAllocationIds.equals(that.inSyncAllocationIds)) {
return false;
}
return true;
}
@Override
public int hashCode() {
int result = index.hashCode();
result = 31 * result + Long.hashCode(version);
result = 31 * result + state.hashCode();
result = 31 * result + aliases.hashCode();
result = 31 * result + settings.hashCode();
result = 31 * result + mappings.hashCode();
result = 31 * result + customs.hashCode();
result = 31 * result + Long.hashCode(routingFactor);
result = 31 * result + Long.hashCode(routingNumShards);
result = 31 * result + Arrays.hashCode(primaryTerms);
result = 31 * result + inSyncAllocationIds.hashCode();
return result;
}
@Override
public Diff<IndexMetaData> diff(IndexMetaData previousState) {
return new IndexMetaDataDiff(previousState, this);
}
public static Diff<IndexMetaData> readDiffFrom(StreamInput in) throws IOException {
return new IndexMetaDataDiff(in);
}
public static IndexMetaData fromXContent(XContentParser parser) throws IOException {
return Builder.fromXContent(parser);
}
@Override
public XContentBuilder toXContent(XContentBuilder builder, Params params) throws IOException {
Builder.toXContent(this, builder, params);
return builder;
}
private static class IndexMetaDataDiff implements Diff<IndexMetaData> {
private final String index;
private final int routingNumShards;
private final long version;
private final long[] primaryTerms;
private final State state;
private final Settings settings;
private final Diff<ImmutableOpenMap<String, MappingMetaData>> mappings;
private final Diff<ImmutableOpenMap<String, AliasMetaData>> aliases;
private final Diff<ImmutableOpenMap<String, Custom>> customs;
private final Diff<ImmutableOpenIntMap<Set<String>>> inSyncAllocationIds;
IndexMetaDataDiff(IndexMetaData before, IndexMetaData after) {
index = after.index.getName();
version = after.version;
routingNumShards = after.routingNumShards;
state = after.state;
settings = after.settings;
primaryTerms = after.primaryTerms;
mappings = DiffableUtils.diff(before.mappings, after.mappings, DiffableUtils.getStringKeySerializer());
aliases = DiffableUtils.diff(before.aliases, after.aliases, DiffableUtils.getStringKeySerializer());
customs = DiffableUtils.diff(before.customs, after.customs, DiffableUtils.getStringKeySerializer());
inSyncAllocationIds = DiffableUtils.diff(before.inSyncAllocationIds, after.inSyncAllocationIds,
DiffableUtils.getVIntKeySerializer(), DiffableUtils.StringSetValueSerializer.getInstance());
}
IndexMetaDataDiff(StreamInput in) throws IOException {
index = in.readString();
routingNumShards = in.readInt();
version = in.readLong();
state = State.fromId(in.readByte());
settings = Settings.readSettingsFromStream(in);
primaryTerms = in.readVLongArray();
mappings = DiffableUtils.readImmutableOpenMapDiff(in, DiffableUtils.getStringKeySerializer(), MappingMetaData::new,
MappingMetaData::readDiffFrom);
aliases = DiffableUtils.readImmutableOpenMapDiff(in, DiffableUtils.getStringKeySerializer(), AliasMetaData::new,
AliasMetaData::readDiffFrom);
customs = DiffableUtils.readImmutableOpenMapDiff(in, DiffableUtils.getStringKeySerializer(),
new DiffableUtils.DiffableValueSerializer<String, Custom>() {
@Override
public Custom read(StreamInput in, String key) throws IOException {
return lookupPrototypeSafe(key).readFrom(in);
}
@SuppressWarnings("unchecked")
@Override
public Diff<Custom> readDiff(StreamInput in, String key) throws IOException {
return lookupPrototypeSafe(key).readDiffFrom(in);
}
});
inSyncAllocationIds = DiffableUtils.readImmutableOpenIntMapDiff(in, DiffableUtils.getVIntKeySerializer(),
DiffableUtils.StringSetValueSerializer.getInstance());
}
@Override
public void writeTo(StreamOutput out) throws IOException {
out.writeString(index);
out.writeInt(routingNumShards);
out.writeLong(version);
out.writeByte(state.id);
Settings.writeSettingsToStream(settings, out);
out.writeVLongArray(primaryTerms);
mappings.writeTo(out);
aliases.writeTo(out);
customs.writeTo(out);
inSyncAllocationIds.writeTo(out);
}
@Override
public IndexMetaData apply(IndexMetaData part) {
Builder builder = builder(index);
builder.version(version);
builder.setRoutingNumShards(routingNumShards);
builder.state(state);
builder.settings(settings);
builder.primaryTerms(primaryTerms);
builder.mappings.putAll(mappings.apply(part.mappings));
builder.aliases.putAll(aliases.apply(part.aliases));
builder.customs.putAll(customs.apply(part.customs));
builder.inSyncAllocationIds.putAll(inSyncAllocationIds.apply(part.inSyncAllocationIds));
return builder.build();
}
}
public static IndexMetaData readFrom(StreamInput in) throws IOException {
Builder builder = new Builder(in.readString());
builder.version(in.readLong());
builder.setRoutingNumShards(in.readInt());
builder.state(State.fromId(in.readByte()));
builder.settings(readSettingsFromStream(in));
builder.primaryTerms(in.readVLongArray());
int mappingsSize = in.readVInt();
for (int i = 0; i < mappingsSize; i++) {
MappingMetaData mappingMd = new MappingMetaData(in);
builder.putMapping(mappingMd);
}
int aliasesSize = in.readVInt();
for (int i = 0; i < aliasesSize; i++) {
AliasMetaData aliasMd = new AliasMetaData(in);
builder.putAlias(aliasMd);
}
int customSize = in.readVInt();
for (int i = 0; i < customSize; i++) {
String type = in.readString();
Custom customIndexMetaData = lookupPrototypeSafe(type).readFrom(in);
builder.putCustom(type, customIndexMetaData);
}
int inSyncAllocationIdsSize = in.readVInt();
for (int i = 0; i < inSyncAllocationIdsSize; i++) {
int key = in.readVInt();
Set<String> allocationIds = DiffableUtils.StringSetValueSerializer.getInstance().read(in, key);
builder.putInSyncAllocationIds(key, allocationIds);
}
return builder.build();
}
@Override
public void writeTo(StreamOutput out) throws IOException {
out.writeString(index.getName()); // uuid will come as part of settings
out.writeLong(version);
out.writeInt(routingNumShards);
out.writeByte(state.id());
writeSettingsToStream(settings, out);
out.writeVLongArray(primaryTerms);
out.writeVInt(mappings.size());
for (ObjectCursor<MappingMetaData> cursor : mappings.values()) {
cursor.value.writeTo(out);
}
out.writeVInt(aliases.size());
for (ObjectCursor<AliasMetaData> cursor : aliases.values()) {
cursor.value.writeTo(out);
}
out.writeVInt(customs.size());
for (ObjectObjectCursor<String, Custom> cursor : customs) {
out.writeString(cursor.key);
cursor.value.writeTo(out);
}
out.writeVInt(inSyncAllocationIds.size());
for (IntObjectCursor<Set<String>> cursor : inSyncAllocationIds) {
out.writeVInt(cursor.key);
DiffableUtils.StringSetValueSerializer.getInstance().write(cursor.value, out);
}
}
public static Builder builder(String index) {
return new Builder(index);
}
public static Builder builder(IndexMetaData indexMetaData) {
return new Builder(indexMetaData);
}
public static class Builder {
private String index;
private State state = State.OPEN;
private long version = 1;
private long[] primaryTerms = null;
private Settings settings = Settings.Builder.EMPTY_SETTINGS;
private final ImmutableOpenMap.Builder<String, MappingMetaData> mappings;
private final ImmutableOpenMap.Builder<String, AliasMetaData> aliases;
private final ImmutableOpenMap.Builder<String, Custom> customs;
private final ImmutableOpenIntMap.Builder<Set<String>> inSyncAllocationIds;
private Integer routingNumShards;
public Builder(String index) {
this.index = index;
this.mappings = ImmutableOpenMap.builder();
this.aliases = ImmutableOpenMap.builder();
this.customs = ImmutableOpenMap.builder();
this.inSyncAllocationIds = ImmutableOpenIntMap.builder();
}
public Builder(IndexMetaData indexMetaData) {
this.index = indexMetaData.getIndex().getName();
this.state = indexMetaData.state;
this.version = indexMetaData.version;
this.settings = indexMetaData.getSettings();
this.primaryTerms = indexMetaData.primaryTerms.clone();
this.mappings = ImmutableOpenMap.builder(indexMetaData.mappings);
this.aliases = ImmutableOpenMap.builder(indexMetaData.aliases);
this.customs = ImmutableOpenMap.builder(indexMetaData.customs);
this.routingNumShards = indexMetaData.routingNumShards;
this.inSyncAllocationIds = ImmutableOpenIntMap.builder(indexMetaData.inSyncAllocationIds);
}
public String index() {
return index;
}
public Builder index(String index) {
this.index = index;
return this;
}
public Builder numberOfShards(int numberOfShards) {
settings = Settings.builder().put(settings).put(SETTING_NUMBER_OF_SHARDS, numberOfShards).build();
return this;
}
/**
* Sets the number of shards that should be used for routing. This should only be used if the number of shards in
* an index has changed ie if the index is shrunk.
*/
public Builder setRoutingNumShards(int routingNumShards) {
this.routingNumShards = routingNumShards;
return this;
}
/**
* Returns number of shards that should be used for routing. By default this method will return the number of shards
* for this index.
*
* @see #setRoutingNumShards(int)
* @see #numberOfShards()
*/
public int getRoutingNumShards() {
return routingNumShards == null ? numberOfShards() : routingNumShards;
}
/**
* Returns the number of shards.
*
* @return the provided value or -1 if it has not been set.
*/
public int numberOfShards() {
return settings.getAsInt(SETTING_NUMBER_OF_SHARDS, -1);
}
public Builder numberOfReplicas(int numberOfReplicas) {
settings = Settings.builder().put(settings).put(SETTING_NUMBER_OF_REPLICAS, numberOfReplicas).build();
return this;
}
/**
* Returns the number of replicas.
*
* @return the provided value or -1 if it has not been set.
*/
public int numberOfReplicas() {
return settings.getAsInt(SETTING_NUMBER_OF_REPLICAS, -1);
}
public Builder routingPartitionSize(int routingPartitionSize) {
settings = Settings.builder().put(settings).put(SETTING_ROUTING_PARTITION_SIZE, routingPartitionSize).build();
return this;
}
/**
* Returns the routing partition size.
*
* @return the provided value or -1 if it has not been set.
*/
public int routingPartitionSize() {
return settings.getAsInt(SETTING_ROUTING_PARTITION_SIZE, -1);
}
public Builder creationDate(long creationDate) {
settings = Settings.builder().put(settings).put(SETTING_CREATION_DATE, creationDate).build();
return this;
}
public Builder settings(Settings.Builder settings) {
return settings(settings.build());
}
public Builder settings(Settings settings) {
this.settings = settings;
return this;
}
public MappingMetaData mapping(String type) {
return mappings.get(type);
}
public Builder putMapping(String type, String source) throws IOException {
putMapping(new MappingMetaData(type, XContentHelper.convertToMap(XContentFactory.xContent(source), source, true)));
return this;
}
public Builder putMapping(MappingMetaData mappingMd) {
mappings.put(mappingMd.type(), mappingMd);
return this;
}
public Builder state(State state) {
this.state = state;
return this;
}
public Builder putAlias(AliasMetaData aliasMetaData) {
aliases.put(aliasMetaData.alias(), aliasMetaData);
return this;
}
public Builder putAlias(AliasMetaData.Builder aliasMetaData) {
aliases.put(aliasMetaData.alias(), aliasMetaData.build());
return this;
}
public Builder removeAlias(String alias) {
aliases.remove(alias);
return this;
}
public Builder removeAllAliases() {
aliases.clear();
return this;
}
public Builder putCustom(String type, Custom customIndexMetaData) {
this.customs.put(type, customIndexMetaData);
return this;
}
public Set<String> getInSyncAllocationIds(int shardId) {
return inSyncAllocationIds.get(shardId);
}
public Builder putInSyncAllocationIds(int shardId, Set<String> allocationIds) {
inSyncAllocationIds.put(shardId, new HashSet<>(allocationIds));
return this;
}
public long version() {
return this.version;
}
public Builder version(long version) {
this.version = version;
return this;
}
/**
* returns the primary term for the given shard.
* See {@link IndexMetaData#primaryTerm(int)} for more information.
*/
public long primaryTerm(int shardId) {
if (primaryTerms == null) {
initializePrimaryTerms();
}
return this.primaryTerms[shardId];
}
/**
* sets the primary term for the given shard.
* See {@link IndexMetaData#primaryTerm(int)} for more information.
*/
public Builder primaryTerm(int shardId, long primaryTerm) {
if (primaryTerms == null) {
initializePrimaryTerms();
}
this.primaryTerms[shardId] = primaryTerm;
return this;
}
private void primaryTerms(long[] primaryTerms) {
this.primaryTerms = primaryTerms.clone();
}
private void initializePrimaryTerms() {
assert primaryTerms == null;
if (numberOfShards() < 0) {
throw new IllegalStateException("you must set the number of shards before setting/reading primary terms");
}
primaryTerms = new long[numberOfShards()];
}
public IndexMetaData build() {
ImmutableOpenMap.Builder<String, AliasMetaData> tmpAliases = aliases;
Settings tmpSettings = settings;
// update default mapping on the MappingMetaData
if (mappings.containsKey(MapperService.DEFAULT_MAPPING)) {
MappingMetaData defaultMapping = mappings.get(MapperService.DEFAULT_MAPPING);
for (ObjectCursor<MappingMetaData> cursor : mappings.values()) {
cursor.value.updateDefaultMapping(defaultMapping);
}
}
Integer maybeNumberOfShards = settings.getAsInt(SETTING_NUMBER_OF_SHARDS, null);
if (maybeNumberOfShards == null) {
throw new IllegalArgumentException("must specify numberOfShards for index [" + index + "]");
}
int numberOfShards = maybeNumberOfShards;
if (numberOfShards <= 0) {
throw new IllegalArgumentException("must specify positive number of shards for index [" + index + "]");
}
Integer maybeNumberOfReplicas = settings.getAsInt(SETTING_NUMBER_OF_REPLICAS, null);
if (maybeNumberOfReplicas == null) {
throw new IllegalArgumentException("must specify numberOfReplicas for index [" + index + "]");
}
int numberOfReplicas = maybeNumberOfReplicas;
if (numberOfReplicas < 0) {
throw new IllegalArgumentException("must specify non-negative number of shards for index [" + index + "]");
}
int routingPartitionSize = INDEX_ROUTING_PARTITION_SIZE_SETTING.get(settings);
if (routingPartitionSize != 1 && routingPartitionSize >= getRoutingNumShards()) {
throw new IllegalArgumentException("routing partition size [" + routingPartitionSize + "] should be a positive number"
+ " less than the number of shards [" + getRoutingNumShards() + "] for [" + index + "]");
}
// fill missing slots in inSyncAllocationIds with empty set if needed and make all entries immutable
ImmutableOpenIntMap.Builder<Set<String>> filledInSyncAllocationIds = ImmutableOpenIntMap.builder();
for (int i = 0; i < numberOfShards; i++) {
if (inSyncAllocationIds.containsKey(i)) {
filledInSyncAllocationIds.put(i, Collections.unmodifiableSet(new HashSet<>(inSyncAllocationIds.get(i))));
} else {
filledInSyncAllocationIds.put(i, Collections.emptySet());
}
}
final Map<String, String> requireMap = INDEX_ROUTING_REQUIRE_GROUP_SETTING.get(settings).getAsMap();
final DiscoveryNodeFilters requireFilters;
if (requireMap.isEmpty()) {
requireFilters = null;
} else {
requireFilters = DiscoveryNodeFilters.buildFromKeyValue(AND, requireMap);
}
Map<String, String> includeMap = INDEX_ROUTING_INCLUDE_GROUP_SETTING.get(settings).getAsMap();
final DiscoveryNodeFilters includeFilters;
if (includeMap.isEmpty()) {
includeFilters = null;
} else {
includeFilters = DiscoveryNodeFilters.buildFromKeyValue(OR, includeMap);
}
Map<String, String> excludeMap = INDEX_ROUTING_EXCLUDE_GROUP_SETTING.get(settings).getAsMap();
final DiscoveryNodeFilters excludeFilters;
if (excludeMap.isEmpty()) {
excludeFilters = null;
} else {
excludeFilters = DiscoveryNodeFilters.buildFromKeyValue(OR, excludeMap);
}
Map<String, String> initialRecoveryMap = INDEX_ROUTING_INITIAL_RECOVERY_GROUP_SETTING.get(settings).getAsMap();
final DiscoveryNodeFilters initialRecoveryFilters;
if (initialRecoveryMap.isEmpty()) {
initialRecoveryFilters = null;
} else {
initialRecoveryFilters = DiscoveryNodeFilters.buildFromKeyValue(OR, initialRecoveryMap);
}
Version indexCreatedVersion = Version.indexCreated(settings);
Version indexUpgradedVersion = settings.getAsVersion(IndexMetaData.SETTING_VERSION_UPGRADED, indexCreatedVersion);
if (primaryTerms == null) {
initializePrimaryTerms();
} else if (primaryTerms.length != numberOfShards) {
throw new IllegalStateException("primaryTerms length is [" + primaryTerms.length
+ "] but should be equal to number of shards [" + numberOfShards() + "]");
}
final ActiveShardCount waitForActiveShards = SETTING_WAIT_FOR_ACTIVE_SHARDS.get(settings);
if (waitForActiveShards.validate(numberOfReplicas) == false) {
throw new IllegalArgumentException("invalid " + SETTING_WAIT_FOR_ACTIVE_SHARDS.getKey() +
"[" + waitForActiveShards + "]: cannot be greater than " +
"number of shard copies [" + (numberOfReplicas + 1) + "]");
}
final String uuid = settings.get(SETTING_INDEX_UUID, INDEX_UUID_NA_VALUE);
return new IndexMetaData(new Index(index, uuid), version, primaryTerms, state, numberOfShards, numberOfReplicas, tmpSettings, mappings.build(),
tmpAliases.build(), customs.build(), filledInSyncAllocationIds.build(), requireFilters, initialRecoveryFilters, includeFilters, excludeFilters,
indexCreatedVersion, indexUpgradedVersion, getRoutingNumShards(), routingPartitionSize, waitForActiveShards);
}
public static void toXContent(IndexMetaData indexMetaData, XContentBuilder builder, ToXContent.Params params) throws IOException {
builder.startObject(indexMetaData.getIndex().getName());
builder.field(KEY_VERSION, indexMetaData.getVersion());
builder.field(KEY_ROUTING_NUM_SHARDS, indexMetaData.getRoutingNumShards());
builder.field(KEY_STATE, indexMetaData.getState().toString().toLowerCase(Locale.ENGLISH));
boolean binary = params.paramAsBoolean("binary", false);
builder.startObject(KEY_SETTINGS);
for (Map.Entry<String, String> entry : indexMetaData.getSettings().getAsMap().entrySet()) {
builder.field(entry.getKey(), entry.getValue());
}
builder.endObject();
builder.startArray(KEY_MAPPINGS);
for (ObjectObjectCursor<String, MappingMetaData> cursor : indexMetaData.getMappings()) {
if (binary) {
builder.value(cursor.value.source().compressed());
} else {
builder.map(XContentHelper.convertToMap(new BytesArray(cursor.value.source().uncompressed()), true).v2());
}
}
builder.endArray();
for (ObjectObjectCursor<String, Custom> cursor : indexMetaData.getCustoms()) {
builder.startObject(cursor.key);
cursor.value.toXContent(builder, params);
builder.endObject();
}
builder.startObject(KEY_ALIASES);
for (ObjectCursor<AliasMetaData> cursor : indexMetaData.getAliases().values()) {
AliasMetaData.Builder.toXContent(cursor.value, builder, params);
}
builder.endObject();
builder.startArray(KEY_PRIMARY_TERMS);
for (int i = 0; i < indexMetaData.getNumberOfShards(); i++) {
builder.value(indexMetaData.primaryTerm(i));
}
builder.endArray();
builder.startObject(KEY_IN_SYNC_ALLOCATIONS);
for (IntObjectCursor<Set<String>> cursor : indexMetaData.inSyncAllocationIds) {
builder.startArray(String.valueOf(cursor.key));
for (String allocationId : cursor.value) {
builder.value(allocationId);
}
builder.endArray();
}
builder.endObject();
builder.endObject();
}
public static IndexMetaData fromXContent(XContentParser parser) throws IOException {
if (parser.currentToken() == null) { // fresh parser? move to the first token
parser.nextToken();
}
if (parser.currentToken() == XContentParser.Token.START_OBJECT) { // on a start object move to next token
parser.nextToken();
}
if (parser.currentToken() != XContentParser.Token.FIELD_NAME) {
throw new IllegalArgumentException("expected field name but got a " + parser.currentToken());
}
Builder builder = new Builder(parser.currentName());
String currentFieldName = null;
XContentParser.Token token = parser.nextToken();
if (token != XContentParser.Token.START_OBJECT) {
throw new IllegalArgumentException("expected object but got a " + token);
}
while ((token = parser.nextToken()) != XContentParser.Token.END_OBJECT) {
if (token == XContentParser.Token.FIELD_NAME) {
currentFieldName = parser.currentName();
} else if (token == XContentParser.Token.START_OBJECT) {
if (KEY_SETTINGS.equals(currentFieldName)) {
builder.settings(Settings.builder().put(SettingsLoader.Helper.loadNestedFromMap(parser.mapOrdered())));
} else if (KEY_MAPPINGS.equals(currentFieldName)) {
while ((token = parser.nextToken()) != XContentParser.Token.END_OBJECT) {
if (token == XContentParser.Token.FIELD_NAME) {
currentFieldName = parser.currentName();
} else if (token == XContentParser.Token.START_OBJECT) {
String mappingType = currentFieldName;
Map<String, Object> mappingSource = MapBuilder.<String, Object>newMapBuilder().put(mappingType, parser.mapOrdered()).map();
builder.putMapping(new MappingMetaData(mappingType, mappingSource));
} else {
throw new IllegalArgumentException("Unexpected token: " + token);
}
}
} else if (KEY_ALIASES.equals(currentFieldName)) {
while (parser.nextToken() != XContentParser.Token.END_OBJECT) {
builder.putAlias(AliasMetaData.Builder.fromXContent(parser));
}
} else if (KEY_IN_SYNC_ALLOCATIONS.equals(currentFieldName)) {
while ((token = parser.nextToken()) != XContentParser.Token.END_OBJECT) {
if (token == XContentParser.Token.FIELD_NAME) {
currentFieldName = parser.currentName();
} else if (token == XContentParser.Token.START_ARRAY) {
String shardId = currentFieldName;
Set<String> allocationIds = new HashSet<>();
while ((token = parser.nextToken()) != XContentParser.Token.END_ARRAY) {
if (token == XContentParser.Token.VALUE_STRING) {
allocationIds.add(parser.text());
}
}
builder.putInSyncAllocationIds(Integer.valueOf(shardId), allocationIds);
} else {
throw new IllegalArgumentException("Unexpected token: " + token);
}
}
} else if ("warmers".equals(currentFieldName)) {
// TODO: do this in 6.0:
// throw new IllegalArgumentException("Warmers are not supported anymore - are you upgrading from 1.x?");
// ignore: warmers have been removed in 5.0 and are
// simply ignored when upgrading from 2.x
assert Version.CURRENT.major <= 5;
parser.skipChildren();
} else {
// check if its a custom index metadata
Custom proto = lookupPrototype(currentFieldName);
if (proto == null) {
//TODO warn
parser.skipChildren();
} else {
Custom custom = proto.fromXContent(parser);
builder.putCustom(custom.type(), custom);
}
}
} else if (token == XContentParser.Token.START_ARRAY) {
if (KEY_MAPPINGS.equals(currentFieldName)) {
while ((token = parser.nextToken()) != XContentParser.Token.END_ARRAY) {
if (token == XContentParser.Token.VALUE_EMBEDDED_OBJECT) {
builder.putMapping(new MappingMetaData(new CompressedXContent(parser.binaryValue())));
} else {
Map<String, Object> mapping = parser.mapOrdered();
if (mapping.size() == 1) {
String mappingType = mapping.keySet().iterator().next();
builder.putMapping(new MappingMetaData(mappingType, mapping));
}
}
}
} else if (KEY_PRIMARY_TERMS.equals(currentFieldName)) {
LongArrayList list = new LongArrayList();
while ((token = parser.nextToken()) != XContentParser.Token.END_ARRAY) {
if (token == XContentParser.Token.VALUE_NUMBER) {
list.add(parser.longValue());
} else {
throw new IllegalStateException("found a non-numeric value under [" + KEY_PRIMARY_TERMS + "]");
}
}
builder.primaryTerms(list.toArray());
} else {
throw new IllegalArgumentException("Unexpected field for an array " + currentFieldName);
}
} else if (token.isValue()) {
if (KEY_STATE.equals(currentFieldName)) {
builder.state(State.fromString(parser.text()));
} else if (KEY_VERSION.equals(currentFieldName)) {
builder.version(parser.longValue());
} else if (KEY_ROUTING_NUM_SHARDS.equals(currentFieldName)) {
builder.setRoutingNumShards(parser.intValue());
} else {
throw new IllegalArgumentException("Unexpected field [" + currentFieldName + "]");
}
} else {
throw new IllegalArgumentException("Unexpected token " + token);
}
}
return builder.build();
}
}
/**
* Adds human readable version and creation date settings.
* This method is used to display the settings in a human readable format in REST API
*/
public static Settings addHumanReadableSettings(Settings settings) {
Settings.Builder builder = Settings.builder().put(settings);
Version version = settings.getAsVersion(SETTING_VERSION_CREATED, null);
if (version != null) {
builder.put(SETTING_VERSION_CREATED_STRING, version.toString());
}
Version versionUpgraded = settings.getAsVersion(SETTING_VERSION_UPGRADED, null);
if (versionUpgraded != null) {
builder.put(SETTING_VERSION_UPGRADED_STRING, versionUpgraded.toString());
}
Long creationDate = settings.getAsLong(SETTING_CREATION_DATE, null);
if (creationDate != null) {
DateTime creationDateTime = new DateTime(creationDate, DateTimeZone.UTC);
builder.put(SETTING_CREATION_DATE_STRING, creationDateTime.toString());
}
return builder.build();
}
private static final ToXContent.Params FORMAT_PARAMS = new MapParams(Collections.singletonMap("binary", "true"));
/**
* State format for {@link IndexMetaData} to write to and load from disk
*/
public static final MetaDataStateFormat<IndexMetaData> FORMAT = new MetaDataStateFormat<IndexMetaData>(XContentType.SMILE, INDEX_STATE_FILE_PREFIX) {
@Override
public void toXContent(XContentBuilder builder, IndexMetaData state) throws IOException {
Builder.toXContent(state, builder, FORMAT_PARAMS);
}
@Override
public IndexMetaData fromXContent(XContentParser parser) throws IOException {
return Builder.fromXContent(parser);
}
};
/**
* Returns the number of shards that should be used for routing. This basically defines the hash space we use in
* {@link org.elasticsearch.cluster.routing.OperationRouting#generateShardId(IndexMetaData, String, String)} to route documents
* to shards based on their ID or their specific routing value. The default value is {@link #getNumberOfShards()}. This value only
* changes if and index is shrunk.
*/
public int getRoutingNumShards() {
return routingNumShards;
}
/**
* Returns the routing factor for this index. The default is <tt>1</tt>.
*
* @see #getRoutingFactor(IndexMetaData, int) for details
*/
public int getRoutingFactor() {
return routingFactor;
}
/**
* Returns the source shard ids to shrink into the given shard id.
* @param shardId the id of the target shard to shrink to
* @param sourceIndexMetadata the source index metadata
* @param numTargetShards the total number of shards in the target index
* @return a set of shard IDs to shrink into the given shard ID.
*/
public static Set<ShardId> selectShrinkShards(int shardId, IndexMetaData sourceIndexMetadata, int numTargetShards) {
if (shardId >= numTargetShards) {
throw new IllegalArgumentException("the number of target shards (" + numTargetShards + ") must be greater than the shard id: "
+ shardId);
}
int routingFactor = getRoutingFactor(sourceIndexMetadata, numTargetShards);
Set<ShardId> shards = new HashSet<>(routingFactor);
for (int i = shardId * routingFactor; i < routingFactor*shardId + routingFactor; i++) {
shards.add(new ShardId(sourceIndexMetadata.getIndex(), i));
}
return shards;
}
/**
* Returns the routing factor for and shrunk index with the given number of target shards.
* This factor is used in the hash function in
* {@link org.elasticsearch.cluster.routing.OperationRouting#generateShardId(IndexMetaData, String, String)} to guarantee consistent
* hashing / routing of documents even if the number of shards changed (ie. a shrunk index).
*
* @param sourceIndexMetadata the metadata of the source index
* @param targetNumberOfShards the total number of shards in the target index
* @return the routing factor for and shrunk index with the given number of target shards.
* @throws IllegalArgumentException if the number of source shards is greater than the number of target shards or if the source shards
* are not divisible by the number of target shards.
*/
public static int getRoutingFactor(IndexMetaData sourceIndexMetadata, int targetNumberOfShards) {
int sourceNumberOfShards = sourceIndexMetadata.getNumberOfShards();
if (sourceNumberOfShards < targetNumberOfShards) {
throw new IllegalArgumentException("the number of target shards must be less that the number of source shards");
}
int factor = sourceNumberOfShards / targetNumberOfShards;
if (factor * targetNumberOfShards != sourceNumberOfShards || factor <= 1) {
throw new IllegalArgumentException("the number of source shards [" + sourceNumberOfShards + "] must be a must be a multiple of ["
+ targetNumberOfShards + "]");
}
return factor;
}
}