/*
* 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.routing.allocation;
import org.elasticsearch.Version;
import org.elasticsearch.cluster.ClusterState;
import org.elasticsearch.cluster.metadata.IndexMetaData;
import org.elasticsearch.cluster.metadata.MetaData;
import org.elasticsearch.cluster.node.DiscoveryNodes;
import org.elasticsearch.cluster.routing.MutableShardRouting;
import org.elasticsearch.cluster.routing.RoutingNodes;
import org.elasticsearch.cluster.routing.RoutingTable;
import org.elasticsearch.cluster.routing.ShardRoutingState;
import org.elasticsearch.cluster.routing.allocation.decider.ShardsLimitAllocationDecider;
import org.elasticsearch.common.logging.ESLogger;
import org.elasticsearch.common.logging.Loggers;
import org.elasticsearch.test.ElasticsearchAllocationTestCase;
import org.junit.Test;
import static org.elasticsearch.cluster.routing.ShardRoutingState.*;
import static org.elasticsearch.cluster.routing.allocation.RoutingNodesUtils.numberOfShardsOfType;
import static org.elasticsearch.common.settings.ImmutableSettings.settingsBuilder;
import static org.hamcrest.Matchers.equalTo;
/**
*/
public class ShardsLimitAllocationTests extends ElasticsearchAllocationTestCase {
private final ESLogger logger = Loggers.getLogger(ShardsLimitAllocationTests.class);
@Test
public void indexLevelShardsLimitAllocate() {
AllocationService strategy = createAllocationService(settingsBuilder().put("cluster.routing.allocation.concurrent_recoveries", 10).build());
logger.info("Building initial routing table");
MetaData metaData = MetaData.builder()
.put(IndexMetaData.builder("test").settings(settings(Version.CURRENT)
.put(IndexMetaData.SETTING_NUMBER_OF_SHARDS, 4)
.put(IndexMetaData.SETTING_NUMBER_OF_REPLICAS, 1)
.put(ShardsLimitAllocationDecider.INDEX_TOTAL_SHARDS_PER_NODE, 2)))
.build();
RoutingTable routingTable = RoutingTable.builder()
.addAsNew(metaData.index("test"))
.build();
ClusterState clusterState = ClusterState.builder(org.elasticsearch.cluster.ClusterName.DEFAULT).metaData(metaData).routingTable(routingTable).build();
logger.info("Adding two nodes and performing rerouting");
clusterState = ClusterState.builder(clusterState).nodes(DiscoveryNodes.builder().put(newNode("node1")).put(newNode("node2"))).build();
routingTable = strategy.reroute(clusterState).routingTable();
clusterState = ClusterState.builder(clusterState).routingTable(routingTable).build();
assertThat(clusterState.readOnlyRoutingNodes().node("node1").numberOfShardsWithState(ShardRoutingState.INITIALIZING), equalTo(2));
assertThat(clusterState.readOnlyRoutingNodes().node("node2").numberOfShardsWithState(ShardRoutingState.INITIALIZING), equalTo(2));
logger.info("Start the primary shards");
RoutingNodes routingNodes = clusterState.routingNodes();
routingTable = strategy.applyStartedShards(clusterState, routingNodes.shardsWithState(INITIALIZING)).routingTable();
clusterState = ClusterState.builder(clusterState).routingTable(routingTable).build();
assertThat(clusterState.readOnlyRoutingNodes().node("node1").numberOfShardsWithState(ShardRoutingState.STARTED), equalTo(2));
assertThat(clusterState.readOnlyRoutingNodes().node("node1").numberOfShardsWithState(ShardRoutingState.INITIALIZING), equalTo(0));
assertThat(clusterState.readOnlyRoutingNodes().node("node2").numberOfShardsWithState(ShardRoutingState.STARTED), equalTo(2));
assertThat(clusterState.readOnlyRoutingNodes().node("node2").numberOfShardsWithState(ShardRoutingState.INITIALIZING), equalTo(0));
assertThat(clusterState.readOnlyRoutingNodes().unassigned().size(), equalTo(4));
logger.info("Do another reroute, make sure its still not allocated");
routingNodes = clusterState.routingNodes();
routingTable = strategy.applyStartedShards(clusterState, routingNodes.shardsWithState(INITIALIZING)).routingTable();
clusterState = ClusterState.builder(clusterState).routingTable(routingTable).build();
}
@Test
public void indexLevelShardsLimitRemain() {
AllocationService strategy = createAllocationService(settingsBuilder()
.put("cluster.routing.allocation.concurrent_recoveries", 10)
.put("cluster.routing.allocation.node_initial_primaries_recoveries", 10)
.put("cluster.routing.allocation.cluster_concurrent_rebalance", -1)
.put("cluster.routing.allocation.balance.index", 0.0f)
.put("cluster.routing.allocation.balance.replica", 1.0f)
.put("cluster.routing.allocation.balance.primary", 0.0f)
.build());
logger.info("Building initial routing table");
MetaData metaData = MetaData.builder()
.put(IndexMetaData.builder("test").settings(settings(Version.CURRENT)
.put(IndexMetaData.SETTING_NUMBER_OF_SHARDS, 5)
.put(IndexMetaData.SETTING_NUMBER_OF_REPLICAS, 0)
))
.build();
RoutingTable routingTable = RoutingTable.builder()
.addAsNew(metaData.index("test"))
.build();
ClusterState clusterState = ClusterState.builder(org.elasticsearch.cluster.ClusterName.DEFAULT).metaData(metaData).routingTable(routingTable).build();
logger.info("Adding one node and reroute");
clusterState = ClusterState.builder(clusterState).nodes(DiscoveryNodes.builder().put(newNode("node1"))).build();
routingTable = strategy.reroute(clusterState).routingTable();
clusterState = ClusterState.builder(clusterState).routingTable(routingTable).build();
logger.info("Start the primary shards");
RoutingNodes routingNodes = clusterState.routingNodes();
routingTable = strategy.applyStartedShards(clusterState, routingNodes.shardsWithState(INITIALIZING)).routingTable();
clusterState = ClusterState.builder(clusterState).routingTable(routingTable).build();
assertThat(numberOfShardsOfType(clusterState.readOnlyRoutingNodes(), STARTED), equalTo(5));
logger.info("add another index with 5 shards");
metaData = MetaData.builder(metaData)
.put(IndexMetaData.builder("test1").settings(settings(Version.CURRENT)
.put(IndexMetaData.SETTING_NUMBER_OF_SHARDS, 5)
.put(IndexMetaData.SETTING_NUMBER_OF_REPLICAS, 0)
))
.build();
routingTable = RoutingTable.builder(routingTable)
.addAsNew(metaData.index("test1"))
.build();
clusterState = ClusterState.builder(clusterState).metaData(metaData).routingTable(routingTable).build();
logger.info("Add another one node and reroute");
clusterState = ClusterState.builder(clusterState).nodes(DiscoveryNodes.builder(clusterState.nodes()).put(newNode("node2"))).build();
routingTable = strategy.reroute(clusterState).routingTable();
clusterState = ClusterState.builder(clusterState).routingTable(routingTable).build();
routingNodes = clusterState.routingNodes();
routingTable = strategy.applyStartedShards(clusterState, routingNodes.shardsWithState(INITIALIZING)).routingTable();
clusterState = ClusterState.builder(clusterState).routingTable(routingTable).build();
assertThat(numberOfShardsOfType(clusterState.readOnlyRoutingNodes(), STARTED), equalTo(10));
for (MutableShardRouting shardRouting : clusterState.readOnlyRoutingNodes().node("node1")) {
assertThat(shardRouting.index(), equalTo("test"));
}
for (MutableShardRouting shardRouting : clusterState.readOnlyRoutingNodes().node("node2")) {
assertThat(shardRouting.index(), equalTo("test1"));
}
logger.info("update " + ShardsLimitAllocationDecider.INDEX_TOTAL_SHARDS_PER_NODE + " for test, see that things move");
metaData = MetaData.builder(metaData)
.put(IndexMetaData.builder("test").settings(settings(Version.CURRENT)
.put(IndexMetaData.SETTING_NUMBER_OF_SHARDS, 5)
.put(IndexMetaData.SETTING_NUMBER_OF_REPLICAS, 0)
.put(ShardsLimitAllocationDecider.INDEX_TOTAL_SHARDS_PER_NODE, 3)
))
.build();
clusterState = ClusterState.builder(clusterState).metaData(metaData).build();
logger.info("reroute after setting");
routingTable = strategy.reroute(clusterState).routingTable();
clusterState = ClusterState.builder(clusterState).routingTable(routingTable).build();
assertThat(clusterState.readOnlyRoutingNodes().node("node1").numberOfShardsWithState(STARTED), equalTo(3));
assertThat(clusterState.readOnlyRoutingNodes().node("node1").numberOfShardsWithState(RELOCATING), equalTo(2));
assertThat(clusterState.readOnlyRoutingNodes().node("node2").numberOfShardsWithState(RELOCATING), equalTo(2));
assertThat(clusterState.readOnlyRoutingNodes().node("node2").numberOfShardsWithState(STARTED), equalTo(3));
// the first move will destroy the balance and the balancer will move 2 shards from node2 to node one right after
// moving the nodes to node2 since we consider INITIALIZING nodes during rebalance
routingNodes = clusterState.routingNodes();
routingTable = strategy.applyStartedShards(clusterState, routingNodes.shardsWithState(INITIALIZING)).routingTable();
clusterState = ClusterState.builder(clusterState).routingTable(routingTable).build();
// now we are done compared to EvenShardCountAllocator since the Balancer is not soely based on the average
assertThat(clusterState.readOnlyRoutingNodes().node("node1").numberOfShardsWithState(STARTED), equalTo(5));
assertThat(clusterState.readOnlyRoutingNodes().node("node2").numberOfShardsWithState(STARTED), equalTo(5));
}
}