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* 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
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package org.elasticsearch.cluster.routing.allocation;
import org.apache.logging.log4j.Logger;
import org.elasticsearch.Version;
import org.elasticsearch.cluster.ClusterState;
import org.elasticsearch.cluster.ESAllocationTestCase;
import org.elasticsearch.cluster.metadata.IndexMetaData;
import org.elasticsearch.cluster.metadata.MetaData;
import org.elasticsearch.cluster.node.DiscoveryNode;
import org.elasticsearch.cluster.node.DiscoveryNodes;
import org.elasticsearch.cluster.routing.RoutingTable;
import org.elasticsearch.cluster.routing.ShardRoutingState;
import org.elasticsearch.cluster.routing.allocation.command.AbstractAllocateAllocationCommand;
import org.elasticsearch.cluster.routing.allocation.command.AllocateEmptyPrimaryAllocationCommand;
import org.elasticsearch.cluster.routing.allocation.command.AllocateReplicaAllocationCommand;
import org.elasticsearch.cluster.routing.allocation.command.AllocateStalePrimaryAllocationCommand;
import org.elasticsearch.cluster.routing.allocation.command.AllocationCommands;
import org.elasticsearch.cluster.routing.allocation.command.CancelAllocationCommand;
import org.elasticsearch.cluster.routing.allocation.command.MoveAllocationCommand;
import org.elasticsearch.cluster.routing.allocation.decider.EnableAllocationDecider;
import org.elasticsearch.common.io.stream.BytesStreamOutput;
import org.elasticsearch.common.io.stream.NamedWriteableAwareStreamInput;
import org.elasticsearch.common.io.stream.NamedWriteableRegistry;
import org.elasticsearch.common.io.stream.StreamInput;
import org.elasticsearch.common.logging.Loggers;
import org.elasticsearch.common.network.NetworkModule;
import org.elasticsearch.common.settings.Settings;
import org.elasticsearch.common.xcontent.NamedXContentRegistry;
import org.elasticsearch.common.xcontent.XContentParser;
import org.elasticsearch.common.xcontent.json.JsonXContent;
import org.elasticsearch.index.IndexNotFoundException;
import org.elasticsearch.index.shard.ShardId;
import org.elasticsearch.index.shard.ShardNotFoundException;
import java.util.Collections;
import static java.util.Collections.singleton;
import static org.elasticsearch.cluster.routing.ShardRoutingState.INITIALIZING;
import static org.elasticsearch.cluster.routing.ShardRoutingState.RELOCATING;
import static org.elasticsearch.cluster.routing.ShardRoutingState.STARTED;
import static org.hamcrest.Matchers.containsString;
import static org.hamcrest.Matchers.equalTo;
import static org.hamcrest.Matchers.not;
import static org.hamcrest.Matchers.nullValue;
public class AllocationCommandsTests extends ESAllocationTestCase {
private final Logger logger = Loggers.getLogger(AllocationCommandsTests.class);
public void testMoveShardCommand() {
AllocationService allocation = createAllocationService(Settings.builder().put("cluster.routing.allocation.node_concurrent_recoveries", 10).build());
logger.info("creating an index with 1 shard, no replica");
MetaData metaData = MetaData.builder()
.put(IndexMetaData.builder("test").settings(settings(Version.CURRENT)).numberOfShards(1).numberOfReplicas(0))
.build();
RoutingTable routingTable = RoutingTable.builder()
.addAsNew(metaData.index("test"))
.build();
ClusterState clusterState = ClusterState.builder(org.elasticsearch.cluster.ClusterName.CLUSTER_NAME_SETTING.getDefault(Settings.EMPTY)).metaData(metaData).routingTable(routingTable).build();
logger.info("adding two nodes and performing rerouting");
clusterState = ClusterState.builder(clusterState).nodes(DiscoveryNodes.builder().add(newNode("node1")).add(newNode("node2"))).build();
clusterState = allocation.reroute(clusterState, "reroute");
logger.info("start primary shard");
clusterState = allocation.applyStartedShards(clusterState, clusterState.getRoutingNodes().shardsWithState(INITIALIZING));
logger.info("move the shard");
String existingNodeId = clusterState.routingTable().index("test").shard(0).primaryShard().currentNodeId();
String toNodeId;
if ("node1".equals(existingNodeId)) {
toNodeId = "node2";
} else {
toNodeId = "node1";
}
ClusterState newState = allocation.reroute(clusterState,
new AllocationCommands(new MoveAllocationCommand("test", 0, existingNodeId, toNodeId)), false, false).getClusterState();
assertThat(newState, not(equalTo(clusterState)));
clusterState = newState;
assertThat(clusterState.getRoutingNodes().node(existingNodeId).iterator().next().state(), equalTo(ShardRoutingState.RELOCATING));
assertThat(clusterState.getRoutingNodes().node(toNodeId).iterator().next().state(), equalTo(ShardRoutingState.INITIALIZING));
logger.info("finish moving the shard");
clusterState = allocation.applyStartedShards(clusterState, clusterState.getRoutingNodes().shardsWithState(INITIALIZING));
assertThat(clusterState.getRoutingNodes().node(existingNodeId).isEmpty(), equalTo(true));
assertThat(clusterState.getRoutingNodes().node(toNodeId).iterator().next().state(), equalTo(ShardRoutingState.STARTED));
}
private AbstractAllocateAllocationCommand randomAllocateCommand(String index, int shardId, String node) {
return randomFrom(
new AllocateReplicaAllocationCommand(index, shardId, node),
new AllocateEmptyPrimaryAllocationCommand(index, shardId, node, true),
new AllocateStalePrimaryAllocationCommand(index, shardId, node, true)
);
}
public void testAllocateCommand() {
AllocationService allocation = createAllocationService(Settings.builder()
.put(EnableAllocationDecider.CLUSTER_ROUTING_ALLOCATION_ENABLE_SETTING.getKey(), "none")
.put(EnableAllocationDecider.CLUSTER_ROUTING_REBALANCE_ENABLE_SETTING.getKey(), "none")
.build());
final String index = "test";
logger.info("--> building initial routing table");
MetaData metaData = MetaData.builder()
.put(IndexMetaData.builder(index).settings(settings(Version.CURRENT)).numberOfShards(1).numberOfReplicas(1)
.putInSyncAllocationIds(0, Collections.singleton("asdf")).putInSyncAllocationIds(1, Collections.singleton("qwertz")))
.build();
// shard routing is added as "from recovery" instead of "new index creation" so that we can test below that allocating an empty
// primary with accept_data_loss flag set to false fails
RoutingTable routingTable = RoutingTable.builder()
.addAsRecovery(metaData.index(index))
.build();
ClusterState clusterState = ClusterState.builder(org.elasticsearch.cluster.ClusterName.CLUSTER_NAME_SETTING.getDefault(Settings.EMPTY)).metaData(metaData).routingTable(routingTable).build();
final ShardId shardId = new ShardId(metaData.index(index).getIndex(), 0);
logger.info("--> adding 3 nodes on same rack and do rerouting");
clusterState = ClusterState.builder(clusterState).nodes(DiscoveryNodes.builder()
.add(newNode("node1"))
.add(newNode("node2"))
.add(newNode("node3"))
.add(newNode("node4", singleton(DiscoveryNode.Role.MASTER)))
).build();
clusterState = allocation.reroute(clusterState, "reroute");
assertThat(clusterState.getRoutingNodes().shardsWithState(INITIALIZING).size(), equalTo(0));
logger.info("--> allocating to non-existent node, should fail");
try {
allocation.reroute(clusterState, new AllocationCommands(randomAllocateCommand(index, shardId.id(), "node42")), false, false);
fail("expected IllegalArgumentException when allocating to non-existing node");
} catch (IllegalArgumentException e) {
assertThat(e.getMessage(), containsString("failed to resolve [node42], no matching nodes"));
}
logger.info("--> allocating to non-data node, should fail");
try {
allocation.reroute(clusterState, new AllocationCommands(randomAllocateCommand(index, shardId.id(), "node4")), false, false);
fail("expected IllegalArgumentException when allocating to non-data node");
} catch (IllegalArgumentException e) {
assertThat(e.getMessage(), containsString("allocation can only be done on data nodes"));
}
logger.info("--> allocating non-existing shard, should fail");
try {
allocation.reroute(clusterState, new AllocationCommands(randomAllocateCommand("test", 1, "node2")), false, false);
fail("expected ShardNotFoundException when allocating non-existing shard");
} catch (ShardNotFoundException e) {
assertThat(e.getMessage(), containsString("no such shard"));
}
logger.info("--> allocating non-existing index, should fail");
try {
allocation.reroute(clusterState, new AllocationCommands(randomAllocateCommand("test2", 0, "node2")), false, false);
fail("expected ShardNotFoundException when allocating non-existing index");
} catch (IndexNotFoundException e) {
assertThat(e.getMessage(), containsString("no such index"));
}
logger.info("--> allocating empty primary with acceptDataLoss flag set to false");
try {
allocation.reroute(clusterState, new AllocationCommands(new AllocateEmptyPrimaryAllocationCommand("test", 0, "node1", false)), false, false);
fail("expected IllegalArgumentException when allocating empty primary with acceptDataLoss flag set to false");
} catch (IllegalArgumentException e) {
assertThat(e.getMessage(), containsString("allocating an empty primary for " + shardId + " can result in data loss. Please confirm by setting the accept_data_loss parameter to true"));
}
logger.info("--> allocating stale primary with acceptDataLoss flag set to false");
try {
allocation.reroute(clusterState, new AllocationCommands(new AllocateStalePrimaryAllocationCommand(index, shardId.id(), "node1", false)), false, false);
fail("expected IllegalArgumentException when allocating stale primary with acceptDataLoss flag set to false");
} catch (IllegalArgumentException e) {
assertThat(e.getMessage(), containsString("allocating an empty primary for " + shardId + " can result in data loss. Please confirm by setting the accept_data_loss parameter to true"));
}
logger.info("--> allocating empty primary with acceptDataLoss flag set to true");
ClusterState newState = allocation.reroute(clusterState,
new AllocationCommands(new AllocateEmptyPrimaryAllocationCommand("test", 0, "node1", true)), false, false).getClusterState();
assertThat(newState, not(equalTo(clusterState)));
clusterState = newState;
assertThat(clusterState.getRoutingNodes().node("node1").size(), equalTo(1));
assertThat(clusterState.getRoutingNodes().node("node1").shardsWithState(INITIALIZING).size(), equalTo(1));
assertThat(clusterState.getRoutingNodes().node("node2").size(), equalTo(0));
logger.info("--> start the primary shard");
clusterState = allocation.applyStartedShards(clusterState, clusterState.getRoutingNodes().shardsWithState(INITIALIZING));
assertThat(clusterState.getRoutingNodes().node("node1").size(), equalTo(1));
assertThat(clusterState.getRoutingNodes().node("node1").shardsWithState(STARTED).size(), equalTo(1));
assertThat(clusterState.getRoutingNodes().node("node2").size(), equalTo(0));
logger.info("--> allocate the replica shard on the primary shard node, should fail");
try {
allocation.reroute(clusterState, new AllocationCommands(new AllocateReplicaAllocationCommand("test", 0, "node1")), false, false);
fail("expected IllegalArgumentException when allocating replica shard on the primary shard node");
} catch (IllegalArgumentException e) {
}
logger.info("--> allocate the replica shard on on the second node");
newState = allocation.reroute(clusterState,
new AllocationCommands(new AllocateReplicaAllocationCommand("test", 0, "node2")), false, false).getClusterState();
assertThat(newState, not(equalTo(clusterState)));
clusterState = newState;
assertThat(clusterState.getRoutingNodes().node("node1").size(), equalTo(1));
assertThat(clusterState.getRoutingNodes().node("node1").shardsWithState(STARTED).size(), equalTo(1));
assertThat(clusterState.getRoutingNodes().node("node2").size(), equalTo(1));
assertThat(clusterState.getRoutingNodes().node("node2").shardsWithState(INITIALIZING).size(), equalTo(1));
logger.info("--> start the replica shard");
clusterState = allocation.applyStartedShards(clusterState, clusterState.getRoutingNodes().shardsWithState(INITIALIZING));
assertThat(clusterState.getRoutingNodes().node("node1").size(), equalTo(1));
assertThat(clusterState.getRoutingNodes().node("node1").shardsWithState(STARTED).size(), equalTo(1));
assertThat(clusterState.getRoutingNodes().node("node2").size(), equalTo(1));
assertThat(clusterState.getRoutingNodes().node("node2").shardsWithState(STARTED).size(), equalTo(1));
logger.info("--> verify that we fail when there are no unassigned shards");
try {
allocation.reroute(clusterState, new AllocationCommands(randomAllocateCommand("test", 0, "node3")), false, false);
fail("expected IllegalArgumentException when allocating shard while no unassigned shard available");
} catch (IllegalArgumentException e) {
}
}
public void testCancelCommand() {
AllocationService allocation = createAllocationService(Settings.builder()
.put(EnableAllocationDecider.CLUSTER_ROUTING_ALLOCATION_ENABLE_SETTING.getKey(), "none")
.put(EnableAllocationDecider.CLUSTER_ROUTING_REBALANCE_ENABLE_SETTING.getKey(), "none")
.build());
logger.info("--> building initial routing table");
MetaData metaData = MetaData.builder()
.put(IndexMetaData.builder("test").settings(settings(Version.CURRENT)).numberOfShards(1).numberOfReplicas(1))
.build();
RoutingTable routingTable = RoutingTable.builder()
.addAsNew(metaData.index("test"))
.build();
ClusterState clusterState = ClusterState.builder(org.elasticsearch.cluster.ClusterName.CLUSTER_NAME_SETTING.getDefault(Settings.EMPTY)).metaData(metaData).routingTable(routingTable).build();
logger.info("--> adding 3 nodes");
clusterState = ClusterState.builder(clusterState).nodes(DiscoveryNodes.builder()
.add(newNode("node1"))
.add(newNode("node2"))
.add(newNode("node3"))
).build();
clusterState = allocation.reroute(clusterState, "reroute");
assertThat(clusterState.getRoutingNodes().shardsWithState(INITIALIZING).size(), equalTo(0));
logger.info("--> allocating empty primary shard with accept_data_loss flag set to true");
ClusterState newState = allocation.reroute(clusterState,
new AllocationCommands(new AllocateEmptyPrimaryAllocationCommand("test", 0, "node1", true)), false, false).getClusterState();
assertThat(newState, not(equalTo(clusterState)));
clusterState = newState;
assertThat(clusterState.getRoutingNodes().node("node1").size(), equalTo(1));
assertThat(clusterState.getRoutingNodes().node("node1").shardsWithState(INITIALIZING).size(), equalTo(1));
assertThat(clusterState.getRoutingNodes().node("node2").size(), equalTo(0));
logger.info("--> cancel primary allocation, make sure it fails...");
try {
allocation.reroute(clusterState, new AllocationCommands(new CancelAllocationCommand("test", 0, "node1", false)), false, false);
fail();
} catch (IllegalArgumentException e) {
}
logger.info("--> start the primary shard");
clusterState = allocation.applyStartedShards(clusterState, clusterState.getRoutingNodes().shardsWithState(INITIALIZING));
assertThat(clusterState.getRoutingNodes().node("node1").size(), equalTo(1));
assertThat(clusterState.getRoutingNodes().node("node1").shardsWithState(STARTED).size(), equalTo(1));
assertThat(clusterState.getRoutingNodes().node("node2").size(), equalTo(0));
logger.info("--> cancel primary allocation, make sure it fails...");
try {
allocation.reroute(clusterState, new AllocationCommands(new CancelAllocationCommand("test", 0, "node1", false)), false, false);
fail();
} catch (IllegalArgumentException e) {
}
logger.info("--> allocate the replica shard on on the second node");
newState = allocation.reroute(clusterState,
new AllocationCommands(new AllocateReplicaAllocationCommand("test", 0, "node2")), false, false).getClusterState();
assertThat(newState, not(equalTo(clusterState)));
clusterState = newState;
assertThat(clusterState.getRoutingNodes().node("node1").size(), equalTo(1));
assertThat(clusterState.getRoutingNodes().node("node1").shardsWithState(STARTED).size(), equalTo(1));
assertThat(clusterState.getRoutingNodes().node("node2").size(), equalTo(1));
assertThat(clusterState.getRoutingNodes().node("node2").shardsWithState(INITIALIZING).size(), equalTo(1));
logger.info("--> cancel the relocation allocation");
newState = allocation.reroute(clusterState,
new AllocationCommands(new CancelAllocationCommand("test", 0, "node2", false)), false, false).getClusterState();
assertThat(newState, not(equalTo(clusterState)));
clusterState = newState;
assertThat(clusterState.getRoutingNodes().node("node1").size(), equalTo(1));
assertThat(clusterState.getRoutingNodes().node("node1").shardsWithState(STARTED).size(), equalTo(1));
assertThat(clusterState.getRoutingNodes().node("node2").size(), equalTo(0));
assertThat(clusterState.getRoutingNodes().node("node3").size(), equalTo(0));
logger.info("--> allocate the replica shard on on the second node");
newState = allocation.reroute(clusterState,
new AllocationCommands(new AllocateReplicaAllocationCommand("test", 0, "node2")), false, false).getClusterState();
assertThat(newState, not(equalTo(clusterState)));
clusterState = newState;
assertThat(clusterState.getRoutingNodes().node("node1").size(), equalTo(1));
assertThat(clusterState.getRoutingNodes().node("node1").shardsWithState(STARTED).size(), equalTo(1));
assertThat(clusterState.getRoutingNodes().node("node2").size(), equalTo(1));
assertThat(clusterState.getRoutingNodes().node("node2").shardsWithState(INITIALIZING).size(), equalTo(1));
logger.info("--> cancel the primary being replicated, make sure it fails");
try {
allocation.reroute(clusterState, new AllocationCommands(new CancelAllocationCommand("test", 0, "node1", false)), false, false);
fail();
} catch (IllegalArgumentException e) {
}
logger.info("--> start the replica shard");
clusterState = allocation.applyStartedShards(clusterState, clusterState.getRoutingNodes().shardsWithState(INITIALIZING));
assertThat(clusterState.getRoutingNodes().node("node1").size(), equalTo(1));
assertThat(clusterState.getRoutingNodes().node("node1").shardsWithState(STARTED).size(), equalTo(1));
assertThat(clusterState.getRoutingNodes().node("node2").size(), equalTo(1));
assertThat(clusterState.getRoutingNodes().node("node2").shardsWithState(STARTED).size(), equalTo(1));
logger.info("--> cancel allocation of the replica shard");
newState = allocation.reroute(clusterState,
new AllocationCommands(new CancelAllocationCommand("test", 0, "node2", false)), false, false).getClusterState();
assertThat(newState, not(equalTo(clusterState)));
clusterState = newState;
assertThat(clusterState.getRoutingNodes().node("node1").size(), equalTo(1));
assertThat(clusterState.getRoutingNodes().node("node1").shardsWithState(STARTED).size(), equalTo(1));
assertThat(clusterState.getRoutingNodes().node("node2").size(), equalTo(0));
assertThat(clusterState.getRoutingNodes().node("node3").size(), equalTo(0));
logger.info("--> allocate the replica shard on on the second node");
newState = allocation.reroute(clusterState,
new AllocationCommands(new AllocateReplicaAllocationCommand("test", 0, "node2")), false, false).getClusterState();
assertThat(newState, not(equalTo(clusterState)));
clusterState = newState;
assertThat(clusterState.getRoutingNodes().node("node1").size(), equalTo(1));
assertThat(clusterState.getRoutingNodes().node("node1").shardsWithState(STARTED).size(), equalTo(1));
assertThat(clusterState.getRoutingNodes().node("node2").size(), equalTo(1));
assertThat(clusterState.getRoutingNodes().node("node2").shardsWithState(INITIALIZING).size(), equalTo(1));
logger.info("--> start the replica shard");
clusterState = allocation.applyStartedShards(clusterState, clusterState.getRoutingNodes().shardsWithState(INITIALIZING));
assertThat(clusterState.getRoutingNodes().node("node1").size(), equalTo(1));
assertThat(clusterState.getRoutingNodes().node("node1").shardsWithState(STARTED).size(), equalTo(1));
assertThat(clusterState.getRoutingNodes().node("node2").size(), equalTo(1));
assertThat(clusterState.getRoutingNodes().node("node2").shardsWithState(STARTED).size(), equalTo(1));
logger.info("--> move the replica shard");
clusterState = allocation.reroute(clusterState,
new AllocationCommands(new MoveAllocationCommand("test", 0, "node2", "node3")), false, false).getClusterState();
assertThat(clusterState.getRoutingNodes().node("node1").size(), equalTo(1));
assertThat(clusterState.getRoutingNodes().node("node1").shardsWithState(STARTED).size(), equalTo(1));
assertThat(clusterState.getRoutingNodes().node("node2").size(), equalTo(1));
assertThat(clusterState.getRoutingNodes().node("node2").shardsWithState(RELOCATING).size(), equalTo(1));
assertThat(clusterState.getRoutingNodes().node("node3").size(), equalTo(1));
assertThat(clusterState.getRoutingNodes().node("node3").shardsWithState(INITIALIZING).size(), equalTo(1));
if (randomBoolean()) {
logger.info("--> cancel the primary allocation (with allow_primary set to true)");
newState = allocation.reroute(clusterState,
new AllocationCommands(new CancelAllocationCommand("test", 0, "node1", true)), false, false).getClusterState();
assertThat(newState, not(equalTo(clusterState)));
clusterState = newState;
assertThat(clusterState.getRoutingNodes().node("node1").size(), equalTo(0));
assertThat(clusterState.getRoutingNodes().node("node2").shardsWithState(STARTED).iterator().next().primary(), equalTo(true));
assertThat(clusterState.getRoutingNodes().node("node3").size(), equalTo(0));
} else {
logger.info("--> cancel the move of the replica shard");
clusterState = allocation.reroute(clusterState,
new AllocationCommands(new CancelAllocationCommand("test", 0, "node3", false)), false, false).getClusterState();
assertThat(clusterState.getRoutingNodes().node("node1").size(), equalTo(1));
assertThat(clusterState.getRoutingNodes().node("node1").shardsWithState(STARTED).size(), equalTo(1));
assertThat(clusterState.getRoutingNodes().node("node2").size(), equalTo(1));
assertThat(clusterState.getRoutingNodes().node("node2").shardsWithState(STARTED).size(), equalTo(1));
logger.info("--> move the replica shard again");
clusterState = allocation.reroute(clusterState,
new AllocationCommands(new MoveAllocationCommand("test", 0, "node2", "node3")), false, false).getClusterState();
assertThat(clusterState.getRoutingNodes().node("node1").size(), equalTo(1));
assertThat(clusterState.getRoutingNodes().node("node1").shardsWithState(STARTED).size(), equalTo(1));
assertThat(clusterState.getRoutingNodes().node("node2").size(), equalTo(1));
assertThat(clusterState.getRoutingNodes().node("node2").shardsWithState(RELOCATING).size(), equalTo(1));
assertThat(clusterState.getRoutingNodes().node("node3").size(), equalTo(1));
assertThat(clusterState.getRoutingNodes().node("node3").shardsWithState(INITIALIZING).size(), equalTo(1));
logger.info("--> cancel the source replica shard");
clusterState = allocation.reroute(clusterState,
new AllocationCommands(new CancelAllocationCommand("test", 0, "node2", false)), false, false).getClusterState();
assertThat(clusterState.getRoutingNodes().node("node1").size(), equalTo(1));
assertThat(clusterState.getRoutingNodes().node("node1").shardsWithState(STARTED).size(), equalTo(1));
assertThat(clusterState.getRoutingNodes().node("node2").size(), equalTo(0));
assertThat(clusterState.getRoutingNodes().node("node3").size(), equalTo(1));
assertThat(clusterState.getRoutingNodes().node("node3").shardsWithState(INITIALIZING).size(), equalTo(1));
assertThat(clusterState.getRoutingNodes().node("node3").shardsWithState(INITIALIZING).get(0).relocatingNodeId(), nullValue());
logger.info("--> start the former target replica shard");
clusterState = allocation.applyStartedShards(clusterState, clusterState.getRoutingNodes().shardsWithState(INITIALIZING));
assertThat(clusterState.getRoutingNodes().node("node1").size(), equalTo(1));
assertThat(clusterState.getRoutingNodes().node("node1").shardsWithState(STARTED).size(), equalTo(1));
assertThat(clusterState.getRoutingNodes().node("node2").size(), equalTo(0));
assertThat(clusterState.getRoutingNodes().node("node3").shardsWithState(STARTED).size(), equalTo(1));
logger.info("--> cancel the primary allocation (with allow_primary set to true)");
newState = allocation.reroute(clusterState,
new AllocationCommands(new CancelAllocationCommand("test", 0, "node1", true)), false, false).getClusterState();
assertThat(newState, not(equalTo(clusterState)));
clusterState = newState;
assertThat(clusterState.getRoutingNodes().node("node3").shardsWithState(STARTED).iterator().next().primary(), equalTo(true));
assertThat(clusterState.getRoutingNodes().node("node1").size(), equalTo(0));
assertThat(clusterState.getRoutingNodes().node("node2").size(), equalTo(0));
}
}
public void testSerialization() throws Exception {
AllocationCommands commands = new AllocationCommands(
new AllocateEmptyPrimaryAllocationCommand("test", 1, "node1", true),
new AllocateStalePrimaryAllocationCommand("test", 2, "node1", true),
new AllocateReplicaAllocationCommand("test", 2, "node1"),
new MoveAllocationCommand("test", 3, "node2", "node3"),
new CancelAllocationCommand("test", 4, "node5", true)
);
BytesStreamOutput bytes = new BytesStreamOutput();
AllocationCommands.writeTo(commands, bytes);
StreamInput in = bytes.bytes().streamInput();
// Since the commands are named writeable we need to register them and wrap the input stream
NamedWriteableRegistry namedWriteableRegistry = new NamedWriteableRegistry(NetworkModule.getNamedWriteables());
in = new NamedWriteableAwareStreamInput(in, namedWriteableRegistry);
// Now we can read them!
AllocationCommands sCommands = AllocationCommands.readFrom(in);
assertThat(sCommands.commands().size(), equalTo(5));
assertThat(((AllocateEmptyPrimaryAllocationCommand) (sCommands.commands().get(0))).shardId(), equalTo(1));
assertThat(((AllocateEmptyPrimaryAllocationCommand) (sCommands.commands().get(0))).index(), equalTo("test"));
assertThat(((AllocateEmptyPrimaryAllocationCommand) (sCommands.commands().get(0))).node(), equalTo("node1"));
assertThat(((AllocateEmptyPrimaryAllocationCommand) (sCommands.commands().get(0))).acceptDataLoss(), equalTo(true));
assertThat(((AllocateStalePrimaryAllocationCommand) (sCommands.commands().get(1))).shardId(), equalTo(2));
assertThat(((AllocateStalePrimaryAllocationCommand) (sCommands.commands().get(1))).index(), equalTo("test"));
assertThat(((AllocateStalePrimaryAllocationCommand) (sCommands.commands().get(1))).node(), equalTo("node1"));
assertThat(((AllocateStalePrimaryAllocationCommand) (sCommands.commands().get(1))).acceptDataLoss(), equalTo(true));
assertThat(((AllocateReplicaAllocationCommand) (sCommands.commands().get(2))).shardId(), equalTo(2));
assertThat(((AllocateReplicaAllocationCommand) (sCommands.commands().get(2))).index(), equalTo("test"));
assertThat(((AllocateReplicaAllocationCommand) (sCommands.commands().get(2))).node(), equalTo("node1"));
assertThat(((MoveAllocationCommand) (sCommands.commands().get(3))).shardId(), equalTo(3));
assertThat(((MoveAllocationCommand) (sCommands.commands().get(3))).index(), equalTo("test"));
assertThat(((MoveAllocationCommand) (sCommands.commands().get(3))).fromNode(), equalTo("node2"));
assertThat(((MoveAllocationCommand) (sCommands.commands().get(3))).toNode(), equalTo("node3"));
assertThat(((CancelAllocationCommand) (sCommands.commands().get(4))).shardId(), equalTo(4));
assertThat(((CancelAllocationCommand) (sCommands.commands().get(4))).index(), equalTo("test"));
assertThat(((CancelAllocationCommand) (sCommands.commands().get(4))).node(), equalTo("node5"));
assertThat(((CancelAllocationCommand) (sCommands.commands().get(4))).allowPrimary(), equalTo(true));
}
public void testXContent() throws Exception {
String commands = "{\n" +
" \"commands\" : [\n" +
" {\"allocate_empty_primary\" : {\"index\" : \"test\", \"shard\" : 1, \"node\" : \"node1\", \"accept_data_loss\" : true}}\n" +
" ,{\"allocate_stale_primary\" : {\"index\" : \"test\", \"shard\" : 2, \"node\" : \"node1\", \"accept_data_loss\" : true}}\n" +
" ,{\"allocate_replica\" : {\"index\" : \"test\", \"shard\" : 2, \"node\" : \"node1\"}}\n" +
" ,{\"move\" : {\"index\" : \"test\", \"shard\" : 3, \"from_node\" : \"node2\", \"to_node\" : \"node3\"}} \n" +
" ,{\"cancel\" : {\"index\" : \"test\", \"shard\" : 4, \"node\" : \"node5\", \"allow_primary\" : true}} \n" +
" ]\n" +
"}\n";
XContentParser parser = createParser(JsonXContent.jsonXContent, commands);
// move two tokens, parser expected to be "on" `commands` field
parser.nextToken();
parser.nextToken();
AllocationCommands sCommands = AllocationCommands.fromXContent(parser);
assertThat(sCommands.commands().size(), equalTo(5));
assertThat(((AllocateEmptyPrimaryAllocationCommand) (sCommands.commands().get(0))).shardId(), equalTo(1));
assertThat(((AllocateEmptyPrimaryAllocationCommand) (sCommands.commands().get(0))).index(), equalTo("test"));
assertThat(((AllocateEmptyPrimaryAllocationCommand) (sCommands.commands().get(0))).node(), equalTo("node1"));
assertThat(((AllocateEmptyPrimaryAllocationCommand) (sCommands.commands().get(0))).acceptDataLoss(), equalTo(true));
assertThat(((AllocateStalePrimaryAllocationCommand) (sCommands.commands().get(1))).shardId(), equalTo(2));
assertThat(((AllocateStalePrimaryAllocationCommand) (sCommands.commands().get(1))).index(), equalTo("test"));
assertThat(((AllocateStalePrimaryAllocationCommand) (sCommands.commands().get(1))).node(), equalTo("node1"));
assertThat(((AllocateStalePrimaryAllocationCommand) (sCommands.commands().get(1))).acceptDataLoss(), equalTo(true));
assertThat(((AllocateReplicaAllocationCommand) (sCommands.commands().get(2))).shardId(), equalTo(2));
assertThat(((AllocateReplicaAllocationCommand) (sCommands.commands().get(2))).index(), equalTo("test"));
assertThat(((AllocateReplicaAllocationCommand) (sCommands.commands().get(2))).node(), equalTo("node1"));
assertThat(((MoveAllocationCommand) (sCommands.commands().get(3))).shardId(), equalTo(3));
assertThat(((MoveAllocationCommand) (sCommands.commands().get(3))).index(), equalTo("test"));
assertThat(((MoveAllocationCommand) (sCommands.commands().get(3))).fromNode(), equalTo("node2"));
assertThat(((MoveAllocationCommand) (sCommands.commands().get(3))).toNode(), equalTo("node3"));
assertThat(((CancelAllocationCommand) (sCommands.commands().get(4))).shardId(), equalTo(4));
assertThat(((CancelAllocationCommand) (sCommands.commands().get(4))).index(), equalTo("test"));
assertThat(((CancelAllocationCommand) (sCommands.commands().get(4))).node(), equalTo("node5"));
assertThat(((CancelAllocationCommand) (sCommands.commands().get(4))).allowPrimary(), equalTo(true));
}
@Override
protected NamedXContentRegistry xContentRegistry() {
return new NamedXContentRegistry(NetworkModule.getNamedXContents());
}
}