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org.elasticsearch.rest.action.cat.RestThreadPoolAction Maven / Gradle / Ivy
/*
* Copyright Elasticsearch B.V. and/or licensed to Elasticsearch B.V. under one
* or more contributor license agreements. Licensed under the Elastic License
* 2.0 and the Server Side Public License, v 1; you may not use this file except
* in compliance with, at your election, the Elastic License 2.0 or the Server
* Side Public License, v 1.
*/
package org.elasticsearch.rest.action.cat;
import org.elasticsearch.action.admin.cluster.node.info.NodeInfo;
import org.elasticsearch.action.admin.cluster.node.info.NodesInfoRequest;
import org.elasticsearch.action.admin.cluster.node.info.NodesInfoResponse;
import org.elasticsearch.action.admin.cluster.node.stats.NodeStats;
import org.elasticsearch.action.admin.cluster.node.stats.NodesStatsRequest;
import org.elasticsearch.action.admin.cluster.node.stats.NodesStatsResponse;
import org.elasticsearch.action.admin.cluster.state.ClusterStateRequest;
import org.elasticsearch.action.admin.cluster.state.ClusterStateResponse;
import org.elasticsearch.client.internal.node.NodeClient;
import org.elasticsearch.cluster.node.DiscoveryNode;
import org.elasticsearch.cluster.node.DiscoveryNodes;
import org.elasticsearch.common.Table;
import org.elasticsearch.common.regex.Regex;
import org.elasticsearch.core.TimeValue;
import org.elasticsearch.monitor.process.ProcessInfo;
import org.elasticsearch.rest.RestRequest;
import org.elasticsearch.rest.RestResponse;
import org.elasticsearch.rest.action.RestActionListener;
import org.elasticsearch.rest.action.RestResponseListener;
import org.elasticsearch.threadpool.ThreadPool;
import org.elasticsearch.threadpool.ThreadPoolInfo;
import org.elasticsearch.threadpool.ThreadPoolStats;
import java.util.Collections;
import java.util.HashMap;
import java.util.HashSet;
import java.util.List;
import java.util.Map;
import java.util.Set;
import java.util.TreeMap;
import static org.elasticsearch.rest.RestRequest.Method.GET;
public class RestThreadPoolAction extends AbstractCatAction {
@Override
public List routes() {
return List.of(new Route(GET, "/_cat/thread_pool"), new Route(GET, "/_cat/thread_pool/{thread_pool_patterns}"));
}
@Override
public String getName() {
return "cat_threadpool_action";
}
@Override
protected void documentation(StringBuilder sb) {
sb.append("/_cat/thread_pool\n");
sb.append("/_cat/thread_pool/{thread_pools}\n");
}
@Override
public RestChannelConsumer doCatRequest(final RestRequest request, final NodeClient client) {
final ClusterStateRequest clusterStateRequest = new ClusterStateRequest();
clusterStateRequest.clear().nodes(true);
clusterStateRequest.local(request.paramAsBoolean("local", clusterStateRequest.local()));
clusterStateRequest.masterNodeTimeout(request.paramAsTime("master_timeout", clusterStateRequest.masterNodeTimeout()));
return channel -> client.admin().cluster().state(clusterStateRequest, new RestActionListener(channel) {
@Override
public void processResponse(final ClusterStateResponse clusterStateResponse) {
NodesInfoRequest nodesInfoRequest = new NodesInfoRequest();
nodesInfoRequest.clear()
.addMetrics(NodesInfoRequest.Metric.PROCESS.metricName(), NodesInfoRequest.Metric.THREAD_POOL.metricName());
client.admin().cluster().nodesInfo(nodesInfoRequest, new RestActionListener(channel) {
@Override
public void processResponse(final NodesInfoResponse nodesInfoResponse) {
NodesStatsRequest nodesStatsRequest = new NodesStatsRequest();
nodesStatsRequest.clear().addMetric(NodesStatsRequest.Metric.THREAD_POOL.metricName());
client.admin().cluster().nodesStats(nodesStatsRequest, new RestResponseListener(channel) {
@Override
public RestResponse buildResponse(NodesStatsResponse nodesStatsResponse) throws Exception {
return RestTable.buildResponse(
buildTable(request, clusterStateResponse, nodesInfoResponse, nodesStatsResponse),
channel
);
}
});
}
});
}
});
}
private static final Set RESPONSE_PARAMS;
static {
final Set responseParams = new HashSet<>(AbstractCatAction.RESPONSE_PARAMS);
responseParams.add("thread_pool_patterns");
RESPONSE_PARAMS = Collections.unmodifiableSet(responseParams);
}
@Override
protected Set responseParams() {
return RESPONSE_PARAMS;
}
@Override
protected Table getTableWithHeader(final RestRequest request) {
final Table table = new Table();
table.startHeaders();
table.addCell("node_name", "default:true;alias:nn;desc:node name");
table.addCell("node_id", "default:false;alias:id;desc:persistent node id");
table.addCell("ephemeral_node_id", "default:false;alias:eid;desc:ephemeral node id");
table.addCell("pid", "default:false;alias:p;desc:process id");
table.addCell("host", "default:false;alias:h;desc:host name");
table.addCell("ip", "default:false;alias:i;desc:ip address");
table.addCell("port", "default:false;alias:po;desc:bound transport port");
table.addCell("name", "default:true;alias:n;desc:thread pool name");
table.addCell("type", "alias:t;default:false;desc:thread pool type");
table.addCell("active", "alias:a;default:true;text-align:right;desc:number of active threads");
table.addCell("pool_size", "alias:psz;default:false;text-align:right;desc:number of threads");
table.addCell("queue", "alias:q;default:true;text-align:right;desc:number of tasks currently in queue");
table.addCell("queue_size", "alias:qs;default:false;text-align:right;desc:maximum number of tasks permitted in queue");
table.addCell("rejected", "alias:r;default:true;text-align:right;desc:number of rejected tasks");
table.addCell("largest", "alias:l;default:false;text-align:right;desc:highest number of seen active threads");
table.addCell("completed", "alias:c;default:false;text-align:right;desc:number of completed tasks");
table.addCell("core", "alias:cr;default:false;text-align:right;desc:core number of threads in a scaling thread pool");
table.addCell("max", "alias:mx;default:false;text-align:right;desc:maximum number of threads in a scaling thread pool");
table.addCell("size", "alias:sz;default:false;text-align:right;desc:number of threads in a fixed thread pool");
table.addCell("keep_alive", "alias:ka;default:false;text-align:right;desc:thread keep alive time");
table.endHeaders();
return table;
}
private Table buildTable(RestRequest req, ClusterStateResponse state, NodesInfoResponse nodesInfo, NodesStatsResponse nodesStats) {
final String[] threadPools = req.paramAsStringArray("thread_pool_patterns", new String[] { "*" });
final DiscoveryNodes nodes = state.getState().nodes();
final Table table = getTableWithHeader(req);
// collect all thread pool names that we see across the nodes
final Set candidates = new HashSet<>();
for (final NodeStats nodeStats : nodesStats.getNodes()) {
for (final ThreadPoolStats.Stats threadPoolStats : nodeStats.getThreadPool()) {
candidates.add(threadPoolStats.getName());
}
}
// collect all thread pool names that match the specified thread pool patterns
final Set included = new HashSet<>();
for (final String candidate : candidates) {
if (Regex.simpleMatch(threadPools, candidate)) {
included.add(candidate);
}
}
for (final DiscoveryNode node : nodes) {
final NodeInfo info = nodesInfo.getNodesMap().get(node.getId());
final NodeStats stats = nodesStats.getNodesMap().get(node.getId());
final Map poolThreadStats;
final Map poolThreadInfo;
if (stats == null) {
poolThreadStats = Collections.emptyMap();
poolThreadInfo = Collections.emptyMap();
} else {
// we use a sorted map to ensure that thread pools are sorted by name
poolThreadStats = new TreeMap<>();
poolThreadInfo = new HashMap<>();
ThreadPoolStats threadPoolStats = stats.getThreadPool();
for (ThreadPoolStats.Stats threadPoolStat : threadPoolStats) {
poolThreadStats.put(threadPoolStat.getName(), threadPoolStat);
}
if (info != null) {
for (ThreadPool.Info threadPoolInfo : info.getInfo(ThreadPoolInfo.class)) {
poolThreadInfo.put(threadPoolInfo.getName(), threadPoolInfo);
}
}
}
for (Map.Entry entry : poolThreadStats.entrySet()) {
if (included.contains(entry.getKey()) == false) {
continue;
}
table.startRow();
table.addCell(node.getName());
table.addCell(node.getId());
table.addCell(node.getEphemeralId());
table.addCell(info == null ? null : info.getInfo(ProcessInfo.class).getId());
table.addCell(node.getHostName());
table.addCell(node.getHostAddress());
table.addCell(node.getAddress().address().getPort());
final ThreadPoolStats.Stats poolStats = entry.getValue();
final ThreadPool.Info poolInfo = poolThreadInfo.get(entry.getKey());
Long maxQueueSize = null;
TimeValue keepAlive = null;
Integer core = null;
Integer max = null;
Integer size = null;
if (poolInfo != null) {
if (poolInfo.getQueueSize() != null) {
maxQueueSize = poolInfo.getQueueSize().singles();
}
if (poolInfo.getKeepAlive() != null) {
keepAlive = poolInfo.getKeepAlive();
}
if (poolInfo.getThreadPoolType() == ThreadPool.ThreadPoolType.SCALING) {
assert poolInfo.getMin() >= 0;
core = poolInfo.getMin();
assert poolInfo.getMax() > 0;
max = poolInfo.getMax();
} else {
assert poolInfo.getMin() == poolInfo.getMax() && poolInfo.getMax() > 0;
size = poolInfo.getMax();
}
}
table.addCell(entry.getKey());
table.addCell(poolInfo == null ? null : poolInfo.getThreadPoolType().getType());
table.addCell(poolStats == null ? null : poolStats.getActive());
table.addCell(poolStats == null ? null : poolStats.getThreads());
table.addCell(poolStats == null ? null : poolStats.getQueue());
table.addCell(maxQueueSize == null ? -1 : maxQueueSize);
table.addCell(poolStats == null ? null : poolStats.getRejected());
table.addCell(poolStats == null ? null : poolStats.getLargest());
table.addCell(poolStats == null ? null : poolStats.getCompleted());
table.addCell(core);
table.addCell(max);
table.addCell(size);
table.addCell(keepAlive);
table.endRow();
}
}
return table;
}
}