Please wait. This can take some minutes ...
Many resources are needed to download a project. Please understand that we have to compensate our server costs. Thank you in advance.
Project price only 1 $
You can buy this project and download/modify it how often you want.
org.apache.pulsar.testclient.BrokerMonitor Maven / Gradle / Ivy
/**
* Licensed to the Apache Software Foundation (ASF) under one
* or more contributor license agreements. See the NOTICE file
* distributed with this work for additional information
* regarding copyright ownership. The ASF 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.apache.pulsar.testclient;
import com.beust.jcommander.JCommander;
import com.beust.jcommander.Parameter;
import com.beust.jcommander.ParameterException;
import com.beust.jcommander.Parameters;
import com.google.gson.Gson;
import java.util.ArrayList;
import java.util.Arrays;
import java.util.Collections;
import java.util.HashSet;
import java.util.List;
import java.util.Map;
import java.util.Set;
import java.util.concurrent.ConcurrentHashMap;
import org.apache.pulsar.broker.TimeAverageBrokerData;
import org.apache.pulsar.broker.loadbalance.impl.ModularLoadManagerImpl;
import org.apache.pulsar.policies.data.loadbalancer.LoadReport;
import org.apache.pulsar.policies.data.loadbalancer.LocalBrokerData;
import org.apache.pulsar.policies.data.loadbalancer.ResourceUsage;
import org.apache.pulsar.policies.data.loadbalancer.SystemResourceUsage;
import org.apache.pulsar.testclient.utils.FixedColumnLengthTableMaker;
import org.apache.zookeeper.WatchedEvent;
import org.apache.zookeeper.Watcher;
import org.apache.zookeeper.ZooKeeper;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
/**
* Monitors brokers and prints to the console information about their system resource usages, their topic and bundle
* counts, their message rates, and other metrics.
*/
public class BrokerMonitor {
private static final Logger log = LoggerFactory.getLogger(BrokerMonitor.class);
private static final String BROKER_ROOT = "/loadbalance/brokers";
private static final int ZOOKEEPER_TIMEOUT_MILLIS = 30000;
private static final int GLOBAL_STATS_PRINT_PERIOD_MILLIS = 60000;
private final ZooKeeper zkClient;
private static final Gson gson = new Gson();
// Fields common for message rows.
private static final List MESSAGE_FIELDS = Arrays.asList("MSG/S IN", "MSG/S OUT", "TOTAL", "KB/S IN",
"KB/S OUT", "TOTAL");
// Fields common for system rows.
private static final List SYSTEM_FIELDS = Arrays.asList("CPU %", "MEMORY %", "DIRECT %", "BW IN %",
"BW OUT %", "MAX %");
private static final Object[] SYSTEM_ROW = makeSystemRow("SYSTEM");
private static final Object[] COUNT_ROW = { "COUNT", "TOPIC", "BUNDLE", "PRODUCER", "CONSUMER", "BUNDLE +",
"BUNDLE -" };
private static final Object[] LATEST_ROW = makeMessageRow("LATEST");
private static final Object[] SHORT_ROW = makeMessageRow("SHORT");
private static final Object[] LONG_ROW = makeMessageRow("LONG");
private static final Object[] RAW_SYSTEM_ROW = makeSystemRow("RAW SYSTEM");
private static final Object[] ALLOC_SYSTEM_ROW = makeSystemRow("ALLOC SYSTEM");
private static final Object[] RAW_MESSAGE_ROW = makeMessageRow("RAW MSG");
private static final Object[] ALLOC_MESSAGE_ROW = makeMessageRow("ALLOC MSG");
private static final Object[] GLOBAL_HEADER = { "BROKER", "BUNDLE", "MSG/S", "LONG/S", "KB/S", "MAX %" };
private final Map loadData;
private static final FixedColumnLengthTableMaker localTableMaker = new FixedColumnLengthTableMaker();
static {
// Makes the table length about 120.
localTableMaker.elementLength = 14;
localTableMaker.decimalFormatter = "%.2f";
}
private static final FixedColumnLengthTableMaker globalTableMaker = new FixedColumnLengthTableMaker();
static {
globalTableMaker.decimalFormatter = "%.2f";
globalTableMaker.topBorder = '*';
globalTableMaker.bottomBorder = '*';
// Make broker column substantially longer than other columns.
globalTableMaker.lengthFunction = column -> column == 0 ? 60 : 12;
}
// Take advantage of repeated labels in message rows.
private static Object[] makeMessageRow(final String firstElement) {
final List result = new ArrayList<>();
result.add(firstElement);
result.addAll(MESSAGE_FIELDS);
return result.toArray();
}
// Take advantage of repeated labels in system rows.
private static Object[] makeSystemRow(final String firstElement) {
final List result = new ArrayList<>();
result.add(firstElement);
result.addAll(SYSTEM_FIELDS);
return result.toArray();
}
// Helper method to initialize rows.
private static void initRow(final Object[] row, final Object... elements) {
System.arraycopy(elements, 0, row, 1, elements.length);
}
// Helper method to initialize rows which hold message data.
private static void initMessageRow(final Object[] row, final double messageRateIn, final double messageRateOut,
final double messageThroughputIn, final double messageThroughputOut) {
initRow(row, messageRateIn, messageRateOut, messageRateIn + messageRateOut,
messageThroughputIn / 1024,
messageThroughputOut / 1024, (messageThroughputIn + messageThroughputOut) / 1024);
}
// Prints out the global load data.
private void printGlobalData() {
synchronized (loadData) {
// 1 header row, 1 total row, and loadData.size() rows for brokers.
Object[][] rows = new Object[loadData.size() + 2][];
rows[0] = GLOBAL_HEADER;
int totalBundles = 0;
double totalThroughput = 0;
double totalMessageRate = 0;
double totalLongTermMessageRate = 0;
double maxMaxUsage = 0;
int i = 1;
for (final Map.Entry entry : loadData.entrySet()) {
final String broker = entry.getKey();
final Object data = entry.getValue();
rows[i] = new Object[GLOBAL_HEADER.length];
rows[i][0] = broker;
int numBundles;
double messageRate;
double longTermMessageRate;
double messageThroughput;
double maxUsage;
if (data instanceof LoadReport) {
final LoadReport loadReport = (LoadReport) data;
numBundles = loadReport.getNumBundles();
messageRate = loadReport.getMsgRateIn() + loadReport.getMsgRateOut();
longTermMessageRate = loadReport.getAllocatedMsgRateIn() + loadReport.getAllocatedMsgRateOut();
messageThroughput = (loadReport.getAllocatedBandwidthIn() + loadReport.getAllocatedBandwidthOut())
/ 1024;
final SystemResourceUsage systemResourceUsage = loadReport.getSystemResourceUsage();
maxUsage = Math.max(
Math.max(
Math.max(systemResourceUsage.getCpu().percentUsage(),
systemResourceUsage.getMemory().percentUsage()),
Math.max(systemResourceUsage.getDirectMemory().percentUsage(),
systemResourceUsage.getBandwidthIn().percentUsage())),
systemResourceUsage.getBandwidthOut().percentUsage());
} else if (data instanceof LocalBrokerData) {
final LocalBrokerData localData = (LocalBrokerData) data;
numBundles = localData.getNumBundles();
messageRate = localData.getMsgRateIn() + localData.getMsgRateOut();
final String timeAveragePath = ModularLoadManagerImpl.TIME_AVERAGE_BROKER_ZPATH + "/" + broker;
try {
final TimeAverageBrokerData timeAverageData = gson.fromJson(
new String(zkClient.getData(timeAveragePath, false, null)),
TimeAverageBrokerData.class);
longTermMessageRate = timeAverageData.getLongTermMsgRateIn()
+ timeAverageData.getLongTermMsgRateOut();
} catch (Exception x) {
throw new RuntimeException(x);
}
messageThroughput = (localData.getMsgThroughputIn() + localData.getMsgThroughputOut()) / 1024;
maxUsage = localData.getMaxResourceUsage();
} else {
throw new AssertionError("Unreachable code");
}
rows[i][1] = numBundles;
rows[i][2] = messageRate;
rows[i][3] = messageThroughput;
rows[i][4] = longTermMessageRate;
rows[i][5] = maxUsage;
totalBundles += numBundles;
totalMessageRate += messageRate;
totalLongTermMessageRate += longTermMessageRate;
totalThroughput += messageThroughput;
maxMaxUsage = Math.max(maxUsage, maxMaxUsage);
++i;
}
final int finalRow = loadData.size() + 1;
rows[finalRow] = new Object[GLOBAL_HEADER.length];
rows[finalRow][0] = "TOTAL";
rows[finalRow][1] = totalBundles;
rows[finalRow][2] = totalMessageRate;
rows[finalRow][3] = totalLongTermMessageRate;
rows[finalRow][4] = totalThroughput;
rows[finalRow][5] = maxMaxUsage;
final String table = globalTableMaker.make(rows);
log.info("Overall Broker Data:\n{}", table);
}
}
// This watcher initializes data watchers whenever a new broker is found.
private class BrokerWatcher implements Watcher {
private final ZooKeeper zkClient;
private Set brokers;
private BrokerWatcher(final ZooKeeper zkClient) {
this.zkClient = zkClient;
this.brokers = Collections.emptySet();
}
/**
* Creates a watch for a newly acquired broker so that its data is printed whenever it is updated.
*
* @param event The watched event.
*/
public synchronized void process(final WatchedEvent event) {
try {
if (event.getType() == Event.EventType.NodeChildrenChanged) {
updateBrokers(event.getPath());
}
} catch (Exception ex) {
throw new RuntimeException(ex);
}
}
// Inform the user of any broker gains and losses and put watches on newly acquired brokers.
private synchronized void updateBrokers(final String path) {
final Set newBrokers = new HashSet<>();
try {
newBrokers.addAll(zkClient.getChildren(path, this));
} catch (Exception ex) {
throw new RuntimeException(ex);
}
for (String oldBroker : brokers) {
if (!newBrokers.contains(oldBroker)) {
log.info("Lost broker: " + oldBroker);
synchronized (loadData) {
// Stop including lost broker in global stats.
loadData.remove(oldBroker);
}
}
}
for (String newBroker : newBrokers) {
if (!brokers.contains(newBroker)) {
log.info("Gained broker: " + newBroker);
final BrokerDataWatcher brokerDataWatcher = new BrokerDataWatcher(zkClient);
brokerDataWatcher.printData(path + "/" + newBroker);
}
}
this.brokers = newBrokers;
}
}
// This watcher prints tabular data for a broker after its ZNode is updated.
private class BrokerDataWatcher implements Watcher {
private final ZooKeeper zkClient;
private BrokerDataWatcher(final ZooKeeper zkClient) {
this.zkClient = zkClient;
}
// Given the path to a broker ZNode, return the broker host name.
private String brokerNameFromPath(final String path) {
return path.substring(path.lastIndexOf('/') + 1);
}
/**
* Print the local and historical broker data in a tabular format, and put this back as a watcher.
*
* @param event The watched event.
*/
public synchronized void process(final WatchedEvent event) {
try {
if (event.getType() == Event.EventType.NodeDataChanged) {
printData(event.getPath());
}
} catch (Exception ex) {
throw new RuntimeException(ex);
}
}
private double percentUsage(final double usage, final double limit) {
return limit > 0 && usage >= 0 ? 100 * Math.min(1, usage / limit) : 0;
}
// Decide whether this broker is running SimpleLoadManagerImpl or ModularLoadManagerImpl and then print the data
// accordingly.
private synchronized void printData(final String path) {
final String broker = brokerNameFromPath(path);
String jsonString;
try {
jsonString = new String(zkClient.getData(path, this, null));
} catch (Exception ex) {
throw new RuntimeException(ex);
}
// Use presence of the String "allocated" to determine if this is using SimpleLoadManagerImpl.
if (jsonString.contains("allocated")) {
printLoadReport(broker, gson.fromJson(jsonString, LoadReport.class));
} else {
final LocalBrokerData localBrokerData = gson.fromJson(jsonString, LocalBrokerData.class);
final String timeAveragePath = ModularLoadManagerImpl.TIME_AVERAGE_BROKER_ZPATH + "/" + broker;
try {
final TimeAverageBrokerData timeAverageData = gson.fromJson(
new String(zkClient.getData(timeAveragePath, false, null)), TimeAverageBrokerData.class);
printBrokerData(broker, localBrokerData, timeAverageData);
} catch (Exception e) {
throw new RuntimeException(e);
}
}
}
// Print the load report in a tabular form for a broker running SimpleLoadManagerImpl.
private synchronized void printLoadReport(final String broker, final LoadReport loadReport) {
loadData.put(broker, loadReport);
// Initialize the constant rows.
final Object[][] rows = new Object[10][];
rows[0] = COUNT_ROW;
rows[2] = RAW_SYSTEM_ROW;
rows[4] = ALLOC_SYSTEM_ROW;
rows[6] = RAW_MESSAGE_ROW;
rows[8] = ALLOC_MESSAGE_ROW;
// First column is a label, so start at the second column at index 1.
// Client count row.
rows[1] = new Object[COUNT_ROW.length];
initRow(rows[1], loadReport.getNumTopics(), loadReport.getNumBundles(), loadReport.getNumProducers(),
loadReport.getNumConsumers(), loadReport.getBundleGains().size(),
loadReport.getBundleLosses().size());
// Raw system row.
final SystemResourceUsage systemResourceUsage = loadReport.getSystemResourceUsage();
final ResourceUsage cpu = systemResourceUsage.getCpu();
final ResourceUsage memory = systemResourceUsage.getMemory();
final ResourceUsage directMemory = systemResourceUsage.getDirectMemory();
final ResourceUsage bandwidthIn = systemResourceUsage.getBandwidthIn();
final ResourceUsage bandwidthOut = systemResourceUsage.getBandwidthOut();
final double maxUsage = Math.max(
Math.max(Math.max(cpu.percentUsage(), memory.percentUsage()),
Math.max(directMemory.percentUsage(), bandwidthIn.percentUsage())),
bandwidthOut.percentUsage());
rows[3] = new Object[RAW_SYSTEM_ROW.length];
initRow(rows[3], cpu.percentUsage(), memory.percentUsage(), directMemory.percentUsage(),
bandwidthIn.percentUsage(), bandwidthOut.percentUsage(), maxUsage);
// Allocated system row.
rows[5] = new Object[ALLOC_SYSTEM_ROW.length];
final double allocatedCpuUsage = percentUsage(loadReport.getAllocatedCPU(), cpu.limit);
final double allocatedMemoryUsage = percentUsage(loadReport.getAllocatedMemory(), memory.limit);
final double allocatedBandwidthInUsage = percentUsage(loadReport.getAllocatedBandwidthIn(),
bandwidthIn.limit);
final double allocatedBandwidthOutUsage = percentUsage(loadReport.getAllocatedBandwidthOut(),
bandwidthOut.limit);
final double maxAllocatedUsage = Math.max(
Math.max(Math.max(allocatedCpuUsage, allocatedMemoryUsage), allocatedBandwidthInUsage),
allocatedBandwidthOutUsage);
initRow(rows[5], allocatedCpuUsage, allocatedMemoryUsage, null, allocatedBandwidthInUsage,
allocatedBandwidthOutUsage, maxAllocatedUsage);
// Raw message row.
rows[7] = new Object[RAW_MESSAGE_ROW.length];
initMessageRow(rows[7], loadReport.getMsgRateIn(), loadReport.getMsgRateOut(), bandwidthIn.usage,
bandwidthOut.usage);
// Allocated message row.
rows[9] = new Object[ALLOC_MESSAGE_ROW.length];
initMessageRow(rows[9], loadReport.getAllocatedMsgRateIn(), loadReport.getAllocatedMsgRateOut(),
loadReport.getAllocatedBandwidthIn(), loadReport.getAllocatedBandwidthOut());
final String table = localTableMaker.make(rows);
log.info("\nLoad Report for {}:\n{}\n", broker, table);
}
// Print the broker data in a tabular form for a broker using ModularLoadManagerImpl.
private synchronized void printBrokerData(final String broker, final LocalBrokerData localBrokerData,
final TimeAverageBrokerData timeAverageData) {
loadData.put(broker, localBrokerData);
// Initialize the constant rows.
final Object[][] rows = new Object[10][];
rows[0] = SYSTEM_ROW;
rows[2] = COUNT_ROW;
rows[4] = LATEST_ROW;
rows[6] = SHORT_ROW;
rows[8] = LONG_ROW;
// First column is a label, so start at the second column at index 1.
// System row.
rows[1] = new Object[SYSTEM_ROW.length];
initRow(rows[1], localBrokerData.getCpu().percentUsage(), localBrokerData.getMemory().percentUsage(),
localBrokerData.getDirectMemory().percentUsage(), localBrokerData.getBandwidthIn().percentUsage(),
localBrokerData.getBandwidthOut().percentUsage(), localBrokerData.getMaxResourceUsage() * 100);
// Count row.
rows[3] = new Object[COUNT_ROW.length];
initRow(rows[3], localBrokerData.getNumTopics(), localBrokerData.getNumBundles(),
localBrokerData.getNumProducers(), localBrokerData.getNumConsumers(),
localBrokerData.getLastBundleGains().size(), localBrokerData.getLastBundleLosses().size());
// Latest message data row.
rows[5] = new Object[LATEST_ROW.length];
initMessageRow(rows[5], localBrokerData.getMsgRateIn(), localBrokerData.getMsgRateOut(),
localBrokerData.getMsgThroughputIn(), localBrokerData.getMsgThroughputOut());
// Short-term message data row.
rows[7] = new Object[SHORT_ROW.length];
initMessageRow(rows[7], timeAverageData.getShortTermMsgRateIn(), timeAverageData.getShortTermMsgRateOut(),
timeAverageData.getShortTermMsgThroughputIn(), timeAverageData.getShortTermMsgThroughputOut());
// Long-term message data row.
rows[9] = new Object[LONG_ROW.length];
initMessageRow(rows[9], timeAverageData.getLongTermMsgRateIn(), timeAverageData.getLongTermMsgRateOut(),
timeAverageData.getLongTermMsgThroughputIn(), timeAverageData.getLongTermMsgThroughputOut());
final String table = localTableMaker.make(rows);
log.info("\nBroker Data for {}:\n{}\n", broker, table);
}
}
// JCommander arguments class.
@Parameters(commandDescription = "Monitors brokers and prints to the console information about their system "
+ "resource usages, \ntheir topic and bundle counts, their message rates, and other metrics.")
private static class Arguments {
@Parameter(names = { "-h", "--help" }, description = "Help message", help = true)
boolean help;
@Parameter(names = { "--connect-string" }, description = "Zookeeper connect string", required = true)
public String connectString = null;
}
/**
* Create a broker monitor from the given ZooKeeper client.
*
* @param zkClient Client to create this from.
*/
public BrokerMonitor(final ZooKeeper zkClient) {
loadData = new ConcurrentHashMap<>();
this.zkClient = zkClient;
}
/**
* Start the broker monitoring procedure.
*/
public void start() {
try {
final BrokerWatcher brokerWatcher = new BrokerWatcher(zkClient);
brokerWatcher.updateBrokers(BROKER_ROOT);
while (true) {
Thread.sleep(GLOBAL_STATS_PRINT_PERIOD_MILLIS);
printGlobalData();
}
} catch (Exception ex) {
throw new RuntimeException(ex);
}
}
/**
* Run a monitor from command line arguments.
*
* @param args Arguments for the monitor.
*/
public static void main(String[] args) throws Exception {
final Arguments arguments = new Arguments();
final JCommander jc = new JCommander(arguments);
jc.setProgramName("pulsar-perf monitor-brokers");
try {
jc.parse(args);
} catch (ParameterException e) {
System.out.println(e.getMessage());
jc.usage();
PerfClientUtils.exit(-1);
}
final ZooKeeper zkClient = new ZooKeeper(arguments.connectString, ZOOKEEPER_TIMEOUT_MILLIS, null);
final BrokerMonitor monitor = new BrokerMonitor(zkClient);
monitor.start();
}
}