org.apache.pulsar.testclient.LoadSimulationController Maven / Gradle / Ivy
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* 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 static org.apache.pulsar.broker.resources.LoadBalanceResources.BUNDLE_DATA_BASE_PATH;
import static org.apache.pulsar.broker.resources.LoadBalanceResources.RESOURCE_QUOTA_BASE_PATH;
import java.io.BufferedReader;
import java.io.DataInputStream;
import java.io.DataOutputStream;
import java.io.FileInputStream;
import java.io.InputStreamReader;
import java.net.Socket;
import java.nio.file.Paths;
import java.util.ArrayList;
import java.util.HashMap;
import java.util.HashSet;
import java.util.List;
import java.util.Map;
import java.util.Random;
import java.util.Set;
import java.util.concurrent.ExecutorService;
import java.util.concurrent.Executors;
import java.util.concurrent.Future;
import org.apache.bookkeeper.util.ZkUtils;
import org.apache.pulsar.broker.loadbalance.LoadManager;
import org.apache.pulsar.common.policies.data.ResourceQuota;
import org.apache.pulsar.common.util.ObjectMapperFactory;
import org.apache.pulsar.policies.data.loadbalancer.BundleData;
import org.apache.pulsar.policies.data.loadbalancer.LoadReport;
import org.apache.pulsar.policies.data.loadbalancer.NamespaceBundleStats;
import org.apache.zookeeper.CreateMode;
import org.apache.zookeeper.KeeperException;
import org.apache.zookeeper.WatchedEvent;
import org.apache.zookeeper.Watcher;
import org.apache.zookeeper.ZooDefs;
import org.apache.zookeeper.ZooKeeper;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
import picocli.CommandLine;
import picocli.CommandLine.Command;
import picocli.CommandLine.Option;
import picocli.CommandLine.Parameters;
/**
* This class provides a shell for the user to dictate how simulation clients should incur load.
*/
@Command(name = "simulation-controller",
description = "Provides a shell for the user to dictate how simulation clients should "
+ "incur load.")
public class LoadSimulationController extends CmdBase{
private static final Logger log = LoggerFactory.getLogger(LoadSimulationController.class);
// Input streams for each client to send commands through.
private DataInputStream[] inputStreams;
// Output streams for each client to receive information from.
private DataOutputStream[] outputStreams;
// client host names.
private String[] clients;
private Random random;
private static final ExecutorService threadPool = Executors.newCachedThreadPool();
// picocli arguments for starting a controller via main.
@Option(names = { "--cluster" }, description = "Cluster to test on", required = true)
String cluster;
@Option(names = { "--clients" }, description = "Comma separated list of client hostnames", required = true)
String clientHostNames;
@Option(names = { "--client-port" }, description = "Port that the clients are listening on", required = true)
int clientPort;
// picocli arguments for accepting user input.
private static class ShellArguments {
@Parameters(description = "Command arguments:\n" + "trade tenant namespace topic\n"
+ "change tenant namespace topic\n" + "stop tenant namespace topic\n"
+ "trade_group tenant group_name num_namespaces\n" + "change_group tenant group_name\n"
+ "stop_group tenant group_name\n" + "script script_name\n" + "copy tenant_name source_zk target_zk\n"
+ "stream source_zk\n" + "simulate zk\n", arity = "1")
List commandArguments;
@Option(names = { "--rand-rate" }, description = "Choose message rate uniformly randomly from the next two "
+ "comma separated values (overrides --rate)")
String rangeString = "";
@Option(names = { "--rate" }, description = "Messages per second")
double rate = 1;
@Option(names = { "--rate-multiplier" }, description = "Multiplier to use for copying or streaming rates")
double rateMultiplier = 1;
@Option(names = { "--separation" }, description = "Separation time in ms for trade_group actions "
+ "(0 for no separation)")
int separation = 0;
@Option(names = { "--size" }, description = "Message size in bytes")
int size = 1024;
@Option(names = { "--topics-per-namespace" }, description = "Number of topics to create per namespace in "
+ "trade_group (total number of topics is num_namespaces X num_topics)")
int topicsPerNamespace = 1;
}
// In stream mode, the BrokerWatcher watches the /loadbalance/broker zpath and adds LoadReportWatchers accordingly
// when new brokers come up.
private class BrokerWatcher implements Watcher {
private final ZooKeeper zkClient;
// Currently observed brokers.
private final Set brokers;
// Shell arguments to configure streaming with.
private final ShellArguments arguments;
private BrokerWatcher(final ZooKeeper zkClient, final ShellArguments arguments) {
this.zkClient = zkClient;
this.arguments = arguments;
brokers = new HashSet<>();
// Observe the currently active brokers and put a watch on the broker root.
process(null);
}
// Add load report watchers for newly observed brokers.
public synchronized void process(final WatchedEvent event) {
try {
final List currentBrokers = zkClient.getChildren(LoadManager.LOADBALANCE_BROKERS_ROOT, this);
for (final String broker : currentBrokers) {
if (!brokers.contains(broker)) {
new LoadReportWatcher(String.format("%s/%s", LoadManager.LOADBALANCE_BROKERS_ROOT, broker),
zkClient, arguments);
brokers.add(broker);
}
}
} catch (Exception ex) {
throw new RuntimeException(ex);
}
}
}
// In stream mode, the LoadReportWatcher watches the /loadbalance/broker children and adds or modifies topics with
// suitable rates based on the most recent message rate and throughput information.
private class LoadReportWatcher implements Watcher {
private final ZooKeeper zkClient;
private final String path;
private final ShellArguments arguments;
public LoadReportWatcher(final String path, final ZooKeeper zkClient, final ShellArguments arguments) {
this.path = path;
this.zkClient = zkClient;
this.arguments = arguments;
// Get initial topics and set this up as a watch by calling process.
process(null);
}
// Update the message rate information for the bundles in a recently changed load report.
public synchronized void process(final WatchedEvent event) {
try {
// Get the load report and put this back as a watch.
final LoadReport loadReport = ObjectMapperFactory.getMapper().getObjectMapper()
.readValue(zkClient.getData(path, this, null), LoadReport.class);
for (final Map.Entry entry : loadReport.getBundleStats().entrySet()) {
final String bundle = entry.getKey();
final String namespace = bundle.substring(0, bundle.lastIndexOf('/'));
final String topic = String.format("%s/%s", namespace, "t");
final NamespaceBundleStats stats = entry.getValue();
// Approximate total message rate via average between in/out.
final double messageRate = arguments.rateMultiplier * (stats.msgRateIn + stats.msgRateOut) / 2;
// size = throughput / rate.
final int messageSize = (int) Math.ceil(arguments.rateMultiplier
* (stats.msgThroughputIn + stats.msgThroughputOut) / (2 * messageRate));
arguments.rate = messageRate;
arguments.size = messageSize;
// Try to modify the topic if it already exists. Otherwise, create it.
changeOrCreate(arguments, topic);
}
} catch (Exception ex) {
throw new RuntimeException(ex);
}
}
}
/**
* Create a LoadSimulationController with the given picocli arguments.
*
*/
public LoadSimulationController() throws Exception {
super("simulation-controller");
}
// Check that the expected number of application arguments matches the
// actual number of application arguments.
private boolean checkAppArgs(final int numAppArgs, final int numRequired) {
if (numAppArgs != numRequired) {
log.info("ERROR: Wrong number of application arguments (found {}, required {})", numAppArgs, numRequired);
return false;
}
return true;
}
// Recursively acquire all resource quotas by getting the ZK children of the given path and calling this function
// on the children if there are any, or getting the data from this ZNode otherwise.
private void getResourceQuotas(final String path, final ZooKeeper zkClient,
final Map[] threadLocalMaps) throws Exception {
final List children = zkClient.getChildren(path, false);
if (children.isEmpty()) {
threadLocalMaps[random.nextInt(clients.length)].put(path, ObjectMapperFactory.getMapper().getObjectMapper()
.readValue(zkClient.getData(path, false, null), ResourceQuota.class));
} else {
for (final String child : children) {
getResourceQuotas(String.format("%s/%s", path, child), zkClient, threadLocalMaps);
}
}
}
// Initialize a BundleData from a resource quota and configurations and modify the quota accordingly.
private BundleData initializeBundleData(final ResourceQuota quota, final ShellArguments arguments) {
final double messageRate = (quota.getMsgRateIn() + quota.getMsgRateOut()) / 2;
final int messageSize = (int) Math.ceil((quota.getBandwidthIn() + quota.getBandwidthOut()) / (2 * messageRate));
arguments.rate = messageRate * arguments.rateMultiplier;
arguments.size = messageSize;
final NamespaceBundleStats startingStats = new NamespaceBundleStats();
// Modify the original quota so that new rates are set.
final double modifiedRate = messageRate * arguments.rateMultiplier;
final double modifiedBandwidth = (quota.getBandwidthIn() + quota.getBandwidthOut()) * arguments.rateMultiplier
/ 2;
quota.setMsgRateIn(modifiedRate);
quota.setMsgRateOut(modifiedRate);
quota.setBandwidthIn(modifiedBandwidth);
quota.setBandwidthOut(modifiedBandwidth);
// Assume modified memory usage is comparable to the rate multiplier times the original usage.
quota.setMemory(quota.getMemory() * arguments.rateMultiplier);
startingStats.msgRateIn = quota.getMsgRateIn();
startingStats.msgRateOut = quota.getMsgRateOut();
startingStats.msgThroughputIn = quota.getBandwidthIn();
startingStats.msgThroughputOut = quota.getBandwidthOut();
final BundleData bundleData = new BundleData(10, 1000, startingStats);
// Assume there is ample history for the bundle.
bundleData.getLongTermData().setNumSamples(1000);
bundleData.getShortTermData().setNumSamples(10);
return bundleData;
}
// Makes a topic string from a tenant name, namespace name, and topic
// name.
private String makeTopic(final String tenant, final String namespace, final String topic) {
return String.format("persistent://%s/%s/%s/%s", tenant, cluster, namespace, topic);
}
// Write options that are common to modifying and creating topics.
private void writeProducerOptions(final DataOutputStream outputStream, final ShellArguments arguments,
final String topic) throws Exception {
if (!arguments.rangeString.isEmpty()) {
// If --rand-rate was specified, extract the bounds by splitting on
// the comma and parsing the resulting
// doubles.
final String[] splits = arguments.rangeString.split(",");
if (splits.length != 2) {
log.error("Argument to --rand-rate should be two comma-separated values");
return;
}
final double first = Double.parseDouble(splits[0]);
final double second = Double.parseDouble(splits[1]);
final double min = Math.min(first, second);
final double max = Math.max(first, second);
arguments.rate = random.nextDouble() * (max - min) + min;
}
outputStream.writeUTF(topic);
outputStream.writeInt(arguments.size);
outputStream.writeDouble(arguments.rate);
}
// Change producer settings for a given topic and picocli arguments.
private void change(final ShellArguments arguments, final String topic, final int client) throws Exception {
outputStreams[client].write(LoadSimulationClient.CHANGE_COMMAND);
writeProducerOptions(outputStreams[client], arguments, topic);
outputStreams[client].flush();
}
// Change an existing topic, or create it if it does not exist.
private int changeOrCreate(final ShellArguments arguments, final String topic) throws Exception {
final int client = find(topic);
if (client == -1) {
trade(arguments, topic, random.nextInt(clients.length));
} else {
change(arguments, topic, client);
}
return client;
}
// Find a topic and change it if it exists.
private int changeIfExists(final ShellArguments arguments, final String topic) throws Exception {
final int client = find(topic);
if (client != -1) {
change(arguments, topic, client);
}
return client;
}
// Attempt to find a topic on the clients.
private int find(final String topic) throws Exception {
int clientWithTopic = -1;
for (int i = 0; i < clients.length; ++i) {
outputStreams[i].write(LoadSimulationClient.FIND_COMMAND);
outputStreams[i].writeUTF(topic);
}
for (int i = 0; i < clients.length; ++i) {
if (inputStreams[i].readBoolean()) {
clientWithTopic = i;
}
}
return clientWithTopic;
}
// Trade using the arguments parsed via picocli and the topic name.
private synchronized void trade(final ShellArguments arguments, final String topic, final int client)
throws Exception {
// Decide which client to send to randomly to preserve statelessness of
// the controller.
outputStreams[client].write(LoadSimulationClient.TRADE_COMMAND);
writeProducerOptions(outputStreams[client], arguments, topic);
outputStreams[client].flush();
}
// Handle the command line arguments associated with the change command.
private void handleChange(final ShellArguments arguments) throws Exception {
final List commandArguments = arguments.commandArguments;
// Change expects three application arguments: tenant name, namespace name, and topic name.
if (checkAppArgs(commandArguments.size() - 1, 3)) {
final String topic = makeTopic(commandArguments.get(1), commandArguments.get(2),
commandArguments.get(3));
if (changeIfExists(arguments, topic) == -1) {
log.info("Topic {} not found", topic);
}
}
}
// Handle the command line arguments associated with the copy command.
private void handleCopy(final ShellArguments arguments) throws Exception {
final List commandArguments = arguments.commandArguments;
// Copy accepts 3 application arguments: Tenant name, source ZooKeeper and target ZooKeeper connect strings.
if (checkAppArgs(commandArguments.size() - 1, 3)) {
final String tenantName = commandArguments.get(1);
final String sourceZKConnectString = commandArguments.get(2);
final String targetZKConnectString = commandArguments.get(3);
final ZooKeeper sourceZKClient = new ZooKeeper(sourceZKConnectString, 5000, null);
final ZooKeeper targetZKClient = new ZooKeeper(targetZKConnectString, 5000, null);
// Make a map for each thread to speed up the ZooKeeper writing process.
final Map[] threadLocalMaps = new Map[clients.length];
for (int i = 0; i < clients.length; ++i) {
threadLocalMaps[i] = new HashMap<>();
}
getResourceQuotas(RESOURCE_QUOTA_BASE_PATH, sourceZKClient, threadLocalMaps);
final List futures = new ArrayList<>(clients.length);
int i = 0;
log.info("Copying...");
for (final Map bundleToQuota : threadLocalMaps) {
final int j = i;
futures.add(threadPool.submit(() -> {
for (final Map.Entry entry : bundleToQuota.entrySet()) {
final String bundle = entry.getKey();
final ResourceQuota quota = entry.getValue();
// Simulation will send messages in and out at about the same rate, so just make the rate the
// average of in and out.
final int tenantStart = RESOURCE_QUOTA_BASE_PATH.length() + 1;
final int clusterStart = bundle.indexOf('/', tenantStart) + 1;
final String sourceTenant = bundle.substring(tenantStart, clusterStart - 1);
final int namespaceStart = bundle.indexOf('/', clusterStart) + 1;
final String sourceCluster = bundle.substring(clusterStart, namespaceStart - 1);
final String namespace = bundle.substring(namespaceStart, bundle.lastIndexOf('/'));
final String keyRangeString = bundle.substring(bundle.lastIndexOf('/') + 1);
// To prevent duplicate node issues for same namespace names in different clusters/tenants.
final String manglePrefix = String.format("%s-%s-%s", sourceCluster, sourceTenant,
keyRangeString);
final String mangledNamespace = String.format("%s-%s", manglePrefix, namespace);
final BundleData bundleData = initializeBundleData(quota, arguments);
final String oldAPITargetPath = String.format(
"%s/namespace/%s/%s/%s/0x00000000_0xffffffff", BUNDLE_DATA_BASE_PATH, tenantName,
cluster, mangledNamespace);
final String newAPITargetPath = String.format(
"%s/%s/%s/%s/0x00000000_0xffffffff", BUNDLE_DATA_BASE_PATH, tenantName, cluster,
mangledNamespace);
try {
ZkUtils.createFullPathOptimistic(targetZKClient, oldAPITargetPath,
ObjectMapperFactory.getMapper().writer().writeValueAsBytes(quota),
ZooDefs.Ids.OPEN_ACL_UNSAFE, CreateMode.PERSISTENT);
} catch (KeeperException.NodeExistsException e) {
// Ignore already created nodes.
} catch (Exception e) {
throw new RuntimeException(e);
}
// Put the bundle data in the new ZooKeeper.
try {
ZkUtils.createFullPathOptimistic(targetZKClient, newAPITargetPath,
ObjectMapperFactory.getMapper().writer().writeValueAsBytes(bundleData),
ZooDefs.Ids.OPEN_ACL_UNSAFE, CreateMode.PERSISTENT);
} catch (KeeperException.NodeExistsException e) {
// Ignore already created nodes.
} catch (Exception e) {
throw new RuntimeException(e);
}
try {
trade(arguments, makeTopic(tenantName, mangledNamespace, "t"), j);
} catch (Exception e) {
throw new RuntimeException(e);
}
}
}));
++i;
}
for (final Future future : futures) {
future.get();
}
sourceZKClient.close();
targetZKClient.close();
}
}
// Handle the command line arguments associated with the simulate command.
private void handleSimulate(final ShellArguments arguments) throws Exception {
final List commandArguments = arguments.commandArguments;
checkAppArgs(commandArguments.size() - 1, 1);
final ZooKeeper zkClient = new ZooKeeper(commandArguments.get(1), 5000, null);
// Make a map for each thread to speed up the ZooKeeper writing process.
final Map[] threadLocalMaps = new Map[clients.length];
for (int i = 0; i < clients.length; ++i) {
threadLocalMaps[i] = new HashMap<>();
}
getResourceQuotas(RESOURCE_QUOTA_BASE_PATH, zkClient, threadLocalMaps);
final List futures = new ArrayList<>(clients.length);
int i = 0;
log.info("Simulating...");
for (final Map bundleToQuota : threadLocalMaps) {
final int j = i;
futures.add(threadPool.submit(() -> {
for (final Map.Entry entry : bundleToQuota.entrySet()) {
final String bundle = entry.getKey();
final String newAPIPath = bundle.replace(RESOURCE_QUOTA_BASE_PATH, BUNDLE_DATA_BASE_PATH);
final ResourceQuota quota = entry.getValue();
final int tenantStart = RESOURCE_QUOTA_BASE_PATH.length() + 1;
final String topic = String.format("persistent://%s/t", bundle.substring(tenantStart));
final BundleData bundleData = initializeBundleData(quota, arguments);
// Put the bundle data in the new ZooKeeper.
try {
ZkUtils.createFullPathOptimistic(zkClient, newAPIPath,
ObjectMapperFactory.getMapper().writer().writeValueAsBytes(bundleData),
ZooDefs.Ids.OPEN_ACL_UNSAFE, CreateMode.PERSISTENT);
} catch (KeeperException.NodeExistsException e) {
try {
zkClient.setData(newAPIPath,
ObjectMapperFactory.getMapper().writer().writeValueAsBytes(bundleData), -1);
} catch (Exception ex) {
throw new RuntimeException(ex);
}
} catch (Exception e) {
throw new RuntimeException(e);
}
try {
trade(arguments, topic, j);
} catch (Exception e) {
throw new RuntimeException(e);
}
}
}));
++i;
}
for (final Future future : futures) {
future.get();
}
zkClient.close();
}
// Handle the command line arguments associated with the stop command.
private void handleStop(final ShellArguments arguments) throws Exception {
final List commandArguments = arguments.commandArguments;
// Stop expects three application arguments: tenant name, namespace
// name, and topic name.
if (checkAppArgs(commandArguments.size() - 1, 3)) {
final String topic = makeTopic(commandArguments.get(1), commandArguments.get(2),
commandArguments.get(3));
for (DataOutputStream outputStream : outputStreams) {
outputStream.write(LoadSimulationClient.STOP_COMMAND);
outputStream.writeUTF(topic);
outputStream.flush();
}
}
}
// Handle the command line arguments associated with the stream command.
private void handleStream(final ShellArguments arguments) throws Exception {
final List commandArguments = arguments.commandArguments;
// Stream accepts 1 application argument: ZooKeeper connect string.
if (checkAppArgs(commandArguments.size() - 1, 1)) {
final String zkConnectString = commandArguments.get(1);
final ZooKeeper zkClient = new ZooKeeper(zkConnectString, 5000, null);
new BrokerWatcher(zkClient, arguments);
// This controller will now stream rate changes from the given ZK.
// Users wishing to stop this should Ctrl + C and use another
// Controller to send new commands.
while (true) {}
}
}
// Handle the command line arguments associated with the trade command.
private void handleTrade(final ShellArguments arguments) throws Exception {
final List commandArguments = arguments.commandArguments;
// Trade expects three application arguments: tenant, namespace, and
// topic.
if (checkAppArgs(commandArguments.size() - 1, 3)) {
final String topic = makeTopic(commandArguments.get(1), commandArguments.get(2),
commandArguments.get(3));
trade(arguments, topic, random.nextInt(clients.length));
}
}
// Handle the command line arguments associated with the group change command.
private void handleGroupChange(final ShellArguments arguments) throws Exception {
final List commandArguments = arguments.commandArguments;
// Group change expects two application arguments: tenant name and group
// name.
if (checkAppArgs(commandArguments.size() - 1, 2)) {
final String tenant = commandArguments.get(1);
final String group = commandArguments.get(2);
for (DataOutputStream outputStream : outputStreams) {
outputStream.write(LoadSimulationClient.CHANGE_GROUP_COMMAND);
outputStream.writeUTF(tenant);
outputStream.writeUTF(group);
outputStream.writeInt(arguments.size);
outputStream.writeDouble(arguments.rate);
outputStream.flush();
}
}
}
// Handle the command line arguments associated with the group stop command.
private void handleGroupStop(final ShellArguments arguments) throws Exception {
final List commandArguments = arguments.commandArguments;
// Group stop requires two application arguments: tenant name and group
// name.
if (checkAppArgs(commandArguments.size() - 1, 2)) {
final String tenant = commandArguments.get(1);
final String group = commandArguments.get(2);
for (DataOutputStream outputStream : outputStreams) {
outputStream.write(LoadSimulationClient.STOP_GROUP_COMMAND);
outputStream.writeUTF(tenant);
outputStream.writeUTF(group);
outputStream.flush();
}
}
}
// Handle the command line arguments associated with the group trade command.
private void handleGroupTrade(final ShellArguments arguments) throws Exception {
final List commandArguments = arguments.commandArguments;
// Group trade expects 3 application arguments: tenant name, group name,
// and number of namespaces.
if (checkAppArgs(commandArguments.size() - 1, 3)) {
final String tenant = commandArguments.get(1);
final String group = commandArguments.get(2);
final int numNamespaces = Integer.parseInt(commandArguments.get(3));
for (int i = 0; i < numNamespaces; ++i) {
for (int j = 0; j < arguments.topicsPerNamespace; ++j) {
// For each namespace and topic pair, create the namespace
// by using the group name and the
// namespace index, and then create the topic by using the
// topic index. Then just call trade.
final String topic = makeTopic(tenant, String.format("%s-%d", group, i),
Integer.toString(j));
trade(arguments, topic, random.nextInt(clients.length));
Thread.sleep(arguments.separation);
}
}
}
}
/**
* Read the user-submitted arguments as commands to send to clients.
*
* @param args
* Arguments split on whitespace from user input.
*/
private void read(final String[] args) {
// Don't attempt to process blank input.
if (args.length > 0 && !(args.length == 1 && args[0].isEmpty())) {
final ShellArguments arguments = new ShellArguments();
final CommandLine commander = new CommandLine(arguments);
try {
commander.parseArgs(args);
final String command = arguments.commandArguments.get(0);
switch (command) {
case "trade":
handleTrade(arguments);
break;
case "change":
handleChange(arguments);
break;
case "stop":
handleStop(arguments);
break;
case "trade_group":
handleGroupTrade(arguments);
break;
case "change_group":
handleGroupChange(arguments);
break;
case "stop_group":
handleGroupStop(arguments);
break;
case "script":
// Read input from the given script instead of stdin until
// the script has executed completely.
final List commandArguments = arguments.commandArguments;
checkAppArgs(commandArguments.size() - 1, 1);
final String scriptName = commandArguments.get(1);
final BufferedReader scriptReader = new BufferedReader(
new InputStreamReader(new FileInputStream(Paths.get(scriptName).toFile())));
String line = scriptReader.readLine();
while (line != null) {
read(line.split("\\s+"));
line = scriptReader.readLine();
}
scriptReader.close();
break;
case "copy":
handleCopy(arguments);
break;
case "stream":
handleStream(arguments);
break;
case "simulate":
handleSimulate(arguments);
break;
case "quit":
case "exit":
PerfClientUtils.exit(0);
break;
default:
log.info("ERROR: Unknown command \"{}\"", command);
}
} catch (ParameterException ex) {
System.out.println(ex.getMessage());
commander.usage(commander.getOut());
} catch (Exception ex) {
ex.printStackTrace();
}
}
}
/**
* Create a shell for the user to send commands to clients.
*/
public void start() throws Exception {
BufferedReader inReader = new BufferedReader(new InputStreamReader(System.in));
while (true) {
// Print the very simple prompt.
System.out.println();
System.out.print("> ");
read(inReader.readLine().split("\\s+"));
}
}
/**
* Start a controller with command line arguments.
*
*/
@Override
public void run() throws Exception {
random = new Random();
clients = this.clientHostNames.split(",");
final Socket[] sockets = new Socket[clients.length];
inputStreams = new DataInputStream[clients.length];
outputStreams = new DataOutputStream[clients.length];
log.info("Found {} clients:", clients.length);
for (int i = 0; i < clients.length; ++i) {
sockets[i] = new Socket(clients[i], clientPort);
inputStreams[i] = new DataInputStream(sockets[i].getInputStream());
outputStreams[i] = new DataOutputStream(sockets[i].getOutputStream());
log.info("Connected to {}", clients[i]);
}
start();
}
}
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