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.jgroups.tests.perf.MPerf Maven / Gradle / Ivy
package org.jgroups.tests.perf;
import org.jgroups.*;
import org.jgroups.conf.ClassConfigurator;
import org.jgroups.logging.Log;
import org.jgroups.logging.LogFactory;
import org.jgroups.util.*;
import java.io.DataInput;
import java.io.DataOutput;
import java.io.IOException;
import java.lang.reflect.Field;
import java.util.*;
import java.util.concurrent.CompletableFuture;
import java.util.concurrent.ConcurrentHashMap;
import java.util.concurrent.CopyOnWriteArrayList;
import java.util.concurrent.CountDownLatch;
import java.util.concurrent.atomic.AtomicBoolean;
import java.util.concurrent.atomic.LongAdder;
import java.util.function.Supplier;
import java.util.stream.Collectors;
/**
* Dynamic tool to measure multicast performance of JGroups; every member sends N messages and we measure how long it
* takes for all receivers to receive them.
* All messages received from a member P are checked for ordering and non duplicity.
* MPerf is dynamic because it doesn't accept any configuration
* parameters (besides the channel config file and name); all configuration is done at runtime, and will be broadcast
* to all cluster members.
* @author Bela Ban ([email protected] )
* @since 3.1
*/
public class MPerf implements Receiver {
protected JChannel channel;
protected Address local_addr;
protected int time=60; // seconds
protected int msg_size=1000;
protected int num_threads=100;
protected int num_senders=-1; // <= 0: all
protected boolean oob;
protected boolean log_local=true; // default: same behavior as before
protected boolean display_msg_src=false;
protected MessageCounter received_msgs_map=new MessageCounter();
protected final List members=new CopyOnWriteArrayList<>();
protected final Log log=LogFactory.getLog(getClass());
protected boolean looping=true;
protected long sleep;
protected final ResponseCollector results=new ResponseCollector<>();
protected ThreadFactory thread_factory;
protected static final short ID=ClassConfigurator.getProtocolId(MPerf.class);
public MPerf() {
}
public void start(String props, String name, boolean use_virtual_threads) throws Exception {
StringBuilder sb=new StringBuilder();
sb.append("\n\n----------------------- MPerf -----------------------\n");
sb.append("Date: ").append(new Date()).append('\n');
sb.append("Run by: ").append(System.getProperty("user.name")).append("\n");
sb.append("JGroups version: ").append(Version.description).append('\n');
System.out.println(sb);
thread_factory=new DefaultThreadFactory("invoker", false, true)
.useFibers(use_virtual_threads);
if(use_virtual_threads && Util.fibersAvailable())
System.out.println("-- MPerf: using virtual threads");
channel=new JChannel(props).setName(name).setReceiver(this).connect("mperf");
local_addr=channel.getAddress();
// send a CONFIG_REQ to the current coordinator, so we can get the current config
Address coord=channel.getView().getCoord();
if(coord != null && !local_addr.equals(coord))
send(coord, null, MPerfHeader.CONFIG_REQ, Message.Flag.RSVP);
}
protected void eventLoop() {
final String INPUT=
"[1] Start test [2] View [4] Threads (%d) [6] Time (%,ds) [7] Msg size (%s)\n" +
"[8] Number of senders (%s) [o] Toggle OOB (%s) [l] Toggle measure local messages (%s)\n" +
"[s] Display message sources (%s) [9] sleep (%d ms)\n" +
"[x] Exit this [X] Exit all";
while(looping) {
try {
int c=Util.keyPress(String.format(INPUT, num_threads, time, Util.printBytes(msg_size),
num_senders <= 0? "all" : String.valueOf(num_senders),
oob, log_local, display_msg_src, sleep));
switch(c) {
case '1':
startTest();
break;
case '2':
System.out.println("view: " + channel.getView() + " (local address=" + channel.getAddress() + ")");
break;
case '4':
configChange("num_threads");
break;
case '6':
configChange("time");
break;
case '7':
configChange("msg_size");
break;
case '8':
configChange("num_senders");
break;
case '9':
configChange("sleep");
break;
case 'o':
ConfigChange change=new ConfigChange("oob", !oob);
send(null, change, MPerfHeader.CONFIG_CHANGE, Message.Flag.RSVP);
break;
case 'l':
ConfigChange log_local_change=new ConfigChange("log_local", !log_local);
send(null, log_local_change, MPerfHeader.CONFIG_CHANGE, Message.Flag.RSVP);
break;
case 's':
ConfigChange display_msg_src_change=new ConfigChange("display_msg_src", !display_msg_src);
send(null, display_msg_src_change, MPerfHeader.CONFIG_CHANGE, Message.Flag.RSVP);
break;
case 'x':
case -1:
looping=false;
break;
case 'X':
send(null, null, MPerfHeader.EXIT, Message.Flag.OOB);
break;
}
}
catch(Throwable t) {
t.printStackTrace();
}
}
stop();
}
protected void startTest() throws Exception {
results.reset(new ArrayList<>(members));
send(null, null, MPerfHeader.START_SENDING, Message.Flag.OOB);
results.waitForAllResponses(time * 1_000L * 2);
displayResults();
}
protected void displayResults() {
printOutput("\nResults:\n");
printOutput("view: " + channel.getView() + " (local address=" + channel.getAddress() + ")");
printOutput(printParameters());
Map tmp_results=results.getResults();
for(Map.Entry entry: tmp_results.entrySet()) {
Result val=entry.getValue();
if(val != null) {
String resultString = entry.getKey() + ": " + computeStats(val.time, val.msgs, msg_size);
if (display_msg_src) {
resultString += printPerSender(val.sources, val.received, msg_size, val.time);
}
System.out.println(resultString);
}
}
long total_msgs=0, total_time=0, num=0;
for(Result result: tmp_results.values()) {
if(result != null) {
total_time+=result.time;
total_msgs+=result.msgs;
num++;
}
}
if(num > 0) {
printOutput("\n===============================================================================");
printOutput(" Average/node: " + computeStats(total_time / num, total_msgs / num, msg_size));
printOutput(" Average/cluster: " + computeStats(total_time/num, total_msgs, msg_size));
printOutput("================================================================================\n\n");
}
else {
printOutput("\n===============================================================================");
printOutput(" Received no results");
printOutput("================================================================================\n\n");
}
}
protected String printParameters() {
StringBuilder sb=new StringBuilder();
sb.append("Date: ").append(new Date()).append('\n');
sb.append("time=").append(time).append('\n');
sb.append("msg_size=").append(msg_size).append('\n');
sb.append("num_threads=").append(num_threads).append('\n');
sb.append("num_senders=").append(num_senders).append('\n');
sb.append("oob=").append(oob).append('\n');
sb.append("log_local=").append(log_local).append('\n');
sb.append("sleep=").append(sleep).append('\n');
sb.append("display_msg_src=").append(display_msg_src).append('\n');
return sb.toString();
}
protected static void printOutput(String s) {
System.out.println(s);
}
protected void configChange(String name) throws Exception {
int tmp=Util.readIntFromStdin(name + ": ");
ConfigChange change=new ConfigChange(name, tmp);
send(null, change, MPerfHeader.CONFIG_CHANGE, Message.Flag.RSVP);
}
protected void sendNoException(Address target, Object payload, byte header, Message.Flag ... flags) {
Message msg=new Message(target, payload).setFlag(flags);
if(header > 0)
msg.putHeader(ID, new MPerfHeader(header));
try {
channel.send(msg);
}
catch(Exception e) {
log.error("%s: failed sending message to %s: %s", local_addr, target, e);
}
}
protected void send(Address target, Object payload, byte header, Message.Flag ... flags) throws Exception {
Message msg=new Message(target, payload);
if(flags != null)
for(Message.Flag flag: flags)
msg.setFlag(flag);
if(header > 0)
msg.putHeader(ID, new MPerfHeader(header));
channel.send(msg);
}
public void stop() {
looping=false;
Util.close(channel);
}
public void receive(Message msg) {
MPerfHeader hdr=msg.getHeader(ID);
switch(hdr.type) {
case MPerfHeader.DATA:
if (log_local || !Objects.equals(msg.getSrc(), local_addr)) {
received_msgs_map.addMessage(msg.getSrc());
if(sleep > 0)
Util.sleep(sleep);
}
break;
case MPerfHeader.START_SENDING:
boolean isSender = true;
if(num_senders > 0) {
int my_rank=Util.getRank(members, local_addr);
if(my_rank >= 0 && my_rank > num_senders)
isSender = false;
}
final boolean is_sender=isSender;
CompletableFuture.supplyAsync(() -> {
Result r=sendMessages(is_sender);
System.out.println("-- done");
return r;
}).thenAccept(r -> sendNoException(msg.src(), r, MPerfHeader.RESULT, Message.Flag.OOB));
break;
case MPerfHeader.RESULT:
Result res=msg.getObject();
results.add(msg.getSrc(), res);
break;
case MPerfHeader.CONFIG_CHANGE:
handleConfigChange(msg.getObject());
break;
case MPerfHeader.CONFIG_REQ:
try {
handleConfigRequest(msg.getSrc());
}
catch(Exception e) {
e.printStackTrace();
}
break;
case MPerfHeader.CONFIG_RSP:
handleConfigResponse(msg.getObject());
break;
case MPerfHeader.EXIT:
Util.close(channel);
System.exit(0);
break;
default:
System.err.println("header type " + hdr.type + " not recognized");
}
}
public void receive(MessageBatch batch) {
for(Message msg: batch) {
byte type=((MPerfHeader)msg.getHeader(ID)).type;
if(type == MPerfHeader.DATA) {
if (log_local || !Objects.equals(msg.getSrc(), local_addr)) {
received_msgs_map.addMessage(msg.getSrc());
if(sleep > 0)
Util.sleep(sleep);
}
} else {
receive(msg);
}
}
}
/** Returns all members if num_senders <= 0, or the members with rank <= num_senders */
protected List getSenders() {
if(num_senders <= 0)
return new ArrayList<>(members);
List retval=new ArrayList<>();
for(int i=0; i < num_senders; i++)
retval.add(members.get(i));
return retval;
}
protected void handleConfigChange(ConfigChange config_change) {
String attr_name=config_change.attr_name;
try {
Object attr_value=config_change.getValue();
Field field=Util.getField(this.getClass(), attr_name);
Util.setField(field,this,attr_value);
System.out.println(config_change.attr_name + "=" + attr_value);
}
catch(Exception e) {
System.err.println("failed applying config change for attr " + attr_name + ": " + e);
}
}
protected void handleConfigRequest(Address sender) throws Exception {
Configuration cfg=new Configuration();
cfg.addChange("time", time);
cfg.addChange("msg_size", msg_size);
cfg.addChange("num_threads", num_threads);
cfg.addChange("num_senders", num_senders);
cfg.addChange("oob", oob);
cfg.addChange("log_local", log_local);
cfg.addChange("sleep", sleep);
send(sender,cfg,MPerfHeader.CONFIG_RSP);
}
protected void handleConfigResponse(Configuration cfg) {
cfg.changes.forEach(this::handleConfigChange);
}
public void viewAccepted(View view) {
System.out.println("** " + view);
final List mbrs=view.getMembers();
members.clear();
members.addAll(mbrs);
results.retainAll(mbrs);
}
protected Result sendMessages(boolean isSender) {
final Thread[] senders=new Thread[num_threads];
final CountDownLatch latch=new CountDownLatch(1);
final byte[] payload=new byte[msg_size];
final AtomicBoolean running=new AtomicBoolean(true);
received_msgs_map.reset();
if (isSender) {
for (int i = 0; i < num_threads; i++) {
Sender sender = new Sender(latch, running, payload);
senders[i] = thread_factory.newThread(sender, "sender-" + i);
senders[i].start();
}
}
System.out.printf("-- running test for %d seconds with %d sender threads\n", time, isSender ? num_threads : 0);
long interval=(long)((time * 1000.0) / 10.0);
long start=System.currentTimeMillis();
latch.countDown();
for(int i=1; i <= 10; i++) {
Util.sleep(interval);
System.out.printf("%d: %s\n", i, received_msgs_map.printAverage(start, msg_size, display_msg_src));
}
running.set(false);
if (isSender) {
running.set(false);
for (Thread s : senders) {
try {
s.join();
} catch (InterruptedException e) {
e.printStackTrace();
}
}
}
Map counts = received_msgs_map.snapshot();
Result result=new Result(System.currentTimeMillis() - start, received_msgs_map.totalCount(),
counts.keySet().toArray(new Address[0]),
Arrays.stream(counts.values().toArray(new Long[0]))
.filter(Objects::nonNull)
.mapToLong(Long::longValue)
.toArray());
received_msgs_map.reset();
return result;
}
protected String printAverage(long start_time) {
long diff=System.currentTimeMillis()-start_time;
double msgs_per_sec=received_msgs_map.totalCount() / (diff / 1000.0);
double throughput=msgs_per_sec * msg_size;
return String.format("%,.2f msgs/sec (%s/sec)", msgs_per_sec, Util.printBytes(throughput));
}
protected static String computeStats(long time, long msgs, int size) {
double msgs_sec, throughput=0;
msgs_sec=msgs / (time/1000.0);
throughput=(msgs * size) / (time / 1000.0);
return String.format("%,d msgs, %s received, time=%,d ms, msgs/sec=%,.2f, throughput=%s",
msgs, Util.printBytes(msgs * size), time, msgs_sec, Util.printBytes(throughput));
}
protected static String printPerSender(Address[] sender, long[] received, long msg_size, long diff) {
if (sender == null || sender.length == 0)
return "";
StringJoiner joiner = new StringJoiner(" ");
for (int i = 0; i < sender.length; i++) {
double msg_rate = received[i] / (diff / 1000.0);
joiner.add(String.format("%s: %,.2f msgs/sec (%s/sec)",
sender[i],
msg_rate,
Util.printBytes(msg_rate * msg_size)));
}
return String.format("[%s]", joiner);
}
protected class Sender implements Runnable {
protected final CountDownLatch latch;
protected final AtomicBoolean running;
protected final byte[] payload;
protected Sender(CountDownLatch l, AtomicBoolean running, byte[] payload) {
latch=l;
this.running=running;
this.payload=payload;
}
public void run() {
try {
latch.await();
}
catch(Exception e) {
e.printStackTrace();
return;
}
while(running.get()) {
try {
Message msg=new Message(null, payload).putHeader(ID, new MPerfHeader(MPerfHeader.DATA));
if(oob)
msg.setFlag(Message.Flag.OOB);
channel.send(msg);
}
catch(Exception e) {
}
}
}
}
protected static class ConfigChange implements Streamable {
protected String attr_name;
protected byte[] attr_value;
public ConfigChange() {
}
public ConfigChange(String attr_name, Object val) throws Exception {
this.attr_name=attr_name;
this.attr_value=Util.objectToByteBuffer(val);
}
public Object getValue() throws Exception {
return Util.objectFromByteBuffer(attr_value);
}
public int size() {
return Util.size(attr_name) + Util.size(attr_value);
}
@Override
public void writeTo(DataOutput out) throws IOException {
Bits.writeString(attr_name,out);
Util.writeByteBuffer(attr_value, out);
}
@Override
public void readFrom(DataInput in) throws IOException {
attr_name=Bits.readString(in);
attr_value=Util.readByteBuffer(in);
}
}
protected static class Configuration implements Streamable {
protected List changes=new ArrayList<>();
public Configuration() {
}
public Configuration addChange(String key, Object val) throws Exception {
if(key != null && val != null) {
changes.add(new ConfigChange(key, val));
}
return this;
}
public int size() {
int retval=Global.INT_SIZE;
for(ConfigChange change: changes)
retval+=change.size();
return retval;
}
public void writeTo(DataOutput out) throws IOException {
out.writeInt(changes.size());
for(ConfigChange change: changes)
change.writeTo(out);
}
public void readFrom(DataInput in) throws IOException {
int len=in.readInt();
for(int i=0; i < len; i++) {
ConfigChange change=new ConfigChange();
change.readFrom(in);
changes.add(change);
}
}
}
protected static class Result implements Streamable {
protected long time; // time in ms
protected long msgs; // number of messages received
protected Address[] sources;
protected long[] received;
public Result() {
}
public Result(long time, long msgs, Address[] sources, long[] received) {
this.time=time;
this.msgs=msgs;
this.sources = sources;
this.received = received;
}
public int size() {
int sources_size = sources == null ? 0 : sources.length * (sources[0].serializedSize() + Global.LONG_SIZE);
return Bits.size(time) + Bits.size(msgs) + sources_size;
}
public void writeTo(DataOutput out) throws IOException {
Bits.writeLong(time, out);
Bits.writeLong(msgs, out);
int sources_length = sources == null ? 0 : sources.length;
Bits.writeInt(sources_length, out);
if (sources_length == 0) {
return;
}
for (int i = 0; i < sources.length; i++) {
Util.writeAddress(sources[i], out);
Bits.writeLong(received[i], out);
}
}
public void readFrom(DataInput in) throws IOException, ClassNotFoundException {
time=Bits.readLong(in);
msgs=Bits.readLong(in);
int sources_length = Bits.readInt(in);
if (sources_length > 0) {
sources = new Address[sources_length];
received = new long[sources_length];
for (int i = 0; i < sources_length; i++) {
sources[i] = Util.readAddress(in);
received[i] = Bits.readLong(in);
}
}
}
public String toString() {
return msgs + " in " + time + " ms";
}
}
protected static class MPerfHeader extends Header {
protected static final byte DATA = 1;
protected static final byte START_SENDING = 2;
protected static final byte RESULT = 4;
protected static final byte CONFIG_CHANGE = 6;
protected static final byte CONFIG_REQ = 7;
protected static final byte CONFIG_RSP = 8;
protected static final byte EXIT = 9;
protected byte type;
public MPerfHeader() {}
public MPerfHeader(byte type) {this.type=type;}
public short getMagicId() {return 93;}
public Supplier extends Header> create() {
return MPerfHeader::new;
}
@Override
public int serializedSize() {
return Global.BYTE_SIZE;
}
public void writeTo(DataOutput out) throws IOException {
out.writeByte(type);
}
public void readFrom(DataInput in) throws IOException {
type=in.readByte();
}
public String toString() {
return typeToString(type);
}
protected static String typeToString(byte type) {
switch(type) {
case DATA: return "DATA";
case START_SENDING: return "START_SENDING";
case RESULT: return "RESULT";
case CONFIG_CHANGE: return "CONFIG_CHANGE";
case CONFIG_REQ: return "CONFIG_REQ";
case CONFIG_RSP: return "CONFIG_RSP";
case EXIT: return "EXIT";
default: return "n/a";
}
}
}
protected static class MessageCounter {
protected ConcurrentHashMap countMap;
public MessageCounter() {
this.countMap = new ConcurrentHashMap<>();
}
public void addMessage(Address source) {
LongAdder adder = countMap.get(source);
if (adder == null) {
adder = new LongAdder();
countMap.put(source, adder);
}
adder.increment();
//countMap.computeIfAbsent(source, k -> new LongAdder()).increment();
}
public void addMessage(Address source, long count) {
countMap.computeIfAbsent(source, k -> new LongAdder()).add(count);
}
public void reset() {
countMap = new ConcurrentHashMap<>();
}
public long totalCount() {
long total = 0;
for (LongAdder adder : countMap.values()) {
total += adder.sum();
}
return total;
}
public double totalRate(long diff) {
return totalCount() / (diff / 1000.0);
}
public Map snapshot() {
return countMap.entrySet().stream()
.map(e -> new AbstractMap.SimpleEntry<>(e.getKey(), e.getValue().sum()))
.collect(Collectors.toMap(AbstractMap.SimpleEntry::getKey, AbstractMap.SimpleEntry::getValue,
Math::addExact, TreeMap::new));
}
public String printAverage(long start_time, int msg_size, boolean display_msg_src) {
Map snapshot = snapshot();
long diff=System.currentTimeMillis()-start_time;
double msgs_per_sec=totalCount() / (diff / 1000.0);
double throughput=msgs_per_sec * msg_size;
StringBuilder sb = new StringBuilder();
sb.append(String.format("%,.2f msgs/sec (%s/sec)", msgs_per_sec, Util.printBytes(throughput)));
if (display_msg_src) {
StringJoiner joiner = new StringJoiner(" ");
for (Map.Entry e : snapshot.entrySet()) {
double msg_rate = e.getValue() / (diff / 1000.0);
joiner.add(String.format("%s: %,.2f msgs/sec (%s/sec)",
e.getKey(),
msg_rate,
Util.printBytes(msg_rate * msg_size)));
}
sb.append(String.format("[%s]", joiner));
}
return sb.toString();
}
}
public static void main(String[] args) throws IOException {
String props=null, name=null;
boolean run_event_loop=true, use_virtual_threads=true;
for(int i=0; i < args.length; i++) {
if("-props".equals(args[i])) {
props=args[++i];
continue;
}
if("-name".equals(args[i])) {
name=args[++i];
continue;
}
if("-nohup".equals(args[i])) {
run_event_loop=false;
continue;
}
if("-use_virtual_threads".equals(args[i])) {
use_virtual_threads=Boolean.parseBoolean(args[++i]);
continue;
}
System.out.println("MPerf [-props ] [-name ] [-nohup] " +
"[-use_virtual_threads true|false]");
return;
}
final MPerf test=new MPerf();
try {
test.start(props, name, use_virtual_threads);
if(run_event_loop)
test.eventLoop();
else {
for(;;)
Util.sleep(60000);
}
}
catch(Exception e) {
e.printStackTrace();
}
}
}