/* This file is part of VoltDB.
* Copyright (C) 2008-2017 VoltDB Inc.
*
* Permission is hereby granted, free of charge, to any person obtaining
* a copy of this software and associated documentation files (the
* "Software"), to deal in the Software without restriction, including
* without limitation the rights to use, copy, modify, merge, publish,
* distribute, sublicense, and/or sell copies of the Software, and to
* permit persons to whom the Software is furnished to do so, subject to
* the following conditions:
*
* The above copyright notice and this permission notice shall be
* included in all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
* EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.
* IN NO EVENT SHALL THE AUTHORS BE LIABLE FOR ANY CLAIM, DAMAGES OR
* OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE,
* ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR
* OTHER DEALINGS IN THE SOFTWARE.
*/
package positionkeeper;
import java.util.ArrayList;
import java.util.Date;
import java.util.List;
import java.util.Random;
import java.util.Timer;
import java.util.TimerTask;
import java.util.concurrent.CountDownLatch;
import org.voltdb.CLIConfig;
import org.voltdb.client.Client;
import org.voltdb.client.ClientConfig;
import org.voltdb.client.ClientFactory;
import org.voltdb.client.ClientResponse;
import org.voltdb.client.ClientStats;
import org.voltdb.client.ClientStatsContext;
import org.voltdb.client.ClientStatusListenerExt;
import org.voltdb.client.ProcedureCallback;
import com.google_voltpatches.common.collect.ConcurrentHashMultiset;
import com.google_voltpatches.common.collect.Multiset;
public class PositionsBenchmark {
// handy, rather than typing this out several times
public static final String HORIZONTAL_RULE =
"----------" + "----------" + "----------" + "----------" +
"----------" + "----------" + "----------" + "----------" + "\n";
// validated command line configuration
final PositionsConfig config;
// Reference to the database connection we will use
final Client client;
// Timer for periodic stats printing
Timer timer;
// Benchmark start time
long benchmarkStartTS;
// Statistics manager objects from the client
final ClientStatsContext periodicStatsContext;
final ClientStatsContext fullStatsContext;
private Random rand = new Random();
private int order_id = 1;
private int trade_id = 1;
private int price_id = 1;
private final int numSecs = 3000;
private double[] prices;
private int[][] positions;
public void printHeading(String heading) {
System.out.print("\n"+HORIZONTAL_RULE);
System.out.println(" " + heading);
System.out.println(HORIZONTAL_RULE);
}
/**
* Uses CLIConfig class to declaratively state command line options
* with defaults and validation.
*/
static class PositionsConfig extends CLIConfig {
@Option(desc = "Comma separated list of the form server[:port] to connect to.")
String servers = "localhost";
@Option(desc = "User name")
public String user = "";
@Option(desc = "Password")
public String password = "";
@Option(desc = "Benchmark duration, in seconds.")
int duration = 20;
@Option(desc = "Interval for performance feedback, in seconds.")
long displayinterval = 5;
@Option(desc = "Warmup duration in seconds.")
int warmup = 2;
@Option(desc = "Maximum TPS rate for benchmark.")
int ratelimit = 100000;
@Option(desc = "Filename to write raw summary statistics to.")
String statsfile = "";
@Option(desc = "Number of traders")
int traders = 500;
@Option(desc = "Number of positions per traders")
int secpercnt = 50;
@Override
public void validate() {
if (duration <= 0) exitWithMessageAndUsage("duration must be > 0");
if (warmup < 0) exitWithMessageAndUsage("warmup must be >= 0");
if (displayinterval <= 0) exitWithMessageAndUsage("displayinterval must be > 0");
if (ratelimit <= 0) exitWithMessageAndUsage("ratelimit must be > 0");
}
}
// constructor
public PositionsBenchmark(PositionsConfig config) {
this.config = config;
prices = new double[numSecs];
positions = new int[config.traders][config.secpercnt];
ClientConfig clientConfig = new ClientConfig(config.user, config.password, new StatusListener());
clientConfig.setMaxTransactionsPerSecond(config.ratelimit);
client = ClientFactory.createClient(clientConfig);
periodicStatsContext = client.createStatsContext();
fullStatsContext = client.createStatsContext();
printHeading("Command Line Configuration");
System.out.println(config.getConfigDumpString());
}
/**
* Provides a callback to be notified on node failure.
* This example only logs the event.
*/
class StatusListener extends ClientStatusListenerExt {
@Override
public void connectionLost(String hostname, int port, int connectionsLeft, DisconnectCause cause) {
// if the benchmark is still active
if ((System.currentTimeMillis() - benchmarkStartTS) < (config.duration * 1000)) {
System.err.printf("Connection to %s:%d was lost.\n", hostname, port);
}
}
}
/**
* Connect to a single server with retry. Limited exponential backoff.
* No timeout. This will run until the process is killed if it's not
* able to connect.
*
* @param server hostname:port or just hostname (hostname can be ip).
*/
void connectToOneServerWithRetry(String server) {
int sleep = 1000;
while (true) {
try {
client.createConnection(server);
break;
}
catch (Exception e) {
System.err.printf("Connection failed - retrying in %d second(s).\n", sleep / 1000);
try { Thread.sleep(sleep); } catch (Exception interruted) {}
if (sleep < 8000) sleep += sleep;
}
}
System.out.printf("Connected to VoltDB node at: %s.\n", server);
}
/**
* Connect to a set of servers in parallel. Each will retry until
* connection. This call will block until all have connected.
*
* @param servers A comma separated list of servers using the hostname:port
* syntax (where :port is optional).
* @throws InterruptedException if anything bad happens with the threads.
*/
void connect(String servers) throws InterruptedException {
System.out.println("Connecting to VoltDB...");
String[] serverArray = servers.split(",");
final CountDownLatch connections = new CountDownLatch(serverArray.length);
// use a new thread to connect to each server
for (final String server : serverArray) {
new Thread(new Runnable() {
@Override
public void run() {
connectToOneServerWithRetry(server);
connections.countDown();
}
}).start();
}
// block until all have connected
connections.await();
}
/**
* Create a Timer task to display performance data on the Vote procedure
* It calls printStatistics() every displayInterval seconds
*/
public void schedulePeriodicStats() {
timer = new Timer();
TimerTask statsPrinting = new TimerTask() {
@Override
public void run() { printStatistics(); }
};
timer.scheduleAtFixedRate(statsPrinting,
config.displayinterval * 1000,
config.displayinterval * 1000);
}
/**
* Prints a one line update on performance that can be printed
* periodically during a benchmark.
*/
public synchronized void printStatistics() {
ClientStats stats = periodicStatsContext.fetchAndResetBaseline().getStats();
long time = Math.round((stats.getEndTimestamp() - benchmarkStartTS) / 1000.0);
System.out.printf("%02d:%02d:%02d ", time / 3600, (time / 60) % 60, time % 60);
System.out.printf("Throughput %d/s, ", stats.getTxnThroughput());
System.out.printf("Aborts/Failures %d/%d, ",
stats.getInvocationAborts(), stats.getInvocationErrors());
// cast to stats.getAverageLatency from long to double
System.out.printf("Avg/95%% Latency %.2f/%dms\n",
stats.getAverageLatency(),
stats.kPercentileLatency(0.95));
}
/**
* Prints the results of the voting simulation and statistics
* about performance.
*
* @throws Exception if anything unexpected happens.
*/
public synchronized void printResults() throws Exception {
printHeading("Transaction Results");
BenchmarkCallback.printAllResults();
ClientStats stats = fullStatsContext.fetch().getStats();
// 3. Performance statistics
printHeading("Client Workload Statistics");
System.out.printf("Average throughput: %,9d txns/sec\n", stats.getTxnThroughput());
// cast stats.getAverateLatency from long to double
System.out.printf("Average latency: %,9.2f ms\n", stats.getAverageLatency());
//System.out.printf("Average latency: %,9d ms\n", stats.getAverageLatency());
System.out.printf("95th percentile latency: %,9d ms\n", stats.kPercentileLatency(.95));
System.out.printf("99th percentile latency: %,9d ms\n", stats.kPercentileLatency(.99));
printHeading("System Server Statistics");
// cast stats.getAverageInternalLatency from long to double
System.out.printf("Reported Internal Avg Latency: %,9.2f ms\n", stats.getAverageInternalLatency());
//System.out.printf("Reported Internal Avg Latency: %,9d ms\n", stats.getAverageInternalLatency());
// 4. Write stats to file if requested
client.writeSummaryCSV(stats, config.statsfile);
}
public void initialize() throws Exception {
// EXC
for (int e = 0; e < 5; e++) {
client.callProcedure(new BenchmarkCallback("EXC.insert"), "EXC.insert", e);
}
System.out.println(" loaded 5 records into EXC");
// SEC
for (int s = 0; s < numSecs; s++) {
client.callProcedure(new BenchmarkCallback("SEC.insert"), "SEC.insert", s, rand.nextInt(5));
prices[s] = rand.nextInt(100);
}
System.out.println(" loaded "+numSecs+" records into SEC");
// CNT
for (int t = 0; t < config.traders; t++) {
client.callProcedure(new BenchmarkCallback("CNT.insert"), "CNT.insert", t);
}
System.out.println(" loaded "+config.traders+" records into CNT");
// positions (client side only)
for (int t = 0; t < config.traders; t++) {
// make a list of random securities with no duplicates
List<Integer> secs = new ArrayList<Integer>();
while(secs.size() < config.secpercnt) {
int sec = rand.nextInt(numSecs);
if(!secs.contains(sec))
secs.add(sec);
}
// put securities into an two-dimension array: positions[trader][index] = sec_id
for (int i = 0; i < config.secpercnt; i++) {
positions[t][i] = secs.get(i);
}
}
System.out.println(" initialized client with array of "+ config.traders * config.secpercnt +" possible positions");
}
static class BenchmarkCallback implements ProcedureCallback {
private static Multiset<String> calls = ConcurrentHashMultiset.create();
private static Multiset<String> commits = ConcurrentHashMultiset.create();
private static Multiset<String> rollbacks = ConcurrentHashMultiset.create();
String procedureName;
long maxErrors;
public static void printProcedureResults(String procedureName) {
System.out.println(" " + procedureName);
System.out.println(" calls: " + calls.count(procedureName));
System.out.println(" commits: " + commits.count(procedureName));
System.out.println(" rollbacks: " + rollbacks.count(procedureName));
System.out.println();
}
public static void printAllResults() {
for (String e : calls.elementSet()) {
printProcedureResults(e);
}
}
public BenchmarkCallback(String procedure, long maxErrors) {
super();
this.procedureName = procedure;
this.maxErrors = maxErrors;
}
public BenchmarkCallback(String procedure) {
this(procedure, 5l);
}
@Override
public void clientCallback(ClientResponse cr) {
calls.add(procedureName,1);
if (cr.getStatus() == ClientResponse.SUCCESS) {
commits.add(procedureName,1);
}
else {
long totalErrors = rollbacks.add(procedureName,1);
System.err.println("DATABASE ERROR: " + cr.getStatusString());
if (totalErrors > maxErrors) {
System.err.println("exceeded " + maxErrors + " maximum database errors - exiting client");
System.exit(-1);
}
}
}
}
public void iterate() throws Exception {
// always do a new price
newPrice();
// 1/10th of the time
if (rand.nextInt(10) == 0) {
newOrder();
}
// 1/50th of the time
if (rand.nextInt(50) == 0) {
newTrade();
}
}
private void newOrder() throws Exception {
// get a random trader
int cnt = rand.nextInt(config.traders);
// retrieve the sec of one of the positions for that trader
// (so the total # of positions isn't growing beyond what was intended)
int sec = positions[cnt][rand.nextInt(config.secpercnt)];
// get the last price, modify it randomly
double price = prices[sec] * (1+rand.nextGaussian()/100);
// store the new price
prices[sec] = price;
// insert the order with a random qty
client.callProcedure(new BenchmarkCallback("OrderInsert"),
"OrderInsert",
order_id++,
cnt,
sec,
(rand.nextInt(9)+1) * 10,
price);
}
private void newTrade() throws Exception {
// get a random trader
int cnt = rand.nextInt(config.traders);
// retrieve the sec of one of the positions for that trader
// (so the total # of positions is as planned)
int sec = positions[cnt][rand.nextInt(config.secpercnt)];
// get the last price, modify it randomly
double price = prices[sec] * (1+rand.nextGaussian()/100);
// store the new price
prices[sec] = price;
// insert the trade, with a random qty
client.callProcedure(new BenchmarkCallback("TradeInsert"),
"TradeInsert",
trade_id++,
cnt,
sec,
(rand.nextInt(9)+1) * 10,
price);
}
private void newPrice() throws Exception {
int sec = rand.nextInt(numSecs);
double price = prices[sec] * (1+rand.nextGaussian()/100); // modify price randomly
client.callProcedure(new BenchmarkCallback("PriceInsert"),
"PriceInsert",
price_id++,
sec,
price,
new Date());
}
/**
* Core benchmark code.
* Connect. Initialize. Run the loop. Cleanup. Print Results.
*
* @throws Exception if anything unexpected happens.
*/
public void runBenchmark() throws Exception {
printHeading("Setup & Initialization");
// connect to one or more servers, loop until success
connect(config.servers);
// initialize using synchronous call
System.out.println("\nPre-loading Tables...\n");
//client.callProcedure("Initialize", config.contestants, CONTESTANT_NAMES_CSV);
initialize();
// Run the benchmark loop for the requested warmup time
// The throughput may be throttled depending on client configuration
System.out.println("Warming up for the specified "+ config.warmup +" seconds...");
final long warmupEndTime = System.currentTimeMillis() + (1000l * config.warmup);
while (warmupEndTime > System.currentTimeMillis()) {
iterate();
}
printHeading("Starting Benchmark");
// reset the stats after warmup
fullStatsContext.fetchAndResetBaseline();
periodicStatsContext.fetchAndResetBaseline();
// print periodic statistics to the console
benchmarkStartTS = System.currentTimeMillis();
schedulePeriodicStats();
// Run the benchmark loop for the requested duration
// The throughput may be throttled depending on client configuration
System.out.println("\nRunning benchmark...");
final long benchmarkEndTime = System.currentTimeMillis() + (1000l * config.duration);
while (benchmarkEndTime > System.currentTimeMillis()) {
iterate();
}
// cancel periodic stats printing
timer.cancel();
// block until all outstanding txns return
client.drain();
// print the summary results
printResults();
// close down the client connections
client.close();
}
public static void main(String[] args) throws Exception {
PositionsConfig config = new PositionsConfig();
config.parse(PositionsBenchmark.class.getName(), args);
PositionsBenchmark benchmark = new PositionsBenchmark(config);
benchmark.runBenchmark();
}
}