1.模拟简单的压力测试环境:
Client端10s提交一个job
Worker端处理一个job需要30s的时间
Client端一直提交job,当大量job堆积时对Gearman进行压力测试
2.Gearman-Java压力测试demo
client端代码:
import java.util.Date;
import org.gearman.Gearman;
import org.gearman.GearmanClient;
import org.gearman.GearmanServer;
public class ReverseClient {
public static void main(String[] args) throws InterruptedException {
// 创建一个Gearman实例
Gearman gearman = Gearman.createGearman();
// 创建一个Gearman client
GearmanClient client = gearman.createGearmanClient();
/*
* 创建一个jobserver
*
* Parameter 1: job server的IP地址 Parameter 2: job server监听的端口
*
* job server收到client的job,并将其分发给注册worker *
*/
GearmanServer server = gearman.createGearmanServer(
ReverseWorker.ECHO_HOST, ReverseWorker.ECHO_PORT);
// 告诉客户端,提交工作时它可以连接到该服务器
client.addServer(server);
/*
* 向job server提交工作
*
* Parameter 1: gearman function名字 Parameter 2: 传送给job server和worker的数据
*
* GearmanJobReturn返回job发热结果
*/
// 压力测试,客户端10s提交一个job
int count = 1;
while (true) {
System.out.println(new Date() + ":第" + count + "个任务正在提交...");
client.submitJob(
ReverseWorker.ECHO_FUNCTION_NAME,
("第" + count + "个任务").getBytes());
count ++ ;
try {
Thread.sleep(10000);
} catch (Exception e) {
e.printStackTrace();
}
}
// 关闭
// gearman.shutdown();
}
}
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worker端代码:
package test;
import java.util.Date;
import org.gearman.Gearman;
import org.gearman.GearmanFunction;
import org.gearman.GearmanFunctionCallback;
import org.gearman.GearmanServer;
import org.gearman.GearmanWorker;
public class ReverseWorker implements GearmanFunction {
// function name
public static final String ECHO_FUNCTION_NAME = "reverse";
// job server地址
public static final String ECHO_HOST = "192.168.125.131";
// job server监听的端口
public static final int ECHO_PORT = 4730;
public static void main(String[] args) {
// 创建一个Gearman实例
Gearman gearman = Gearman.createGearman();
/*
* 创建一个jobserver
*
* Parameter 1: job server的IP地址 Parameter 2: job server监听的端口
*
* job server收到client的job,并将其分发给注册worker *
*/
GearmanServer server = gearman.createGearmanServer(
ReverseWorker.ECHO_HOST, ReverseWorker.ECHO_PORT);
// 创建一个Gearman的worker
GearmanWorker worker = gearman.createGearmanWorker();
// 告诉工人如何执行工作(主要实现了GearmanFunction接口)
worker.addFunction(ReverseWorker.ECHO_FUNCTION_NAME,
new ReverseWorker());
// worker连接服务器
worker.addServer(server);
}
@Override
public byte[] work(String function, byte[] data,
GearmanFunctionCallback callback) throws Exception {
// work方法实现了GearmanFunction接口中的work方法,worker端30s处理一个方法
if (data != null) {
String str = new String(data);
try {
Thread.sleep(30000);
} catch (InterruptedException e) {
// TODO Auto-generated catch block
e.printStackTrace();
}
System.out.println(new Date() + ":" +str + "处理完成");
return (str + "处理完成").getBytes();
} else {
return "未接收到data".getBytes();
}
}
}