Jprotobuf-rpc-socket
Jprotobuf-rpc-socket
Protobuf RPC是一种基于TCP协议的二进制RPC通信协议。它以Protobuf作为基本的数据交换格式,并基于Protobuf内置的RPC Service形式,规定了通信双方之间的数据交换协议,以实现完整的RPC调用。
关联项目:https://github.com/jhunters/jprotobuf
协议规范
使用示例
环境要求:JDK 6+
Qucik Start
Jprotobuf-rpc-socket基于JProtobuf基础上开发,可帮助大家开发中省去编写Google Protobuf的IDL描述文件的过程。
客户端开发
1.EchoService功用实现
EchoService 提供一个echo方法 ,参数对象EchoInfo只有一个message属性。下面是EchoInfo对象定义
public class EchoInfo { @Protobuf public String message; }
注解方式的定义可以极大简化大家的工作量,上面等同于下面的IDEL配置
package pkg; option java_package = "com.baidu.bjf.remoting.protobuf.rpc"; //这里声明输出的java的类名 option java_outer_classname = "EchoInfo"; message InterClassName { required string message = 1; }
2.定义EchoService接口
public interface EchoService { /** * To define a RPC client method. <br> * serviceName is "echoService" * methodName is use default method name "echo" * onceTalkTimeout is 200 milliseconds * * @param info * @return */ @ProtobufPRC(serviceName = "echoService", onceTalkTimeout = 200) EchoInfo echo(EchoInfo info); }
RPC的方法必须要指定@ProtobufRPC注解. serviceName与methodName要与服务端保持一致。这里未指定methodName,则使用方法的名称 "echo"
3.创建RPC Client进行访问
RpcClient rpcClient = new RpcClient(); // 创建EchoService代理 ProtobufRpcProxy<EchoService> pbrpcProxy = new ProtobufRpcProxy<EchoService>(rpcClient, EchoService.class); pbrpcProxy.setPort(1031); // 动态生成代理实例 EchoService echoService = pbrpcProxy.proxy(); EchoInfo request = new EchoInfo(); request.message = "hello"; EchoInfo response = echoService.echo(request);
服务端开发
1.开发服务实现类
public class EchoServiceImpl { @ProtobufPRCService(serviceName = "echoService", methodName = "echo") public EchoInfo doEcho(EchoInfo info) { EchoInfo ret = new EchoInfo(); ret.setMessage("hello:" + info.message); return ret; } }
服务发布的RPC方法必须用@ProtobufPRCService注解进行标识
2.发布RPC服务
RpcServer rpcServer = new RpcServer(); EchoServiceImpl echoServiceImpl = new EchoServiceImpl(); rpcServer.registerService(echoServiceImpl); rpcServer.start(1031);
上面的代码实现把 EchoServiceImpl 的RPC服务发布出去
性能测试
机器配置:
- Linux 64G内存 6核 12线程
- Intel(R) Xeon(R) CPU E5645 @ 2.40GHz
性能测试结果如下:平均QPS: 20000+
---------------------Performance Result------------------------- send byte size: 40;receive byte size: 46 | total count| time took(ms)| average(ms)| QPS| threads| | 100000| 7535| 0| 14285| 1| ---------------------Performance Result------------------------- ---------------------Performance Result------------------------- send byte size: 1135;receive byte size: 1135 | total count| time took(ms)| average(ms)| QPS| threads| | 100000| 10055| 0| 10000| 1| ---------------------Performance Result------------------------- ---------------------Performance Result------------------------- send byte size: 40;receive byte size: 46 | total count| time took(ms)| average(ms)| QPS| threads| | 100000| 5022| 0| 20000| 2| ---------------------Performance Result------------------------- ---------------------Performance Result------------------------- send byte size: 40;receive byte size: 46 | total count| time took(ms)| average(ms)| QPS| threads| | 100000| 4969| 0| 25000| 4| ---------------------Performance Result------------------------- ---------------------Performance Result------------------------- send byte size: 40;receive byte size: 46 | total count| time took(ms)| average(ms)| QPS| threads| | 100000| 4927| 0| 25000| 20| ---------------------Performance Result------------------------- ---------------------Performance Result------------------------- send byte size: 1135;receive byte size: 1135 | total count| time took(ms)| average(ms)| QPS| threads| | 100000| 5861| 0| 20000| 20| ---------------------Performance Result------------------------- ---------------------Performance Result------------------------- send byte size: 1135;receive byte size: 1135 | total count| time took(ms)| average(ms)| QPS| threads| | 100000| 5814| 0| 20000| 40|
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