JAVA RPC (九) netty服务端解析

源码地址:https://gitee.com/a1234567891/koalas-rpc

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   @Override
public void run() {
try {
if (Epoll.isAvailable ()) {
bossGroup = new EpollEventLoopGroup (serverPublisher.bossThreadCount==0?AbstractKoalsServerPublisher.DEFAULT_EVENT_LOOP_THREADS:serverPublisher.bossThreadCount);
workerGroup = new EpollEventLoopGroup ( serverPublisher.workThreadCount==0? AbstractKoalsServerPublisher.DEFAULT_EVENT_LOOP_THREADS*2:serverPublisher.workThreadCount);
} else {
bossGroup = new NioEventLoopGroup (serverPublisher.bossThreadCount==0?AbstractKoalsServerPublisher.DEFAULT_EVENT_LOOP_THREADS:serverPublisher.bossThreadCount);
workerGroup = new NioEventLoopGroup ( serverPublisher.workThreadCount==0? AbstractKoalsServerPublisher.DEFAULT_EVENT_LOOP_THREADS*2:serverPublisher.workThreadCount );
}
executorService = KoalasThreadedSelectorWorkerExcutorUtil.getWorkerExecutorWithQueue (serverPublisher.koalasThreadCount==0?AbstractKoalsServerPublisher.DEFAULT_KOALAS_THREADS:serverPublisher.koalasThreadCount,serverPublisher.koalasThreadCount==0?AbstractKoalsServerPublisher.DEFAULT_KOALAS_THREADS:serverPublisher.koalasThreadCount,serverPublisher.workQueue,new KoalasDefaultThreadFactory (serverPublisher.serviceInterface.getName ())); ServerBootstrap b = new ServerBootstrap ();
b.group ( bossGroup, workerGroup ).channel ( workerGroup instanceof EpollEventLoopGroup ? EpollServerSocketChannel.class : NioServerSocketChannel.class )
.handler ( new LoggingHandler ( LogLevel.INFO ) )
.childHandler ( new NettyServerInitiator (serverPublisher,executorService))
.option ( ChannelOption.SO_BACKLOG, 1024 )
.option ( ChannelOption.SO_REUSEADDR, true )
.option ( ChannelOption.SO_KEEPALIVE, true );
Channel ch = b.bind ( serverPublisher.port ).sync ().channel ();
Runtime.getRuntime().addShutdownHook(new Thread(){
@Override
public void run(){
logger.info ( "Shutdown by Runtime" );
if(zookeeperServer != null){
zookeeperServer.destroy ();
}
logger.info ( "wait for service over 3000ms" );
try {
Thread.sleep ( 3000 );
} catch (Exception e) {
}
if(executorService!=null){
executorService.shutdown ();
}
if(bossGroup != null) bossGroup.shutdownGracefully ();
if(workerGroup != null) workerGroup.shutdownGracefully ();
}
}); if(StringUtils.isNotEmpty ( serverPublisher.zkpath )){
ZookServerConfig zookServerConfig = new ZookServerConfig ( serverPublisher.zkpath,serverPublisher.serviceInterface.getName (),serverPublisher.env,serverPublisher.port,serverPublisher.weight,"netty" );
zookeeperServer = new ZookeeperServer ( zookServerConfig );
zookeeperServer.init ();
}
} catch ( Exception e){
logger.error ( "NettyServer start faid !",e );
if(bossGroup != null) bossGroup.shutdownGracefully ();
if(workerGroup != null) workerGroup.shutdownGracefully ();
} logger.info("netty server init success server={}",serverPublisher); }

首先开启NIO服务,由系统内核来判断是否支持epoll-EpollEventLoopGroup,如果不支持epoll采用IO多路复用的方式EpollEventLoopGroup,然后声明一个用户自定义线程池,这里有不清楚的读者肯定会问,netty本身支持连接线程和IO线程,为什么还要自定义声明自定义线程池,原因是假设在IO线程池中做的业务非常复杂,大量耗时,这样就会阻塞了netty线程的IO处理速度,影响吞吐量,这也就是reactor模型的设计理念,不让业务干扰连接线程和IO读写线程。NettyServerInitiator就是实际处理的业务handle了。

  Runtime.getRuntime().addShutdownHook(new Thread(){
@Override
public void run(){
logger.info ( "Shutdown by Runtime" );
if(zookeeperServer != null){
zookeeperServer.destroy ();
}
logger.info ( "wait for service over 3000ms" );
try {
Thread.sleep ( 3000 );
} catch (Exception e) {
}
if(executorService!=null){
executorService.shutdown ();
}
if(bossGroup != null) bossGroup.shutdownGracefully ();
if(workerGroup != null) workerGroup.shutdownGracefully ();
}
});

手动关闭钩子,服务关闭的时候要主动关闭节点信息。下面来看一下hander拦截器

package netty.initializer;

import io.netty.channel.ChannelInitializer;
import io.netty.channel.socket.SocketChannel;
import netty.hanlder.KoalasDecoder;
import netty.hanlder.KoalasEncoder;
import netty.hanlder.KoalasHandler;
import org.apache.thrift.TProcessor;
import server.config.AbstractKoalsServerPublisher; import java.util.concurrent.ExecutorService;
/**
* Copyright (C) 2018
* All rights reserved
* User: yulong.zhang
* Date:2018年11月23日11:13:33
*/
public class NettyServerInitiator extends ChannelInitializer<SocketChannel> { private ExecutorService executorService; private AbstractKoalsServerPublisher serverPublisher; public NettyServerInitiator(AbstractKoalsServerPublisher serverPublisher,ExecutorService executorService){
this.serverPublisher = serverPublisher;
this.executorService = executorService;
} @Override
protected void initChannel(SocketChannel ch) {
ch.pipeline ().addLast ( "decoder",new KoalasDecoder () );
ch.pipeline ().addLast ( "encoder",new KoalasEncoder ());
ch.pipeline ().addLast ( "handler",new KoalasHandler (serverPublisher,executorService) );
} }
decode负责拆包。encoder负责装包,handler是真正业务处理的逻辑,所有的业务处理都在这里的线程池中运行,结果通过ChannelHandlerContext 异步的返回给client端,通过这种方式真正的实现了reactor
下面我们看看拆包处理
 package netty.hanlder;

 import io.netty.buffer.ByteBuf;
import io.netty.channel.ChannelHandlerContext;
import io.netty.handler.codec.ByteToMessageDecoder;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
import server.KoalasServerPublisher; import java.util.List;
/**
* Copyright (C) 2018
* All rights reserved
* User: yulong.zhang
* Date:2018年11月23日11:13:33
*/
public class KoalasDecoder extends ByteToMessageDecoder { private final static Logger logger = LoggerFactory.getLogger ( KoalasDecoder.class ); @Override
protected void decode(ChannelHandlerContext ctx, ByteBuf in, List<Object> out) { try {
if (in.readableBytes () < 4) {
return;
} in.markReaderIndex ();
byte[] b = new byte[4];
in.readBytes ( b ); int length = decodeFrameSize ( b ); if (in.readableBytes () < length) {
//reset the readerIndex
in.resetReaderIndex ();
return;
} in.resetReaderIndex ();
ByteBuf fream = in.readRetainedSlice ( 4 + length );
in.resetReaderIndex (); in.skipBytes ( 4 + length );
out.add ( fream );
} catch (Exception e) {
logger.error ( "decode error",e );
} } public static final int decodeFrameSize(byte[] buf) {
return (buf[0] & 255) << 24 | (buf[1] & 255) << 16 | (buf[2] & 255) << 8 | buf[3] & 255;
}
}

通过读取四个字节的长度来决定消息体长度,然后根据消息体长度来读取所有的字节流数据。decodeFrameSize方法将四个字节流转成int类型。KoalasHandler处理器逻辑比较复杂,我们只看核心的内容,首先通过thrift解析字节流来获取transport

            ByteArrayInputStream inputStream = new ByteArrayInputStream ( b );
ByteArrayOutputStream outputStream = new ByteArrayOutputStream ( ); TIOStreamTransport tioStreamTransportInput = new TIOStreamTransport ( inputStream);
TIOStreamTransport tioStreamTransportOutput = new TIOStreamTransport ( outputStream); TKoalasFramedTransport inTransport = new TKoalasFramedTransport ( tioStreamTransportInput,2048000 );
inTransport.setReadMaxLength_ ( maxLength );
TKoalasFramedTransport outTransport = new TKoalasFramedTransport ( tioStreamTransportOutput,2048000,ifUserProtocol );

最终扔到线程池里去执行,将当前IO线程释放给下一个任务。

           try {
executorService.execute ( new NettyRunable ( ctx,in,out,outputStream,localTprocessor,b,privateKey,publicKey,className,methodName,koalasTrace,cat));
} catch (RejectedExecutionException e){
logger.error ( e.getMessage ()+ErrorType.THREAD+",className:" +className,e );
handlerException(b,ctx,e,ErrorType.THREAD,privateKey,publicKey,thriftNative);
}
RejectedExecutionException来负责当线程池不够用的时候返回给client端异常,因为server端的业务处理能力有限,所以这里适当的做了一下服务端保护防止雪崩的问题。当发现server端有大量的
RejectedExecutionException抛出,说明单机已经无法满足业务请求了,需要横向拓展机器来进行负载均衡。用户实际的业务执行是在Runable里,我们看看他到底做了什么
            try {
tprocessor.process ( in,out );
ctx.writeAndFlush (outputStream);
if(transaction!=null && cat)
transaction.setStatus ( Transaction.SUCCESS );
} catch (Exception e) {
if(transaction!=null && cat)
transaction.setStatus ( e );
logger.error ( e.getMessage () + ErrorType.APPLICATION+",className:"+className,e );
handlerException(this.b,ctx,e,ErrorType.APPLICATION,privateKey,publicKey,thriftNative);
}

通过thrift的process来执行业务逻辑,将结果通过ctx.writeAndFlush (outputStream),返回给client端。在catch里处理当出现异常之后返回给client端异常结果。这样netty server的实现就全部结束了,thrift服务端解析相关内容我们下一篇来说,里面当中有很多细节需要读者是跟着源码阅读,如果有问题欢迎加群825199617来交流,更多spring,spring mvc,aop,jdk等源码交流等你来!

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