手写RPC框架,理解更透彻,代码已上传Github!
阅读本文大概需要 9 分钟。
来自:https://www.cnblogs.com/2YSP/p/13545217.html
一、前言
除了Java序列化协议,增加了protobuf和kryo序列化协议,配置即用。 增加多种负载均衡算法(随机、轮询、加权轮询、平滑加权轮询),配置即用。 客户端增加本地服务列表缓存,提高性能。 修复高并发情况下,netty导致的内存泄漏问题 由原来的每个请求建立一次连接,改为建立TCP长连接,并多次复用。 服务端增加线程池提高消息处理能力
二、介绍
客户端(ServerA)执行远程方法时就调用client stub传递类名、方法名和参数等信息。 client stub会将参数等信息序列化为二进制流的形式,然后通过Sockect发送给服务端(ServerB) 服务端收到数据包后,server stub 需要进行解析反序列化为类名、方法名和参数等信息。 server stub调用对应的本地方法,并把执行结果返回给客户端
服务消费者
服务提供者
注册中心
监控运维(可选)
三、实现
使用zookeeper作为注册中心 使用netty作为通信框架 消息编解码:protostuff、kryo、java spring 使用SPI来根据配置动态选择负载均衡算法等
3.1动态负载均衡算法
/**
* 负载均衡注解
*/
@Target(ElementType.TYPE)
@Retention(RetentionPolicy.RUNTIME)
@Documented
public @interface LoadBalanceAno {
String value() default "";
}
/**
* 轮询算法
*/
@LoadBalanceAno(RpcConstant.BALANCE_ROUND)
public class FullRoundBalance implements LoadBalance {
private static Logger logger = LoggerFactory.getLogger(FullRoundBalance.class);
private volatile int index;
@Override
public synchronized Service chooseOne(Listservices) {
// 加锁防止多线程情况下,index超出services.size()
if (index == services.size()) {
index = 0;
}
return services.get(index++);
}
}
/**
* @author 2YSP
* @date 2020/7/26 15:13
*/
@ConfigurationProperties(prefix = "sp.rpc")
public class RpcConfig {
/**
* 服务注册中心地址
*/
private String registerAddress = "127.0.0.1:2181";
/**
* 服务暴露端口
*/
private Integer serverPort = 9999;
/**
* 服务协议
*/
private String protocol = "java";
/**
* 负载均衡算法
*/
private String loadBalance = "random";
/**
* 权重,默认为1
*/
private Integer weight = 1;
// 省略getter setter
}
/**
* 使用spi匹配符合配置的负载均衡算法
*
* @param name
* @return
*/
private LoadBalance getLoadBalance(String name) {
ServiceLoaderloader = ServiceLoader.load(LoadBalance.class);
Iteratoriterator = loader.iterator();
while (iterator.hasNext()) {
LoadBalance loadBalance = iterator.next();
LoadBalanceAno ano = loadBalance.getClass().getAnnotation(LoadBalanceAno.class);
Assert.notNull(ano, "load balance name can not be empty!");
if (name.equals(ano.value())) {
return loadBalance;
}
}
throw new RpcException("invalid load balance config");
}
@Bean
public ClientProxyFactory proxyFactory(@Autowired RpcConfig rpcConfig) {
ClientProxyFactory clientProxyFactory = new ClientProxyFactory();
// 设置服务发现着
clientProxyFactory.setServerDiscovery(new ZookeeperServerDiscovery(rpcConfig.getRegisterAddress()));
// 设置支持的协议
MapsupportMessageProtocols = buildSupportMessageProtocols();
clientProxyFactory.setSupportMessageProtocols(supportMessageProtocols);
// 设置负载均衡算法
LoadBalance loadBalance = getLoadBalance(rpcConfig.getLoadBalance());
clientProxyFactory.setLoadBalance(loadBalance);
// 设置网络层实现
clientProxyFactory.setNetClient(new NettyNetClient());
return clientProxyFactory;
}
3.2本地服务列表缓存
/**
* 服务发现本地缓存
*/
public class ServerDiscoveryCache {
/**
* key: serviceName
*/
private static final Map> SERVER_MAP = new ConcurrentHashMap<>();
/**
* 客户端注入的远程服务service class
*/
public static final ListSERVICE_CLASS_NAMES = new ArrayList<>();
public static void put(String serviceName, ListserviceList) {
SERVER_MAP.put(serviceName, serviceList);
}
/**
* 去除指定的值
* @param serviceName
* @param service
*/
public static void remove(String serviceName, Service service) {
SERVER_MAP.computeIfPresent(serviceName, (key, value) ->
value.stream().filter(o -> !o.toString().equals(service.toString())).collect(Collectors.toList())
);
}
public static void removeAll(String serviceName) {
SERVER_MAP.remove(serviceName);
}
public static boolean isEmpty(String serviceName) {
return SERVER_MAP.get(serviceName) == null || SERVER_MAP.get(serviceName).size() == 0;
}
public static Listget(String serviceName) {
return SERVER_MAP.get(serviceName);
}
}
/**
* 根据服务名获取可用的服务地址列表
* @param serviceName
* @return
*/
private ListgetServiceList(String serviceName) {
Listservices;
synchronized (serviceName){
if (ServerDiscoveryCache.isEmpty(serviceName)) {
services = serverDiscovery.findServiceList(serviceName);
if (services == null || services.size() == 0) {
throw new RpcException("No provider available!");
}
ServerDiscoveryCache.put(serviceName, services);
} else {
services = ServerDiscoveryCache.get(serviceName);
}
}
return services;
}
/**
* Rpc处理者,支持服务启动暴露,自动注入Service
* @author 2YSP
* @date 2020/7/26 14:46
*/
public class DefaultRpcProcessor implements ApplicationListener<ContextRefreshedEvent> {
@Override
public void onApplicationEvent(ContextRefreshedEvent event) {
// Spring启动完毕过后会收到一个事件通知
if (Objects.isNull(event.getApplicationContext().getParent())){
ApplicationContext context = event.getApplicationContext();
// 开启服务
startServer(context);
// 注入Service
injectService(context);
}
}
private void injectService(ApplicationContext context) {
String[] names = context.getBeanDefinitionNames();
for(String name : names){
Class> clazz = context.getType(name);
if (Objects.isNull(clazz)){
continue;
}
Field[] declaredFields = clazz.getDeclaredFields();
for(Field field : declaredFields){
// 找出标记了InjectService注解的属性
InjectService injectService = field.getAnnotation(InjectService.class);
if (injectService == null){
continue;
}
Class> fieldClass = field.getType();
Object object = context.getBean(name);
field.setAccessible(true);
try {
field.set(object,clientProxyFactory.getProxy(fieldClass));
} catch (IllegalAccessException e) {
e.printStackTrace();
}
// 添加本地服务缓存
ServerDiscoveryCache.SERVICE_CLASS_NAMES.add(fieldClass.getName());
}
}
// 注册子节点监听
if (clientProxyFactory.getServerDiscovery() instanceof ZookeeperServerDiscovery){
ZookeeperServerDiscovery serverDiscovery = (ZookeeperServerDiscovery) clientProxyFactory.getServerDiscovery();
ZkClient zkClient = serverDiscovery.getZkClient();
ServerDiscoveryCache.SERVICE_CLASS_NAMES.forEach(name ->{
String servicePath = RpcConstant.ZK_SERVICE_PATH + RpcConstant.PATH_DELIMITER + name + "/service";
zkClient.subscribeChildChanges(servicePath, new ZkChildListenerImpl());
});
logger.info("subscribe service zk node successfully");
}
}
private void startServer(ApplicationContext context) {
...
}
}
/**
* 子节点事件监听处理类
*/
public class ZkChildListenerImpl implements IZkChildListener {
private static Logger logger = LoggerFactory.getLogger(ZkChildListenerImpl.class);
/**
* 监听子节点的删除和新增事件
* @param parentPath /rpc/serviceName/service
* @param childList
* @throws Exception
*/
@Override
public void handleChildChange(String parentPath, ListchildList) throws Exception {
logger.debug("Child change parentPath:[{}] -- childList:[{}]", parentPath, childList);
// 只要子节点有改动就清空缓存
String[] arr = parentPath.split("/");
ServerDiscoveryCache.removeAll(arr[2]);
}
}
3.3nettyClient支持TCP长连接
/**
* @author 2YSP
* @date 2020/7/25 20:12
*/
public class NettyNetClient implements NetClient {
private static Logger logger = LoggerFactory.getLogger(NettyNetClient.class);
private static ExecutorService threadPool = new ThreadPoolExecutor(4, 10, 200,
TimeUnit.SECONDS, new LinkedBlockingQueue<>(1000), new ThreadFactoryBuilder()
.setNameFormat("rpcClient-%d")
.build());
private EventLoopGroup loopGroup = new NioEventLoopGroup(4);
/**
* 已连接的服务缓存
* key: 服务地址,格式:ip:port
*/
public static MapconnectedServerNodes = new ConcurrentHashMap<>();
@Override
public byte[] sendRequest(byte[] data, Service service) throws InterruptedException {
....
return respData;
}
@Override
public RpcResponse sendRequest(RpcRequest rpcRequest, Service service, MessageProtocol messageProtocol) {
String address = service.getAddress();
synchronized (address) {
if (connectedServerNodes.containsKey(address)) {
SendHandlerV2 handler = connectedServerNodes.get(address);
logger.info("使用现有的连接");
return handler.sendRequest(rpcRequest);
}
String[] addrInfo = address.split(":");
final String serverAddress = addrInfo[0];
final String serverPort = addrInfo[1];
final SendHandlerV2 handler = new SendHandlerV2(messageProtocol, address);
threadPool.submit(() -> {
// 配置客户端
Bootstrap b = new Bootstrap();
b.group(loopGroup).channel(NioSocketChannel.class)
.option(ChannelOption.TCP_NODELAY, true)
.handler(new ChannelInitializer<SocketChannel>() {
@Override
protected void initChannel(SocketChannel socketChannel) throws Exception {
ChannelPipeline pipeline = socketChannel.pipeline();
pipeline
.addLast(handler);
}
});
// 启用客户端连接
ChannelFuture channelFuture = b.connect(serverAddress, Integer.parseInt(serverPort));
channelFuture.addListener(new ChannelFutureListener() {
@Override
public void operationComplete(ChannelFuture channelFuture) throws Exception {
connectedServerNodes.put(address, handler);
}
});
}
);
logger.info("使用新的连接。。。");
return handler.sendRequest(rpcRequest);
}
}
}
/**
* @author 2YSP
* @date 2020/8/19 20:06
*/
public class SendHandlerV2 extends ChannelInboundHandlerAdapter {
private static Logger logger = LoggerFactory.getLogger(SendHandlerV2.class);
/**
* 等待通道建立最大时间
*/
static final int CHANNEL_WAIT_TIME = 4;
/**
* 等待响应最大时间
*/
static final int RESPONSE_WAIT_TIME = 8;
private volatile Channel channel;
private String remoteAddress;
private static Map> requestMap = new ConcurrentHashMap<>();
private MessageProtocol messageProtocol;
private CountDownLatch latch = new CountDownLatch(1);
public SendHandlerV2(MessageProtocol messageProtocol,String remoteAddress) {
this.messageProtocol = messageProtocol;
this.remoteAddress = remoteAddress;
}
@Override
public void channelRegistered(ChannelHandlerContext ctx) throws Exception {
this.channel = ctx.channel();
latch.countDown();
}
@Override
public void channelActive(ChannelHandlerContext ctx) throws Exception {
logger.debug("Connect to server successfully:{}", ctx);
}
@Override
public void channelRead(ChannelHandlerContext ctx, Object msg) throws Exception {
logger.debug("Client reads message:{}", msg);
ByteBuf byteBuf = (ByteBuf) msg;
byte[] resp = new byte[byteBuf.readableBytes()];
byteBuf.readBytes(resp);
// 手动回收
ReferenceCountUtil.release(byteBuf);
RpcResponse response = messageProtocol.unmarshallingResponse(resp);
RpcFuturefuture = requestMap.get(response.getRequestId());
future.setResponse(response);
}
@Override
public void exceptionCaught(ChannelHandlerContext ctx, Throwable cause) throws Exception {
cause.printStackTrace();
logger.error("Exception occurred:{}", cause.getMessage());
ctx.close();
}
@Override
public void channelReadComplete(ChannelHandlerContext ctx) throws Exception {
ctx.flush();
}
@Override
public void channelInactive(ChannelHandlerContext ctx) throws Exception {
super.channelInactive(ctx);
logger.error("channel inactive with remoteAddress:[{}]",remoteAddress);
NettyNetClient.connectedServerNodes.remove(remoteAddress);
}
@Override
public void userEventTriggered(ChannelHandlerContext ctx, Object evt) throws Exception {
super.userEventTriggered(ctx, evt);
}
public RpcResponse sendRequest(RpcRequest request) {
RpcResponse response;
RpcFuturefuture = new RpcFuture<>();
requestMap.put(request.getRequestId(), future);
try {
byte[] data = messageProtocol.marshallingRequest(request);
ByteBuf reqBuf = Unpooled.buffer(data.length);
reqBuf.writeBytes(data);
if (latch.await(CHANNEL_WAIT_TIME,TimeUnit.SECONDS)){
channel.writeAndFlush(reqBuf);
// 等待响应
response = future.get(RESPONSE_WAIT_TIME, TimeUnit.SECONDS);
}else {
throw new RpcException("establish channel time out");
}
} catch (Exception e) {
throw new RpcException(e.getMessage());
} finally {
requestMap.remove(request.getRequestId());
}
return response;
}
}
package cn.sp.rpc.client.net;
import java.util.concurrent.*;
/**
* @author 2YSP
* @date 2020/8/19 22:31
*/
public class RpcFuture<T> implements Future<T> {
private T response;
/**
* 因为请求和响应是一一对应的,所以这里是1
*/
private CountDownLatch countDownLatch = new CountDownLatch(1);
/**
* Future的请求时间,用于计算Future是否超时
*/
private long beginTime = System.currentTimeMillis();
@Override
public boolean cancel(boolean mayInterruptIfRunning) {
return false;
}
@Override
public boolean isCancelled() {
return false;
}
@Override
public boolean isDone() {
if (response != null) {
return true;
}
return false;
}
/**
* 获取响应,直到有结果才返回
* @return
* @throws InterruptedException
* @throws ExecutionException
*/
@Override
public T get() throws InterruptedException, ExecutionException {
countDownLatch.await();
return response;
}
@Override
public T get(long timeout, TimeUnit unit) throws InterruptedException, ExecutionException, TimeoutException {
if (countDownLatch.await(timeout,unit)){
return response;
}
return null;
}
public void setResponse(T response) {
this.response = response;
countDownLatch.countDown();
}
public long getBeginTime() {
return beginTime;
}
}
四、压力测试
(英特尔)Intel(R) Core(TM) i5-6300HQ CPU @ 2.30GHz 4核 windows10家庭版(64位) 16G内存
ab -c 4 -n 10000 http://localhost:8080/test/user?id=1
https://github.com/2YSP/rpc-spring-boot-starter
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