前面我们分析到请求体的解析,最后解析成一个Request,Request持有的值是一个Invocation,再结合在第4节服务的暴露,我们知道dubbo在暴露服务的协议中储存了一个Exporter
ruby
//group/接口名:version:port -> Exporter
Map<String, Exporter<?>> exporterMap
Exporter持有invoker
这个invoker最原始是在com.alibaba.dubbo.config.ServiceConfig#doExportUrlsFor1Protocol创建,代码如下:
typescript
//(*1*)
Invoker<?> invoker = proxyFactory.getInvoker(ref, (Class) interfaceClass, registryURL.addParameterAndEncoded(Constants.EXPORT_KEY, url.toFullString()));
//这个类主要是维护着invoker与ServiceConfig的关系
DelegateProviderMetaDataInvoker wrapperInvoker = new DelegateProviderMetaDataInvoker(invoker, this);、
//(*1*)
public <T> Invoker<T> getInvoker(T proxy, Class<T> type, URL url) {
// TODO Wrapper cannot handle this scenario correctly: the classname contains '$'
//这个Wrapper的处理逻辑就不再啰嗦了,简单的说就是用于提供方法信息,属性信息,并且通过传入对象和方法名,方法参数直接调用方法(不是反射调用哦)
final Wrapper wrapper = Wrapper.getWrapper(proxy.getClass().getName().indexOf('$') < 0 ? proxy.getClass() : type);
//创建Invoker对象
return new AbstractProxyInvoker<T>(proxy, type, url) {
@Override
protected Object doInvoke(T proxy, String methodName,
Class<?>[] parameterTypes,
Object[] arguments) throws Throwable {
return wrapper.invokeMethod(proxy, methodName, parameterTypes, arguments);
}
};
}
这个DelegateProviderMetaDataInvoker实例传入到com.alibaba.dubbo.rpc.protocol.ProtocolFilterWrapper#export时又被一堆Filter给装饰了以便,形成了一个责任链
typescript
private static <T> Invoker<T> com.alibaba.dubbo.rpc.protocol.ProtocolFilterWrapper#buildInvokerChain(final Invoker<T> invoker, String key, String group) {
Invoker<T> last = invoker;
//通过SPI获取到所有的复合条件的Filter
List<Filter> filters = ExtensionLoader.getExtensionLoader(Filter.class).getActivateExtension(invoker.getUrl(), key, group);
if (!filters.isEmpty()) {
//构建责任链
for (int i = filters.size() - 1; i >= 0; i--) {
final Filter filter = filters.get(i);
final Invoker<T> next = last;
last = new Invoker<T>() {
@Override
public Class<T> getInterface() {
return invoker.getInterface();
}
@Override
public URL getUrl() {
return invoker.getUrl();
}
@Override
public boolean isAvailable() {
return invoker.isAvailable();
}
@Override
public Result invoke(Invocation invocation) throws RpcException {
return filter.invoke(next, invocation);
}
@Override
public void destroy() {
invoker.destroy();
}
@Override
public String toString() {
return invoker.toString();
}
};
}
}
return last;
}
这个链条目前是经过的过滤器是这样的
EchoFilter -> ClassLoaderFilter -> GenericFilter -> ContextFilter -> TraceFilter -> TimeoutFilter -> MonitorFilter -> ExceptionFilter
less
public Result EchoFilter#invoke(Invoker<?> invoker, Invocation inv) throws RpcException {
//如果调用的接口是EchoService接口的$echo方法,那么获取第一个参数,直接返回
//产生的效果就是客户端输入任何内容,最终都会返回相同的内容,这种一般就用于回声测试
if (inv.getMethodName().equals(Constants.$ECHO) && inv.getArguments() != null && inv.getArguments().length == 1)
return new RpcResult(inv.getArguments()[0]);
return invoker.invoke(inv);
}
|
V
public Result ClassLoaderFilter#invoke(Invoker<?> invoker, Invocation invocation) throws RpcException {
//将当前线程使用的类加载更换成加载invoker的类加载,避免因invoker的类加载存在只有它能加载的类,而当前线程的类加载器却无法加载的错误
ClassLoader ocl = Thread.currentThread().getContextClassLoader();
Thread.currentThread().setContextClassLoader(invoker.getInterface().getClassLoader());
try {
return invoker.invoke(invocation);
} finally {
Thread.currentThread().setContextClassLoader(ocl);
}
}
|
V
public Result GenericFilter#invoke(Invoker<?> invoker, Invocation inv) throws RpcException {
//检查当前调用的方式是否为泛化调用
if (inv.getMethodName().equals(Constants.$INVOKE)
&& inv.getArguments() != null
&& inv.getArguments().length == 3
&& !invoker.getInterface().equals(GenericService.class)) {
//第一个参数表示方法名
String name = ((String) inv.getArguments()[0]).trim();
//方法参数类型数组
String[] types = (String[]) inv.getArguments()[1];
//方法参数值数组
Object[] args = (Object[]) inv.getArguments()[2];
try {
//从当前接口中获取对应方法签名
Method method = ReflectUtils.findMethodByMethodSignature(invoker.getInterface(), name, types);
//参数类型
Class<?>[] params = method.getParameterTypes();
//如果没有传递参数,那么构建一个空的参数数组
if (args == null) {
args = new Object[params.length];
}
//从附加参数中获取泛化key,这个key用于指定参数使用了什么样的序列化方式
String generic = inv.getAttachment(Constants.GENERIC_KEY);
if (StringUtils.isBlank(generic)) {
generic = RpcContext.getContext().getAttachment(Constants.GENERIC_KEY);
}
//如果为空,那么尝试通过通用的方法进行value与类型的转换
if (StringUtils.isEmpty(generic)
|| ProtocolUtils.isDefaultGenericSerialization(generic)) {
args = PojoUtils.realize(args, params, method.getGenericParameterTypes());
//是否使用的java的序列化方式(ObjectInputStream)
} else if (ProtocolUtils.isJavaGenericSerialization(generic)) {
for (int i = 0; i < args.length; i++) {
if (byte[].class == args[i].getClass()) {
try {
UnsafeByteArrayInputStream is = new UnsafeByteArrayInputStream((byte[]) args[i]);
args[i] = ExtensionLoader.getExtensionLoader(Serialization.class)
.getExtension(Constants.GENERIC_SERIALIZATION_NATIVE_JAVA)
.deserialize(null, is).readObject();
} catch (Exception e) {
throw new RpcException("Deserialize argument [" + (i + 1) + "] failed.", e);
}
} else {
。。。。。。省略部分异常代码
}
}
//使用JavaBean序列化,这个没用过
} else if (ProtocolUtils.isBeanGenericSerialization(generic)) {
for (int i = 0; i < args.length; i++) {
if (args[i] instanceof JavaBeanDescriptor) {
args[i] = JavaBeanSerializeUtil.deserialize((JavaBeanDescriptor) args[i]);
} else {
。。。。。。省略部分异常代码
}
//调用接口获取结果
Result result = invoker.invoke(new RpcInvocation(method, args, inv.getAttachments()));
if (result.hasException()
&& !(result.getException() instanceof GenericException)) {
//构建泛化调用异常
return new RpcResult(new GenericException(result.getException()));
}
//将获取的结果按照原来的序列化方式进行序列化,然后返回
if (ProtocolUtils.isJavaGenericSerialization(generic)) {
try {
UnsafeByteArrayOutputStream os = new UnsafeByteArrayOutputStream(512);
ExtensionLoader.getExtensionLoader(Serialization.class)
.getExtension(Constants.GENERIC_SERIALIZATION_NATIVE_JAVA)
.serialize(null, os).writeObject(result.getValue());
/
return new RpcResult(os.toByteArray());
} catch (IOException e) {
throw new RpcException("Serialize result failed.", e);
}
} else if (ProtocolUtils.isBeanGenericSerialization(generic)) {
return new RpcResult(JavaBeanSerializeUtil.serialize(result.getValue(), JavaBeanAccessor.METHOD));
} else {
return new RpcResult(PojoUtils.generalize(result.getValue()));
}
} catch (NoSuchMethodException e) {
throw new RpcException(e.getMessage(), e);
} catch (ClassNotFoundException e) {
throw new RpcException(e.getMessage(), e);
}
}
//普通调用
return invoker.invoke(inv);
}
|
V
//主要是进行一些调用上下文参数的操作
public Result ContextFilter#invoke(Invoker<?> invoker, Invocation invocation) throws RpcException {
Map<String, String> attachments = invocation.getAttachments();
//移除一些附加参数
if (attachments != null) {
attachments = new HashMap<String, String>(attachments);
attachments.remove(Constants.PATH_KEY);
attachments.remove(Constants.GROUP_KEY);
attachments.remove(Constants.VERSION_KEY);
attachments.remove(Constants.DUBBO_VERSION_KEY);
attachments.remove(Constants.TOKEN_KEY);
attachments.remove(Constants.TIMEOUT_KEY);
attachments.remove(Constants.ASYNC_KEY);// Remove async property to avoid being passed to the following invoke chain.
}
//记录信息到上下文中
RpcContext.getContext()
.setInvoker(invoker)
.setInvocation(invocation)
// .setAttachments(attachments) // merged from dubbox
.setLocalAddress(invoker.getUrl().getHost(),
invoker.getUrl().getPort());
// mreged from dubbox
// we may already added some attachments into RpcContext before this filter (e.g. in rest protocol)
if (attachments != null) {
if (RpcContext.getContext().getAttachments() != null) {
RpcContext.getContext().getAttachments().putAll(attachments);
} else {
RpcContext.getContext().setAttachments(attachments);
}
}
if (invocation instanceof RpcInvocation) {
((RpcInvocation) invocation).setInvoker(invoker);
}
try {
//调用下一个invoker
RpcResult result = (RpcResult) invoker.invoke(invocation);
// pass attachments to result
result.addAttachments(RpcContext.getServerContext().getAttachments());
return result;
} finally {
RpcContext.removeContext();
RpcContext.getServerContext().clearAttachments();
}
}
|
V
//这个过滤器主要用于向客户端发送接口调用耗时信息
public Result TraceFilter#invoke(Invoker<?> invoker, Invocation invocation) throws RpcException {
//当前时间
long start = System.currentTimeMillis();
Result result = invoker.invoke(invocation);
//调用接口后的时间
long end = System.currentTimeMillis();
if (tracers.size() > 0) {
//获取需要发送日志的通道
String key = invoker.getInterface().getName() + "." + invocation.getMethodName();
Set<Channel> channels = tracers.get(key);
if (channels == null || channels.isEmpty()) {
//通过接口名尝试获取
key = invoker.getInterface().getName();
channels = tracers.get(key);
}
if (channels != null && !channels.isEmpty()) {
for (Channel channel : new ArrayList<Channel>(channels)) {
//如果通道还连接着
if (channel.isConnected()) {
try {
int max = 1;
//获取发送日志的最大限制
Integer m = (Integer) channel.getAttribute(TRACE_MAX);
if (m != null) {
max = (int) m;
}
int count = 0;
//日志发送计数
AtomicInteger c = (AtomicInteger) channel.getAttribute(TRACE_COUNT);
if (c == null) {
c = new AtomicInteger();
channel.setAttribute(TRACE_COUNT, c);
}
count = c.getAndIncrement();
//如果没有超过计数,那么向客户端发送接口调用耗时日志
if (count < max) {
String prompt = channel.getUrl().getParameter(Constants.PROMPT_KEY, Constants.DEFAULT_PROMPT);
channel.send("\r\n" + RpcContext.getContext().getRemoteAddress() + " -> "
+ invoker.getInterface().getName()
+ "." + invocation.getMethodName()
+ "(" + JSON.toJSONString(invocation.getArguments()) + ")" + " -> " + JSON.toJSONString(result.getValue())
+ "\r\nelapsed: " + (end - start) + " ms."
+ "\r\n\r\n" + prompt);
}
//如果超过了发送限制,可以GG了
if (count >= max - 1) {
channels.remove(channel);
}
} catch (Throwable e) {
channels.remove(channel);
logger.warn(e.getMessage(), e);
}
} else {
channels.remove(channel);
}
}
}
}
return result;
}
|
V
public Result TimeoutFilter#invoke(Invoker<?> invoker, Invocation invocation) throws RpcException {
//当前时间
long start = System.currentTimeMillis();
Result result = invoker.invoke(invocation);
//调用接口耗时
long elapsed = System.currentTimeMillis() - start;
//如果调用接口耗时超过了指定的最大耗时时间,那么打印警告日志
if (invoker.getUrl() != null
&& elapsed > invoker.getUrl().getMethodParameter(invocation.getMethodName(),
"timeout", Integer.MAX_VALUE)) {
if (logger.isWarnEnabled()) {
logger.warn("invoke time out. method: " + invocation.getMethodName()
+ " arguments: " + Arrays.toString(invocation.getArguments()) + " , url is "
+ invoker.getUrl() + ", invoke elapsed " + elapsed + " ms.");
}
}
return result;
}
|
V
public Result MonitorFilter#invoke(Invoker<?> invoker, Invocation invocation) throws RpcException {
//在前面进行服务暴露时,如果发现使用了监控中心,那么就会在url中添加monitor参数
if (invoker.getUrl().hasParameter(Constants.MONITOR_KEY)) {
RpcContext context = RpcContext.getContext(); // provider must fetch context before invoke() gets called
//获取host
String remoteHost = context.getRemoteHost();
long start = System.currentTimeMillis(); // record start timestamp
//计数
getConcurrent(invoker, invocation).incrementAndGet(); // count up
try {
//调用接口
Result result = invoker.invoke(invocation); // proceed invocation chain
//收集信息,向监控中心提交信息,感兴趣的自己去看
collect(invoker, invocation, result, remoteHost, start, false);
return result;
} catch (RpcException e) {
collect(invoker, invocation, null, remoteHost, start, true);
throw e;
} finally {
getConcurrent(invoker, invocation).decrementAndGet(); // count down
}
} else {
return invoker.invoke(invocation);
}
}
|
V
//这个filter主要进行统一异常处理
public Result ExceptionFilter#invoke(Invoker<?> invoker, Invocation invocation) throws RpcException {
try {
Result result = invoker.invoke(invocation);
//如果有异常,并且接口不是泛化接口调用
if (result.hasException() && GenericService.class != invoker.getInterface()) {
try {
//获取异常
Throwable exception = result.getException();
// directly throw if it's checked exception
//直接抛出检查异常
if (!(exception instanceof RuntimeException) && (exception instanceof Exception)) {
return result;
}
// directly throw if the exception appears in the signature
//如果这个异常是接口上定义的异常,直接抛出
try {
Method method = invoker.getInterface().getMethod(invocation.getMethodName(), invocation.getParameterTypes());
Class<?>[] exceptionClassses = method.getExceptionTypes();
for (Class<?> exceptionClass : exceptionClassses) {
if (exception.getClass().equals(exceptionClass)) {
return result;
}
}
} catch (NoSuchMethodException e) {
return result;
}
//如果是其他的异常,那么就是一些未检查的异常,打印错误日志
// for the exception not found in method's signature, print ERROR message in server's log.
logger.error("Got unchecked and undeclared exception which called by " + RpcContext.getContext().getRemoteHost()
+ ". service: " + invoker.getInterface().getName() + ", method: " + invocation.getMethodName()
+ ", exception: " + exception.getClass().getName() + ": " + exception.getMessage(), exception);
// directly throw if exception class and interface class are in the same jar file.
//如果异常来自相同的jar包,直接返回
String serviceFile = ReflectUtils.getCodeBase(invoker.getInterface());
String exceptionFile = ReflectUtils.getCodeBase(exception.getClass());
if (serviceFile == null || exceptionFile == null || serviceFile.equals(exceptionFile)) {
return result;
}
// directly throw if it's JDK exception
//JDK包下的异常,直接返回
String className = exception.getClass().getName();
if (className.startsWith("java.") || className.startsWith("javax.")) {
return result;
}
// directly throw if it's dubbo exception
if (exception instanceof RpcException) {
return result;
}
// otherwise, wrap with RuntimeException and throw back to the client
//其他类型,都封装成RuntimeException
return new RpcResult(new RuntimeException(StringUtils.toString(exception)));
} catch (Throwable e) {
logger.warn("Fail to ExceptionFilter when called by " + RpcContext.getContext().getRemoteHost()
+ ". service: " + invoker.getInterface().getName() + ", method: " + invocation.getMethodName()
+ ", exception: " + e.getClass().getName() + ": " + e.getMessage(), e);
return result;
}
}
return result;
} catch (RuntimeException e) {
logger.error("Got unchecked and undeclared exception which called by " + RpcContext.getContext().getRemoteHost()
+ ". service: " + invoker.getInterface().getName() + ", method: " + invocation.getMethodName()
+ ", exception: " + e.getClass().getName() + ": " + e.getMessage(), e);
throw e;
}
}
接着就调用到了在com.alibaba.dubbo.config.ServiceConfig#doExportUrlsFor1Protocol创建的DelegateProviderMetaDataInvoker,继续调用到
typescript
public Result AbstractProxyInvoker#invoke(Invocation invocation) throws RpcException {
try {
return new RpcResult(doInvoke(proxy, invocation.getMethodName(), invocation.getParameterTypes(), invocation.getArguments()));
} catch (InvocationTargetException e) {
return new RpcResult(e.getTargetException());
} catch (Throwable e) {
throw new RpcException("Failed to invoke remote proxy method " + invocation.getMethodName() + " to " + getUrl() + ", cause: " + e.getMessage(), e);
}
}
|
V
public <T> Invoker<T> JavassistProxyFactory#getInvoker(T proxy, Class<T> type, URL url) {
// TODO Wrapper cannot handle this scenario correctly: the classname contains '$'
final Wrapper wrapper = Wrapper.getWrapper(proxy.getClass().getName().indexOf('$') < 0 ? proxy.getClass() : type);
return new AbstractProxyInvoker<T>(proxy, type, url) {
@Override
protected Object doInvoke(T proxy, String methodName,
Class<?>[] parameterTypes,
Object[] arguments) throws Throwable {
return wrapper.invokeMethod(proxy, methodName, parameterTypes, arguments);
}
};
}
Wrapper的作用就不在赘述了
最终调用的就是我们自己写的接口实现了
arduino
public User getUser(long userId) {
return new User("小明", 18);
}
接口调用成功之后,dubbo需要将结果告诉客户端,这就是下一节需要分析的数据回应