前言
在JAVA RESTful WebService实战笔记(三)中已经完成了对JAX-RS2定义的4中过滤器的讲述学习,以下就来看看如何综合运用过滤器,完成一个记录REST请求的访问日志
访问日志(最新版没有AirLogFilter,应该是LoggingFilter)
- LoggingFilter实现了上述的4个过滤器,记录服务器端和客户端的请求和响应运行时候的信息,LoggingFilter类的定义如下所示:
public final class LoggingFilter implements ContainerRequestFilter, ClientRequestFilter, ContainerResponseFilter,
ClientResponseFilter, WriterInterceptor {
- LoggingFilter为每一种过滤器接口定义的filter()方法提供了实现,并且也实现了写入的拦截器。在客户端请求过滤中,输出请求资源地址信息和请求投信息;在容器请求过滤中,输出请求方法,请求资源地址信息和请求头信息;在容器响应过滤中,输出HTTP状态码和请求头信息;在客户端响应过滤中,输出HTTP状态码和请求头信息,4个阶段的filter()示例代码如下:
@Override
public void filter(final ClientRequestContext context) throws IOException {
final long id = _id.incrementAndGet();
context.setProperty(LOGGING_ID_PROPERTY, id);
final StringBuilder b = new StringBuilder();
//获取请求方法和地址
printRequestLine(b, "Sending client request", id, context.getMethod(), context.getUri());
//获取请求头信息
printPrefixedHeaders(b, id, REQUEST_PREFIX, context.getStringHeaders());
if (printEntity && context.hasEntity()) {
final OutputStream stream = new LoggingStream(b, context.getEntityStream());
context.setEntityStream(stream);
context.setProperty(ENTITY_LOGGER_PROPERTY, stream);
// not calling log(b) here - it will be called by the interceptor
} else {
log(b);
}
}
@Override
public void filter(final ClientRequestContext requestContext, final ClientResponseContext responseContext)
throws IOException {
final Object requestId = requestContext.getProperty(LOGGING_ID_PROPERTY);
final long id = requestId != null ? (Long) requestId : _id.incrementAndGet();
final StringBuilder b = new StringBuilder();
//获取容器响应状态
printResponseLine(b, "Client response received", id, responseContext.getStatus());
//获取容器响应头信息
printPrefixedHeaders(b, id, RESPONSE_PREFIX, responseContext.getHeaders());
- 单元测试类
public class TIResourceJtfTest extends JerseyTest {
@Override
protected Application configure() {
ResourceConfig config = new ResourceConfig(BookResource.class);
return config.register(com.example.filter.log.AirLogFilter.class);
}
@Override
protected void configureClient(ClientConfig config) {
config.register(new AirLogFilter());
}
上述代码中,为了访问日志生效,需要测试类TIResourceJtfTest在Jersey测试框架的服务器端和客户端,分别注册服务日志类AirLogFilter,单元测试结果如下
2017-09-13 10:01:58,135 DEBUG [com.example.resource.TIResourceJtfTest] main - >>Test Post
2017-09-13 10:01:58,232 INFO [com.example.filter.log.AirLogFilter] main - 1 * AirLog - Request received on thread main
1 / POST http://localhost:9998/books/
1 / Accept: application/json
1 / Content-Type: application/json
2017-09-13 10:01:59,038 DEBUG [com.example.resource.interceptor.AirReaderWriterInterceptor] grizzly-http-server-0 - null:Java Restful Web Service实战-602865027284019:null
2017-09-13 10:01:59,043 DEBUG [com.example.resource.interceptor.AirReaderWriterInterceptor] grizzly-http-server-0 - 602865932131718:Java Restful Web Service实战-602865027284019:null
2017-09-13 10:01:59,084 INFO [com.example.filter.log.AirLogFilter] main - 2 * AirLog - Response received on thread main
2 \ 200
2 \ Content-Length: 86
2 \ Date: Wed, 13 Sep 2017 02:01:59 GMT
2 \ Content-Type: application/json
2017-09-13 10:01:59,096 DEBUG [com.example.resource.TIResourceJtfTest] main - <<Test Post
九月 13, 2017 10:01:59 上午 org.glassfish.grizzly.http.server.NetworkListener shutdownNow
信息: Stopped listener bound to [localhost:9998]
REST拦截器
拦截器和过滤器的相同点就是都是一种在请求–响应模型中,用作切面处理的Provider。两者的不同除了功能性上的差异(一个用于过滤消息,一个用于拦截处理)之外,形式上也不同,拦截器通常都是”读写”成对,而且没有服务器端和客户端的区分。Jersey提供的拦截器如下:
1、ReaderInterceptor
- 读拦截器ReaderInterceptor定义的拦截方法是aroundReadFrom(),该方法包含一个输入参数,即读拦截器的上下文接口ReaderInterceptorContext,从中可以获取到投信息,输入流以及父接口InterceptorContext提供的媒体类型等上下文信息。接口方法示例如下:
/**
* Interceptor method wrapping calls to {@link MessageBodyReader#readFrom} method.
*
* The parameters of the wrapped method called are available from {@code context}.
* Implementations of this method SHOULD explicitly call {@link ReaderInterceptorContext#proceed}
* to invoke the next interceptor in the chain, and ultimately the wrapped
* {@link MessageBodyReader#readFrom} method.
*
* @param context invocation context.
* @return result of next interceptor invoked or the wrapped method if last interceptor in chain.
* @throws java.io.IOException if an IO error arises or is thrown by the wrapped
* {@code MessageBodyReader.readFrom} method.
* @throws javax.ws.rs.WebApplicationException
* thrown by the wrapped {@code MessageBodyReader.readFrom} method.
*/
public Object aroundReadFrom(ReaderInterceptorContext context)
throws java.io.IOException, javax.ws.rs.WebApplicationException;
/**
* Interceptor method wrapping calls to {@link MessageBodyReader#readFrom} method.
*
* The parameters of the wrapped method called are available from {@code context}.
* Implementations of this method SHOULD explicitly call {@link ReaderInterceptorContext#proceed}
* to invoke the next interceptor in the chain, and ultimately the wrapped
* {@link MessageBodyReader#readFrom} method.
*
* @param context invocation context.
* @return result of next interceptor invoked or the wrapped method if last interceptor in chain.
* @throws java.io.IOException if an IO error arises or is thrown by the wrapped
* {@code MessageBodyReader.readFrom} method.
* @throws javax.ws.rs.WebApplicationException
* thrown by the wrapped {@code MessageBodyReader.readFrom} method.
*/
public Object aroundReadFrom(ReaderInterceptorContext context)
throws java.io.IOException, javax.ws.rs.WebApplicationException;
2、WriterInterceptor
写拦截器WriterInterceptor定义的拦截方法是aroundWriteTo(),该方法包含一个输入参数,写拦截器上下文接口WriterInterceptorContext,从中可以获取投信息,输出流以及父接口InterceptorContext提供的媒体类型等上下文信息,接口方法示例如下:
/**
* Interceptor method wrapping calls to {@link MessageBodyWriter#writeTo} method.
* The parameters of the wrapped method called are available from {@code context}.
* Implementations of this method SHOULD explicitly call
* {@link WriterInterceptorContext#proceed} to invoke the next interceptor in the chain,
* and ultimately the wrapped {@code MessageBodyWriter.writeTo} method.
*
* @param context invocation context.
* @throws java.io.IOException if an IO error arises or is thrown by the wrapped
* {@code MessageBodyWriter.writeTo} method.
* @throws javax.ws.rs.WebApplicationException
* thrown by the wrapped {@code MessageBodyWriter.writeTo} method.
*/
void aroundWriteTo(WriterInterceptorContext context)
throws java.io.IOException, javax.ws.rs.WebApplicationException;
/**
* Interceptor method wrapping calls to {@link MessageBodyWriter#writeTo} method.
* The parameters of the wrapped method called are available from {@code context}.
* Implementations of this method SHOULD explicitly call
* {@link WriterInterceptorContext#proceed} to invoke the next interceptor in the chain,
* and ultimately the wrapped {@code MessageBodyWriter.writeTo} method.
*
* @param context invocation context.
* @throws java.io.IOException if an IO error arises or is thrown by the wrapped
* {@code MessageBodyWriter.writeTo} method.
* @throws javax.ws.rs.WebApplicationException
* thrown by the wrapped {@code MessageBodyWriter.writeTo} method.
*/
void aroundWriteTo(WriterInterceptorContext context)
throws java.io.IOException, javax.ws.rs.WebApplicationException;
REST服务与异步
服务端实现
可以利用JAX-RS2提供额AsyncResponse,通过一个异步线程来执行查询,在查询完后,由这个异步线程完成对请求的响应。
1、异步资源类
{
if (throwable == null) {
log.info("CompletionCallback-onComplete: OK");
} else {
log.info("CompletionCallback-onComplete: ERROR: " + throwable.getMessage());
}
});
//
asyncResponse.register((ConnectionCallback) disconnected -> {
//Status.GONE=410
log.info("ConnectionCallback-onDisconnect");
//当请求--响应模型的连接断开的时候,CompletionCallback实例的onDisconnect()方法会被回调。实现这个方法可以监听连接断开事件并实现相关业务,比如主动唤醒AsyncRespurce实例并设置状态码HTTP为410、客户端请求资源不可用(Response.status(Response.Status.GONE)来完成响应工作。
disconnected.resume(Response.status(Response.Status.GONE).entity("disconnect!").build());
});
asyncResponse.setTimeoutHandler(new TimeoutHandler() {
//TimeoutHandler是JAX-RS2定义的超时处理接口,用于处理异步响应类超时事件,当预期的超时时间到达之后,TimeoutHandler实例的handleTimeout()方法就会被调用。实现这个方法可以监听超时时间并处理相关业务。 并设置状态码为503、服务器端服务不可用(Response.Status.SERVICE_UNAVAILABLE) TimeoutHandler的实现可以作为AsyncResource的setTimeoutHandler()方法的参数来配置。AsyncResource的setTimeout()方法用于设置超时时间,默认永不超时。
@Override
public void handleTimeout(AsyncResponse asyncResponse) {
//Status.SERVICE_UNAVAILABLE=503
log.info("TIMEOUT");
asyncResponse.resume(Response.status(Response.Status.SERVICE_UNAVAILABLE).entity("Operation time out.").build());
}
});
asyncResponse.setTimeout(TIMEOUT, TimeUnit.SECONDS);
}
class BatchRunner implements Runnable {
private final AsyncResponse response;
public BatchRunner(AsyncResponse asyncResponse) {
this.response = asyncResponse;
}
@Override
public void run() {
try {
Books books = doBatch();
response.resume(books);
} catch (InterruptedException e) {
log.error(e);
}
}
private Books doBatch() throws InterruptedException {
Books books = new Books();
for (int i = 0; i < 10; i++) {
Thread.sleep(500);
Book book = new Book(i + 10000l, "Java RESTful Web Services", "华章");
log.debug(book);
books.getBookList().add(book);
}
return books;
}
}
}" data-snippet-id="ext.773546a98ca126fb67a583074d9816f1" data-snippet-saved="false" data-codota-status="done">@Component
@Path("books")
@Produces({"application/json;charset=UTF-8", "application/javascript;charset=UTF-8", "text/javascript;charset=UTF-8"})
public class AsyncResource {
private static final Logger log = LogManager.getLogger(AsyncResource.class);
public static final long TIMEOUT = 120;
final ExecutorService threadPool = Executors.newFixedThreadPool(10);
@GET
public void getAll(@Suspended final AsyncResponse asyncResponse) {
//该方法用于定义回调
configResponse(asyncResponse);
final BatchRunner batchTask = new BatchRunner(asyncResponse);
threadPool.submit(batchTask);
}
//回调方法 当请你去处理完成之后,CompletionCallback实例的onComplete()方法将会被回调,实现onComplete()方法,可以监听请求处理完成事件并实现相关业务流程。
private void configResponse(final AsyncResponse asyncResponse) {
asyncResponse.register((CompletionCallback) throwable -> {
if (throwable == null) {
log.info("CompletionCallback-onComplete: OK");
} else {
log.info("CompletionCallback-onComplete: ERROR: " + throwable.getMessage());
}
});
//
asyncResponse.register((ConnectionCallback) disconnected -> {
//Status.GONE=410
log.info("ConnectionCallback-onDisconnect");
//当请求--响应模型的连接断开的时候,CompletionCallback实例的onDisconnect()方法会被回调。实现这个方法可以监听连接断开事件并实现相关业务,比如主动唤醒AsyncRespurce实例并设置状态码HTTP为410、客户端请求资源不可用(Response.status(Response.Status.GONE)来完成响应工作。
disconnected.resume(Response.status(Response.Status.GONE).entity("disconnect!").build());
});
asyncResponse.setTimeoutHandler(new TimeoutHandler() {
//TimeoutHandler是JAX-RS2定义的超时处理接口,用于处理异步响应类超时事件,当预期的超时时间到达之后,TimeoutHandler实例的handleTimeout()方法就会被调用。实现这个方法可以监听超时时间并处理相关业务。 并设置状态码为503、服务器端服务不可用(Response.Status.SERVICE_UNAVAILABLE) TimeoutHandler的实现可以作为AsyncResource的setTimeoutHandler()方法的参数来配置。AsyncResource的setTimeout()方法用于设置超时时间,默认永不超时。
@Override
public void handleTimeout(AsyncResponse asyncResponse) {
//Status.SERVICE_UNAVAILABLE=503
log.info("TIMEOUT");
asyncResponse.resume(Response.status(Response.Status.SERVICE_UNAVAILABLE).entity("Operation time out.").build());
}
});
asyncResponse.setTimeout(TIMEOUT, TimeUnit.SECONDS);
}
class BatchRunner implements Runnable {
private final AsyncResponse response;
public BatchRunner(AsyncResponse asyncResponse) {
this.response = asyncResponse;
}
@Override
public void run() {
try {
Books books = doBatch();
response.resume(books);
} catch (InterruptedException e) {
log.error(e);
}
}
private Books doBatch() throws InterruptedException {
Books books = new Books();
for (int i = 0; i < 10; i++) {
Thread.sleep(500);
Book book = new Book(i + 10000l, "Java RESTful Web Services", "华章");
log.debug(book);
books.getBookList().add(book);
}
return books;
}
}
}
@Component
@Path("books")
@Produces({"application/json;charset=UTF-8", "application/javascript;charset=UTF-8", "text/javascript;charset=UTF-8"})
public class AsyncResource {
private static final Logger log = LogManager.getLogger(AsyncResource.class);
public static final long TIMEOUT = 120;
final ExecutorService threadPool = Executors.newFixedThreadPool(10);
@GET
public void getAll(@Suspended final AsyncResponse asyncResponse) {
//该方法用于定义回调
configResponse(asyncResponse);
final BatchRunner batchTask = new BatchRunner(asyncResponse);
threadPool.submit(batchTask);
}
//回调方法 当请你去处理完成之后,CompletionCallback实例的onComplete()方法将会被回调,实现onComplete()方法,可以监听请求处理完成事件并实现相关业务流程。
private void configResponse(final AsyncResponse asyncResponse) {
asyncResponse.register((CompletionCallback) throwable -> {
if (throwable == null) {
log.info("CompletionCallback-onComplete: OK");
} else {
log.info("CompletionCallback-onComplete: ERROR: " + throwable.getMessage());
}
});
//
asyncResponse.register((ConnectionCallback) disconnected -> {
//Status.GONE=410
log.info("ConnectionCallback-onDisconnect");
//当请求--响应模型的连接断开的时候,CompletionCallback实例的onDisconnect()方法会被回调。实现这个方法可以监听连接断开事件并实现相关业务,比如主动唤醒AsyncRespurce实例并设置状态码HTTP为410、客户端请求资源不可用(Response.status(Response.Status.GONE)来完成响应工作。
disconnected.resume(Response.status(Response.Status.GONE).entity("disconnect!").build());
});
asyncResponse.setTimeoutHandler(new TimeoutHandler() {
//TimeoutHandler是JAX-RS2定义的超时处理接口,用于处理异步响应类超时事件,当预期的超时时间到达之后,TimeoutHandler实例的handleTimeout()方法就会被调用。实现这个方法可以监听超时时间并处理相关业务。 并设置状态码为503、服务器端服务不可用(Response.Status.SERVICE_UNAVAILABLE) TimeoutHandler的实现可以作为AsyncResource的setTimeoutHandler()方法的参数来配置。AsyncResource的setTimeout()方法用于设置超时时间,默认永不超时。
@Override
public void handleTimeout(AsyncResponse asyncResponse) {
//Status.SERVICE_UNAVAILABLE=503
log.info("TIMEOUT");
asyncResponse.resume(Response.status(Response.Status.SERVICE_UNAVAILABLE).entity("Operation time out.").build());
}
});
asyncResponse.setTimeout(TIMEOUT, TimeUnit.SECONDS);
}
class BatchRunner implements Runnable {
private final AsyncResponse response;
public BatchRunner(AsyncResponse asyncResponse) {
this.response = asyncResponse;
}
@Override
public void run() {
try {
Books books = doBatch();
response.resume(books);
} catch (InterruptedException e) {
log.error(e);
}
}
private Books doBatch() throws InterruptedException {
Books books = new Books();
for (int i = 0; i < 10; i++) {
Thread.sleep(500);
Book book = new Book(i + 10000l, "Java RESTful Web Services", "华章");
log.debug(book);
books.getBookList().add(book);
}
return books;
}
}
}
- 1、测试方法:
@Test
public void testAsync() throws InterruptedException, ExecutionException {
final Invocation.Builder request = target("http://localhost:" + this.port + "/books").request();
final AsyncInvoker async = request.async();
//客户端试用AsyncInvoker的get()方法提交异步请求.该方法返回Future接口的实例,客户端线程可以以非阻塞的方法处理其他业务流程,然后调用Future的get()方法来获取服务器处理结果。
final Future<Books> responseFuture =
async.get(Books.class);
long beginTime = System.currentTimeMillis();
try {
Books result = responseFuture.get(AsyncResource.TIMEOUT + 1, TimeUnit.SECONDS);
log.debug("Testing result size = {}", result.getBookList().size());
//如果在指定时间内服务器没有响应,将会报TimeoutException异常,我们可以捕获这个异常并且实现超时处理。
} catch (TimeoutException e) {
log.debug("Fail to request asynchronously", e);
} finally {
log.debug("Elapsed time = {}", System.currentTimeMillis() - beginTime);
}
}
- 2、回调方法
@Test
public void testAsyncCallBack() throws InterruptedException, ExecutionException {
final AsyncInvoker async = target("http://localhost:" + this.port + "/books").request().async();
final Future<Books> responseFuture = async.get(new InvocationCallback<Books>() {
//处理REST回调成功的方法
@Override
public void completed(Books result) {
log.debug("On Completed: " + result.getBookList().size());
}
//处理REST回调失败的方法
@Override
public void failed(Throwable throwable) {
log.debug("On Failed: " + throwable.getMessage());
throwable.printStackTrace();
}
});
log.debug("First response time::" + System.currentTimeMillis());
try {
responseFuture.get(AsyncResource.TIMEOUT + 1, TimeUnit.SECONDS);
} catch (TimeoutException e) {
log.debug("", e);
} finally {
log.debug("Second response time::" + System.currentTimeMillis());
}
}
- 3、测试结果
{
"book":{
{
"bookId": 10000,
"bookName": "JAVA RESTful Web Service",
"publisher": "华章"
},
{
"bookId": 10001,
"bookName": "JAVA RESTful Web Service",
"publisher": "华章"
},
{
"bookId": 100002,
"bookName": "JAVA RESTful Web Service",
"publisher": "华章"
},
{
"bookId": 10003,
"bookName": "JAVA RESTful Web Service",
"publisher": "华章"
},
{
"bookId": 10004,
"bookName": "JAVA RESTful Web Service",
"publisher": "华章"
},
{
"bookId": 10005,
"bookName": "JAVA RESTful Web Service",
"publisher": "华章"
}
}
}