Vert.x Web Client(Web客户端)是一个异步的 HTTP 和 HTTP/2 客户端。
Web Client使得发送 HTTP 请求以及从 Web 服务器接收 HTTP 响应变得更加便捷,同时提供了额外的高级功能,例如:
JSON体的编码和解码
请求和响应泵
请求参数的处理
统一的错误处理
提交表单
制作Web Client的目的并非为了替换Vert.x Core中的 HttpClient,而是基于该客户端,扩展并保留其便利的设置和特性,例如请求连接池(Pooling),HTTP/2的支持,流水线/管线的支持等。当您需要对 HTTP 请求和响应做细微粒度控制时,您应当使用 HttpClient。
另外Web Client并未提供 WebSocket API,此时您应当使用 HttpClient。
如需使用Vert.x Web Client,请先加入以下依赖:
Maven(在 pom.xml文件中):
<dependency> <groupId>io.vertx</groupId> <artifactId>vertx-web-client</artifactId> <version>3.4.2</version> </dependency>Gradle(在build.gradle文件中):
dependencies { compile 'io.vertx:vertx-web-client:3.4.2' }Vert.x Web Client使用Vert.x Core的API,如您对此还不熟悉,请先熟悉 HttpClient 的一些基本概念。
您可使用缺省设置创建一个 WebClient:
WebClient client = WebClient.create(vertx);您亦可使用配置选项来创建客户端:
WebClientOptions options = new WebClientOptions() .setUserAgent("My-App/1.2.3"); options.setKeepAlive(false); WebClient client = WebClient.create(vertx, options);Web Client配置选项继承自 HttpClient 配置选项,使用时可根据实际情况选择。
如已在程序中创建 HttpClient,可用以下方式复用:
WebClient client = WebClient.wrap(httpClient);一般情况下,HTTP GET,OPTIONS以及HEAD请求没有请求体,可用以下方式发送无请求体的HTTP Requests(HTTP请求):
WebClient client = WebClient.create(vertx); // 发送GET请求 client .get(8080, "myserver.mycompany.com", "/some-uri") .send(ar -> { if (ar.succeeded()) { // 获取响应 HttpResponse<Buffer> response = ar.result(); System.out.println("Received response with status code" + response.statusCode()); } else { System.out.println("Something went wrong " + ar.cause().getMessage()); } }); //发送HEAD请求 client .head(8080, "myserver.mycompany.com", "/some-uri") .send(ar -> { if (ar.succeeded()) { // 获取响应 HttpResponse<Buffer> response = ar.result(); System.out.println("Received response with status code" + response.statusCode()); } else { System.out.println("Something went wrong " + ar.cause().getMessage()); } });您可用以下链式方式向请求URI添加查询参数
client .get(8080, "myserver.mycompany.com", "/some-uri") .addQueryParam("param", "param_value") .send(ar -> {});在请求URI中的参数将会被预填充
HttpRequest<Buffer> request = client.get(8080, "myserver.mycompany.com", "/some-uri?param1=param1_value¶m2=param2_value"); // 添加param3(参数3) request.addQueryParam("param3", "param3_value"); // 覆盖param2(参数2) request.setQueryParam("param2", "another_param2_value");设置请求URI将会自动清除已有的查询参数
HttpRequest<Buffer> request = client.get(8080, "myserver.mycompany.com", "/some-uri"); // 添加param1(参数1) request.addQueryParam("param1", "param1_value"); // 覆盖param1(参数1)同时新增param2(参数2) request.uri("/some-uri?param1=param1_value¶m2=param2_value");如需要发送请求体,可使用相同的API并在最后加上 sendXXX 方法发送相应的请求体。
例如用 sendBuffer 方法发送一个缓冲体:
client .post(8080, "myserver.mycompany.com", "/some-uri") .sendBuffer(buffer, ar -> { if (ar.succeeded()) { // Ok } }); client .post(8080, "myserver.mycompany.com", "/some-uri") .sendBuffer(buffer, ar -> { if (ar.succeeded()) { // Ok } });
有时候我们并不希望将所有数据一次性全部读入内存,因为文件太大或希望同时处理多个请求,希望每个请求仅使用最小的内存。出于此目的,Web Client可用 sendStream 方法发送流式数据 ReadStream<Buffer>(例如 AsyncFile 便是一个 ReadStream<Buffer>):
client .post(8080, "myserver.mycompany.com", "/some-uri") .sendStream(stream, resp -> {});Web Client会为您设置好传输泵以平滑传输流。如果流长度未知则使用分块传输(chunked transfer)。
如已知流的大小,可在HTTP协议头中设置 content-length 属性
fs.open("content.txt", new OpenOptions(), fileRes -> { if (fileRes.succeeded()) { ReadStream<Buffer> fileStream = fileRes.result(); String fileLen = "1024"; // 用POST方法发送文件 client .post(8080, "myserver.mycompany.com", "/some-uri") .putHeader("content-length", fileLen) .sendStream(fileStream, ar -> { if (ar.succeeded()) { // Ok } }); } });此时POST方法不会使用分块传输。
有时您需要在请求体中使用JSON格式,可使用 sendJsonObject 方法发送 JsonObject:
client .post(8080, "myserver.mycompany.com", "/some-uri") .sendJsonObject(new JsonObject() .put("firstName", "Dale") .put("lastName", "Cooper"), ar -> { if (ar.succeeded()) { // Ok } });在Java,Groovy以及Kotlin语言中,您亦可使用 sendJson 方法发送POJO(Plain Old Java Object),该方法会自动调用 Json.encode 方法将 POJO 映射为 JSON:
client .post(8080, "myserver.mycompany.com", "/some-uri") .sendJson(new User("Dale", "Cooper"), ar -> { if (ar.succeeded()) { // Ok } });请注意: Json.encode 方法使用Jackson的 mapper将 POJO 映射成 JSON。
您可使用 sendForm 方法发送HTTP表单。
MultiMap form = MultiMap.caseInsensitiveMultiMap(); form.set("firstName", "Dale"); form.set("lastName", "Cooper"); // 用URL编码方式提交表单 client .post(8080, "myserver.mycompany.com", "/some-uri") .sendForm(form, ar -> { if (ar.succeeded()) { // Ok } });缺省情况下,提交表单的请求头中的 content-type 属性值为 application/x-www-form-urlencoded,您亦可将其设置为 multipart/form-data:
MultiMap form = MultiMap.caseInsensitiveMultiMap(); form.set("firstName", "Dale"); form.set("lastName", "Cooper"); // 用分块方式编码提交表单 client .post(8080, "myserver.mycompany.com", "/some-uri") .putHeader("content-type", "multipart/form-data") .sendForm(form, ar -> { if (ar.succeeded()) { // Ok } });请注意:当前版本并不支持分块文件编码(multipart files,即文件上传),该功能可能在将来版本中予以支持。
您可使用以下方式填充请求头:
HttpRequest<Buffer> request = client.get(8080, "myserver.mycompany.com", "/some-uri"); MultiMap headers = request.headers(); headers.set("content-type", "application/json"); headers.set("other-header", "foo");此处 Headers 是一个 MultiMap 对象,提供了增加、设置以及删除头属性操作的入口。HTTP头的某些特定属性允许设置多个值。
您亦可通过 putHeader 方法写入头属性:
HttpRequest<Buffer> request = client.get(8080, "myserver.mycompany.com", "/some-uri"); request.putHeader("content-type", "application/json"); request.putHeader("other-header", "foo");send 方法可被重复多次调用,这使得配置以及重用 HttpRequest 对象变得更加便捷:
HttpRequest<Buffer> get = client.get(8080, "myserver.mycompany.com", "/some-uri"); get.send(ar -> { if (ar.succeeded()) { // Ok } }); // 再次发送同样的请求 get.send(ar -> { if (ar.succeeded()) { // Ok } });请注意,HttpRequest 对象是可变的。 所以在修改缓存中的对象之前,您应当使用 copy 方法先复制一份拷贝:
HttpRequest<Buffer> get = client.get(8080, "myserver.mycompany.com", "/some-uri"); get.send(ar -> { if (ar.succeeded()) { // Ok } }); // 获取同样的请求 get.copy() .putHeader("an-header", "with-some-value") .send(ar -> { if (ar.succeeded()) { // Ok }您可通过 timeout 方法设置超时时间。
client .get(8080, "myserver.mycompany.com", "/some-uri") .timeout(5000) .send(ar -> { if (ar.succeeded()) { // Ok } else { // 此处可填入超时处理部分代码 } });若请求在设定时间内没返回任何数据,则一个超时异常将会传递给响应处理代码。
Web Client请求发送之后,返回的结果将会被包装在异步结果 HttpResponse 中。
当响应被成功接收到之后,相应的回调函数将会被触发。
client .get(8080, "myserver.mycompany.com", "/some-uri") .send(ar -> { if (ar.succeeded()) { HttpResponse<Buffer> response = ar.result(); System.out.println("Received response with status code" + response.statusCode()); } else { System.out.println("Something went wrong " + ar.cause().getMessage()); } });警告:缺省状况下,响应会被完全缓冲读入内存,请用 BodyCodec.pipe 方法将响应写入流。
缺省状况下,响应以缓冲形式提供,并不提供任何形式的解码。
可用 BodyCodec 将响应定制成以下类型:
普通字符串JSON对象将JSON映射成POJOWriteStream响应体编解码器对二进制数据流解码,以节省您在响应处理中的代码。
使用 BodyCodec.jsonObject 将结果解码为JSON对象:
client .get(8080, "myserver.mycompany.com", "/some-uri") .as(BodyCodec.jsonObject()) .send(ar -> { if (ar.succeeded()) { HttpResponse<JsonObject> response = ar.result(); JsonObject body = response.body(); System.out.println("Received response with status code" + response.statusCode() + " with body " + body); } else { System.out.println("Something went wrong " + ar.cause().getMessage()); } });在Java,Groovy以及Kotlin语言中,JSON对象可被解码映射成POJO:
client .get(8080, "myserver.mycompany.com", "/some-uri") .as(BodyCodec.json(User.class)) .send(ar -> { if (ar.succeeded()) { HttpResponse<User> response = ar.result(); User user = response.body(); System.out.println("Received response with status code" + response.statusCode() + " with body " + user.getFirstName() + " " + user.getLastName()); } else { System.out.println("Something went wrong " + ar.cause().getMessage()); } });当响应结果较大时,请使用 BodyCodec.pipe 方法。响应体编解码器将响应结果压入 WriteStream 并在最后发出成功或失败的信号。
client .get(8080, "myserver.mycompany.com", "/some-uri") .as(BodyCodec.pipe(writeStream)) .send(ar -> { if (ar.succeeded()) { HttpResponse<Void> response = ar.result(); System.out.println("Received response with status code" + response.statusCode()); } else { System.out.println("Something went wrong " + ar.cause().getMessage()); } });最后,如您对响应结果不感兴趣,可用 BodyCodec.none 废弃响应体。
client .get(8080, "myserver.mycompany.com", "/some-uri") .as(BodyCodec.none()) .send(ar -> { if (ar.succeeded()) { HttpResponse<Void> response = ar.result(); System.out.println("Received response with status code" + response.statusCode()); } else { System.out.println("Something went wrong " + ar.cause().getMessage()); } });若无法预知响应内容类型,您依旧可以在获取结果之后,用 bodyAsXXX() 方法将其转换成特定的类型
client .get(8080, "myserver.mycompany.com", "/some-uri") .send(ar -> { if (ar.succeeded()) { HttpResponse<Buffer> response = ar.result(); // 将结果解码为Json对象 JsonObject body = response.bodyAsJsonObject(); System.out.println("Received response with status code" + response.statusCode() + " with body " + body); } else { System.out.println("Something went wrong " + ar.cause().getMessage()); } });警告:这种方式仅对响应结果为缓冲体有效。
缺省状况下,客户端将会依照30x状态码自动重定向,您可使用 WebClientOptions 予以配置:
WebClient client = WebClient.create(vertx, new WebClientOptions().setFollowRedirects(false));客户端将会执行最多达16次重定向,该参数亦可在 WebClientOptions 配置:
WebClient client = WebClient.create(vertx, new WebClientOptions().setMaxRedirects(5));Vert.x Web Client可用与 HttpClient 相同方式配置HTTPS协议。
您可对每个请求单独设置:
client .get(443, "myserver.mycompany.com", "/some-uri") .ssl(true) .send(ar -> { if (ar.succeeded()) { // 获取响应 HttpResponse<Buffer> response = ar.result(); System.out.println("Received response with status code" + response.statusCode()); } else { System.out.println("Something went wrong " + ar.cause().getMessage()); } });或使用绝对路径:
client .getAbs("https://myserver.mycompany.com:4043/some-uri") .send(ar -> { if (ar.succeeded()) { // 获取响应 HttpResponse<Buffer> response = ar.result(); System.out.println("Received response with status code" + response.statusCode()); } else { System.out.println("Something went wrong " + ar.cause().getMessage()); } });RxJava的 HttpRequest 提供了原版API的响应式版本,rxSend 方法返回一个可被订阅的 Single<HttpResponse<Buffer>>,故单个 Single 可被多次订阅。
Single<HttpResponse<Buffer>> single = client .get(8080, "myserver.mycompany.com", "/some-uri") .rxSend(); // 发送一次请求,并处理其响应,rx通常通过订阅触发各种响应 single.subscribe(response -> { System.out.println("Received 1st response with status code" + response.statusCode()); }, error -> { System.out.println("Something went wrong " + error.getMessage()); }); // 再次发送请求 single.subscribe(response -> { System.out.println("Received 2nd response with status code" + response.statusCode()); }, error -> { System.out.println("Something went wrong " + error.getMessage()); });获取到的 Single 可与其它RxJava API自然组合成链式处理
Single<String> url = client .get(8080, "myserver.mycompany.com", "/some-uri") .rxSend() .map(HttpResponse::bodyAsString); // 用flatMap将返回值内的链接作为参数传入lambda,在lambda中将其设置成发送请求,并返回Single,在下一步订阅中予以触发 url .flatMap(u -> client.getAbs(u).rxSend()) .subscribe(response -> { System.out.println("Received response with status code" + response.statusCode()); }, error -> { System.out.println("Something went wrong " + error.getMessage()); });之前的例子可写成
Single<HttpResponse<JsonObject>> single = client .get(8080, "myserver.mycompany.com", "/some-uri") .putHeader("some-header", "header-value") .addQueryParam("some-param", "param value") .as(BodyCodec.jsonObject()) .rxSend(); single.subscribe(resp -> { System.out.println(resp.statusCode()); System.out.println(resp.body()); });当发送请求体为 Observable<Buffer> 时,应使用 sendStream:
Observable<Buffer> body = getPayload(); Single<HttpResponse<Buffer>> single = client .post(8080, "myserver.mycompany.com", "/some-uri") .rxSendStream(body); single.subscribe(resp -> { System.out.println(resp.statusCode()); System.out.println(resp.body()); });当订阅时,body 将会被订阅,其内容将会被用于请求中。
转载于:https://www.cnblogs.com/heqiyoujing/p/9746253.html
