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HttpClient 是 Apache Jakarta Common 下的子项目,用来提供高效的、最新的、功能丰富的支持 HTTP 协议的客户端编程工具包,并且它支持 HTTP 协议最新的版本和建议。HttpClient 已经应用在很多的项目中,比如 Apache Jakarta 上很著名的另外两个开源项目 Cactus 和 HTMLUnit 都使用了 HttpClient。
HttpClient 提供的主要的功能,要知道更多详细的功能可以参见 HttpClient 的主页。
import java.io.IOException; import java.net.SocketTimeoutException; import java.nio.charset.Charset; import java.security.cert.CertificateException; import java.security.cert.X509Certificate; import java.util.ArrayList; import java.util.List; import java.util.Map; import javax.net.ssl.SSLContext; import javax.net.ssl.SSLException; import javax.net.ssl.SSLSession; import javax.net.ssl.SSLSocket; import javax.net.ssl.TrustManager; import javax.net.ssl.X509TrustManager; import org.apache.http.Header; import org.apache.http.HttpEntity; import org.apache.http.HttpResponse; import org.apache.http.NameValuePair; import org.apache.http.ParseException; import org.apache.http.client.ClientProtocolException; import org.apache.http.client.HttpClient; import org.apache.http.client.entity.UrlEncodedFormEntity; import org.apache.http.client.methods.HttpGet; import org.apache.http.client.methods.HttpPost; import org.apache.http.conn.ConnectTimeoutException; import org.apache.http.conn.scheme.Scheme; import org.apache.http.conn.ssl.SSLSocketFactory; import org.apache.http.conn.ssl.X509HostnameVerifier; import org.apache.http.entity.ContentType; import org.apache.http.entity.StringEntity; import org.apache.http.impl.client.DefaultHttpClient; import org.apache.http.message.BasicNameValuePair; import org.apache.http.params.CoreConnectionPNames; import org.apache.http.protocol.HTTP; import org.apache.http.util.EntityUtils; /** * 封装了采用HttpClient发送HTTP请求的方法 * @see 本工具所采用的是HttpComponents-Client-4.2.1 * @see =================================================================================================== * @see 开发HTTPS应用时,时常会遇到两种情况 * @see 1、测试服务器没有有效的SSL证书,客户端连接时就会抛异常 * @see javax.net.ssl.SSLPeerUnverifiedException: peer not authenticated * @see 2、测试服务器有SSL证书,但可能由于各种不知名的原因,它还是会抛一堆烂码七糟的异常,诸如下面这两种 * @see javax.net.ssl.SSLException: hostname in certificate didn‘t match: <123.125.97.66> != <123.125.97.241> * @see javax.net.ssl.SSLHandshakeException: sun.security.validator.ValidatorException: PKIX path building failed: sun.security.provider.certpath.SunCertPathBuilderException: unable to find valid certification path to requested target * @see =================================================================================================== * @see 这里使用的是HttpComponents-Client-4.2.1创建的连接,所以就要告诉它使用一个不同的TrustManager * @see 由于SSL使用的模式是X.509,对于该模式,Java有一个特定的TrustManager,称为X509TrustManager * @see TrustManager是一个用于检查给定的证书是否有效的类,所以我们自己创建一个X509TrustManager实例 * @see 而在X509TrustManager实例中,若证书无效,那么TrustManager在它的checkXXX()方法中将抛出CertificateException * @see 既然我们要接受所有的证书,那么X509TrustManager里面的方法体中不抛出异常就行了 * @see 然后创建一个SSLContext并使用X509TrustManager实例来初始化之 * @see 接着通过SSLContext创建SSLSocketFactory,最后将SSLSocketFactory注册给HttpClient就可以了 * @see =================================================================================================== * @version v1.7 * @history v1.0-->新建<code>sendGetRequest()</code>和<code>sendPostRequest()</code>方法 * @history v1.1-->新增<code>sendPostSSLRequest()</code>方法,用于发送HTTPS的POST请求 * @history v1.2-->新增<code>sendPostRequest()</code>方法,用于发送HTTP协议报文体为任意字符串的POST请求 * @history v1.3-->新增<code>java.net.HttpURLConnection</code>实现的<code>sendPostRequestByJava()</code> * @history v1.4-->所有POST方法中增加连接超时限制和读取超时限制 * @history v1.5-->重组各方法,并补充自动获取HTTP响应文本编码的方式,移除<code>sendPostRequestByJava()</code> * @history v1.6-->整理GET和POST请求方法,使之更为适用 * @history v1.7-->修正<code>sendPostRequest()</code>请求的CONTENT_TYPE头信息,并优化各方法参数及内部处理细节 * @create Feb 1, 2012 3:02:27 PM * @update Jul 23, 2013 1:18:35 PM * @author 玄玉<http://blog.csdn.net/jadyer> */ public class HttpClientUtil { private HttpClientUtil(){} /** * 发送HTTP_GET请求 * @see 1)该方法会自动关闭连接,释放资源 * @see 2)方法内设置了连接和读取超时时间,单位为毫秒,超时或发生其它异常时方法会自动返回"通信失败"字符串 * @see 3)请求参数含中文时,经测试可直接传入中文,HttpClient会自动编码发给Server,应用时应根据实际效果决定传入前是否转码 * @see 4)该方法会自动获取到响应消息头中[Content-Type:text/html; charset=GBK]的charset值作为响应报文的解码字符集 * @see 若响应消息头中无Content-Type属性,则会使用HttpClient内部默认的ISO-8859-1作为响应报文的解码字符集 * @param requestURL 请求地址(含参数) * @return 远程主机响应正文 */ public static String sendGetRequest(String reqURL){ String respContent = "通信失败"; //响应内容 HttpClient httpClient = new DefaultHttpClient(); //创建默认的httpClient实例 //设置代理服务器 //httpClient.getParams().setParameter(ConnRoutePNames.DEFAULT_PROXY, new HttpHost("10.0.0.4", 8080)); httpClient.getParams().setParameter(CoreConnectionPNames.CONNECTION_TIMEOUT, 10000); //连接超时10s httpClient.getParams().setParameter(CoreConnectionPNames.SO_TIMEOUT, 20000); //读取超时20s HttpGet httpGet = new HttpGet(reqURL); //创建org.apache.http.client.methods.HttpGet try{ HttpResponse response = httpClient.execute(httpGet); //执行GET请求 HttpEntity entity = response.getEntity(); //获取响应实体 if(null != entity){ //respCharset=EntityUtils.getContentCharSet(entity)也可以获取响应编码,但从4.1.3开始不建议使用这种方式 Charset respCharset = ContentType.getOrDefault(entity).getCharset(); respContent = EntityUtils.toString(entity, respCharset); //Consume response content EntityUtils.consume(entity); } System.out.println("-------------------------------------------------------------------------------------------"); StringBuilder respHeaderDatas = new StringBuilder(); for(Header header : response.getAllHeaders()){ respHeaderDatas.append(header.toString()).append("\r\n"); } String respStatusLine = response.getStatusLine().toString(); //HTTP应答状态行信息 String respHeaderMsg = respHeaderDatas.toString().trim(); //HTTP应答报文头信息 String respBodyMsg = respContent; //HTTP应答报文体信息 System.out.println("HTTP应答完整报文=[" + respStatusLine + "\r\n" + respHeaderMsg + "\r\n\r\n" + respBodyMsg + "]"); System.out.println("-------------------------------------------------------------------------------------------"); } catch (ConnectTimeoutException cte){ //Should catch ConnectTimeoutException, and don`t catch org.apache.http.conn.HttpHostConnectException LogUtil.getLogger().error("请求通信[" + reqURL + "]时连接超时,堆栈轨迹如下", cte); } catch (SocketTimeoutException ste){ LogUtil.getLogger().error("请求通信[" + reqURL + "]时读取超时,堆栈轨迹如下", ste); }catch(ClientProtocolException cpe){ //该异常通常是协议错误导致:比如构造HttpGet对象时传入协议不对(将‘http‘写成‘htp‘)or响应内容不符合HTTP协议要求等 LogUtil.getLogger().error("请求通信[" + reqURL + "]时协议异常,堆栈轨迹如下", cpe); }catch(ParseException pe){ LogUtil.getLogger().error("请求通信[" + reqURL + "]时解析异常,堆栈轨迹如下", pe); }catch(IOException ioe){ //该异常通常是网络原因引起的,如HTTP服务器未启动等 LogUtil.getLogger().error("请求通信[" + reqURL + "]时网络异常,堆栈轨迹如下", ioe); }catch (Exception e){ LogUtil.getLogger().error("请求通信[" + reqURL + "]时偶遇异常,堆栈轨迹如下", e); }finally{ //关闭连接,释放资源 httpClient.getConnectionManager().shutdown(); } return respContent; } /** * 发送HTTP_POST请求 * @see 1)该方法允许自定义任何格式和内容的HTTP请求报文体 * @see 2)该方法会自动关闭连接,释放资源 * @see 3)方法内设置了连接和读取超时时间,单位为毫秒,超时或发生其它异常时方法会自动返回"通信失败"字符串 * @see 4)请求参数含中文等特殊字符时,可直接传入本方法,并指明其编码字符集encodeCharset参数,方法内部会自动对其转码 * @see 5)该方法在解码响应报文时所采用的编码,取自响应消息头中的[Content-Type:text/html; charset=GBK]的charset值 * @see 若响应消息头中未指定Content-Type属性,则会使用HttpClient内部默认的ISO-8859-1 * @param reqURL 请求地址 * @param reqData 请求参数,若有多个参数则应拼接为param11=value11&22=value22&33=value33的形式 * @param encodeCharset 编码字符集,编码请求数据时用之,此参数为必填项(不能为""或null) * @return 远程主机响应正文 */ public static String sendPostRequest(String reqURL, String reqData, String encodeCharset){ String reseContent = "通信失败"; HttpClient httpClient = new DefaultHttpClient(); httpClient.getParams().setParameter(CoreConnectionPNames.CONNECTION_TIMEOUT, 10000); httpClient.getParams().setParameter(CoreConnectionPNames.SO_TIMEOUT, 20000); HttpPost httpPost = new HttpPost(reqURL); //由于下面使用的是new StringEntity(....),所以默认发出去的请求报文头中CONTENT_TYPE值为text/plain; charset=ISO-8859-1 //这就有可能会导致服务端接收不到POST过去的参数,比如运行在Tomcat6.0.36中的Servlet,所以我们手工指定CONTENT_TYPE头消息 httpPost.setHeader(HTTP.CONTENT_TYPE, "application/x-www-form-urlencoded; charset=" + encodeCharset); try{ httpPost.setEntity(new StringEntity(reqData==null?"":reqData, encodeCharset)); HttpResponse response = httpClient.execute(httpPost); HttpEntity entity = response.getEntity(); if (null != entity) { reseContent = EntityUtils.toString(entity, ContentType.getOrDefault(entity).getCharset()); EntityUtils.consume(entity); } } catch (ConnectTimeoutException cte){ LogUtil.getLogger().error("请求通信[" + reqURL + "]时连接超时,堆栈轨迹如下", cte); } catch (SocketTimeoutException ste){ LogUtil.getLogger().error("请求通信[" + reqURL + "]时读取超时,堆栈轨迹如下", ste); }catch(Exception e){ LogUtil.getLogger().error("请求通信[" + reqURL + "]时偶遇异常,堆栈轨迹如下", e); }finally{ httpClient.getConnectionManager().shutdown(); } return reseContent; } /** * 发送HTTP_POST_SSL请求 * @see 1)该方法会自动关闭连接,释放资源 * @see 2)该方法亦可处理普通的HTTP_POST请求 * @see 3)当处理HTTP_POST_SSL请求时,默认请求的是对方443端口,除非reqURL参数中指明了SSL端口 * @see 4)方法内设置了连接和读取超时时间,单位为毫秒,超时或发生其它异常时方法会自动返回"通信失败"字符串 * @see 5)请求参数含中文等特殊字符时,可直接传入本方法,并指明其编码字符集encodeCharset参数,方法内部会自动对其转码 * @see 6)方法内部会自动注册443作为SSL端口,若实际使用中reqURL指定的SSL端口非443,可自行尝试更改方法内部注册的SSL端口 * @see 7)该方法在解码响应报文时所采用的编码,取自响应消息头中的[Content-Type:text/html; charset=GBK]的charset值 * @see 若响应消息头中未指定Content-Type属性,则会使用HttpClient内部默认的ISO-8859-1 * @param reqURL 请求地址 * @param params 请求参数 * @param encodeCharset 编码字符集,编码请求数据时用之,当其为null时,则取HttpClient内部默认的ISO-8859-1编码请求参数 * @return 远程主机响应正文 */ public static String sendPostSSLRequest(String reqURL, Map<String, String> params, String encodeCharset){ String responseContent = "通信失败"; HttpClient httpClient = new DefaultHttpClient(); httpClient.getParams().setParameter(CoreConnectionPNames.CONNECTION_TIMEOUT, 10000); httpClient.getParams().setParameter(CoreConnectionPNames.SO_TIMEOUT, 20000); //创建TrustManager() //用于解决javax.net.ssl.SSLPeerUnverifiedException: peer not authenticated X509TrustManager trustManager = new X509TrustManager(){ @Override public void checkClientTrusted(X509Certificate[] chain, String authType) throws CertificateException {} @Override public void checkServerTrusted(X509Certificate[] chain, String authType) throws CertificateException {} @Override public X509Certificate[] getAcceptedIssuers() {return null;} }; //创建HostnameVerifier //用于解决javax.net.ssl.SSLException: hostname in certificate didn‘t match: <123.125.97.66> != <123.125.97.241> X509HostnameVerifier hostnameVerifier = new X509HostnameVerifier(){ @Override public void verify(String host, SSLSocket ssl) throws IOException {} @Override public void verify(String host, X509Certificate cert) throws SSLException {} @Override public void verify(String host, String[] cns, String[] subjectAlts) throws SSLException {} @Override public boolean verify(String arg0, SSLSession arg1) {return true;} }; try { //TLS1.0与SSL3.0基本上没有太大的差别,可粗略理解为TLS是SSL的继承者,但它们使用的是相同的SSLContext SSLContext sslContext = SSLContext.getInstance(SSLSocketFactory.TLS); //使用TrustManager来初始化该上下文,TrustManager只是被SSL的Socket所使用 sslContext.init(null, new TrustManager[]{trustManager}, null); //创建SSLSocketFactory SSLSocketFactory socketFactory = new SSLSocketFactory(sslContext, hostnameVerifier); //通过SchemeRegistry将SSLSocketFactory注册到HttpClient上 httpClient.getConnectionManager().getSchemeRegistry().register(new Scheme("https", 443, socketFactory)); //创建HttpPost HttpPost httpPost = new HttpPost(reqURL); //由于下面使用的是new UrlEncodedFormEntity(....),所以这里不需要手工指定CONTENT_TYPE为application/x-www-form-urlencoded //因为在查看了HttpClient的源码后发现,UrlEncodedFormEntity所采用的默认CONTENT_TYPE就是application/x-www-form-urlencoded //httpPost.setHeader(HTTP.CONTENT_TYPE, "application/x-www-form-urlencoded; charset=" + encodeCharset); //构建POST请求的表单参数 if(null != params){ List<NameValuePair> formParams = new ArrayList<NameValuePair>(); for(Map.Entry<String,String> entry : params.entrySet()){ formParams.add(new BasicNameValuePair(entry.getKey(), entry.getValue())); } httpPost.setEntity(new UrlEncodedFormEntity(formParams, encodeCharset)); } HttpResponse response = httpClient.execute(httpPost); HttpEntity entity = response.getEntity(); if (null != entity) { responseContent = EntityUtils.toString(entity, ContentType.getOrDefault(entity).getCharset()); EntityUtils.consume(entity); } } catch (ConnectTimeoutException cte){ LogUtil.getLogger().error("请求通信[" + reqURL + "]时连接超时,堆栈轨迹如下", cte); } catch (SocketTimeoutException ste){ LogUtil.getLogger().error("请求通信[" + reqURL + "]时读取超时,堆栈轨迹如下", ste); } catch (Exception e) { LogUtil.getLogger().error("请求通信[" + reqURL + "]时偶遇异常,堆栈轨迹如下", e); } finally { httpClient.getConnectionManager().shutdown(); } return responseContent; } }
下面是测试代码
public static void main(String[] args) { Map<String, String> params = new HashMap<String, String>(); params.put("merNo", "301100100001630"); params.put("signType", "MD5"); params.put("merBindAgrNo", "00003018007000006450000013866742"); params.put("interfaceVersion", "1.0.0.0"); params.put("amount", "1000"); params.put("orderDate", "20120823"); params.put("orderNo", "UDP1208230917531231111"); params.put("merReqTime", "20120823091802"); params.put("goodsDesc", "为号码交费充值元"); params.put("goodsName", "中国联通交费充值"); params.put("userIdeMark", "3"); params.put("bankAgrMode", "9"); params.put("signMsg", "3ced24a118461043901d47815e6905a9"); System.out.println(HttpClientUtil.sendPostSSLRequest("https://123.125.97.66:8085/pay/servlet/CreditPayReqServlte", params, "UTF-8")); }
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原文地址:http://www.cnblogs.com/zhujiabin/p/4681809.html
