Java下SSL通信原理的示例代码分享
首先我们先回顾一下常规的Java Socket编程。在Java下写一个Socket服务器和客户端的例子还是比较简单的。
服务端很简单:侦听8080端口,并把客户端发来的字符串返回去。以下是服务端的代码:
package org.bluedash.tryssl; import java.io.BufferedReader; import java.io.IOException; import java.io.InputStreamReader; import java.io.PrintWriter; import java.net.ServerSocket; import java.net.Socket; public class Server extends Thread { private Socket socket; public Server(Socket socket) { this.socket = socket; } public void run() { try { BufferedReader reader = new BufferedReader(new InputStreamReader(socket.getInputStream())); PrintWriter writer = new PrintWriter(socket.getOutputStream()); String data = reader.readLine(); writer.println(data); writer.close(); socket.close(); } catch (IOException e) { } } public static void main(String[] args) throws Exception { while (true) { new Server((new ServerSocket(8080)).accept()).start(); } } }
客户端也非常简单:向服务端发起请求,发送一个”hello”字串,然后获得服务端的返回。下面是客户端的代码:
package org.bluedash.tryssl; import java.io.BufferedReader; import java.io.InputStreamReader; import java.io.PrintWriter; import java.net.Socket; public class Client { public static void main(String[] args) throws Exception { Socket s = new Socket("localhost", 8080); PrintWriter writer = new PrintWriter(s.getOutputStream()); BufferedReader reader = new BufferedReader(new InputStreamReader(s.getInputStream())); writer.println("hello"); writer.flush(); System.out.println(reader.readLine()); s.close(); } }
把服务端运行起来后,执行客户端,我们将得到”hello”的返回。
就是这样一套简单的网络通信的代码,我们来把它改造成使用SSL通信。在SSL通信协议中,我们都知道首先服务端必须有一个数字证书,当客户端连接到服务端时,会得到这个证书,然后客户端会判断这个证书是否是可信的,如果是,则交换信道加密密钥,进行通信。如果不信任这个证书,则连接失败。
因此,我们首先要为服务端生成一个数字证书。Java环境下,数字证书是用keytool生成的,这些证书被存储在store的概念中,就是证书仓库。我们来调用keytool命令为服务端生成数字证书和保存它使用的证书仓库:
keytool -genkey -v -alias bluedash-ssl-demo-server -keyalg RSA -keystore ./server_ks -dname "CN=localhost,OU=cn,O=cn,L=cn,ST=cn,C=cn" -storepass server -keypass 123123
这样,我们就将服务端证书bluedash-ssl-demo-server保存在了server_ksy这个store文件当中。有关keytool的用法在本文中就不再多赘述。执行上面的命令得到如下结果:
Generating 1,024 bit RSA key pair and self-signed certificate (SHA1withRSA) with a validity of 90 days for: CN=localhost, OU=cn, O=cn, L=cn, ST=cn, C=cn [Storing ./server_ks]
然后,改造我们的服务端代码,让服务端使用这个证书,并提供SSL通信:
package org.bluedash.tryssl; import java.io.BufferedReader; import java.io.FileInputStream; import java.io.IOException; import java.io.InputStreamReader; import java.io.PrintWriter; import java.net.ServerSocket; import java.net.Socket; import java.security.KeyStore; import javax.net.ServerSocketFactory; import javax.net.ssl.KeyManagerFactory; import javax.net.ssl.SSLContext; import javax.net.ssl.SSLServerSocket; public class SSLServer extends Thread { private Socket socket; public SSLServer(Socket socket) { this.socket = socket; } public void run() { try { BufferedReader reader = new BufferedReader(new InputStreamReader(socket.getInputStream())); PrintWriter writer = new PrintWriter(socket.getOutputStream()); String data = reader.readLine(); writer.println(data); writer.close(); socket.close(); } catch (IOException e) { } } private static String SERVER_KEY_STORE = "/Users/liweinan/projs/ssl/src/main/resources/META-INF/server_ks"; private static String SERVER_KEY_STORE_PASSWORD = "123123"; public static void main(String[] args) throws Exception { System.setProperty("javax.net.ssl.trustStore", SERVER_KEY_STORE); SSLContext context = SSLContext.getInstance("TLS"); KeyStore ks = KeyStore.getInstance("jceks"); ks.load(new FileInputStream(SERVER_KEY_STORE), null); KeyManagerFactory kf = KeyManagerFactory.getInstance("SunX509"); kf.init(ks, SERVER_KEY_STORE_PASSWORD.toCharArray()); context.init(kf.getKeyManagers(), null, null); ServerSocketFactory factory = context.getServerSocketFactory(); ServerSocket _socket = factory.createServerSocket(8443); ((SSLServerSocket) _socket).setNeedClientAuth(false); while (true) { new SSLServer(_socket.accept()).start(); } } }
可以看到,服务端的Socket准备设置工作大大增加了,增加的代码的作用主要是将证书导入并进行使用。此外,所使用的Socket变成了SSLServerSocket,另外端口改到了8443(这个不是强制的,仅仅是为了遵守习惯)。另外,最重要的一点,服务端证书里面的CN一定和服务端的域名统一,我们的证书服务的域名是localhost,那么我们的客户端在连接服务端时一定也要用localhost来连接,否则根据SSL协议标准,域名与证书的CN不匹配,说明这个证书是不安全的,通信将无法正常运行。
有了服务端,我们原来的客户端就不能使用了,必须要走SSL协议。由于服务端的证书是我们自己生成的,没有任何受信任机构的签名,所以客户端是无法验证服务端证书的有效性的,通信必然会失败。所以我们需要为客户端创建一个保存所有信任证书的仓库,然后把服务端证书导进这个仓库。这样,当客户端连接服务端时,会发现服务端的证书在自己的信任列表中,就可以正常通信了。
因此现在我们要做的是生成一个客户端的证书仓库,因为keytool不能仅生成一个空白仓库,所以和服务端一样,我们还是生成一个证书加一个仓库(客户端证书加仓库):
keytool -genkey -v -alias bluedash-ssl-demo-client -keyalg RSA -keystore ./client_ks -dname "CN=localhost,OU=cn,O=cn,L=cn,ST=cn,C=cn" -storepass client -keypass 456456
结果如下:
Generating 1,024 bit RSA key pair and self-signed certificate (SHA1withRSA) with a validity of 90 days for: CN=localhost, OU=cn, O=cn, L=cn, ST=cn, C=cn [Storing ./client_ks]
接下来,我们要把服务端的证书导出来,并导入到客户端的仓库。第一步是导出服务端的证书:
keytool -export -alias bluedash-ssl-demo-server -keystore ./server_ks -file server_key.cer
执行结果如下:
Enter keystore password: server Certificate stored in file <server_key.cer>
然后是把导出的证书导入到客户端证书仓库:
keytool -import -trustcacerts -alias bluedash-ssl-demo-server -file ./server_key.cer -keystore ./client_ks
结果如下:
Enter keystore password: client Owner: CN=localhost, OU=cn, O=cn, L=cn, ST=cn, C=cn Issuer: CN=localhost, OU=cn, O=cn, L=cn, ST=cn, C=cn Serial number: 4c57c7de Valid from: Tue Aug 03 15:40:14 CST 2010 until: Mon Nov 01 15:40:14 CST 2010 Certificate fingerprints: MD5: FC:D4:8B:36:3F:1B:30:EA:6D:63:55:4F:C7:68:3B:0C SHA1: E1:54:2F:7C:1A:50:F5:74:AA:63:1E:F9:CC:B1:1C:73:AA:34:8A:C4 Signature algorithm name: SHA1withRSA Version: 3 Trust this certificate? [no]: yes Certificate was added to keystore
好,准备工作做完了,我们来撰写客户端的代码:
package org.bluedash.tryssl; import java.io.BufferedReader; import java.io.InputStreamReader; import java.io.PrintWriter; import java.net.Socket; import javax.net.SocketFactory; import javax.net.ssl.SSLSocketFactory; public class SSLClient { private static String CLIENT_KEY_STORE = "/Users/liweinan/projs/ssl/src/main/resources/META-INF/client_ks"; public static void main(String[] args) throws Exception { // Set the key store to use for validating the server cert. System.setProperty("javax.net.ssl.trustStore", CLIENT_KEY_STORE); System.setProperty("javax.net.debug", "ssl,handshake"); SSLClient client = new SSLClient(); Socket s = client.clientWithoutCert(); PrintWriter writer = new PrintWriter(s.getOutputStream()); BufferedReader reader = new BufferedReader(new InputStreamReader(s .getInputStream())); writer.println("hello"); writer.flush(); System.out.println(reader.readLine()); s.close(); } private Socket clientWithoutCert() throws Exception { SocketFactory sf = SSLSocketFactory.getDefault(); Socket s = sf.createSocket("localhost", 8443); return s; } }
可以看到,除了把一些类变成SSL通信类以外,客户端也多出了使用信任证书仓库的代码。以上,我们便完成了SSL单向握手通信。即:客户端验证服务端的证书,服务端不认证客户端的证书。
以上便是Java环境下SSL单向握手的全过程。因为我们在客户端设置了日志输出级别为DEBUG:
System.setProperty("javax.net.debug", "ssl,handshake");
因此我们可以看到SSL通信的全过程,这些日志可以帮助我们更具体地了解通过SSL协议建立网络连接时的全过程。
结合日志,我们来看一下SSL双向认证的全过程:
第一步: 客户端发送ClientHello消息,发起SSL连接请求,告诉服务器自己支持的SSL选项(加密方式等)。
*** ClientHello, TLSv1
第二步: 服务器响应请求,回复ServerHello消息,和客户端确认SSL加密方式:
*** ServerHello, TLSv1
第三步: 服务端向客户端发布自己的公钥。
第四步: 客户端与服务端的协通沟通完毕,服务端发送ServerHelloDone消息:
*** ServerHelloDone
第五步: 客户端使用服务端给予的公钥,创建会话用密钥(SSL证书认证完成后,为了提高性能,所有的信息交互就可能会使用对称加密算法),并通过ClientKeyExchange消息发给服务器:
*** ClientKeyExchange, RSA PreMasterSecret, TLSv1
第六步: 客户端通知服务器改变加密算法,通过ChangeCipherSpec消息发给服务端:
main, WRITE: TLSv1 Change Cipher Spec, length = 1
第七步: 客户端发送Finished消息,告知服务器请检查加密算法的变更请求:
*** Finished
第八步:服务端确认算法变更,返回ChangeCipherSpec消息
main, READ: TLSv1 Change Cipher Spec, length = 1
第九步:服务端发送Finished消息,加密算法生效:
*** Finished
那么如何让服务端也认证客户端的身份,即双向握手呢?其实很简单,在服务端代码中,把这一行:
((SSLServerSocket) _socket).setNeedClientAuth(false);
改成:
((SSLServerSocket) _socket).setNeedClientAuth(true);
就可以了。但是,同样的道理,现在服务端并没有信任客户端的证书,因为客户端的证书也是自己生成的。所以,对于服务端,需要做同样的工作:把客户端的证书导出来,并导入到服务端的证书仓库:
keytool -export -alias bluedash-ssl-demo-client -keystore ./client_ks -file client_key.cer Enter keystore password: client Certificate stored in file <client_key.cer> keytool -import -trustcacerts -alias bluedash-ssl-demo-client -file ./client_key.cer -keystore ./server_ks Enter keystore password: server Owner: CN=localhost, OU=cn, O=cn, L=cn, ST=cn, C=cn Issuer: CN=localhost, OU=cn, O=cn, L=cn, ST=cn, C=cn Serial number: 4c57c80b Valid from: Tue Aug 03 15:40:59 CST 2010 until: Mon Nov 01 15:40:59 CST 2010 Certificate fingerprints: MD5: DB:91:F4:1E:65:D1:81:F2:1E:A6:A3:55:3F:E8:12:79 SHA1: BF:77:56:61:04:DD:95:FC:E5:84:48:5C:BE:60:AF:02:96:A2:E1:E2 Signature algorithm name: SHA1withRSA Version: 3 Trust this certificate? [no]: yes Certificate was added to keystore
完成了证书的导入,还要在客户端需要加入一段代码,用于在连接时,客户端向服务端出示自己的证书:
package org.bluedash.tryssl; import java.io.BufferedReader; import java.io.FileInputStream; import java.io.InputStreamReader; import java.io.PrintWriter; import java.net.Socket; import java.security.KeyStore; import javax.net.SocketFactory; import javax.net.ssl.KeyManagerFactory; import javax.net.ssl.SSLContext; import javax.net.ssl.SSLSocketFactory; public class SSLClient { private static String CLIENT_KEY_STORE = "/Users/liweinan/projs/ssl/src/main/resources/META-INF/client_ks"; private static String CLIENT_KEY_STORE_PASSWORD = "456456"; public static void main(String[] args) throws Exception { // Set the key store to use for validating the server cert. System.setProperty("javax.net.ssl.trustStore", CLIENT_KEY_STORE); System.setProperty("javax.net.debug", "ssl,handshake"); SSLClient client = new SSLClient(); Socket s = client.clientWithCert(); PrintWriter writer = new PrintWriter(s.getOutputStream()); BufferedReader reader = new BufferedReader(new InputStreamReader(s.getInputStream())); writer.println("hello"); writer.flush(); System.out.println(reader.readLine()); s.close(); } private Socket clientWithoutCert() throws Exception { SocketFactory sf = SSLSocketFactory.getDefault(); Socket s = sf.createSocket("localhost", 8443); return s; } private Socket clientWithCert() throws Exception { SSLContext context = SSLContext.getInstance("TLS"); KeyStore ks = KeyStore.getInstance("jceks"); ks.load(new FileInputStream(CLIENT_KEY_STORE), null); KeyManagerFactory kf = KeyManagerFactory.getInstance("SunX509"); kf.init(ks, CLIENT_KEY_STORE_PASSWORD.toCharArray()); context.init(kf.getKeyManagers(), null, null); SocketFactory factory = context.getSocketFactory(); Socket s = factory.createSocket("localhost", 8443); return s; } }
通过比对单向认证的日志输出,我们可以发现双向认证时,多出了服务端认证客户端证书的步骤:
*** CertificateRequest Cert Types: RSA, DSS Cert Authorities: <CN=localhost, OU=cn, O=cn, L=cn, ST=cn, C=cn> <CN=localhost, OU=cn, O=cn, L=cn, ST=cn, C=cn> *** ServerHelloDone *** CertificateVerify main, WRITE: TLSv1 Handshake, length = 134 main, WRITE: TLSv1 Change Cipher Spec, length = 1
在 @*** ServerHelloDone@ 之前,服务端向客户端发起了需要证书的请求 @*** CertificateRequest@ 。
在客户端向服务端发出 @Change Cipher Spec@ 请求之前,多了一步客户端证书认证的过程 @*** CertificateVerify@ 。
客户端与服务端互相认证证书的情景,可参考下图:
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