Java tutorial
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See the License for the * specific language governing permissions and limitations * under the License. * ==================================================================== * * This software consists of voluntary contributions made by many * individuals on behalf of the Apache Software Foundation. For more * information on the Apache Software Foundation, please see * <http://www.apache.org/>. * */ package org.apache.http.conn.ssl; import org.apache.http.HttpHost; import org.apache.http.annotation.ThreadSafe; import org.apache.http.conn.socket.LayeredConnectionSocketFactory; import org.apache.http.protocol.HttpContext; import org.apache.http.util.Args; import org.apache.http.util.TextUtils; import javax.net.SocketFactory; import javax.net.ssl.SSLContext; import javax.net.ssl.SSLSocket; import java.io.IOException; import java.net.InetSocketAddress; import java.net.Socket; /** * Layered socket factory for TLS/SSL connections. * <p> * SSLSocketFactory can be used to validate the identity of the HTTPS server against a list of * trusted certificates and to authenticate to the HTTPS server using a private key. * <p> * SSLSocketFactory will enable server authentication when supplied with * a {@link java.security.KeyStore trust-store} file containing one or several trusted certificates. The client * secure socket will reject the connection during the SSL session handshake if the target HTTPS * server attempts to authenticate itself with a non-trusted certificate. * <p> * Use JDK keytool utility to import a trusted certificate and generate a trust-store file: * <pre> * keytool -import -alias "my server cert" -file server.crt -keystore my.truststore * </pre> * <p> * In special cases the standard trust verification process can be bypassed by using a custom * {@link org.apache.http.conn.ssl.TrustStrategy}. This interface is primarily intended for allowing self-signed * certificates to be accepted as trusted without having to add them to the trust-store file. * <p> * SSLSocketFactory will enable client authentication when supplied with * a {@link java.security.KeyStore key-store} file containing a private key/public certificate * pair. The client secure socket will use the private key to authenticate * itself to the target HTTPS server during the SSL session handshake if * requested to do so by the server. * The target HTTPS server will in its turn verify the certificate presented * by the client in order to establish client's authenticity. * <p> * Use the following sequence of actions to generate a key-store file * </p> * <ul> * <li> * <p> * Use JDK keytool utility to generate a new key * <pre>keytool -genkey -v -alias "my client key" -validity 365 -keystore my.keystore</pre> * For simplicity use the same password for the key as that of the key-store * </p> * </li> * <li> * <p> * Issue a certificate signing request (CSR) * <pre>keytool -certreq -alias "my client key" -file mycertreq.csr -keystore my.keystore</pre> * </p> * </li> * <li> * <p> * Send the certificate request to the trusted Certificate Authority for signature. * One may choose to act as her own CA and sign the certificate request using a PKI * tool, such as OpenSSL. * </p> * </li> * <li> * <p> * Import the trusted CA root certificate * <pre>keytool -import -alias "my trusted ca" -file caroot.crt -keystore my.keystore</pre> * </p> * </li> * <li> * <p> * Import the PKCS#7 file containg the complete certificate chain * <pre>keytool -import -alias "my client key" -file mycert.p7 -keystore my.keystore</pre> * </p> * </li> * <li> * <p> * Verify the content the resultant keystore file * <pre>keytool -list -v -keystore my.keystore</pre> * </p> * </li> * </ul> * * @since 4.0 */ @ThreadSafe public class SSLConnectionSocketFactory implements LayeredConnectionSocketFactory { public static final String TLS = "TLS"; public static final String SSL = "SSL"; public static final String SSLV2 = "SSLv2"; public static final X509HostnameVerifier ALLOW_ALL_HOSTNAME_VERIFIER = new AllowAllHostnameVerifier(); public static final X509HostnameVerifier BROWSER_COMPATIBLE_HOSTNAME_VERIFIER = new BrowserCompatHostnameVerifier(); public static final X509HostnameVerifier STRICT_HOSTNAME_VERIFIER = new StrictHostnameVerifier(); /** * Obtains default SSL socket factory with an SSL context based on the standard JSSE * trust material (<code>cacerts</code> file in the security properties directory). * System properties are not taken into consideration. * * @return default SSL socket factory */ public static SSLConnectionSocketFactory getSocketFactory() throws SSLInitializationException { return new SSLConnectionSocketFactory(SSLContexts.createDefault(), BROWSER_COMPATIBLE_HOSTNAME_VERIFIER); } private static String[] split(final String s) { if (TextUtils.isBlank(s)) { return null; } return s.split(" *, *"); } /** * Obtains default SSL socket factory with an SSL context based on system properties * as described in * <a href="http://docs.oracle.com/javase/1.5.0/docs/guide/security/jsse/JSSERefGuide.html"> * "JavaTM Secure Socket Extension (JSSE) Reference Guide for the JavaTM 2 Platform * Standard Edition 5</a> * * @return default system SSL socket factory */ public static SSLConnectionSocketFactory getSystemSocketFactory() throws SSLInitializationException { return new SSLConnectionSocketFactory( (javax.net.ssl.SSLSocketFactory) javax.net.ssl.SSLSocketFactory.getDefault(), split(System.getProperty("https.protocols")), split(System.getProperty("https.cipherSuites")), BROWSER_COMPATIBLE_HOSTNAME_VERIFIER); } private final javax.net.ssl.SSLSocketFactory socketfactory; private final X509HostnameVerifier hostnameVerifier; private final String[] supportedProtocols; private final String[] supportedCipherSuites; public SSLConnectionSocketFactory(final SSLContext sslContext) { this(sslContext, BROWSER_COMPATIBLE_HOSTNAME_VERIFIER); } public SSLConnectionSocketFactory(final SSLContext sslContext, final X509HostnameVerifier hostnameVerifier) { this(Args.notNull(sslContext, "SSL context").getSocketFactory(), null, null, hostnameVerifier); } public SSLConnectionSocketFactory(final SSLContext sslContext, final String[] supportedProtocols, final String[] supportedCipherSuites, final X509HostnameVerifier hostnameVerifier) { this(Args.notNull(sslContext, "SSL context").getSocketFactory(), supportedProtocols, supportedCipherSuites, hostnameVerifier); } public SSLConnectionSocketFactory(final javax.net.ssl.SSLSocketFactory socketfactory, final X509HostnameVerifier hostnameVerifier) { this(socketfactory, null, null, hostnameVerifier); } public SSLConnectionSocketFactory(final javax.net.ssl.SSLSocketFactory socketfactory, final String[] supportedProtocols, final String[] supportedCipherSuites, final X509HostnameVerifier hostnameVerifier) { this.socketfactory = Args.notNull(socketfactory, "SSL socket factory"); this.supportedProtocols = supportedProtocols; this.supportedCipherSuites = supportedCipherSuites; this.hostnameVerifier = hostnameVerifier != null ? hostnameVerifier : BROWSER_COMPATIBLE_HOSTNAME_VERIFIER; } /** * Performs any custom initialization for a newly created SSLSocket * (before the SSL handshake happens). * * The default implementation is a no-op, but could be overridden to, e.g., * call {@link javax.net.ssl.SSLSocket#setEnabledCipherSuites(String[])}. */ protected void prepareSocket(final SSLSocket socket) throws IOException { } public Socket createSocket(final HttpContext context) throws IOException { return SocketFactory.getDefault().createSocket(); } public Socket connectSocket(final int connectTimeout, final Socket socket, final HttpHost host, final InetSocketAddress remoteAddress, final InetSocketAddress localAddress, final HttpContext context) throws IOException { Args.notNull(host, "HTTP host"); Args.notNull(remoteAddress, "Remote address"); final Socket sock = socket != null ? socket : createSocket(context); if (localAddress != null) { sock.bind(localAddress); } try { sock.connect(remoteAddress, connectTimeout); } catch (final IOException ex) { try { sock.close(); } catch (final IOException ignore) { } throw ex; } // Setup SSL layering if necessary if (sock instanceof SSLSocket) { final SSLSocket sslsock = (SSLSocket) sock; sslsock.startHandshake(); verifyHostname(sslsock, host.getHostName()); return sock; } else { return createLayeredSocket(sock, host.getHostName(), remoteAddress.getPort(), context); } } public Socket createLayeredSocket(final Socket socket, final String target, final int port, final HttpContext context) throws IOException { final SSLSocket sslsock = (SSLSocket) this.socketfactory.createSocket(socket, target, port, true); if (supportedProtocols != null) { sslsock.setEnabledProtocols(supportedProtocols); } if (supportedCipherSuites != null) { sslsock.setEnabledCipherSuites(supportedCipherSuites); } prepareSocket(sslsock); sslsock.startHandshake(); verifyHostname(sslsock, target); return sslsock; } X509HostnameVerifier getHostnameVerifier() { return this.hostnameVerifier; } private void verifyHostname(final SSLSocket sslsock, final String hostname) throws IOException { try { this.hostnameVerifier.verify(hostname, sslsock); // verifyHostName() didn't blowup - good! } catch (final IOException iox) { // close the socket before re-throwing the exception try { sslsock.close(); } catch (final Exception x) { /*ignore*/ } throw iox; } } }