--- /dev/null Thu Jan 01 00:00:00 1970 +0000
+++ b/jdk/src/share/classes/sun/security/tools/KeyTool.java Sat Dec 01 00:00:00 2007 +0000
@@ -0,0 +1,3202 @@
+/*
+ * Copyright 1997-2006 Sun Microsystems, Inc. All Rights Reserved.
+ * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
+ *
+ * This code is free software; you can redistribute it and/or modify it
+ * under the terms of the GNU General Public License version 2 only, as
+ * published by the Free Software Foundation. Sun designates this
+ * particular file as subject to the "Classpath" exception as provided
+ * by Sun in the LICENSE file that accompanied this code.
+ *
+ * This code is distributed in the hope that it will be useful, but WITHOUT
+ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
+ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
+ * version 2 for more details (a copy is included in the LICENSE file that
+ * accompanied this code).
+ *
+ * You should have received a copy of the GNU General Public License version
+ * 2 along with this work; if not, write to the Free Software Foundation,
+ * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
+ *
+ * Please contact Sun Microsystems, Inc., 4150 Network Circle, Santa Clara,
+ * CA 95054 USA or visit www.sun.com if you need additional information or
+ * have any questions.
+ */
+
+package sun.security.tools;
+
+import java.io.*;
+import java.math.BigInteger;
+import java.security.GeneralSecurityException;
+import java.security.InvalidParameterException;
+import java.security.KeyStore;
+import java.security.KeyStoreException;
+import java.security.MessageDigest;
+import java.security.NoSuchAlgorithmException;
+import java.security.Key;
+import java.security.PublicKey;
+import java.security.PrivateKey;
+import java.security.Security;
+import java.security.Signature;
+import java.security.SignatureException;
+import java.security.UnrecoverableEntryException;
+import java.security.UnrecoverableKeyException;
+import java.security.Principal;
+import java.security.Provider;
+import java.security.Identity;
+import java.security.Signer;
+import java.security.cert.Certificate;
+import java.security.cert.CertificateFactory;
+import java.security.cert.X509Certificate;
+import java.security.cert.CertificateException;
+import java.security.interfaces.DSAParams;
+import java.security.interfaces.DSAPrivateKey;
+import java.security.interfaces.DSAPublicKey;
+import java.security.interfaces.RSAPrivateCrtKey;
+import java.security.interfaces.RSAPrivateKey;
+import java.security.interfaces.RSAPublicKey;
+import java.text.Collator;
+import java.text.MessageFormat;
+import java.util.*;
+import java.lang.reflect.Constructor;
+import java.net.URL;
+import java.net.URLClassLoader;
+
+import sun.misc.BASE64Decoder;
+import sun.misc.BASE64Encoder;
+import sun.security.util.ObjectIdentifier;
+import sun.security.pkcs.PKCS10;
+import sun.security.provider.IdentityDatabase;
+import sun.security.provider.SystemSigner;
+import sun.security.provider.SystemIdentity;
+import sun.security.provider.X509Factory;
+import sun.security.util.DerOutputStream;
+import sun.security.util.Password;
+import sun.security.util.Resources;
+import sun.security.util.PathList;
+import javax.crypto.KeyGenerator;
+import javax.crypto.SecretKey;
+
+import sun.security.x509.*;
+
+import static java.security.KeyStore.*;
+
+/**
+ * This tool manages keystores.
+ *
+ * @author Jan Luehe
+ *
+ *
+ * @see java.security.KeyStore
+ * @see sun.security.provider.KeyProtector
+ * @see sun.security.provider.JavaKeyStore
+ *
+ * @since 1.2
+ */
+
+public final class KeyTool {
+
+ private boolean debug = false;
+ private int command = -1;
+ private String sigAlgName = null;
+ private String keyAlgName = null;
+ private boolean verbose = false;
+ private int keysize = -1;
+ private boolean rfc = false;
+ private long validity = (long)90;
+ private String alias = null;
+ private String dname = null;
+ private String dest = null;
+ private String filename = null;
+ private String srcksfname = null;
+
+ // User-specified providers are added before any command is called.
+ // However, they are not removed before the end of the main() method.
+ // If you're calling KeyTool.main() directly in your own Java program,
+ // please programtically add any providers you need and do not specify
+ // them through the command line.
+
+ private Set<Pair <String, String>> providers = null;
+ private String storetype = null;
+ private String srcProviderName = null;
+ private String providerName = null;
+ private String pathlist = null;
+ private char[] storePass = null;
+ private char[] storePassNew = null;
+ private char[] keyPass = null;
+ private char[] keyPassNew = null;
+ private char[] oldPass = null;
+ private char[] newPass = null;
+ private char[] destKeyPass = null;
+ private char[] srckeyPass = null;
+ private String ksfname = null;
+ private File ksfile = null;
+ private InputStream ksStream = null; // keystore stream
+ private KeyStore keyStore = null;
+ private boolean token = false;
+ private boolean nullStream = false;
+ private boolean kssave = false;
+ private boolean noprompt = false;
+ private boolean trustcacerts = false;
+ private boolean protectedPath = false;
+ private boolean srcprotectedPath = false;
+ private CertificateFactory cf = null;
+ private KeyStore caks = null; // "cacerts" keystore
+ private char[] srcstorePass = null;
+ private String srcstoretype = null;
+ private Set<char[]> passwords = new HashSet<char[]> ();
+ private String startDate = null;
+
+ private static final int CERTREQ = 1;
+ private static final int CHANGEALIAS = 2;
+ private static final int DELETE = 3;
+ private static final int EXPORTCERT = 4;
+ private static final int GENKEYPAIR = 5;
+ private static final int GENSECKEY = 6;
+ // there is no HELP
+ private static final int IDENTITYDB = 7;
+ private static final int IMPORTCERT = 8;
+ private static final int IMPORTKEYSTORE = 9;
+ private static final int KEYCLONE = 10;
+ private static final int KEYPASSWD = 11;
+ private static final int LIST = 12;
+ private static final int PRINTCERT = 13;
+ private static final int SELFCERT = 14;
+ private static final int STOREPASSWD = 15;
+
+ private static final Class[] PARAM_STRING = { String.class };
+
+ private static final String JKS = "jks";
+ private static final String NONE = "NONE";
+ private static final String P11KEYSTORE = "PKCS11";
+ private static final String P12KEYSTORE = "PKCS12";
+ private final String keyAlias = "mykey";
+
+ // for i18n
+ private static final java.util.ResourceBundle rb =
+ java.util.ResourceBundle.getBundle("sun.security.util.Resources");
+ private static final Collator collator = Collator.getInstance();
+ static {
+ // this is for case insensitive string comparisons
+ collator.setStrength(Collator.PRIMARY);
+ };
+
+ private KeyTool() { }
+
+ public static void main(String[] args) throws Exception {
+ KeyTool kt = new KeyTool();
+ kt.run(args, System.out);
+ }
+
+ private void run(String[] args, PrintStream out) throws Exception {
+ try {
+ parseArgs(args);
+ doCommands(out);
+ } catch (Exception e) {
+ System.out.println(rb.getString("keytool error: ") + e);
+ if (verbose) {
+ e.printStackTrace(System.out);
+ }
+ if (!debug) {
+ System.exit(1);
+ } else {
+ throw e;
+ }
+ } finally {
+ for (char[] pass : passwords) {
+ if (pass != null) {
+ Arrays.fill(pass, ' ');
+ pass = null;
+ }
+ }
+
+ if (ksStream != null) {
+ ksStream.close();
+ }
+ }
+ }
+
+ /**
+ * Parse command line arguments.
+ */
+ void parseArgs(String[] args) {
+
+ if (args.length == 0) usage();
+
+ int i=0;
+
+ for (i=0; (i < args.length) && args[i].startsWith("-"); i++) {
+
+ String flags = args[i];
+ /*
+ * command modes
+ */
+ if (collator.compare(flags, "-certreq") == 0) {
+ command = CERTREQ;
+ } else if (collator.compare(flags, "-delete") == 0) {
+ command = DELETE;
+ } else if (collator.compare(flags, "-export") == 0 ||
+ collator.compare(flags, "-exportcert") == 0) {
+ command = EXPORTCERT;
+ } else if (collator.compare(flags, "-genkey") == 0 ||
+ collator.compare(flags, "-genkeypair") == 0) {
+ command = GENKEYPAIR;
+ } else if (collator.compare(flags, "-help") == 0) {
+ usage();
+ return;
+ } else if (collator.compare(flags, "-identitydb") == 0) { // obsolete
+ command = IDENTITYDB;
+ } else if (collator.compare(flags, "-import") == 0 ||
+ collator.compare(flags, "-importcert") == 0) {
+ command = IMPORTCERT;
+ } else if (collator.compare(flags, "-keyclone") == 0) { // obsolete
+ command = KEYCLONE;
+ } else if (collator.compare(flags, "-changealias") == 0) {
+ command = CHANGEALIAS;
+ } else if (collator.compare(flags, "-keypasswd") == 0) {
+ command = KEYPASSWD;
+ } else if (collator.compare(flags, "-list") == 0) {
+ command = LIST;
+ } else if (collator.compare(flags, "-printcert") == 0) {
+ command = PRINTCERT;
+ } else if (collator.compare(flags, "-selfcert") == 0) { // obsolete
+ command = SELFCERT;
+ } else if (collator.compare(flags, "-storepasswd") == 0) {
+ command = STOREPASSWD;
+ } else if (collator.compare(flags, "-importkeystore") == 0) {
+ command = IMPORTKEYSTORE;
+ } else if (collator.compare(flags, "-genseckey") == 0) {
+ command = GENSECKEY;
+ }
+
+ /*
+ * specifiers
+ */
+ else if (collator.compare(flags, "-keystore") == 0 ||
+ collator.compare(flags, "-destkeystore") == 0) {
+ if (++i == args.length) errorNeedArgument(flags);
+ ksfname = args[i];
+ } else if (collator.compare(flags, "-storepass") == 0 ||
+ collator.compare(flags, "-deststorepass") == 0) {
+ if (++i == args.length) errorNeedArgument(flags);
+ storePass = args[i].toCharArray();
+ passwords.add(storePass);
+ } else if (collator.compare(flags, "-storetype") == 0 ||
+ collator.compare(flags, "-deststoretype") == 0) {
+ if (++i == args.length) errorNeedArgument(flags);
+ storetype = args[i];
+ } else if (collator.compare(flags, "-srcstorepass") == 0) {
+ if (++i == args.length) errorNeedArgument(flags);
+ srcstorePass = args[i].toCharArray();
+ passwords.add(srcstorePass);
+ } else if (collator.compare(flags, "-srcstoretype") == 0) {
+ if (++i == args.length) errorNeedArgument(flags);
+ srcstoretype = args[i];
+ } else if (collator.compare(flags, "-srckeypass") == 0) {
+ if (++i == args.length) errorNeedArgument(flags);
+ srckeyPass = args[i].toCharArray();
+ passwords.add(srckeyPass);
+ } else if (collator.compare(flags, "-srcprovidername") == 0) {
+ if (++i == args.length) errorNeedArgument(flags);
+ srcProviderName = args[i];
+ } else if (collator.compare(flags, "-providername") == 0 ||
+ collator.compare(flags, "-destprovidername") == 0) {
+ if (++i == args.length) errorNeedArgument(flags);
+ providerName = args[i];
+ } else if (collator.compare(flags, "-providerpath") == 0) {
+ if (++i == args.length) errorNeedArgument(flags);
+ pathlist = args[i];
+ } else if (collator.compare(flags, "-keypass") == 0) {
+ if (++i == args.length) errorNeedArgument(flags);
+ keyPass = args[i].toCharArray();
+ passwords.add(keyPass);
+ } else if (collator.compare(flags, "-new") == 0) {
+ if (++i == args.length) errorNeedArgument(flags);
+ newPass = args[i].toCharArray();
+ passwords.add(newPass);
+ } else if (collator.compare(flags, "-destkeypass") == 0) {
+ if (++i == args.length) errorNeedArgument(flags);
+ destKeyPass = args[i].toCharArray();
+ passwords.add(destKeyPass);
+ } else if (collator.compare(flags, "-alias") == 0 ||
+ collator.compare(flags, "-srcalias") == 0) {
+ if (++i == args.length) errorNeedArgument(flags);
+ alias = args[i];
+ } else if (collator.compare(flags, "-dest") == 0 ||
+ collator.compare(flags, "-destalias") == 0) {
+ if (++i == args.length) errorNeedArgument(flags);
+ dest = args[i];
+ } else if (collator.compare(flags, "-dname") == 0) {
+ if (++i == args.length) errorNeedArgument(flags);
+ dname = args[i];
+ } else if (collator.compare(flags, "-keysize") == 0) {
+ if (++i == args.length) errorNeedArgument(flags);
+ keysize = Integer.parseInt(args[i]);
+ } else if (collator.compare(flags, "-keyalg") == 0) {
+ if (++i == args.length) errorNeedArgument(flags);
+ keyAlgName = args[i];
+ } else if (collator.compare(flags, "-sigalg") == 0) {
+ if (++i == args.length) errorNeedArgument(flags);
+ sigAlgName = args[i];
+ } else if (collator.compare(flags, "-startdate") == 0) {
+ if (++i == args.length) errorNeedArgument(flags);
+ startDate = args[i];
+ } else if (collator.compare(flags, "-validity") == 0) {
+ if (++i == args.length) errorNeedArgument(flags);
+ validity = Long.parseLong(args[i]);
+ } else if (collator.compare(flags, "-file") == 0) {
+ if (++i == args.length) errorNeedArgument(flags);
+ filename = args[i];
+ } else if (collator.compare(flags, "-srckeystore") == 0) {
+ if (++i == args.length) errorNeedArgument(flags);
+ srcksfname = args[i];
+ } else if ((collator.compare(flags, "-provider") == 0) ||
+ (collator.compare(flags, "-providerclass") == 0)) {
+ if (++i == args.length) errorNeedArgument(flags);
+ if (providers == null) {
+ providers = new HashSet<Pair <String, String>> (3);
+ }
+ String providerClass = args[i];
+ String providerArg = null;
+
+ if (args.length > (i+1)) {
+ flags = args[i+1];
+ if (collator.compare(flags, "-providerarg") == 0) {
+ if (args.length == (i+2)) errorNeedArgument(flags);
+ providerArg = args[i+2];
+ i += 2;
+ }
+ }
+ providers.add(
+ new Pair<String, String>(providerClass, providerArg));
+ }
+
+ /*
+ * options
+ */
+ else if (collator.compare(flags, "-v") == 0) {
+ verbose = true;
+ } else if (collator.compare(flags, "-debug") == 0) {
+ debug = true;
+ } else if (collator.compare(flags, "-rfc") == 0) {
+ rfc = true;
+ } else if (collator.compare(flags, "-noprompt") == 0) {
+ noprompt = true;
+ } else if (collator.compare(flags, "-trustcacerts") == 0) {
+ trustcacerts = true;
+ } else if (collator.compare(flags, "-protected") == 0 ||
+ collator.compare(flags, "-destprotected") == 0) {
+ protectedPath = true;
+ } else if (collator.compare(flags, "-srcprotected") == 0) {
+ srcprotectedPath = true;
+ } else {
+ System.err.println(rb.getString("Illegal option: ") + flags);
+ tinyHelp();
+ }
+ }
+
+ if (i<args.length) {
+ MessageFormat form = new MessageFormat
+ (rb.getString("Usage error, <arg> is not a legal command"));
+ Object[] source = {args[i]};
+ throw new RuntimeException(form.format(source));
+ }
+
+ if (command == -1) {
+ System.err.println(rb.getString("Usage error: no command provided"));
+ tinyHelp();
+ }
+ }
+
+ /**
+ * Execute the commands.
+ */
+ void doCommands(PrintStream out) throws Exception {
+
+ if (storetype == null) {
+ storetype = KeyStore.getDefaultType();
+ }
+ storetype = KeyStoreUtil.niceStoreTypeName(storetype);
+
+ if (srcstoretype == null) {
+ srcstoretype = KeyStore.getDefaultType();
+ }
+ srcstoretype = KeyStoreUtil.niceStoreTypeName(srcstoretype);
+
+ if (P11KEYSTORE.equalsIgnoreCase(storetype) ||
+ KeyStoreUtil.isWindowsKeyStore(storetype)) {
+ token = true;
+ if (ksfname == null) {
+ ksfname = NONE;
+ }
+ }
+ if (NONE.equals(ksfname)) {
+ nullStream = true;
+ }
+
+ if (token && !nullStream) {
+ System.err.println(MessageFormat.format(rb.getString
+ ("-keystore must be NONE if -storetype is {0}"), storetype));
+ System.err.println();
+ tinyHelp();
+ }
+
+ if (token &&
+ (command == KEYPASSWD || command == STOREPASSWD)) {
+ throw new UnsupportedOperationException(MessageFormat.format(rb.getString
+ ("-storepasswd and -keypasswd commands not supported " +
+ "if -storetype is {0}"), storetype));
+ }
+
+ if (P12KEYSTORE.equalsIgnoreCase(storetype) && command == KEYPASSWD) {
+ throw new UnsupportedOperationException(rb.getString
+ ("-keypasswd commands not supported " +
+ "if -storetype is PKCS12"));
+ }
+
+ if (token && (keyPass != null || newPass != null || destKeyPass != null)) {
+ throw new IllegalArgumentException(MessageFormat.format(rb.getString
+ ("-keypass and -new " +
+ "can not be specified if -storetype is {0}"), storetype));
+ }
+
+ if (protectedPath) {
+ if (storePass != null || keyPass != null ||
+ newPass != null || destKeyPass != null) {
+ throw new IllegalArgumentException(rb.getString
+ ("if -protected is specified, " +
+ "then -storepass, -keypass, and -new " +
+ "must not be specified"));
+ }
+ }
+
+ if (srcprotectedPath) {
+ if (srcstorePass != null || srckeyPass != null) {
+ throw new IllegalArgumentException(rb.getString
+ ("if -srcprotected is specified, " +
+ "then -srcstorepass and -srckeypass " +
+ "must not be specified"));
+ }
+ }
+
+ if (KeyStoreUtil.isWindowsKeyStore(storetype)) {
+ if (storePass != null || keyPass != null ||
+ newPass != null || destKeyPass != null) {
+ throw new IllegalArgumentException(rb.getString
+ ("if keystore is not password protected, " +
+ "then -storepass, -keypass, and -new " +
+ "must not be specified"));
+ }
+ }
+
+ if (KeyStoreUtil.isWindowsKeyStore(srcstoretype)) {
+ if (srcstorePass != null || srckeyPass != null) {
+ throw new IllegalArgumentException(rb.getString
+ ("if source keystore is not password protected, " +
+ "then -srcstorepass and -srckeypass " +
+ "must not be specified"));
+ }
+ }
+
+ if (validity <= (long)0) {
+ throw new Exception
+ (rb.getString("Validity must be greater than zero"));
+ }
+
+ // Try to load and install specified provider
+ if (providers != null) {
+ ClassLoader cl = null;
+ if (pathlist != null) {
+ String path = null;
+ path = PathList.appendPath(
+ path, System.getProperty("java.class.path"));
+ path = PathList.appendPath(
+ path, System.getProperty("env.class.path"));
+ path = PathList.appendPath(path, pathlist);
+
+ URL[] urls = PathList.pathToURLs(path);
+ cl = new URLClassLoader(urls);
+ } else {
+ cl = ClassLoader.getSystemClassLoader();
+ }
+
+ for (Pair <String, String> provider: providers) {
+ String provName = provider.fst;
+ Class<?> provClass;
+ if (cl != null) {
+ provClass = cl.loadClass(provName);
+ } else {
+ provClass = Class.forName(provName);
+ }
+
+ String provArg = provider.snd;
+ Object obj;
+ if (provArg == null) {
+ obj = provClass.newInstance();
+ } else {
+ Constructor<?> c = provClass.getConstructor(PARAM_STRING);
+ obj = c.newInstance(provArg);
+ }
+ if (!(obj instanceof Provider)) {
+ MessageFormat form = new MessageFormat
+ (rb.getString("provName not a provider"));
+ Object[] source = {provName};
+ throw new Exception(form.format(source));
+ }
+ Security.addProvider((Provider)obj);
+ }
+ }
+
+ if (command == LIST && verbose && rfc) {
+ System.err.println(rb.getString
+ ("Must not specify both -v and -rfc with 'list' command"));
+ tinyHelp();
+ }
+
+ // Make sure provided passwords are at least 6 characters long
+ if (command == GENKEYPAIR && keyPass!=null && keyPass.length < 6) {
+ throw new Exception(rb.getString
+ ("Key password must be at least 6 characters"));
+ }
+ if (newPass != null && newPass.length < 6) {
+ throw new Exception(rb.getString
+ ("New password must be at least 6 characters"));
+ }
+ if (destKeyPass != null && destKeyPass.length < 6) {
+ throw new Exception(rb.getString
+ ("New password must be at least 6 characters"));
+ }
+
+ // Check if keystore exists.
+ // If no keystore has been specified at the command line, try to use
+ // the default, which is located in $HOME/.keystore.
+ // If the command is "genkey", "identitydb", "import", or "printcert",
+ // it is OK not to have a keystore.
+ if (command != PRINTCERT) {
+ if (ksfname == null) {
+ ksfname = System.getProperty("user.home") + File.separator
+ + ".keystore";
+ }
+
+ if (!nullStream) {
+ try {
+ ksfile = new File(ksfname);
+ // Check if keystore file is empty
+ if (ksfile.exists() && ksfile.length() == 0) {
+ throw new Exception(rb.getString
+ ("Keystore file exists, but is empty: ") + ksfname);
+ }
+ ksStream = new FileInputStream(ksfile);
+ } catch (FileNotFoundException e) {
+ if (command != GENKEYPAIR &&
+ command != GENSECKEY &&
+ command != IDENTITYDB &&
+ command != IMPORTCERT &&
+ command != IMPORTKEYSTORE) {
+ throw new Exception(rb.getString
+ ("Keystore file does not exist: ") + ksfname);
+ }
+ }
+ }
+ }
+
+ if ((command == KEYCLONE || command == CHANGEALIAS)
+ && dest == null) {
+ dest = getAlias("destination");
+ if ("".equals(dest)) {
+ throw new Exception(rb.getString
+ ("Must specify destination alias"));
+ }
+ }
+
+ if (command == DELETE && alias == null) {
+ alias = getAlias(null);
+ if ("".equals(alias)) {
+ throw new Exception(rb.getString("Must specify alias"));
+ }
+ }
+
+ // Create new keystore
+ if (providerName == null) {
+ keyStore = KeyStore.getInstance(storetype);
+ } else {
+ keyStore = KeyStore.getInstance(storetype, providerName);
+ }
+
+ /*
+ * Load the keystore data.
+ *
+ * At this point, it's OK if no keystore password has been provided.
+ * We want to make sure that we can load the keystore data, i.e.,
+ * the keystore data has the right format. If we cannot load the
+ * keystore, why bother asking the user for his or her password?
+ * Only if we were able to load the keystore, and no keystore
+ * password has been provided, will we prompt the user for the
+ * keystore password to verify the keystore integrity.
+ * This means that the keystore is loaded twice: first load operation
+ * checks the keystore format, second load operation verifies the
+ * keystore integrity.
+ *
+ * If the keystore password has already been provided (at the
+ * command line), however, the keystore is loaded only once, and the
+ * keystore format and integrity are checked "at the same time".
+ *
+ * Null stream keystores are loaded later.
+ */
+ if (!nullStream) {
+ keyStore.load(ksStream, storePass);
+ if (ksStream != null) {
+ ksStream.close();
+ }
+ }
+
+ // All commands that create or modify the keystore require a keystore
+ // password.
+
+ if (nullStream && storePass != null) {
+ keyStore.load(null, storePass);
+ } else if (!nullStream && storePass != null) {
+ // If we are creating a new non nullStream-based keystore,
+ // insist that the password be at least 6 characters
+ if (ksStream == null && storePass.length < 6) {
+ throw new Exception(rb.getString
+ ("Keystore password must be at least 6 characters"));
+ }
+ } else if (storePass == null) {
+
+ // only prompt if (protectedPath == false)
+
+ if (!protectedPath && !KeyStoreUtil.isWindowsKeyStore(storetype) &&
+ (command == CERTREQ ||
+ command == DELETE ||
+ command == GENKEYPAIR ||
+ command == GENSECKEY ||
+ command == IMPORTCERT ||
+ command == IMPORTKEYSTORE ||
+ command == KEYCLONE ||
+ command == CHANGEALIAS ||
+ command == SELFCERT ||
+ command == STOREPASSWD ||
+ command == KEYPASSWD ||
+ command == IDENTITYDB)) {
+ int count = 0;
+ do {
+ if (command == IMPORTKEYSTORE) {
+ System.err.print
+ (rb.getString("Enter destination keystore password: "));
+ } else {
+ System.err.print
+ (rb.getString("Enter keystore password: "));
+ }
+ System.err.flush();
+ storePass = Password.readPassword(System.in);
+ passwords.add(storePass);
+
+ // If we are creating a new non nullStream-based keystore,
+ // insist that the password be at least 6 characters
+ if (!nullStream && (storePass == null || storePass.length < 6)) {
+ System.err.println(rb.getString
+ ("Keystore password is too short - " +
+ "must be at least 6 characters"));
+ storePass = null;
+ }
+
+ // If the keystore file does not exist and needs to be
+ // created, the storepass should be prompted twice.
+ if (storePass != null && !nullStream && ksStream == null) {
+ System.err.print(rb.getString("Re-enter new password: "));
+ char[] storePassAgain = Password.readPassword(System.in);
+ passwords.add(storePassAgain);
+ if (!Arrays.equals(storePass, storePassAgain)) {
+ System.err.println
+ (rb.getString("They don't match. Try again"));
+ storePass = null;
+ }
+ }
+
+ count++;
+ } while ((storePass == null) && count < 3);
+
+
+ if (storePass == null) {
+ System.err.println
+ (rb.getString("Too many failures - try later"));
+ return;
+ }
+ } else if (!protectedPath
+ && !KeyStoreUtil.isWindowsKeyStore(storetype)
+ && !(command == PRINTCERT)) {
+ // here we have EXPORTCERT and LIST (info valid until STOREPASSWD)
+ System.err.print(rb.getString("Enter keystore password: "));
+ System.err.flush();
+ storePass = Password.readPassword(System.in);
+ passwords.add(storePass);
+ }
+
+ // Now load a nullStream-based keystore,
+ // or verify the integrity of an input stream-based keystore
+ if (nullStream) {
+ keyStore.load(null, storePass);
+ } else if (ksStream != null) {
+ ksStream = new FileInputStream(ksfile);
+ keyStore.load(ksStream, storePass);
+ ksStream.close();
+ }
+ }
+
+ if (storePass != null && P12KEYSTORE.equalsIgnoreCase(storetype)) {
+ MessageFormat form = new MessageFormat(rb.getString(
+ "Warning: Different store and key passwords not supported " +
+ "for PKCS12 KeyStores. Ignoring user-specified <command> value."));
+ if (keyPass != null && !Arrays.equals(storePass, keyPass)) {
+ Object[] source = {"-keypass"};
+ System.err.println(form.format(source));
+ keyPass = storePass;
+ }
+ if (newPass != null && !Arrays.equals(storePass, newPass)) {
+ Object[] source = {"-new"};
+ System.err.println(form.format(source));
+ newPass = storePass;
+ }
+ if (destKeyPass != null && !Arrays.equals(storePass, destKeyPass)) {
+ Object[] source = {"-destkeypass"};
+ System.err.println(form.format(source));
+ destKeyPass = storePass;
+ }
+ }
+
+ // Create a certificate factory
+ if (command == PRINTCERT || command == IMPORTCERT
+ || command == IDENTITYDB) {
+ cf = CertificateFactory.getInstance("X509");
+ }
+
+ if (trustcacerts) {
+ caks = getCacertsKeyStore();
+ }
+
+ // Perform the specified command
+ if (command == CERTREQ) {
+ PrintStream ps = null;
+ if (filename != null) {
+ ps = new PrintStream(new FileOutputStream
+ (filename));
+ out = ps;
+ }
+ try {
+ doCertReq(alias, sigAlgName, out);
+ } finally {
+ if (ps != null) {
+ ps.close();
+ }
+ }
+ if (verbose && filename != null) {
+ MessageFormat form = new MessageFormat(rb.getString
+ ("Certification request stored in file <filename>"));
+ Object[] source = {filename};
+ System.err.println(form.format(source));
+ System.err.println(rb.getString("Submit this to your CA"));
+ }
+ } else if (command == DELETE) {
+ doDeleteEntry(alias);
+ kssave = true;
+ } else if (command == EXPORTCERT) {
+ PrintStream ps = null;
+ if (filename != null) {
+ ps = new PrintStream(new FileOutputStream
+ (filename));
+ out = ps;
+ }
+ try {
+ doExportCert(alias, out);
+ } finally {
+ if (ps != null) {
+ ps.close();
+ }
+ }
+ if (filename != null) {
+ MessageFormat form = new MessageFormat(rb.getString
+ ("Certificate stored in file <filename>"));
+ Object[] source = {filename};
+ System.err.println(form.format(source));
+ }
+ } else if (command == GENKEYPAIR) {
+ if (keyAlgName == null) {
+ keyAlgName = "DSA";
+ }
+ doGenKeyPair(alias, dname, keyAlgName, keysize, sigAlgName);
+ kssave = true;
+ } else if (command == GENSECKEY) {
+ if (keyAlgName == null) {
+ keyAlgName = "DES";
+ }
+ doGenSecretKey(alias, keyAlgName, keysize);
+ kssave = true;
+ } else if (command == IDENTITYDB) {
+ InputStream inStream = System.in;
+ if (filename != null) {
+ inStream = new FileInputStream(filename);
+ }
+ try {
+ doImportIdentityDatabase(inStream);
+ } finally {
+ if (inStream != System.in) {
+ inStream.close();
+ }
+ }
+ } else if (command == IMPORTCERT) {
+ InputStream inStream = System.in;
+ if (filename != null) {
+ inStream = new FileInputStream(filename);
+ }
+ try {
+ String importAlias = (alias!=null)?alias:keyAlias;
+ if (keyStore.entryInstanceOf(importAlias, KeyStore.PrivateKeyEntry.class)) {
+ kssave = installReply(importAlias, inStream);
+ if (kssave) {
+ System.err.println(rb.getString
+ ("Certificate reply was installed in keystore"));
+ } else {
+ System.err.println(rb.getString
+ ("Certificate reply was not installed in keystore"));
+ }
+ } else if (!keyStore.containsAlias(importAlias) ||
+ keyStore.entryInstanceOf(importAlias,
+ KeyStore.TrustedCertificateEntry.class)) {
+ kssave = addTrustedCert(importAlias, inStream);
+ if (kssave) {
+ System.err.println(rb.getString
+ ("Certificate was added to keystore"));
+ } else {
+ System.err.println(rb.getString
+ ("Certificate was not added to keystore"));
+ }
+ }
+ } finally {
+ if (inStream != System.in) {
+ inStream.close();
+ }
+ }
+ } else if (command == IMPORTKEYSTORE) {
+ doImportKeyStore();
+ kssave = true;
+ } else if (command == KEYCLONE) {
+ keyPassNew = newPass;
+
+ // added to make sure only key can go thru
+ if (alias == null) {
+ alias = keyAlias;
+ }
+ if (keyStore.containsAlias(alias) == false) {
+ MessageFormat form = new MessageFormat
+ (rb.getString("Alias <alias> does not exist"));
+ Object[] source = {alias};
+ throw new Exception(form.format(source));
+ }
+ if (!keyStore.entryInstanceOf(alias, KeyStore.PrivateKeyEntry.class)) {
+ MessageFormat form = new MessageFormat(rb.getString(
+ "Alias <alias> references an entry type that is not a private key entry. " +
+ "The -keyclone command only supports cloning of private key entries"));
+ Object[] source = {alias};
+ throw new Exception(form.format(source));
+ }
+
+ doCloneEntry(alias, dest, true); // Now everything can be cloned
+ kssave = true;
+ } else if (command == CHANGEALIAS) {
+ if (alias == null) {
+ alias = keyAlias;
+ }
+ doCloneEntry(alias, dest, false);
+ // in PKCS11, clone a PrivateKeyEntry will delete the old one
+ if (keyStore.containsAlias(alias)) {
+ doDeleteEntry(alias);
+ }
+ kssave = true;
+ } else if (command == KEYPASSWD) {
+ keyPassNew = newPass;
+ doChangeKeyPasswd(alias);
+ kssave = true;
+ } else if (command == LIST) {
+ if (alias != null) {
+ doPrintEntry(alias, out, true);
+ } else {
+ doPrintEntries(out);
+ }
+ } else if (command == PRINTCERT) {
+ InputStream inStream = System.in;
+ if (filename != null) {
+ inStream = new FileInputStream(filename);
+ }
+ try {
+ doPrintCert(inStream, out);
+ } finally {
+ if (inStream != System.in) {
+ inStream.close();
+ }
+ }
+ } else if (command == SELFCERT) {
+ doSelfCert(alias, dname, sigAlgName);
+ kssave = true;
+ } else if (command == STOREPASSWD) {
+ storePassNew = newPass;
+ if (storePassNew == null) {
+ storePassNew = getNewPasswd("keystore password", storePass);
+ }
+ kssave = true;
+ }
+
+ // If we need to save the keystore, do so.
+ if (kssave) {
+ if (verbose) {
+ MessageFormat form = new MessageFormat
+ (rb.getString("[Storing ksfname]"));
+ Object[] source = {nullStream ? "keystore" : ksfname};
+ System.err.println(form.format(source));
+ }
+
+ if (token) {
+ keyStore.store(null, null);
+ } else {
+ FileOutputStream fout = null;
+ try {
+ fout = (nullStream ?
+ (FileOutputStream)null :
+ new FileOutputStream(ksfname));
+ keyStore.store
+ (fout,
+ (storePassNew!=null) ? storePassNew : storePass);
+ } finally {
+ if (fout != null) {
+ fout.close();
+ }
+ }
+ }
+ }
+ }
+
+ /**
+ * Creates a PKCS#10 cert signing request, corresponding to the
+ * keys (and name) associated with a given alias.
+ */
+ private void doCertReq(String alias, String sigAlgName, PrintStream out)
+ throws Exception
+ {
+ if (alias == null) {
+ alias = keyAlias;
+ }
+
+ Object[] objs = recoverKey(alias, storePass, keyPass);
+ PrivateKey privKey = (PrivateKey)objs[0];
+ if (keyPass == null) {
+ keyPass = (char[])objs[1];
+ }
+
+ Certificate cert = keyStore.getCertificate(alias);
+ if (cert == null) {
+ MessageFormat form = new MessageFormat
+ (rb.getString("alias has no public key (certificate)"));
+ Object[] source = {alias};
+ throw new Exception(form.format(source));
+ }
+ PKCS10 request = new PKCS10(cert.getPublicKey());
+
+ // Construct an X500Signer object, so that we can sign the request
+ if (sigAlgName == null) {
+ // If no signature algorithm was specified at the command line,
+ // we choose one that is compatible with the selected private key
+ String keyAlgName = privKey.getAlgorithm();
+ if ("DSA".equalsIgnoreCase(keyAlgName)
+ || "DSS".equalsIgnoreCase(keyAlgName)) {
+ sigAlgName = "SHA1WithDSA";
+ } else if ("RSA".equalsIgnoreCase(keyAlgName)) {
+ sigAlgName = "SHA1WithRSA";
+ } else {
+ throw new Exception(rb.getString
+ ("Cannot derive signature algorithm"));
+ }
+ }
+
+ Signature signature = Signature.getInstance(sigAlgName);
+ signature.initSign(privKey);
+ X500Name subject =
+ new X500Name(((X509Certificate)cert).getSubjectDN().toString());
+ X500Signer signer = new X500Signer(signature, subject);
+
+ // Sign the request and base-64 encode it
+ request.encodeAndSign(signer);
+ request.print(out);
+ }
+
+ /**
+ * Deletes an entry from the keystore.
+ */
+ private void doDeleteEntry(String alias) throws Exception {
+ if (keyStore.containsAlias(alias) == false) {
+ MessageFormat form = new MessageFormat
+ (rb.getString("Alias <alias> does not exist"));
+ Object[] source = {alias};
+ throw new Exception(form.format(source));
+ }
+ keyStore.deleteEntry(alias);
+ }
+
+ /**
+ * Exports a certificate from the keystore.
+ */
+ private void doExportCert(String alias, PrintStream out)
+ throws Exception
+ {
+ if (storePass == null
+ && !KeyStoreUtil.isWindowsKeyStore(storetype)) {
+ printWarning();
+ }
+ if (alias == null) {
+ alias = keyAlias;
+ }
+ if (keyStore.containsAlias(alias) == false) {
+ MessageFormat form = new MessageFormat
+ (rb.getString("Alias <alias> does not exist"));
+ Object[] source = {alias};
+ throw new Exception(form.format(source));
+ }
+
+ X509Certificate cert = (X509Certificate)keyStore.getCertificate(alias);
+ if (cert == null) {
+ MessageFormat form = new MessageFormat
+ (rb.getString("Alias <alias> has no certificate"));
+ Object[] source = {alias};
+ throw new Exception(form.format(source));
+ }
+ dumpCert(cert, out);
+ }
+
+ /**
+ * Prompt the user for a keypass when generating a key entry.
+ * @param alias the entry we will set password for
+ * @param orig the original entry of doing a dup, null if generate new
+ * @param origPass the password to copy from if user press ENTER
+ */
+ private char[] promptForKeyPass(String alias, String orig, char[] origPass) throws Exception{
+ if (P12KEYSTORE.equalsIgnoreCase(storetype)) {
+ return origPass;
+ } else if (!token) {
+ // Prompt for key password
+ int count;
+ for (count = 0; count < 3; count++) {
+ MessageFormat form = new MessageFormat(rb.getString
+ ("Enter key password for <alias>"));
+ Object[] source = {alias};
+ System.err.println(form.format(source));
+ if (orig == null) {
+ System.err.print(rb.getString
+ ("\t(RETURN if same as keystore password): "));
+ } else {
+ form = new MessageFormat(rb.getString
+ ("\t(RETURN if same as for <otherAlias>)"));
+ Object[] src = {orig};
+ System.err.print(form.format(src));
+ }
+ System.err.flush();
+ char[] entered = Password.readPassword(System.in);
+ passwords.add(entered);
+ if (entered == null) {
+ return origPass;
+ } else if (entered.length >= 6) {
+ System.err.print(rb.getString("Re-enter new password: "));
+ char[] passAgain = Password.readPassword(System.in);
+ passwords.add(passAgain);
+ if (!Arrays.equals(entered, passAgain)) {
+ System.err.println
+ (rb.getString("They don't match. Try again"));
+ continue;
+ }
+ return entered;
+ } else {
+ System.err.println(rb.getString
+ ("Key password is too short - must be at least 6 characters"));
+ }
+ }
+ if (count == 3) {
+ if (command == KEYCLONE) {
+ throw new Exception(rb.getString
+ ("Too many failures. Key entry not cloned"));
+ } else {
+ throw new Exception(rb.getString
+ ("Too many failures - key not added to keystore"));
+ }
+ }
+ }
+ return null; // PKCS11
+ }
+ /**
+ * Creates a new secret key.
+ */
+ private void doGenSecretKey(String alias, String keyAlgName,
+ int keysize)
+ throws Exception
+ {
+ if (alias == null) {
+ alias = keyAlias;
+ }
+ if (keyStore.containsAlias(alias)) {
+ MessageFormat form = new MessageFormat(rb.getString
+ ("Secret key not generated, alias <alias> already exists"));
+ Object[] source = {alias};
+ throw new Exception(form.format(source));
+ }
+
+ SecretKey secKey = null;
+ KeyGenerator keygen = KeyGenerator.getInstance(keyAlgName);
+ if (keysize != -1) {
+ keygen.init(keysize);
+ } else if ("DES".equalsIgnoreCase(keyAlgName)) {
+ keygen.init(56);
+ } else if ("DESede".equalsIgnoreCase(keyAlgName)) {
+ keygen.init(168);
+ } else {
+ throw new Exception(rb.getString
+ ("Please provide -keysize for secret key generation"));
+ }
+
+ secKey = keygen.generateKey();
+ if (keyPass == null) {
+ keyPass = promptForKeyPass(alias, null, storePass);
+ }
+ keyStore.setKeyEntry(alias, secKey, keyPass, null);
+ }
+
+ /**
+ * Creates a new key pair and self-signed certificate.
+ */
+ private void doGenKeyPair(String alias, String dname, String keyAlgName,
+ int keysize, String sigAlgName)
+ throws Exception
+ {
+ if (keysize == -1) {
+ if ("EC".equalsIgnoreCase(keyAlgName)) {
+ keysize = 256;
+ } else {
+ keysize = 1024;
+ }
+ }
+
+ if (alias == null) {
+ alias = keyAlias;
+ }
+
+ if (keyStore.containsAlias(alias)) {
+ MessageFormat form = new MessageFormat(rb.getString
+ ("Key pair not generated, alias <alias> already exists"));
+ Object[] source = {alias};
+ throw new Exception(form.format(source));
+ }
+
+ if (sigAlgName == null) {
+ if ("DSA".equalsIgnoreCase(keyAlgName)) {
+ sigAlgName = "SHA1WithDSA";
+ } else if ("RSA".equalsIgnoreCase(keyAlgName)) {
+ sigAlgName = "SHA1WithRSA";
+ } else if ("EC".equalsIgnoreCase(keyAlgName)) {
+ sigAlgName = "SHA1withECDSA";
+ } else {
+ throw new Exception(rb.getString
+ ("Cannot derive signature algorithm"));
+ }
+ }
+ CertAndKeyGen keypair =
+ new CertAndKeyGen(keyAlgName, sigAlgName, providerName);
+
+
+ // If DN is provided, parse it. Otherwise, prompt the user for it.
+ X500Name x500Name;
+ if (dname == null) {
+ x500Name = getX500Name();
+ } else {
+ x500Name = new X500Name(dname);
+ }
+
+ keypair.generate(keysize);
+ PrivateKey privKey = keypair.getPrivateKey();
+
+ X509Certificate[] chain = new X509Certificate[1];
+ chain[0] = keypair.getSelfCertificate(
+ x500Name, getStartDate(startDate), validity*24L*60L*60L);
+
+ if (verbose) {
+ MessageFormat form = new MessageFormat(rb.getString
+ ("Generating keysize bit keyAlgName key pair and self-signed certificate " +
+ "(sigAlgName) with a validity of validality days\n\tfor: x500Name"));
+ Object[] source = {new Integer(keysize),
+ privKey.getAlgorithm(),
+ chain[0].getSigAlgName(),
+ new Long(validity),
+ x500Name};
+ System.err.println(form.format(source));
+ }
+
+ if (keyPass == null) {
+ keyPass = promptForKeyPass(alias, null, storePass);
+ }
+ keyStore.setKeyEntry(alias, privKey, keyPass, chain);
+ }
+
+ /**
+ * Clones an entry
+ * @param orig original alias
+ * @param dest destination alias
+ * @changePassword if the password can be changed
+ */
+ private void doCloneEntry(String orig, String dest, boolean changePassword)
+ throws Exception
+ {
+ if (orig == null) {
+ orig = keyAlias;
+ }
+
+ if (keyStore.containsAlias(dest)) {
+ MessageFormat form = new MessageFormat
+ (rb.getString("Destination alias <dest> already exists"));
+ Object[] source = {dest};
+ throw new Exception(form.format(source));
+ }
+
+ Object[] objs = recoverEntry(keyStore, orig, storePass, keyPass);
+ Entry entry = (Entry)objs[0];
+ keyPass = (char[])objs[1];
+
+ PasswordProtection pp = null;
+
+ if (keyPass != null) { // protected
+ if (!changePassword || P12KEYSTORE.equalsIgnoreCase(storetype)) {
+ keyPassNew = keyPass;
+ } else {
+ if (keyPassNew == null) {
+ keyPassNew = promptForKeyPass(dest, orig, keyPass);
+ }
+ }
+ pp = new PasswordProtection(keyPassNew);
+ }
+ keyStore.setEntry(dest, entry, pp);
+ }
+
+ /**
+ * Changes a key password.
+ */
+ private void doChangeKeyPasswd(String alias) throws Exception
+ {
+
+ if (alias == null) {
+ alias = keyAlias;
+ }
+ Object[] objs = recoverKey(alias, storePass, keyPass);
+ Key privKey = (Key)objs[0];
+ if (keyPass == null) {
+ keyPass = (char[])objs[1];
+ }
+
+ if (keyPassNew == null) {
+ MessageFormat form = new MessageFormat
+ (rb.getString("key password for <alias>"));
+ Object[] source = {alias};
+ keyPassNew = getNewPasswd(form.format(source), keyPass);
+ }
+ keyStore.setKeyEntry(alias, privKey, keyPassNew,
+ keyStore.getCertificateChain(alias));
+ }
+
+ /**
+ * Imports a JDK 1.1-style identity database. We can only store one
+ * certificate per identity, because we use the identity's name as the
+ * alias (which references a keystore entry), and aliases must be unique.
+ */
+ private void doImportIdentityDatabase(InputStream in)
+ throws Exception
+ {
+ byte[] encoded;
+ ByteArrayInputStream bais;
+ java.security.cert.X509Certificate newCert;
+ java.security.cert.Certificate[] chain = null;
+ PrivateKey privKey;
+ boolean modified = false;
+
+ IdentityDatabase idb = IdentityDatabase.fromStream(in);
+ for (Enumeration<Identity> enum_ = idb.identities();
+ enum_.hasMoreElements();) {
+ Identity id = enum_.nextElement();
+ newCert = null;
+ // only store trusted identities in keystore
+ if ((id instanceof SystemSigner && ((SystemSigner)id).isTrusted())
+ || (id instanceof SystemIdentity
+ && ((SystemIdentity)id).isTrusted())) {
+ // ignore if keystore entry with same alias name already exists
+ if (keyStore.containsAlias(id.getName())) {
+ MessageFormat form = new MessageFormat
+ (rb.getString("Keystore entry for <id.getName()> already exists"));
+ Object[] source = {id.getName()};
+ System.err.println(form.format(source));
+ continue;
+ }
+ java.security.Certificate[] certs = id.certificates();
+ if (certs!=null && certs.length>0) {
+ // we can only store one user cert per identity.
+ // convert old-style to new-style cert via the encoding
+ DerOutputStream dos = new DerOutputStream();
+ certs[0].encode(dos);
+ encoded = dos.toByteArray();
+ bais = new ByteArrayInputStream(encoded);
+ newCert = (X509Certificate)cf.generateCertificate(bais);
+ bais.close();
+
+ // if certificate is self-signed, make sure it verifies
+ if (isSelfSigned(newCert)) {
+ PublicKey pubKey = newCert.getPublicKey();
+ try {
+ newCert.verify(pubKey);
+ } catch (Exception e) {
+ // ignore this cert
+ continue;
+ }
+ }
+
+ if (id instanceof SystemSigner) {
+ MessageFormat form = new MessageFormat(rb.getString
+ ("Creating keystore entry for <id.getName()> ..."));
+ Object[] source = {id.getName()};
+ System.err.println(form.format(source));
+ if (chain==null) {
+ chain = new java.security.cert.Certificate[1];
+ }
+ chain[0] = newCert;
+ privKey = ((SystemSigner)id).getPrivateKey();
+ keyStore.setKeyEntry(id.getName(), privKey, storePass,
+ chain);
+ } else {
+ keyStore.setCertificateEntry(id.getName(), newCert);
+ }
+ kssave = true;
+ }
+ }
+ }
+ if (!kssave) {
+ System.err.println(rb.getString
+ ("No entries from identity database added"));
+ }
+ }
+
+ /**
+ * Prints a single keystore entry.
+ */
+ private void doPrintEntry(String alias, PrintStream out,
+ boolean printWarning)
+ throws Exception
+ {
+ if (storePass == null && printWarning
+ && !KeyStoreUtil.isWindowsKeyStore(storetype)) {
+ printWarning();
+ }
+
+ if (keyStore.containsAlias(alias) == false) {
+ MessageFormat form = new MessageFormat
+ (rb.getString("Alias <alias> does not exist"));
+ Object[] source = {alias};
+ throw new Exception(form.format(source));
+ }
+
+ if (verbose || rfc || debug) {
+ MessageFormat form = new MessageFormat
+ (rb.getString("Alias name: alias"));
+ Object[] source = {alias};
+ out.println(form.format(source));
+
+ if (!token) {
+ form = new MessageFormat(rb.getString
+ ("Creation date: keyStore.getCreationDate(alias)"));
+ Object[] src = {keyStore.getCreationDate(alias)};
+ out.println(form.format(src));
+ }
+ } else {
+ if (!token) {
+ MessageFormat form = new MessageFormat
+ (rb.getString("alias, keyStore.getCreationDate(alias), "));
+ Object[] source = {alias, keyStore.getCreationDate(alias)};
+ out.print(form.format(source));
+ } else {
+ MessageFormat form = new MessageFormat
+ (rb.getString("alias, "));
+ Object[] source = {alias};
+ out.print(form.format(source));
+ }
+ }
+
+ if (keyStore.entryInstanceOf(alias, KeyStore.SecretKeyEntry.class)) {
+ if (verbose || rfc || debug) {
+ Object[] source = {"SecretKeyEntry"};
+ out.println(new MessageFormat(
+ rb.getString("Entry type: <type>")).format(source));
+ } else {
+ out.println("SecretKeyEntry, ");
+ }
+ } else if (keyStore.entryInstanceOf(alias, KeyStore.PrivateKeyEntry.class)) {
+ if (verbose || rfc || debug) {
+ Object[] source = {"PrivateKeyEntry"};
+ out.println(new MessageFormat(
+ rb.getString("Entry type: <type>")).format(source));
+ } else {
+ out.println("PrivateKeyEntry, ");
+ }
+
+ // Get the chain
+ Certificate[] chain = keyStore.getCertificateChain(alias);
+ if (chain != null) {
+ if (verbose || rfc || debug) {
+ out.println(rb.getString
+ ("Certificate chain length: ") + chain.length);
+ for (int i = 0; i < chain.length; i ++) {
+ MessageFormat form = new MessageFormat
+ (rb.getString("Certificate[(i + 1)]:"));
+ Object[] source = {new Integer((i + 1))};
+ out.println(form.format(source));
+ if (verbose && (chain[i] instanceof X509Certificate)) {
+ printX509Cert((X509Certificate)(chain[i]), out);
+ } else if (debug) {
+ out.println(chain[i].toString());
+ } else {
+ dumpCert(chain[i], out);
+ }
+ }
+ } else {
+ // Print the digest of the user cert only
+ out.println
+ (rb.getString("Certificate fingerprint (MD5): ") +
+ getCertFingerPrint("MD5", chain[0]));
+ }
+ }
+ } else if (keyStore.entryInstanceOf(alias,
+ KeyStore.TrustedCertificateEntry.class)) {
+ // We have a trusted certificate entry
+ Certificate cert = keyStore.getCertificate(alias);
+ if (verbose && (cert instanceof X509Certificate)) {
+ out.println(rb.getString("Entry type: trustedCertEntry\n"));
+ printX509Cert((X509Certificate)cert, out);
+ } else if (rfc) {
+ out.println(rb.getString("Entry type: trustedCertEntry\n"));
+ dumpCert(cert, out);
+ } else if (debug) {
+ out.println(cert.toString());
+ } else {
+ out.println(rb.getString("trustedCertEntry,"));
+ out.println(rb.getString("Certificate fingerprint (MD5): ")
+ + getCertFingerPrint("MD5", cert));
+ }
+ } else {
+ out.println(rb.getString("Unknown Entry Type"));
+ }
+ }
+
+ /**
+ * Load the srckeystore from a stream, used in -importkeystore
+ * @returns the src KeyStore
+ */
+ KeyStore loadSourceKeyStore() throws Exception {
+ boolean isPkcs11 = false;
+
+ InputStream is = null;
+
+ if (P11KEYSTORE.equalsIgnoreCase(srcstoretype) ||
+ KeyStoreUtil.isWindowsKeyStore(srcstoretype)) {
+ if (!NONE.equals(srcksfname)) {
+ System.err.println(MessageFormat.format(rb.getString
+ ("-keystore must be NONE if -storetype is {0}"), srcstoretype));
+ System.err.println();
+ tinyHelp();
+ }
+ isPkcs11 = true;
+ } else {
+ if (srcksfname != null) {
+ File srcksfile = new File(srcksfname);
+ if (srcksfile.exists() && srcksfile.length() == 0) {
+ throw new Exception(rb.getString
+ ("Source keystore file exists, but is empty: ") +
+ srcksfname);
+ }
+ is = new FileInputStream(srcksfile);
+ } else {
+ throw new Exception(rb.getString
+ ("Please specify -srckeystore"));
+ }
+ }
+
+ KeyStore store;
+ try {
+ if (srcProviderName == null) {
+ store = KeyStore.getInstance(srcstoretype);
+ } else {
+ store = KeyStore.getInstance(srcstoretype, srcProviderName);
+ }
+
+ if (srcstorePass == null
+ && !srcprotectedPath
+ && !KeyStoreUtil.isWindowsKeyStore(srcstoretype)) {
+ System.err.print(rb.getString("Enter source keystore password: "));
+ System.err.flush();
+ srcstorePass = Password.readPassword(System.in);
+ passwords.add(srcstorePass);
+ }
+
+ // always let keypass be storepass when using pkcs12
+ if (P12KEYSTORE.equalsIgnoreCase(srcstoretype)) {
+ if (srckeyPass != null && srcstorePass != null &&
+ !Arrays.equals(srcstorePass, srckeyPass)) {
+ MessageFormat form = new MessageFormat(rb.getString(
+ "Warning: Different store and key passwords not supported " +
+ "for PKCS12 KeyStores. Ignoring user-specified <command> value."));
+ Object[] source = {"-srckeypass"};
+ System.err.println(form.format(source));
+ srckeyPass = srcstorePass;
+ }
+ }
+
+ store.load(is, srcstorePass); // "is" already null in PKCS11
+ } finally {
+ if (is != null) {
+ is.close();
+ }
+ }
+
+ if (srcstorePass == null
+ && !KeyStoreUtil.isWindowsKeyStore(srcstoretype)) {
+ // anti refactoring, copied from printWarning(),
+ // but change 2 lines
+ System.err.println();
+ System.err.println(rb.getString
+ ("***************** WARNING WARNING WARNING *****************"));
+ System.err.println(rb.getString
+ ("* The integrity of the information stored in the srckeystore*"));
+ System.err.println(rb.getString
+ ("* has NOT been verified! In order to verify its integrity, *"));
+ System.err.println(rb.getString
+ ("* you must provide the srckeystore password. *"));
+ System.err.println(rb.getString
+ ("***************** WARNING WARNING WARNING *****************"));
+ System.err.println();
+ }
+
+ return store;
+ }
+
+ /**
+ * import all keys and certs from importkeystore.
+ * keep alias unchanged if no name conflict, otherwise, prompt.
+ * keep keypass unchanged for keys
+ */
+ private void doImportKeyStore() throws Exception {
+
+ if (alias != null) {
+ doImportKeyStoreSingle(loadSourceKeyStore(), alias);
+ } else {
+ if (dest != null || srckeyPass != null || destKeyPass != null) {
+ throw new Exception(rb.getString(
+ "if alias not specified, destalias, srckeypass, " +
+ "and destkeypass must not be specified"));
+ }
+ doImportKeyStoreAll(loadSourceKeyStore());
+ }
+ /*
+ * Information display rule of -importkeystore
+ * 1. inside single, shows failure
+ * 2. inside all, shows sucess
+ * 3. inside all where there is a failure, prompt for continue
+ * 4. at the final of all, shows summary
+ */
+ }
+
+ /**
+ * Import a single entry named alias from srckeystore
+ * @returns 1 if the import action succeed
+ * 0 if user choose to ignore an alias-dumplicated entry
+ * 2 if setEntry throws Exception
+ */
+ private int doImportKeyStoreSingle(KeyStore srckeystore, String alias)
+ throws Exception {
+
+ String newAlias = (dest==null) ? alias : dest;
+
+ if (keyStore.containsAlias(newAlias)) {
+ Object[] source = {alias};
+ if (noprompt) {
+ System.err.println(new MessageFormat(rb.getString(
+ "Warning: Overwriting existing alias <alias> in destination keystore")).format(source));
+ } else {
+ String reply = getYesNoReply(new MessageFormat(rb.getString(
+ "Existing entry alias <alias> exists, overwrite? [no]: ")).format(source));
+ if ("NO".equals(reply)) {
+ newAlias = inputStringFromStdin(rb.getString
+ ("Enter new alias name\t(RETURN to cancel import for this entry): "));
+ if ("".equals(newAlias)) {
+ System.err.println(new MessageFormat(rb.getString(
+ "Entry for alias <alias> not imported.")).format(
+ source));
+ return 0;
+ }
+ }
+ }
+ }
+
+ Object[] objs = recoverEntry(srckeystore, alias, srcstorePass, srckeyPass);
+ Entry entry = (Entry)objs[0];
+
+ PasswordProtection pp = null;
+
+ // According to keytool.html, "The destination entry will be protected
+ // using destkeypass. If destkeypass is not provided, the destination
+ // entry will be protected with the source entry password."
+ // so always try to protect with destKeyPass.
+ if (destKeyPass != null) {
+ pp = new PasswordProtection(destKeyPass);
+ } else if (objs[1] != null) {
+ pp = new PasswordProtection((char[])objs[1]);
+ }
+
+ try {
+ keyStore.setEntry(newAlias, entry, pp);
+ return 1;
+ } catch (KeyStoreException kse) {
+ Object[] source2 = {alias, kse.toString()};
+ MessageFormat form = new MessageFormat(rb.getString(
+ "Problem importing entry for alias <alias>: <exception>.\nEntry for alias <alias> not imported."));
+ System.err.println(form.format(source2));
+ return 2;
+ }
+ }
+
+ private void doImportKeyStoreAll(KeyStore srckeystore) throws Exception {
+
+ int ok = 0;
+ int count = srckeystore.size();
+ for (Enumeration<String> e = srckeystore.aliases();
+ e.hasMoreElements(); ) {
+ String alias = e.nextElement();
+ int result = doImportKeyStoreSingle(srckeystore, alias);
+ if (result == 1) {
+ ok++;
+ Object[] source = {alias};
+ MessageFormat form = new MessageFormat(rb.getString("Entry for alias <alias> successfully imported."));
+ System.err.println(form.format(source));
+ } else if (result == 2) {
+ if (!noprompt) {
+ String reply = getYesNoReply("Do you want to quit the import process? [no]: ");
+ if ("YES".equals(reply)) {
+ break;
+ }
+ }
+ }
+ }
+ Object[] source = {ok, count-ok};
+ MessageFormat form = new MessageFormat(rb.getString(
+ "Import command completed: <ok> entries successfully imported, <fail> entries failed or cancelled"));
+ System.err.println(form.format(source));
+ }
+
+ /**
+ * Prints all keystore entries.
+ */
+ private void doPrintEntries(PrintStream out)
+ throws Exception
+ {
+ if (storePass == null
+ && !KeyStoreUtil.isWindowsKeyStore(storetype)) {
+ printWarning();
+ } else {
+ out.println();
+ }
+
+ out.println(rb.getString("Keystore type: ") + keyStore.getType());
+ out.println(rb.getString("Keystore provider: ") +
+ keyStore.getProvider().getName());
+ out.println();
+
+ MessageFormat form;
+ form = (keyStore.size() == 1) ?
+ new MessageFormat(rb.getString
+ ("Your keystore contains keyStore.size() entry")) :
+ new MessageFormat(rb.getString
+ ("Your keystore contains keyStore.size() entries"));
+ Object[] source = {new Integer(keyStore.size())};
+ out.println(form.format(source));
+ out.println();
+
+ for (Enumeration<String> e = keyStore.aliases();
+ e.hasMoreElements(); ) {
+ String alias = e.nextElement();
+ doPrintEntry(alias, out, false);
+ if (verbose || rfc) {
+ out.println(rb.getString("\n"));
+ out.println(rb.getString
+ ("*******************************************"));
+ out.println(rb.getString
+ ("*******************************************\n\n"));
+ }
+ }
+ }
+
+ /**
+ * Reads a certificate (or certificate chain) and prints its contents in
+ * a human readbable format.
+ */
+ private void doPrintCert(InputStream in, PrintStream out)
+ throws Exception
+ {
+ Collection<? extends Certificate> c = null;
+ try {
+ c = cf.generateCertificates(in);
+ } catch (CertificateException ce) {
+ throw new Exception(rb.getString("Failed to parse input"), ce);
+ }
+ if (c.isEmpty()) {
+ throw new Exception(rb.getString("Empty input"));
+ }
+ Certificate[] certs = c.toArray(new Certificate[c.size()]);
+ for (int i=0; i<certs.length; i++) {
+ X509Certificate x509Cert = null;
+ try {
+ x509Cert = (X509Certificate)certs[i];
+ } catch (ClassCastException cce) {
+ throw new Exception(rb.getString("Not X.509 certificate"));
+ }
+ if (certs.length > 1) {
+ MessageFormat form = new MessageFormat
+ (rb.getString("Certificate[(i + 1)]:"));
+ Object[] source = {new Integer(i + 1)};
+ out.println(form.format(source));
+ }
+ printX509Cert(x509Cert, out);
+ if (i < (certs.length-1)) {
+ out.println();
+ }
+ }
+ }
+
+ /**
+ * Creates a self-signed certificate, and stores it as a single-element
+ * certificate chain.
+ */
+ private void doSelfCert(String alias, String dname, String sigAlgName)
+ throws Exception
+ {
+ if (alias == null) {
+ alias = keyAlias;
+ }
+
+ Object[] objs = recoverKey(alias, storePass, keyPass);
+ PrivateKey privKey = (PrivateKey)objs[0];
+ if (keyPass == null)
+ keyPass = (char[])objs[1];
+
+ // Determine the signature algorithm
+ if (sigAlgName == null) {
+ // If no signature algorithm was specified at the command line,
+ // we choose one that is compatible with the selected private key
+ String keyAlgName = privKey.getAlgorithm();
+ if ("DSA".equalsIgnoreCase(keyAlgName)
+ || "DSS".equalsIgnoreCase(keyAlgName)) {
+ sigAlgName = "SHA1WithDSA";
+ } else if ("RSA".equalsIgnoreCase(keyAlgName)) {
+ sigAlgName = "SHA1WithRSA";
+ } else if ("EC".equalsIgnoreCase(keyAlgName)) {
+ sigAlgName = "SHA1withECDSA";
+ } else {
+ throw new Exception
+ (rb.getString("Cannot derive signature algorithm"));
+ }
+ }
+
+ // Get the old certificate
+ Certificate oldCert = keyStore.getCertificate(alias);
+ if (oldCert == null) {
+ MessageFormat form = new MessageFormat
+ (rb.getString("alias has no public key"));
+ Object[] source = {alias};
+ throw new Exception(form.format(source));
+ }
+ if (!(oldCert instanceof X509Certificate)) {
+ MessageFormat form = new MessageFormat
+ (rb.getString("alias has no X.509 certificate"));
+ Object[] source = {alias};
+ throw new Exception(form.format(source));
+ }
+
+ // convert to X509CertImpl, so that we can modify selected fields
+ // (no public APIs available yet)
+ byte[] encoded = oldCert.getEncoded();
+ X509CertImpl certImpl = new X509CertImpl(encoded);
+ X509CertInfo certInfo = (X509CertInfo)certImpl.get(X509CertImpl.NAME
+ + "." +
+ X509CertImpl.INFO);
+
+ // Extend its validity
+ Date firstDate = getStartDate(startDate);
+ Date lastDate = new Date();
+ lastDate.setTime(firstDate.getTime() + validity*1000L*24L*60L*60L);
+ CertificateValidity interval = new CertificateValidity(firstDate,
+ lastDate);
+ certInfo.set(X509CertInfo.VALIDITY, interval);
+
+ // Make new serial number
+ certInfo.set(X509CertInfo.SERIAL_NUMBER, new CertificateSerialNumber
+ ((int)(firstDate.getTime()/1000)));
+
+ // Set owner and issuer fields
+ X500Name owner;
+ if (dname == null) {
+ // Get the owner name from the certificate
+ owner = (X500Name)certInfo.get(X509CertInfo.SUBJECT + "." +
+ CertificateSubjectName.DN_NAME);
+ } else {
+ // Use the owner name specified at the command line
+ owner = new X500Name(dname);
+ certInfo.set(X509CertInfo.SUBJECT + "." +
+ CertificateSubjectName.DN_NAME, owner);
+ }
+ // Make issuer same as owner (self-signed!)
+ certInfo.set(X509CertInfo.ISSUER + "." +
+ CertificateIssuerName.DN_NAME, owner);
+
+ // The inner and outer signature algorithms have to match.
+ // The way we achieve that is really ugly, but there seems to be no
+ // other solution: We first sign the cert, then retrieve the
+ // outer sigalg and use it to set the inner sigalg
+ X509CertImpl newCert = new X509CertImpl(certInfo);
+ newCert.sign(privKey, sigAlgName);
+ AlgorithmId sigAlgid = (AlgorithmId)newCert.get(X509CertImpl.SIG_ALG);
+ certInfo.set(CertificateAlgorithmId.NAME + "." +
+ CertificateAlgorithmId.ALGORITHM, sigAlgid);
+
+ // first upgrade to version 3
+
+ certInfo.set(X509CertInfo.VERSION,
+ new CertificateVersion(CertificateVersion.V3));
+
+ // Sign the new certificate
+ newCert = new X509CertImpl(certInfo);
+ newCert.sign(privKey, sigAlgName);
+
+ // Store the new certificate as a single-element certificate chain
+ keyStore.setKeyEntry(alias, privKey,
+ (keyPass != null) ? keyPass : storePass,
+ new Certificate[] { newCert } );
+
+ if (verbose) {
+ System.err.println(rb.getString("New certificate (self-signed):"));
+ System.err.print(newCert.toString());
+ System.err.println();
+ }
+ }
+
+ /**
+ * Processes a certificate reply from a certificate authority.
+ *
+ * <p>Builds a certificate chain on top of the certificate reply,
+ * using trusted certificates from the keystore. The chain is complete
+ * after a self-signed certificate has been encountered. The self-signed
+ * certificate is considered a root certificate authority, and is stored
+ * at the end of the chain.
+ *
+ * <p>The newly generated chain replaces the old chain associated with the
+ * key entry.
+ *
+ * @return true if the certificate reply was installed, otherwise false.
+ */
+ private boolean installReply(String alias, InputStream in)
+ throws Exception
+ {
+ if (alias == null) {
+ alias = keyAlias;
+ }
+
+ Object[] objs = recoverKey(alias, storePass, keyPass);
+ PrivateKey privKey = (PrivateKey)objs[0];
+ if (keyPass == null) {
+ keyPass = (char[])objs[1];
+ }
+
+ Certificate userCert = keyStore.getCertificate(alias);
+ if (userCert == null) {
+ MessageFormat form = new MessageFormat
+ (rb.getString("alias has no public key (certificate)"));
+ Object[] source = {alias};
+ throw new Exception(form.format(source));
+ }
+
+ // Read the certificates in the reply
+ Collection<? extends Certificate> c = cf.generateCertificates(in);
+ if (c.isEmpty()) {
+ throw new Exception(rb.getString("Reply has no certificates"));
+ }
+ Certificate[] replyCerts = c.toArray(new Certificate[c.size()]);
+ Certificate[] newChain;
+ if (replyCerts.length == 1) {
+ // single-cert reply
+ newChain = establishCertChain(userCert, replyCerts[0]);
+ } else {
+ // cert-chain reply (e.g., PKCS#7)
+ newChain = validateReply(alias, userCert, replyCerts);
+ }
+
+ // Now store the newly established chain in the keystore. The new
+ // chain replaces the old one.
+ if (newChain != null) {
+ keyStore.setKeyEntry(alias, privKey,
+ (keyPass != null) ? keyPass : storePass,
+ newChain);
+ return true;
+ } else {
+ return false;
+ }
+ }
+
+ /**
+ * Imports a certificate and adds it to the list of trusted certificates.
+ *
+ * @return true if the certificate was added, otherwise false.
+ */
+ private boolean addTrustedCert(String alias, InputStream in)
+ throws Exception
+ {
+ if (alias == null) {
+ throw new Exception(rb.getString("Must specify alias"));
+ }
+ if (keyStore.containsAlias(alias)) {
+ MessageFormat form = new MessageFormat(rb.getString
+ ("Certificate not imported, alias <alias> already exists"));
+ Object[] source = {alias};
+ throw new Exception(form.format(source));
+ }
+
+ // Read the certificate
+ X509Certificate cert = null;
+ try {
+ cert = (X509Certificate)cf.generateCertificate(in);
+ } catch (ClassCastException cce) {
+ throw new Exception(rb.getString("Input not an X.509 certificate"));
+ } catch (CertificateException ce) {
+ throw new Exception(rb.getString("Input not an X.509 certificate"));
+ }
+
+ // if certificate is self-signed, make sure it verifies
+ boolean selfSigned = false;
+ if (isSelfSigned(cert)) {
+ cert.verify(cert.getPublicKey());
+ selfSigned = true;
+ }
+
+ if (noprompt) {
+ keyStore.setCertificateEntry(alias, cert);
+ return true;
+ }
+
+ // check if cert already exists in keystore
+ String reply = null;
+ String trustalias = keyStore.getCertificateAlias(cert);
+ if (trustalias != null) {
+ MessageFormat form = new MessageFormat(rb.getString
+ ("Certificate already exists in keystore under alias <trustalias>"));
+ Object[] source = {trustalias};
+ System.err.println(form.format(source));
+ reply = getYesNoReply
+ (rb.getString("Do you still want to add it? [no]: "));
+ } else if (selfSigned) {
+ if (trustcacerts && (caks != null) &&
+ ((trustalias=caks.getCertificateAlias(cert)) != null)) {
+ MessageFormat form = new MessageFormat(rb.getString
+ ("Certificate already exists in system-wide CA keystore under alias <trustalias>"));
+ Object[] source = {trustalias};
+ System.err.println(form.format(source));
+ reply = getYesNoReply
+ (rb.getString("Do you still want to add it to your own keystore? [no]: "));
+ }
+ if (trustalias == null) {
+ // Print the cert and ask user if they really want to add
+ // it to their keystore
+ printX509Cert(cert, System.out);
+ reply = getYesNoReply
+ (rb.getString("Trust this certificate? [no]: "));
+ }
+ }
+ if (reply != null) {
+ if ("YES".equals(reply)) {
+ keyStore.setCertificateEntry(alias, cert);
+ return true;
+ } else {
+ return false;
+ }
+ }
+
+ // Try to establish trust chain
+ try {
+ Certificate[] chain = establishCertChain(null, cert);
+ if (chain != null) {
+ keyStore.setCertificateEntry(alias, cert);
+ return true;
+ }
+ } catch (Exception e) {
+ // Print the cert and ask user if they really want to add it to
+ // their keystore
+ printX509Cert(cert, System.out);
+ reply = getYesNoReply
+ (rb.getString("Trust this certificate? [no]: "));
+ if ("YES".equals(reply)) {
+ keyStore.setCertificateEntry(alias, cert);
+ return true;
+ } else {
+ return false;
+ }
+ }
+
+ return false;
+ }
+
+ /**
+ * Prompts user for new password. New password must be different from
+ * old one.
+ *
+ * @param prompt the message that gets prompted on the screen
+ * @param oldPasswd the current (i.e., old) password
+ */
+ private char[] getNewPasswd(String prompt, char[] oldPasswd)
+ throws Exception
+ {
+ char[] entered = null;
+ char[] reentered = null;
+
+ for (int count = 0; count < 3; count++) {
+ MessageFormat form = new MessageFormat
+ (rb.getString("New prompt: "));
+ Object[] source = {prompt};
+ System.err.print(form.format(source));
+ entered = Password.readPassword(System.in);
+ passwords.add(entered);
+ if (entered == null || entered.length < 6) {
+ System.err.println(rb.getString
+ ("Password is too short - must be at least 6 characters"));
+ } else if (Arrays.equals(entered, oldPasswd)) {
+ System.err.println(rb.getString("Passwords must differ"));
+ } else {
+ form = new MessageFormat
+ (rb.getString("Re-enter new prompt: "));
+ Object[] src = {prompt};
+ System.err.print(form.format(src));
+ reentered = Password.readPassword(System.in);
+ passwords.add(reentered);
+ if (!Arrays.equals(entered, reentered)) {
+ System.err.println
+ (rb.getString("They don't match. Try again"));
+ } else {
+ Arrays.fill(reentered, ' ');
+ return entered;
+ }
+ }
+ if (entered != null) {
+ Arrays.fill(entered, ' ');
+ entered = null;
+ }
+ if (reentered != null) {
+ Arrays.fill(reentered, ' ');
+ reentered = null;
+ }
+ }
+ throw new Exception(rb.getString("Too many failures - try later"));
+ }
+
+ /**
+ * Prompts user for alias name.
+ * @param prompt the {0} of "Enter {0} alias name: " in prompt line
+ * @returns the string entered by the user, without the \n at the end
+ */
+ private String getAlias(String prompt) throws Exception {
+ if (prompt != null) {
+ MessageFormat form = new MessageFormat
+ (rb.getString("Enter prompt alias name: "));
+ Object[] source = {prompt};
+ System.err.print(form.format(source));
+ } else {
+ System.err.print(rb.getString("Enter alias name: "));
+ }
+ return (new BufferedReader(new InputStreamReader(
+ System.in))).readLine();
+ }
+
+ /**
+ * Prompts user for an input string from the command line (System.in)
+ * @prompt the prompt string printed
+ * @returns the string entered by the user, without the \n at the end
+ */
+ private String inputStringFromStdin(String prompt) throws Exception {
+ System.err.print(prompt);
+ return (new BufferedReader(new InputStreamReader(
+ System.in))).readLine();
+ }
+
+ /**
+ * Prompts user for key password. User may select to choose the same
+ * password (<code>otherKeyPass</code>) as for <code>otherAlias</code>.
+ */
+ private char[] getKeyPasswd(String alias, String otherAlias,
+ char[] otherKeyPass)
+ throws Exception
+ {
+ int count = 0;
+ char[] keyPass = null;
+
+ do {
+ if (otherKeyPass != null) {
+ MessageFormat form = new MessageFormat(rb.getString
+ ("Enter key password for <alias>"));
+ Object[] source = {alias};
+ System.err.println(form.format(source));
+
+ form = new MessageFormat(rb.getString
+ ("\t(RETURN if same as for <otherAlias>)"));
+ Object[] src = {otherAlias};
+ System.err.print(form.format(src));
+ } else {
+ MessageFormat form = new MessageFormat(rb.getString
+ ("Enter key password for <alias>"));
+ Object[] source = {alias};
+ System.err.print(form.format(source));
+ }
+ System.err.flush();
+ keyPass = Password.readPassword(System.in);
+ passwords.add(keyPass);
+ if (keyPass == null) {
+ keyPass = otherKeyPass;
+ }
+ count++;
+ } while ((keyPass == null) && count < 3);
+
+ if (keyPass == null) {
+ throw new Exception(rb.getString("Too many failures - try later"));
+ }
+
+ return keyPass;
+ }
+
+ /**
+ * Prints a certificate in a human readable format.
+ */
+ private void printX509Cert(X509Certificate cert, PrintStream out)
+ throws Exception
+ {
+ /*
+ out.println("Owner: "
+ + cert.getSubjectDN().toString()
+ + "\n"
+ + "Issuer: "
+ + cert.getIssuerDN().toString()
+ + "\n"
+ + "Serial number: " + cert.getSerialNumber().toString(16)
+ + "\n"
+ + "Valid from: " + cert.getNotBefore().toString()
+ + " until: " + cert.getNotAfter().toString()
+ + "\n"
+ + "Certificate fingerprints:\n"
+ + "\t MD5: " + getCertFingerPrint("MD5", cert)
+ + "\n"
+ + "\t SHA1: " + getCertFingerPrint("SHA1", cert));
+ */
+
+ MessageFormat form = new MessageFormat
+ (rb.getString("*PATTERN* printX509Cert"));
+ Object[] source = {cert.getSubjectDN().toString(),
+ cert.getIssuerDN().toString(),
+ cert.getSerialNumber().toString(16),
+ cert.getNotBefore().toString(),
+ cert.getNotAfter().toString(),
+ getCertFingerPrint("MD5", cert),
+ getCertFingerPrint("SHA1", cert),
+ cert.getSigAlgName(),
+ cert.getVersion()
+ };
+ out.println(form.format(source));
+
+ int extnum = 0;
+ if (cert instanceof X509CertImpl) {
+ X509CertImpl impl = (X509CertImpl)cert;
+ if (cert.getCriticalExtensionOIDs() != null) {
+ for (String extOID : cert.getCriticalExtensionOIDs()) {
+ if (extnum == 0) {
+ out.println();
+ out.println(rb.getString("Extensions: "));
+ out.println();
+ }
+ out.println("#"+(++extnum)+": "+
+ impl.getExtension(new ObjectIdentifier(extOID)));
+ }
+ }
+ if (cert.getNonCriticalExtensionOIDs() != null) {
+ for (String extOID : cert.getNonCriticalExtensionOIDs()) {
+ if (extnum == 0) {
+ out.println();
+ out.println(rb.getString("Extensions: "));
+ out.println();
+ }
+ Extension ext = impl.getExtension(new ObjectIdentifier(extOID));
+ if (ext != null) {
+ out.println("#"+(++extnum)+": "+ ext);
+ } else {
+ out.println("#"+(++extnum)+": "+
+ impl.getUnparseableExtension(new ObjectIdentifier(extOID)));
+ }
+ }
+ }
+ }
+ }
+
+ /**
+ * Returns true if the certificate is self-signed, false otherwise.
+ */
+ private boolean isSelfSigned(X509Certificate cert) {
+ return cert.getSubjectDN().equals(cert.getIssuerDN());
+ }
+
+ /**
+ * Returns true if the given certificate is trusted, false otherwise.
+ */
+ private boolean isTrusted(Certificate cert)
+ throws Exception
+ {
+ if (keyStore.getCertificateAlias(cert) != null) {
+ return true; // found in own keystore
+ }
+ if (trustcacerts && (caks != null) &&
+ (caks.getCertificateAlias(cert) != null)) {
+ return true; // found in CA keystore
+ }
+ return false;
+ }
+
+ /**
+ * Gets an X.500 name suitable for inclusion in a certification request.
+ */
+ private X500Name getX500Name() throws IOException {
+ BufferedReader in;
+ in = new BufferedReader(new InputStreamReader(System.in));
+ String commonName = "Unknown";
+ String organizationalUnit = "Unknown";
+ String organization = "Unknown";
+ String city = "Unknown";
+ String state = "Unknown";
+ String country = "Unknown";
+ X500Name name;
+ String userInput = null;
+
+ int maxRetry = 20;
+ do {
+ if (maxRetry-- < 0) {
+ throw new RuntimeException(rb.getString(
+ "Too may retries, program terminated"));
+ }
+ commonName = inputString(in,
+ rb.getString("What is your first and last name?"),
+ commonName);
+ organizationalUnit = inputString(in,
+ rb.getString
+ ("What is the name of your organizational unit?"),
+ organizationalUnit);
+ organization = inputString(in,
+ rb.getString("What is the name of your organization?"),
+ organization);
+ city = inputString(in,
+ rb.getString("What is the name of your City or Locality?"),
+ city);
+ state = inputString(in,
+ rb.getString("What is the name of your State or Province?"),
+ state);
+ country = inputString(in,
+ rb.getString
+ ("What is the two-letter country code for this unit?"),
+ country);
+ name = new X500Name(commonName, organizationalUnit, organization,
+ city, state, country);
+ MessageFormat form = new MessageFormat
+ (rb.getString("Is <name> correct?"));
+ Object[] source = {name};
+ userInput = inputString
+ (in, form.format(source), rb.getString("no"));
+ } while (collator.compare(userInput, rb.getString("yes")) != 0 &&
+ collator.compare(userInput, rb.getString("y")) != 0);
+
+ System.err.println();
+ return name;
+ }
+
+ private String inputString(BufferedReader in, String prompt,
+ String defaultValue)
+ throws IOException
+ {
+ System.err.println(prompt);
+ MessageFormat form = new MessageFormat
+ (rb.getString(" [defaultValue]: "));
+ Object[] source = {defaultValue};
+ System.err.print(form.format(source));
+ System.err.flush();
+
+ String value = in.readLine();
+ if (value == null || collator.compare(value, "") == 0) {
+ value = defaultValue;
+ }
+ return value;
+ }
+
+ /**
+ * Writes an X.509 certificate in base64 or binary encoding to an output
+ * stream.
+ */
+ private void dumpCert(Certificate cert, PrintStream out)
+ throws IOException, CertificateException
+ {
+ if (rfc) {
+ BASE64Encoder encoder = new BASE64Encoder();
+ out.println(X509Factory.BEGIN_CERT);
+ encoder.encodeBuffer(cert.getEncoded(), out);
+ out.println(X509Factory.END_CERT);
+ } else {
+ out.write(cert.getEncoded()); // binary
+ }
+ }
+
+ /**
+ * Converts a byte to hex digit and writes to the supplied buffer
+ */
+ private void byte2hex(byte b, StringBuffer buf) {
+ char[] hexChars = { '0', '1', '2', '3', '4', '5', '6', '7', '8',
+ '9', 'A', 'B', 'C', 'D', 'E', 'F' };
+ int high = ((b & 0xf0) >> 4);
+ int low = (b & 0x0f);
+ buf.append(hexChars[high]);
+ buf.append(hexChars[low]);
+ }
+
+ /**
+ * Converts a byte array to hex string
+ */
+ private String toHexString(byte[] block) {
+ StringBuffer buf = new StringBuffer();
+ int len = block.length;
+ for (int i = 0; i < len; i++) {
+ byte2hex(block[i], buf);
+ if (i < len-1) {
+ buf.append(":");
+ }
+ }
+ return buf.toString();
+ }
+
+ /**
+ * Recovers (private) key associated with given alias.
+ *
+ * @return an array of objects, where the 1st element in the array is the
+ * recovered private key, and the 2nd element is the password used to
+ * recover it.
+ */
+ private Object[] recoverKey(String alias, char[] storePass,
+ char[] keyPass)
+ throws Exception
+ {
+ Key key = null;
+
+ if (keyStore.containsAlias(alias) == false) {
+ MessageFormat form = new MessageFormat
+ (rb.getString("Alias <alias> does not exist"));
+ Object[] source = {alias};
+ throw new Exception(form.format(source));
+ }
+ if (!keyStore.entryInstanceOf(alias, KeyStore.PrivateKeyEntry.class) &&
+ !keyStore.entryInstanceOf(alias, KeyStore.SecretKeyEntry.class)) {
+ MessageFormat form = new MessageFormat
+ (rb.getString("Alias <alias> has no key"));
+ Object[] source = {alias};
+ throw new Exception(form.format(source));
+ }
+
+ if (keyPass == null) {
+ // Try to recover the key using the keystore password
+ try {
+ key = keyStore.getKey(alias, storePass);
+
+ keyPass = storePass;
+ passwords.add(keyPass);
+ } catch (UnrecoverableKeyException e) {
+ // Did not work out, so prompt user for key password
+ if (!token) {
+ keyPass = getKeyPasswd(alias, null, null);
+ key = keyStore.getKey(alias, keyPass);
+ } else {
+ throw e;
+ }
+ }
+ } else {
+ key = keyStore.getKey(alias, keyPass);
+ }
+
+ return new Object[] {key, keyPass};
+ }
+
+ /**
+ * Recovers entry associated with given alias.
+ *
+ * @return an array of objects, where the 1st element in the array is the
+ * recovered entry, and the 2nd element is the password used to
+ * recover it (null if no password).
+ */
+ private Object[] recoverEntry(KeyStore ks,
+ String alias,
+ char[] pstore,
+ char[] pkey) throws Exception {
+
+ if (ks.containsAlias(alias) == false) {
+ MessageFormat form = new MessageFormat
+ (rb.getString("Alias <alias> does not exist"));
+ Object[] source = {alias};
+ throw new Exception(form.format(source));
+ }
+
+ PasswordProtection pp = null;
+ Entry entry;
+
+ try {
+ // First attempt to access entry without key password
+ // (PKCS11 entry or trusted certificate entry, for example)
+
+ entry = ks.getEntry(alias, pp);
+ pkey = null;
+ } catch (UnrecoverableEntryException une) {
+
+ if(P11KEYSTORE.equalsIgnoreCase(ks.getType()) ||
+ KeyStoreUtil.isWindowsKeyStore(ks.getType())) {
+ // should not happen, but a possibility
+ throw une;
+ }
+
+ // entry is protected
+
+ if (pkey != null) {
+
+ // try provided key password
+
+ pp = new PasswordProtection(pkey);
+ entry = ks.getEntry(alias, pp);
+
+ } else {
+
+ // try store pass
+
+ try {
+ pp = new PasswordProtection(pstore);
+ entry = ks.getEntry(alias, pp);
+ pkey = pstore;
+ } catch (UnrecoverableEntryException une2) {
+ if (P12KEYSTORE.equalsIgnoreCase(ks.getType())) {
+
+ // P12 keystore currently does not support separate
+ // store and entry passwords
+
+ throw une2;
+ } else {
+
+ // prompt for entry password
+
+ pkey = getKeyPasswd(alias, null, null);
+ pp = new PasswordProtection(pkey);
+ entry = ks.getEntry(alias, pp);
+ }
+ }
+ }
+ }
+
+ return new Object[] {entry, pkey};
+ }
+ /**
+ * Gets the requested finger print of the certificate.
+ */
+ private String getCertFingerPrint(String mdAlg, Certificate cert)
+ throws Exception
+ {
+ byte[] encCertInfo = cert.getEncoded();
+ MessageDigest md = MessageDigest.getInstance(mdAlg);
+ byte[] digest = md.digest(encCertInfo);
+ return toHexString(digest);
+ }
+
+ /**
+ * Prints warning about missing integrity check.
+ */
+ private void printWarning() {
+ System.err.println();
+ System.err.println(rb.getString
+ ("***************** WARNING WARNING WARNING *****************"));
+ System.err.println(rb.getString
+ ("* The integrity of the information stored in your keystore *"));
+ System.err.println(rb.getString
+ ("* has NOT been verified! In order to verify its integrity, *"));
+ System.err.println(rb.getString
+ ("* you must provide your keystore password. *"));
+ System.err.println(rb.getString
+ ("***************** WARNING WARNING WARNING *****************"));
+ System.err.println();
+ }
+
+ /**
+ * Validates chain in certification reply, and returns the ordered
+ * elements of the chain (with user certificate first, and root
+ * certificate last in the array).
+ *
+ * @param alias the alias name
+ * @param userCert the user certificate of the alias
+ * @param replyCerts the chain provided in the reply
+ */
+ private Certificate[] validateReply(String alias,
+ Certificate userCert,
+ Certificate[] replyCerts)
+ throws Exception
+ {
+ // order the certs in the reply (bottom-up).
+ // we know that all certs in the reply are of type X.509, because
+ // we parsed them using an X.509 certificate factory
+ int i;
+ PublicKey userPubKey = userCert.getPublicKey();
+ for (i=0; i<replyCerts.length; i++) {
+ if (userPubKey.equals(replyCerts[i].getPublicKey())) {
+ break;
+ }
+ }
+ if (i == replyCerts.length) {
+ MessageFormat form = new MessageFormat(rb.getString
+ ("Certificate reply does not contain public key for <alias>"));
+ Object[] source = {alias};
+ throw new Exception(form.format(source));
+ }
+
+ Certificate tmpCert = replyCerts[0];
+ replyCerts[0] = replyCerts[i];
+ replyCerts[i] = tmpCert;
+ Principal issuer = ((X509Certificate)replyCerts[0]).getIssuerDN();
+
+ for (i=1; i < replyCerts.length-1; i++) {
+ // find a cert in the reply whose "subject" is the same as the
+ // given "issuer"
+ int j;
+ for (j=i; j<replyCerts.length; j++) {
+ Principal subject;
+ subject = ((X509Certificate)replyCerts[j]).getSubjectDN();
+ if (subject.equals(issuer)) {
+ tmpCert = replyCerts[i];
+ replyCerts[i] = replyCerts[j];
+ replyCerts[j] = tmpCert;
+ issuer = ((X509Certificate)replyCerts[i]).getIssuerDN();
+ break;
+ }
+ }
+ if (j == replyCerts.length) {
+ throw new Exception
+ (rb.getString("Incomplete certificate chain in reply"));
+ }
+ }
+
+ // now verify each cert in the ordered chain
+ for (i=0; i<replyCerts.length-1; i++) {
+ PublicKey pubKey = replyCerts[i+1].getPublicKey();
+ try {
+ replyCerts[i].verify(pubKey);
+ } catch (Exception e) {
+ throw new Exception(rb.getString
+ ("Certificate chain in reply does not verify: ") +
+ e.getMessage());
+ }
+ }
+
+ if (noprompt) {
+ return replyCerts;
+ }
+
+ // do we trust the (root) cert at the top?
+ Certificate topCert = replyCerts[replyCerts.length-1];
+ if (!isTrusted(topCert)) {
+ boolean verified = false;
+ Certificate rootCert = null;
+ if (trustcacerts && (caks!= null)) {
+ for (Enumeration<String> aliases = caks.aliases();
+ aliases.hasMoreElements(); ) {
+ String name = aliases.nextElement();
+ rootCert = caks.getCertificate(name);
+ if (rootCert != null) {
+ try {
+ topCert.verify(rootCert.getPublicKey());
+ verified = true;
+ break;
+ } catch (Exception e) {
+ }
+ }
+ }
+ }
+ if (!verified) {
+ System.err.println();
+ System.err.println
+ (rb.getString("Top-level certificate in reply:\n"));
+ printX509Cert((X509Certificate)topCert, System.out);
+ System.err.println();
+ System.err.print(rb.getString("... is not trusted. "));
+ String reply = getYesNoReply
+ (rb.getString("Install reply anyway? [no]: "));
+ if ("NO".equals(reply)) {
+ return null;
+ }
+ } else {
+ if (!isSelfSigned((X509Certificate)topCert)) {
+ // append the (self-signed) root CA cert to the chain
+ Certificate[] tmpCerts =
+ new Certificate[replyCerts.length+1];
+ System.arraycopy(replyCerts, 0, tmpCerts, 0,
+ replyCerts.length);
+ tmpCerts[tmpCerts.length-1] = rootCert;
+ replyCerts = tmpCerts;
+ }
+ }
+ }
+
+ return replyCerts;
+ }
+
+ /**
+ * Establishes a certificate chain (using trusted certificates in the
+ * keystore), starting with the user certificate
+ * and ending at a self-signed certificate found in the keystore.
+ *
+ * @param userCert the user certificate of the alias
+ * @param certToVerify the single certificate provided in the reply
+ */
+ private Certificate[] establishCertChain(Certificate userCert,
+ Certificate certToVerify)
+ throws Exception
+ {
+ if (userCert != null) {
+ // Make sure that the public key of the certificate reply matches
+ // the original public key in the keystore
+ PublicKey origPubKey = userCert.getPublicKey();
+ PublicKey replyPubKey = certToVerify.getPublicKey();
+ if (!origPubKey.equals(replyPubKey)) {
+ throw new Exception(rb.getString
+ ("Public keys in reply and keystore don't match"));
+ }
+
+ // If the two certs are identical, we're done: no need to import
+ // anything
+ if (certToVerify.equals(userCert)) {
+ throw new Exception(rb.getString
+ ("Certificate reply and certificate in keystore are identical"));
+ }
+ }
+
+ // Build a hash table of all certificates in the keystore.
+ // Use the subject distinguished name as the key into the hash table.
+ // All certificates associated with the same subject distinguished
+ // name are stored in the same hash table entry as a vector.
+ Hashtable<Principal, Vector<Certificate>> certs = null;
+ if (keyStore.size() > 0) {
+ certs = new Hashtable<Principal, Vector<Certificate>>(11);
+ keystorecerts2Hashtable(keyStore, certs);
+ }
+ if (trustcacerts) {
+ if (caks!=null && caks.size()>0) {
+ if (certs == null) {
+ certs = new Hashtable<Principal, Vector<Certificate>>(11);
+ }
+ keystorecerts2Hashtable(caks, certs);
+ }
+ }
+
+ // start building chain
+ Vector<Certificate> chain = new Vector<Certificate>(2);
+ if (buildChain((X509Certificate)certToVerify, chain, certs)) {
+ Certificate[] newChain = new Certificate[chain.size()];
+ // buildChain() returns chain with self-signed root-cert first and
+ // user-cert last, so we need to invert the chain before we store
+ // it
+ int j=0;
+ for (int i=chain.size()-1; i>=0; i--) {
+ newChain[j] = chain.elementAt(i);
+ j++;
+ }
+ return newChain;
+ } else {
+ throw new Exception
+ (rb.getString("Failed to establish chain from reply"));
+ }
+ }
+
+ /**
+ * Recursively tries to establish chain from pool of trusted certs.
+ *
+ * @param certToVerify the cert that needs to be verified.
+ * @param chain the chain that's being built.
+ * @param certs the pool of trusted certs
+ *
+ * @return true if successful, false otherwise.
+ */
+ private boolean buildChain(X509Certificate certToVerify,
+ Vector<Certificate> chain,
+ Hashtable<Principal, Vector<Certificate>> certs) {
+ Principal subject = certToVerify.getSubjectDN();
+ Principal issuer = certToVerify.getIssuerDN();
+ if (subject.equals(issuer)) {
+ // reached self-signed root cert;
+ // no verification needed because it's trusted.
+ chain.addElement(certToVerify);
+ return true;
+ }
+
+ // Get the issuer's certificate(s)
+ Vector<Certificate> vec = certs.get(issuer);
+ if (vec == null) {
+ return false;
+ }
+
+ // Try out each certificate in the vector, until we find one
+ // whose public key verifies the signature of the certificate
+ // in question.
+ for (Enumeration<Certificate> issuerCerts = vec.elements();
+ issuerCerts.hasMoreElements(); ) {
+ X509Certificate issuerCert
+ = (X509Certificate)issuerCerts.nextElement();
+ PublicKey issuerPubKey = issuerCert.getPublicKey();
+ try {
+ certToVerify.verify(issuerPubKey);
+ } catch (Exception e) {
+ continue;
+ }
+ if (buildChain(issuerCert, chain, certs)) {
+ chain.addElement(certToVerify);
+ return true;
+ }
+ }
+ return false;
+ }
+
+ /**
+ * Prompts user for yes/no decision.
+ *
+ * @return the user's decision, can only be "YES" or "NO"
+ */
+ private String getYesNoReply(String prompt)
+ throws IOException
+ {
+ String reply = null;
+ int maxRetry = 20;
+ do {
+ if (maxRetry-- < 0) {
+ throw new RuntimeException(rb.getString(
+ "Too may retries, program terminated"));
+ }
+ System.err.print(prompt);
+ System.err.flush();
+ reply = (new BufferedReader(new InputStreamReader
+ (System.in))).readLine();
+ if (collator.compare(reply, "") == 0 ||
+ collator.compare(reply, rb.getString("n")) == 0 ||
+ collator.compare(reply, rb.getString("no")) == 0) {
+ reply = "NO";
+ } else if (collator.compare(reply, rb.getString("y")) == 0 ||
+ collator.compare(reply, rb.getString("yes")) == 0) {
+ reply = "YES";
+ } else {
+ System.err.println(rb.getString("Wrong answer, try again"));
+ reply = null;
+ }
+ } while (reply == null);
+ return reply;
+ }
+
+ /**
+ * Returns the keystore with the configured CA certificates.
+ */
+ private KeyStore getCacertsKeyStore()
+ throws Exception
+ {
+ String sep = File.separator;
+ File file = new File(System.getProperty("java.home") + sep
+ + "lib" + sep + "security" + sep
+ + "cacerts");
+ if (!file.exists()) {
+ return null;
+ }
+ FileInputStream fis = null;
+ KeyStore caks = null;
+ try {
+ fis = new FileInputStream(file);
+ caks = KeyStore.getInstance(JKS);
+ caks.load(fis, null);
+ } finally {
+ if (fis != null) {
+ fis.close();
+ }
+ }
+ return caks;
+ }
+
+ /**
+ * Stores the (leaf) certificates of a keystore in a hashtable.
+ * All certs belonging to the same CA are stored in a vector that
+ * in turn is stored in the hashtable, keyed by the CA's subject DN
+ */
+ private void keystorecerts2Hashtable(KeyStore ks,
+ Hashtable<Principal, Vector<Certificate>> hash)
+ throws Exception {
+
+ for (Enumeration<String> aliases = ks.aliases();
+ aliases.hasMoreElements(); ) {
+ String alias = aliases.nextElement();
+ Certificate cert = ks.getCertificate(alias);
+ if (cert != null) {
+ Principal subjectDN = ((X509Certificate)cert).getSubjectDN();
+ Vector<Certificate> vec = hash.get(subjectDN);
+ if (vec == null) {
+ vec = new Vector<Certificate>();
+ vec.addElement(cert);
+ } else {
+ if (!vec.contains(cert)) {
+ vec.addElement(cert);
+ }
+ }
+ hash.put(subjectDN, vec);
+ }
+ }
+ }
+
+ /**
+ * Returns the issue time that's specified the -startdate option
+ * @param s the value of -startdate option
+ */
+ private static Date getStartDate(String s) throws IOException {
+ Calendar c = new GregorianCalendar();
+ if (s != null) {
+ IOException ioe = new IOException(
+ rb.getString("Illegal startdate value"));
+ int len = s.length();
+ if (len == 0) {
+ throw ioe;
+ }
+ if (s.charAt(0) == '-' || s.charAt(0) == '+') {
+ // Form 1: ([+-]nnn[ymdHMS])+
+ int start = 0;
+ while (start < len) {
+ int sign = 0;
+ switch (s.charAt(start)) {
+ case '+': sign = 1; break;
+ case '-': sign = -1; break;
+ default: throw ioe;
+ }
+ int i = start+1;
+ for (; i<len; i++) {
+ char ch = s.charAt(i);
+ if (ch < '0' || ch > '9') break;
+ }
+ if (i == start+1) throw ioe;
+ int number = Integer.parseInt(s.substring(start+1, i));
+ if (i >= len) throw ioe;
+ int unit = 0;
+ switch (s.charAt(i)) {
+ case 'y': unit = Calendar.YEAR; break;
+ case 'm': unit = Calendar.MONTH; break;
+ case 'd': unit = Calendar.DATE; break;
+ case 'H': unit = Calendar.HOUR; break;
+ case 'M': unit = Calendar.MINUTE; break;
+ case 'S': unit = Calendar.SECOND; break;
+ default: throw ioe;
+ }
+ c.add(unit, sign * number);
+ start = i + 1;
+ }
+ } else {
+ // Form 2: [yyyy/mm/dd] [HH:MM:SS]
+ String date = null, time = null;
+ if (len == 19) {
+ date = s.substring(0, 10);
+ time = s.substring(11);
+ if (s.charAt(10) != ' ')
+ throw ioe;
+ } else if (len == 10) {
+ date = s;
+ } else if (len == 8) {
+ time = s;
+ } else {
+ throw ioe;
+ }
+ if (date != null) {
+ if (date.matches("\\d\\d\\d\\d\\/\\d\\d\\/\\d\\d")) {
+ c.set(Integer.valueOf(date.substring(0, 4)),
+ Integer.valueOf(date.substring(5, 7))-1,
+ Integer.valueOf(date.substring(8, 10)));
+ } else {
+ throw ioe;
+ }
+ }
+ if (time != null) {
+ if (time.matches("\\d\\d:\\d\\d:\\d\\d")) {
+ c.set(Calendar.HOUR_OF_DAY, Integer.valueOf(time.substring(0, 2)));
+ c.set(Calendar.MINUTE, Integer.valueOf(time.substring(0, 2)));
+ c.set(Calendar.SECOND, Integer.valueOf(time.substring(0, 2)));
+ c.set(Calendar.MILLISECOND, 0);
+ } else {
+ throw ioe;
+ }
+ }
+ }
+ }
+ return c.getTime();
+ }
+
+ /**
+ * Prints the usage of this tool.
+ */
+ private void usage() {
+ System.err.println(rb.getString("keytool usage:\n"));
+
+ System.err.println(rb.getString
+ ("-certreq [-v] [-protected]"));
+ System.err.println(rb.getString
+ ("\t [-alias <alias>] [-sigalg <sigalg>]"));
+ System.err.println(rb.getString
+ ("\t [-file <csr_file>] [-keypass <keypass>]"));
+ System.err.println(rb.getString
+ ("\t [-keystore <keystore>] [-storepass <storepass>]"));
+ System.err.println(rb.getString
+ ("\t [-storetype <storetype>] [-providername <name>]"));
+ System.err.println(rb.getString
+ ("\t [-providerclass <provider_class_name> [-providerarg <arg>]] ..."));
+ System.err.println(rb.getString
+ ("\t [-providerpath <pathlist>]"));
+ System.err.println();
+
+ System.err.println(rb.getString
+ ("-changealias [-v] [-protected] -alias <alias> -destalias <destalias>"));
+ System.err.println(rb.getString
+ ("\t [-keypass <keypass>]"));
+ System.err.println(rb.getString
+ ("\t [-keystore <keystore>] [-storepass <storepass>]"));
+ System.err.println(rb.getString
+ ("\t [-storetype <storetype>] [-providername <name>]"));
+ System.err.println(rb.getString
+ ("\t [-providerclass <provider_class_name> [-providerarg <arg>]] ..."));
+ System.err.println(rb.getString
+ ("\t [-providerpath <pathlist>]"));
+ System.err.println();
+
+ System.err.println(rb.getString
+ ("-delete [-v] [-protected] -alias <alias>"));
+ System.err.println(rb.getString
+ ("\t [-keystore <keystore>] [-storepass <storepass>]"));
+ System.err.println(rb.getString
+ ("\t [-storetype <storetype>] [-providername <name>]"));
+ System.err.println(rb.getString
+ ("\t [-providerclass <provider_class_name> [-providerarg <arg>]] ..."));
+ System.err.println(rb.getString
+ ("\t [-providerpath <pathlist>]"));
+ System.err.println();
+
+ System.err.println(rb.getString
+ ("-exportcert [-v] [-rfc] [-protected]"));
+ System.err.println(rb.getString
+ ("\t [-alias <alias>] [-file <cert_file>]"));
+ System.err.println(rb.getString
+ ("\t [-keystore <keystore>] [-storepass <storepass>]"));
+ System.err.println(rb.getString
+ ("\t [-storetype <storetype>] [-providername <name>]"));
+ System.err.println(rb.getString
+ ("\t [-providerclass <provider_class_name> [-providerarg <arg>]] ..."));
+ System.err.println(rb.getString
+ ("\t [-providerpath <pathlist>]"));
+ System.err.println();
+
+ System.err.println(rb.getString
+ ("-genkeypair [-v] [-protected]"));
+ System.err.println(rb.getString
+ ("\t [-alias <alias>]"));
+ System.err.println(rb.getString
+ ("\t [-keyalg <keyalg>] [-keysize <keysize>]"));
+ System.err.println(rb.getString
+ ("\t [-sigalg <sigalg>] [-dname <dname>]"));
+ System.err.println(rb.getString
+ ("\t [-startdate <startdate>]"));
+ System.err.println(rb.getString
+ ("\t [-validity <valDays>] [-keypass <keypass>]"));
+ System.err.println(rb.getString
+ ("\t [-keystore <keystore>] [-storepass <storepass>]"));
+ System.err.println(rb.getString
+ ("\t [-storetype <storetype>] [-providername <name>]"));
+ System.err.println(rb.getString
+ ("\t [-providerclass <provider_class_name> [-providerarg <arg>]] ..."));
+ System.err.println(rb.getString
+ ("\t [-providerpath <pathlist>]"));
+ System.err.println();
+
+ System.err.println(rb.getString
+ ("-genseckey [-v] [-protected]"));
+ System.err.println(rb.getString
+ ("\t [-alias <alias>] [-keypass <keypass>]"));
+ System.err.println(rb.getString
+ ("\t [-keyalg <keyalg>] [-keysize <keysize>]"));
+ System.err.println(rb.getString
+ ("\t [-keystore <keystore>] [-storepass <storepass>]"));
+ System.err.println(rb.getString
+ ("\t [-storetype <storetype>] [-providername <name>]"));
+ System.err.println(rb.getString
+ ("\t [-providerclass <provider_class_name> [-providerarg <arg>]] ..."));
+ System.err.println(rb.getString
+ ("\t [-providerpath <pathlist>]"));
+ System.err.println();
+
+ System.err.println(rb.getString("-help"));
+ System.err.println();
+
+ System.err.println(rb.getString
+ ("-importcert [-v] [-noprompt] [-trustcacerts] [-protected]"));
+ System.err.println(rb.getString
+ ("\t [-alias <alias>]"));
+ System.err.println(rb.getString
+ ("\t [-file <cert_file>] [-keypass <keypass>]"));
+ System.err.println(rb.getString
+ ("\t [-keystore <keystore>] [-storepass <storepass>]"));
+ System.err.println(rb.getString
+ ("\t [-storetype <storetype>] [-providername <name>]"));
+ System.err.println(rb.getString
+ ("\t [-providerclass <provider_class_name> [-providerarg <arg>]] ..."));
+ System.err.println(rb.getString
+ ("\t [-providerpath <pathlist>]"));
+ System.err.println();
+
+ System.err.println(rb.getString
+ ("-importkeystore [-v] "));
+ System.err.println(rb.getString
+ ("\t [-srckeystore <srckeystore>] [-destkeystore <destkeystore>]"));
+ System.err.println(rb.getString
+ ("\t [-srcstoretype <srcstoretype>] [-deststoretype <deststoretype>]"));
+ System.err.println(rb.getString
+ ("\t [-srcstorepass <srcstorepass>] [-deststorepass <deststorepass>]"));
+ System.err.println(rb.getString
+ ("\t [-srcprotected] [-destprotected]"));
+ System.err.println(rb.getString
+ ("\t [-srcprovidername <srcprovidername>]\n\t [-destprovidername <destprovidername>]"));
+ System.err.println(rb.getString
+ ("\t [-srcalias <srcalias> [-destalias <destalias>]"));
+ System.err.println(rb.getString
+ ("\t [-srckeypass <srckeypass>] [-destkeypass <destkeypass>]]"));
+ System.err.println(rb.getString
+ ("\t [-noprompt]"));
+ System.err.println(rb.getString
+ ("\t [-providerclass <provider_class_name> [-providerarg <arg>]] ..."));
+ System.err.println(rb.getString
+ ("\t [-providerpath <pathlist>]"));
+ System.err.println();
+
+ System.err.println(rb.getString
+ ("-keypasswd [-v] [-alias <alias>]"));
+ System.err.println(rb.getString
+ ("\t [-keypass <old_keypass>] [-new <new_keypass>]"));
+ System.err.println(rb.getString
+ ("\t [-keystore <keystore>] [-storepass <storepass>]"));
+ System.err.println(rb.getString
+ ("\t [-storetype <storetype>] [-providername <name>]"));
+ System.err.println(rb.getString
+ ("\t [-providerclass <provider_class_name> [-providerarg <arg>]] ..."));
+ System.err.println(rb.getString
+ ("\t [-providerpath <pathlist>]"));
+ System.err.println();
+
+ System.err.println(rb.getString
+ ("-list [-v | -rfc] [-protected]"));
+ System.err.println(rb.getString
+ ("\t [-alias <alias>]"));
+ System.err.println(rb.getString
+ ("\t [-keystore <keystore>] [-storepass <storepass>]"));
+ System.err.println(rb.getString
+ ("\t [-storetype <storetype>] [-providername <name>]"));
+ System.err.println(rb.getString
+ ("\t [-providerclass <provider_class_name> [-providerarg <arg>]] ..."));
+ System.err.println(rb.getString
+ ("\t [-providerpath <pathlist>]"));
+ System.err.println();
+
+ System.err.println(rb.getString
+ ("-printcert [-v] [-file <cert_file>]"));
+ System.err.println();
+
+ System.err.println(rb.getString
+ ("-storepasswd [-v] [-new <new_storepass>]"));
+ System.err.println(rb.getString
+ ("\t [-keystore <keystore>] [-storepass <storepass>]"));
+ System.err.println(rb.getString
+ ("\t [-storetype <storetype>] [-providername <name>]"));
+ System.err.println(rb.getString
+ ("\t [-providerclass <provider_class_name> [-providerarg <arg>]] ..."));
+ System.err.println(rb.getString
+ ("\t [-providerpath <pathlist>]"));
+
+ if (debug) {
+ throw new RuntimeException("NO ERROR, SORRY");
+ } else {
+ System.exit(1);
+ }
+ }
+
+ private void tinyHelp() {
+ System.err.println(rb.getString("Try keytool -help"));
+
+ // do not drown user with the help lines.
+ if (debug) {
+ throw new RuntimeException("NO BIG ERROR, SORRY");
+ } else {
+ System.exit(1);
+ }
+ }
+
+ private void errorNeedArgument(String flag) {
+ Object[] source = {flag};
+ System.err.println(new MessageFormat(
+ rb.getString("Command option <flag> needs an argument.")).format(source));
+ tinyHelp();
+ }
+}
+
+// This class is exactly the same as com.sun.tools.javac.util.Pair,
+// it's copied here since the original one is not included in JRE.
+class Pair<A, B> {
+
+ public final A fst;
+ public final B snd;
+
+ public Pair(A fst, B snd) {
+ this.fst = fst;
+ this.snd = snd;
+ }
+
+ public String toString() {
+ return "Pair[" + fst + "," + snd + "]";
+ }
+
+ private static boolean equals(Object x, Object y) {
+ return (x == null && y == null) || (x != null && x.equals(y));
+ }
+
+ public boolean equals(Object other) {
+ return
+ other instanceof Pair &&
+ equals(fst, ((Pair)other).fst) &&
+ equals(snd, ((Pair)other).snd);
+ }
+
+ public int hashCode() {
+ if (fst == null) return (snd == null) ? 0 : snd.hashCode() + 1;
+ else if (snd == null) return fst.hashCode() + 2;
+ else return fst.hashCode() * 17 + snd.hashCode();
+ }
+}