/*

 * Copyright (c) 2003, 2005, Oracle and/or its affiliates. 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.

 *

 * 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 Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA

 * or visit www.oracle.com if you need additional information or have any

 * questions.

 */

/**

 * @test

 * @bug 4856966

 * @summary basic test of SHA1withDSA and RawDSA signing/verifying

 * @author Andreas Sterbenz

 * @library ..

 */

import java.io.*;

import java.util.*;

import java.math.BigInteger;

import java.security.*;

import java.security.spec.*;

public class TestDSA extends PKCS11Test {

    // values of the keys we use for the tests

    private final static String ps =

        "fd7f53811d75122952df4a9c2eece4e7f611b7523cef4400c31e3f80b6512669" +

        "455d402251fb593d8d58fabfc5f5ba30f6cb9b556cd7813b801d346ff26660b7" +

        "6b9950a5a49f9fe8047b1022c24fbba9d7feb7c61bf83b57e7c6a8a6150f04fb" +

        "83f6d3c51ec3023554135a169132f675f3ae2b61d72aeff22203199dd14801c7";

    private final static String qs =

        "9760508f15230bccb292b982a2eb840bf0581cf5";

    private final static String gs =

        "f7e1a085d69b3ddecbbcab5c36b857b97994afbbfa3aea82f9574c0b3d078267" +

        "5159578ebad4594fe67107108180b449167123e84c281613b7cf09328cc8a6e1" +

        "3c167a8b547c8d28e0a3ae1e2bb3a675916ea37f0bfa213562f1fb627a01243b" +

        "cca4f1bea8519089a883dfe15ae59f06928b665e807b552564014c3bfecf492a";

    private final static String xs =

        "2952afd9aef9527f9b40d23c8916f7d046028f9d";

    private final static String ys =

        "b16ddb0f9394c328c983ecf23b20014ace368a1af5728dffbf1162de9ed8ebf6" +

        "384f323930e091503035caa797e3674221fc16136240b5474799ede2b7b11313" +

        "7574a9c26bcf900940027b4bcd511ef1d1daf2e69c416aebaf3bdf39f02473b9" +

        "d963f99414c09d97bb0830d9fbdcf7bb9dad8a2179fcdf296838c4cfab8f4d8f";

    private final static BigInteger p = new BigInteger(ps, 16);

    private final static BigInteger q = new BigInteger(qs, 16);

    private final static BigInteger g = new BigInteger(gs, 16);

    private final static BigInteger x = new BigInteger(xs, 16);

    private final static BigInteger y = new BigInteger(ys, 16);

    // data for test 1, original and SHA-1 hashed

    private final static byte[] data1Raw = b("0102030405060708090a0b0c0d0e0f10111213");

    private final static byte[] data1SHA = b("00:e2:5f:c9:1c:8f:d6:8c:6a:dc:c6:bd:f0:46:60:5e:a2:cd:8d:ad");

    // valid signatures of data1. sig1b uses incorrect ASN.1 encoding,

    // which we want to accept anyway for compatibility

    private final static byte[] sig1a = b("30:2d:02:14:53:06:3f:7d:ec:48:3c:99:17:9a:2c:a9:4d:e8:00:da:70:fb:35:d7:02:15:00:92:6a:39:6b:15:63:2f:e7:32:90:35:bf:af:47:55:e7:ff:33:a5:13");

    private final static byte[] sig1b = b("30:2c:02:14:53:06:3f:7d:ec:48:3c:99:17:9a:2c:a9:4d:e8:00:da:70:fb:35:d7:02:14:92:6a:39:6b:15:63:2f:e7:32:90:35:bf:af:47:55:e7:ff:33:a5:13");

    // data for test 2 (invalid signatures)

    private final static byte[] data2Raw = {};

    private final static byte[] data2SHA = b("da:39:a3:ee:5e:6b:4b:0d:32:55:bf:ef:95:60:18:90:af:d8:07:09");

    private static void verify(Provider provider, String alg, PublicKey key, byte[] data, byte[] sig, boolean result) throws Exception {

        Signature s = Signature.getInstance(alg, provider);

        s.initVerify(key);

        boolean r;

        s.update(data);

        r = s.verify(sig);

        if (r != result) {

            throw new Exception("Result mismatch, actual: " + r);

        }

        s.update(data);

        r = s.verify(sig);

        if (r != result) {

            throw new Exception("Result mismatch, actual: " + r);

        }

        System.out.println("Passed");

    }

    public static void main(String[] args) throws Exception {

        main(new TestDSA());

    }

    public void main(Provider provider) throws Exception {

        long start = System.currentTimeMillis();

        System.out.println("Testing provider " + provider + "...");

        if (provider.getService("Signature", "SHA1withDSA") == null) {

            System.out.println("DSA not supported, skipping");

            return;

        }

        KeyFactory kf = KeyFactory.getInstance("DSA", provider);

        DSAPrivateKeySpec privSpec = new DSAPrivateKeySpec(x, p, q, g);

        DSAPublicKeySpec pubSpec = new DSAPublicKeySpec(y, p, q, g);

        PrivateKey privateKey = kf.generatePrivate(privSpec);

        PublicKey publicKey = kf.generatePublic(pubSpec);

        // verify known-good and known-bad signatures using SHA1withDSA and RawDSA

        verify(provider, "SHA1withDSA", publicKey, data1Raw, sig1a, true);

        verify(provider, "SHA1withDSA", publicKey, data1Raw, sig1b, true);

        verify(provider, "SHA1withDSA", publicKey, data2Raw, sig1a, false);

        verify(provider, "SHA1withDSA", publicKey, data2Raw, sig1b, false);

        verify(provider, "RawDSA", publicKey, data1SHA, sig1a, true);

        verify(provider, "RawDSA", publicKey, data1SHA, sig1b, true);

        verify(provider, "RawDSA", publicKey, data2SHA, sig1a, false);

        verify(provider, "RawDSA", publicKey, data2SHA, sig1b, false);

        testSigning(provider, privateKey, publicKey);

        long stop = System.currentTimeMillis();

        System.out.println("All tests passed (" + (stop - start) + " ms).");

    }

    private void testSigning(Provider provider, PrivateKey privateKey,

            PublicKey publicKey) throws Exception {

        byte[] data = new byte[2048];

        new Random().nextBytes(data);

        // sign random data using SHA1withDSA and verify using

        // SHA1withDSA and RawDSA

        Signature s = Signature.getInstance("SHA1withDSA", provider);

        s.initSign(privateKey);

        s.update(data);

        byte[] s1 = s.sign();

        s.initVerify(publicKey);

        s.update(data);

        if (!s.verify(s1)) {

            throw new Exception("Sign/verify 1 failed");

        }

        s = Signature.getInstance("RawDSA", provider);

        MessageDigest md = MessageDigest.getInstance("SHA-1");

        byte[] digest = md.digest(data);

        s.initVerify(publicKey);

        s.update(digest);

        if (!s.verify(s1)) {

            throw new Exception("Sign/verify 2 failed");

        }

        // sign random data using RawDSA and verify using

        // SHA1withDSA and RawDSA

        s.initSign(privateKey);

        s.update(digest);

        byte[] s2 = s.sign();

        s.initVerify(publicKey);

        s.update(digest);

        if (!s.verify(s2)) {

            throw new Exception("Sign/verify 3 failed");

        }

        s = Signature.getInstance("SHA1withDSA", provider);

        s.initVerify(publicKey);

        s.update(data);

        if (!s.verify(s2)) {

            throw new Exception("Sign/verify 4 failed");

        }

        // test behavior if data of incorrect length is passed

        s = Signature.getInstance("RawDSA", provider);

        s.initSign(privateKey);

        s.update(new byte[8]);

        s.update(new byte[64]);

        try {

            s.sign();

            throw new Exception("No error RawDSA signing long data");

        } catch (SignatureException e) {

            // expected

        }

    }

    private final static char[] hexDigits = "0123456789abcdef".toCharArray();

    public static String toString(byte[] b) {

        StringBuffer sb = new StringBuffer(b.length * 3);

        for (int i = 0; i < b.length; i++) {

            int k = b[i] & 0xff;

            if (i != 0) {

                sb.append(':');

            }

            sb.append(hexDigits[k >>> 4]);

            sb.append(hexDigits[k & 0xf]);

        }

        return sb.toString();

    }

    public static byte[] parse(String s) {

        try {

            int n = s.length();

            ByteArrayOutputStream out = new ByteArrayOutputStream(n / 3);

            StringReader r = new StringReader(s);

            while (true) {

                int b1 = nextNibble(r);

                if (b1 < 0) {

                    break;

                }

                int b2 = nextNibble(r);

                if (b2 < 0) {

                    throw new RuntimeException("Invalid string " + s);

                }

                int b = (b1 << 4) | b2;

                out.write(b);

            }

            return out.toByteArray();

        } catch (IOException e) {

            throw new RuntimeException(e);

        }

    }

    public static byte[] b(String s) {

        return parse(s);

    }

    private static int nextNibble(StringReader r) throws IOException {

        while (true) {

            int ch = r.read();

            if (ch == -1) {

                return -1;

            } else if ((ch >= '0') && (ch <= '9')) {

                return ch - '0';

            } else if ((ch >= 'a') && (ch <= 'f')) {

                return ch - 'a' + 10;

            } else if ((ch >= 'A') && (ch <= 'F')) {

                return ch - 'A' + 10;

            }

        }

    }

}