package er.extensions.crypting; // Copyright (c) 2006 Damien Miller <djm@mindrot.org> // // Permission to use, copy, modify, and distribute this software for any // purpose with or without fee is hereby granted, provided that the above // copyright notice and this permission notice appear in all copies. // // THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES // WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF // MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR // ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES // WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN // ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF // OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. import junit.framework.TestCase; /** * JUnit unit tests for BCrypt routines * @author Damien Miller * @version 0.2 */ public class TestBCrypt extends TestCase { String test_vectors[][] = { { "", "$2a$06$DCq7YPn5Rq63x1Lad4cll.", "$2a$06$DCq7YPn5Rq63x1Lad4cll.TV4S6ytwfsfvkgY8jIucDrjc8deX1s." }, { "", "$2a$08$HqWuK6/Ng6sg9gQzbLrgb.", "$2a$08$HqWuK6/Ng6sg9gQzbLrgb.Tl.ZHfXLhvt/SgVyWhQqgqcZ7ZuUtye" }, { "", "$2a$10$k1wbIrmNyFAPwPVPSVa/ze", "$2a$10$k1wbIrmNyFAPwPVPSVa/zecw2BCEnBwVS2GbrmgzxFUOqW9dk4TCW" }, { "", "$2a$12$k42ZFHFWqBp3vWli.nIn8u", "$2a$12$k42ZFHFWqBp3vWli.nIn8uYyIkbvYRvodzbfbK18SSsY.CsIQPlxO" }, { "a", "$2a$06$m0CrhHm10qJ3lXRY.5zDGO", "$2a$06$m0CrhHm10qJ3lXRY.5zDGO3rS2KdeeWLuGmsfGlMfOxih58VYVfxe" }, { "a", "$2a$08$cfcvVd2aQ8CMvoMpP2EBfe", "$2a$08$cfcvVd2aQ8CMvoMpP2EBfeodLEkkFJ9umNEfPD18.hUF62qqlC/V." }, { "a", "$2a$10$k87L/MF28Q673VKh8/cPi.", "$2a$10$k87L/MF28Q673VKh8/cPi.SUl7MU/rWuSiIDDFayrKk/1tBsSQu4u" }, { "a", "$2a$12$8NJH3LsPrANStV6XtBakCe", "$2a$12$8NJH3LsPrANStV6XtBakCez0cKHXVxmvxIlcz785vxAIZrihHZpeS" }, { "abc", "$2a$06$If6bvum7DFjUnE9p2uDeDu", "$2a$06$If6bvum7DFjUnE9p2uDeDu0YHzrHM6tf.iqN8.yx.jNN1ILEf7h0i" }, { "abc", "$2a$08$Ro0CUfOqk6cXEKf3dyaM7O", "$2a$08$Ro0CUfOqk6cXEKf3dyaM7OhSCvnwM9s4wIX9JeLapehKK5YdLxKcm" }, { "abc", "$2a$10$WvvTPHKwdBJ3uk0Z37EMR.", "$2a$10$WvvTPHKwdBJ3uk0Z37EMR.hLA2W6N9AEBhEgrAOljy2Ae5MtaSIUi" }, { "abc", "$2a$12$EXRkfkdmXn2gzds2SSitu.", "$2a$12$EXRkfkdmXn2gzds2SSitu.MW9.gAVqa9eLS1//RYtYCmB1eLHg.9q" }, { "abcdefghijklmnopqrstuvwxyz", "$2a$06$.rCVZVOThsIa97pEDOxvGu", "$2a$06$.rCVZVOThsIa97pEDOxvGuRRgzG64bvtJ0938xuqzv18d3ZpQhstC" }, { "abcdefghijklmnopqrstuvwxyz", "$2a$08$aTsUwsyowQuzRrDqFflhge", "$2a$08$aTsUwsyowQuzRrDqFflhgekJ8d9/7Z3GV3UcgvzQW3J5zMyrTvlz." }, { "abcdefghijklmnopqrstuvwxyz", "$2a$10$fVH8e28OQRj9tqiDXs1e1u", "$2a$10$fVH8e28OQRj9tqiDXs1e1uxpsjN0c7II7YPKXua2NAKYvM6iQk7dq" }, { "abcdefghijklmnopqrstuvwxyz", "$2a$12$D4G5f18o7aMMfwasBL7Gpu", "$2a$12$D4G5f18o7aMMfwasBL7GpuQWuP3pkrZrOAnqP.bmezbMng.QwJ/pG" }, { "~!@#$%^&*() ~!@#$%^&*()PNBFRD", "$2a$06$fPIsBO8qRqkjj273rfaOI.", "$2a$06$fPIsBO8qRqkjj273rfaOI.HtSV9jLDpTbZn782DC6/t7qT67P6FfO" }, { "~!@#$%^&*() ~!@#$%^&*()PNBFRD", "$2a$08$Eq2r4G/76Wv39MzSX262hu", "$2a$08$Eq2r4G/76Wv39MzSX262huzPz612MZiYHVUJe/OcOql2jo4.9UxTW" }, { "~!@#$%^&*() ~!@#$%^&*()PNBFRD", "$2a$10$LgfYWkbzEvQ4JakH7rOvHe", "$2a$10$LgfYWkbzEvQ4JakH7rOvHe0y8pHKF9OaFgwUZ2q7W2FFZmZzJYlfS" }, { "~!@#$%^&*() ~!@#$%^&*()PNBFRD", "$2a$12$WApznUOJfkEGSmYRfnkrPO", "$2a$12$WApznUOJfkEGSmYRfnkrPOr466oFDCaj4b6HY3EXGvfxm43seyhgC" }, }; /** * Entry point for unit tests * @param args unused */ public static void main(String[] args) { junit.textui.TestRunner.run(TestBCrypt.class); } /** * Test method for 'BCrypt.hashpw(String, String)' */ public void testHashpw() { System.out.print("BCrypt.hashpw(): "); for (int i = 0; i < test_vectors.length; i++) { String plain = test_vectors[i][0]; String salt = test_vectors[i][1]; String expected = test_vectors[i][2]; String hashed = BCrypt.hashpw(plain, salt); assertEquals(hashed, expected); System.out.print("."); } System.out.println(""); } /** * Test method for 'BCrypt.gensalt(int)' */ public void testGensaltInt() { System.out.print("BCrypt.gensalt(log_rounds):"); for (int i = 4; i <= 12; i++) { System.out.print(" " + Integer.toString(i) + ":"); for (int j = 0; j < test_vectors.length; j += 4) { String plain = test_vectors[j][0]; String salt = BCrypt.gensalt(i); String hashed1 = BCrypt.hashpw(plain, salt); String hashed2 = BCrypt.hashpw(plain, hashed1); assertEquals(hashed1, hashed2); System.out.print("."); } } System.out.println(""); } /** * Test method for 'BCrypt.gensalt()' */ public void testGensalt() { System.out.print("BCrypt.gensalt(): "); for (int i = 0; i < test_vectors.length; i += 4) { String plain = test_vectors[i][0]; String salt = BCrypt.gensalt(); String hashed1 = BCrypt.hashpw(plain, salt); String hashed2 = BCrypt.hashpw(plain, hashed1); assertEquals(hashed1, hashed2); System.out.print("."); } System.out.println(""); } /** * Test method for 'BCrypt.checkpw(String, String)' * expecting success */ public void testCheckpw_success() { System.out.print("BCrypt.checkpw w/ good passwords: "); for (int i = 0; i < test_vectors.length; i++) { String plain = test_vectors[i][0]; String expected = test_vectors[i][2]; assertTrue(BCrypt.checkpw(plain, expected)); System.out.print("."); } System.out.println(""); } /** * Test method for 'BCrypt.checkpw(String, String)' * expecting failure */ public void testCheckpw_failure() { System.out.print("BCrypt.checkpw w/ bad passwords: "); for (int i = 0; i < test_vectors.length; i++) { int broken_index = (i + 4) % test_vectors.length; String plain = test_vectors[i][0]; String expected = test_vectors[broken_index][2]; assertFalse(BCrypt.checkpw(plain, expected)); System.out.print("."); } System.out.println(""); } /** * Test for correct hashing of non-US-ASCII passwords */ public void testInternationalChars() { System.out.print("BCrypt.hashpw w/ international chars: "); String pw1 = "\u2605\u2605\u2605\u2605\u2605\u2605\u2605\u2605"; String pw2 = "????????"; String h1 = BCrypt.hashpw(pw1, BCrypt.gensalt()); assertFalse(BCrypt.checkpw(pw2, h1)); System.out.print("."); String h2 = BCrypt.hashpw(pw2, BCrypt.gensalt()); assertFalse(BCrypt.checkpw(pw1, h2)); System.out.print("."); System.out.println(""); } }