/* -*- mode: c; c-basic-offset: 4; indent-tabs-mode: nil -*- */ /* lib/crypto/crypto_tests/t_derive.c - Test harness for key derivation */ /* * Copyright (C) 2010 by the Massachusetts Institute of Technology. * All rights reserved. * * Export of this software from the United States of America may * require a specific license from the United States Government. * It is the responsibility of any person or organization contemplating * export to obtain such a license before exporting. * * WITHIN THAT CONSTRAINT, permission to use, copy, modify, and * distribute this software and its documentation for any purpose and * without fee is hereby granted, provided that the above copyright * notice appear in all copies and that both that copyright notice and * this permission notice appear in supporting documentation, and that * the name of M.I.T. not be used in advertising or publicity pertaining * to distribution of the software without specific, written prior * permission. Furthermore if you modify this software you must label * your software as modified software and not distribute it in such a * fashion that it might be confused with the original M.I.T. software. * M.I.T. makes no representations about the suitability of * this software for any purpose. It is provided "as is" without express * or implied warranty. */ /* * This harness detects changes in key derivation results using known values. * With the -v flag, results for all tests are displayed. */ #include "crypto_int.h" struct test { krb5_enctype enctype; krb5_data inkey; krb5_data constant; enum deriv_alg alg; krb5_data expected_key; } test_cases[] = { /* Kc, Ke, Kei for a DES3 key */ { ENCTYPE_DES3_CBC_SHA1, { KV5M_DATA, 24, "\x85\x0B\xB5\x13\x58\x54\x8C\xD0\x5E\x86\x76\x8C\x31\x3E\x3B\xFE" "\xF7\x51\x19\x37\xDC\xF7\x2C\x3E" }, { KV5M_DATA, 5, "\0\0\0\2\x99" }, DERIVE_RFC3961, { KV5M_DATA, 24, "\xF7\x8C\x49\x6D\x16\xE6\xC2\xDA\xE0\xE0\xB6\xC2\x40\x57\xA8\x4C" "\x04\x26\xAE\xEF\x26\xFD\x6D\xCE" } }, { ENCTYPE_DES3_CBC_SHA1, { KV5M_DATA, 24, "\x85\x0B\xB5\x13\x58\x54\x8C\xD0\x5E\x86\x76\x8C\x31\x3E\x3B\xFE" "\xF7\x51\x19\x37\xDC\xF7\x2C\x3E" }, { KV5M_DATA, 5, "\0\0\0\2\xAA" }, DERIVE_RFC3961, { KV5M_DATA, 24, "\x5B\x57\x23\xD0\xB6\x34\xCB\x68\x4C\x3E\xBA\x52\x64\xE9\xA7\x0D" "\x52\xE6\x83\x23\x1A\xD3\xC4\xCE" } }, { ENCTYPE_DES3_CBC_SHA1, { KV5M_DATA, 24, "\x85\x0B\xB5\x13\x58\x54\x8C\xD0\x5E\x86\x76\x8C\x31\x3E\x3B\xFE" "\xF7\x51\x19\x37\xDC\xF7\x2C\x3E" }, { KV5M_DATA, 5, "\0\0\0\2\x55" }, DERIVE_RFC3961, { KV5M_DATA, 24, "\xA7\x7C\x94\x98\x0E\x9B\x73\x45\xA8\x15\x25\xC4\x23\xA7\x37\xCE" "\x67\xF4\xCD\x91\xB6\xB3\xDA\x45" } }, /* Kc, Ke, Ki for an AES-128 key */ { ENCTYPE_AES128_CTS_HMAC_SHA1_96, { KV5M_DATA, 16, "\x42\x26\x3C\x6E\x89\xF4\xFC\x28\xB8\xDF\x68\xEE\x09\x79\x9F\x15" }, { KV5M_DATA, 5, "\0\0\0\2\x99" }, DERIVE_RFC3961, { KV5M_DATA, 16, "\x34\x28\x0A\x38\x2B\xC9\x27\x69\xB2\xDA\x2F\x9E\xF0\x66\x85\x4B" } }, { ENCTYPE_AES128_CTS_HMAC_SHA1_96, { KV5M_DATA, 16, "\x42\x26\x3C\x6E\x89\xF4\xFC\x28\xB8\xDF\x68\xEE\x09\x79\x9F\x15" }, { KV5M_DATA, 5, "\0\0\0\2\xAA" }, DERIVE_RFC3961, { KV5M_DATA, 16, "\x5B\x14\xFC\x4E\x25\x0E\x14\xDD\xF9\xDC\xCF\x1A\xF6\x67\x4F\x53" } }, { ENCTYPE_AES128_CTS_HMAC_SHA1_96, { KV5M_DATA, 16, "\x42\x26\x3C\x6E\x89\xF4\xFC\x28\xB8\xDF\x68\xEE\x09\x79\x9F\x15" }, { KV5M_DATA, 5, "\0\0\0\2\x55" }, DERIVE_RFC3961, { KV5M_DATA, 16, "\x4E\xD3\x10\x63\x62\x16\x84\xF0\x9A\xE8\xD8\x99\x91\xAF\x3E\x8F" } }, /* Kc, Ke, Ki for an AES-256 key */ { ENCTYPE_AES256_CTS_HMAC_SHA1_96, { KV5M_DATA, 32, "\xFE\x69\x7B\x52\xBC\x0D\x3C\xE1\x44\x32\xBA\x03\x6A\x92\xE6\x5B" "\xBB\x52\x28\x09\x90\xA2\xFA\x27\x88\x39\x98\xD7\x2A\xF3\x01\x61" }, { KV5M_DATA, 5, "\0\0\0\2\x99" }, DERIVE_RFC3961, { KV5M_DATA, 32, "\xBF\xAB\x38\x8B\xDC\xB2\x38\xE9\xF9\xC9\x8D\x6A\x87\x83\x04\xF0" "\x4D\x30\xC8\x25\x56\x37\x5A\xC5\x07\xA7\xA8\x52\x79\x0F\x46\x74" } }, { ENCTYPE_AES256_CTS_HMAC_SHA1_96, { KV5M_DATA, 32, "\xFE\x69\x7B\x52\xBC\x0D\x3C\xE1\x44\x32\xBA\x03\x6A\x92\xE6\x5B" "\xBB\x52\x28\x09\x90\xA2\xFA\x27\x88\x39\x98\xD7\x2A\xF3\x01\x61" }, { KV5M_DATA, 5, "\0\0\0\2\xAA" }, DERIVE_RFC3961, { KV5M_DATA, 32, "\xC7\xCF\xD9\xCD\x75\xFE\x79\x3A\x58\x6A\x54\x2D\x87\xE0\xD1\x39" "\x6F\x11\x34\xA1\x04\xBB\x1A\x91\x90\xB8\xC9\x0A\xDA\x3D\xDF\x37" } }, { ENCTYPE_AES256_CTS_HMAC_SHA1_96, { KV5M_DATA, 32, "\xFE\x69\x7B\x52\xBC\x0D\x3C\xE1\x44\x32\xBA\x03\x6A\x92\xE6\x5B" "\xBB\x52\x28\x09\x90\xA2\xFA\x27\x88\x39\x98\xD7\x2A\xF3\x01\x61" }, { KV5M_DATA, 5, "\0\0\0\2\x55" }, DERIVE_RFC3961, { KV5M_DATA, 32, "\x97\x15\x1B\x4C\x76\x94\x50\x63\xE2\xEB\x05\x29\xDC\x06\x7D\x97" "\xD7\xBB\xA9\x07\x76\xD8\x12\x6D\x91\xF3\x4F\x31\x01\xAE\xA8\xBA" } }, /* Kc, Ke, Ki for a Camellia-128 key */ { ENCTYPE_CAMELLIA128_CTS_CMAC, { KV5M_DATA, 16, "\x57\xD0\x29\x72\x98\xFF\xD9\xD3\x5D\xE5\xA4\x7F\xB4\xBD\xE2\x4B" }, { KV5M_DATA, 5, "\0\0\0\2\x99" }, DERIVE_SP800_108_CMAC, { KV5M_DATA, 16, "\xD1\x55\x77\x5A\x20\x9D\x05\xF0\x2B\x38\xD4\x2A\x38\x9E\x5A\x56" } }, { ENCTYPE_CAMELLIA128_CTS_CMAC, { KV5M_DATA, 16, "\x57\xD0\x29\x72\x98\xFF\xD9\xD3\x5D\xE5\xA4\x7F\xB4\xBD\xE2\x4B" }, { KV5M_DATA, 5, "\0\0\0\2\xAA" }, DERIVE_SP800_108_CMAC, { KV5M_DATA, 16, "\x64\xDF\x83\xF8\x5A\x53\x2F\x17\x57\x7D\x8C\x37\x03\x57\x96\xAB" } }, { ENCTYPE_CAMELLIA128_CTS_CMAC, { KV5M_DATA, 16, "\x57\xD0\x29\x72\x98\xFF\xD9\xD3\x5D\xE5\xA4\x7F\xB4\xBD\xE2\x4B" }, { KV5M_DATA, 5, "\0\0\0\2\x55" }, DERIVE_SP800_108_CMAC, { KV5M_DATA, 16, "\x3E\x4F\xBD\xF3\x0F\xB8\x25\x9C\x42\x5C\xB6\xC9\x6F\x1F\x46\x35" } }, /* Kc, Ke, Ki for a Camellia-256 key */ { ENCTYPE_CAMELLIA256_CTS_CMAC, { KV5M_DATA, 32, "\xB9\xD6\x82\x8B\x20\x56\xB7\xBE\x65\x6D\x88\xA1\x23\xB1\xFA\xC6" "\x82\x14\xAC\x2B\x72\x7E\xCF\x5F\x69\xAF\xE0\xC4\xDF\x2A\x6D\x2C" }, { KV5M_DATA, 5, "\0\0\0\2\x99" }, DERIVE_SP800_108_CMAC, { KV5M_DATA, 32, "\xE4\x67\xF9\xA9\x55\x2B\xC7\xD3\x15\x5A\x62\x20\xAF\x9C\x19\x22" "\x0E\xEE\xD4\xFF\x78\xB0\xD1\xE6\xA1\x54\x49\x91\x46\x1A\x9E\x50" } }, { ENCTYPE_CAMELLIA256_CTS_CMAC, { KV5M_DATA, 32, "\xB9\xD6\x82\x8B\x20\x56\xB7\xBE\x65\x6D\x88\xA1\x23\xB1\xFA\xC6" "\x82\x14\xAC\x2B\x72\x7E\xCF\x5F\x69\xAF\xE0\xC4\xDF\x2A\x6D\x2C" }, { KV5M_DATA, 5, "\0\0\0\2\xAA" }, DERIVE_SP800_108_CMAC, { KV5M_DATA, 32, "\x41\x2A\xEF\xC3\x62\xA7\x28\x5F\xC3\x96\x6C\x6A\x51\x81\xE7\x60" "\x5A\xE6\x75\x23\x5B\x6D\x54\x9F\xBF\xC9\xAB\x66\x30\xA4\xC6\x04" } }, { ENCTYPE_CAMELLIA256_CTS_CMAC, { KV5M_DATA, 32, "\xB9\xD6\x82\x8B\x20\x56\xB7\xBE\x65\x6D\x88\xA1\x23\xB1\xFA\xC6" "\x82\x14\xAC\x2B\x72\x7E\xCF\x5F\x69\xAF\xE0\xC4\xDF\x2A\x6D\x2C" }, { KV5M_DATA, 5, "\0\0\0\2\x55" }, DERIVE_SP800_108_CMAC, { KV5M_DATA, 32, "\xFA\x62\x4F\xA0\xE5\x23\x99\x3F\xA3\x88\xAE\xFD\xC6\x7E\x67\xEB" "\xCD\x8C\x08\xE8\xA0\x24\x6B\x1D\x73\xB0\xD1\xDD\x9F\xC5\x82\xB0" } }, /* Kc, Ke, Ki for an aes128-sha2 key. */ { ENCTYPE_AES128_CTS_HMAC_SHA256_128, { KV5M_DATA, 16, "\x37\x05\xD9\x60\x80\xC1\x77\x28\xA0\xE8\x00\xEA\xB6\xE0\xD2\x3C" }, { KV5M_DATA, 5, "\0\0\0\2\x99" }, DERIVE_SP800_108_HMAC, { KV5M_DATA, 16, "\xB3\x1A\x01\x8A\x48\xF5\x47\x76\xF4\x03\xE9\xA3\x96\x32\x5D\xC3" } }, { ENCTYPE_AES128_CTS_HMAC_SHA256_128, { KV5M_DATA, 16, "\x37\x05\xD9\x60\x80\xC1\x77\x28\xA0\xE8\x00\xEA\xB6\xE0\xD2\x3C" }, { KV5M_DATA, 5, "\0\0\0\2\xAA" }, DERIVE_SP800_108_HMAC, { KV5M_DATA, 16, "\x9B\x19\x7D\xD1\xE8\xC5\x60\x9D\x6E\x67\xC3\xE3\x7C\x62\xC7\x2E" } }, { ENCTYPE_AES128_CTS_HMAC_SHA256_128, { KV5M_DATA, 16, "\x37\x05\xD9\x60\x80\xC1\x77\x28\xA0\xE8\x00\xEA\xB6\xE0\xD2\x3C" }, { KV5M_DATA, 5, "\0\0\0\2\x55" }, DERIVE_SP800_108_HMAC, { KV5M_DATA, 16, "\x9F\xDA\x0E\x56\xAB\x2D\x85\xE1\x56\x9A\x68\x86\x96\xC2\x6A\x6C" } }, /* Kc, Ke, Ki for an aes256-sha2 key. */ { ENCTYPE_AES256_CTS_HMAC_SHA384_192, { KV5M_DATA, 32, "\x6D\x40\x4D\x37\xFA\xF7\x9F\x9D\xF0\xD3\x35\x68\xD3\x20\x66\x98" "\x00\xEB\x48\x36\x47\x2E\xA8\xA0\x26\xD1\x6B\x71\x82\x46\x0C\x52" }, { KV5M_DATA, 5, "\0\0\0\2\x99" }, DERIVE_SP800_108_HMAC, { KV5M_DATA, 24, "\xEF\x57\x18\xBE\x86\xCC\x84\x96\x3D\x8B\xBB\x50\x31\xE9\xF5\xC4" "\xBA\x41\xF2\x8F\xAF\x69\xE7\x3D" } }, { ENCTYPE_AES256_CTS_HMAC_SHA384_192, { KV5M_DATA, 32, "\x6D\x40\x4D\x37\xFA\xF7\x9F\x9D\xF0\xD3\x35\x68\xD3\x20\x66\x98" "\x00\xEB\x48\x36\x47\x2E\xA8\xA0\x26\xD1\x6B\x71\x82\x46\x0C\x52" }, { KV5M_DATA, 5, "\0\0\0\2\xAA" }, DERIVE_SP800_108_HMAC, { KV5M_DATA, 32, "\x56\xAB\x22\xBE\xE6\x3D\x82\xD7\xBC\x52\x27\xF6\x77\x3F\x8E\xA7" "\xA5\xEB\x1C\x82\x51\x60\xC3\x83\x12\x98\x0C\x44\x2E\x5C\x7E\x49" } }, { ENCTYPE_AES256_CTS_HMAC_SHA384_192, { KV5M_DATA, 32, "\x6D\x40\x4D\x37\xFA\xF7\x9F\x9D\xF0\xD3\x35\x68\xD3\x20\x66\x98" "\x00\xEB\x48\x36\x47\x2E\xA8\xA0\x26\xD1\x6B\x71\x82\x46\x0C\x52" }, { KV5M_DATA, 5, "\0\0\0\2\x55" }, DERIVE_SP800_108_HMAC, { KV5M_DATA, 24, "\x69\xB1\x65\x14\xE3\xCD\x8E\x56\xB8\x20\x10\xD5\xC7\x30\x12\xB6" "\x22\xC4\xD0\x0F\xFC\x23\xED\x1F" } }, }; static void printhex(const char *head, void *data, size_t len) { size_t i; printf("%s", head); for (i = 0; i < len; i++) { printf("%02X", ((unsigned char*)data)[i]); if (i % 16 == 15 && i + 1 < len) printf("\n%*s", (int)strlen(head), ""); else if (i + 1 < len) printf(" "); } printf("\n"); } static const struct krb5_enc_provider * get_enc_provider(krb5_enctype enctype) { switch (enctype) { case ENCTYPE_DES3_CBC_SHA1: return &krb5int_enc_des3; case ENCTYPE_AES128_CTS_HMAC_SHA1_96: return &krb5int_enc_aes128; case ENCTYPE_AES256_CTS_HMAC_SHA1_96: return &krb5int_enc_aes256; case ENCTYPE_CAMELLIA128_CTS_CMAC: return &krb5int_enc_camellia128; case ENCTYPE_CAMELLIA256_CTS_CMAC: return &krb5int_enc_camellia256; case ENCTYPE_AES128_CTS_HMAC_SHA256_128: return &krb5int_enc_aes128; case ENCTYPE_AES256_CTS_HMAC_SHA384_192: return &krb5int_enc_aes256; } abort(); } static const struct krb5_hash_provider * get_hash_provider(krb5_enctype enctype) { switch (enctype) { case ENCTYPE_AES128_CTS_HMAC_SHA256_128: return &krb5int_hash_sha256; case ENCTYPE_AES256_CTS_HMAC_SHA384_192: return &krb5int_hash_sha384; } return NULL; } int main(int argc, char **argv) { krb5_error_code ret; krb5_context context = NULL; size_t i; struct test *test; krb5_keyblock kb; krb5_key inkey = NULL, key = NULL; krb5_data rnd = empty_data(), outcmp; const struct krb5_enc_provider *enc; const struct krb5_hash_provider *hash; krb5_boolean verbose = FALSE; int status = 0; if (argc >= 2 && strcmp(argv[1], "-v") == 0) verbose = TRUE; for (i = 0; i < sizeof(test_cases) / sizeof(*test_cases); i++) { test = &test_cases[i]; kb.magic = KV5M_KEYBLOCK; kb.enctype = test->enctype; kb.length = test->inkey.length; kb.contents = (unsigned char *)test->inkey.data; ret = krb5_k_create_key(context, &kb, &inkey); assert(!ret); enc = get_enc_provider(test->enctype); hash = get_hash_provider(test->enctype); if (test->expected_key.length == enc->keylength) { ret = krb5int_derive_key(enc, hash, inkey, &key, &test->constant, test->alg); assert(!ret); outcmp = make_data(key->keyblock.contents, key->keyblock.length); } else { ret = alloc_data(&rnd, test->expected_key.length); assert(!ret); ret = krb5int_derive_random(enc, hash, inkey, &rnd, &test->constant, test->alg); assert(!ret); outcmp = rnd; } if (verbose) { char buf[64]; krb5_enctype_to_name(test->enctype, FALSE, buf, sizeof(buf)); printf("\nTest %d:\n", (int)i); printf("Enctype: %s\n", buf); printhex("Input key: ", inkey->keyblock.contents, inkey->keyblock.length); printhex("Constant: ", test->constant.data, test->constant.length); printhex("Output: ", outcmp.data, outcmp.length); } assert(outcmp.length == test->expected_key.length); if (memcmp(outcmp.data, test->expected_key.data, outcmp.length) != 0) { printf("derive test %d failed\n", (int)i); status = 1; if (!verbose) break; } krb5_k_free_key(context, inkey); krb5_k_free_key(context, key); zapfree(rnd.data, rnd.length); inkey = key = NULL; rnd = empty_data(); } return status; }