/* test the ciphers and hashes using their built-in self-tests */ #include int cipher_hash_test(void) { int x; unsigned char buf[4096]; unsigned long n; prng_state nprng; /* test ciphers */ for (x = 0; cipher_descriptor[x].name != NULL; x++) { DOX(cipher_descriptor[x].test(), cipher_descriptor[x].name); } /* test hashes */ for (x = 0; hash_descriptor[x].name != NULL; x++) { DOX(hash_descriptor[x].test(), hash_descriptor[x].name); } /* test prngs (test, import/export */ for (x = 0; prng_descriptor[x].name != NULL; x++) { DOX(prng_descriptor[x].test(), prng_descriptor[x].name); DOX(prng_descriptor[x].start(&nprng), prng_descriptor[x].name); DOX(prng_descriptor[x].add_entropy((unsigned char *)"helloworld12", 12, &nprng), prng_descriptor[x].name); DOX(prng_descriptor[x].ready(&nprng), prng_descriptor[x].name); n = sizeof(buf); DOX(prng_descriptor[x].pexport(buf, &n, &nprng), prng_descriptor[x].name); prng_descriptor[x].done(&nprng); DOX(prng_descriptor[x].pimport(buf, n, &nprng), prng_descriptor[x].name); DOX(prng_descriptor[x].ready(&nprng), prng_descriptor[x].name); if (prng_descriptor[x].read(buf, 100, &nprng) != 100) { fprintf(stderr, "Error reading from imported PRNG!\n"); exit(EXIT_FAILURE); } prng_descriptor[x].done(&nprng); } return 0; } /* $Source$ */ /* $Revision$ */ /* $Date$ */