int stun_test(void) { int pad, rc; pad = pj_stun_set_padding_char(32); rc = decode_test(); if (rc != 0) goto on_return; rc = decode_verify(); if (rc != 0) goto on_return; rc = fingerprint_test_vector(); if (rc != 0) goto on_return; rc = handle_unknown_non_mandatory(); if (rc != 0) goto on_return; on_return: pj_stun_set_padding_char(pad); return rc; }
int stun_test(void) { decode_verify(); decode_test(); auth_test(); return 0; }
static void test_istream_qp_decoder(void) { unsigned int i, j; for (i = 0; i < N_ELEMENTS(tests); i++) { test_begin(t_strdup_printf("istream qp decoder %u", i+1)); for (j = 1; j < 10; j++) T_BEGIN { decode_test(tests[i].input, tests[i].output, tests[i].ret == -1, j); } T_END; test_end(); } }
/** main: * * Arguments: * @argc * @argv * * Return: * 0 or -ve values * * Description: * main function * **/ int main(int argc, char* argv[]) { jpeg_test_input_t dec_test_input; int ret; memset(&dec_test_input, 0, sizeof(dec_test_input)); ret = mm_jpegdec_test_get_input(argc, argv, &dec_test_input); if (ret) { return -1; } return decode_test(&dec_test_input); }
void test_istream_base64_decoder(void) { unsigned int i; for (i = 0; i < N_ELEMENTS(tests); i++) { test_begin(t_strdup_printf("istream base64 decoder %u", i+1)); decode_test(tests[i].input, tests[i].output, FALSE); test_end(); } test_begin("istream base64 decoder error"); decode_test("foo", "", TRUE); decode_test("Zm9vC", "foo", TRUE); decode_test("Zm9v!", "foo", TRUE); decode_test("Zm9!v", "", TRUE); decode_test("Zm9 v", "", TRUE); decode_test("Zm 9v", "", TRUE); decode_test("Z m9v", "", TRUE); test_end(); }
main(int argc, char *argv[]) #endif { int err, nargc, i, ret = 0; char *pargv[32] = {0}, *dbg_env; pthread_t sigtid; #ifdef COMMON_INIT vpu_versioninfo ver; #endif int ret_thr; #ifndef COMMON_INIT srand((unsigned)time(0)); /* init seed of rand() */ #endif dbg_env=getenv("VPU_TEST_DBG"); if (dbg_env) vpu_test_dbg_level = atoi(dbg_env); else vpu_test_dbg_level = 0; err = parse_main_args(argc, argv); if (err) { goto usage; } if (!instance) { goto usage; } info_msg("VPU test program built on %s %s\n", __DATE__, __TIME__); #ifndef _FSL_VTS_ sigemptyset(&sigset); sigaddset(&sigset, SIGINT); pthread_sigmask(SIG_BLOCK, &sigset, NULL); pthread_create(&sigtid, NULL, (void *)&signal_thread, NULL); #endif #ifdef COMMON_INIT err = vpu_Init(NULL); if (err) { err_msg("VPU Init Failure.\n"); return -1; } err = vpu_GetVersionInfo(&ver); if (err) { err_msg("Cannot get version info, err:%d\n", err); vpu_UnInit(); return -1; } info_msg("VPU firmware version: %d.%d.%d_r%d\n", ver.fw_major, ver.fw_minor, ver.fw_release, ver.fw_code); info_msg("VPU library version: %d.%d.%d\n", ver.lib_major, ver.lib_minor, ver.lib_release); #else // just to enable cpu_is_xx() to be used in command line parsing err = vpu_Init(NULL); if (err) { err_msg("VPU Init Failure.\n"); return -1; } vpu_UnInit(); #endif if (instance > 1) { for (i = 0; i < instance; i++) { #ifndef COMMON_INIT /* sleep roughly a frame interval to test multi-thread race especially vpu_Init/vpu_UnInit */ usleep((int)(rand()%ONE_FRAME_INTERV)); #endif if (using_config_file == 0) { get_arg(input_arg[i].line, &nargc, pargv); err = parse_args(nargc, pargv, i); if (err) { vpu_UnInit(); goto usage; } } if (check_params(&input_arg[i].cmd, input_arg[i].mode) == 0) { if (open_files(&input_arg[i].cmd) == 0) { if (input_arg[i].mode == DECODE) { pthread_create(&input_arg[i].tid, NULL, (void *)&decode_test, (void *)&input_arg[i].cmd); } else if (input_arg[i].mode == ENCODE) { pthread_create(&input_arg[i].tid, NULL, (void *)&encode_test, (void *)&input_arg[i].cmd); } } } } } else { if (using_config_file == 0) { get_arg(input_arg[0].line, &nargc, pargv); err = parse_args(nargc, pargv, 0); if (err) { vpu_UnInit(); goto usage; } } if (check_params(&input_arg[0].cmd, input_arg[0].mode) == 0) { if (open_files(&input_arg[0].cmd) == 0) { if (input_arg[0].mode == DECODE) { ret = decode_test(&input_arg[0].cmd); } else if (input_arg[0].mode == ENCODE) { ret = encode_test(&input_arg[0].cmd); } else if (input_arg[0].mode == TRANSCODE) { ret = transcode_test(&input_arg[0].cmd); } close_files(&input_arg[0].cmd); } else { ret = -1; } } else { ret = -1; } if (input_arg[0].mode == LOOPBACK) { encdec_test(&input_arg[0].cmd); } } if (instance > 1) { for (i = 0; i < instance; i++) { if (input_arg[i].tid != 0) { pthread_join(input_arg[i].tid, (void *)&ret_thr); if (ret_thr) ret = -1; close_files(&input_arg[i].cmd); } } } #ifdef COMMON_INIT vpu_UnInit(); #endif return ret; usage: info_msg("\n%s", usage); return -1; }