/* * Copyright 2016-2017 The OpenSSL Project Authors. All Rights Reserved. * * Licensed under the OpenSSL license (the "License"). You may not use * this file except in compliance with the License. You can obtain a copy * in the file LICENSE in the source distribution or at * https://www.openssl.org/source/license.html */ #include "../testutil.h" #include "output.h" #include "tu_local.h" #include #include #include "../../e_os.h" #include /* * Declares the structures needed to register each test case function. */ typedef struct test_info { const char *test_case_name; int (*test_fn) (); int (*param_test_fn)(int idx); int num; /* flags */ int subtest:1; } TEST_INFO; static TEST_INFO all_tests[1024]; static int num_tests = 0; static int seed = 0; /* * A parameterised tests runs a loop of test cases. * |num_test_cases| counts the total number of test cases * across all tests. */ static int num_test_cases = 0; void add_test(const char *test_case_name, int (*test_fn) ()) { assert(num_tests != OSSL_NELEM(all_tests)); all_tests[num_tests].test_case_name = test_case_name; all_tests[num_tests].test_fn = test_fn; all_tests[num_tests].num = -1; ++num_tests; ++num_test_cases; } void add_all_tests(const char *test_case_name, int(*test_fn)(int idx), int num, int subtest) { assert(num_tests != OSSL_NELEM(all_tests)); all_tests[num_tests].test_case_name = test_case_name; all_tests[num_tests].param_test_fn = test_fn; all_tests[num_tests].num = num; all_tests[num_tests].subtest = subtest; ++num_tests; num_test_cases += num; } static int level = 0; int subtest_level(void) { return level; } #ifndef OPENSSL_NO_CRYPTO_MDEBUG static int should_report_leaks() { /* * When compiled with enable-crypto-mdebug, OPENSSL_DEBUG_MEMORY=0 * can be used to disable leak checking at runtime. * Note this only works when running the test binary manually; * the test harness always enables OPENSSL_DEBUG_MEMORY. */ char *mem_debug_env = getenv("OPENSSL_DEBUG_MEMORY"); return mem_debug_env == NULL || (strcmp(mem_debug_env, "0") && strcmp(mem_debug_env, "")); } #endif static int gcd(int a, int b) { while (b != 0) { int t = b; b = a % b; a = t; } return a; } void setup_test() { char *TAP_levels = getenv("HARNESS_OSSL_LEVEL"); char *test_seed = getenv("OPENSSL_TEST_RAND_ORDER"); test_open_streams(); level = TAP_levels != NULL ? 4 * atoi(TAP_levels) : 0; if (test_seed != NULL) { seed = atoi(test_seed); if (seed <= 0) seed = time(NULL); test_printf_stdout("%*s# RAND SEED %d\n", subtest_level(), "", seed); test_flush_stdout(); srand(seed); } #ifndef OPENSSL_NO_CRYPTO_MDEBUG if (should_report_leaks()) { CRYPTO_set_mem_debug(1); CRYPTO_mem_ctrl(CRYPTO_MEM_CHECK_ON); } #endif } int finish_test(int ret) { #ifndef OPENSSL_NO_CRYPTO_MDEBUG if (should_report_leaks() && CRYPTO_mem_leaks_cb(openssl_error_cb, NULL) <= 0) return EXIT_FAILURE; #endif test_close_streams(); return ret; } static void finalize(int success) { if (success) ERR_clear_error(); else ERR_print_errors_cb(openssl_error_cb, NULL); } static char *test_title = NULL; void set_test_title(const char *title) { free(test_title); test_title = title == NULL ? NULL : strdup(title); } int run_tests(const char *test_prog_name) { int num_failed = 0; char *verdict = NULL; int ii, i, jj, j, jstep; int permute[OSSL_NELEM(all_tests)]; if (num_tests < 1) { test_printf_stdout("%*s1..0 # Skipped: %s\n", level, "", test_prog_name); } else { if (level > 0) test_printf_stdout("%*s# Subtest: %s\n", level, "", test_prog_name); test_printf_stdout("%*s1..%d\n", level, "", num_tests); } test_flush_stdout(); for (i = 0; i < num_tests; i++) permute[i] = i; if (seed != 0) for (i = num_tests - 1; i >= 1; i--) { j = rand() % (1 + i); ii = permute[j]; permute[j] = permute[i]; permute[i] = ii; } for (ii = 0; ii != num_tests; ++ii) { i = permute[ii]; if (all_tests[i].num == -1) { int ret = 0; set_test_title(all_tests[i].test_case_name); ret = all_tests[i].test_fn(); test_flush_stdout(); test_flush_stderr(); verdict = "ok"; if (!ret) { verdict = "not ok"; ++num_failed; } test_printf_stdout("%*s%s %d - %s\n", level, "", verdict, ii + 1, test_title); test_flush_stdout(); finalize(ret); } else { int num_failed_inner = 0; level += 4; if (all_tests[i].subtest) { test_printf_stdout("%*s# Subtest: %s\n", level, "", all_tests[i].test_case_name); test_printf_stdout("%*s%d..%d\n", level, "", 1, all_tests[i].num); test_flush_stdout(); } j = -1; if (seed == 0 || all_tests[i].num < 3) jstep = 1; else do jstep = rand() % all_tests[i].num; while (jstep == 0 || gcd(all_tests[i].num, jstep) != 1); for (jj = 0; jj < all_tests[i].num; jj++) { int ret; j = (j + jstep) % all_tests[i].num; set_test_title(NULL); ret = all_tests[i].param_test_fn(j); test_flush_stdout(); test_flush_stderr(); if (!ret) ++num_failed_inner; finalize(ret); if (all_tests[i].subtest) { verdict = "ok"; if (!ret) { verdict = "not ok"; ++num_failed_inner; } if (test_title != NULL) test_printf_stdout("%*s%s %d - %s\n", level, "", verdict, jj + 1, test_title); else test_printf_stdout("%*s%s %d - iteration %d\n", level, "", verdict, jj + 1, j + 1); test_flush_stdout(); } } level -= 4; verdict = "ok"; if (num_failed_inner) { verdict = "not ok"; ++num_failed; } test_printf_stdout("%*s%s %d - %s\n", level, "", verdict, ii + 1, all_tests[i].test_case_name); test_flush_stdout(); } } if (num_failed != 0) return EXIT_FAILURE; return EXIT_SUCCESS; }