#line 2 "suites/host_test.function" /** * \brief Verifies that string is in string parameter format i.e. "" * It also strips enclosing '"' from the input string. * * \param str String parameter. * * \return 0 if success else 1 */ int verify_string(char **str) { if ((*str)[0] != '"' || (*str)[strlen(*str) - 1] != '"') { mbedtls_fprintf(stderr, "Expected string (with \"\") for parameter and got: %s\n", *str); return -1; } (*str)++; (*str)[strlen(*str) - 1] = '\0'; return 0; } /** * \brief Verifies that string is an integer. Also gives the converted * integer value. * * \param str Input string. * \param value Pointer to int for output value. * * \return 0 if success else 1 */ int verify_int(char *str, int32_t *p_value) { char *end = NULL; errno = 0; long value = strtol(str, &end, 0); if (errno == EINVAL || *end != '\0') { mbedtls_fprintf(stderr, "Expected integer for parameter and got: %s\n", str); return KEY_VALUE_MAPPING_NOT_FOUND; } if (errno == ERANGE #if LONG_MAX > 0x7fffffff || value > 0x7fffffffL || value < -0x80000000L #endif ) { mbedtls_fprintf(stderr, "Integer out of range: %s\n", str); return KEY_VALUE_MAPPING_NOT_FOUND; } *p_value = value; return 0; } /** * \brief Usage string. * */ #define USAGE \ "Usage: %s [OPTIONS] files...\n\n" \ " Command line arguments:\n" \ " files... One or more test data files. If no file is\n" \ " specified the following default test case\n" \ " file is used:\n" \ " %s\n\n" \ " Options:\n" \ " -v | --verbose Display full information about each test\n" \ " -h | --help Display this information\n\n", \ argv[0], \ "TESTCASE_FILENAME" /** * \brief Read a line from the passed file pointer. * * \param f FILE pointer * \param buf Pointer to memory to hold read line. * \param len Length of the buf. * * \return 0 if success else -1 */ int get_line(FILE *f, char *buf, size_t len) { char *ret; int i = 0, str_len = 0, has_string = 0; /* Read until we get a valid line */ do { ret = fgets(buf, len, f); if (ret == NULL) { return -1; } str_len = strlen(buf); /* Skip empty line and comment */ if (str_len == 0 || buf[0] == '#') { continue; } has_string = 0; for (i = 0; i < str_len; i++) { char c = buf[i]; if (c != ' ' && c != '\t' && c != '\n' && c != '\v' && c != '\f' && c != '\r') { has_string = 1; break; } } } while (!has_string); /* Strip new line and carriage return */ ret = buf + strlen(buf); if (ret-- > buf && *ret == '\n') { *ret = '\0'; } if (ret-- > buf && *ret == '\r') { *ret = '\0'; } return 0; } /** * \brief Splits string delimited by ':'. Ignores '\:'. * * \param buf Input string * \param len Input string length * \param params Out params found * \param params_len Out params array len * * \return Count of strings found. */ static int parse_arguments(char *buf, size_t len, char **params, size_t params_len) { size_t cnt = 0, i; char *cur = buf; char *p = buf, *q; params[cnt++] = cur; while (*p != '\0' && p < (buf + len)) { if (*p == '\\') { p++; p++; continue; } if (*p == ':') { if (p + 1 < buf + len) { cur = p + 1; TEST_HELPER_ASSERT(cnt < params_len); params[cnt++] = cur; } *p = '\0'; } p++; } /* Replace backslash escapes in strings */ for (i = 0; i < cnt; i++) { p = params[i]; q = params[i]; while (*p != '\0') { if (*p == '\\') { ++p; switch (*p) { case 'n': *p = '\n'; break; default: // Fall through to copying *p break; } } *(q++) = *(p++); } *q = '\0'; } return cnt; } /** * \brief Converts parameters into test function consumable parameters. * Example: Input: {"int", "0", "char*", "Hello", * "hex", "abef", "exp", "1"} * Output: { * 0, // Verified int * "Hello", // Verified string * 2, { 0xab, 0xef },// Converted len,hex pair * 9600 // Evaluated expression * } * * * \param cnt Parameter array count. * \param params Out array of found parameters. * \param int_params_store Memory for storing processed integer parameters. * * \return 0 for success else 1 */ static int convert_params(size_t cnt, char **params, int32_t *int_params_store) { char **cur = params; char **out = params; int ret = DISPATCH_TEST_SUCCESS; while (cur < params + cnt) { char *type = *cur++; char *val = *cur++; if (strcmp(type, "char*") == 0) { if (verify_string(&val) == 0) { *out++ = val; } else { ret = (DISPATCH_INVALID_TEST_DATA); break; } } else if (strcmp(type, "int") == 0) { if (verify_int(val, int_params_store) == 0) { *out++ = (char *) int_params_store++; } else { ret = (DISPATCH_INVALID_TEST_DATA); break; } } else if (strcmp(type, "hex") == 0) { if (verify_string(&val) == 0) { size_t len; TEST_HELPER_ASSERT( mbedtls_test_unhexify((unsigned char *) val, strlen(val), val, &len) == 0); *int_params_store = len; *out++ = val; *out++ = (char *) (int_params_store++); } else { ret = (DISPATCH_INVALID_TEST_DATA); break; } } else if (strcmp(type, "exp") == 0) { int exp_id = strtol(val, NULL, 10); if (get_expression(exp_id, int_params_store) == 0) { *out++ = (char *) int_params_store++; } else { ret = (DISPATCH_INVALID_TEST_DATA); break; } } else { ret = (DISPATCH_INVALID_TEST_DATA); break; } } return ret; } /** * \brief Tests snprintf implementation with test input. * * \note * At high optimization levels (e.g. gcc -O3), this function may be * inlined in run_test_snprintf. This can trigger a spurious warning about * potential misuse of snprintf from gcc -Wformat-truncation (observed with * gcc 7.2). This warning makes tests in run_test_snprintf redundant on gcc * only. They are still valid for other compilers. Avoid this warning by * forbidding inlining of this function by gcc. * * \param n Buffer test length. * \param ref_buf Expected buffer. * \param ref_ret Expected snprintf return value. * * \return 0 for success else 1 */ #if defined(__GNUC__) __attribute__((__noinline__)) #endif static int test_snprintf(size_t n, const char *ref_buf, int ref_ret) { int ret; char buf[10] = "xxxxxxxxx"; const char ref[10] = "xxxxxxxxx"; if (n >= sizeof(buf)) { return -1; } ret = mbedtls_snprintf(buf, n, "%s", "123"); if (ret < 0 || (size_t) ret >= n) { ret = -1; } if (strncmp(ref_buf, buf, sizeof(buf)) != 0 || ref_ret != ret || memcmp(buf + n, ref + n, sizeof(buf) - n) != 0) { return 1; } return 0; } /** * \brief Tests snprintf implementation. * * \return 0 for success else 1 */ static int run_test_snprintf(void) { return test_snprintf(0, "xxxxxxxxx", -1) != 0 || test_snprintf(1, "", -1) != 0 || test_snprintf(2, "1", -1) != 0 || test_snprintf(3, "12", -1) != 0 || test_snprintf(4, "123", 3) != 0 || test_snprintf(5, "123", 3) != 0; } /** \brief Write the description of the test case to the outcome CSV file. * * \param outcome_file The file to write to. * If this is \c NULL, this function does nothing. * \param argv0 The test suite name. * \param test_case The test case description. */ static void write_outcome_entry(FILE *outcome_file, const char *argv0, const char *test_case) { /* The non-varying fields are initialized on first use. */ static const char *platform = NULL; static const char *configuration = NULL; static const char *test_suite = NULL; if (outcome_file == NULL) { return; } if (platform == NULL) { platform = getenv("MBEDTLS_TEST_PLATFORM"); if (platform == NULL) { platform = "unknown"; } } if (configuration == NULL) { configuration = getenv("MBEDTLS_TEST_CONFIGURATION"); if (configuration == NULL) { configuration = "unknown"; } } if (test_suite == NULL) { test_suite = strrchr(argv0, '/'); if (test_suite != NULL) { test_suite += 1; // skip the '/' } else { test_suite = argv0; } } /* Write the beginning of the outcome line. * Ignore errors: writing the outcome file is on a best-effort basis. */ mbedtls_fprintf(outcome_file, "%s;%s;%s;%s;", platform, configuration, test_suite, test_case); } /** \brief Write the result of the test case to the outcome CSV file. * * \param outcome_file The file to write to. * If this is \c NULL, this function does nothing. * \param unmet_dep_count The number of unmet dependencies. * \param unmet_dependencies The array of unmet dependencies. * \param missing_unmet_dependencies Non-zero if there was a problem tracking * all unmet dependencies, 0 otherwise. * \param ret The test dispatch status (DISPATCH_xxx). * \param info A pointer to the test info structure. */ static void write_outcome_result(FILE *outcome_file, size_t unmet_dep_count, int unmet_dependencies[], int missing_unmet_dependencies, int ret, const mbedtls_test_info_t *info) { if (outcome_file == NULL) { return; } /* Write the end of the outcome line. * Ignore errors: writing the outcome file is on a best-effort basis. */ switch (ret) { case DISPATCH_TEST_SUCCESS: if (unmet_dep_count > 0) { size_t i; mbedtls_fprintf(outcome_file, "SKIP"); for (i = 0; i < unmet_dep_count; i++) { mbedtls_fprintf(outcome_file, "%c%d", i == 0 ? ';' : ':', unmet_dependencies[i]); } if (missing_unmet_dependencies) { mbedtls_fprintf(outcome_file, ":..."); } break; } switch (info->result) { case MBEDTLS_TEST_RESULT_SUCCESS: mbedtls_fprintf(outcome_file, "PASS;"); break; case MBEDTLS_TEST_RESULT_SKIPPED: mbedtls_fprintf(outcome_file, "SKIP;Runtime skip"); break; default: mbedtls_fprintf(outcome_file, "FAIL;%s:%d:%s", info->filename, info->line_no, info->test); break; } break; case DISPATCH_TEST_FN_NOT_FOUND: mbedtls_fprintf(outcome_file, "FAIL;Test function not found"); break; case DISPATCH_INVALID_TEST_DATA: mbedtls_fprintf(outcome_file, "FAIL;Invalid test data"); break; case DISPATCH_UNSUPPORTED_SUITE: mbedtls_fprintf(outcome_file, "SKIP;Unsupported suite"); break; default: mbedtls_fprintf(outcome_file, "FAIL;Unknown cause"); break; } mbedtls_fprintf(outcome_file, "\n"); fflush(outcome_file); } /** * \brief Desktop implementation of execute_tests(). * Parses command line and executes tests from * supplied or default data file. * * \param argc Command line argument count. * \param argv Argument array. * * \return Program exit status. */ int execute_tests(int argc, const char **argv) { /* Local Configurations and options */ const char *default_filename = "DATA_FILE"; const char *test_filename = NULL; const char **test_files = NULL; size_t testfile_count = 0; int option_verbose = 0; size_t function_id = 0; /* Other Local variables */ int arg_index = 1; const char *next_arg; size_t testfile_index, i, cnt; int ret; unsigned total_errors = 0, total_tests = 0, total_skipped = 0; FILE *file; char buf[5000]; char *params[50]; /* Store for processed integer params. */ int32_t int_params[50]; void *pointer; #if defined(__unix__) || (defined(__APPLE__) && defined(__MACH__)) int stdout_fd = -1; #endif /* __unix__ || __APPLE__ __MACH__ */ const char *outcome_file_name = getenv("MBEDTLS_TEST_OUTCOME_FILE"); FILE *outcome_file = NULL; #if defined(MBEDTLS_MEMORY_BUFFER_ALLOC_C) && \ !defined(TEST_SUITE_MEMORY_BUFFER_ALLOC) unsigned char alloc_buf[1000000]; mbedtls_memory_buffer_alloc_init(alloc_buf, sizeof(alloc_buf)); #endif #if defined(MBEDTLS_TEST_MUTEX_USAGE) mbedtls_test_mutex_usage_init(); #endif /* * The C standard doesn't guarantee that all-bits-0 is the representation * of a NULL pointer. We do however use that in our code for initializing * structures, which should work on every modern platform. Let's be sure. */ memset(&pointer, 0, sizeof(void *)); if (pointer != NULL) { mbedtls_fprintf(stderr, "all-bits-zero is not a NULL pointer\n"); return 1; } /* * Make sure we have a snprintf that correctly zero-terminates */ if (run_test_snprintf() != 0) { mbedtls_fprintf(stderr, "the snprintf implementation is broken\n"); return 1; } if (outcome_file_name != NULL && *outcome_file_name != '\0') { outcome_file = fopen(outcome_file_name, "a"); if (outcome_file == NULL) { mbedtls_fprintf(stderr, "Unable to open outcome file. Continuing anyway.\n"); } } while (arg_index < argc) { next_arg = argv[arg_index]; if (strcmp(next_arg, "--verbose") == 0 || strcmp(next_arg, "-v") == 0) { option_verbose = 1; } else if (strcmp(next_arg, "--help") == 0 || strcmp(next_arg, "-h") == 0) { mbedtls_fprintf(stdout, USAGE); mbedtls_exit(EXIT_SUCCESS); } else { /* Not an option, therefore treat all further arguments as the file * list. */ test_files = &argv[arg_index]; testfile_count = argc - arg_index; break; } arg_index++; } /* If no files were specified, assume a default */ if (test_files == NULL || testfile_count == 0) { test_files = &default_filename; testfile_count = 1; } /* Initialize the struct that holds information about the last test */ mbedtls_test_info_reset(); /* Now begin to execute the tests in the testfiles */ for (testfile_index = 0; testfile_index < testfile_count; testfile_index++) { size_t unmet_dep_count = 0; int unmet_dependencies[20]; int missing_unmet_dependencies = 0; test_filename = test_files[testfile_index]; file = fopen(test_filename, "r"); if (file == NULL) { mbedtls_fprintf(stderr, "Failed to open test file: %s\n", test_filename); if (outcome_file != NULL) { fclose(outcome_file); } return 1; } while (!feof(file)) { if (unmet_dep_count > 0) { mbedtls_fprintf(stderr, "FATAL: Dep count larger than zero at start of loop\n"); mbedtls_exit(MBEDTLS_EXIT_FAILURE); } unmet_dep_count = 0; missing_unmet_dependencies = 0; if ((ret = get_line(file, buf, sizeof(buf))) != 0) { break; } mbedtls_fprintf(stdout, "%s%.66s", mbedtls_test_info.result == MBEDTLS_TEST_RESULT_FAILED ? "\n" : "", buf); mbedtls_fprintf(stdout, " "); for (i = strlen(buf) + 1; i < 67; i++) { mbedtls_fprintf(stdout, "."); } mbedtls_fprintf(stdout, " "); fflush(stdout); write_outcome_entry(outcome_file, argv[0], buf); total_tests++; if ((ret = get_line(file, buf, sizeof(buf))) != 0) { break; } cnt = parse_arguments(buf, strlen(buf), params, sizeof(params) / sizeof(params[0])); if (strcmp(params[0], "depends_on") == 0) { for (i = 1; i < cnt; i++) { int dep_id = strtol(params[i], NULL, 10); if (dep_check(dep_id) != DEPENDENCY_SUPPORTED) { if (unmet_dep_count < ARRAY_LENGTH(unmet_dependencies)) { unmet_dependencies[unmet_dep_count] = dep_id; unmet_dep_count++; } else { missing_unmet_dependencies = 1; } } } if ((ret = get_line(file, buf, sizeof(buf))) != 0) { break; } cnt = parse_arguments(buf, strlen(buf), params, sizeof(params) / sizeof(params[0])); } // If there are no unmet dependencies execute the test if (unmet_dep_count == 0) { mbedtls_test_info_reset(); #if defined(__unix__) || (defined(__APPLE__) && defined(__MACH__)) /* Suppress all output from the library unless we're verbose * mode */ if (!option_verbose) { stdout_fd = redirect_output(stdout, "/dev/null"); if (stdout_fd == -1) { /* Redirection has failed with no stdout so exit */ exit(1); } } #endif /* __unix__ || __APPLE__ __MACH__ */ function_id = strtoul(params[0], NULL, 10); if ((ret = check_test(function_id)) == DISPATCH_TEST_SUCCESS) { ret = convert_params(cnt - 1, params + 1, int_params); if (DISPATCH_TEST_SUCCESS == ret) { ret = dispatch_test(function_id, (void **) (params + 1)); } } #if defined(__unix__) || (defined(__APPLE__) && defined(__MACH__)) if (!option_verbose && restore_output(stdout, stdout_fd)) { /* Redirection has failed with no stdout so exit */ exit(1); } #endif /* __unix__ || __APPLE__ __MACH__ */ } write_outcome_result(outcome_file, unmet_dep_count, unmet_dependencies, missing_unmet_dependencies, ret, &mbedtls_test_info); if (unmet_dep_count > 0 || ret == DISPATCH_UNSUPPORTED_SUITE) { total_skipped++; mbedtls_fprintf(stdout, "----"); if (1 == option_verbose && ret == DISPATCH_UNSUPPORTED_SUITE) { mbedtls_fprintf(stdout, "\n Test Suite not enabled"); } if (1 == option_verbose && unmet_dep_count > 0) { mbedtls_fprintf(stdout, "\n Unmet dependencies: "); for (i = 0; i < unmet_dep_count; i++) { mbedtls_fprintf(stdout, "%d ", unmet_dependencies[i]); } if (missing_unmet_dependencies) { mbedtls_fprintf(stdout, "..."); } } mbedtls_fprintf(stdout, "\n"); fflush(stdout); unmet_dep_count = 0; missing_unmet_dependencies = 0; } else if (ret == DISPATCH_TEST_SUCCESS) { if (mbedtls_test_info.result == MBEDTLS_TEST_RESULT_SUCCESS) { mbedtls_fprintf(stdout, "PASS\n"); } else if (mbedtls_test_info.result == MBEDTLS_TEST_RESULT_SKIPPED) { mbedtls_fprintf(stdout, "----\n"); total_skipped++; } else { total_errors++; mbedtls_fprintf(stdout, "FAILED\n"); mbedtls_fprintf(stdout, " %s\n at ", mbedtls_test_info.test); if (mbedtls_test_info.step != (unsigned long) (-1)) { mbedtls_fprintf(stdout, "step %lu, ", mbedtls_test_info.step); } mbedtls_fprintf(stdout, "line %d, %s", mbedtls_test_info.line_no, mbedtls_test_info.filename); if (mbedtls_test_info.line1[0] != 0) { mbedtls_fprintf(stdout, "\n %s", mbedtls_test_info.line1); } if (mbedtls_test_info.line2[0] != 0) { mbedtls_fprintf(stdout, "\n %s", mbedtls_test_info.line2); } } fflush(stdout); } else if (ret == DISPATCH_INVALID_TEST_DATA) { mbedtls_fprintf(stderr, "FAILED: FATAL PARSE ERROR\n"); fclose(file); mbedtls_exit(2); } else if (ret == DISPATCH_TEST_FN_NOT_FOUND) { mbedtls_fprintf(stderr, "FAILED: FATAL TEST FUNCTION NOT FOUND\n"); fclose(file); mbedtls_exit(2); } else { total_errors++; } } fclose(file); } if (outcome_file != NULL) { fclose(outcome_file); } mbedtls_fprintf(stdout, "\n----------------------------------------------------------------------------\n\n"); if (total_errors == 0) { mbedtls_fprintf(stdout, "PASSED"); } else { mbedtls_fprintf(stdout, "FAILED"); } mbedtls_fprintf(stdout, " (%u / %u tests (%u skipped))\n", total_tests - total_errors, total_tests, total_skipped); #if defined(MBEDTLS_MEMORY_BUFFER_ALLOC_C) && \ !defined(TEST_SUITE_MEMORY_BUFFER_ALLOC) #if defined(MBEDTLS_MEMORY_DEBUG) mbedtls_memory_buffer_alloc_status(); #endif mbedtls_memory_buffer_alloc_free(); #endif return total_errors != 0; }