/* SPDX-License-Identifier: GPL-2.0-only */ #include #include #include #include #include #include /* * Important note: In every particular test, don't use any string-related * functions other than function under test. We are linking against * src/lib/string.c not the standard library. This is important for proper test * isolation. */ struct string_pairs_t { char *dst; char *src; } string_pairs[] = { {"Hello ", "world!"}, {"He\0llo ", "world"}, {"", "world!"}, {"", ""}, }; const char *strings[] = { "coreboot", "is\0very", "nice\n" }; /* Used to test atol */ struct str_with_l_val_t { char *str; long value; } str_with_l_val[] = { {"42", 42}, {"four42", 0}, {"42five5", 42}, {"4\02", 4}, {"+42", 42}, {"-42", -42}, {"\t\n\r\f\v-42", -42}, }; /* Used to test skip_atoi */ struct str_with_u_val_t { char *str; uint32_t value; uint32_t offset; } str_with_u_val[] = { {"42aa", 42, 2}, {"a", 0, 0}, {"0", 0, 1}, {"4a2", 4, 1}, }; static void test_strdup(void **state) { char str[] = "Hello coreboot\n"; char *duplicate = strdup(str); /* There is a more suitable Cmocka's function 'assert_string_equal()', but it is using strcmp() internally. */ assert_int_equal(0, memcmp(str, duplicate, __builtin_strlen(str))); free(duplicate); } static void test_strconcat(void **state) { int i; size_t str_len, str2_len, res_len; char *result; for (i = 0; i < ARRAY_SIZE(string_pairs); i++) { str_len = __builtin_strlen(string_pairs[i].dst); str2_len = __builtin_strlen(string_pairs[i].src); result = strconcat(string_pairs[i].dst, string_pairs[i].src); res_len = __builtin_strlen(result); assert_int_equal(res_len, str_len + str2_len); assert_int_equal(0, memcmp(string_pairs[i].dst, result, str_len)); assert_int_equal(0, memcmp(string_pairs[i].src, result + str_len, str2_len)); free(result); } } static void test_strnlen(void **state) { int i, n = 5; size_t str_len, limited_len; for (i = 0; i < ARRAY_SIZE(strings); i++) { str_len = __builtin_strlen(strings[i]); limited_len = MIN(n, str_len); assert_int_equal(limited_len, strnlen(strings[i], n)); } } static void test_strlen(void **state) { int i; for (i = 0; i < ARRAY_SIZE(strings); i++) assert_int_equal(__builtin_strlen(strings[i]), strlen(strings[i])); } static void test_strchr(void **state) { char str[] = "Abracadabra!\n"; assert_ptr_equal(str, strchr(str, 'A')); assert_ptr_equal(str + 3, strchr(str, 'a')); assert_ptr_equal(str + 12, strchr(str, '\n')); assert_null(strchr(str, 'z')); } static void test_strrchr(void **state) { char str[] = "Abracadabra!\n"; assert_ptr_equal(str, strrchr(str, 'A')); assert_ptr_equal(str + 9, strrchr(str, 'r')); assert_ptr_equal(str + 12, strrchr(str, '\n')); assert_null(strrchr(str, 'z')); } static void test_strncpy(void **state) { int i; int n1 = 2, n2 = 8; char src[] = "Hello"; char dst[sizeof(src) + 5]; size_t src_len = __builtin_strlen(src); size_t dst_len = sizeof(dst); /* n1 case */ /* Needed for ensuring that characters behind the limit are not overwritten */ memset(dst, 'x', dst_len); strncpy(dst, src, n1); assert_int_equal(0, memcmp(dst, src, n1)); for (i = n1; i < dst_len; i++) assert_true(dst[i] == 'x'); /* n2 case: */ memset(dst, 'x', dst_len); strncpy(dst, src, n2); assert_int_equal(0, memcmp(dst, src, src_len)); for (i = src_len; i < n2; i++) assert_true(dst[i] == '\0'); for (i = n2; i < dst_len; i++) assert_true(dst[i] == 'x'); } static void test_strcpy(void **state) { char src[] = "Hello coreboot\n"; char dst[sizeof(src)]; /* Make sure that strcpy() sets '\0' by initializing a whole dst array to fixed, non-'\0' value */ memset(dst, 'x', sizeof(dst)); strcpy(dst, src); assert_int_equal(0, memcmp(dst, src, __builtin_strlen(src) + 1)); } static void test_strcmp(void **state) { char str[] = "Banana"; char str2[] = "Banana"; char str3[] = "Bananas"; assert_true(strcmp(str, str3) < 0); assert_int_equal(0, strcmp(str, str2)); assert_true(strcmp(str3, str2) > 0); } static void test_strncmp(void **state) { char str[] = "Banana"; char str2[] = "Bananas"; size_t str2_len = __builtin_strlen(str2); assert_true(strncmp(str, str2, str2_len) < 0); assert_int_equal(0, strncmp(str, str2, str2_len - 1)); } static void test_skip_atoi(void **state) { int i; char *ptr, *copy; for (i = 0; i < ARRAY_SIZE(str_with_u_val); i++) { ptr = str_with_u_val[i].str; copy = ptr; assert_true(str_with_u_val[i].value == skip_atoi(&ptr)); assert_int_equal(str_with_u_val[i].offset, ptr - copy); } } static void test_strspn(void **state) { char str[] = "4213401234"; char str2[] = "01234"; char str3[] = "1234"; assert_int_equal(5, strspn(str, str3)); assert_int_equal(0, strspn(str2, str3)); } static void test_strcspn(void **state) { char str[] = "12340000"; char str2[] = "00001234"; char str3[] = "1234"; assert_int_equal(0, strcspn(str, str3)); assert_int_equal(4, strcspn(str2, str3)); } /* Please bear in mind that `atol()` uses `strspn()` internally, so the result of `test_atol` is dependent on the result of `test_strspn`. */ static void test_atol(void **state) { int i; for (i = 0; i < ARRAY_SIZE(str_with_l_val); i++) assert_int_equal(str_with_l_val[i].value, atol(str_with_l_val[i].str)); } int main(void) { const struct CMUnitTest tests[] = { cmocka_unit_test(test_strdup), cmocka_unit_test(test_strconcat), cmocka_unit_test(test_strnlen), cmocka_unit_test(test_strlen), cmocka_unit_test(test_strchr), cmocka_unit_test(test_strrchr), cmocka_unit_test(test_strncpy), cmocka_unit_test(test_strcpy), cmocka_unit_test(test_strcmp), cmocka_unit_test(test_strncmp), cmocka_unit_test(test_skip_atoi), cmocka_unit_test(test_strspn), cmocka_unit_test(test_strcspn), cmocka_unit_test(test_atol), }; return cb_run_group_tests(tests, NULL, NULL); }