/* SPDX-License-Identifier: BSD-3-Clause * Copyright(c) 2010-2014 Intel Corporation */ #ifndef _TEST_H_ #define _TEST_H_ #include #include #include #include #define TEST_SUCCESS EXIT_SUCCESS #define TEST_FAILED -1 #define TEST_SKIPPED 77 /* Before including test.h file you can define * TEST_TRACE_FAILURE(_file, _line, _func) macro to better trace/debug test * failures. Mostly useful in test development phase. */ #ifndef TEST_TRACE_FAILURE # define TEST_TRACE_FAILURE(_file, _line, _func) #endif #include #define TEST_ASSERT RTE_TEST_ASSERT #define TEST_ASSERT_EQUAL RTE_TEST_ASSERT_EQUAL /* Compare two buffers (length in bytes) */ #define TEST_ASSERT_BUFFERS_ARE_EQUAL(a, b, len, msg, ...) do { \ if (memcmp(a, b, len)) { \ printf("TestCase %s() line %d failed: " \ msg "\n", __func__, __LINE__, ##__VA_ARGS__); \ TEST_TRACE_FAILURE(__FILE__, __LINE__, __func__); \ return TEST_FAILED; \ } \ } while (0) /* Compare two buffers with offset (length and offset in bytes) */ #define TEST_ASSERT_BUFFERS_ARE_EQUAL_OFFSET(a, b, len, off, msg, ...) do { \ const uint8_t *_a_with_off = (const uint8_t *)a + off; \ const uint8_t *_b_with_off = (const uint8_t *)b + off; \ TEST_ASSERT_BUFFERS_ARE_EQUAL(_a_with_off, _b_with_off, len, msg); \ } while (0) /* Compare two buffers (length in bits) */ #define TEST_ASSERT_BUFFERS_ARE_EQUAL_BIT(a, b, len, msg, ...) do { \ uint8_t _last_byte_a, _last_byte_b; \ uint8_t _last_byte_mask, _last_byte_bits; \ TEST_ASSERT_BUFFERS_ARE_EQUAL(a, b, (len >> 3), msg); \ if (len % 8) { \ _last_byte_bits = len % 8; \ _last_byte_mask = ~((1 << (8 - _last_byte_bits)) - 1); \ _last_byte_a = ((const uint8_t *)a)[len >> 3]; \ _last_byte_b = ((const uint8_t *)b)[len >> 3]; \ _last_byte_a &= _last_byte_mask; \ _last_byte_b &= _last_byte_mask; \ if (_last_byte_a != _last_byte_b) { \ printf("TestCase %s() line %d failed: " \ msg "\n", __func__, __LINE__, ##__VA_ARGS__);\ TEST_TRACE_FAILURE(__FILE__, __LINE__, __func__); \ return TEST_FAILED; \ } \ } \ } while (0) /* Compare two buffers with offset (length and offset in bits) */ #define TEST_ASSERT_BUFFERS_ARE_EQUAL_BIT_OFFSET(a, b, len, off, msg, ...) do { \ uint8_t _first_byte_a, _first_byte_b; \ uint8_t _first_byte_mask, _first_byte_bits; \ uint32_t _len_without_first_byte = (off % 8) ? \ len - (8 - (off % 8)) : \ len; \ uint32_t _off_in_bytes = (off % 8) ? (off >> 3) + 1 : (off >> 3); \ const uint8_t *_a_with_off = (const uint8_t *)a + _off_in_bytes; \ const uint8_t *_b_with_off = (const uint8_t *)b + _off_in_bytes; \ TEST_ASSERT_BUFFERS_ARE_EQUAL_BIT(_a_with_off, _b_with_off, \ _len_without_first_byte, msg); \ if (off % 8) { \ _first_byte_bits = 8 - (off % 8); \ _first_byte_mask = (1 << _first_byte_bits) - 1; \ _first_byte_a = *(_a_with_off - 1); \ _first_byte_b = *(_b_with_off - 1); \ _first_byte_a &= _first_byte_mask; \ _first_byte_b &= _first_byte_mask; \ if (_first_byte_a != _first_byte_b) { \ printf("TestCase %s() line %d failed: " \ msg "\n", __func__, __LINE__, ##__VA_ARGS__); \ TEST_TRACE_FAILURE(__FILE__, __LINE__, __func__); \ return TEST_FAILED; \ } \ } \ } while (0) #define TEST_ASSERT_NOT_EQUAL RTE_TEST_ASSERT_NOT_EQUAL #define TEST_ASSERT_SUCCESS RTE_TEST_ASSERT_SUCCESS #define TEST_ASSERT_FAIL RTE_TEST_ASSERT_FAIL #define TEST_ASSERT_NULL RTE_TEST_ASSERT_NULL #define TEST_ASSERT_NOT_NULL RTE_TEST_ASSERT_NOT_NULL struct unit_test_case { int (*setup)(void); void (*teardown)(void); int (*testcase)(void); const char *name; unsigned enabled; }; #define TEST_CASE(fn) { NULL, NULL, fn, #fn, 1 } #define TEST_CASE_NAMED(name, fn) { NULL, NULL, fn, name, 1 } #define TEST_CASE_ST(setup, teardown, testcase) \ { setup, teardown, testcase, #testcase, 1 } #define TEST_CASE_DISABLED(fn) { NULL, NULL, fn, #fn, 0 } #define TEST_CASE_ST_DISABLED(setup, teardown, testcase) \ { setup, teardown, testcase, #testcase, 0 } #define TEST_CASES_END() { NULL, NULL, NULL, NULL, 0 } static inline void debug_hexdump(FILE *file, const char *title, const void *buf, size_t len) { if (rte_log_get_global_level() == RTE_LOG_DEBUG) rte_hexdump(file, title, buf, len); } struct unit_test_suite { const char *suite_name; int (*setup)(void); void (*teardown)(void); struct unit_test_case unit_test_cases[]; }; int unit_test_suite_runner(struct unit_test_suite *suite); extern int last_test_result; #define RECURSIVE_ENV_VAR "RTE_TEST_RECURSIVE" #include #include extern const char *prgname; int commands_init(void); int test_mp_secondary(void); int test_timer_secondary(void); int test_set_rxtx_conf(cmdline_fixed_string_t mode); int test_set_rxtx_anchor(cmdline_fixed_string_t type); int test_set_rxtx_sc(cmdline_fixed_string_t type); typedef int (test_callback)(void); TAILQ_HEAD(test_commands_list, test_command); struct test_command { TAILQ_ENTRY(test_command) next; const char *command; test_callback *callback; }; void add_test_command(struct test_command *t); /* Register a test function with its command string */ #define REGISTER_TEST_COMMAND(cmd, func) \ static struct test_command test_struct_##cmd = { \ .command = RTE_STR(cmd), \ .callback = func, \ }; \ RTE_INIT(test_register_##cmd) \ { \ add_test_command(&test_struct_##cmd); \ } #endif