/* SPDX-License-Identifier: GPL-2.0 */
/*
* Copyright (c) 2023 Meta Platforms, Inc. and affiliates.
* Copyright (c) 2023 Tejun Heo <[email protected]>
* Copyright (c) 2023 David Vernet <[email protected]>
*/
#ifndef __SCX_TEST_H__
#define __SCX_TEST_H__
#include <errno.h>
#include <scx/common.h>
#include <scx/compat.h>
enum scx_test_status {
SCX_TEST_PASS = 0,
SCX_TEST_SKIP,
SCX_TEST_FAIL,
};
#define EXIT_KIND(__ent) __COMPAT_ENUM_OR_ZERO("scx_exit_kind", #__ent)
struct scx_test {
/**
* name - The name of the testcase.
*/
const char *name;
/**
* description - A description of your testcase: what it tests and is
* meant to validate.
*/
const char *description;
/*
* setup - Setup the test.
* @ctx: A pointer to a context object that will be passed to run and
* cleanup.
*
* An optional callback that allows a testcase to perform setup for its
* run. A test may return SCX_TEST_SKIP to skip the run.
*/
enum scx_test_status (*setup)(void **ctx);
/*
* run - Run the test.
* @ctx: Context set in the setup() callback. If @ctx was not set in
* setup(), it is NULL.
*
* The main test. Callers should return one of:
*
* - SCX_TEST_PASS: Test passed
* - SCX_TEST_SKIP: Test should be skipped
* - SCX_TEST_FAIL: Test failed
*
* This callback must be defined.
*/
enum scx_test_status (*run)(void *ctx);
/*
* cleanup - Perform cleanup following the test
* @ctx: Context set in the setup() callback. If @ctx was not set in
* setup(), it is NULL.
*
* An optional callback that allows a test to perform cleanup after
* being run. This callback is run even if the run() callback returns
* SCX_TEST_SKIP or SCX_TEST_FAIL. It is not run if setup() returns
* SCX_TEST_SKIP or SCX_TEST_FAIL.
*/
void (*cleanup)(void *ctx);
};
void scx_test_register(struct scx_test *test);
#define REGISTER_SCX_TEST(__test) \
__attribute__((constructor)) \
static void ___scxregister##__LINE__(void) \
{ \
scx_test_register(__test); \
}
#define SCX_ERR(__fmt, ...) \
do { \
fprintf(stderr, "ERR: %s:%d\n", __FILE__, __LINE__); \
fprintf(stderr, __fmt"\n", ##__VA_ARGS__); \
} while (0)
#define SCX_FAIL(__fmt, ...) \
do { \
SCX_ERR(__fmt, ##__VA_ARGS__); \
return SCX_TEST_FAIL; \
} while (0)
#define SCX_FAIL_IF(__cond, __fmt, ...) \
do { \
if (__cond) \
SCX_FAIL(__fmt, ##__VA_ARGS__); \
} while (0)
#define SCX_GT(_x, _y) SCX_FAIL_IF((_x) <= (_y), "Expected %s > %s (%lu > %lu)", \
#_x, #_y, (u64)(_x), (u64)(_y))
#define SCX_GE(_x, _y) SCX_FAIL_IF((_x) < (_y), "Expected %s >= %s (%lu >= %lu)", \
#_x, #_y, (u64)(_x), (u64)(_y))
#define SCX_LT(_x, _y) SCX_FAIL_IF((_x) >= (_y), "Expected %s < %s (%lu < %lu)", \
#_x, #_y, (u64)(_x), (u64)(_y))
#define SCX_LE(_x, _y) SCX_FAIL_IF((_x) > (_y), "Expected %s <= %s (%lu <= %lu)", \
#_x, #_y, (u64)(_x), (u64)(_y))
#define SCX_EQ(_x, _y) SCX_FAIL_IF((_x) != (_y), "Expected %s == %s (%lu == %lu)", \
#_x, #_y, (u64)(_x), (u64)(_y))
#define SCX_ASSERT(_x) SCX_FAIL_IF(!(_x), "Expected %s to be true (%lu)", \
#_x, (u64)(_x))
#define SCX_ECODE_VAL(__ecode) ({ \
u64 __val = 0; \
bool __found = false; \
\
__found = __COMPAT_read_enum("scx_exit_code", #__ecode, &__val); \
SCX_ASSERT(__found); \
(s64)__val; \
})
#define SCX_KIND_VAL(__kind) ({ \
u64 __val = 0; \
bool __found = false; \
\
__found = __COMPAT_read_enum("scx_exit_kind", #__kind, &__val); \
SCX_ASSERT(__found); \
__val; \
})
#endif // # __SCX_TEST_H__