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|
/* SPDX-License-Identifier: GPL-2.0-only */
/*
* Copyright (c) 2012 The Chromium OS Authors. All rights reserved.
*
* kselftest_harness.h: simple C unit test helper.
*
* See documentation in Documentation/dev-tools/kselftest.rst
*
* API inspired by code.google.com/p/googletest
*/
/**
* DOC: example
*
* .. code-block:: c
*
* #include "../kselftest_harness.h"
*
* TEST(standalone_test) {
* do_some_stuff;
* EXPECT_GT(10, stuff) {
* stuff_state_t state;
* enumerate_stuff_state(&state);
* TH_LOG("expectation failed with state: %s", state.msg);
* }
* more_stuff;
* ASSERT_NE(some_stuff, NULL) TH_LOG("how did it happen?!");
* last_stuff;
* EXPECT_EQ(0, last_stuff);
* }
*
* FIXTURE(my_fixture) {
* mytype_t *data;
* int awesomeness_level;
* };
* FIXTURE_SETUP(my_fixture) {
* self->data = mytype_new();
* ASSERT_NE(NULL, self->data);
* }
* FIXTURE_TEARDOWN(my_fixture) {
* mytype_free(self->data);
* }
* TEST_F(my_fixture, data_is_good) {
* EXPECT_EQ(1, is_my_data_good(self->data));
* }
*
* TEST_HARNESS_MAIN
*/
#ifndef __KSELFTEST_HARNESS_H
#define __KSELFTEST_HARNESS_H
#ifndef _GNU_SOURCE
#define _GNU_SOURCE
#endif
#include <asm/types.h>
#include <errno.h>
#include <stdbool.h>
#include <stdint.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <sys/mman.h>
#include <sys/types.h>
#include <sys/wait.h>
#include <unistd.h>
#include <setjmp.h>
#include "kselftest.h"
#define TEST_TIMEOUT_DEFAULT 30
/* Utilities exposed to the test definitions */
#ifndef TH_LOG_STREAM
# define TH_LOG_STREAM stderr
#endif
#ifndef TH_LOG_ENABLED
# define TH_LOG_ENABLED 1
#endif
/**
* TH_LOG()
*
* @fmt: format string
* @...: optional arguments
*
* .. code-block:: c
*
* TH_LOG(format, ...)
*
* Optional debug logging function available for use in tests.
* Logging may be enabled or disabled by defining TH_LOG_ENABLED.
* E.g., #define TH_LOG_ENABLED 1
*
* If no definition is provided, logging is enabled by default.
*
* If there is no way to print an error message for the process running the
* test (e.g. not allowed to write to stderr), it is still possible to get the
* ASSERT_* number for which the test failed. This behavior can be enabled by
* writing `_metadata->no_print = true;` before the check sequence that is
* unable to print. When an error occur, instead of printing an error message
* and calling `abort(3)`, the test process call `_exit(2)` with the assert
* number as argument, which is then printed by the parent process.
*/
#define TH_LOG(fmt, ...) do { \
if (TH_LOG_ENABLED) \
__TH_LOG(fmt, ##__VA_ARGS__); \
} while (0)
/* Unconditional logger for internal use. */
#define __TH_LOG(fmt, ...) \
fprintf(TH_LOG_STREAM, "# %s:%d:%s:" fmt "\n", \
__FILE__, __LINE__, _metadata->name, ##__VA_ARGS__)
/**
* SKIP()
*
* @statement: statement to run after reporting SKIP
* @fmt: format string
* @...: optional arguments
*
* .. code-block:: c
*
* SKIP(statement, fmt, ...);
*
* This forces a "pass" after reporting why something is being skipped
* and runs "statement", which is usually "return" or "goto skip".
*/
#define SKIP(statement, fmt, ...) do { \
snprintf(_metadata->results->reason, \
sizeof(_metadata->results->reason), fmt, ##__VA_ARGS__); \
if (TH_LOG_ENABLED) { \
fprintf(TH_LOG_STREAM, "# SKIP %s\n", \
_metadata->results->reason); \
} \
_metadata->passed = 1; \
_metadata->skip = 1; \
_metadata->trigger = 0; \
statement; \
} while (0)
/**
* TEST() - Defines the test function and creates the registration
* stub
*
* @test_name: test name
*
* .. code-block:: c
*
* TEST(name) { implementation }
*
* Defines a test by name.
* Names must be unique and tests must not be run in parallel. The
* implementation containing block is a function and scoping should be treated
* as such. Returning early may be performed with a bare "return;" statement.
*
* EXPECT_* and ASSERT_* are valid in a TEST() { } context.
*/
#define TEST(test_name) __TEST_IMPL(test_name, -1)
/**
* TEST_SIGNAL()
*
* @test_name: test name
* @signal: signal number
*
* .. code-block:: c
*
* TEST_SIGNAL(name, signal) { implementation }
*
* Defines a test by name and the expected term signal.
* Names must be unique and tests must not be run in parallel. The
* implementation containing block is a function and scoping should be treated
* as such. Returning early may be performed with a bare "return;" statement.
*
* EXPECT_* and ASSERT_* are valid in a TEST() { } context.
*/
#define TEST_SIGNAL(test_name, signal) __TEST_IMPL(test_name, signal)
#define __TEST_IMPL(test_name, _signal) \
static void test_name(struct __test_metadata *_metadata); \
static inline void wrapper_##test_name( \
struct __test_metadata *_metadata, \
struct __fixture_variant_metadata *variant) \
{ \
_metadata->setup_completed = true; \
if (setjmp(_metadata->env) == 0) \
test_name(_metadata); \
__test_check_assert(_metadata); \
} \
static struct __test_metadata _##test_name##_object = \
{ .name = #test_name, \
.fn = &wrapper_##test_name, \
.fixture = &_fixture_global, \
.termsig = _signal, \
.timeout = TEST_TIMEOUT_DEFAULT, }; \
static void __attribute__((constructor)) _register_##test_name(void) \
{ \
__register_test(&_##test_name##_object); \
} \
static void test_name( \
struct __test_metadata __attribute__((unused)) *_metadata)
/**
* FIXTURE_DATA() - Wraps the struct name so we have one less
* argument to pass around
*
* @datatype_name: datatype name
*
* .. code-block:: c
*
* FIXTURE_DATA(datatype_name)
*
* Almost always, you want just FIXTURE() instead (see below).
* This call may be used when the type of the fixture data
* is needed. In general, this should not be needed unless
* the *self* is being passed to a helper directly.
*/
#define FIXTURE_DATA(datatype_name) struct _test_data_##datatype_name
/**
* FIXTURE() - Called once per fixture to setup the data and
* register
*
* @fixture_name: fixture name
*
* .. code-block:: c
*
* FIXTURE(fixture_name) {
* type property1;
* ...
* };
*
* Defines the data provided to TEST_F()-defined tests as *self*. It should be
* populated and cleaned up using FIXTURE_SETUP() and FIXTURE_TEARDOWN().
*/
#define FIXTURE(fixture_name) \
FIXTURE_VARIANT(fixture_name); \
static struct __fixture_metadata _##fixture_name##_fixture_object = \
{ .name = #fixture_name, }; \
static void __attribute__((constructor)) \
_register_##fixture_name##_data(void) \
{ \
__register_fixture(&_##fixture_name##_fixture_object); \
} \
FIXTURE_DATA(fixture_name)
/**
* FIXTURE_SETUP() - Prepares the setup function for the fixture.
* *_metadata* is included so that EXPECT_* and ASSERT_* work correctly.
*
* @fixture_name: fixture name
*
* .. code-block:: c
*
* FIXTURE_SETUP(fixture_name) { implementation }
*
* Populates the required "setup" function for a fixture. An instance of the
* datatype defined with FIXTURE_DATA() will be exposed as *self* for the
* implementation.
*
* ASSERT_* are valid for use in this context and will prempt the execution
* of any dependent fixture tests.
*
* A bare "return;" statement may be used to return early.
*/
#define FIXTURE_SETUP(fixture_name) \
void fixture_name##_setup( \
struct __test_metadata __attribute__((unused)) *_metadata, \
FIXTURE_DATA(fixture_name) __attribute__((unused)) *self, \
const FIXTURE_VARIANT(fixture_name) \
__attribute__((unused)) *variant)
/**
* FIXTURE_TEARDOWN()
* *_metadata* is included so that EXPECT_* and ASSERT_* work correctly.
*
* @fixture_name: fixture name
*
* .. code-block:: c
*
* FIXTURE_TEARDOWN(fixture_name) { implementation }
*
* Populates the required "teardown" function for a fixture. An instance of the
* datatype defined with FIXTURE_DATA() will be exposed as *self* for the
* implementation to clean up.
*
* A bare "return;" statement may be used to return early.
*/
#define FIXTURE_TEARDOWN(fixture_name) \
void fixture_name##_teardown( \
struct __test_metadata __attribute__((unused)) *_metadata, \
FIXTURE_DATA(fixture_name) __attribute__((unused)) *self, \
const FIXTURE_VARIANT(fixture_name) \
__attribute__((unused)) *variant)
/**
* FIXTURE_VARIANT() - Optionally called once per fixture
* to declare fixture variant
*
* @fixture_name: fixture name
*
* .. code-block:: c
*
* FIXTURE_VARIANT(fixture_name) {
* type property1;
* ...
* };
*
* Defines type of constant parameters provided to FIXTURE_SETUP(), TEST_F() and
* FIXTURE_TEARDOWN as *variant*. Variants allow the same tests to be run with
* different arguments.
*/
#define FIXTURE_VARIANT(fixture_name) struct _fixture_variant_##fixture_name
/**
* FIXTURE_VARIANT_ADD() - Called once per fixture
* variant to setup and register the data
*
* @fixture_name: fixture name
* @variant_name: name of the parameter set
*
* .. code-block:: c
*
* FIXTURE_VARIANT_ADD(fixture_name, variant_name) {
* .property1 = val1,
* ...
* };
*
* Defines a variant of the test fixture, provided to FIXTURE_SETUP() and
* TEST_F() as *variant*. Tests of each fixture will be run once for each
* variant.
*/
#define FIXTURE_VARIANT_ADD(fixture_name, variant_name) \
extern FIXTURE_VARIANT(fixture_name) \
_##fixture_name##_##variant_name##_variant; \
static struct __fixture_variant_metadata \
_##fixture_name##_##variant_name##_object = \
{ .name = #variant_name, \
.data = &_##fixture_name##_##variant_name##_variant}; \
static void __attribute__((constructor)) \
_register_##fixture_name##_##variant_name(void) \
{ \
__register_fixture_variant(&_##fixture_name##_fixture_object, \
&_##fixture_name##_##variant_name##_object); \
} \
FIXTURE_VARIANT(fixture_name) \
_##fixture_name##_##variant_name##_variant =
/**
* TEST_F() - Emits test registration and helpers for
* fixture-based test cases
*
* @fixture_name: fixture name
* @test_name: test name
*
* .. code-block:: c
*
* TEST_F(fixture, name) { implementation }
*
* Defines a test that depends on a fixture (e.g., is part of a test case).
* Very similar to TEST() except that *self* is the setup instance of fixture's
* datatype exposed for use by the implementation.
*/
#define TEST_F(fixture_name, test_name) \
__TEST_F_IMPL(fixture_name, test_name, -1, TEST_TIMEOUT_DEFAULT)
#define TEST_F_SIGNAL(fixture_name, test_name, signal) \
__TEST_F_IMPL(fixture_name, test_name, signal, TEST_TIMEOUT_DEFAULT)
#define TEST_F_TIMEOUT(fixture_name, test_name, timeout) \
__TEST_F_IMPL(fixture_name, test_name, -1, timeout)
#define __TEST_F_IMPL(fixture_name, test_name, signal, tmout) \
static void fixture_name##_##test_name( \
struct __test_metadata *_metadata, \
FIXTURE_DATA(fixture_name) *self, \
const FIXTURE_VARIANT(fixture_name) *variant); \
static inline void wrapper_##fixture_name##_##test_name( \
struct __test_metadata *_metadata, \
struct __fixture_variant_metadata *variant) \
{ \
/* fixture data is alloced, setup, and torn down per call. */ \
FIXTURE_DATA(fixture_name) self; \
memset(&self, 0, sizeof(FIXTURE_DATA(fixture_name))); \
if (setjmp(_metadata->env) == 0) { \
fixture_name##_setup(_metadata, &self, variant->data); \
/* Let setup failure terminate early. */ \
if (!_metadata->passed) \
return; \
_metadata->setup_completed = true; \
fixture_name##_##test_name(_metadata, &self, variant->data); \
} \
if (_metadata->setup_completed) \
fixture_name##_teardown(_metadata, &self, variant->data); \
__test_check_assert(_metadata); \
} \
static struct __test_metadata \
_##fixture_name##_##test_name##_object = { \
.name = #test_name, \
.fn = &wrapper_##fixture_name##_##test_name, \
.fixture = &_##fixture_name##_fixture_object, \
.termsig = signal, \
.timeout = tmout, \
}; \
static void __attribute__((constructor)) \
_register_##fixture_name##_##test_name(void) \
{ \
__register_test(&_##fixture_name##_##test_name##_object); \
} \
static void fixture_name##_##test_name( \
struct __test_metadata __attribute__((unused)) *_metadata, \
FIXTURE_DATA(fixture_name) __attribute__((unused)) *self, \
const FIXTURE_VARIANT(fixture_name) \
__attribute__((unused)) *variant)
/**
* TEST_HARNESS_MAIN - Simple wrapper to run the test harness
*
* .. code-block:: c
*
* TEST_HARNESS_MAIN
*
* Use once to append a main() to the test file.
*/
#define TEST_HARNESS_MAIN \
static void __attribute__((constructor)) \
__constructor_order_last(void) \
{ \
if (!__constructor_order) \
__constructor_order = _CONSTRUCTOR_ORDER_BACKWARD; \
} \
int main(int argc, char **argv) { \
return test_harness_run(argc, argv); \
}
/**
* DOC: operators
*
* Operators for use in TEST() and TEST_F().
* ASSERT_* calls will stop test execution immediately.
* EXPECT_* calls will emit a failure warning, note it, and continue.
*/
/**
* ASSERT_EQ()
*
* @expected: expected value
* @seen: measured value
*
* ASSERT_EQ(expected, measured): expected == measured
*/
#define ASSERT_EQ(expected, seen) \
__EXPECT(expected, #expected, seen, #seen, ==, 1)
/**
* ASSERT_NE()
*
* @expected: expected value
* @seen: measured value
*
* ASSERT_NE(expected, measured): expected != measured
*/
#define ASSERT_NE(expected, seen) \
__EXPECT(expected, #expected, seen, #seen, !=, 1)
/**
* ASSERT_LT()
*
* @expected: expected value
* @seen: measured value
*
* ASSERT_LT(expected, measured): expected < measured
*/
#define ASSERT_LT(expected, seen) \
__EXPECT(expected, #expected, seen, #seen, <, 1)
/**
* ASSERT_LE()
*
* @expected: expected value
* @seen: measured value
*
* ASSERT_LE(expected, measured): expected <= measured
*/
#define ASSERT_LE(expected, seen) \
__EXPECT(expected, #expected, seen, #seen, <=, 1)
/**
* ASSERT_GT()
*
* @expected: expected value
* @seen: measured value
*
* ASSERT_GT(expected, measured): expected > measured
*/
#define ASSERT_GT(expected, seen) \
__EXPECT(expected, #expected, seen, #seen, >, 1)
/**
* ASSERT_GE()
*
* @expected: expected value
* @seen: measured value
*
* ASSERT_GE(expected, measured): expected >= measured
*/
#define ASSERT_GE(expected, seen) \
__EXPECT(expected, #expected, seen, #seen, >=, 1)
/**
* ASSERT_NULL()
*
* @seen: measured value
*
* ASSERT_NULL(measured): NULL == measured
*/
#define ASSERT_NULL(seen) \
__EXPECT(NULL, "NULL", seen, #seen, ==, 1)
/**
* ASSERT_TRUE()
*
* @seen: measured value
*
* ASSERT_TRUE(measured): measured != 0
*/
#define ASSERT_TRUE(seen) \
__EXPECT(0, "0", seen, #seen, !=, 1)
/**
* ASSERT_FALSE()
*
* @seen: measured value
*
* ASSERT_FALSE(measured): measured == 0
*/
#define ASSERT_FALSE(seen) \
__EXPECT(0, "0", seen, #seen, ==, 1)
/**
* ASSERT_STREQ()
*
* @expected: expected value
* @seen: measured value
*
* ASSERT_STREQ(expected, measured): !strcmp(expected, measured)
*/
#define ASSERT_STREQ(expected, seen) \
__EXPECT_STR(expected, seen, ==, 1)
/**
* ASSERT_STRNE()
*
* @expected: expected value
* @seen: measured value
*
* ASSERT_STRNE(expected, measured): strcmp(expected, measured)
*/
#define ASSERT_STRNE(expected, seen) \
__EXPECT_STR(expected, seen, !=, 1)
/**
* EXPECT_EQ()
*
* @expected: expected value
* @seen: measured value
*
* EXPECT_EQ(expected, measured): expected == measured
*/
#define EXPECT_EQ(expected, seen) \
__EXPECT(expected, #expected, seen, #seen, ==, 0)
/**
* EXPECT_NE()
*
* @expected: expected value
* @seen: measured value
*
* EXPECT_NE(expected, measured): expected != measured
*/
#define EXPECT_NE(expected, seen) \
__EXPECT(expected, #expected, seen, #seen, !=, 0)
/**
* EXPECT_LT()
*
* @expected: expected value
* @seen: measured value
*
* EXPECT_LT(expected, measured): expected < measured
*/
#define EXPECT_LT(expected, seen) \
__EXPECT(expected, #expected, seen, #seen, <, 0)
/**
* EXPECT_LE()
*
* @expected: expected value
* @seen: measured value
*
* EXPECT_LE(expected, measured): expected <= measured
*/
#define EXPECT_LE(expected, seen) \
__EXPECT(expected, #expected, seen, #seen, <=, 0)
/**
* EXPECT_GT()
*
* @expected: expected value
* @seen: measured value
*
* EXPECT_GT(expected, measured): expected > measured
*/
#define EXPECT_GT(expected, seen) \
__EXPECT(expected, #expected, seen, #seen, >, 0)
/**
* EXPECT_GE()
*
* @expected: expected value
* @seen: measured value
*
* EXPECT_GE(expected, measured): expected >= measured
*/
#define EXPECT_GE(expected, seen) \
__EXPECT(expected, #expected, seen, #seen, >=, 0)
/**
* EXPECT_NULL()
*
* @seen: measured value
*
* EXPECT_NULL(measured): NULL == measured
*/
#define EXPECT_NULL(seen) \
__EXPECT(NULL, "NULL", seen, #seen, ==, 0)
/**
* EXPECT_TRUE()
*
* @seen: measured value
*
* EXPECT_TRUE(measured): 0 != measured
*/
#define EXPECT_TRUE(seen) \
__EXPECT(0, "0", seen, #seen, !=, 0)
/**
* EXPECT_FALSE()
*
* @seen: measured value
*
* EXPECT_FALSE(measured): 0 == measured
*/
#define EXPECT_FALSE(seen) \
__EXPECT(0, "0", seen, #seen, ==, 0)
/**
* EXPECT_STREQ()
*
* @expected: expected value
* @seen: measured value
*
* EXPECT_STREQ(expected, measured): !strcmp(expected, measured)
*/
#define EXPECT_STREQ(expected, seen) \
__EXPECT_STR(expected, seen, ==, 0)
/**
* EXPECT_STRNE()
*
* @expected: expected value
* @seen: measured value
*
* EXPECT_STRNE(expected, measured): strcmp(expected, measured)
*/
#define EXPECT_STRNE(expected, seen) \
__EXPECT_STR(expected, seen, !=, 0)
#ifndef ARRAY_SIZE
#define ARRAY_SIZE(a) (sizeof(a) / sizeof(a[0]))
#endif
/* Support an optional handler after and ASSERT_* or EXPECT_*. The approach is
* not thread-safe, but it should be fine in most sane test scenarios.
*
* Using __bail(), which optionally abort()s, is the easiest way to early
* return while still providing an optional block to the API consumer.
*/
#define OPTIONAL_HANDLER(_assert) \
for (; _metadata->trigger; _metadata->trigger = \
__bail(_assert, _metadata))
#define __INC_STEP(_metadata) \
/* Keep "step" below 255 (which is used for "SKIP" reporting). */ \
if (_metadata->passed && _metadata->step < 253) \
_metadata->step++;
#define is_signed_type(var) (!!(((__typeof__(var))(-1)) < (__typeof__(var))1))
#define __EXPECT(_expected, _expected_str, _seen, _seen_str, _t, _assert) do { \
/* Avoid multiple evaluation of the cases */ \
__typeof__(_expected) __exp = (_expected); \
__typeof__(_seen) __seen = (_seen); \
if (_assert) __INC_STEP(_metadata); \
if (!(__exp _t __seen)) { \
/* Report with actual signedness to avoid weird output. */ \
switch (is_signed_type(__exp) * 2 + is_signed_type(__seen)) { \
case 0: { \
unsigned long long __exp_print = (uintptr_t)__exp; \
unsigned long long __seen_print = (uintptr_t)__seen; \
__TH_LOG("Expected %s (%llu) %s %s (%llu)", \
_expected_str, __exp_print, #_t, \
_seen_str, __seen_print); \
break; \
} \
case 1: { \
unsigned long long __exp_print = (uintptr_t)__exp; \
long long __seen_print = (intptr_t)__seen; \
__TH_LOG("Expected %s (%llu) %s %s (%lld)", \
_expected_str, __exp_print, #_t, \
_seen_str, __seen_print); \
break; \
} \
case 2: { \
long long __exp_print = (intptr_t)__exp; \
unsigned long long __seen_print = (uintptr_t)__seen; \
__TH_LOG("Expected %s (%lld) %s %s (%llu)", \
_expected_str, __exp_print, #_t, \
_seen_str, __seen_print); \
break; \
} \
case 3: { \
long long __exp_print = (intptr_t)__exp; \
long long __seen_print = (intptr_t)__seen; \
__TH_LOG("Expected %s (%lld) %s %s (%lld)", \
_expected_str, __exp_print, #_t, \
_seen_str, __seen_print); \
break; \
} \
} \
_metadata->passed = 0; \
/* Ensure the optional handler is triggered */ \
_metadata->trigger = 1; \
} \
} while (0); OPTIONAL_HANDLER(_assert)
#define __EXPECT_STR(_expected, _seen, _t, _assert) do { \
const char *__exp = (_expected); \
const char *__seen = (_seen); \
if (_assert) __INC_STEP(_metadata); \
if (!(strcmp(__exp, __seen) _t 0)) { \
__TH_LOG("Expected '%s' %s '%s'.", __exp, #_t, __seen); \
_metadata->passed = 0; \
_metadata->trigger = 1; \
} \
} while (0); OPTIONAL_HANDLER(_assert)
/* List helpers */
#define __LIST_APPEND(head, item) \
{ \
/* Circular linked list where only prev is circular. */ \
if (head == NULL) { \
head = item; \
item->next = NULL; \
item->prev = item; \
return; \
} \
if (__constructor_order == _CONSTRUCTOR_ORDER_FORWARD) { \
item->next = NULL; \
item->prev = head->prev; \
item->prev->next = item; \
head->prev = item; \
} else { \
item->next = head; \
item->next->prev = item; \
item->prev = item; \
head = item; \
} \
}
struct __test_results {
char reason[1024]; /* Reason for test result */
};
struct __test_metadata;
struct __fixture_variant_metadata;
/* Contains all the information about a fixture. */
struct __fixture_metadata {
const char *name;
struct __test_metadata *tests;
struct __fixture_variant_metadata *variant;
struct __fixture_metadata *prev, *next;
} _fixture_global __attribute__((unused)) = {
.name = "global",
.prev = &_fixture_global,
};
static struct __fixture_metadata *__fixture_list = &_fixture_global;
static int __constructor_order;
#define _CONSTRUCTOR_ORDER_FORWARD 1
#define _CONSTRUCTOR_ORDER_BACKWARD -1
static inline void __register_fixture(struct __fixture_metadata *f)
{
__LIST_APPEND(__fixture_list, f);
}
struct __fixture_variant_metadata {
const char *name;
const void *data;
struct __fixture_variant_metadata *prev, *next;
};
static inline void
__register_fixture_variant(struct __fixture_metadata *f,
struct __fixture_variant_metadata *variant)
{
__LIST_APPEND(f->variant, variant);
}
/* Contains all the information for test execution and status checking. */
struct __test_metadata {
const char *name;
void (*fn)(struct __test_metadata *,
struct __fixture_variant_metadata *);
pid_t pid; /* pid of test when being run */
struct __fixture_metadata *fixture;
int termsig;
int passed;
int skip; /* did SKIP get used? */
int trigger; /* extra handler after the evaluation */
int timeout; /* seconds to wait for test timeout */
bool timed_out; /* did this test timeout instead of exiting? */
__u8 step;
bool no_print; /* manual trigger when TH_LOG_STREAM is not available */
bool aborted; /* stopped test due to failed ASSERT */
bool setup_completed; /* did setup finish? */
jmp_buf env; /* for exiting out of test early */
struct __test_results *results;
struct __test_metadata *prev, *next;
};
/*
* Since constructors are called in reverse order, reverse the test
* list so tests are run in source declaration order.
* https://gcc.gnu.org/onlinedocs/gccint/Initialization.html
* However, it seems not all toolchains do this correctly, so use
* __constructor_order to detect which direction is called first
* and adjust list building logic to get things running in the right
* direction.
*/
static inline void __register_test(struct __test_metadata *t)
{
__LIST_APPEND(t->fixture->tests, t);
}
static inline int __bail(int for_realz, struct __test_metadata *t)
{
/* if this is ASSERT, return immediately. */
if (for_realz) {
t->aborted = true;
longjmp(t->env, 1);
}
/* otherwise, end the for loop and continue. */
return 0;
}
static inline void __test_check_assert(struct __test_metadata *t)
{
if (t->aborted) {
if (t->no_print)
_exit(t->step);
abort();
}
}
struct __test_metadata *__active_test;
static void __timeout_handler(int sig, siginfo_t *info, void *ucontext)
{
struct __test_metadata *t = __active_test;
/* Sanity check handler execution environment. */
if (!t) {
fprintf(TH_LOG_STREAM,
"# no active test in SIGALRM handler!?\n");
abort();
}
if (sig != SIGALRM || sig != info->si_signo) {
fprintf(TH_LOG_STREAM,
"# %s: SIGALRM handler caught signal %d!?\n",
t->name, sig != SIGALRM ? sig : info->si_signo);
abort();
}
t->timed_out = true;
// signal process group
kill(-(t->pid), SIGKILL);
}
void __wait_for_test(struct __test_metadata *t)
{
struct sigaction action = {
.sa_sigaction = __timeout_handler,
.sa_flags = SA_SIGINFO,
};
struct sigaction saved_action;
int status;
if (sigaction(SIGALRM, &action, &saved_action)) {
t->passed = 0;
fprintf(TH_LOG_STREAM,
"# %s: unable to install SIGALRM handler\n",
t->name);
return;
}
__active_test = t;
t->timed_out = false;
alarm(t->timeout);
waitpid(t->pid, &status, 0);
alarm(0);
if (sigaction(SIGALRM, &saved_action, NULL)) {
t->passed = 0;
fprintf(TH_LOG_STREAM,
"# %s: unable to uninstall SIGALRM handler\n",
t->name);
return;
}
__active_test = NULL;
if (t->timed_out) {
t->passed = 0;
fprintf(TH_LOG_STREAM,
"# %s: Test terminated by timeout\n", t->name);
} else if (WIFEXITED(status)) {
if (WEXITSTATUS(status) == 255) {
/* SKIP */
t->passed = 1;
t->skip = 1;
} else if (t->termsig != -1) {
t->passed = 0;
fprintf(TH_LOG_STREAM,
"# %s: Test exited normally instead of by signal (code: %d)\n",
t->name,
WEXITSTATUS(status));
} else {
switch (WEXITSTATUS(status)) {
/* Success */
case 0:
t->passed = 1;
break;
/* Other failure, assume step report. */
default:
t->passed = 0;
fprintf(TH_LOG_STREAM,
"# %s: Test failed at step #%d\n",
t->name,
WEXITSTATUS(status));
}
}
} else if (WIFSIGNALED(status)) {
t->passed = 0;
if (WTERMSIG(status) == SIGABRT) {
fprintf(TH_LOG_STREAM,
"# %s: Test terminated by assertion\n",
t->name);
} else if (WTERMSIG(status) == t->termsig) {
t->passed = 1;
} else {
fprintf(TH_LOG_STREAM,
"# %s: Test terminated unexpectedly by signal %d\n",
t->name,
WTERMSIG(status));
}
} else {
fprintf(TH_LOG_STREAM,
"# %s: Test ended in some other way [%u]\n",
t->name,
status);
}
}
void __run_test(struct __fixture_metadata *f,
struct __fixture_variant_metadata *variant,
struct __test_metadata *t)
{
/* reset test struct */
t->passed = 1;
t->skip = 0;
t->trigger = 0;
t->step = 1;
t->no_print = 0;
memset(t->results->reason, 0, sizeof(t->results->reason));
ksft_print_msg(" RUN %s%s%s.%s ...\n",
f->name, variant->name[0] ? "." : "", variant->name, t->name);
/* Make sure output buffers are flushed before fork */
fflush(stdout);
fflush(stderr);
t->pid = fork();
if (t->pid < 0) {
ksft_print_msg("ERROR SPAWNING TEST CHILD\n");
t->passed = 0;
} else if (t->pid == 0) {
setpgrp();
t->fn(t, variant);
if (t->skip)
_exit(255);
/* Pass is exit 0 */
if (t->passed)
_exit(0);
/* Something else happened, report the step. */
_exit(t->step);
} else {
__wait_for_test(t);
}
ksft_print_msg(" %4s %s%s%s.%s\n", t->passed ? "OK" : "FAIL",
f->name, variant->name[0] ? "." : "", variant->name, t->name);
if (t->skip)
ksft_test_result_skip("%s\n", t->results->reason[0] ?
t->results->reason : "unknown");
else
ksft_test_result(t->passed, "%s%s%s.%s\n",
f->name, variant->name[0] ? "." : "", variant->name, t->name);
}
static int test_harness_run(int __attribute__((unused)) argc,
char __attribute__((unused)) **argv)
{
struct __fixture_variant_metadata no_variant = { .name = "", };
struct __fixture_variant_metadata *v;
struct __fixture_metadata *f;
struct __test_results *results;
struct __test_metadata *t;
int ret = 0;
unsigned int case_count = 0, test_count = 0;
unsigned int count = 0;
unsigned int pass_count = 0;
for (f = __fixture_list; f; f = f->next) {
for (v = f->variant ?: &no_variant; v; v = v->next) {
case_count++;
for (t = f->tests; t; t = t->next)
test_count++;
}
}
results = mmap(NULL, sizeof(*results), PROT_READ | PROT_WRITE,
MAP_SHARED | MAP_ANONYMOUS, -1, 0);
ksft_print_header();
ksft_set_plan(test_count);
ksft_print_msg("Starting %u tests from %u test cases.\n",
test_count, case_count);
for (f = __fixture_list; f; f = f->next) {
for (v = f->variant ?: &no_variant; v; v = v->next) {
for (t = f->tests; t; t = t->next) {
count++;
t->results = results;
__run_test(f, v, t);
t->results = NULL;
if (t->passed)
pass_count++;
else
ret = 1;
}
}
}
munmap(results, sizeof(*results));
ksft_print_msg("%s: %u / %u tests passed.\n", ret ? "FAILED" : "PASSED",
pass_count, count);
ksft_exit(ret == 0);
/* unreachable */
return KSFT_FAIL;
}
static void __attribute__((constructor)) __constructor_order_first(void)
{
if (!__constructor_order)
__constructor_order = _CONSTRUCTOR_ORDER_FORWARD;
}
#endif /* __KSELFTEST_HARNESS_H */
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