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Message-Id: <20211130114433.2580590-12-elver@google.com>
Date:   Tue, 30 Nov 2021 12:44:19 +0100
From:   Marco Elver <elver@...gle.com>
To:     elver@...gle.com, "Paul E. McKenney" <paulmck@...nel.org>
Cc:     Alexander Potapenko <glider@...gle.com>,
        Boqun Feng <boqun.feng@...il.com>,
        Borislav Petkov <bp@...en8.de>,
        Dmitry Vyukov <dvyukov@...gle.com>,
        Ingo Molnar <mingo@...nel.org>,
        Mark Rutland <mark.rutland@....com>,
        Peter Zijlstra <peterz@...radead.org>,
        Thomas Gleixner <tglx@...utronix.de>,
        Waiman Long <longman@...hat.com>,
        Will Deacon <will@...nel.org>, kasan-dev@...glegroups.com,
        linux-arch@...r.kernel.org, linux-doc@...r.kernel.org,
        linux-kbuild@...r.kernel.org, linux-kernel@...r.kernel.org,
        linux-mm@...ck.org, llvm@...ts.linux.dev, x86@...nel.org
Subject: [PATCH v3 11/25] kcsan: test: Add test cases for memory barrier instrumentation

Adds test cases to check that memory barriers are instrumented
correctly, and detection of missing memory barriers is working as
intended if CONFIG_KCSAN_STRICT=y.

Signed-off-by: Marco Elver <elver@...gle.com>
---
v3:
* Remove __no_kcsan from barrier test, given __no_kcsan would now remove
  barrier instrumentation, too.
---
 kernel/kcsan/kcsan_test.c | 319 ++++++++++++++++++++++++++++++++++++++
 1 file changed, 319 insertions(+)

diff --git a/kernel/kcsan/kcsan_test.c b/kernel/kcsan/kcsan_test.c
index ec054879201b..5bf94550bcdf 100644
--- a/kernel/kcsan/kcsan_test.c
+++ b/kernel/kcsan/kcsan_test.c
@@ -16,9 +16,12 @@
 #define pr_fmt(fmt) "kcsan_test: " fmt
 
 #include <kunit/test.h>
+#include <linux/atomic.h>
+#include <linux/bitops.h>
 #include <linux/jiffies.h>
 #include <linux/kcsan-checks.h>
 #include <linux/kernel.h>
+#include <linux/mutex.h>
 #include <linux/sched.h>
 #include <linux/seqlock.h>
 #include <linux/spinlock.h>
@@ -305,6 +308,16 @@ static DEFINE_SEQLOCK(test_seqlock);
 __no_kcsan
 static noinline void sink_value(long v) { WRITE_ONCE(test_sink, v); }
 
+/*
+ * Generates a delay and some accesses that enter the runtime but do not produce
+ * data races.
+ */
+static noinline void test_delay(int iter)
+{
+	while (iter--)
+		sink_value(READ_ONCE(test_sink));
+}
+
 static noinline void test_kernel_read(void) { sink_value(test_var); }
 
 static noinline void test_kernel_write(void)
@@ -466,8 +479,219 @@ static noinline void test_kernel_xor_1bit(void)
 	kcsan_nestable_atomic_end();
 }
 
+#define TEST_KERNEL_LOCKED(name, acquire, release)		\
+	static noinline void test_kernel_##name(void)		\
+	{							\
+		long *flag = &test_struct.val[0];		\
+		long v = 0;					\
+		if (!(acquire))					\
+			return;					\
+		while (v++ < 100) {				\
+			test_var++;				\
+			barrier();				\
+		}						\
+		release;					\
+		test_delay(10);					\
+	}
+
+TEST_KERNEL_LOCKED(with_memorder,
+		   cmpxchg_acquire(flag, 0, 1) == 0,
+		   smp_store_release(flag, 0));
+TEST_KERNEL_LOCKED(wrong_memorder,
+		   cmpxchg_relaxed(flag, 0, 1) == 0,
+		   WRITE_ONCE(*flag, 0));
+TEST_KERNEL_LOCKED(atomic_builtin_with_memorder,
+		   __atomic_compare_exchange_n(flag, &v, 1, 0, __ATOMIC_ACQUIRE, __ATOMIC_RELAXED),
+		   __atomic_store_n(flag, 0, __ATOMIC_RELEASE));
+TEST_KERNEL_LOCKED(atomic_builtin_wrong_memorder,
+		   __atomic_compare_exchange_n(flag, &v, 1, 0, __ATOMIC_RELAXED, __ATOMIC_RELAXED),
+		   __atomic_store_n(flag, 0, __ATOMIC_RELAXED));
+
 /* ===== Test cases ===== */
 
+/*
+ * Tests that various barriers have the expected effect on internal state. Not
+ * exhaustive on atomic_t operations. Unlike the selftest, also checks for
+ * too-strict barrier instrumentation; these can be tolerated, because it does
+ * not cause false positives, but at least we should be aware of such cases.
+ */
+static void test_barrier_nothreads(struct kunit *test)
+{
+#ifdef CONFIG_KCSAN_WEAK_MEMORY
+	struct kcsan_scoped_access *reorder_access = &current->kcsan_ctx.reorder_access;
+#else
+	struct kcsan_scoped_access *reorder_access = NULL;
+#endif
+	arch_spinlock_t arch_spinlock = __ARCH_SPIN_LOCK_UNLOCKED;
+	DEFINE_SPINLOCK(spinlock);
+	DEFINE_MUTEX(mutex);
+	atomic_t dummy;
+
+	KCSAN_TEST_REQUIRES(test, reorder_access != NULL);
+	KCSAN_TEST_REQUIRES(test, IS_ENABLED(CONFIG_SMP));
+
+#define __KCSAN_EXPECT_BARRIER(access_type, barrier, order_before, name)			\
+	do {											\
+		reorder_access->type = (access_type) | KCSAN_ACCESS_SCOPED;			\
+		reorder_access->size = sizeof(test_var);					\
+		barrier;									\
+		KUNIT_EXPECT_EQ_MSG(test, reorder_access->size,					\
+				    order_before ? 0 : sizeof(test_var),			\
+				    "improperly instrumented type=(" #access_type "): " name);	\
+	} while (0)
+#define KCSAN_EXPECT_READ_BARRIER(b, o)  __KCSAN_EXPECT_BARRIER(0, b, o, #b)
+#define KCSAN_EXPECT_WRITE_BARRIER(b, o) __KCSAN_EXPECT_BARRIER(KCSAN_ACCESS_WRITE, b, o, #b)
+#define KCSAN_EXPECT_RW_BARRIER(b, o)    __KCSAN_EXPECT_BARRIER(KCSAN_ACCESS_COMPOUND | KCSAN_ACCESS_WRITE, b, o, #b)
+
+	/* Force creating a valid entry in reorder_access first. */
+	test_var = 0;
+	while (test_var++ < 1000000 && reorder_access->size != sizeof(test_var))
+		__kcsan_check_read(&test_var, sizeof(test_var));
+	KUNIT_ASSERT_EQ(test, reorder_access->size, sizeof(test_var));
+
+	kcsan_nestable_atomic_begin(); /* No watchpoints in called functions. */
+
+	KCSAN_EXPECT_READ_BARRIER(mb(), true);
+	KCSAN_EXPECT_READ_BARRIER(wmb(), false);
+	KCSAN_EXPECT_READ_BARRIER(rmb(), true);
+	KCSAN_EXPECT_READ_BARRIER(smp_mb(), true);
+	KCSAN_EXPECT_READ_BARRIER(smp_wmb(), false);
+	KCSAN_EXPECT_READ_BARRIER(smp_rmb(), true);
+	KCSAN_EXPECT_READ_BARRIER(dma_wmb(), false);
+	KCSAN_EXPECT_READ_BARRIER(dma_rmb(), true);
+	KCSAN_EXPECT_READ_BARRIER(smp_mb__before_atomic(), true);
+	KCSAN_EXPECT_READ_BARRIER(smp_mb__after_atomic(), true);
+	KCSAN_EXPECT_READ_BARRIER(smp_mb__after_spinlock(), true);
+	KCSAN_EXPECT_READ_BARRIER(smp_store_mb(test_var, 0), true);
+	KCSAN_EXPECT_READ_BARRIER(smp_load_acquire(&test_var), false);
+	KCSAN_EXPECT_READ_BARRIER(smp_store_release(&test_var, 0), true);
+	KCSAN_EXPECT_READ_BARRIER(xchg(&test_var, 0), true);
+	KCSAN_EXPECT_READ_BARRIER(xchg_release(&test_var, 0), true);
+	KCSAN_EXPECT_READ_BARRIER(xchg_relaxed(&test_var, 0), false);
+	KCSAN_EXPECT_READ_BARRIER(cmpxchg(&test_var, 0,  0), true);
+	KCSAN_EXPECT_READ_BARRIER(cmpxchg_release(&test_var, 0,  0), true);
+	KCSAN_EXPECT_READ_BARRIER(cmpxchg_relaxed(&test_var, 0,  0), false);
+	KCSAN_EXPECT_READ_BARRIER(atomic_read(&dummy), false);
+	KCSAN_EXPECT_READ_BARRIER(atomic_read_acquire(&dummy), false);
+	KCSAN_EXPECT_READ_BARRIER(atomic_set(&dummy, 0), false);
+	KCSAN_EXPECT_READ_BARRIER(atomic_set_release(&dummy, 0), true);
+	KCSAN_EXPECT_READ_BARRIER(atomic_add(1, &dummy), false);
+	KCSAN_EXPECT_READ_BARRIER(atomic_add_return(1, &dummy), true);
+	KCSAN_EXPECT_READ_BARRIER(atomic_add_return_acquire(1, &dummy), false);
+	KCSAN_EXPECT_READ_BARRIER(atomic_add_return_release(1, &dummy), true);
+	KCSAN_EXPECT_READ_BARRIER(atomic_add_return_relaxed(1, &dummy), false);
+	KCSAN_EXPECT_READ_BARRIER(atomic_fetch_add(1, &dummy), true);
+	KCSAN_EXPECT_READ_BARRIER(atomic_fetch_add_acquire(1, &dummy), false);
+	KCSAN_EXPECT_READ_BARRIER(atomic_fetch_add_release(1, &dummy), true);
+	KCSAN_EXPECT_READ_BARRIER(atomic_fetch_add_relaxed(1, &dummy), false);
+	KCSAN_EXPECT_READ_BARRIER(test_and_set_bit(0, &test_var), true);
+	KCSAN_EXPECT_READ_BARRIER(test_and_clear_bit(0, &test_var), true);
+	KCSAN_EXPECT_READ_BARRIER(test_and_change_bit(0, &test_var), true);
+	KCSAN_EXPECT_READ_BARRIER(clear_bit_unlock(0, &test_var), true);
+	KCSAN_EXPECT_READ_BARRIER(__clear_bit_unlock(0, &test_var), true);
+	KCSAN_EXPECT_READ_BARRIER(clear_bit_unlock_is_negative_byte(0, &test_var), true);
+	KCSAN_EXPECT_READ_BARRIER(arch_spin_lock(&arch_spinlock), false);
+	KCSAN_EXPECT_READ_BARRIER(arch_spin_unlock(&arch_spinlock), true);
+	KCSAN_EXPECT_READ_BARRIER(spin_lock(&spinlock), false);
+	KCSAN_EXPECT_READ_BARRIER(spin_unlock(&spinlock), true);
+	KCSAN_EXPECT_READ_BARRIER(mutex_lock(&mutex), false);
+	KCSAN_EXPECT_READ_BARRIER(mutex_unlock(&mutex), true);
+
+	KCSAN_EXPECT_WRITE_BARRIER(mb(), true);
+	KCSAN_EXPECT_WRITE_BARRIER(wmb(), true);
+	KCSAN_EXPECT_WRITE_BARRIER(rmb(), false);
+	KCSAN_EXPECT_WRITE_BARRIER(smp_mb(), true);
+	KCSAN_EXPECT_WRITE_BARRIER(smp_wmb(), true);
+	KCSAN_EXPECT_WRITE_BARRIER(smp_rmb(), false);
+	KCSAN_EXPECT_WRITE_BARRIER(dma_wmb(), true);
+	KCSAN_EXPECT_WRITE_BARRIER(dma_rmb(), false);
+	KCSAN_EXPECT_WRITE_BARRIER(smp_mb__before_atomic(), true);
+	KCSAN_EXPECT_WRITE_BARRIER(smp_mb__after_atomic(), true);
+	KCSAN_EXPECT_WRITE_BARRIER(smp_mb__after_spinlock(), true);
+	KCSAN_EXPECT_WRITE_BARRIER(smp_store_mb(test_var, 0), true);
+	KCSAN_EXPECT_WRITE_BARRIER(smp_load_acquire(&test_var), false);
+	KCSAN_EXPECT_WRITE_BARRIER(smp_store_release(&test_var, 0), true);
+	KCSAN_EXPECT_WRITE_BARRIER(xchg(&test_var, 0), true);
+	KCSAN_EXPECT_WRITE_BARRIER(xchg_release(&test_var, 0), true);
+	KCSAN_EXPECT_WRITE_BARRIER(xchg_relaxed(&test_var, 0), false);
+	KCSAN_EXPECT_WRITE_BARRIER(cmpxchg(&test_var, 0,  0), true);
+	KCSAN_EXPECT_WRITE_BARRIER(cmpxchg_release(&test_var, 0,  0), true);
+	KCSAN_EXPECT_WRITE_BARRIER(cmpxchg_relaxed(&test_var, 0,  0), false);
+	KCSAN_EXPECT_WRITE_BARRIER(atomic_read(&dummy), false);
+	KCSAN_EXPECT_WRITE_BARRIER(atomic_read_acquire(&dummy), false);
+	KCSAN_EXPECT_WRITE_BARRIER(atomic_set(&dummy, 0), false);
+	KCSAN_EXPECT_WRITE_BARRIER(atomic_set_release(&dummy, 0), true);
+	KCSAN_EXPECT_WRITE_BARRIER(atomic_add(1, &dummy), false);
+	KCSAN_EXPECT_WRITE_BARRIER(atomic_add_return(1, &dummy), true);
+	KCSAN_EXPECT_WRITE_BARRIER(atomic_add_return_acquire(1, &dummy), false);
+	KCSAN_EXPECT_WRITE_BARRIER(atomic_add_return_release(1, &dummy), true);
+	KCSAN_EXPECT_WRITE_BARRIER(atomic_add_return_relaxed(1, &dummy), false);
+	KCSAN_EXPECT_WRITE_BARRIER(atomic_fetch_add(1, &dummy), true);
+	KCSAN_EXPECT_WRITE_BARRIER(atomic_fetch_add_acquire(1, &dummy), false);
+	KCSAN_EXPECT_WRITE_BARRIER(atomic_fetch_add_release(1, &dummy), true);
+	KCSAN_EXPECT_WRITE_BARRIER(atomic_fetch_add_relaxed(1, &dummy), false);
+	KCSAN_EXPECT_WRITE_BARRIER(test_and_set_bit(0, &test_var), true);
+	KCSAN_EXPECT_WRITE_BARRIER(test_and_clear_bit(0, &test_var), true);
+	KCSAN_EXPECT_WRITE_BARRIER(test_and_change_bit(0, &test_var), true);
+	KCSAN_EXPECT_WRITE_BARRIER(clear_bit_unlock(0, &test_var), true);
+	KCSAN_EXPECT_WRITE_BARRIER(__clear_bit_unlock(0, &test_var), true);
+	KCSAN_EXPECT_WRITE_BARRIER(clear_bit_unlock_is_negative_byte(0, &test_var), true);
+	KCSAN_EXPECT_WRITE_BARRIER(arch_spin_lock(&arch_spinlock), false);
+	KCSAN_EXPECT_WRITE_BARRIER(arch_spin_unlock(&arch_spinlock), true);
+	KCSAN_EXPECT_WRITE_BARRIER(spin_lock(&spinlock), false);
+	KCSAN_EXPECT_WRITE_BARRIER(spin_unlock(&spinlock), true);
+	KCSAN_EXPECT_WRITE_BARRIER(mutex_lock(&mutex), false);
+	KCSAN_EXPECT_WRITE_BARRIER(mutex_unlock(&mutex), true);
+
+	KCSAN_EXPECT_RW_BARRIER(mb(), true);
+	KCSAN_EXPECT_RW_BARRIER(wmb(), true);
+	KCSAN_EXPECT_RW_BARRIER(rmb(), true);
+	KCSAN_EXPECT_RW_BARRIER(smp_mb(), true);
+	KCSAN_EXPECT_RW_BARRIER(smp_wmb(), true);
+	KCSAN_EXPECT_RW_BARRIER(smp_rmb(), true);
+	KCSAN_EXPECT_RW_BARRIER(dma_wmb(), true);
+	KCSAN_EXPECT_RW_BARRIER(dma_rmb(), true);
+	KCSAN_EXPECT_RW_BARRIER(smp_mb__before_atomic(), true);
+	KCSAN_EXPECT_RW_BARRIER(smp_mb__after_atomic(), true);
+	KCSAN_EXPECT_RW_BARRIER(smp_mb__after_spinlock(), true);
+	KCSAN_EXPECT_RW_BARRIER(smp_store_mb(test_var, 0), true);
+	KCSAN_EXPECT_RW_BARRIER(smp_load_acquire(&test_var), false);
+	KCSAN_EXPECT_RW_BARRIER(smp_store_release(&test_var, 0), true);
+	KCSAN_EXPECT_RW_BARRIER(xchg(&test_var, 0), true);
+	KCSAN_EXPECT_RW_BARRIER(xchg_release(&test_var, 0), true);
+	KCSAN_EXPECT_RW_BARRIER(xchg_relaxed(&test_var, 0), false);
+	KCSAN_EXPECT_RW_BARRIER(cmpxchg(&test_var, 0,  0), true);
+	KCSAN_EXPECT_RW_BARRIER(cmpxchg_release(&test_var, 0,  0), true);
+	KCSAN_EXPECT_RW_BARRIER(cmpxchg_relaxed(&test_var, 0,  0), false);
+	KCSAN_EXPECT_RW_BARRIER(atomic_read(&dummy), false);
+	KCSAN_EXPECT_RW_BARRIER(atomic_read_acquire(&dummy), false);
+	KCSAN_EXPECT_RW_BARRIER(atomic_set(&dummy, 0), false);
+	KCSAN_EXPECT_RW_BARRIER(atomic_set_release(&dummy, 0), true);
+	KCSAN_EXPECT_RW_BARRIER(atomic_add(1, &dummy), false);
+	KCSAN_EXPECT_RW_BARRIER(atomic_add_return(1, &dummy), true);
+	KCSAN_EXPECT_RW_BARRIER(atomic_add_return_acquire(1, &dummy), false);
+	KCSAN_EXPECT_RW_BARRIER(atomic_add_return_release(1, &dummy), true);
+	KCSAN_EXPECT_RW_BARRIER(atomic_add_return_relaxed(1, &dummy), false);
+	KCSAN_EXPECT_RW_BARRIER(atomic_fetch_add(1, &dummy), true);
+	KCSAN_EXPECT_RW_BARRIER(atomic_fetch_add_acquire(1, &dummy), false);
+	KCSAN_EXPECT_RW_BARRIER(atomic_fetch_add_release(1, &dummy), true);
+	KCSAN_EXPECT_RW_BARRIER(atomic_fetch_add_relaxed(1, &dummy), false);
+	KCSAN_EXPECT_RW_BARRIER(test_and_set_bit(0, &test_var), true);
+	KCSAN_EXPECT_RW_BARRIER(test_and_clear_bit(0, &test_var), true);
+	KCSAN_EXPECT_RW_BARRIER(test_and_change_bit(0, &test_var), true);
+	KCSAN_EXPECT_RW_BARRIER(clear_bit_unlock(0, &test_var), true);
+	KCSAN_EXPECT_RW_BARRIER(__clear_bit_unlock(0, &test_var), true);
+	KCSAN_EXPECT_RW_BARRIER(clear_bit_unlock_is_negative_byte(0, &test_var), true);
+	KCSAN_EXPECT_RW_BARRIER(arch_spin_lock(&arch_spinlock), false);
+	KCSAN_EXPECT_RW_BARRIER(arch_spin_unlock(&arch_spinlock), true);
+	KCSAN_EXPECT_RW_BARRIER(spin_lock(&spinlock), false);
+	KCSAN_EXPECT_RW_BARRIER(spin_unlock(&spinlock), true);
+	KCSAN_EXPECT_RW_BARRIER(mutex_lock(&mutex), false);
+	KCSAN_EXPECT_RW_BARRIER(mutex_unlock(&mutex), true);
+
+	kcsan_nestable_atomic_end();
+}
+
 /* Simple test with normal data race. */
 __no_kcsan
 static void test_basic(struct kunit *test)
@@ -1039,6 +1263,90 @@ static void test_1bit_value_change(struct kunit *test)
 		KUNIT_EXPECT_TRUE(test, match);
 }
 
+__no_kcsan
+static void test_correct_barrier(struct kunit *test)
+{
+	struct expect_report expect = {
+		.access = {
+			{ test_kernel_with_memorder, &test_var, sizeof(test_var), __KCSAN_ACCESS_RW(KCSAN_ACCESS_WRITE) },
+			{ test_kernel_with_memorder, &test_var, sizeof(test_var), __KCSAN_ACCESS_RW(0) },
+		},
+	};
+	bool match_expect = false;
+
+	test_struct.val[0] = 0; /* init unlocked */
+	begin_test_checks(test_kernel_with_memorder, test_kernel_with_memorder);
+	do {
+		match_expect = report_matches_any_reordered(&expect);
+	} while (!end_test_checks(match_expect));
+	KUNIT_EXPECT_FALSE(test, match_expect);
+}
+
+__no_kcsan
+static void test_missing_barrier(struct kunit *test)
+{
+	struct expect_report expect = {
+		.access = {
+			{ test_kernel_wrong_memorder, &test_var, sizeof(test_var), __KCSAN_ACCESS_RW(KCSAN_ACCESS_WRITE) },
+			{ test_kernel_wrong_memorder, &test_var, sizeof(test_var), __KCSAN_ACCESS_RW(0) },
+		},
+	};
+	bool match_expect = false;
+
+	test_struct.val[0] = 0; /* init unlocked */
+	begin_test_checks(test_kernel_wrong_memorder, test_kernel_wrong_memorder);
+	do {
+		match_expect = report_matches_any_reordered(&expect);
+	} while (!end_test_checks(match_expect));
+	if (IS_ENABLED(CONFIG_KCSAN_WEAK_MEMORY))
+		KUNIT_EXPECT_TRUE(test, match_expect);
+	else
+		KUNIT_EXPECT_FALSE(test, match_expect);
+}
+
+__no_kcsan
+static void test_atomic_builtins_correct_barrier(struct kunit *test)
+{
+	struct expect_report expect = {
+		.access = {
+			{ test_kernel_atomic_builtin_with_memorder, &test_var, sizeof(test_var), __KCSAN_ACCESS_RW(KCSAN_ACCESS_WRITE) },
+			{ test_kernel_atomic_builtin_with_memorder, &test_var, sizeof(test_var), __KCSAN_ACCESS_RW(0) },
+		},
+	};
+	bool match_expect = false;
+
+	test_struct.val[0] = 0; /* init unlocked */
+	begin_test_checks(test_kernel_atomic_builtin_with_memorder,
+			  test_kernel_atomic_builtin_with_memorder);
+	do {
+		match_expect = report_matches_any_reordered(&expect);
+	} while (!end_test_checks(match_expect));
+	KUNIT_EXPECT_FALSE(test, match_expect);
+}
+
+__no_kcsan
+static void test_atomic_builtins_missing_barrier(struct kunit *test)
+{
+	struct expect_report expect = {
+		.access = {
+			{ test_kernel_atomic_builtin_wrong_memorder, &test_var, sizeof(test_var), __KCSAN_ACCESS_RW(KCSAN_ACCESS_WRITE) },
+			{ test_kernel_atomic_builtin_wrong_memorder, &test_var, sizeof(test_var), __KCSAN_ACCESS_RW(0) },
+		},
+	};
+	bool match_expect = false;
+
+	test_struct.val[0] = 0; /* init unlocked */
+	begin_test_checks(test_kernel_atomic_builtin_wrong_memorder,
+			  test_kernel_atomic_builtin_wrong_memorder);
+	do {
+		match_expect = report_matches_any_reordered(&expect);
+	} while (!end_test_checks(match_expect));
+	if (IS_ENABLED(CONFIG_KCSAN_WEAK_MEMORY))
+		KUNIT_EXPECT_TRUE(test, match_expect);
+	else
+		KUNIT_EXPECT_FALSE(test, match_expect);
+}
+
 /*
  * Generate thread counts for all test cases. Values generated are in interval
  * [2, 5] followed by exponentially increasing thread counts from 8 to 32.
@@ -1088,6 +1396,7 @@ static const void *nthreads_gen_params(const void *prev, char *desc)
 
 #define KCSAN_KUNIT_CASE(test_name) KUNIT_CASE_PARAM(test_name, nthreads_gen_params)
 static struct kunit_case kcsan_test_cases[] = {
+	KUNIT_CASE(test_barrier_nothreads),
 	KCSAN_KUNIT_CASE(test_basic),
 	KCSAN_KUNIT_CASE(test_concurrent_races),
 	KCSAN_KUNIT_CASE(test_novalue_change),
@@ -1112,6 +1421,10 @@ static struct kunit_case kcsan_test_cases[] = {
 	KCSAN_KUNIT_CASE(test_seqlock_noreport),
 	KCSAN_KUNIT_CASE(test_atomic_builtins),
 	KCSAN_KUNIT_CASE(test_1bit_value_change),
+	KCSAN_KUNIT_CASE(test_correct_barrier),
+	KCSAN_KUNIT_CASE(test_missing_barrier),
+	KCSAN_KUNIT_CASE(test_atomic_builtins_correct_barrier),
+	KCSAN_KUNIT_CASE(test_atomic_builtins_missing_barrier),
 	{},
 };
 
@@ -1176,6 +1489,9 @@ static int test_init(struct kunit *test)
 	observed.nlines = 0;
 	spin_unlock_irqrestore(&observed.lock, flags);
 
+	if (strstr(test->name, "nothreads"))
+		return 0;
+
 	if (!torture_init_begin((char *)test->name, 1))
 		return -EBUSY;
 
@@ -1218,6 +1534,9 @@ static void test_exit(struct kunit *test)
 	struct task_struct **stop_thread;
 	int i;
 
+	if (strstr(test->name, "nothreads"))
+		return;
+
 	if (torture_cleanup_begin())
 		return;
 
-- 
2.34.0.rc2.393.gf8c9666880-goog

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