kcsan: Introduce ASSERT_EXCLUSIVE_BITS(var, mask)
This introduces ASSERT_EXCLUSIVE_BITS(var, mask). ASSERT_EXCLUSIVE_BITS(var, mask) will cause KCSAN to assume that the following access is safe w.r.t. data races (however, please see the docbook comment for disclaimer here). For more context on why this was considered necessary, please see: http://lkml.kernel.org/r/1580995070-25139-1-git-send-email-cai@lca.pw In particular, before this patch, data races between reads (that use @mask bits of an access that should not be modified concurrently) and writes (that change ~@mask bits not used by the readers) would have been annotated with "data_race()" (or "READ_ONCE()"). However, doing so would then hide real problems: we would no longer be able to detect harmful races between reads to @mask bits and writes to @mask bits. Therefore, by using ASSERT_EXCLUSIVE_BITS(var, mask), we accomplish: 1. Avoid proliferation of specific macros at the call sites: by including a single mask in the argument list, we can use the same macro in a wide variety of call sites, regardless of how and which bits in a field each call site actually accesses. 2. The existing code does not need to be modified (although READ_ONCE() may still be advisable if we cannot prove that the data race is always safe). 3. We catch bugs where the exclusive bits are modified concurrently. 4. We document properties of the current code. Acked-by: John Hubbard <jhubbard@nvidia.com> Signed-off-by: Marco Elver <elver@google.com> Signed-off-by: Paul E. McKenney <paulmck@kernel.org> Signed-off-by: Ingo Molnar <mingo@kernel.org> Cc: David Hildenbrand <david@redhat.com> Cc: Jan Kara <jack@suse.cz> Cc: Qian Cai <cai@lca.pw>
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@ -152,9 +152,9 @@ static inline void kcsan_check_access(const volatile void *ptr, size_t size,
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#endif
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/**
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* ASSERT_EXCLUSIVE_WRITER - assert no other threads are writing @var
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* ASSERT_EXCLUSIVE_WRITER - assert no concurrent writes to @var
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*
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* Assert that there are no other threads writing @var; other readers are
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* Assert that there are no concurrent writes to @var; other readers are
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* allowed. This assertion can be used to specify properties of concurrent code,
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* where violation cannot be detected as a normal data race.
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*
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@ -171,11 +171,11 @@ static inline void kcsan_check_access(const volatile void *ptr, size_t size,
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__kcsan_check_access(&(var), sizeof(var), KCSAN_ACCESS_ASSERT)
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/**
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* ASSERT_EXCLUSIVE_ACCESS - assert no other threads are accessing @var
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* ASSERT_EXCLUSIVE_ACCESS - assert no concurrent accesses to @var
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*
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* Assert that no other thread is accessing @var (no readers nor writers). This
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* assertion can be used to specify properties of concurrent code, where
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* violation cannot be detected as a normal data race.
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* Assert that there are no concurrent accesses to @var (no readers nor
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* writers). This assertion can be used to specify properties of concurrent
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* code, where violation cannot be detected as a normal data race.
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*
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* For example, in a reference-counting algorithm where exclusive access is
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* expected after the refcount reaches 0. We can check that this property
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@ -191,4 +191,61 @@ static inline void kcsan_check_access(const volatile void *ptr, size_t size,
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#define ASSERT_EXCLUSIVE_ACCESS(var) \
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__kcsan_check_access(&(var), sizeof(var), KCSAN_ACCESS_WRITE | KCSAN_ACCESS_ASSERT)
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/**
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* ASSERT_EXCLUSIVE_BITS - assert no concurrent writes to subset of bits in @var
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*
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* Bit-granular variant of ASSERT_EXCLUSIVE_WRITER(var).
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*
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* Assert that there are no concurrent writes to a subset of bits in @var;
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* concurrent readers are permitted. This assertion captures more detailed
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* bit-level properties, compared to the other (word granularity) assertions.
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* Only the bits set in @mask are checked for concurrent modifications, while
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* ignoring the remaining bits, i.e. concurrent writes (or reads) to ~@mask bits
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* are ignored.
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*
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* Use this for variables, where some bits must not be modified concurrently,
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* yet other bits are expected to be modified concurrently.
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*
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* For example, variables where, after initialization, some bits are read-only,
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* but other bits may still be modified concurrently. A reader may wish to
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* assert that this is true as follows:
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*
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* ASSERT_EXCLUSIVE_BITS(flags, READ_ONLY_MASK);
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* foo = (READ_ONCE(flags) & READ_ONLY_MASK) >> READ_ONLY_SHIFT;
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*
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* Note: The access that immediately follows ASSERT_EXCLUSIVE_BITS() is
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* assumed to access the masked bits only, and KCSAN optimistically assumes it
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* is therefore safe, even in the presence of data races, and marking it with
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* READ_ONCE() is optional from KCSAN's point-of-view. We caution, however,
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* that it may still be advisable to do so, since we cannot reason about all
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* compiler optimizations when it comes to bit manipulations (on the reader
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* and writer side). If you are sure nothing can go wrong, we can write the
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* above simply as:
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*
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* ASSERT_EXCLUSIVE_BITS(flags, READ_ONLY_MASK);
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* foo = (flags & READ_ONLY_MASK) >> READ_ONLY_SHIFT;
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*
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* Another example, where this may be used, is when certain bits of @var may
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* only be modified when holding the appropriate lock, but other bits may still
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* be modified concurrently. Writers, where other bits may change concurrently,
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* could use the assertion as follows:
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*
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* spin_lock(&foo_lock);
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* ASSERT_EXCLUSIVE_BITS(flags, FOO_MASK);
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* old_flags = READ_ONCE(flags);
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* new_flags = (old_flags & ~FOO_MASK) | (new_foo << FOO_SHIFT);
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* if (cmpxchg(&flags, old_flags, new_flags) != old_flags) { ... }
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* spin_unlock(&foo_lock);
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*
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* @var variable to assert on
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* @mask only check for modifications to bits set in @mask
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*/
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#define ASSERT_EXCLUSIVE_BITS(var, mask) \
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do { \
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kcsan_set_access_mask(mask); \
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__kcsan_check_access(&(var), sizeof(var), KCSAN_ACCESS_ASSERT);\
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kcsan_set_access_mask(0); \
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kcsan_atomic_next(1); \
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} while (0)
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#endif /* _LINUX_KCSAN_CHECKS_H */
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@ -100,8 +100,10 @@ static noinline void microbenchmark(unsigned long iters)
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* debugfs file from multiple tasks to generate real conflicts and show reports.
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*/
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static long test_dummy;
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static long test_flags;
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static noinline void test_thread(unsigned long iters)
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{
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const long CHANGE_BITS = 0xff00ff00ff00ff00L;
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const struct kcsan_ctx ctx_save = current->kcsan_ctx;
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cycles_t cycles;
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@ -109,16 +111,27 @@ static noinline void test_thread(unsigned long iters)
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memset(¤t->kcsan_ctx, 0, sizeof(current->kcsan_ctx));
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pr_info("KCSAN: %s begin | iters: %lu\n", __func__, iters);
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pr_info("test_dummy@%px, test_flags@%px\n", &test_dummy, &test_flags);
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cycles = get_cycles();
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while (iters--) {
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/* These all should generate reports. */
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__kcsan_check_read(&test_dummy, sizeof(test_dummy));
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__kcsan_check_write(&test_dummy, sizeof(test_dummy));
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ASSERT_EXCLUSIVE_WRITER(test_dummy);
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ASSERT_EXCLUSIVE_ACCESS(test_dummy);
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ASSERT_EXCLUSIVE_BITS(test_flags, ~CHANGE_BITS); /* no report */
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__kcsan_check_read(&test_flags, sizeof(test_flags)); /* no report */
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ASSERT_EXCLUSIVE_BITS(test_flags, CHANGE_BITS); /* report */
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__kcsan_check_read(&test_flags, sizeof(test_flags)); /* no report */
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/* not actually instrumented */
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WRITE_ONCE(test_dummy, iters); /* to observe value-change */
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__kcsan_check_write(&test_dummy, sizeof(test_dummy));
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test_flags ^= CHANGE_BITS; /* generate value-change */
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__kcsan_check_write(&test_flags, sizeof(test_flags));
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}
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cycles = get_cycles() - cycles;
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