eac9753122
Merge from upstream 345033. 2018-10-31 Martin Liska <mliska@suse.cz> * All source files: Merge from upstream 345033. From-SVN: r265665
424 lines
17 KiB
C++
424 lines
17 KiB
C++
//===-- tsan_interceptors_mac.cc ------------------------------------------===//
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//
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// This file is distributed under the University of Illinois Open Source
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// License. See LICENSE.TXT for details.
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//
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//===----------------------------------------------------------------------===//
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//
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// This file is a part of ThreadSanitizer (TSan), a race detector.
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//
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// Mac-specific interceptors.
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//===----------------------------------------------------------------------===//
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#include "sanitizer_common/sanitizer_platform.h"
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#if SANITIZER_MAC
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#include "interception/interception.h"
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#include "tsan_interceptors.h"
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#include "tsan_interface.h"
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#include "tsan_interface_ann.h"
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#include <libkern/OSAtomic.h>
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#if defined(__has_include) && __has_include(<xpc/xpc.h>)
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#include <xpc/xpc.h>
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#endif // #if defined(__has_include) && __has_include(<xpc/xpc.h>)
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typedef long long_t; // NOLINT
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namespace __tsan {
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// The non-barrier versions of OSAtomic* functions are semantically mo_relaxed,
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// but the two variants (e.g. OSAtomicAdd32 and OSAtomicAdd32Barrier) are
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// actually aliases of each other, and we cannot have different interceptors for
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// them, because they're actually the same function. Thus, we have to stay
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// conservative and treat the non-barrier versions as mo_acq_rel.
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static const morder kMacOrderBarrier = mo_acq_rel;
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static const morder kMacOrderNonBarrier = mo_acq_rel;
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#define OSATOMIC_INTERCEPTOR(return_t, t, tsan_t, f, tsan_atomic_f, mo) \
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TSAN_INTERCEPTOR(return_t, f, t x, volatile t *ptr) { \
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SCOPED_TSAN_INTERCEPTOR(f, x, ptr); \
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return tsan_atomic_f((volatile tsan_t *)ptr, x, mo); \
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}
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#define OSATOMIC_INTERCEPTOR_PLUS_X(return_t, t, tsan_t, f, tsan_atomic_f, mo) \
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TSAN_INTERCEPTOR(return_t, f, t x, volatile t *ptr) { \
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SCOPED_TSAN_INTERCEPTOR(f, x, ptr); \
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return tsan_atomic_f((volatile tsan_t *)ptr, x, mo) + x; \
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}
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#define OSATOMIC_INTERCEPTOR_PLUS_1(return_t, t, tsan_t, f, tsan_atomic_f, mo) \
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TSAN_INTERCEPTOR(return_t, f, volatile t *ptr) { \
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SCOPED_TSAN_INTERCEPTOR(f, ptr); \
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return tsan_atomic_f((volatile tsan_t *)ptr, 1, mo) + 1; \
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}
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#define OSATOMIC_INTERCEPTOR_MINUS_1(return_t, t, tsan_t, f, tsan_atomic_f, \
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mo) \
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TSAN_INTERCEPTOR(return_t, f, volatile t *ptr) { \
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SCOPED_TSAN_INTERCEPTOR(f, ptr); \
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return tsan_atomic_f((volatile tsan_t *)ptr, 1, mo) - 1; \
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}
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#define OSATOMIC_INTERCEPTORS_ARITHMETIC(f, tsan_atomic_f, m) \
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m(int32_t, int32_t, a32, f##32, __tsan_atomic32_##tsan_atomic_f, \
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kMacOrderNonBarrier) \
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m(int32_t, int32_t, a32, f##32##Barrier, __tsan_atomic32_##tsan_atomic_f, \
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kMacOrderBarrier) \
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m(int64_t, int64_t, a64, f##64, __tsan_atomic64_##tsan_atomic_f, \
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kMacOrderNonBarrier) \
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m(int64_t, int64_t, a64, f##64##Barrier, __tsan_atomic64_##tsan_atomic_f, \
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kMacOrderBarrier)
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#define OSATOMIC_INTERCEPTORS_BITWISE(f, tsan_atomic_f, m, m_orig) \
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m(int32_t, uint32_t, a32, f##32, __tsan_atomic32_##tsan_atomic_f, \
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kMacOrderNonBarrier) \
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m(int32_t, uint32_t, a32, f##32##Barrier, __tsan_atomic32_##tsan_atomic_f, \
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kMacOrderBarrier) \
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m_orig(int32_t, uint32_t, a32, f##32##Orig, __tsan_atomic32_##tsan_atomic_f, \
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kMacOrderNonBarrier) \
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m_orig(int32_t, uint32_t, a32, f##32##OrigBarrier, \
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__tsan_atomic32_##tsan_atomic_f, kMacOrderBarrier)
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OSATOMIC_INTERCEPTORS_ARITHMETIC(OSAtomicAdd, fetch_add,
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OSATOMIC_INTERCEPTOR_PLUS_X)
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OSATOMIC_INTERCEPTORS_ARITHMETIC(OSAtomicIncrement, fetch_add,
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OSATOMIC_INTERCEPTOR_PLUS_1)
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OSATOMIC_INTERCEPTORS_ARITHMETIC(OSAtomicDecrement, fetch_sub,
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OSATOMIC_INTERCEPTOR_MINUS_1)
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OSATOMIC_INTERCEPTORS_BITWISE(OSAtomicOr, fetch_or, OSATOMIC_INTERCEPTOR_PLUS_X,
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OSATOMIC_INTERCEPTOR)
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OSATOMIC_INTERCEPTORS_BITWISE(OSAtomicAnd, fetch_and,
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OSATOMIC_INTERCEPTOR_PLUS_X, OSATOMIC_INTERCEPTOR)
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OSATOMIC_INTERCEPTORS_BITWISE(OSAtomicXor, fetch_xor,
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OSATOMIC_INTERCEPTOR_PLUS_X, OSATOMIC_INTERCEPTOR)
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#define OSATOMIC_INTERCEPTORS_CAS(f, tsan_atomic_f, tsan_t, t) \
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TSAN_INTERCEPTOR(bool, f, t old_value, t new_value, t volatile *ptr) { \
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SCOPED_TSAN_INTERCEPTOR(f, old_value, new_value, ptr); \
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return tsan_atomic_f##_compare_exchange_strong( \
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(volatile tsan_t *)ptr, (tsan_t *)&old_value, (tsan_t)new_value, \
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kMacOrderNonBarrier, kMacOrderNonBarrier); \
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} \
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\
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TSAN_INTERCEPTOR(bool, f##Barrier, t old_value, t new_value, \
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t volatile *ptr) { \
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SCOPED_TSAN_INTERCEPTOR(f##Barrier, old_value, new_value, ptr); \
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return tsan_atomic_f##_compare_exchange_strong( \
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(volatile tsan_t *)ptr, (tsan_t *)&old_value, (tsan_t)new_value, \
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kMacOrderBarrier, kMacOrderNonBarrier); \
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}
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OSATOMIC_INTERCEPTORS_CAS(OSAtomicCompareAndSwapInt, __tsan_atomic32, a32, int)
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OSATOMIC_INTERCEPTORS_CAS(OSAtomicCompareAndSwapLong, __tsan_atomic64, a64,
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long_t)
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OSATOMIC_INTERCEPTORS_CAS(OSAtomicCompareAndSwapPtr, __tsan_atomic64, a64,
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void *)
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OSATOMIC_INTERCEPTORS_CAS(OSAtomicCompareAndSwap32, __tsan_atomic32, a32,
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int32_t)
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OSATOMIC_INTERCEPTORS_CAS(OSAtomicCompareAndSwap64, __tsan_atomic64, a64,
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int64_t)
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#define OSATOMIC_INTERCEPTOR_BITOP(f, op, clear, mo) \
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TSAN_INTERCEPTOR(bool, f, uint32_t n, volatile void *ptr) { \
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SCOPED_TSAN_INTERCEPTOR(f, n, ptr); \
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volatile char *byte_ptr = ((volatile char *)ptr) + (n >> 3); \
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char bit = 0x80u >> (n & 7); \
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char mask = clear ? ~bit : bit; \
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char orig_byte = op((volatile a8 *)byte_ptr, mask, mo); \
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return orig_byte & bit; \
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}
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#define OSATOMIC_INTERCEPTORS_BITOP(f, op, clear) \
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OSATOMIC_INTERCEPTOR_BITOP(f, op, clear, kMacOrderNonBarrier) \
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OSATOMIC_INTERCEPTOR_BITOP(f##Barrier, op, clear, kMacOrderBarrier)
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OSATOMIC_INTERCEPTORS_BITOP(OSAtomicTestAndSet, __tsan_atomic8_fetch_or, false)
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OSATOMIC_INTERCEPTORS_BITOP(OSAtomicTestAndClear, __tsan_atomic8_fetch_and,
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true)
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TSAN_INTERCEPTOR(void, OSAtomicEnqueue, OSQueueHead *list, void *item,
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size_t offset) {
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SCOPED_TSAN_INTERCEPTOR(OSAtomicEnqueue, list, item, offset);
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__tsan_release(item);
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REAL(OSAtomicEnqueue)(list, item, offset);
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}
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TSAN_INTERCEPTOR(void *, OSAtomicDequeue, OSQueueHead *list, size_t offset) {
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SCOPED_TSAN_INTERCEPTOR(OSAtomicDequeue, list, offset);
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void *item = REAL(OSAtomicDequeue)(list, offset);
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if (item) __tsan_acquire(item);
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return item;
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}
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// OSAtomicFifoEnqueue and OSAtomicFifoDequeue are only on OS X.
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#if !SANITIZER_IOS
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TSAN_INTERCEPTOR(void, OSAtomicFifoEnqueue, OSFifoQueueHead *list, void *item,
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size_t offset) {
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SCOPED_TSAN_INTERCEPTOR(OSAtomicFifoEnqueue, list, item, offset);
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__tsan_release(item);
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REAL(OSAtomicFifoEnqueue)(list, item, offset);
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}
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TSAN_INTERCEPTOR(void *, OSAtomicFifoDequeue, OSFifoQueueHead *list,
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size_t offset) {
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SCOPED_TSAN_INTERCEPTOR(OSAtomicFifoDequeue, list, offset);
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void *item = REAL(OSAtomicFifoDequeue)(list, offset);
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if (item) __tsan_acquire(item);
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return item;
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}
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#endif
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TSAN_INTERCEPTOR(void, OSSpinLockLock, volatile OSSpinLock *lock) {
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CHECK(!cur_thread()->is_dead);
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if (!cur_thread()->is_inited) {
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return REAL(OSSpinLockLock)(lock);
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}
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SCOPED_TSAN_INTERCEPTOR(OSSpinLockLock, lock);
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REAL(OSSpinLockLock)(lock);
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Acquire(thr, pc, (uptr)lock);
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}
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TSAN_INTERCEPTOR(bool, OSSpinLockTry, volatile OSSpinLock *lock) {
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CHECK(!cur_thread()->is_dead);
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if (!cur_thread()->is_inited) {
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return REAL(OSSpinLockTry)(lock);
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}
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SCOPED_TSAN_INTERCEPTOR(OSSpinLockTry, lock);
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bool result = REAL(OSSpinLockTry)(lock);
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if (result)
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Acquire(thr, pc, (uptr)lock);
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return result;
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}
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TSAN_INTERCEPTOR(void, OSSpinLockUnlock, volatile OSSpinLock *lock) {
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CHECK(!cur_thread()->is_dead);
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if (!cur_thread()->is_inited) {
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return REAL(OSSpinLockUnlock)(lock);
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}
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SCOPED_TSAN_INTERCEPTOR(OSSpinLockUnlock, lock);
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Release(thr, pc, (uptr)lock);
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REAL(OSSpinLockUnlock)(lock);
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}
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TSAN_INTERCEPTOR(void, os_lock_lock, void *lock) {
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CHECK(!cur_thread()->is_dead);
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if (!cur_thread()->is_inited) {
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return REAL(os_lock_lock)(lock);
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}
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SCOPED_TSAN_INTERCEPTOR(os_lock_lock, lock);
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REAL(os_lock_lock)(lock);
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Acquire(thr, pc, (uptr)lock);
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}
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TSAN_INTERCEPTOR(bool, os_lock_trylock, void *lock) {
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CHECK(!cur_thread()->is_dead);
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if (!cur_thread()->is_inited) {
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return REAL(os_lock_trylock)(lock);
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}
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SCOPED_TSAN_INTERCEPTOR(os_lock_trylock, lock);
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bool result = REAL(os_lock_trylock)(lock);
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if (result)
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Acquire(thr, pc, (uptr)lock);
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return result;
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}
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TSAN_INTERCEPTOR(void, os_lock_unlock, void *lock) {
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CHECK(!cur_thread()->is_dead);
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if (!cur_thread()->is_inited) {
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return REAL(os_lock_unlock)(lock);
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}
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SCOPED_TSAN_INTERCEPTOR(os_lock_unlock, lock);
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Release(thr, pc, (uptr)lock);
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REAL(os_lock_unlock)(lock);
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}
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#if defined(__has_include) && __has_include(<xpc/xpc.h>)
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TSAN_INTERCEPTOR(void, xpc_connection_set_event_handler,
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xpc_connection_t connection, xpc_handler_t handler) {
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SCOPED_TSAN_INTERCEPTOR(xpc_connection_set_event_handler, connection,
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handler);
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Release(thr, pc, (uptr)connection);
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xpc_handler_t new_handler = ^(xpc_object_t object) {
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{
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SCOPED_INTERCEPTOR_RAW(xpc_connection_set_event_handler);
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Acquire(thr, pc, (uptr)connection);
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}
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handler(object);
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};
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REAL(xpc_connection_set_event_handler)(connection, new_handler);
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}
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TSAN_INTERCEPTOR(void, xpc_connection_send_barrier, xpc_connection_t connection,
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dispatch_block_t barrier) {
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SCOPED_TSAN_INTERCEPTOR(xpc_connection_send_barrier, connection, barrier);
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Release(thr, pc, (uptr)connection);
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dispatch_block_t new_barrier = ^() {
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{
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SCOPED_INTERCEPTOR_RAW(xpc_connection_send_barrier);
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Acquire(thr, pc, (uptr)connection);
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}
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barrier();
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};
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REAL(xpc_connection_send_barrier)(connection, new_barrier);
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}
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TSAN_INTERCEPTOR(void, xpc_connection_send_message_with_reply,
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xpc_connection_t connection, xpc_object_t message,
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dispatch_queue_t replyq, xpc_handler_t handler) {
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SCOPED_TSAN_INTERCEPTOR(xpc_connection_send_message_with_reply, connection,
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message, replyq, handler);
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Release(thr, pc, (uptr)connection);
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xpc_handler_t new_handler = ^(xpc_object_t object) {
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{
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SCOPED_INTERCEPTOR_RAW(xpc_connection_send_message_with_reply);
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Acquire(thr, pc, (uptr)connection);
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}
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handler(object);
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};
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REAL(xpc_connection_send_message_with_reply)
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(connection, message, replyq, new_handler);
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}
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TSAN_INTERCEPTOR(void, xpc_connection_cancel, xpc_connection_t connection) {
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SCOPED_TSAN_INTERCEPTOR(xpc_connection_cancel, connection);
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Release(thr, pc, (uptr)connection);
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REAL(xpc_connection_cancel)(connection);
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}
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#endif // #if defined(__has_include) && __has_include(<xpc/xpc.h>)
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// Is the Obj-C object a tagged pointer (i.e. isn't really a valid pointer and
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// contains data in the pointers bits instead)?
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static bool IsTaggedObjCPointer(void *obj) {
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const uptr kPossibleTaggedBits = 0x8000000000000001ull;
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return ((uptr)obj & kPossibleTaggedBits) != 0;
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}
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// Return an address on which we can synchronize (Acquire and Release) for a
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// Obj-C tagged pointer (which is not a valid pointer). Ideally should be a
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// derived address from 'obj', but for now just return the same global address.
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// TODO(kubamracek): Return different address for different pointers.
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static uptr SyncAddressForTaggedPointer(void *obj) {
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(void)obj;
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static u64 addr;
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return (uptr)&addr;
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}
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// Address on which we can synchronize for an Objective-C object. Supports
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// tagged pointers.
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static uptr SyncAddressForObjCObject(void *obj) {
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if (IsTaggedObjCPointer(obj)) return SyncAddressForTaggedPointer(obj);
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return (uptr)obj;
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}
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TSAN_INTERCEPTOR(int, objc_sync_enter, void *obj) {
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SCOPED_TSAN_INTERCEPTOR(objc_sync_enter, obj);
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int result = REAL(objc_sync_enter)(obj);
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if (obj) Acquire(thr, pc, SyncAddressForObjCObject(obj));
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return result;
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}
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TSAN_INTERCEPTOR(int, objc_sync_exit, void *obj) {
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SCOPED_TSAN_INTERCEPTOR(objc_sync_enter, obj);
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if (obj) Release(thr, pc, SyncAddressForObjCObject(obj));
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return REAL(objc_sync_exit)(obj);
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}
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// On macOS, libc++ is always linked dynamically, so intercepting works the
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// usual way.
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#define STDCXX_INTERCEPTOR TSAN_INTERCEPTOR
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namespace {
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struct fake_shared_weak_count {
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volatile a64 shared_owners;
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volatile a64 shared_weak_owners;
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virtual void _unused_0x0() = 0;
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virtual void _unused_0x8() = 0;
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virtual void on_zero_shared() = 0;
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virtual void _unused_0x18() = 0;
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virtual void on_zero_shared_weak() = 0;
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};
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} // namespace
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// The following code adds libc++ interceptors for:
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// void __shared_weak_count::__release_shared() _NOEXCEPT;
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// bool __shared_count::__release_shared() _NOEXCEPT;
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// Shared and weak pointers in C++ maintain reference counts via atomics in
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// libc++.dylib, which are TSan-invisible, and this leads to false positives in
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// destructor code. These interceptors re-implements the whole functions so that
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// the mo_acq_rel semantics of the atomic decrement are visible.
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//
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// Unfortunately, the interceptors cannot simply Acquire/Release some sync
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// object and call the original function, because it would have a race between
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// the sync and the destruction of the object. Calling both under a lock will
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// not work because the destructor can invoke this interceptor again (and even
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// in a different thread, so recursive locks don't help).
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STDCXX_INTERCEPTOR(void, _ZNSt3__119__shared_weak_count16__release_sharedEv,
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fake_shared_weak_count *o) {
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if (!flags()->shared_ptr_interceptor)
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return REAL(_ZNSt3__119__shared_weak_count16__release_sharedEv)(o);
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SCOPED_TSAN_INTERCEPTOR(_ZNSt3__119__shared_weak_count16__release_sharedEv,
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o);
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if (__tsan_atomic64_fetch_add(&o->shared_owners, -1, mo_release) == 0) {
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Acquire(thr, pc, (uptr)&o->shared_owners);
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o->on_zero_shared();
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if (__tsan_atomic64_fetch_add(&o->shared_weak_owners, -1, mo_release) ==
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0) {
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Acquire(thr, pc, (uptr)&o->shared_weak_owners);
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o->on_zero_shared_weak();
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}
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}
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}
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STDCXX_INTERCEPTOR(bool, _ZNSt3__114__shared_count16__release_sharedEv,
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fake_shared_weak_count *o) {
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if (!flags()->shared_ptr_interceptor)
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return REAL(_ZNSt3__114__shared_count16__release_sharedEv)(o);
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SCOPED_TSAN_INTERCEPTOR(_ZNSt3__114__shared_count16__release_sharedEv, o);
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if (__tsan_atomic64_fetch_add(&o->shared_owners, -1, mo_release) == 0) {
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Acquire(thr, pc, (uptr)&o->shared_owners);
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o->on_zero_shared();
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return true;
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}
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return false;
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}
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namespace {
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struct call_once_callback_args {
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void (*orig_func)(void *arg);
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void *orig_arg;
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void *flag;
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};
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void call_once_callback_wrapper(void *arg) {
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call_once_callback_args *new_args = (call_once_callback_args *)arg;
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new_args->orig_func(new_args->orig_arg);
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__tsan_release(new_args->flag);
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}
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} // namespace
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// This adds a libc++ interceptor for:
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// void __call_once(volatile unsigned long&, void*, void(*)(void*));
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// C++11 call_once is implemented via an internal function __call_once which is
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// inside libc++.dylib, and the atomic release store inside it is thus
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// TSan-invisible. To avoid false positives, this interceptor wraps the callback
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|
// function and performs an explicit Release after the user code has run.
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|
STDCXX_INTERCEPTOR(void, _ZNSt3__111__call_onceERVmPvPFvS2_E, void *flag,
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void *arg, void (*func)(void *arg)) {
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call_once_callback_args new_args = {func, arg, flag};
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REAL(_ZNSt3__111__call_onceERVmPvPFvS2_E)(flag, &new_args,
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|
call_once_callback_wrapper);
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|
}
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|
|
|
} // namespace __tsan
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|
|
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#endif // SANITIZER_MAC
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