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76288e1c5d
Merged revision: 1c2e5fd66ea27d0c51360ba4e22099124a915562
236 lines
5.9 KiB
C++
236 lines
5.9 KiB
C++
//===-- tsan_defs.h ---------------------------------------------*- C++ -*-===//
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//
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// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
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// See https://llvm.org/LICENSE.txt for license information.
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// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
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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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//===----------------------------------------------------------------------===//
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#ifndef TSAN_DEFS_H
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#define TSAN_DEFS_H
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#include "sanitizer_common/sanitizer_internal_defs.h"
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#include "sanitizer_common/sanitizer_libc.h"
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#include "sanitizer_common/sanitizer_mutex.h"
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#include "ubsan/ubsan_platform.h"
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#ifndef TSAN_VECTORIZE
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# define TSAN_VECTORIZE __SSE4_2__
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#endif
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#if TSAN_VECTORIZE
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// <emmintrin.h> transitively includes <stdlib.h>,
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// and it's prohibited to include std headers into tsan runtime.
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// So we do this dirty trick.
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# define _MM_MALLOC_H_INCLUDED
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# define __MM_MALLOC_H
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# include <emmintrin.h>
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# include <smmintrin.h>
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# define VECTOR_ALIGNED ALIGNED(16)
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typedef __m128i m128;
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#else
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# define VECTOR_ALIGNED
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#endif
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// Setup defaults for compile definitions.
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#ifndef TSAN_NO_HISTORY
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# define TSAN_NO_HISTORY 0
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#endif
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#ifndef TSAN_CONTAINS_UBSAN
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# if CAN_SANITIZE_UB && !SANITIZER_GO
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# define TSAN_CONTAINS_UBSAN 1
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# else
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# define TSAN_CONTAINS_UBSAN 0
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# endif
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#endif
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namespace __tsan {
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constexpr uptr kByteBits = 8;
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// Thread slot ID.
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enum class Sid : u8 {};
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constexpr uptr kThreadSlotCount = 256;
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constexpr Sid kFreeSid = static_cast<Sid>(255);
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// Abstract time unit, vector clock element.
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enum class Epoch : u16 {};
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constexpr uptr kEpochBits = 14;
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constexpr Epoch kEpochZero = static_cast<Epoch>(0);
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constexpr Epoch kEpochOver = static_cast<Epoch>(1 << kEpochBits);
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const int kClkBits = 42;
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const unsigned kMaxTidReuse = (1 << (64 - kClkBits)) - 1;
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struct ClockElem {
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u64 epoch : kClkBits;
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u64 reused : 64 - kClkBits; // tid reuse count
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};
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struct ClockBlock {
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static const uptr kSize = 512;
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static const uptr kTableSize = kSize / sizeof(u32);
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static const uptr kClockCount = kSize / sizeof(ClockElem);
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static const uptr kRefIdx = kTableSize - 1;
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static const uptr kBlockIdx = kTableSize - 2;
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union {
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u32 table[kTableSize];
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ClockElem clock[kClockCount];
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};
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ClockBlock() {
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}
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};
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const int kTidBits = 13;
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// Reduce kMaxTid by kClockCount because one slot in ClockBlock table is
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// occupied by reference counter, so total number of elements we can store
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// in SyncClock is kClockCount * (kTableSize - 1).
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const unsigned kMaxTid = (1 << kTidBits) - ClockBlock::kClockCount;
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#if !SANITIZER_GO
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const unsigned kMaxTidInClock = kMaxTid * 2; // This includes msb 'freed' bit.
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#else
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const unsigned kMaxTidInClock = kMaxTid; // Go does not track freed memory.
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#endif
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const uptr kShadowStackSize = 64 * 1024;
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// Count of shadow values in a shadow cell.
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const uptr kShadowCnt = 4;
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// That many user bytes are mapped onto a single shadow cell.
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const uptr kShadowCell = 8;
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// Single shadow value.
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typedef u64 RawShadow;
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const uptr kShadowSize = sizeof(RawShadow);
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// Shadow memory is kShadowMultiplier times larger than user memory.
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const uptr kShadowMultiplier = kShadowSize * kShadowCnt / kShadowCell;
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// That many user bytes are mapped onto a single meta shadow cell.
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// Must be less or equal to minimal memory allocator alignment.
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const uptr kMetaShadowCell = 8;
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// Size of a single meta shadow value (u32).
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const uptr kMetaShadowSize = 4;
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// All addresses and PCs are assumed to be compressable to that many bits.
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const uptr kCompressedAddrBits = 44;
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#if TSAN_NO_HISTORY
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const bool kCollectHistory = false;
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#else
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const bool kCollectHistory = true;
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#endif
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// The following "build consistency" machinery ensures that all source files
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// are built in the same configuration. Inconsistent builds lead to
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// hard to debug crashes.
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#if SANITIZER_DEBUG
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void build_consistency_debug();
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#else
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void build_consistency_release();
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#endif
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static inline void USED build_consistency() {
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#if SANITIZER_DEBUG
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build_consistency_debug();
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#else
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build_consistency_release();
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#endif
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}
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template<typename T>
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T min(T a, T b) {
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return a < b ? a : b;
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}
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template<typename T>
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T max(T a, T b) {
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return a > b ? a : b;
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}
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template<typename T>
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T RoundUp(T p, u64 align) {
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DCHECK_EQ(align & (align - 1), 0);
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return (T)(((u64)p + align - 1) & ~(align - 1));
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}
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template<typename T>
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T RoundDown(T p, u64 align) {
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DCHECK_EQ(align & (align - 1), 0);
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return (T)((u64)p & ~(align - 1));
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}
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// Zeroizes high part, returns 'bits' lsb bits.
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template<typename T>
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T GetLsb(T v, int bits) {
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return (T)((u64)v & ((1ull << bits) - 1));
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}
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struct MD5Hash {
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u64 hash[2];
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bool operator==(const MD5Hash &other) const;
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};
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MD5Hash md5_hash(const void *data, uptr size);
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struct Processor;
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struct ThreadState;
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class ThreadContext;
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struct Context;
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struct ReportStack;
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class ReportDesc;
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class RegionAlloc;
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typedef uptr AccessType;
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enum : AccessType {
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kAccessWrite = 0,
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kAccessRead = 1 << 0,
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kAccessAtomic = 1 << 1,
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kAccessVptr = 1 << 2, // read or write of an object virtual table pointer
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kAccessFree = 1 << 3, // synthetic memory access during memory freeing
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kAccessExternalPC = 1 << 4, // access PC can have kExternalPCBit set
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};
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// Descriptor of user's memory block.
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struct MBlock {
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u64 siz : 48;
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u64 tag : 16;
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StackID stk;
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Tid tid;
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};
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COMPILER_CHECK(sizeof(MBlock) == 16);
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enum ExternalTag : uptr {
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kExternalTagNone = 0,
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kExternalTagSwiftModifyingAccess = 1,
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kExternalTagFirstUserAvailable = 2,
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kExternalTagMax = 1024,
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// Don't set kExternalTagMax over 65,536, since MBlock only stores tags
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// as 16-bit values, see tsan_defs.h.
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};
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enum MutexType {
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MutexTypeTrace = MutexLastCommon,
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MutexTypeReport,
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MutexTypeSyncVar,
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MutexTypeAnnotations,
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MutexTypeAtExit,
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MutexTypeFired,
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MutexTypeRacy,
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MutexTypeGlobalProc,
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};
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} // namespace __tsan
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#endif // TSAN_DEFS_H
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