compiler-rt/test/tsan/custom_mutex.h - llvm-project - Git at Google

 #include "test.h"
 #include <atomic>
 #include <vector>
 #include <sanitizer/tsan_interface.h>

 // A very primitive mutex annotated with tsan annotations.
 class Mutex {
  public:
   Mutex(bool prof, unsigned create_flags, unsigned destroy_flags=0)
       : prof_(prof)
       , locked_(false)
       , seq_(0)
       , destroy_flags_(destroy_flags) {
     __tsan_mutex_create(this, create_flags);
   }

   ~Mutex() {
     __tsan_mutex_destroy(this, destroy_flags_);
   }

   void Lock() {
     __tsan_mutex_pre_lock(this, 0);
     LockImpl();
     __tsan_mutex_post_lock(this, 0, 0);
   }

   bool TryLock() {
     __tsan_mutex_pre_lock(this, __tsan_mutex_try_lock);
     bool ok = TryLockImpl();
     __tsan_mutex_post_lock(this, __tsan_mutex_try_lock |
         (ok ? 0 : __tsan_mutex_try_lock_failed), 0);
     return ok;
   }

   void Unlock() {
     __tsan_mutex_pre_unlock(this, 0);
     UnlockImpl();
     __tsan_mutex_post_unlock(this, 0);
   }

   void Wait() {
     for (int seq = seq_; seq == seq_;) {
       Unlock();
       usleep(100);
       Lock();
     }
   }

   void Broadcast() {
     __tsan_mutex_pre_signal(this, 0);
     LockImpl(false);
     seq_++;
     UnlockImpl();
     __tsan_mutex_post_signal(this, 0);
   }

  private:
   const bool prof_;
   std::atomic<bool> locked_;
   int seq_;
   unsigned destroy_flags_;

   // This models mutex profiling subsystem.
   static Mutex prof_mu_;
   static int prof_data_;

   void LockImpl(bool prof = true) {
     while (!TryLockImpl())
       usleep(100);
     if (prof && prof_)
       Prof();
   }

   bool TryLockImpl() {
     return !locked_.exchange(true);
   }

   void UnlockImpl() {
     locked_.store(false);
   }

   void Prof() {
       // This happens inside of mutex lock annotations.
       __tsan_mutex_pre_divert(this, 0);
       prof_mu_.Lock();
       prof_data_++;
       prof_mu_.Unlock();
       __tsan_mutex_post_divert(this, 0);
   }
 };

 Mutex Mutex::prof_mu_(false, __tsan_mutex_linker_init);
 int Mutex::prof_data_;
	#include "test.h"
	#include <atomic>
	#include <vector>
	#include <sanitizer/tsan_interface.h>

	// A very primitive mutex annotated with tsan annotations.
	class Mutex {
	public:
	Mutex(bool prof, unsigned create_flags, unsigned destroy_flags=0)
	: prof_(prof)
	, locked_(false)
	, seq_(0)
	, destroy_flags_(destroy_flags) {
	__tsan_mutex_create(this, create_flags);
	}

	~Mutex() {
	__tsan_mutex_destroy(this, destroy_flags_);
	}

	void Lock() {
	__tsan_mutex_pre_lock(this, 0);
	LockImpl();
	__tsan_mutex_post_lock(this, 0, 0);
	}

	bool TryLock() {
	__tsan_mutex_pre_lock(this, __tsan_mutex_try_lock);
	bool ok = TryLockImpl();
	__tsan_mutex_post_lock(this, __tsan_mutex_try_lock \|
	(ok ? 0 : __tsan_mutex_try_lock_failed), 0);
	return ok;
	}

	void Unlock() {
	__tsan_mutex_pre_unlock(this, 0);
	UnlockImpl();
	__tsan_mutex_post_unlock(this, 0);
	}

	void Wait() {
	for (int seq = seq_; seq == seq_;) {
	Unlock();
	usleep(100);
	Lock();
	}
	}

	void Broadcast() {
	__tsan_mutex_pre_signal(this, 0);
	LockImpl(false);
	seq_++;
	UnlockImpl();
	__tsan_mutex_post_signal(this, 0);
	}

	private:
	const bool prof_;
	std::atomic<bool> locked_;
	int seq_;
	unsigned destroy_flags_;

	// This models mutex profiling subsystem.
	static Mutex prof_mu_;
	static int prof_data_;

	void LockImpl(bool prof = true) {
	while (!TryLockImpl())
	usleep(100);
	if (prof && prof_)
	Prof();
	}

	bool TryLockImpl() {
	return !locked_.exchange(true);
	}

	void UnlockImpl() {
	locked_.store(false);
	}

	void Prof() {
	// This happens inside of mutex lock annotations.
	__tsan_mutex_pre_divert(this, 0);
	prof_mu_.Lock();
	prof_data_++;
	prof_mu_.Unlock();
	__tsan_mutex_post_divert(this, 0);
	}
	};

	Mutex Mutex::prof_mu_(false, __tsan_mutex_linker_init);
	int Mutex::prof_data_;