#pragma once #include #include #include #define memory_barrier() asm volatile ("" ::: "memory") static inline dword CAS(volatile dword* mem, dword newval, dword oldval) { dword ret; asm volatile( "cmpxchgl %2, %1" :"=a"(ret), "+m"(*mem) :"r"(newval), "0"(oldval) :"cc", "memory"); return ret; } class GLock { public: GLock() { } ~GLock() { } void lock(); void unlock(); private: volatile dword m_lock { 0 }; dword m_level { 0 }; int m_holder { -1 }; }; class GLocker { public: [[gnu::always_inline]] inline explicit GLocker(GLock& l) : m_lock(l) { lock(); } [[gnu::always_inline]] inline ~GLocker() { unlock(); } [[gnu::always_inline]] inline void unlock() { m_lock.unlock(); } [[gnu::always_inline]] inline void lock() { m_lock.lock(); } private: GLock& m_lock; }; [[gnu::always_inline]] inline void GLock::lock() { for (;;) { if (CAS(&m_lock, 1, 0) == 0) { if (m_holder == -1 || m_holder == gettid()) { m_holder = gettid(); ++m_level; memory_barrier(); m_lock = 0; return; } m_lock = 0; } donate(m_holder); } } inline void GLock::unlock() { for (;;) { if (CAS(&m_lock, 1, 0) == 0) { ASSERT(m_holder == gettid()); ASSERT(m_level); --m_level; if (m_level) { memory_barrier(); m_lock = 0; return; } m_holder = -1; memory_barrier(); m_lock = 0; return; } donate(m_holder); } } #define LOCKER(lock) GLocker locker(lock) template class GLockable { public: GLockable() { } GLockable(T&& resource) : m_resource(move(resource)) { } GLock& lock() { return m_lock; } T& resource() { return m_resource; } T lock_and_copy() { LOCKER(m_lock); return m_resource; } private: T m_resource; GLock m_lock; };