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rpcs3/Utilities/SharedMutex.cpp

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#include "SharedMutex.h"
#include <mutex>
#include <condition_variable>
struct shared_mutex::internal
{
std::mutex mutex;
std::size_t rq_size{}; // Reader queue size (threads waiting on m_rcv)
std::size_t wq_size{}; // Writer queue size (threads waiting on m_wcv and m_ocv)
std::condition_variable rcv; // Reader queue
std::condition_variable wcv; // Writer queue
std::condition_variable ocv; // For current exclusive owner
};
void shared_mutex::lock_shared_hard()
{
initialize_once();
std::unique_lock<std::mutex> lock(m_data->mutex);
// Validate
if ((m_ctrl & SM_INVALID_BIT) != 0) throw std::runtime_error("shared_mutex::lock_shared(): Invalid bit");
if ((m_ctrl & SM_READER_MASK) == 0) throw std::runtime_error("shared_mutex::lock_shared(): No readers");
// Notify non-zero reader queue size
m_ctrl |= SM_WAITERS_BIT, m_data->rq_size++;
// Fix excess reader count
if ((--m_ctrl & SM_READER_MASK) == 0 && m_data->wq_size)
{
// Notify exclusive owner
m_data->ocv.notify_one();
}
// Obtain the reader lock
while (true)
{
const auto ctrl = m_ctrl.load();
// Check writers and reader limit
if (m_data->wq_size || (ctrl & ~SM_WAITERS_BIT) >= SM_READER_MAX)
{
m_data->rcv.wait(lock);
continue;
}
if (m_ctrl.compare_and_swap_test(ctrl, ctrl + 1))
{
break;
}
}
if (!--m_data->rq_size && !m_data->wq_size)
{
m_ctrl &= ~SM_WAITERS_BIT;
}
}
void shared_mutex::unlock_shared_notify()
{
initialize_once();
std::unique_lock<std::mutex> lock(m_data->mutex);
if ((m_ctrl & SM_READER_MASK) == 0 && m_data->wq_size)
{
// Notify exclusive owner
lock.unlock();
m_data->ocv.notify_one();
}
else if (m_data->rq_size)
{
// Notify other readers
lock.unlock();
m_data->rcv.notify_one();
}
}
void shared_mutex::lock_hard()
{
initialize_once();
std::unique_lock<std::mutex> lock(m_data->mutex);
// Validate
if ((m_ctrl & SM_INVALID_BIT) != 0) throw std::runtime_error("shared_mutex::lock(): Invalid bit");
// Notify non-zero writer queue size
m_ctrl |= SM_WAITERS_BIT, m_data->wq_size++;
// Obtain the writer lock
while (true)
{
const auto ctrl = m_ctrl.load();
if (ctrl & SM_WRITER_LOCK)
{
m_data->wcv.wait(lock);
continue;
}
if (m_ctrl.compare_and_swap_test(ctrl, ctrl | SM_WRITER_LOCK))
{
break;
}
}
// Wait for remaining readers
while ((m_ctrl & SM_READER_MASK) != 0)
{
m_data->ocv.wait(lock);
}
if (!--m_data->wq_size && !m_data->rq_size)
{
m_ctrl &= ~SM_WAITERS_BIT;
}
}
void shared_mutex::unlock_notify()
{
initialize_once();
std::unique_lock<std::mutex> lock(m_data->mutex);
if (m_data->wq_size)
{
// Notify next exclusive owner
lock.unlock();
m_data->wcv.notify_one();
}
else if (m_data->rq_size)
{
// Notify all readers
lock.unlock();
m_data->rcv.notify_all();
}
}
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void shared_mutex::lock_upgrade_hard()
{
unlock_shared();
lock();
}
void shared_mutex::lock_degrade_hard()
{
initialize_once();
std::unique_lock<std::mutex> lock(m_data->mutex);
m_ctrl -= SM_WRITER_LOCK - 1;
if (m_data->rq_size)
{
// Notify all readers
lock.unlock();
m_data->rcv.notify_all();
}
else if (m_data->wq_size)
{
// Notify next exclusive owner
lock.unlock();
m_data->wcv.notify_one();
}
}
void shared_mutex::initialize_once()
{
if (UNLIKELY(!m_data))
{
auto ptr = new shared_mutex::internal;
if (!m_data.compare_and_swap_test(nullptr, ptr))
{
delete ptr;
}
}
}
shared_mutex::~shared_mutex()
{
delete m_data;
}