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rpcs3/Utilities/mutex.cpp
Nekotekina 1c14d872a8 New shared_mutex
Experimental sync utils
New semaphore<>
New cond_variable
New owned_mutex
2017-01-25 00:38:07 +03:00

246 lines
4.8 KiB
C++

#include "mutex.h"
#include "sync.h"
#ifdef _WIN32
thread_local const u32 owned_mutex::g_tid = GetCurrentThreadId();
#elif __linux__
#include <sys/types.h>
thread_local const u32 owned_mutex::g_tid = syscall(SYS_gettid) + 1;
static_assert(sizeof(pid_t) == sizeof(u32), "Unexpected sizeof(pid_t)");
#else
#include <vector>
thread_local const u32 owned_mutex::g_tid = []() -> u32
{
static std::mutex g_tid_mutex;
static std::vector<bool> g_tid_map(1);
thread_local const struct tid_alloc
{
u32 id = 0;
tid_alloc()
{
std::lock_guard<std::mutex> lock(g_tid_mutex);
// Allocate
while (++id < g_tid_map.size())
{
if (!g_tid_map[id])
{
g_tid_map[id] = true;
return;
}
}
g_tid_map.push_back(true);
}
~tid_alloc()
{
std::lock_guard<std::mutex> lock(g_tid_mutex);
// Erase
g_tid_map[id] = false;
}
} g_tid;
return g_tid.id;
}();
#endif
void shared_mutex::imp_lock_shared(s64 _old)
{
verify("shared_mutex overflow" HERE), _old <= c_max;
// 1) Wait as a writer, notify the next writer
// 2) Wait as a reader, until the value > 0
lock();
_old = m_value.fetch_add(c_one - c_min);
if (_old)
{
imp_unlock(_old);
}
#ifdef _WIN32
if (_old + c_one - c_min < 0)
{
NtWaitForKeyedEvent(nullptr, (int*)&m_value + 1, false, nullptr);
}
#else
for (s64 value = m_value; value < 0; value = m_value)
{
if (futex((int*)&m_value.raw() + IS_LE_MACHINE, FUTEX_WAIT_PRIVATE, value >> 32, nullptr, nullptr, 0) == -1)
{
verify(HERE), errno == EAGAIN;
}
}
#endif
}
void shared_mutex::imp_unlock_shared(s64 _old)
{
verify("shared_mutex overflow" HERE), _old + c_min <= c_max;
// Check reader count, notify the writer if necessary (set c_sig)
if ((_old + c_min) % c_one == 0) // TODO
{
verify(HERE), !atomic_storage<s64>::bts(m_value.raw(), 0);
#ifdef _WIN32
NtReleaseKeyedEvent(nullptr, &m_value, false, nullptr);
#else
verify(HERE), futex((int*)&m_value.raw() + IS_BE_MACHINE, FUTEX_WAKE_PRIVATE, 1, nullptr, nullptr, 0) >= 0;
#endif
}
}
void shared_mutex::imp_lock(s64 _old)
{
verify("shared_mutex overflow" HERE), _old <= c_max;
#ifdef _WIN32
NtWaitForKeyedEvent(nullptr, &m_value, false, nullptr);
verify(HERE), atomic_storage<s64>::btr(m_value.raw(), 0);
#else
for (s64 value = m_value; (m_value & c_sig) == 0 || !atomic_storage<s64>::btr(m_value.raw(), 0); value = m_value)
{
if (futex((int*)&m_value.raw() + IS_BE_MACHINE, FUTEX_WAIT_PRIVATE, value, nullptr, nullptr, 0) == -1)
{
verify(HERE), errno == EAGAIN;
}
}
#endif
}
void shared_mutex::imp_unlock(s64 _old)
{
verify("shared_mutex overflow" HERE), _old + c_one <= c_max;
// 1) Notify the next writer if necessary (set c_sig)
// 2) Notify all readers otherwise if necessary
if (_old + c_one <= 0)
{
verify(HERE), !atomic_storage<s64>::bts(m_value.raw(), 0);
#ifdef _WIN32
NtReleaseKeyedEvent(nullptr, &m_value, false, nullptr);
#else
verify(HERE), futex((int*)&m_value.raw() + IS_BE_MACHINE, FUTEX_WAKE_PRIVATE, 1, nullptr, nullptr, 0) >= 0;
#endif
}
else if (s64 count = -_old / c_min)
{
#ifdef _WIN32
while (count--)
{
NtReleaseKeyedEvent(nullptr, (int*)&m_value + 1, false, nullptr);
}
#else
verify(HERE), futex((int*)&m_value.raw() + IS_LE_MACHINE, FUTEX_WAKE_PRIVATE, INT_MAX, nullptr, nullptr, 0) >= 0;
#endif
}
}
void shared_mutex::imp_lock_upgrade()
{
unlock_shared();
lock();
}
void shared_mutex::imp_lock_degrade()
{
unlock();
lock_shared();
}
bool shared_mutex::try_lock_shared()
{
// Conditional decrement
return m_value.fetch_op([](s64& value) { if (value >= c_min) value -= c_min; }) >= c_min;
}
bool shared_mutex::try_lock()
{
// Conditional decrement (TODO: obtain c_sig)
return m_value.compare_and_swap_test(c_one, 0);
}
bool shared_mutex::try_lock_upgrade()
{
// TODO
return m_value.compare_and_swap_test(c_one - c_min, 0);
}
bool shared_mutex::try_lock_degrade()
{
// TODO
return m_value.compare_and_swap_test(0, c_one - c_min);
}
bool owned_mutex::lock() noexcept
{
if (m_value && m_owner == g_tid)
{
return false;
}
#ifdef _WIN32
if (m_value++)
{
NtWaitForKeyedEvent(nullptr, &m_value, false, nullptr);
}
m_owner.store(g_tid);
#else
u32 _last = ++m_value;
if (_last == 1 && m_owner.compare_and_swap_test(0, g_tid))
{
return true;
}
while (!m_owner.compare_and_swap_test(0, g_tid))
{
if (futex((int*)&m_value.raw(), FUTEX_WAIT_PRIVATE, _last, nullptr, nullptr, 0))
{
_last = m_value.load();
}
}
#endif
return true;
}
bool owned_mutex::try_lock() noexcept
{
if (m_value || !m_value.compare_and_swap_test(0, 1))
{
return false;
}
m_owner.store(g_tid);
return true;
}
bool owned_mutex::unlock() noexcept
{
if (UNLIKELY(m_owner != g_tid))
{
return false;
}
m_owner.store(0);
if (--m_value)
{
#ifdef _WIN32
NtReleaseKeyedEvent(nullptr, &m_value, false, nullptr);
#else
futex((int*)&m_value.raw(), FUTEX_WAKE_PRIVATE, 1, nullptr, nullptr, 0);
#endif
}
return true;
}