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rpcs3/Utilities/mutex.cpp

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#include "mutex.h"
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#include "util/asm.hpp"
void shared_mutex::imp_lock_shared(u32 val)
{
ensure(val < c_err); // "shared_mutex underflow"
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for (int i = 0; i < 10; i++)
{
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busy_wait();
if (try_lock_shared())
{
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return;
}
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}
// Acquire writer lock and downgrade
const u32 old = m_value.fetch_add(c_one);
if (old == 0)
{
lock_downgrade();
return;
}
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ensure((old % c_sig) + c_one < c_sig); // "shared_mutex overflow"
imp_wait();
lock_downgrade();
}
void shared_mutex::imp_unlock_shared(u32 old)
{
ensure(old - 1 < c_err); // "shared_mutex underflow"
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// Check reader count, notify the writer if necessary
if ((old - 1) % c_one == 0)
{
imp_signal();
}
}
void shared_mutex::imp_wait()
{
while (true)
{
const auto [old, ok] = m_value.fetch_op([](u32& value)
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{
if (value >= c_sig)
{
value -= c_sig;
return true;
}
return false;
});
if (ok)
{
break;
}
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m_value.wait(old, c_sig);
}
}
void shared_mutex::imp_signal()
{
m_value += c_sig;
m_value.notify_one(c_sig);
}
void shared_mutex::imp_lock(u32 val)
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{
ensure(val < c_err); // "shared_mutex underflow"
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for (int i = 0; i < 10; i++)
{
busy_wait();
if (!m_value && try_lock())
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{
return;
}
}
const u32 old = m_value.fetch_add(c_one);
if (old == 0)
{
return;
}
ensure((old % c_sig) + c_one < c_sig); // "shared_mutex overflow"
imp_wait();
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}
void shared_mutex::imp_unlock(u32 old)
{
ensure(old - c_one < c_err); // "shared_mutex underflow"
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// 1) Notify the next writer if necessary
// 2) Notify all readers otherwise if necessary (currently indistinguishable from writers)
if (old - c_one)
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{
imp_signal();
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}
}
void shared_mutex::imp_lock_upgrade()
{
for (int i = 0; i < 10; i++)
{
busy_wait();
if (try_lock_upgrade())
{
return;
}
}
// Convert to writer lock
const u32 old = m_value.fetch_add(c_one - 1);
ensure((old % c_sig) + c_one - 1 < c_sig); // "shared_mutex overflow"
if (old % c_one == 1)
{
return;
}
imp_wait();
}
void shared_mutex::imp_lock_unlock()
{
u32 _max = 1;
for (int i = 0; i < 30; i++)
{
const u32 val = m_value;
if (val % c_one == 0 && (val / c_one < _max || val >= c_sig))
{
// Return if have cought a state where:
// 1) Mutex is free
// 2) Total number of waiters decreased since last check
// 3) Signal bit is set (if used on the platform)
return;
}
_max = val / c_one;
busy_wait(1500);
}
// Lock and unlock
if (!m_value.fetch_add(c_one))
{
unlock();
return;
}
imp_wait();
unlock();
}