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rpcs3/Utilities/cond.cpp

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#include "cond.h"
#include "sync.h"
2017-04-16 03:31:58 +02:00
#include <limits.h>
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#ifndef _WIN32
#include <thread>
#endif
bool cond_variable::imp_wait(u32 _old, u64 _timeout) noexcept
{
verify("cond_variable overflow" HERE), (_old & 0xffff) == 0; // Very unlikely: it requires 65535 distinct threads to wait simultaneously
return balanced_wait_until(m_value, _timeout, [&](u32& value, auto... ret) -> int
{
if (value >> 16)
{
// Success
value -= 0x10001;
return +1;
}
if constexpr (sizeof...(ret))
{
// Retire
value -= 1;
return -1;
}
return 0;
});
#ifdef _WIN32
if (_old >= 0x10000 && !OptWaitOnAddress && m_value)
{
// Workaround possibly stolen signal
imp_wake(1);
}
#endif
}
void cond_variable::imp_wake(u32 _count) noexcept
{
balanced_awaken(m_value, m_value.atomic_op([&](u32& value) -> u32
{
// Subtract already signaled number from total amount of waiters
const u32 can_sig = (value & 0xffff) - (value >> 16);
const u32 num_sig = std::min<u32>(can_sig, _count);
value += num_sig << 16;
return num_sig;
}));
}
bool notifier::imp_try_lock(u32 count)
{
return m_counter.atomic_op([&](u32& value)
{
if ((value % (max_readers + 1)) + count <= max_readers)
{
value += count;
return true;
}
return false;
});
}
void notifier::imp_unlock(u32 count)
{
const u32 counter = m_counter.sub_fetch(count);
if (UNLIKELY(counter % (max_readers + 1)))
{
return;
}
if (counter)
{
const u32 _old = m_counter.atomic_op([](u32& value) -> u32
{
if (value % (max_readers + 1))
{
return 0;
}
return std::exchange(value, 0) / (max_readers + 1);
});
const u32 wc = m_cond.m_value;
if (_old && wc)
{
m_cond.imp_wake(_old > wc ? wc : _old);
}
}
}
u32 notifier::imp_notify(u32 count)
{
return m_counter.atomic_op([&](u32& value) -> u32
{
if (const u32 add = value % (max_readers + 1))
{
// Mutex is locked
const u32 result = add > count ? count : add;
value += result * (max_readers + 1);
return result;
}
else
{
// Mutex is unlocked
value = 0;
return count;
}
});
}
bool notifier::wait(u64 usec_timeout)
{
const u32 _old = m_cond.m_value.fetch_add(1);
if (max_readers < m_counter.fetch_op([](u32& value)
{
if (value > max_readers)
{
value -= max_readers;
}
value -= 1;
}))
{
// Return without waiting
m_cond.imp_wait(_old, 0);
return true;
}
const bool res = m_cond.imp_wait(_old, usec_timeout);
while (!try_lock_shared())
{
// TODO
busy_wait();
}
return res;
}
bool cond_one::imp_wait(u64 _timeout) noexcept
{
// State transition: c_sig -> c_lock \ c_lock -> c_wait
const u32 _old = m_value.fetch_sub(1);
if (LIKELY(_old == c_sig))
return true;
return balanced_wait_until(m_value, _timeout, [&](u32& value, auto... ret) -> int
{
if (value == c_sig)
{
value = c_lock;
return +1;
}
if constexpr (sizeof...(ret))
{
value = c_lock;
return -1;
}
return 0;
});
}
void cond_one::imp_notify() noexcept
{
auto [old, ok] = m_value.fetch_op([](u32& v)
{
if (UNLIKELY(v > 0 && v < c_sig))
{
v = c_sig;
return true;
}
return false;
});
verify(HERE), old <= c_sig;
if (LIKELY(!ok || old == c_lock))
{
return;
}
balanced_awaken(m_value, 1);
}
bool cond_x16::imp_wait(u32 slot, u64 _timeout) noexcept
{
const u32 wait_bit = c_wait << slot;
const u32 lock_bit = c_lock << slot;
// Change state from c_lock to c_wait
const u32 old_ = m_cvx16.fetch_op([=](u32& cvx16)
{
if (cvx16 & wait_bit)
{
// c_sig -> c_lock
cvx16 &= ~wait_bit;
}
else
{
cvx16 |= wait_bit;
cvx16 &= ~lock_bit;
}
});
if (old_ & wait_bit)
{
// Already signaled, return without waiting
return true;
}
return balanced_wait_until(m_cvx16, _timeout, [&](u32& cvx16, auto... ret) -> int
{
if (cvx16 & lock_bit)
{
// c_sig -> c_lock
cvx16 &= ~wait_bit;
return +1;
}
if constexpr (sizeof...(ret))
{
// Retire
cvx16 |= lock_bit;
cvx16 &= ~wait_bit;
return -1;
}
return 0;
});
}
void cond_x16::imp_notify() noexcept
{
auto [old, ok] = m_cvx16.fetch_op([](u32& v)
{
const u32 lock_mask = v >> 16;
const u32 wait_mask = v & 0xffff;
if (const u32 sig_mask = lock_mask ^ wait_mask)
{
v |= sig_mask | sig_mask << 16;
return true;
}
return false;
});
// Determine if some waiters need a syscall notification
const u32 wait_mask = old & (~old >> 16);
if (UNLIKELY(!ok || !wait_mask))
{
return;
}
balanced_awaken(m_cvx16, utils::popcnt16(wait_mask));
}