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rpcs3/Utilities/mutex.h
Nekotekina cf13dee1f3 Prioritize vip_lock in shared_mutex
Should fix some deadlock issues.
2019-10-06 16:03:38 +03:00

330 lines
6.2 KiB
C++

#pragma once
#include <mutex>
#include "types.h"
#include "util/atomic.hpp"
// Shared mutex with small size (u32).
class shared_mutex final
{
enum : u32
{
c_one = 1u << 14, // Fixed-point 1.0 value (one writer, max_readers = c_one - 1)
c_sig = 1u << 30,
c_err = 1u << 31,
c_vip = 1u << 7,
};
atomic_t<u32> m_value{};
void imp_lock_shared(u32 val);
void imp_unlock_shared(u32 old);
void imp_lock_low(u32 val);
void imp_unlock_low(u32 old);
void imp_lock_vip(u32 val);
void imp_unlock_vip(u32 old);
void imp_wait();
void imp_signal();
void imp_lock(u32 val);
void imp_unlock(u32 old);
void imp_lock_upgrade();
void imp_lock_unlock();
public:
constexpr shared_mutex() = default;
bool try_lock_shared()
{
const u32 value = m_value.load();
// Conditional increment
return value < c_one - 1 && m_value.compare_and_swap_test(value, value + 1);
}
void lock_shared()
{
const u32 value = m_value.load();
if (UNLIKELY(value >= c_one - 1 || !m_value.compare_and_swap_test(value, value + 1)))
{
imp_lock_shared(value);
}
}
void lock_shared_hle()
{
const u32 value = m_value.load();
if (LIKELY(value < c_one - 1))
{
u32 old = value;
if (LIKELY(atomic_storage<u32>::compare_exchange_hle_acq(m_value.raw(), old, value + 1)))
{
return;
}
}
imp_lock_shared(value);
}
void unlock_shared()
{
// Unconditional decrement (can result in broken state)
const u32 value = m_value.fetch_sub(1);
if (UNLIKELY(value >= c_one))
{
imp_unlock_shared(value);
}
}
void unlock_shared_hle()
{
const u32 value = atomic_storage<u32>::fetch_add_hle_rel(m_value.raw(), -1);
if (UNLIKELY(value >= c_one))
{
imp_unlock_shared(value);
}
}
bool try_lock_low()
{
const u32 value = m_value.load();
// Conditional increment
return value < c_vip - 1 && m_value.compare_and_swap_test(value, value + 1);
}
void lock_low()
{
const u32 value = m_value.load();
if (UNLIKELY(value >= c_vip - 1 || !m_value.compare_and_swap_test(value, value + 1)))
{
imp_lock_low(value);
}
}
void unlock_low()
{
// Unconditional decrement (can result in broken state)
const u32 value = m_value.fetch_sub(1);
if (UNLIKELY(value >= c_one))
{
imp_unlock_low(value);
}
}
bool try_lock_vip()
{
const u32 value = m_value.load();
// Conditional increment
return (value < c_one - 1 || value & (c_one - c_vip)) && (value % c_vip) == 0 && m_value.compare_and_swap_test(value, value + c_vip);
}
void lock_vip()
{
const u32 value = m_value.load();
if (UNLIKELY((value >= c_one - 1 && !(value & (c_one - c_vip))) || (value % c_vip) || !m_value.compare_and_swap_test(value, value + c_vip)))
{
imp_lock_vip(value);
}
}
void unlock_vip()
{
// Unconditional decrement (can result in broken state)
const u32 value = m_value.fetch_sub(c_vip);
if (UNLIKELY(value >= c_one))
{
imp_unlock_vip(value);
}
}
bool try_lock()
{
return m_value.compare_and_swap_test(0, c_one);
}
void lock()
{
const u32 value = m_value.compare_and_swap(0, c_one);
if (UNLIKELY(value))
{
imp_lock(value);
}
}
void lock_hle()
{
u32 value = 0;
if (UNLIKELY(!atomic_storage<u32>::compare_exchange_hle_acq(m_value.raw(), value, c_one)))
{
imp_lock(value);
}
}
void unlock()
{
// Unconditional decrement (can result in broken state)
const u32 value = m_value.fetch_sub(c_one);
if (UNLIKELY(value != c_one))
{
imp_unlock(value);
}
}
void unlock_hle()
{
const u32 value = atomic_storage<u32>::fetch_add_hle_rel(m_value.raw(), 0u - c_one);
if (UNLIKELY(value != c_one))
{
imp_unlock(value);
}
}
bool try_lock_upgrade()
{
const u32 value = m_value.load();
// Conditional increment, try to convert a single reader into a writer, ignoring other writers
return (value + c_one - 1) % c_one == 0 && m_value.compare_and_swap_test(value, value + c_one - 1);
}
void lock_upgrade()
{
if (UNLIKELY(!try_lock_upgrade()))
{
imp_lock_upgrade();
}
}
void lock_downgrade()
{
// Convert to reader lock (can result in broken state)
m_value -= c_one - 1;
}
void lock_downgrade_to_vip()
{
// Convert to vip lock (can result in broken state)
m_value -= c_one - c_vip;
}
// Optimized wait for lockability without locking, relaxed
void lock_unlock()
{
if (UNLIKELY(m_value != 0))
{
imp_lock_unlock();
}
}
// Check whether can immediately obtain an exclusive (writer) lock
bool is_free() const
{
return m_value.load() == 0;
}
// Check whether can immediately obtain a shared (reader) lock
bool is_lockable() const
{
return m_value.load() < c_one - 1;
}
// Special purpose logic
bool downgrade_unique_vip_lock_to_low_or_unlock();
};
// Simplified shared (reader) lock implementation. Mutually incompatible with low_lock and vip_lock.
class reader_lock final
{
shared_mutex& m_mutex;
bool m_upgraded = false;
public:
reader_lock(const reader_lock&) = delete;
reader_lock& operator=(const reader_lock&) = delete;
explicit reader_lock(shared_mutex& mutex)
: m_mutex(mutex)
{
m_mutex.lock_shared();
}
// One-way lock upgrade; note that the observed state could have been changed
void upgrade()
{
if (!m_upgraded)
{
m_mutex.lock_upgrade();
m_upgraded = true;
}
}
// Try to upgrade; if it succeeds, the observed state has NOT been changed
bool try_upgrade()
{
return m_upgraded || (m_upgraded = m_mutex.try_lock_upgrade());
}
~reader_lock()
{
m_upgraded ? m_mutex.unlock() : m_mutex.unlock_shared();
}
};
// Special shared (reader) lock, mutually exclusive with vip locks. Mutually incompatible with normal shared (reader) lock.
class low_lock final
{
shared_mutex& m_mutex;
public:
low_lock(const low_lock&) = delete;
low_lock& operator=(const low_lock&) = delete;
explicit low_lock(shared_mutex& mutex)
: m_mutex(mutex)
{
m_mutex.lock_low();
}
~low_lock()
{
m_mutex.unlock_low();
}
};
// Special shared (reader) lock, mutually exclusive with low locks. Mutually incompatible with normal shared (reader) lock.
class vip_lock final
{
shared_mutex& m_mutex;
public:
vip_lock(const vip_lock&) = delete;
vip_lock& operator=(const vip_lock&) = delete;
explicit vip_lock(shared_mutex& mutex)
: m_mutex(mutex)
{
m_mutex.lock_vip();
}
~vip_lock()
{
m_mutex.unlock_vip();
}
};