/* * Copyright (c) 2018-2020, Andreas Kling * * SPDX-License-Identifier: BSD-2-Clause */ #pragma once #include #include #include #include #include #include #include namespace Kernel { class Lock { AK_MAKE_NONCOPYABLE(Lock); AK_MAKE_NONMOVABLE(Lock); public: using Mode = LockMode; Lock(const char* name = nullptr) : m_name(name) { } ~Lock() = default; #if LOCK_DEBUG void lock(Mode mode = Mode::Exclusive, const SourceLocation& location = SourceLocation::current()); void restore_lock(Mode, u32, const SourceLocation& location = SourceLocation::current()); #else void lock(Mode = Mode::Exclusive); void restore_lock(Mode, u32); #endif void unlock(); [[nodiscard]] Mode force_unlock_if_locked(u32&); [[nodiscard]] bool is_locked() const { return m_mode != Mode::Unlocked; } void clear_waiters(); [[nodiscard]] const char* name() const { return m_name; } static const char* mode_to_string(Mode mode) { switch (mode) { case Mode::Unlocked: return "unlocked"; case Mode::Exclusive: return "exclusive"; case Mode::Shared: return "shared"; default: return "invalid"; } } private: Atomic m_lock { false }; const char* m_name { nullptr }; WaitQueue m_queue; Atomic m_mode { Mode::Unlocked }; // When locked exclusively, only the thread already holding the lock can // lock it again. When locked in shared mode, any thread can do that. u32 m_times_locked { 0 }; // One of the threads that hold this lock, or nullptr. When locked in shared // mode, this is stored on best effort basis: nullptr value does *not* mean // the lock is unlocked, it just means we don't know which threads hold it. // When locked exclusively, this is always the one thread that holds the // lock. RefPtr m_holder; HashMap m_shared_holders; }; class Locker { public: #if LOCK_DEBUG ALWAYS_INLINE explicit Locker(Lock& l, Lock::Mode mode = Lock::Mode::Exclusive, const SourceLocation& location = SourceLocation::current()) #else ALWAYS_INLINE explicit Locker(Lock& l, Lock::Mode mode = Lock::Mode::Exclusive) #endif : m_lock(l) { #if LOCK_DEBUG m_lock.lock(mode, location); #else m_lock.lock(mode); #endif } ALWAYS_INLINE ~Locker() { if (m_locked) unlock(); } ALWAYS_INLINE void unlock() { VERIFY(m_locked); m_locked = false; m_lock.unlock(); } #if LOCK_DEBUG ALWAYS_INLINE void lock(Lock::Mode mode = Lock::Mode::Exclusive, const SourceLocation& location = SourceLocation::current()) #else ALWAYS_INLINE void lock(Lock::Mode mode = Lock::Mode::Exclusive) #endif { VERIFY(!m_locked); m_locked = true; #if LOCK_DEBUG m_lock.lock(mode, location); #else m_lock.lock(mode); #endif } Lock& get_lock() { return m_lock; } const Lock& get_lock() const { return m_lock; } private: Lock& m_lock; bool m_locked { true }; }; template class Lockable { public: Lockable() = default; Lockable(T&& resource) : m_resource(move(resource)) { } [[nodiscard]] Lock& lock() { return m_lock; } [[nodiscard]] T& resource() { return m_resource; } [[nodiscard]] T lock_and_copy() { Locker locker(m_lock); return m_resource; } private: T m_resource; Lock m_lock; }; class ScopedLockRelease { AK_MAKE_NONCOPYABLE(ScopedLockRelease); public: ScopedLockRelease& operator=(ScopedLockRelease&&) = delete; ScopedLockRelease(Lock& lock) : m_lock(&lock) , m_previous_mode(lock.force_unlock_if_locked(m_previous_recursions)) { } ScopedLockRelease(ScopedLockRelease&& from) : m_lock(exchange(from.m_lock, nullptr)) , m_previous_mode(exchange(from.m_previous_mode, Lock::Mode::Unlocked)) , m_previous_recursions(exchange(from.m_previous_recursions, 0)) { } ~ScopedLockRelease() { if (m_lock && m_previous_mode != Lock::Mode::Unlocked) m_lock->restore_lock(m_previous_mode, m_previous_recursions); } void restore_lock() { VERIFY(m_lock); if (m_previous_mode != Lock::Mode::Unlocked) { m_lock->restore_lock(m_previous_mode, m_previous_recursions); m_previous_mode = Lock::Mode::Unlocked; m_previous_recursions = 0; } } void do_not_restore() { VERIFY(m_lock); m_previous_mode = Lock::Mode::Unlocked; m_previous_recursions = 0; } private: Lock* m_lock; Lock::Mode m_previous_mode; u32 m_previous_recursions; }; }