mirror of
https://github.com/matrix-construct/construct
synced 2024-10-31 10:58:54 +01:00
173 lines
4.1 KiB
C++
173 lines
4.1 KiB
C++
// Matrix Construct
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//
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// Copyright (C) Matrix Construct Developers, Authors & Contributors
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// Copyright (C) 2016-2018 Jason Volk <jason@zemos.net>
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//
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// Permission to use, copy, modify, and/or distribute this software for any
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// purpose with or without fee is hereby granted, provided that the above
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// copyright notice and this permission notice is present in all copies. The
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// full license for this software is available in the LICENSE file.
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#pragma once
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#define HAVE_IRCD_CTX_UPGRADE_LOCK_H
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namespace ircd::ctx
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{
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template<class mutex> struct upgrade_lock;
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}
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/// Upgrade a lock from a shared reader to become a unique writer. This is a
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/// two phase process. The first phase is the upgrade, which does not immediately
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/// interfere with the shared readers but only one upgrade can exist at a time.
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///
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/// The second phase is further upgrading the upgrade lock to a unique-lock
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/// which blocks out the readers from reacquiring their shared-locks. This lock
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/// then has exclusive access to the critical section.
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///
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/// Upon release of the second phase the readers can reacquire their
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/// shared-lock again. Upon release of the first phase another writer can
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/// acquire an upgrade-lock. Sometimes it is desirable to not release the first
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/// phase to ensure nothing is ABA'ed by another writer while allowing the
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/// readers to continue consuming.
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///
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template<class mutex>
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struct ircd::ctx::upgrade_lock
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{
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mutex *m {nullptr};
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bool owns_lock() const;
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void lock();
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bool try_lock();
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template<class duration> bool try_lock_for(duration&&);
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template<class time_point> bool try_lock_until(time_point&&);
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void unlock();
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mutex *release() noexcept;
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template<class r, class p> upgrade_lock(mutex &, const std::chrono::time_point<r, p> &);
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template<class r, class p> upgrade_lock(mutex &, const std::chrono::duration<r, p> &);
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upgrade_lock(mutex &, std::try_to_lock_t);
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upgrade_lock(mutex &, std::defer_lock_t);
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upgrade_lock(mutex &, std::adopt_lock_t);
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explicit upgrade_lock(mutex &);
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upgrade_lock() = default;
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upgrade_lock(upgrade_lock &&) noexcept;
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upgrade_lock(const upgrade_lock &) = delete;
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~upgrade_lock() noexcept;
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};
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namespace ircd
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{
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using ctx::upgrade_lock;
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}
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template<class mutex>
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ircd::ctx::upgrade_lock<mutex>::upgrade_lock(mutex &m)
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:m{&m}
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{
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lock();
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}
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template<class mutex>
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ircd::ctx::upgrade_lock<mutex>::upgrade_lock(mutex &m,
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std::defer_lock_t)
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:m{&m}
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{
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}
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template<class mutex>
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ircd::ctx::upgrade_lock<mutex>::upgrade_lock(mutex &m,
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std::adopt_lock_t)
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:m{&m}
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{
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if(!m->upgrade())
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lock();
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}
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template<class mutex>
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template<class rep,
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class period>
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ircd::ctx::upgrade_lock<mutex>::upgrade_lock(mutex &m,
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const std::chrono::duration<rep, period> &rel)
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:m{&m}
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{
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try_lock_for(rel);
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}
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template<class mutex>
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template<class rep,
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class period>
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ircd::ctx::upgrade_lock<mutex>::upgrade_lock(mutex &m,
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const std::chrono::time_point<rep, period> &abs)
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:m{&m}
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{
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try_lock_until(abs);
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}
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template<class mutex>
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ircd::ctx::upgrade_lock<mutex>::upgrade_lock(upgrade_lock &&other)
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noexcept
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:m{other.release()}
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{
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}
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template<class mutex>
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ircd::ctx::upgrade_lock<mutex>::~upgrade_lock()
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noexcept
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{
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if(owns_lock())
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unlock();
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}
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template<class mutex>
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mutex *
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ircd::ctx::upgrade_lock<mutex>::release()
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noexcept
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{
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mutex *const m{this->m};
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this->m = nullptr;
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return m;
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}
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template<class mutex>
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template<class time_point>
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bool
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ircd::ctx::upgrade_lock<mutex>::try_lock_until(time_point&& tp)
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{
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assert(m);
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return m->try_lock_upgrade_until(std::forward<time_point>(tp));
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}
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template<class mutex>
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template<class duration>
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bool
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ircd::ctx::upgrade_lock<mutex>::try_lock_for(duration&& d)
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{
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assert(m);
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return m->try_lock_upgrade_for(std::forward<duration>(d));
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}
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template<class mutex>
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bool
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ircd::ctx::upgrade_lock<mutex>::try_lock()
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{
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assert(m);
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return m->try_lock_upgrade();
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}
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template<class mutex>
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void
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ircd::ctx::upgrade_lock<mutex>::lock()
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{
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assert(m);
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m->lock_upgrade();
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}
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template<class mutex>
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bool
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ircd::ctx::upgrade_lock<mutex>::owns_lock()
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const
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{
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return m? m->upgrade() : false;
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}
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