mirror of
https://github.com/matrix-construct/construct
synced 2024-12-27 16:04:15 +01:00
172 lines
4.7 KiB
C++
172 lines
4.7 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_POOL_H
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namespace ircd::ctx
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{
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struct pool;
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const string_view &name(const pool &);
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void debug_stats(const pool &);
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}
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struct ircd::ctx::pool
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{
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struct opts;
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using closure = std::function<void ()>;
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static const string_view default_name;
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static const opts default_opts;
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string_view name {default_name};
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const opts *opt {&default_opts};
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size_t running {0};
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size_t working {0};
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dock q_max;
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queue<closure> q;
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std::vector<context> ctxs;
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void work();
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void main() noexcept;
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public:
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explicit operator const opts &() const;
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// indicators
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auto size() const { return ctxs.size(); }
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auto queued() const { return q.size(); }
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auto active() const { return working; }
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auto avail() const { return running - active(); }
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auto pending() const { return active() + queued(); }
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bool wouldblock() const;
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// dispatch to pool
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template<class F, class... A> future_void<F, A...> async(F&&, A&&...);
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template<class F, class... A> future_value<F, A...> async(F&&, A&&...);
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void operator()(closure);
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// control panel
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void add(const size_t & = 1);
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void del(const size_t & = 1);
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void set(const size_t &);
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void min(const size_t &);
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void terminate();
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void interrupt();
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void join();
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pool(const string_view &name = default_name,
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const opts & = default_opts);
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pool(pool &&) = delete;
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pool(const pool &) = delete;
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pool &operator=(pool &&) = delete;
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pool &operator=(const pool &) = delete;
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~pool() noexcept;
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friend const string_view &name(const pool &);
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friend void debug_stats(const pool &);
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};
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struct ircd::ctx::pool::opts
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{
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/// When the pool spawns a new context this will be the stack size it has.
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size_t stack_size { DEFAULT_STACK_SIZE };
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/// When the pool is constructed this will be how many contexts it spawns
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/// This value may be ignored for static duration instances.
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size_t initial_ctxs {0};
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/// Hard-limit for jobs queued. A submit to the pool over this limit throws
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/// an exception. Default is -1, effectively unlimited.
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ssize_t queue_max_hard {-1};
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/// Soft-limit for jobs queued. The behavior of the limit is configurable.
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/// The default is 0, meaning if there is no context available to service
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/// the request being submitted then the soft limit is immediately reached.
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/// See the specific behavior options following this.
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ssize_t queue_max_soft {0};
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/// Yield a context submitting to the pool if it will violate the soft
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/// limit. This is true by default. Note the default of 0 for the
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/// soft-limit itself combined with this: by default there is no queueing
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/// of jobs at all! This behavior purposely propagates flow control by
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/// slowing down the submitting context and prevents flooding the queue.
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/// This option has no effect if the submitter is not on any ircd::ctx.
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bool queue_max_blocking {true};
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/// Log a DWARNING (developer-warning level) when the soft limit is
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/// exceeded. The soft-limit is never actually exceeded when contexts
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/// are blocked from submitting (see: queue_max_blocking). This warning
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/// will still be seen for submissions outside any ircd::ctx.
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bool queue_max_dwarning {true};
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/// IO priority nice value for contexts in this pool.
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int8_t ionice {0};
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/// Scheduler priority nice value for contexts in this pool.
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int8_t nice {0};
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};
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template<class F,
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class... A>
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ircd::ctx::future_value<F, A...>
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ircd::ctx::pool::async(F&& f,
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A&&... a)
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{
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using R = typename std::result_of<F (A...)>::type;
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auto func
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{
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std::bind(std::forward<F>(f), std::forward<A>(a)...)
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};
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promise<R> p;
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future<R> ret{p};
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operator()([p(std::move(p)), func(std::move(func))]
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{
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p.set_value(func());
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});
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return ret;
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}
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template<class F,
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class... A>
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ircd::ctx::future_void<F, A...>
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ircd::ctx::pool::async(F&& f,
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A&&... a)
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{
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using R = typename std::result_of<F (A...)>::type;
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auto func
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{
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std::bind(std::forward<F>(f), std::forward<A>(a)...)
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};
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promise<R> p;
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future<R> ret{p};
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operator()([p(std::move(p)), func(std::move(func))]
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{
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func();
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p.set_value();
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});
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return ret;
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}
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inline ircd::ctx::pool::operator
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const opts &()
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const
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{
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assert(opt);
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return *opt;
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}
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