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construct/include/ircd/conf.h

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// Matrix Construct
//
// Copyright (C) Matrix Construct Developers, Authors & Contributors
// Copyright (C) 2016-2018 Jason Volk <jason@zemos.net>
//
// Permission to use, copy, modify, and/or distribute this software for any
// purpose with or without fee is hereby granted, provided that the above
// copyright notice and this permission notice is present in all copies. The
// full license for this software is available in the LICENSE file.
#pragma once
#define HAVE_IRCD_CONF_H
/// Configuration system.
///
/// This system disseminates mutable runtime values throughout IRCd. All users
/// that integrate a configurable value will create a [static] conf::item<>
/// instantiated with one of the explicit types available; also a name and
/// default value.
///
/// All conf::items are collected by this system. Users that administrate
/// configuration will push values to the conf::item's. The various items have
/// O(1) access to the value contained in their item instance. Administrators
/// have logarithmic access through this interface using the items map by name.
///
/// All conf::items can be controlled by environmental variables at program
/// startup. The name of the conf::item in the environment uses underscore
/// '_' rather than '.' and the environment takes precedence over both defaults
/// and databased values. This means you can set a conf through an env var
/// to override a broken value.
///
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namespace ircd::conf
{
template<class T = void> struct item; // doesn't exist
template<> struct item<void>; // base class of all conf items
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template<> struct item<std::string>;
template<> struct item<bool>;
template<> struct item<uint64_t>;
template<> struct item<int64_t>;
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template<> struct item<uint32_t>;
template<> struct item<int32_t>;
template<> struct item<float>;
template<> struct item<double>;
template<> struct item<hours>;
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template<> struct item<seconds>;
template<> struct item<milliseconds>;
template<> struct item<microseconds>;
template<class T> struct value; // abstraction for carrying item value
template<class T> struct lex_castable; // abstraction for lex_cast compatible
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IRCD_EXCEPTION(ircd::error, error)
IRCD_EXCEPTION(error, not_found)
IRCD_EXCEPTION(error, bad_value)
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using set_cb = std::function<void ()>;
extern std::map<string_view, item<> *> items;
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extern callbacks<void (item<> &)> on_init;
bool exists(const string_view &key);
bool persists(const string_view &key);
string_view get(const string_view &key, const mutable_buffer &out);
std::string get(const string_view &key);
bool set(const string_view &key, const string_view &value);
bool set(std::nothrow_t, const string_view &key, const string_view &value);
bool fault(std::nothrow_t, const string_view &key) noexcept;
void fault(const string_view &key);
bool reset(std::nothrow_t, const string_view &key);
bool reset(const string_view &key);
size_t reset();
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}
/// Conf item base class. You don't create this directly; use one of the
/// derived templates instead.
template<>
struct ircd::conf::item<void>
{
static const size_t NAME_MAX_LEN;
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json::strung feature_;
json::object feature;
string_view name;
conf::set_cb set_cb;
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protected:
virtual string_view on_get(const mutable_buffer &) const;
virtual bool on_set(const string_view &);
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void call_init();
public:
virtual size_t size() const = 0;
string_view get(const mutable_buffer &) const;
std::string get() const;
bool set(const string_view &);
void fault() noexcept;
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item(const json::members &, conf::set_cb);
item(item &&) = delete;
item(const item &) = delete;
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virtual ~item() noexcept;
};
/// Conf item value abstraction. If possible, the conf item will also
/// inherit from this template to deduplicate functionality between
/// conf items which contain similar classes of values.
template<class T>
struct ircd::conf::value
{
using value_type = T;
T _value;
operator const T &() const noexcept
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{
return _value;
}
template<class... A>
value(A&&... a)
:_value(std::forward<A>(a)...)
{}
};
template<class T>
struct ircd::conf::lex_castable
:conf::item<>
,conf::value<T>
{
string_view on_get(const mutable_buffer &out) const override
{
return lex_cast(this->_value, out);
}
bool on_set(const string_view &s) override
{
this->_value = lex_cast<T>(s);
return true;
}
size_t size() const override
{
return LEX_CAST_BUFSIZE;
}
lex_castable(const json::members &members,
conf::set_cb set_cb = {})
:conf::item<>
{
members, std::move(set_cb)
}
,conf::value<T>
(
feature.get("default", T(0))
)
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{
call_init();
}
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};
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template<>
struct ircd::conf::item<std::string>
:conf::item<>
,conf::value<std::string>
{
explicit operator const std::string &() const
{
return _value;
}
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operator string_view() const
{
return _value;
}
string_view on_get(const mutable_buffer &out) const override;
bool on_set(const string_view &s) override;
size_t size() const override;
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item(const json::members &members, conf::set_cb set_cb = {});
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};
template<>
struct ircd::conf::item<bool>
:conf::item<>
,conf::value<bool>
{
bool operator!() const
{
return !static_cast<const bool &>(*this);
}
string_view on_get(const mutable_buffer &out) const override;
bool on_set(const string_view &s) override;
size_t size() const override;
item(const json::members &members, conf::set_cb set_cb = {});
};
template<>
struct ircd::conf::item<uint64_t>
:lex_castable<uint64_t>
{
using lex_castable::lex_castable;
};
template<>
struct ircd::conf::item<int64_t>
:lex_castable<int64_t>
{
using lex_castable::lex_castable;
};
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template<>
struct ircd::conf::item<uint32_t>
:lex_castable<uint32_t>
{
using lex_castable::lex_castable;
};
template<>
struct ircd::conf::item<int32_t>
:lex_castable<int32_t>
{
using lex_castable::lex_castable;
};
template<>
struct ircd::conf::item<double>
:lex_castable<double>
{
using lex_castable::lex_castable;
};
template<>
struct ircd::conf::item<float>
:lex_castable<float>
{
using lex_castable::lex_castable;
};
template<>
struct ircd::conf::item<ircd::hours>
:lex_castable<ircd::hours>
{
using lex_castable::lex_castable;
};
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template<>
struct ircd::conf::item<ircd::seconds>
:lex_castable<ircd::seconds>
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{
using lex_castable::lex_castable;
};
template<>
struct ircd::conf::item<ircd::milliseconds>
:lex_castable<ircd::milliseconds>
{
using lex_castable::lex_castable;
};
template<>
struct ircd::conf::item<ircd::microseconds>
:lex_castable<ircd::microseconds>
{
using lex_castable::lex_castable;
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};