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construct/include/ircd/m/hook.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_M_HOOK_H
/// Hooks allow dynamic functionality to be invoked as a result of an event
/// matching some criteria. Hooks are comprised of two interfacing components:
/// the hook function (callee) and the hook site (caller); these components
/// link and delink to each other during initialization. This hook system is
/// oriented around the m::event structure; every hook function has an m::event
/// as its first argument. An optional second argument can be specified with
/// the template to convey additional payload and options.
///
/// Hook functions and hook sites are constructed out of json::members (pairs
/// of json::value in an initializer list). We refer to this as the "feature."
/// Each member with a name directly corresponding to an m::event property is
/// a match parameter. The hook function is not called if a matching parameter
/// is specified in the feature, but the event input at the hook::site does not
/// match it. Undefined features match everything.
///
/// One can create a hook pair anywhere, simply create a m::hook::site with a
/// feature `{ "name", "myname" }` and a hook::hook with a similar feature
/// `{ "_site", "myname" }` matching the site's name; these objects must have
/// matching templates.
///
namespace ircd::m::hook
{
IRCD_EXCEPTION(ircd::error, error)
struct base;
struct maps;
template<class data = void> struct hook;
template<class data = void> struct site;
template<> struct hook<void>;
template<> struct site<void>;
}
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namespace ircd::m
{
template<class data = void> using hookfn = m::hook::hook<data>;
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}
/// Non-template base class for all hook functions. This is the handler
/// (or callee) component of the hook
///
struct ircd::m::hook::base
:instance_list<base>
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{
struct site;
json::strung _feature;
json::object feature;
m::event matching;
bool registered {false};
size_t matchers {0};
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size_t calls {0};
size_t calling {0};
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public:
uint id() const;
site *find_site() const;
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string_view site_name() const;
protected:
base(const json::members &);
base(base &&) = delete;
base(const base &) = delete;
virtual ~base() noexcept;
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};
/// Non-template base class for all hook sites (dispatcher/caller component)
///
struct ircd::m::hook::base::site
:instance_list<site>
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{
json::strung _feature;
json::object feature;
size_t count {0};
std::unique_ptr<struct maps> maps;
std::set<base *> hooks;
size_t matchers {0};
bool exceptions {true};
bool interrupts {true};
size_t calls {0};
size_t calling {0};
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public:
uint id() const;
string_view name() const;
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protected:
friend class base;
bool add(base &);
bool del(base &);
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void match(const event &, const std::function<bool (base &)> &);
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site(const json::members &);
site(site &&) = delete;
site(const site &) = delete;
virtual ~site() noexcept;
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};
/// Hook function with no payload; only an m::event argument
template<>
struct ircd::m::hook::hook<void>
final
:base
{
std::function<void (const m::event &)> function;
public:
hook(const json::members &feature, decltype(function) function);
hook(decltype(function) function, const json::members &feature);
};
/// Hook site for functions with no payload.
template<>
struct ircd::m::hook::site<void>
final
:base::site
{
void call(hook<void> &, const event &);
public:
void operator()(base **const &, const event &);
void operator()(const event &);
site(const json::members &feature);
};
/// Hook function with a template class as the payload
template<class data_type>
struct ircd::m::hook::hook
:base
{
std::function<void (const m::event &, data_type)> function;
public:
hook(const json::members &feature, decltype(function) function)
:base{feature}
,function{std::move(function)}
{}
hook(decltype(function) function, const json::members &feature)
:base{feature}
,function{std::move(function)}
{}
};
/// Hook site for functions with a template class as the payload
template<class data_type>
struct ircd::m::hook::site
:base::site
{
void call(hook<data_type> &hfn, const event &event, data_type d);
public:
void operator()(base **const &, const event &event, data_type d);
void operator()(const event &event, data_type d);
site(const json::members &feature)
:base::site{feature}
{}
};
template<class data>
void
ircd::m::hook::site<data>::operator()(const event &event,
data d)
{
base *cur {nullptr};
operator()(&cur, event, std::forward<data>(d));
}
template<class data>
void
ircd::m::hook::site<data>::operator()(base **const &cur,
const event &event,
data d)
{
const ctx::uninterruptible::nothrow ui
{
!interrupts
};
// Iterate all matching hooks
match(event, [this, &cur, &event, &d]
(base &base)
{
// Indicate which hook we're entering
const scope_restore entered
{
*cur, std::addressof(base)
};
auto &hfn
{
dynamic_cast<hook<data> &>(base)
};
call(hfn, event, d);
return true;
});
}
template<class data>
void
ircd::m::hook::site<data>::call(hook<data> &hfn,
const event &event,
data d)
try
{
// stats for site
++calls;
const scope_count site_calling
{
calling
};
// stats for hook
++hfn.calls;
const scope_count hook_calling
{
hfn.calling
};
// call hook
hfn.function(event, d);
}
catch(const ctx::interrupted &e)
{
if(exceptions && interrupts)
throw;
log::logf
{
log, interrupts? log::DERROR: log::ERROR,
"site:%u hook:%u %s error :%s",
id(),
hfn.id(),
string_view{hfn.feature},
e.what(),
};
}
catch(const std::exception &e)
{
if(exceptions)
throw;
log::critical
{
log, "Unhandled site:%u hook:%u %s error :%s",
id(),
hfn.id(),
string_view{hfn.feature},
e.what(),
};
}