mirror of
https://github.com/matrix-construct/construct
synced 2024-12-29 08:54:02 +01:00
504 lines
13 KiB
C++
504 lines
13 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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namespace ircd
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{
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std::string _origin; // user's supplied param
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std::string _servername; // user's supplied param
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ctx::ctx *main_context; // Main program loop
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static void main() noexcept;
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}
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decltype(ircd::soft_assert)
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ircd::soft_assert
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{
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{ "name", "ircd.soft_assert" },
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{ "default", false },
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{ "persist", false },
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};
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decltype(ircd::write_avoid)
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ircd::write_avoid
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{
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{ "name", "ircd.write_avoid" },
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{ "default", false },
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{ "persist", false },
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};
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decltype(ircd::read_only)
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ircd::read_only
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{
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{ "name", "ircd.read_only" },
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{ "default", false },
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{ "persist", false },
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};
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decltype(ircd::debugmode)
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ircd::debugmode
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{
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{ "name", "ircd.debugmode" },
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{ "default", false },
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{ "persist", false },
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};
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decltype(ircd::restart)
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ircd::restart
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{
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{ "name", "ircd.restart" },
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{ "default", false },
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{ "persist", false },
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};
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/// Sets up the IRCd and its main context, then returns without blocking.
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//
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/// Pass your io_context instance, it will share it with the rest of your program.
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/// An exception will be thrown on error.
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///
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/// This function will setup the main program loop of libircd. The execution will
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/// occur when your io_context.run() or poll() is further invoked.
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///
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/// init() can only be called from a run::level::HALT state
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void
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ircd::init(boost::asio::io_context &user_ios,
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const string_view &origin,
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const string_view &servername)
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try
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{
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// This function must only be called from a HALT state.
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if(run::level != run::level::HALT)
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throw error
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{
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"Cannot init() IRCd from runlevel %s", reflect(run::level)
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};
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// Check that the supplied origin string is properly formatted.
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if(!rfc3986::valid_remote(std::nothrow, origin))
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throw user_error
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{
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"The 'origin' argument \"%s\" is not a valid hostname.", origin
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};
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// Check that the supplied servername string is properly formatted.
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if(!rfc3986::valid_remote(std::nothrow, servername))
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throw user_error
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{
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"The 'servername' argument \"%s\" is not a valid hostname.", servername
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};
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// Save the params used for m::init later.
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_origin = std::string{origin};
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_servername = std::string{servername};
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// Setup the core event loop system starting with the user's supplied ios.
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ios::init(user_ios);
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// The log is available. but it is console-only until conf opens files.
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log::init();
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log::mark("DEADSTART"); // 6600
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// This starts off the log with library information.
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info::dump();
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// Setup the main context, which is a new stack executing the function
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// ircd::main(). The main_context is the first ircd::ctx to be spawned
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// and will be the last to finish.
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//
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// The context::POST will delay this spawn until the next io_context
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// event slice, so no context switch will occur here. Note that POST has
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// to be used here because: A. This init() function is executing on the
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// main stack, and context switches can only occur between context stacks,
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// not between contexts and the main stack. B. The user's io_context may or
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// may not even be running yet anyway.
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//
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// (debug compilation) The context::SLICE_EXEMPT flag exempts the context
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// from assertions that it's not blocking the process with excessive CPU
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// usage or long syscall. Main context can't meet this requirement.
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//
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context main_context
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{
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"main", 256_KiB, &ircd::main, context::POST | context::SLICE_EXEMPT
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};
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// The default behavior for ircd::context is to join the ctx on dtor. We
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// can't have that here because this is strictly an asynchronous function
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// on the main stack. Under normal circumstances, the mc will be entered
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// and be able to delete this pointer itself when it finishes. Otherwise
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// this must be manually deleted with assurance that mc will never enter.
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ircd::main_context = main_context.detach();
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// Finally, without prior exception, the commitment to run::level::READY
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// is made here. The user can now invoke their ios.run(), or, if they
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// have already, IRCd will begin main execution shortly...
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run::set(run::level::READY);
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}
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catch(const std::exception &e)
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{
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throw;
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}
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/// Notifies IRCd to shutdown. A shutdown will occur asynchronously and this
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/// function will return immediately. A runlevel change to HALT will be
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/// indicated when IRCd has no more work for the ios. When the HALT state
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/// is observed the user is free to destruct all resources related to libircd.
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///
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/// This function is the proper way to shutdown libircd after an init(), and while
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/// your io_context.run() is invoked without stopping your io_context shared by
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/// other activities unrelated to libircd. If your io_context has no other activities
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/// the run() will then return immediately after IRCd posts its transition to
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/// the HALT state.
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///
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bool
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ircd::quit()
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noexcept
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{
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log::debug
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{
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"IRCd quit requested from runlevel:%s ctx:%p main_context:%p",
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reflect(run::level),
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(const void *)ctx::current,
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(const void *)main_context
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};
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if(main_context) switch(run::level)
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{
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case run::level::READY:
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{
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ctx::terminate(*main_context);
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main_context = nullptr;
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ircd::run::set(run::level::HALT);
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return true;
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}
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case run::level::START:
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{
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ctx::terminate(*main_context);
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main_context = nullptr;
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ircd::run::set(run::level::QUIT);
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return true;
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}
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case run::level::RUN:
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{
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ctx::notify(*main_context);
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main_context = nullptr;
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return true;
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}
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case run::level::HALT:
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case run::level::QUIT:
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case run::level::FAULT:
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return false;
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}
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return false;
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}
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/// Notifies IRCd that execution is being resumed after a significant gap.
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/// Basically this is connected to a SIGCONT handler and beneficial after
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/// user stops, debugging and ACPI suspensions, etc. It is not required at
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/// this time, but its connection is advised for best behavior.
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void
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ircd::cont()
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noexcept
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{
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log::debug
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{
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"IRCd cont requested from runlevel:%s ctx:%p main_context:%p",
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reflect(run::level),
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(const void *)ctx::current,
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(const void *)main_context
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};
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switch(run::level)
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{
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case run::level::HALT:
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case run::level::READY:
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case run::level::FAULT:
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return;
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case run::level::START:
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case run::level::QUIT:
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return;
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case run::level::RUN:
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break;
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}
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log::notice
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{
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"IRCd resuming service in runlevel:%s.",
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reflect(run::level),
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};
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}
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/// Main context; Main program. Do not call this function directly.
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///
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/// This function manages the lifetime for all resources and subsystems
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/// that don't/can't have their own static initialization. When this
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/// function is entered, subsystem init objects are constructed on the
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/// frame. The lifetime of those objects is the handle to the lifetime
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/// of the subsystem, so destruction will shut down that subsystem.
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///
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/// The status of this function and IRCd overall can be observed through
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/// the ircd::runlevel. The ircd::run::changed callback can be set
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/// to be notified on a runlevel change. The user should wait for a runlevel
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/// of HALT before destroying IRCd related resources and stopping their
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/// io_context from running more jobs.
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///
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void
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ircd::main()
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noexcept try
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{
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// Resamples the thread this context was executed on which should be where
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// the user ran ios.run(). The user may have invoked ios.run() on multiple
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// threads, but we consider this one thread a main thread for now...
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ircd::ios::main_thread_id = std::this_thread::get_id();
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// When this function completes without exception, subsystems are done shutting down and IRCd
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// transitions to HALT.
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const unwind::defer halted{[]
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{
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run::set(run::level::HALT);
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}};
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// When this function is entered IRCd will transition to START indicating
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// that subsystems are initializing.
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run::set(run::level::START);
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// These objects are the init()'s and fini()'s for each subsystem.
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// Appearing here ties their life to the main context. Initialization can
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// also occur in ircd::init() or static initialization itself if either are
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// more appropriate.
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prof::init _prof_; // Profiling related
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fs::init _fs_; // Local filesystem
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magic::init _magic_; // libmagic
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ctx::ole::init _ole_; // Thread OffLoad Engine
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nacl::init _nacl_; // nacl crypto
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openssl::init _ossl_; // openssl crypto
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net::init _net_; // Networking
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db::init _db_; // RocksDB
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server::init _server_; // Server related
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client::init _client_; // Client related
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js::init _js_; // SpiderMonkey
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m::init _matrix_ // Matrix
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{
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string_view{_origin},
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string_view{_servername}
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};
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// Any deinits which have to be done with all subsystems intact
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const unwind shutdown{[&]
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{
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_matrix_.close();
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server::interrupt_all();
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client::terminate_all();
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client::close_all();
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server::close_all();
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server::wait_all();
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client::wait_all();
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}};
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// IRCd will now transition to the RUN state indicating full functionality.
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run::set(run::level::RUN);
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// This call blocks until the main context is notified or interrupted etc.
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// Waiting here will hold open this stack with all of the above objects
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// living on it.
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run::changed::dock.wait([]
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{
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return !main_context;
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});
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ircd::run::set(run::level::QUIT);
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}
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catch(const http::error &e) // <-- m::error
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{
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log::critical
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{
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"IRCd main :%s %s", e.what(), e.content
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};
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}
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catch(const std::exception &e)
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{
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log::critical
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{
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"IRCd main :%s", e.what()
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};
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}
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catch(const ctx::terminated &)
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{
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return;
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}
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catch(...)
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{
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log::critical
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{
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"IRCd main error."
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};
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}
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/// IRCd uptime in seconds
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ircd::seconds
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ircd::uptime()
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{
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return seconds(ircd::time() - info::startup_time);
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}
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///////////////////////////////////////////////////////////////////////////////
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//
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// ircd/run.h
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//
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namespace ircd::run
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{
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static enum level _level;
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}
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decltype(ircd::run::level)
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ircd::run::level
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{
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_level
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};
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//
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// run::changed
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//
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template<>
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decltype(ircd::run::changed::allocator)
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ircd::util::instance_list<ircd::run::changed>::allocator
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{};
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template<>
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decltype(ircd::run::changed::list)
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ircd::util::instance_list<ircd::run::changed>::list
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{
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allocator
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};
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decltype(ircd::run::changed::dock)
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ircd::run::changed::dock;
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//
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// run::changed::changed
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//
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ircd::run::changed::changed(handler function)
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:handler
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{
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std::move(function)
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}
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{
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}
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ircd::run::changed::~changed()
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noexcept
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{
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}
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/// The notification will be posted to the io_context. This is important to
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/// prevent the callback from continuing execution on some ircd::ctx stack and
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/// instead invoke their function on the main stack in their own io_context
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/// event slice.
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bool
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ircd::run::set(const enum level &new_level)
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try
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{
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if(level == new_level)
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return false;
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log::debug
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{
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"IRCd level transition from '%s' to '%s' (notifying %zu)",
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reflect(level),
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reflect(new_level),
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changed::list.size()
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};
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_level = new_level;
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changed::dock.notify_all();
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// This latch is used to block this call when setting the level
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// from an ircd::ctx. If the level is set from the main stack then
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// the caller will have to do synchronization themselves.
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ctx::latch latch
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{
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bool(ctx::current) // latch has count of 1 if we're on an ircd::ctx
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};
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// This function will notify the user of the change to IRCd. When there
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// are listeners, function is posted to the io_context ensuring THERE IS
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// NO CONTINUATION ON THIS STACK by the user.
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const auto call_users{[new_level, &latch, latching(!latch.is_ready())]
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{
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assert(new_level == run::level);
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log::notice
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{
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"IRCd %s", reflect(new_level)
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};
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if(new_level == level::HALT)
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log::fini();
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else
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log::flush();
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for(const auto &handler : changed::list)
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(*handler)(new_level);
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if(latching)
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latch.count_down();
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}};
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static ios::descriptor descriptor
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{
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"ircd::run::set"
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};
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if(changed::list.size() && ctx::current)
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ircd::post(descriptor, call_users);
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else
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call_users();
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if(ctx::current)
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latch.wait();
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return true;
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}
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catch(const std::exception &e)
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{
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log::critical
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{
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"IRCd level change to '%s': %s",
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reflect(new_level),
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e.what()
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};
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ircd::terminate();
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return false;
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}
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ircd::string_view
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ircd::run::reflect(const enum run::level &level)
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{
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switch(level)
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{
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case level::HALT: return "HALT";
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case level::READY: return "READY";
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case level::START: return "START";
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case level::RUN: return "RUN";
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case level::QUIT: return "QUIT";
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case level::FAULT: return "FAULT";
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}
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return "??????";
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}
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