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construct/ircd/m.cc

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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.
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decltype(ircd::m::log)
ircd::m::log
{
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"m", 'm'
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};
//
// init
//
ircd::conf::item<std::string>
me_online_status_msg
{
{ "name", "ircd.me.online.status_msg" },
{ "default", "Wanna chat? IRCd at your service!" }
};
ircd::conf::item<std::string>
me_offline_status_msg
{
{ "name", "ircd.me.offline.status_msg" },
{ "default", "Catch ya on the flip side..." }
};
//
// init::init
//
ircd::m::init::init(const string_view &origin,
const string_view &servername)
try
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:_self
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{
origin, servername
}
,_dbs
{
self::servername, std::string{}
}
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,_modules
{
std::make_unique<modules>()
}
{
if(!ircd::write_avoid && vm::sequence::retired != 0)
presence::set(me, "online", me_online_status_msg);
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}
catch(const m::error &e)
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{
log::error
{
log, "Failed to start matrix (%u) %s :%s :%s",
uint(e.code),
http::status(e.code),
e.errcode(),
e.errstr(),
};
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throw;
}
catch(const std::exception &e)
{
log::error
{
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log, "Failed to start matrix :%s", e.what()
};
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throw;
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}
ircd::m::init::~init()
noexcept try
{
if(m::sync::pool.size())
m::sync::pool.join();
if(!std::uncaught_exceptions() && !ircd::write_avoid)
presence::set(me, "offline", me_offline_status_msg);
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}
catch(const m::error &e)
{
log::critical
{
log, "%s %s", e.what(), e.content
};
ircd::terminate();
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}
void
ircd::m::init::close()
{
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mods::imports.erase("m_listen"s);
}
//
// init::modules
//
namespace ircd::m
{
extern const std::vector<string_view> module_names;
extern const std::vector<string_view> module_names_optional;
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}
ircd::m::init::modules::modules()
{
const unwind::exceptional unload{[this]
{
this->fini_imports();
}};
init_imports();
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}
ircd::m::init::modules::~modules()
noexcept
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{
fini_imports();
}
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void
ircd::m::init::modules::init_imports()
{
if(!bool(ircd::mods::autoload))
{
log::warning
{
"Not loading modules because noautomod flag is set. "
"You may still load modules manually."
};
return;
}
for(const auto &name : module_names) try
{
mods::imports.emplace(name, name);
}
catch(...)
{
const auto &optional(module_names_optional);
if(std::count(begin(optional), end(optional), name))
continue;
throw;
}
if(vm::sequence::retired == 0)
{
log::notice
{
log, "This appears to be your first time running IRCd because the events "
"database is empty. I will be bootstrapping it with initial events now..."
};
const module m_init_bootstrap
{
"m_init_bootstrap"
};
const mods::import<void ()> bootstrap
{
m_init_bootstrap, "ircd::m::init::bootstrap"
};
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bootstrap();
}
}
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void
ircd::m::init::modules::fini_imports()
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noexcept
{
for(auto it(module_names.rbegin()); it != module_names.rend(); ++it)
mods::imports.erase(*it);
}
/// This is an ordered list for loading and unloading modules. This is not the
/// solution I really want at all so consider it temporary. Modules are loaded
/// in the order of the lines and unloaded in reverse order.
decltype(ircd::m::module_names)
ircd::m::module_names
{
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"m_noop",
"m_node",
"m_keys",
"m_event",
"m_fetch",
"m_feds",
"m_user",
"m_user_filter",
"m_user_rooms",
"m_user_mitsein",
"m_user_servers",
"m_user_events",
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"m_user_highlight",
"m_user_profile",
"m_user_account_data",
"m_user_room_account_data",
"m_user_room_tags",
"m_room",
"m_room_events",
"m_room_auth",
"m_room_head",
"m_room_aliases",
"m_room_canonical_alias",
"m_room_create",
"m_room_history_visibility",
"m_room_join_rules",
"m_room_member",
"m_room_name",
"m_room_third_party_invite",
"m_room_message",
"m_room_power_levels",
"m_room_server_acl",
"m_room_redaction",
"m_room_bootstrap",
"m_room_join",
"m_room_leave",
"m_events",
"m_rooms",
"m_rooms_summary",
"m_users",
"m_presence",
"m_receipt",
"m_typing",
"m_device_list_update",
"m_device",
"m_direct",
"m_direct_to_device",
"m_breadcrumb_rooms",
"m_ignored_user_list",
"m_event_append",
"m_command",
"m_control",
"conf",
"net_dns",
"key_query",
"key_server",
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"identity_pubkey",
"identity_v1",
"federation_backfill_ids",
"federation_backfill",
"federation_event_auth",
"federation_event",
"federation_get_groups_publicised",
"federation_get_missing_events",
"federation_invite",
"federation_invite2",
"federation_make_join",
"federation_make_leave",
"federation_publicrooms",
"federation_query_auth",
"federation_query",
"federation_sender",
"federation_send_join",
"federation_send_leave",
"federation_send",
"federation_state_ids",
"federation_state",
"federation_user_devices",
"federation_user_keys_claim",
"federation_user_keys_query",
"federation_version",
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"client_user",
"client_rooms",
"client_createroom",
"client_join",
"client_account",
"client_profile",
"client_notifications",
"client_devices",
"client_delete_devices",
"client_send_to_device",
"client_keys_changes",
"client_keys_upload",
"client_keys_claim",
"client_keys_query",
"client_presence",
"client_joined_groups",
"client_publicised_groups",
"client_login",
"client_logout",
"client_register_available",
"client_register_email",
"client_register",
"client_directory_list_appservice",
"client_directory_list_room",
"client_directory_room",
"client_directory_user",
"client_publicrooms",
"client_search",
"client_pushers",
"client_pushrules",
"client_events",
"client_initialsync",
"client_sync",
"client_sync_account_data",
"client_sync_device_lists",
"client_sync_device_one_time_keys_count",
"client_sync_presence",
"client_sync_to_device",
"client_sync_rooms_account_data",
"client_sync_rooms_ephemeral_receipt",
"client_sync_rooms_ephemeral",
"client_sync_rooms_ephemeral_typing",
"client_sync_rooms",
"client_sync_rooms_state",
"client_sync_rooms_timeline",
"client_sync_rooms_unread_notifications",
"client_sync_rooms_summary",
"client_voip_turnserver",
"client_thirdparty_protocols",
"media_media",
"client_versions",
"client_capabilities",
"well_known",
"web_root",
"web_hook",
"stats",
"m_vm_fetch",
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"m_vm",
"m_init_backfill",
"m_listen",
};
/// This is a list of modules that are considered "optional" and any loading
/// error for them will not propagate and interrupt m::init.
decltype(ircd::m::module_names_optional)
ircd::m::module_names_optional
{
"web_hook",
};
///////////////////////////////////////////////////////////////////////////////
//
// m/self.h
//
std::string
ircd::m::self::origin
{};
std::string
ircd::m::self::servername
{};
ircd::ed25519::sk
ircd::m::self::secret_key
{};
ircd::ed25519::pk
ircd::m::self::public_key
{};
std::string
ircd::m::self::public_key_b64
{};
std::string
ircd::m::self::public_key_id
{};
std::string
ircd::m::self::tls_cert_der
{};
std::string
ircd::m::self::tls_cert_der_sha256_b64
{};
//
// my user
//
ircd::m::user::id::buf
ircd_user_id
{
"ircd", "localhost" // gets replaced after conf init
};
ircd::m::user
ircd::m::me
{
ircd_user_id
};
//
// my room
//
ircd::m::room::id::buf
ircd_room_id
{
"ircd", "localhost" // replaced after conf init
};
ircd::m::room
ircd::m::my_room
{
ircd_room_id
};
//
// my node
//
std::array<char, ircd::rfc3986::DOMAIN_BUFSIZE>
ircd_node_id
{
"localhost" // replaced after conf init
};
ircd::m::node
ircd::m::my_node
{
ircd_node_id
};
bool
ircd::m::self::host(const string_view &other)
{
// port() is 0 when the origin has no port (and implies 8448)
const auto port
{
me.user_id.port()
};
// If my_host has a port number, then the argument must also have the
// same port number.
if(port)
return host() == other;
/// If my_host has no port number, then the argument can have port
/// 8448 or no port number, which will initialize net::hostport.port to
/// the "canon_port" of 8448.
assert(net::canon_port == 8448);
const net::hostport _other{other};
if(net::port(_other) != net::canon_port)
return false;
if(host() != host(_other))
return false;
return true;
}
ircd::string_view
ircd::m::self::host()
{
return me.user_id.host();
}
//
// init
//
//TODO: XXX
extern ircd::m::room::id::buf users_room_id;
extern ircd::m::room::id::buf tokens_room_id;
ircd::m::self::init::init(const string_view &origin,
const string_view &servername)
{
// Sanity check that these are valid hostname strings. This was likely
// already checked, so these validators will simply throw without very
// useful error messages if invalid strings ever make it this far.
rfc3986::valid_host(origin);
rfc3986::valid_host(servername);
self::origin = origin;
self::servername = servername;
m::my_node = string_view{strlcpy
{
ircd_node_id, origin
}};
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ircd_user_id = {"ircd", origin};
m::me = {ircd_user_id};
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ircd_room_id = {"ircd", origin};
m::my_room = {ircd_room_id};
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tokens_room_id = {"tokens", origin};
m::user::tokens = {tokens_room_id};
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if(origin == "localhost")
log::warning
{
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"The origin is configured or has defaulted to 'localhost'"
};
// Loading the keys module in runlevel::START will do further
// inits of m::self::globals. Calling the inits directly from
// here makes the module dependent on libircd and unloadable.
assert(ircd::run::level == run::level::START);
mods::imports.emplace("m_keys"s, "m_keys"s);
}
///////////////////////////////////////////////////////////////////////////////
//
// m/sync.h
//
decltype(ircd::m::sync::log)
ircd::m::sync::log
{
"m.sync", 's'
};
namespace ircd::m::sync
{
const ctx::pool::opts pool_opts
{
ctx::DEFAULT_STACK_SIZE,
0,
-1,
0
};
}
decltype(ircd::m::sync::pool)
ircd::m::sync::pool
{
"m.sync", pool_opts
};
decltype(ircd::m::sync::stats_info)
ircd::m::sync::stats_info
{
{ "name", "ircd.m.sync.stats.info" },
{ "default", false },
};
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template<>
decltype(ircd::util::instance_multimap<std::string, ircd::m::sync::item, std::less<>>::map)
ircd::util::instance_multimap<std::string, ircd::m::sync::item, std::less<>>::map
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{};
template<>
decltype(ircd::util::instance_list<ircd::m::sync::data>::allocator)
ircd::util::instance_list<ircd::m::sync::data>::allocator
{};
template<>
decltype(ircd::util::instance_list<ircd::m::sync::data>::list)
ircd::util::instance_list<ircd::m::sync::data>::list
{
allocator
};
bool
ircd::m::sync::for_each(const item_closure_bool &closure)
{
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auto it(begin(item::map));
for(; it != end(item::map); ++it)
if(!closure(*it->second))
return false;
return true;
}
bool
ircd::m::sync::for_each(const string_view &prefix,
const item_closure_bool &closure)
{
const auto depth
{
token_count(prefix, '.')
};
auto it
{
item::map.lower_bound(prefix)
};
for(; it != end(item::map); ++it)
{
const auto item_depth
{
token_count(it->first, '.')
};
if(item_depth > depth + 1)
continue;
if(it->first == prefix)
continue;
if(item_depth < depth + 1)
break;
if(!closure(*it->second))
return false;
}
return true;
}
bool
ircd::m::sync::apropos(const data &d,
const event &event)
{
return apropos(d, index(event, std::nothrow));
}
bool
ircd::m::sync::apropos(const data &d,
const event::id &event_id)
{
return apropos(d, index(event_id, std::nothrow));
}
bool
ircd::m::sync::apropos(const data &d,
const event::idx &event_idx)
{
return d.phased ||
(event_idx >= d.range.first && event_idx < d.range.second);
}
ircd::string_view
ircd::m::sync::loghead(const data &data)
{
thread_local char headbuf[256], rembuf[128], iecbuf[2][64], tmbuf[32];
const auto remstr
{
data.client?
string(rembuf, ircd::remote(*data.client)):
string_view{}
};
const auto flush_bytes
{
data.stats?
data.stats->flush_bytes:
0U
};
const auto flush_count
{
data.stats?
data.stats->flush_count:
0U
};
const auto tmstr
{
data.stats?
ircd::pretty(tmbuf, data.stats->timer.at<milliseconds>(), true):
string_view{}
};
return fmt::sprintf
{
headbuf, "%s %s %ld:%lu|%lu%s chunk:%zu sent:%s of %s in %s",
remstr,
string_view{data.user.user_id},
data.range.first,
data.range.second,
vm::sequence::retired,
data.phased?
"|P"_sv : ""_sv,
flush_count,
ircd::pretty(iecbuf[1], iec(flush_bytes)),
data.out?
ircd::pretty(iecbuf[0], iec(flush_bytes + size(data.out->completed()))):
string_view{},
tmstr
};
}
//
// item
//
//
// item::item
//
ircd::m::sync::item::item(std::string name,
handle polylog,
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handle linear,
const json::members &feature)
:instance_multimap
{
std::move(name)
}
,conf_name
{
fmt::snstringf{128, "ircd.m.sync.%s.enable", this->name()},
fmt::snstringf{128, "ircd.m.sync.%s.stats.debug", this->name()},
}
,enable
{
{ "name", conf_name[0] },
{ "default", true },
}
,stats_debug
{
{ "name", conf_name[1] },
{ "default", false },
}
,_polylog
{
std::move(polylog)
}
,_linear
{
std::move(linear)
}
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,feature
{
feature
}
,opts
{
this->feature
}
,phased
{
opts.get<bool>("phased", false)
}
{
log::debug
{
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log, "Registered sync item(%p) '%s' (%zu features)",
this,
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this->name(),
opts.size(),
};
}
ircd::m::sync::item::~item()
noexcept
{
log::debug
{
log, "Unregistered sync item(%p) '%s'",
this,
this->name()
};
}
bool
ircd::m::sync::item::polylog(data &data)
try
{
// Skip the item if disabled by configuration
if(!enable)
return false;
if(data.phased && !phased && int64_t(data.range.first) < 0)
return false;
#ifdef RB_DEBUG
sync::stats stats
{
data.stats && (stats_info || stats_debug)?
*data.stats:
sync::stats{}
};
if(data.stats && (stats_info || stats_debug))
stats.timer = {};
#endif
const bool ret
{
_polylog(data)
};
#ifdef RB_DEBUG
if(data.stats && (stats_info || stats_debug))
{
//data.out.flush();
thread_local char tmbuf[32];
log::debug
{
log, "polylog %s commit:%b '%s' %s",
loghead(data),
ret,
name(),
ircd::pretty(tmbuf, stats.timer.at<microseconds>(), true)
};
}
#endif
this_ctx::interruption_point();
return ret;
}
catch(const std::bad_function_call &e)
{
log::dwarning
{
log, "polylog %s '%s' missing handler :%s",
loghead(data),
name(),
e.what()
};
return false;
}
catch(const m::error &e)
{
log::derror
{
log, "polylog %s '%s' :%s %s",
loghead(data),
name(),
e.what(),
e.content
};
return false;
}
catch(const std::exception &e)
{
log::derror
{
log, "polylog %s '%s' :%s",
loghead(data),
name(),
e.what()
};
throw;
}
bool
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ircd::m::sync::item::linear(data &data)
try
{
if(!enable)
return false;
return _linear(data);
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}
catch(const std::bad_function_call &e)
{
thread_local char rembuf[128];
log::dwarning
{
log, "linear %s '%s' missing handler :%s",
loghead(data),
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name(),
e.what()
};
return false;
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}
catch(const m::error &e)
{
log::derror
{
log, "linear %s '%s' :%s %s",
loghead(data),
name(),
e.what(),
e.content
};
return false;
}
catch(const std::exception &e)
{
log::derror
{
log, "linear %s '%s' :%s",
loghead(data),
name(),
e.what()
};
throw;
}
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size_t
ircd::m::sync::item::children()
const
{
size_t ret(0);
sync::for_each(this->name(), [&ret]
(auto &item)
{
++ret;
return true;
});
return ret;
}
ircd::string_view
ircd::m::sync::item::member_name()
const
{
return token_last(name(), '.');
}
ircd::string_view
ircd::m::sync::item::name()
const
{
return this->instance_multimap::it->first;
}
///////////////////////////////////////////////////////////////////////////////
//
// m/app.h
//
decltype(ircd::m::app::log)
ircd::m::app::log
{
"m.app"
};
std::string
ircd::m::app::config::get(const string_view &id)
{
using prototype = std::string (const string_view &);
static mods::import<prototype> call
{
"app_app", "ircd::m::app::config::get"
};
return call(id);
}
std::string
ircd::m::app::config::get(std::nothrow_t,
const string_view &id)
{
using prototype = std::string (std::nothrow_t, const string_view &);
static mods::import<prototype> call
{
"app_app", "ircd::m::app::config::get"
};
return call(std::nothrow, id);
}
void
ircd::m::app::config::get(const string_view &id,
const event::fetch::view_closure &closure)
{
using prototype = void (const string_view &, const event::fetch::view_closure &);
static mods::import<prototype> call
{
"app_app", "ircd::m::app::config::get"
};
return call(id, closure);
}
bool
ircd::m::app::config::get(std::nothrow_t,
const string_view &id,
const event::fetch::view_closure &closure)
{
using prototype = bool (std::nothrow_t, const string_view &, const event::fetch::view_closure &);
static mods::import<prototype> call
{
"app_app", "ircd::m::app::config::get"
};
return call(std::nothrow, id, closure);
}
ircd::m::event::idx
ircd::m::app::config::idx(const string_view &id)
{
using prototype = event::idx (const string_view &);
static mods::import<prototype> call
{
"app_app", "ircd::m::app::config::idx"
};
return call(id);
}
ircd::m::event::idx
ircd::m::app::config::idx(std::nothrow_t,
const string_view &id)
{
using prototype = event::idx (std::nothrow_t, const string_view &);
static mods::import<prototype> call
{
"app_app", "ircd::m::app::config::idx"
};
return call(std::nothrow, id);
}
bool
ircd::m::app::exists(const string_view &id)
{
using prototype = bool (const string_view &);
static mods::import<prototype> call
{
"app_app", "exists"
};
return call(id);
}
///////////////////////////////////////////////////////////////////////////////
//
// m/feds.h
//
ircd::m::feds::execute::execute(const opts &o,
const closure &c)
:execute
{
vector_view<const opts>{&o, 1}, c
}
{
}
ircd::m::feds::execute::execute(const vector_view<const opts> &o,
const closure &c)
{
using prototype = bool (const vector_view<const opts> &, const closure &);
static mods::import<prototype> call
{
"m_feds", "ircd::m::feds::execute"
};
call(o, c);
}
///////////////////////////////////////////////////////////////////////////////
//
// m/vm.h
//
decltype(ircd::m::vm::default_opts)
ircd::m::vm::default_opts;
decltype(ircd::m::vm::default_copts)
ircd::m::vm::default_copts;
decltype(ircd::m::vm::log)
ircd::m::vm::log
{
"m.vm", 'v'
};
decltype(ircd::m::vm::dock)
ircd::m::vm::dock;
decltype(ircd::m::vm::ready)
ircd::m::vm::ready;
2019-03-21 20:49:02 +01:00
ircd::string_view
ircd::m::vm::loghead(const eval &eval)
{
thread_local char buf[128];
return loghead(buf, eval);
}
ircd::string_view
ircd::m::vm::loghead(const mutable_buffer &buf,
const eval &eval)
{
return fmt::sprintf
{
buf, "vm:%lu:%lu:%lu eval:%lu seq:%lu share:%lu:%lu %s",
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sequence::uncommitted,
sequence::committed,
sequence::retired,
eval.id,
sequence::get(eval),
eval.sequence_shared[0],
eval.sequence_shared[1],
eval.event_?
2019-07-06 06:09:07 +02:00
string_view{eval.event_->event_id}:
"<unidentified>"_sv,
2019-03-21 20:49:02 +01:00
};
}
ircd::http::code
ircd::m::vm::http_code(const fault &code)
{
switch(code)
{
case fault::ACCEPT: return http::OK;
case fault::EXISTS: return http::CONFLICT;
case fault::INVALID: return http::BAD_REQUEST;
case fault::GENERAL: return http::UNAUTHORIZED;
case fault::AUTH: return http::FORBIDDEN;
case fault::STATE: return http::NOT_FOUND;
case fault::EVENT: return http::NOT_FOUND;
default: return http::INTERNAL_SERVER_ERROR;
}
}
ircd::string_view
ircd::m::vm::reflect(const enum fault &code)
{
switch(code)
{
case fault::ACCEPT: return "#ACCEPT";
case fault::EXISTS: return "#EXISTS";
case fault::GENERAL: return "#GENERAL";
case fault::INVALID: return "#INVALID";
case fault::AUTH: return "#AUTH";
case fault::EVENT: return "#EVENT";
case fault::STATE: return "#STATE";
case fault::INTERRUPT: return "#INTERRUPT";
}
return "??????";
}
//
// Eval
//
// Processes any event from any place from any time and does whatever is
// necessary to validate, reject, learn from new information, ignore old
// information and advance the state of IRCd as best as possible.
/// Instance list linkage for all of the evaluations.
template<>
decltype(ircd::util::instance_list<ircd::m::vm::eval>::allocator)
ircd::util::instance_list<ircd::m::vm::eval>::allocator
{};
template<>
decltype(ircd::util::instance_list<ircd::m::vm::eval>::list)
ircd::util::instance_list<ircd::m::vm::eval>::list
{
allocator
};
decltype(ircd::m::vm::eval::id_ctr)
ircd::m::vm::eval::id_ctr;
decltype(ircd::m::vm::eval::executing)
ircd::m::vm::eval::executing;
decltype(ircd::m::vm::eval::injecting)
ircd::m::vm::eval::injecting;
void
ircd::m::vm::eval::seqsort()
{
eval::list.sort([]
(const auto *const &a, const auto *const &b)
{
if(sequence::get(*a) == 0)
return false;
if(sequence::get(*b) == 0)
return true;
return sequence::get(*a) < sequence::get(*b);
});
}
ircd::m::vm::eval *
ircd::m::vm::eval::seqmin()
{
const auto it
{
std::min_element(begin(eval::list), end(eval::list), []
(const auto *const &a, const auto *const &b)
{
if(sequence::get(*a) == 0)
return false;
if(sequence::get(*b) == 0)
return true;
return sequence::get(*a) < sequence::get(*b);
})
};
if(it == end(eval::list))
return nullptr;
if(sequence::get(**it) == 0)
return nullptr;
return *it;
}
ircd::m::vm::eval *
ircd::m::vm::eval::seqmax()
{
const auto it
{
std::max_element(begin(eval::list), end(eval::list), []
(const auto *const &a, const auto *const &b)
{
return sequence::get(*a) < sequence::get(*b);
})
};
if(it == end(eval::list))
return nullptr;
if(sequence::get(**it) == 0)
return nullptr;
return *it;
}
ircd::m::vm::eval *
ircd::m::vm::eval::seqnext(const uint64_t &seq)
{
eval *ret{nullptr};
for(auto *const &eval : eval::list)
{
if(sequence::get(*eval) <= seq)
continue;
if(!ret || sequence::get(*eval) < sequence::get(*ret))
ret = eval;
}
assert(!ret || sequence::get(*ret) > seq);
return ret;
}
bool
ircd::m::vm::eval::sequnique(const uint64_t &seq)
{
return 1 == std::count_if(begin(eval::list), end(eval::list), [&seq]
(const auto *const &eval)
{
return sequence::get(*eval) == seq;
});
}
ircd::m::vm::eval &
ircd::m::vm::eval::get(const event::id &event_id)
{
auto *const ret
{
find(event_id)
};
if(unlikely(!ret))
throw std::out_of_range
{
"eval::get(): event_id not being evaluated."
};
return *ret;
}
ircd::m::vm::eval *
ircd::m::vm::eval::find(const event::id &event_id)
{
eval *ret{nullptr};
for_each([&event_id, &ret](eval &e)
{
if(e.event_)
{
2019-07-10 09:26:25 +02:00
if(e.event_->event_id == event_id)
ret = &e;
}
else if(e.issue)
{
if(e.issue->has("event_id"))
if(string_view{e.issue->at("event_id")} == event_id)
ret = &e;
}
else if(e.event_id == event_id)
ret = &e;
return ret == nullptr;
});
return ret;
}
size_t
ircd::m::vm::eval::count(const event::id &event_id)
{
size_t ret(0);
for_each([&event_id, &ret](eval &e)
{
if(e.event_)
{
if(e.event_->event_id == event_id)
++ret;
}
else if(e.issue)
{
if(e.issue->has("event_id"))
if(string_view{e.issue->at("event_id")} == event_id)
++ret;
}
else if(e.event_id == event_id)
++ret;
return true;
});
return ret;
}
size_t
ircd::m::vm::eval::count(const ctx::ctx *const &c)
{
return std::count_if(begin(eval::list), end(eval::list), [&c]
(const eval *const &eval)
{
return eval->ctx == c;
});
}
bool
ircd::m::vm::eval::for_each(const std::function<bool (eval &)> &closure)
{
for(eval *const &eval : eval::list)
if(!closure(*eval))
return false;
return true;
}
bool
ircd::m::vm::eval::for_each(const ctx::ctx *const &c,
const std::function<bool (eval &)> &closure)
{
for(eval *const &eval : eval::list)
if(eval->ctx == c)
if(!closure(*eval))
return false;
return true;
}
//
// eval::eval
//
ircd::m::vm::eval::eval(json::iov &event,
const json::iov &content,
const vm::copts &opts)
:eval{opts}
{
operator()(event, content);
}
ircd::m::vm::eval::eval(const event &event,
const vm::opts &opts)
:eval{opts}
{
operator()(event);
}
ircd::m::vm::eval::eval(const json::array &pdus,
const vm::opts &opts)
:opts{&opts}
{
// Sort the events first to avoid complicating the evals; the events might
// be from different rooms but it doesn't matter.
std::vector<m::event> events(begin(pdus), end(pdus));
std::sort(begin(events), end(events));
this->pdus = events;
// Conduct each eval without letting any one exception ruin things for the
// others, including an interrupt. The only exception is a termination.
for(auto it(begin(events)); it != end(events); ++it) try
{
auto &event{*it};
// If we set the event_id in the event instance we have to unset
// it so other contexts don't see an invalid reference.
const unwind event_id{[&event]
{
event.event_id = json::get<"event_id"_>(event)?
event.event_id:
m::event::id{};
}};
// We have to set the event_id in the event instance if it didn't come
// with the event JSON.
if(!opts.edu && !event.event_id)
event.event_id = opts.room_version == "3"?
event::id{event::id::v3{this->event_id, event}}:
event::id{event::id::v4{this->event_id, event}};
// When a fault::EXISTS would not actually be revealed to the user in
// any way we can elide a lot of grief by checking this here first and
// skipping the event. The query path will be adequately cached anyway.
if(~(opts.warnlog | opts.errorlog) & fault::EXISTS)
if(event.event_id && m::exists(event.event_id))
continue;
operator()(event);
}
catch(const ctx::interrupted &e)
{
if(opts.nothrows & fault::INTERRUPT)
continue;
else
throw;
}
catch(const std::exception &e)
{
continue;
}
catch(const ctx::terminated &)
{
throw;
}
}
ircd::m::vm::eval::eval(const vm::copts &opts)
:opts{&opts}
,copts{&opts}
{
}
ircd::m::vm::eval::eval(const vm::opts &opts)
:opts{&opts}
{
}
ircd::m::vm::eval::~eval()
noexcept
{
}
ircd::m::vm::eval::operator
const event::id::buf &()
const
{
return event_id;
}
const ircd::m::event *
ircd::m::vm::eval::find_pdu(const event::id &event_id)
{
const m::event *ret{nullptr};
for_each_pdu([&ret, &event_id]
(const m::event &event)
{
if(event.event_id != event_id)
return true;
ret = std::addressof(event);
return false;
});
return ret;
}
const ircd::m::event *
ircd::m::vm::eval::find_pdu(const eval &eval,
const event::id &event_id)
{
const m::event *ret{nullptr};
for(const auto &event : eval.pdus)
{
if(event.event_id != event_id)
continue;
ret = std::addressof(event);
break;
}
return ret;
}
bool
ircd::m::vm::eval::for_each_pdu(const std::function<bool (const event &)> &closure)
{
return for_each([&closure](eval &e)
{
if(!empty(e.pdus))
{
for(const auto &pdu : e.pdus)
if(!closure(pdu))
return false;
}
else if(e.event_)
{
if(!closure(*e.event_))
return false;
}
return true;
});
}
///
/// Figure 1:
/// in . <-- injection
/// ===:::::::==//
/// | ||||||| // <-- these functions
/// | \\|// //|
/// | ||| // | | acceleration
/// | |||// | |
/// | |||/ | |
/// | ||| | V
/// | !!! |
/// | * | <----- nozzle
/// | ///|||\\\ |
/// |/|/|/|\|\|\| <---- propagation cone
/// _/|/|/|/|\|\|\|\_
/// out
///
/// Inject a new event originating from this server.
///
enum ircd::m::vm::fault
ircd::m::vm::eval::operator()(json::iov &event,
const json::iov &contents)
{
using prototype = fault (eval &, json::iov &, const json::iov &);
static mods::import<prototype> call
{
"m_vm", "ircd::m::vm::inject"
};
vm::dock.wait([]
{
return vm::ready;
});
return call(*this, event, contents);
}
enum ircd::m::vm::fault
ircd::m::vm::eval::operator()(const event &event)
{
using prototype = fault (eval &, const m::event &);
static mods::import<prototype> call
{
"m_vm", "ircd::m::vm::execute"
};
vm::dock.wait([]
{
return vm::ready;
});
return call(*this, event);
}
//
// sequence
//
decltype(ircd::m::vm::sequence::dock)
ircd::m::vm::sequence::dock;
decltype(ircd::m::vm::sequence::retired)
ircd::m::vm::sequence::retired;
decltype(ircd::m::vm::sequence::committed)
ircd::m::vm::sequence::committed;
decltype(ircd::m::vm::sequence::uncommitted)
ircd::m::vm::sequence::uncommitted;
uint64_t
ircd::m::vm::sequence::min()
{
const auto *const e
{
eval::seqmin()
};
return e? get(*e) : 0;
}
uint64_t
ircd::m::vm::sequence::max()
{
const auto *const e
{
eval::seqmax()
};
return e? get(*e) : 0;
}
uint64_t
ircd::m::vm::sequence::get(id::event::buf &event_id)
{
static constexpr auto column_idx
{
json::indexof<event, "event_id"_>()
};
auto &column
{
dbs::event_column.at(column_idx)
};
const auto it
{
column.rbegin()
};
if(!it)
{
// If this iterator is invalid the events db should
// be completely fresh.
assert(db::sequence(*dbs::events) == 0);
return 0;
}
const auto &ret
{
byte_view<uint64_t>(it->first)
};
event_id = it->second;
return ret;
}
const uint64_t &
ircd::m::vm::sequence::get(const eval &eval)
{
return eval.sequence;
}
///////////////////////////////////////////////////////////////////////////////
//
// m/redacted.h
//
ircd::m::redacted::redacted(const event::idx &event_idx)
:boolean
{
event_idx?
event::refs(event_idx).has(dbs::ref::M_ROOM_REDACTION):
false
}
{
}
bool
ircd::m::redacted::prefetch(const event::idx &event_idx)
{
const event::refs refs
{
event_idx
};
return refs.prefetch(dbs::ref::M_ROOM_REDACTION);
}
///////////////////////////////////////////////////////////////////////////////
//
// m/visible.h
//
bool
ircd::m::visible(const event::id &event_id,
const string_view &mxid)
{
m::room::id::buf room_id
{
get(event_id, "room_id", room_id)
};
const m::event event
{
json::members
{
{ "event_id", event_id },
{ "room_id", room_id },
}
};
return visible(event, mxid);
}
bool
ircd::m::visible(const event &event,
const string_view &mxid)
{
using prototype = bool (const m::event &, const string_view &);
static mods::import<prototype> call
{
"m_room_history_visibility", "ircd::m::visible"
};
return call(event, mxid);
}
///////////////////////////////////////////////////////////////////////////////
//
// m/presence.h
//
ircd::m::presence::presence(const user &user,
const mutable_buffer &buf)
:edu::m_presence{[&user, &buf]
{
json::object ret;
get(user, [&ret, &buf]
(const json::object &content)
{
ret =
{
data(buf), copy(buf, string_view{content})
};
});
return ret;
}()}
{
}
ircd::m::event::id::buf
ircd::m::presence::set(const user &user,
const string_view &presence,
const string_view &status_msg)
{
return set(m::presence
{
{ "user_id", user.user_id },
{ "presence", presence },
{ "status_msg", status_msg },
{ "currently_active", presence == "online" },
});
}
ircd::m::event::id::buf
ircd::m::presence::set(const presence &object)
{
using prototype = event::id::buf (const presence &);
static mods::import<prototype> function
{
"m_presence", "ircd::m::presence::set"
};
return function(object);
}
void
ircd::m::presence::get(const user &user,
const closure &closure)
{
if(!get(std::nothrow, user, closure))
throw m::NOT_FOUND
{
"No presence found for %s", string_view{user.user_id}
};
}
bool
ircd::m::presence::get(std::nothrow_t,
const user &user,
const closure &closure)
{
static const m::event::fetch::opts fopts
{
m::event::keys::include {"content"}
};
const auto reclosure{[&closure]
(const m::event &event)
{
closure(json::get<"content"_>(event));
}};
return get(std::nothrow, user, reclosure, &fopts);
}
bool
ircd::m::presence::get(std::nothrow_t,
const user &user,
const closure_event &closure,
const event::fetch::opts *const &opts)
{
using prototype = bool (std::nothrow_t, const m::user &, const closure_event &, const event::fetch::opts *const &);
static mods::import<prototype> function
{
"m_presence", "ircd::m::presence::get"
};
return function(std::nothrow, user, closure, opts);
}
ircd::m::event::idx
ircd::m::presence::get(const user &user)
{
const event::idx ret
{
get(std::nothrow, user)
};
if(!ret)
throw m::NOT_FOUND
{
"No presence found for %s", string_view{user.user_id}
};
return ret;
}
ircd::m::event::idx
ircd::m::presence::get(std::nothrow_t,
const user &user)
{
using prototype = event::idx (std::nothrow_t, const m::user &);
static mods::import<prototype> function
{
"m_presence", "ircd::m::presence::get"
};
return function(std::nothrow, user);
}
bool
ircd::m::presence::valid_state(const string_view &state)
{
using prototype = bool (const string_view &);
static mods::import<prototype> function
{
"m_presence", "ircd::m::presence::valid_state"
};
return function(state);
}
///////////////////////////////////////////////////////////////////////////////
//
// m/device.h
//
bool
ircd::m::device::set(const m::user &user,
const device &device_)
{
using prototype = bool (const m::user &, const device &);
static mods::import<prototype> function
{
"m_device", "ircd::m::device::set"
};
return function(user, device_);
}
bool
ircd::m::device::set(const m::user &user,
const string_view &id,
const string_view &prop,
const string_view &val)
{
using prototype = bool (const m::user &, const string_view &, const string_view &, const string_view &);
static mods::import<prototype> function
{
"m_device", "ircd::m::device::set"
};
return function(user, id, prop, val);
}
bool
ircd::m::device::del(const m::user &user,
const string_view &id)
{
using prototype = bool (const m::user &, const string_view &);
static mods::import<prototype> function
{
"m_device", "ircd::m::device::del"
};
return function(user, id);
}
bool
ircd::m::device::has(const m::user &user,
const string_view &id)
{
using prototype = bool (const m::user &, const string_view &id);
static mods::import<prototype> function
{
"m_device", "ircd::m::device::has"
};
return function(user, id);
}
bool
ircd::m::device::has(const m::user &user,
const string_view &id,
const string_view &prop)
{
using prototype = bool (const m::user &, const string_view &id, const string_view &prop);
static mods::import<prototype> function
{
"m_device", "ircd::m::device::has"
};
return function(user, id, prop);
}
bool
ircd::m::device::get(const m::user &user,
const string_view &id,
const string_view &prop,
const closure &c)
{
const bool ret
{
get(std::nothrow, user, id, prop, c)
};
if(!ret)
throw m::NOT_FOUND
{
"Property '%s' for device '%s' for user %s not found",
id,
prop,
string_view{user.user_id}
};
return ret;
}
bool
ircd::m::device::get(std::nothrow_t,
const m::user &user,
const string_view &id,
const string_view &prop,
const closure &c)
{
using prototype = bool (std::nothrow_t,
const m::user &,
const string_view &,
const string_view &,
const closure &);
static mods::import<prototype> function
{
"m_device", "ircd::m::device::get"
};
return function(std::nothrow, user, id, prop, c);
}
bool
ircd::m::device::for_each(const m::user &user,
const string_view &id,
const closure_bool &c)
{
using prototype = bool (const m::user &, const string_view &id, const closure_bool &);
static mods::import<prototype> function
{
"m_device", "ircd::m::device::for_each"
};
return function(user, id, c);
}
bool
ircd::m::device::for_each(const m::user &user,
const closure_bool &c)
{
using prototype = bool (const m::user &, const closure_bool &);
static mods::import<prototype> function
{
"m_device", "ircd::m::device::for_each"
};
return function(user, c);
}
///////////////////////////////////////////////////////////////////////////////
//
// m/node.h
//
//
// node
//
ircd::m::node::node(const string_view &node_id)
:node_id{node_id}
{
rfc3986::valid_remote(node_id);
}
void
ircd::m::node::key(const string_view &key_id,
const ed25519_closure &closure)
const
{
key(key_id, key_closure{[&closure]
(const string_view &keyb64)
{
const ed25519::pk pk
{
[&keyb64](auto &buf)
{
b64decode(buf, unquote(keyb64));
}
};
closure(pk);
}});
}
void
ircd::m::node::key(const string_view &key_id,
const key_closure &closure)
const
{
using prototype = void (const string_view &, const string_view &, const keys::closure &);
//TODO: Remove this import once this callsite is outside of libircd.
static mods::import<prototype> call
{
"m_keys", "ircd::m::keys::get"
};
call(node_id, key_id, [&closure, &key_id]
(const json::object &keys)
{
const json::object &vks
{
keys.at("verify_keys")
};
const json::object &vkk
{
vks.at(key_id)
};
const string_view &key
{
vkk.at("key")
};
closure(key);
});
}
/// Generates a node-room ID into buffer; see room_id() overload.
ircd::m::id::room::buf
ircd::m::node::room_id()
const
{
ircd::m::id::room::buf buf;
return buf.assigned(room_id(buf));
}
/// This generates a room mxid for the "node's room" essentially serving as
/// a database mechanism for this specific node. This room_id is a hash of
/// the node's full mxid.
///
ircd::m::id::room
ircd::m::node::room_id(const mutable_buffer &buf)
const
{
assert(!empty(this->node_id));
// for compatibility with hashing legacy node_id's
thread_local char node_id_buf[m::id::MAX_SIZE];
mutable_buffer mb{node_id_buf};
consume(mb, copy(mb, "::"_sv));
consume(mb, copy(mb, this->node_id));
const string_view &node_id
{
node_id_buf, data(mb)
};
const sha256::buf hash
{
sha256{node_id}
};
thread_local char b58_buf[b58encode_size(size(hash))];
const string_view b58
{
b58encode(b58_buf, hash)
};
return id::room
{
buf, b58, my_host()
};
}
//
// node::room
//
ircd::m::node::room::room(const string_view &node_id)
:room{m::node{node_id}}
{}
ircd::m::node::room::room(const m::node &node)
:node{node}
,room_id{node.room_id()}
{
static_cast<m::room &>(*this) = room_id;
}
///////////////////////////////////////////////////////////////////////////////
//
// m/filter.h
//
//TODO: globular expression
//TODO: tribool for contains_url; we currently ignore the false value.
bool
ircd::m::match(const room_event_filter &filter,
const event &event)
{
if(json::get<"contains_url"_>(filter) == true)
if(!at<"content"_>(event).has("url"))
return false;
for(const auto &room_id : json::get<"not_rooms"_>(filter))
if(at<"room_id"_>(event) == unquote(room_id))
return false;
if(empty(json::get<"rooms"_>(filter)))
return match(event_filter{filter}, event);
for(const auto &room_id : json::get<"rooms"_>(filter))
if(at<"room_id"_>(event) == unquote(room_id))
return match(event_filter{filter}, event);
return false;
}
//TODO: globular expression
bool
ircd::m::match(const event_filter &filter,
const event &event)
{
for(const auto &type : json::get<"not_types"_>(filter))
if(at<"type"_>(event) == unquote(type))
return false;
for(const auto &sender : json::get<"not_senders"_>(filter))
if(at<"sender"_>(event) == unquote(sender))
return false;
if(empty(json::get<"senders"_>(filter)) && empty(json::get<"types"_>(filter)))
return true;
if(empty(json::get<"senders"_>(filter)))
{
for(const auto &type : json::get<"types"_>(filter))
if(at<"type"_>(event) == unquote(type))
return true;
return false;
}
if(empty(json::get<"types"_>(filter)))
{
for(const auto &sender : json::get<"senders"_>(filter))
if(at<"sender"_>(event) == unquote(sender))
return true;
return false;
}
return true;
}
//
// filter
//
/// Convenience interface for filters out of common `?filter=` query string
/// arguments. This function expects a raw urlencoded value of the filter
/// query parameter. It detects if the value is an "inline" filter by being
/// a valid JSON object; otherwise it considers the value an ID and fetches
/// the filter stored previously by the user.
std::string
ircd::m::filter::get(const string_view &val,
const m::user &user)
{
if(!val)
return {};
const bool is_inline
{
startswith(val, "{") || startswith(val, "%7B")
};
if(is_inline)
return util::string(val.size(), [&val]
(const mutable_buffer &buf)
{
return url::decode(buf, val);
});
if(!user.user_id)
return {};
char idbuf[m::event::STATE_KEY_MAX_SIZE];
const string_view &id
{
url::decode(idbuf, val)
};
const m::user::filter filter
{
user
};
return filter.get(id);
}
//
// filter::filter
//
ircd::m::filter::filter(const user &user,
const string_view &filter_id,
const mutable_buffer &buf)
{
const json::object &obj
{
user::filter(user).get(buf, filter_id)
};
new (this) m::filter
{
obj
};
}
//
// room_filter
//
ircd::m::room_filter::room_filter(const mutable_buffer &buf,
const json::members &members)
:super_type::tuple
{
json::stringify(mutable_buffer{buf}, members)
}
{
}
//
// state_filter
//
ircd::m::state_filter::state_filter(const mutable_buffer &buf,
const json::members &members)
:super_type::tuple
{
json::stringify(mutable_buffer{buf}, members)
}
{
}
//
// room_event_filter
//
ircd::m::room_event_filter::room_event_filter(const mutable_buffer &buf,
const json::members &members)
:super_type::tuple
{
json::stringify(mutable_buffer{buf}, members)
}
{
}
//
// event_filter
//
ircd::m::event_filter::event_filter(const mutable_buffer &buf,
const json::members &members)
:super_type::tuple
{
json::stringify(mutable_buffer{buf}, members)
}
{
}
///////////////////////////////////////////////////////////////////////////////
//
// m/membership.h
//
decltype(ircd::m::membership_positive)
ircd::m::membership_positive
{
"join"_sv,
"invite"_sv,
};
decltype(ircd::m::membership_negative)
ircd::m::membership_negative
{
"leave"_sv,
"ban"_sv,
""_sv,
};
bool
ircd::m::membership(const room &room,
const user::id &user_id,
const vector_view<const string_view> &membership)
{
const room::state state
{
room
};
const auto event_idx
{
state.get(std::nothrow, "m.room.member", user_id)
};
return m::membership(event_idx, membership);
}
bool
ircd::m::membership(const event::idx &event_idx,
const vector_view<const string_view> &membership)
{
bool ret;
const auto closure
{
[&membership, &ret](const json::object &content)
{
const json::string &content_membership
{
content["membership"]
};
const auto it
{
std::find(begin(membership), end(membership), content_membership)
};
ret = content_membership && it != end(membership);
}
};
// If the query was successful a membership state exists (even if the
// string found was illegally empty) thus we must return the value of ret.
if(m::get(std::nothrow, event_idx, "content", closure))
return ret;
// If the user included an empty string in the vector, they want us to
// return true for non-membership (i.e a failed query).
static const auto &empty{[](auto&& s) { return !s; }};
if(std::any_of(begin(membership), end(membership), empty))
return true;
// If the membership vector itself was empty that's also a non-membership.
if(membership.empty())
return true;
return false;
}
ircd::string_view
ircd::m::membership(const mutable_buffer &out,
const room &room,
const user::id &user_id)
{
const room::state state
{
room
};
const auto event_idx
{
state.get(std::nothrow, "m.room.member", user_id)
};
return m::membership(out, event_idx);
}
ircd::string_view
ircd::m::membership(const mutable_buffer &out,
const event::idx &event_idx)
{
return m::query(std::nothrow, event_idx, "content", [&out]
(const json::object &content) -> string_view
{
const json::string &content_membership
{
content["membership"]
};
return strlcpy
{
out, content_membership
};
});
}
ircd::string_view
ircd::m::membership(const event &event)
{
const json::object &content
{
json::get<"content"_>(event)
};
const string_view &membership
{
json::get<"membership"_>(event)
};
if(membership)
return membership;
const json::string &content_membership
{
content.get("membership")
};
return content_membership;
}
///////////////////////////////////////////////////////////////////////////////
//
// m/user.h
//
/// ID of the room which stores ephemeral tokens (an instance of the room is
/// provided below).
ircd::m::room::id::buf
tokens_room_id
{
"tokens", ircd::my_host()
};
/// The tokens room serves as a key-value lookup for various tokens to
/// users, etc. It primarily serves to store access tokens for users. This
/// is a separate room from the users room because in the future it may
/// have an optimized configuration as well as being more easily cleared.
///
ircd::m::room
ircd::m::user::tokens
{
tokens_room_id
};
bool
ircd::m::exists(const user::id &user_id)
{
// The way we know a user exists is testing if their room exists.
const m::user::room user_room
{
user_id
};
return m::exists(user_room);
}
bool
ircd::m::exists(const user &user)
{
return exists(user.user_id);
}
bool
ircd::m::my(const user &user)
{
return my(user.user_id);
}
//
// user
//
/// Generates a user-room ID into buffer; see room_id() overload.
ircd::m::id::room::buf
ircd::m::user::room_id()
const
{
ircd::m::id::room::buf buf;
return buf.assigned(room_id(buf));
}
/// This generates a room mxid for the "user's room" essentially serving as
/// a database mechanism for this specific user. This room_id is a hash of
/// the user's full mxid.
///
ircd::m::id::room
ircd::m::user::room_id(const mutable_buffer &buf)
const
{
assert(!empty(user_id));
const ripemd160::buf hash
{
ripemd160{user_id}
};
char b58[size(hash) * 2];
return
{
buf, b58encode(b58, hash), my_host()
};
}
ircd::m::device::id::buf
ircd::m::user::get_device_from_access_token(const string_view &token)
{
const event::idx event_idx
{
user::tokens.get("ircd.access_token", token)
};
device::id::buf ret;
m::get(event_idx, "content", [&ret]
(const json::object &content)
{
ret = unquote(content.at("device_id"));
});
return ret;
}
ircd::string_view
ircd::m::user::gen_access_token(const mutable_buffer &buf)
{
static const size_t token_max{32};
static const auto &token_dict{rand::dict::alpha};
const mutable_buffer out
{
data(buf), std::min(token_max, size(buf))
};
return rand::string(token_dict, out);
}
ircd::m::event::id::buf
ircd::m::user::activate()
{
using prototype = event::id::buf (const m::user &);
static mods::import<prototype> function
{
"client_account", "activate__user"
};
return function(*this);
}
ircd::m::event::id::buf
ircd::m::user::deactivate()
{
using prototype = event::id::buf (const m::user &);
static mods::import<prototype> function
{
"client_account", "deactivate__user"
};
return function(*this);
}
bool
ircd::m::user::is_active()
const
{
using prototype = bool (const m::user &);
static mods::import<prototype> function
{
"client_account", "is_active__user"
};
return function(*this);
}
//
// user::room
//
ircd::m::user::room::room(const m::user::id &user_id,
const vm::copts *const &copts,
const event::fetch::opts *const &fopts)
:room
{
m::user{user_id}, copts, fopts
}
{
}
ircd::m::user::room::room(const m::user &user,
const vm::copts *const &copts,
const event::fetch::opts *const &fopts)
:user{user}
,room_id{user.room_id()}
{
static_cast<m::room &>(*this) =
{
room_id, copts, fopts
};
}
bool
ircd::m::user::room::is(const room::id &room_id,
const user::id &user_id)
{
const user::room user_room{user_id};
return user_room.room_id == room_id;
}
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///////////////////////////////////////////////////////////////////////////////
//
// m/txn.h
//
/// Returns the serial size of the JSON this txn would consume. Note: this
/// creates a json::iov involving a timestamp to figure out the total size
/// of the txn. When the user creates the actual txn a different timestamp
/// is created which may be a different size. Consider using the lower-level
/// create(closure) or add some pad to be sure.
///
size_t
ircd::m::txn::serialized(const array &pdu,
const array &edu,
const array &pdu_failure)
{
size_t ret;
const auto closure{[&ret]
(const json::iov &iov)
{
ret = json::serialized(iov);
}};
create(closure, pdu, edu, pdu_failure);
return ret;
}
/// Stringifies a txn from the inputs into the returned std::string
///
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std::string
ircd::m::txn::create(const array &pdu,
const array &edu,
const array &pdu_failure)
{
std::string ret;
const auto closure{[&ret]
(const json::iov &iov)
{
ret = json::strung(iov);
}};
create(closure, pdu, edu, pdu_failure);
return ret;
}
/// Stringifies a txn from the inputs into the buffer
///
ircd::string_view
ircd::m::txn::create(const mutable_buffer &buf,
const array &pdu,
const array &edu,
const array &pdu_failure)
{
string_view ret;
const auto closure{[&buf, &ret]
(const json::iov &iov)
{
ret = json::stringify(mutable_buffer{buf}, iov);
}};
create(closure, pdu, edu, pdu_failure);
return ret;
}
/// Forms a txn from the inputs into a json::iov and presents that iov
/// to the user's closure.
///
void
ircd::m::txn::create(const closure &closure,
const array &pdu,
const array &edu,
const array &pdu_failure)
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{
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using ircd::size;
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json::iov iov;
const json::iov::push push[]
{
{ iov, { "origin", my_host() }},
{ iov, { "origin_server_ts", ircd::time<milliseconds>() }},
};
const json::iov::add _pdus
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{
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iov, !empty(pdu),
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{
"pdus", [&pdu]() -> json::value
{
return { data(pdu), size(pdu) };
}
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}
};
const json::iov::add _edus
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{
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iov, !empty(edu),
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{
"edus", [&edu]() -> json::value
{
return { data(edu), size(edu) };
}
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}
};
const json::iov::add _pdu_failures
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{
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iov, !empty(pdu_failure),
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{
"pdu_failures", [&pdu_failure]() -> json::value
{
return { data(pdu_failure), size(pdu_failure) };
}
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}
};
closure(iov);
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}
ircd::string_view
ircd::m::txn::create_id(const mutable_buffer &out,
const string_view &txn)
{
const sha256::buf hash
{
sha256{txn}
};
const string_view txnid
{
b58encode(out, hash)
};
return txnid;
}
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///////////////////////////////////////////////////////////////////////////////
//
// m/request.h
//
//
// request
//
ircd::m::request::request(const string_view &method,
const string_view &uri,
const mutable_buffer &body_buf,
const json::members &body)
:request
{
my_host(),
string_view{},
method,
uri,
json::stringify(mutable_buffer{body_buf}, body)
}
{}
ircd::m::request::request(const string_view &method,
const string_view &uri)
:request
{
my_host(),
string_view{},
method,
uri,
json::object{}
}
{}
ircd::m::request::request(const string_view &method,
const string_view &uri,
const json::object &content)
:request
{
my_host(),
string_view{},
method,
uri,
content
}
{}
ircd::m::request::request(const string_view &origin,
const string_view &destination,
const string_view &method,
const string_view &uri,
const json::object &content)
{
json::get<"origin"_>(*this) = origin;
json::get<"destination"_>(*this) = destination;
json::get<"method"_>(*this) = method;
json::get<"uri"_>(*this) = uri;
json::get<"content"_>(*this) = content;
if(unlikely(origin && !rfc3986::valid_remote(std::nothrow, origin)))
throw m::error
{
http::BAD_REQUEST, "M_REQUEST_INVALID_ORIGIN",
"This origin string '%s' is not a valid remote.",
origin
};
if(unlikely(destination && !rfc3986::valid_remote(std::nothrow, destination)))
throw m::error
{
http::BAD_REQUEST, "M_REQUEST_INVALID_DESTINATION",
"This destination string '%s' is not a valid remote.",
destination
};
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}
decltype(ircd::m::request::headers_max)
ircd::m::request::headers_max
{
32UL
};
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ircd::string_view
ircd::m::request::operator()(const mutable_buffer &out,
const vector_view<const http::header> &addl_headers)
const
{
thread_local http::header header[headers_max];
const ctx::critical_assertion ca;
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size_t headers{0};
header[headers++] =
{
"User-Agent", info::user_agent
};
thread_local char x_matrix[2_KiB];
if(startswith(json::at<"uri"_>(*this), "/_matrix/federation"))
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{
const auto &sk{self::secret_key};
const auto &pkid{self::public_key_id};
header[headers++] =
{
"Authorization", generate(x_matrix, sk, pkid)
};
}
assert(headers <= headers_max);
assert(headers + addl_headers.size() <= headers_max);
for(size_t i(0); i < addl_headers.size() && headers < headers_max; ++i)
header[headers++] = addl_headers.at(i);
static const string_view content_type
{
"application/json; charset=utf-8"_sv
};
const auto content_length
{
string_view(json::get<"content"_>(*this)).size()
};
window_buffer sb{out};
http::request
{
sb,
json::at<"destination"_>(*this),
json::at<"method"_>(*this),
json::at<"uri"_>(*this),
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content_length,
content_type,
{ header, headers }
};
return sb.completed();
}
decltype(ircd::m::request::generate_content_max)
ircd::m::request::generate_content_max
{
{ "name", "ircd.m.request.generate.content_max" },
{ "default", long(1_MiB) },
};
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ircd::string_view
ircd::m::request::generate(const mutable_buffer &out,
const ed25519::sk &sk,
const string_view &pkid)
const
{
const ctx::critical_assertion ca;
thread_local unique_buffer<mutable_buffer> buf
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{
size_t(generate_content_max)
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};
if(unlikely(json::serialized(*this) > buffer::size(buf)))
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throw m::error
{
"M_REQUEST_TOO_LARGE", "This server generated a request of %zu bytes; limit is %zu",
json::serialized(*this),
buffer::size(buf)
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};
const json::object object
{
stringify(mutable_buffer{buf}, *this)
};
const ed25519::sig sig
{
self::secret_key.sign(object)
};
const auto &origin
{
unquote(string_view{json::at<"origin"_>(*this)})
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};
thread_local char sigb64[1_KiB];
return fmt::sprintf
{
out, "X-Matrix origin=%s,key=\"%s\",sig=\"%s\"",
origin,
pkid,
b64encode_unpadded(sigb64, sig)
};
}
bool
ircd::m::request::verify(const string_view &key,
const string_view &sig_)
const
{
const ed25519::sig sig
{
[&sig_](auto &buf)
{
b64decode(buf, sig_);
}
};
const json::string &origin
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{
json::at<"origin"_>(*this)
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};
const m::node node
{
origin
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};
bool verified{false};
node.key(key, [this, &verified, &sig]
(const ed25519::pk &pk)
{
verified = verify(pk, sig);
});
return verified;
}
decltype(ircd::m::request::verify_content_max)
ircd::m::request::verify_content_max
{
{ "name", "ircd.m.request.verify.content_max" },
{ "default", long(1_MiB) },
};
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bool
ircd::m::request::verify(const ed25519::pk &pk,
const ed25519::sig &sig)
const
{
// Matrix spec sez that an empty content object {} is excluded entirely
// from the verification. Our JSON only excludes members if they evaluate
// to undefined i.e json::object{}/string_view{} but not json::object{"{}"}
// or even json::object{""}; rather than burdening the caller with ensuring
// their assignment conforms perfectly, we ensure correctness manually.
auto _this(*this);
if(empty(json::get<"content"_>(*this)))
json::get<"content"_>(_this) = json::object{};
const ctx::critical_assertion ca;
thread_local unique_buffer<mutable_buffer> buf
{
size_t(verify_content_max)
};
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const size_t request_size
{
json::serialized(_this)
};
if(unlikely(request_size > buffer::size(buf)))
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throw m::error
{
http::PAYLOAD_TOO_LARGE, "M_REQUEST_TOO_LARGE",
"The request size %zu bytes exceeds maximum of %zu bytes",
request_size,
buffer::size(buf)
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};
const json::object object
{
stringify(mutable_buffer{buf}, _this)
};
return verify(pk, sig, object);
}
bool
ircd::m::request::verify(const ed25519::pk &pk,
const ed25519::sig &sig,
const json::object &object)
{
return pk.verify(object, sig);
}
//
// x_matrix
//
ircd::m::request::x_matrix::x_matrix(const string_view &input)
{
string_view tokens[3];
if(ircd::tokens(split(input, ' ').second, ',', tokens) != 3)
throw std::out_of_range{"The x_matrix header is malformed"};
for(const auto &token : tokens)
{
const auto &kv{split(token, '=')};
const auto &val{unquote(kv.second)};
switch(hash(kv.first))
{
case hash("origin"): origin = val; break;
case hash("key"): key = val; break;
case hash("sig"): sig = val; break;
}
}
if(empty(origin))
throw std::out_of_range{"The x_matrix header is missing 'origin='"};
if(empty(key))
throw std::out_of_range{"The x_matrix header is missing 'key='"};
if(empty(sig))
throw std::out_of_range{"The x_matrix header is missing 'sig='"};
}
2018-02-26 08:24:12 +01:00
///////////////////////////////////////////////////////////////////////////////
//
// m/hook.h
//
2018-05-19 04:26:25 +02:00
// Internal utils
namespace ircd::m
{
static bool _hook_match(const m::event &matching, const m::event &);
static void _hook_fix_state_key(const json::members &, json::member &);
static void _hook_fix_room_id(const json::members &, json::member &);
static void _hook_fix_sender(const json::members &, json::member &);
static json::strung _hook_make_feature(const json::members &);
}
2019-06-23 08:28:48 +02:00
/// Instance list linkage for all hook sites
template<>
decltype(ircd::util::instance_list<ircd::m::hook::base::site>::allocator)
ircd::util::instance_list<ircd::m::hook::base::site>::allocator
{};
template<>
decltype(ircd::util::instance_list<ircd::m::hook::base::site>::list)
ircd::util::instance_list<ircd::m::hook::base::site>::list
{
allocator
};
/// Instance list linkage for all hooks
template<>
decltype(ircd::util::instance_list<ircd::m::hook::base>::allocator)
ircd::util::instance_list<ircd::m::hook::base>::allocator
{};
template<>
decltype(ircd::util::instance_list<ircd::m::hook::base>::list)
ircd::util::instance_list<ircd::m::hook::base>::list
{
allocator
};
//
// hook::maps
//
struct ircd::m::hook::maps
{
std::multimap<string_view, base *> origin;
std::multimap<string_view, base *> room_id;
std::multimap<string_view, base *> sender;
std::multimap<string_view, base *> state_key;
std::multimap<string_view, base *> type;
std::vector<base *> always;
size_t match(const event &match, const std::function<bool (base &)> &) const;
size_t add(base &hook, const event &matching);
size_t del(base &hook, const event &matching);
maps();
~maps() noexcept;
};
ircd::m::hook::maps::maps()
{
}
ircd::m::hook::maps::~maps()
noexcept
{
}
size_t
ircd::m::hook::maps::add(base &hook,
const event &matching)
{
size_t ret{0};
const auto map{[&hook, &ret]
(auto &map, const string_view &value)
{
map.emplace(value, &hook);
++ret;
}};
if(json::get<"origin"_>(matching))
map(origin, at<"origin"_>(matching));
if(json::get<"room_id"_>(matching))
map(room_id, at<"room_id"_>(matching));
if(json::get<"sender"_>(matching))
map(sender, at<"sender"_>(matching));
if(json::get<"state_key"_>(matching))
map(state_key, at<"state_key"_>(matching));
if(json::get<"type"_>(matching))
map(type, at<"type"_>(matching));
// Hook had no mappings which means it will match everything.
// We don't increment the matcher count for this case.
if(!ret)
always.emplace_back(&hook);
return ret;
}
size_t
ircd::m::hook::maps::del(base &hook,
const event &matching)
{
size_t ret{0};
const auto unmap{[&hook, &ret]
(auto &map, const string_view &value)
{
auto pit{map.equal_range(value)};
while(pit.first != pit.second)
if(pit.first->second == &hook)
{
pit.first = map.erase(pit.first);
++ret;
}
else ++pit.first;
}};
// Unconditional attempt to remove from always.
std::remove(begin(always), end(always), &hook);
if(json::get<"origin"_>(matching))
unmap(origin, at<"origin"_>(matching));
if(json::get<"room_id"_>(matching))
unmap(room_id, at<"room_id"_>(matching));
if(json::get<"sender"_>(matching))
unmap(sender, at<"sender"_>(matching));
if(json::get<"state_key"_>(matching))
unmap(state_key, at<"state_key"_>(matching));
if(json::get<"type"_>(matching))
unmap(type, at<"type"_>(matching));
return ret;
}
size_t
ircd::m::hook::maps::match(const event &event,
const std::function<bool (base &)> &callback)
const
{
std::set<base *> matching
{
begin(always), end(always)
};
const auto site_match{[&matching]
(auto &map, const string_view &key)
{
auto pit{map.equal_range(key)};
for(; pit.first != pit.second; ++pit.first)
matching.emplace(pit.first->second);
}};
if(json::get<"origin"_>(event))
site_match(origin, at<"origin"_>(event));
if(json::get<"room_id"_>(event))
site_match(room_id, at<"room_id"_>(event));
if(json::get<"sender"_>(event))
site_match(sender, at<"sender"_>(event));
if(json::get<"type"_>(event))
site_match(type, at<"type"_>(event));
if(json::get<"state_key"_>(event))
site_match(state_key, at<"state_key"_>(event));
auto it(begin(matching));
while(it != end(matching))
{
const base &hook(**it);
if(!_hook_match(hook.matching, event))
it = matching.erase(it);
else
++it;
}
size_t ret{0};
for(auto it(begin(matching)); it != end(matching); ++it, ++ret)
if(!callback(**it))
return ret;
return ret;
}
//
// hook::base
//
/// Primary hook ctor
ircd::m::hook::base::base(const json::members &members)
:_feature
{
_hook_make_feature(members)
}
,feature
{
_feature
}
,matching
{
feature
}
{
site *site; try
{
if((site = find_site()))
site->add(*this);
}
catch(...)
{
if(registered)
{
auto *const site(find_site());
assert(site != nullptr);
site->del(*this);
}
}
}
ircd::m::hook::base::~base()
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noexcept
{
if(!registered)
return;
auto *const site
{
find_site()
};
// should be non-null if !registered
assert(site != nullptr);
// if someone is calling and inside this hook we shouldn't be destructing
assert(calling == 0);
// if someone is calling the hook::site but inside some other hook, we can
// still remove this hook from the site.
//assert(site->calling == 0);
site->del(*this);
}
ircd::m::hook::base::site *
ircd::m::hook::base::find_site()
const
{
const auto &site_name
{
this->site_name()
};
if(!site_name)
return nullptr;
for(auto *const &site : m::hook::base::site::list)
if(site->name() == site_name)
return site;
return nullptr;
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}
ircd::string_view
ircd::m::hook::base::site_name()
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const try
{
return unquote(feature.at("_site"));
}
catch(const std::out_of_range &e)
{
throw panic
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{
"Hook %p must name a '_site' to register with.", this
};
}
//
// hook::site
//
//
// hook::site::site
//
ircd::m::hook::base::site::site(const json::members &members)
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:_feature
{
members
}
,feature
{
_feature
}
,maps
{
std::make_unique<struct maps>()
}
,exceptions
{
feature.get<bool>("exceptions", true)
}
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{
for(const auto &site : list)
if(site->name() == name() && site != this)
throw error
{
"Hook site '%s' already registered at %p",
name(),
site
};
// Find and register all of the orphan hooks which were constructed before
// this site was constructed.
for(auto *const &hook : m::hook::base::list)
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if(hook->site_name() == name())
add(*hook);
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}
ircd::m::hook::base::site::~site()
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noexcept
{
assert(!calling);
const std::vector<base *> hooks
{
begin(this->hooks), end(this->hooks)
};
for(auto *const hook : hooks)
del(*hook);
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}
void
ircd::m::hook::base::site::match(const event &event,
const std::function<bool (base &)> &callback)
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{
maps->match(event, callback);
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}
bool
ircd::m::hook::base::site::add(base &hook)
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{
assert(!hook.registered);
assert(hook.site_name() == name());
assert(hook.matchers == 0);
if(!hooks.emplace(&hook).second)
{
log::warning
{
log, "Hook %p already registered to site %s",
&hook,
name()
};
return false;
}
assert(maps);
const size_t matched
{
maps->add(hook, hook.matching)
};
hook.matchers = matched;
hook.registered = true;
matchers += matched;
++count;
log::debug
{
log, "Registered hook %p to site %s",
&hook,
name()
};
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return true;
}
bool
ircd::m::hook::base::site::del(base &hook)
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{
log::debug
{
log, "Removing hook %p from site %s",
&hook,
name()
};
assert(hook.registered);
assert(hook.site_name() == name());
const size_t matched
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{
maps->del(hook, hook.matching)
};
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const auto erased
{
hooks.erase(&hook)
};
hook.matchers -= matched;
hook.registered = false;
matchers -= matched;
--count;
assert(hook.matchers == 0);
assert(erased);
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return true;
}
ircd::string_view
ircd::m::hook::base::site::name()
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const try
{
return unquote(feature.at("name"));
}
catch(const std::out_of_range &e)
{
throw panic
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{
"Hook site %p requires a name", this
};
}
//
// hook<void>
//
ircd::m::hook::hook<void>::hook(const json::members &feature,
decltype(function) function)
:base{feature}
,function{std::move(function)}
{
}
ircd::m::hook::hook<void>::hook(decltype(function) function,
const json::members &feature)
:base{feature}
,function{std::move(function)}
{
}
ircd::m::hook::site<void>::site(const json::members &feature)
:base::site{feature}
{
}
void
ircd::m::hook::site<void>::operator()(const event &event)
{
match(event, [this, &event]
(base &base)
{
call(dynamic_cast<hook<void> &>(base), event);
return true;
});
}
void
ircd::m::hook::site<void>::call(hook<void> &hfn,
const event &event)
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);
}
catch(const std::exception &e)
{
if(exceptions)
throw;
log::critical
{
log, "Unhandled hookfn(%p) %s error :%s",
&hfn,
string_view{hfn.feature},
e.what()
};
}
//
// hook internal
//
/// Internal interface which manipulates the initializer supplied by the
/// developer to the hook to create the proper JSON output. i.e They supply
/// a "room_id" of "!config" which has no hostname, that is added here
/// depending on my_host() in the deployment runtime...
///
ircd::json::strung
ircd::m::_hook_make_feature(const json::members &members)
{
const ctx::critical_assertion ca;
std::vector<json::member> copy
{
begin(members), end(members)
};
for(auto &member : copy) switch(hash(member.first))
{
case hash("room_id"):
_hook_fix_room_id(members, member);
continue;
case hash("sender"):
_hook_fix_sender(members, member);
continue;
case hash("state_key"):
_hook_fix_state_key(members, member);
continue;
}
return { copy.data(), copy.data() + copy.size() };
}
void
ircd::m::_hook_fix_sender(const json::members &members,
json::member &member)
{
// Rewrite the sender if the supplied input has no hostname
if(valid_local_only(id::USER, member.second))
{
assert(my_host());
thread_local char buf[256];
member.second = id::user { buf, member.second, my_host() };
}
validate(id::USER, member.second);
}
void
ircd::m::_hook_fix_room_id(const json::members &members,
json::member &member)
{
// Rewrite the room_id if the supplied input has no hostname
if(valid_local_only(id::ROOM, member.second))
{
assert(my_host());
thread_local char buf[256];
member.second = id::room { buf, member.second, my_host() };
}
validate(id::ROOM, member.second);
}
void
ircd::m::_hook_fix_state_key(const json::members &members,
json::member &member)
{
const bool is_member_event
{
end(members) != std::find_if(begin(members), end(members), []
(const auto &member)
{
return member.first == "type" && member.second == "m.room.member";
})
};
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if(!is_member_event)
return;
// Rewrite the sender if the supplied input has no hostname
if(valid_local_only(id::USER, member.second))
{
assert(my_host());
thread_local char buf[256];
member.second = id::user { buf, member.second, my_host() };
}
validate(id::USER, member.second);
}
bool
ircd::m::_hook_match(const m::event &matching,
const m::event &event)
{
if(json::get<"origin"_>(matching))
if(at<"origin"_>(matching) != json::get<"origin"_>(event))
return false;
if(json::get<"room_id"_>(matching))
if(at<"room_id"_>(matching) != json::get<"room_id"_>(event))
return false;
if(json::get<"sender"_>(matching))
if(at<"sender"_>(matching) != json::get<"sender"_>(event))
return false;
if(json::get<"type"_>(matching))
if(at<"type"_>(matching) != json::get<"type"_>(event))
return false;
if(json::get<"state_key"_>(matching))
if(at<"state_key"_>(matching) != json::get<"state_key"_>(event))
return false;
if(membership(matching))
if(membership(matching) != membership(event))
return false;
if(json::get<"content"_>(matching))
if(json::get<"type"_>(event) == "m.room.message")
if(at<"content"_>(matching).has("msgtype"))
if(at<"content"_>(matching).get("msgtype") != json::get<"content"_>(event).get("msgtype"))
return false;
return true;
}
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///////////////////////////////////////////////////////////////////////////////
//
// m/error.h
//
namespace ircd::m
{
const std::array<http::header, 1> _error_headers
{{
{ "Content-Type", "application/json; charset=utf-8" },
}};
}
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thread_local
decltype(ircd::m::error::fmtbuf)
ircd::m::error::fmtbuf
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{};
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//
// error::error
//
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ircd::m::error::error()
:error
{
internal, http::INTERNAL_SERVER_ERROR, std::string{},
}
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{}
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ircd::m::error::error(std::string c)
:error
{
internal, http::INTERNAL_SERVER_ERROR, std::move(c),
}
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{}
ircd::m::error::error(const http::code &c)
:error
{
internal, c, std::string{},
}
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{}
ircd::m::error::error(const http::code &c,
const json::members &members)
:error
{
internal, c, json::strung{members},
}
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{}
ircd::m::error::error(const http::code &c,
const json::iov &iov)
:error
{
internal, c, json::strung{iov},
}
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{}
ircd::m::error::error(const http::code &c,
const json::object &object)
:error
{
internal, c, json::strung{object},
}
{}
ircd::m::error::error(internal_t,
const http::code &c,
std::string object)
:http::error
{
c, std::move(object), vector_view<const http::header>{_error_headers}
}
{
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if(!content.empty())
{
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strlcat(ircd::exception::buf, " ");
strlcat(ircd::exception::buf, errcode());
strlcat(ircd::exception::buf, " :");
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strlcat(ircd::exception::buf, errstr());
}
}
ircd::string_view
ircd::m::error::errstr()
const noexcept
{
const json::object &content
{
this->http::error::content
};
return unquote(content.get("error"));
}
ircd::string_view
ircd::m::error::errcode()
const noexcept
{
const json::object &content
{
this->http::error::content
};
return unquote(content.get("errcode", "M_UNKNOWN"_sv));
}