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construct/modules/m_typing.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.
using namespace ircd;
mapi::header
IRCD_MODULE
{
"Matrix Typing"
};
struct typist
{
using is_transparent = void;
system_point timesout;
m::user::id::buf user_id;
m::room::id::buf room_id;
bool operator()(const typist &a, const string_view &b) const;
bool operator()(const string_view &a, const typist &b) const;
bool operator()(const typist &a, const typist &b) const;
};
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ctx::dock
timeout_dock;
std::set<typist, typist>
typists;
conf::item<milliseconds>
timeout_max
{
{ "name", "ircd.typing.timeout.max" },
{ "default", 90 * 1000L },
};
conf::item<milliseconds>
timeout_min
{
{ "name", "ircd.typing.timeout.min" },
{ "default", 15 * 1000L },
};
static system_point calc_timesout(milliseconds relative);
static bool update_state(const m::typing &);
extern "C" bool for_each(const m::typing::closure_bool &);
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extern "C" m::event::id::buf commit(const m::typing &edu);
//
// typing commit handler stack (local user)
//
// This function is called via ircd::m::typing linkage to create a typing
// event originating from our client. This event takes the form of the
// federation edu and is broadcast to servers. Unfortunately the matrix
// client spec has a different edu format for typing; so to propagate this
// event to clients we hook it during eval and create a new event formatted
// for clients and then run that through eval too. (see below).
//
m::event::id::buf
commit(const m::typing &edu)
{
// Check if the user is actually in the room.
const m::room room{at<"room_id"_>(edu)};
if(!room.membership(at<"user_id"_>(edu), "join"))
throw m::FORBIDDEN
{
"Cannot type in a room %s to which you are not joined",
string_view{room.room_id}
};
// Clients like Riot will send erroneous and/or redundant typing requests
// for example requesting typing=false when the state already =false.
// We don't want to tax the vm::eval for this noise so we try to update
// state first and if that returns false it indicates we should ignore.
if(!update_state(edu))
return {};
json::iov event, content;
const json::iov::push push[]
{
{ event, { "type", "m.typing" } },
{ event, { "room_id", at<"room_id"_>(edu) } },
{ content, { "user_id", at<"user_id"_>(edu) } },
{ content, { "room_id", at<"room_id"_>(edu) } },
{ content, { "typing", json::get<"typing"_>(edu) } },
};
m::vm::copts opts;
opts.add_hash = false;
opts.add_sig = false;
opts.add_event_id = false;
opts.add_origin = true;
opts.add_origin_server_ts = false;
opts.conforming = false;
// Because the matrix spec should use the same format for client
// and federation typing events, we don't prevent this from being
// sent to clients who wish to preemptively implement this format.
//opts.notify_clients = false;
return m::vm::eval
{
event, content, opts
};
}
//
// typing edu handler stack (local and remote)
//
static void _handle_edu_m_typing(const m::event &, const m::typing &edu);
static void _handle_edu_m_typing(const m::event &, const m::typing &edu);
static void handle_edu_m_typing(const m::event &, m::vm::eval &);
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/// Hooks all federation typing edus from remote servers as well as
/// the above commit from local clients. This hook rewrites the edu into
/// a new event formatted for client /sync and then runs that through eval
/// so our clients can receive the typing events.
///
const m::hookfn<m::vm::eval &>
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_m_typing_eval
{
handle_edu_m_typing,
{
{ "_site", "vm.eval" },
{ "type", "m.typing" },
}
};
void
handle_edu_m_typing(const m::event &event,
m::vm::eval &eval)
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{
const json::object &content
{
at<"content"_>(event)
};
_handle_edu_m_typing(event, content);
}
void
_handle_edu_m_typing(const m::event &event,
const m::typing &edu)
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{
// This check prevents interference between the two competing edu formats;
// The federation edu has a room_id field while the client edu only has a
// user_id's array. We don't need to hook on the client edu here.
if(!json::get<"room_id"_>(edu))
return;
const m::room::id &room_id
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{
at<"room_id"_>(edu)
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};
const m::user::id &user_id
{
at<"user_id"_>(edu)
};
// Check if this server can send an edu for this user. We make an exception
// for our server to allow the timeout worker to use this codepath.
if(!my_host(at<"origin"_>(event)) && user_id.host() != at<"origin"_>(event))
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{
log::dwarning
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{
"Ignoring %s from %s for user %s",
at<"type"_>(event),
at<"origin"_>(event),
string_view{user_id}
};
return;
}
// Update the typing state map for edu's from other servers only; the
// state map was already updated for our clients in the committer. Also
// condition for skipping redundant updates here too based on the state.
if(!my_host(at<"origin"_>(event)))
{
// Check if the user is actually in the room. The check is in this
// branch for remote servers only because our committer above did this
// already for our client.
const m::room room{room_id};
if(!room.membership(user_id, "join"))
{
log::dwarning
{
"Ignoring %s from %s for user %s because not in room '%s'",
at<"type"_>(event),
at<"origin"_>(event),
string_view{user_id},
string_view{room_id},
};
return;
}
// Set the (non-spec) timeout field of the edu which remote servers
// don't/can't set and then update the state. Use the maximum timeout
// value here because the minimum might unfairly time them out.
auto _edu(edu);
json::get<"timeout"_>(_edu) = milliseconds(timeout_max).count();
if(!update_state(_edu))
return;
}
log::info
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{
"%s %s %s typing in %s",
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at<"origin"_>(event),
string_view{user_id},
json::get<"typing"_>(edu)? "started"_sv : "stopped"_sv,
string_view{room_id}
};
m::event typing{event};
json::get<"room_id"_>(typing) = room_id;
json::get<"type"_>(typing) = "m.typing"_sv;
// Buffer has to hold user mxid and then some JSON overhead (see below)
char buf[m::id::MAX_SIZE + 65];
const json::value user_ids[]
{
{ user_id }
};
json::get<"content"_>(typing) = json::stringify(mutable_buffer{buf}, json::members
{
{ "user_ids", { user_ids, size_t(bool(json::get<"typing"_>(edu))) } }
});
m::vm::opts vmopts;
vmopts.notify_servers = false;
vmopts.conforming = false;
m::vm::eval eval
{
typing, vmopts
};
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}
//
// timeout worker stack
//
static void timeout_timeout(const typist &);
static bool timeout_check();
static void timeout_worker();
context timeout_context
{
"typing", 128_KiB, context::POST, timeout_worker
};
void
timeout_worker()
{
while(1)
{
timeout_dock.wait([]
{
return !typists.empty();
});
if(!timeout_check())
ctx::sleep(seconds(5));
}
}
bool
timeout_check()
{
const auto now
{
ircd::now<system_point>()
};
auto it(begin(typists));
for(auto it(begin(typists)); it != end(typists); ++it)
if(it->timesout < now)
{
// have to restart the loop if there's a timeout because
// the call will have yields and invalidate iterators etc.
const auto copy(*it);
typists.erase(it);
timeout_timeout(copy);
return true;
}
return false;
}
void
timeout_timeout(const typist &t)
{
const m::typing edu
{
{ "user_id", t.user_id },
{ "room_id", t.room_id },
{ "typing", false },
};
log::debug
{
"Typing timeout for %s in %s",
string_view{t.user_id},
string_view{t.room_id}
};
m::event event;
json::get<"origin"_>(event) = my_host();
json::get<"type"_>(event) = "m.typing"_sv;
// Call this manually because it currently composes the event
// sent to clients to stop the typing for this timed out user.
_handle_edu_m_typing(event, edu);
}
//
// misc
//
bool
for_each(const m::typing::closure_bool &closure)
{
// User cannot yield in their closure because the iteration
// may be invalidated by the timeout worker during their yield.
const ctx::critical_assertion ca;
for(const auto &t : typists)
{
const time_t timeout
{
system_clock::to_time_t(t.timesout)
};
const m::typing event
{
{ "user_id", t.user_id },
{ "room_id", t.room_id },
{ "typing", true },
{ "timeout", timeout },
};
if(!closure(event))
return false;
}
return true;
}
bool
update_state(const m::typing &object)
{
const auto &user_id
{
at<"user_id"_>(object)
};
const auto &room_id
{
at<"room_id"_>(object)
};
const auto &typing
{
at<"typing"_>(object)
};
const milliseconds timeout
{
at<"timeout"_>(object)
};
auto it
{
typists.lower_bound(user_id)
};
const bool was_typing
{
it != end(typists) && it->user_id == user_id
};
if(typing && !was_typing)
{
typists.emplace_hint(it, typist
{
calc_timesout(timeout), user_id, room_id
});
timeout_dock.notify_one();
}
else if(typing && was_typing)
{
auto &t(const_cast<typist &>(*it));
t.timesout = calc_timesout(timeout);
}
else if(!typing && was_typing)
{
typists.erase(it);
}
const bool transmit
{
(typing && !was_typing) || (!typing && was_typing)
};
log::debug
{
"Typing %s in %s now[%b] was[%b] xmit[%b]",
string_view{at<"user_id"_>(object)},
string_view{at<"room_id"_>(object)},
json::get<"typing"_>(object),
was_typing,
transmit
};
return transmit;
}
system_point
calc_timesout(milliseconds timeout)
{
timeout = std::max(timeout, milliseconds(timeout_min));
timeout = std::min(timeout, milliseconds(timeout_max));
return now<system_point>() + timeout;
}
//
// typist struct
//
bool
typist::operator()(const typist &a, const string_view &b)
const
{
return a.user_id < b;
}
bool
typist::operator()(const string_view &a, const typist &b)
const
{
return a < b.user_id;
}
bool
typist::operator()(const typist &a, const typist &b)
const
{
return a.user_id < b.user_id;
}