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construct/modules/client/sync/presence.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.
ircd::mapi::header
IRCD_MODULE
{
"Client Sync :Presence"
};
namespace ircd::m::sync
{
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static void presence_polylog_events(data &);
static void presence_polylog(data &);
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static void presence_linear_events(data &);
static void presence_linear(data &);
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extern item presence;
}
decltype(ircd::m::sync::presence)
ircd::m::sync::presence
{
"presence",
presence_polylog,
presence_linear,
};
void
ircd::m::sync::presence_linear(data &data)
{
return;
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assert(data.event);
const m::event &event
{
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*data.event
};
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if(json::get<"type"_>(event) != "ircd.presence")
return;
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if(json::get<"sender"_>(event) != m::me.user_id)
return;
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// sender
json::stack::member
{
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data.out, "sender", unquote(at<"content"_>(event).get("user_id"))
};
// type
json::stack::member
{
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data.out, "type", json::value{"m.presence"}
};
// content
json::stack::member
{
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data.out, "content", at<"content"_>(event)
};
return;
}
void
ircd::m::sync::presence_polylog(data &data)
{
json::stack::object object
{
data.out
};
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presence_polylog_events(data);
}
void
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ircd::m::sync::presence_polylog_events(data &data)
{
json::stack::array array
{
data.out, "events"
};
ctx::mutex mutex;
const auto append_event{[&data, &array, &mutex]
(const json::object &event)
{
// Lock the json::stack for the append operations. This mutex will only be
// contended during a json::stack flush to the client; not during database
// queries leading to this.
const std::lock_guard<decltype(mutex)> l{mutex};
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data.commit();
json::stack::object object
{
array
};
// sender
json::stack::member
{
object, "sender", unquote(event.get("user_id"))
};
// type
json::stack::member
{
object, "type", json::value{"m.presence"}
};
// content
json::stack::member
{
object, "content", event
};
}};
// Setup for parallelization.
static const size_t fibers(64); //TODO: conf
using buffer = std::array<char[m::id::MAX_SIZE+1], fibers>;
const auto buf(std::make_unique<buffer>());
std::array<string_view, fibers> q;
ctx::parallel<string_view> parallel
{
m::sync::pool, q, [&data, &append_event]
(const m::user::id user_id)
{
const event::idx event_idx
{
m::presence::get(std::nothrow, user_id)
};
if(apropos(data, event_idx))
m::get(std::nothrow, event_idx, "content", append_event);
}
};
// Iterate all of the users visible to our user in joined rooms.
const m::user::mitsein mitsein{data.user};
mitsein.for_each("join", [&parallel, &q, &buf]
(const m::user &user)
{
// Manual copy of the user_id string to the buffer and assignment
// of q at the next position. parallel.snd is the position in q
// which ctx::parallel wants us to store the next data at. The
// parallel() call doesn't return (blocks this context) until there's
// a next position available; propagating flow-control for the iter.
const auto pos(parallel.nextpos());
q[pos] = strlcpy(buf->at(pos), user.user_id);
parallel();
});
}