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construct/matrix/room_head.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.
namespace ircd::m
{
static void append_v1(json::stack::array &, const event::id &);
static void append_v3(json::stack::array &, const event::id &);
}
ircd::m::room::head::generate::generate(const mutable_buffer &buf,
const m::room::head &head,
const opts &opts)
{
if(empty(buf))
return;
json::stack out{buf};
{
json::stack::array array
{
out
};
const generate g
{
array, head, opts
};
this->depth = g.depth;
}
this->array = out.completed();
}
ircd::m::room::head::generate::generate(json::stack::array &out,
const m::room::head &head,
const opts &opts)
try
{
if(!head.room)
return;
// Query the room version unless hinted in the opts
char versionbuf[32];
const auto version
{
opts.version?:
m::version(versionbuf, head.room, std::nothrow)
};
// The output format depends on the room version; we select an output
// function for the format here so we can abstractly call append().
const auto &append
{
version == "1" || version == "2"?
append_v1:
append_v3
};
// When the top_head option is given we query for that here
const auto top_head
{
opts.need_top_head?
m::top(std::nothrow, head.room.room_id):
std::tuple<m::id::event::buf, int64_t, m::event::idx>{}
};
// Iterate the room head; starts with oldest events
bool need_top_head{opts.need_top_head};
bool need_my_head{opts.need_my_head};
ssize_t limit(opts.limit);
head.for_each([&]
(const event::idx &event_idx, const event::id &event_id)
{
// Determine the depth for metrics
const int64_t depth
{
event_id == std::get<0>(top_head)?
std::get<int64_t>(top_head):
m::get<int64_t>(std::nothrow, event_idx, "depth", -1L)
};
if(unlikely(depth < 0))
{
log::derror
{
log, "Missing depth for %s idx:%lu in room head of %s",
string_view{event_id},
event_idx,
string_view{head.room.room_id},
};
return true;
}
// When using the need_my_head option, if we hit a head which
// originated from this server we mark that is no longer needed.
if(need_my_head && event::my(event_idx))
need_my_head = false;
// If we hit the top_head during the loop we can mark that satisfied.
if(need_top_head && event_id == std::get<0>(top_head))
need_top_head = false;
// Two reference slots are reserved to fulfill these features; the
// loop will iterate without appending anything else.
const ssize_t remain
{
limit - need_my_head - need_top_head
};
// Skip/continue the loop if all that remains are reserved slots.
if(remain <= 0)
return true;
// Add this head reference to result to output.
append(out, event_id);
// Indicate if this depth is highest or lowest of the set.
this->depth[0] = std::min(depth, this->depth[0]);
this->depth[1] = std::max(depth, this->depth[1]);
// Continue loop until we're out of slots.
return --limit > 0;
});
// If the iteration did not provide us with the top_head and the opts
// require it, we add that here.
if(need_top_head)
{
assert(limit > 0);
append(out, std::get<0>(top_head));
this->depth[1] = std::get<1>(top_head);
need_top_head = false;
--limit;
if(need_my_head && event::my(std::get<event::idx>(top_head)))
need_my_head = false;
}
// If the iteration did not provide us with any heads from this origin
// and the opts require it, we find and add that here.
if(need_my_head)
for(m::room::events it{head.room}; it; --it)
{
if(!event::my(it.event_idx()))
continue;
const auto event_id
{
m::event_id(std::nothrow, it.event_idx())
};
if(unlikely(!event_id))
continue;
assert(limit > 0);
append(out, event_id);
const int64_t &depth(it.depth());
this->depth[0] = std::min(depth, this->depth[0]);
this->depth[1] = std::max(depth, this->depth[1]);
need_my_head = false;
--limit;
break;
}
assert(limit >= 0);
if(unlikely(opts.limit && size_t(limit) == opts.limit))
throw error
{
"Failed to find any events at the room head"
};
}
catch(const std::exception &e)
{
log::error
{
log, "%s prev_events generator :%s",
string_view{head.room},
e.what(),
};
throw;
}
void
ircd::m::append_v1(json::stack::array &out,
const event::id &event_id)
{
json::stack::array prev
{
out
};
// [0]
prev.append(event_id);
// [1]
json::stack::object nilly
{
prev
};
json::stack::member
{
nilly, "", ""
};
}
void
ircd::m::append_v3(json::stack::array &out,
const event::id &event_id)
{
out.append(event_id);
}
size_t
ircd::m::room::head::count()
const
{
size_t ret(0);
for_each([&ret]
(const event::idx &event_idx, const event::id &event_id)
{
++ret;
return true;
});
return ret;
}
bool
ircd::m::room::head::has(const event::id &event_id)
const
{
bool ret{false};
for_each([&ret, &event_id]
(const event::idx &event_idx, const event::id &event_id_)
{
ret = event_id_ == event_id;
return !ret; // for_each protocol: false to break
});
return ret;
}
bool
ircd::m::room::head::for_each(const closure &closure)
const
{
auto it
{
dbs::room_head.begin(room.room_id)
};
for(; it; ++it)
{
const event::id &event_id
{
dbs::room_head_key(it->first)
};
const event::idx &event_idx
{
byte_view<event::idx>{it->second}
};
if(!closure(event_idx, event_id))
return false;
}
return true;
}
//
// special tools
//
size_t
ircd::m::room::head::reset(const head &head)
{
size_t ret{0};
const auto &room{head.room};
m::room::events it{room};
if(!it)
return ret;
// Replacement will be the single new head
const m::event replacement
{
*it
};
db::txn txn
{
*m::dbs::events
};
// Iterate all of the existing heads with a delete operation
m::dbs::write_opts opts;
opts.op = db::op::DELETE;
opts.appendix.reset();
opts.appendix.set(dbs::appendix::ROOM_HEAD);
head.for_each([&room, &opts, &txn, &ret]
(const m::event::idx &event_idx, const m::event::id &event_id)
{
const m::event::fetch event
{
std::nothrow, event_idx
};
if(!event.valid)
{
log::derror
{
m::log, "Invalid event '%s' idx %lu in head for %s",
string_view{event_id},
event_idx,
string_view{room.room_id}
};
return true;
}
opts.event_idx = event_idx;
m::dbs::write(txn, event, opts);
++ret;
return true;
});
// Finally add the replacement to the txn
opts.op = db::op::SET;
opts.event_idx = it.event_idx();
m::dbs::write(txn, replacement, opts);
// Commit txn
txn();
return ret;
}
size_t
ircd::m::room::head::rebuild(const head &head)
{
size_t ret{0};
static const m::event::fetch::opts fopts
{
{ db::get::NO_CACHE }
};
m::room::events it
{
head.room, 0UL, &fopts
};
if(!it)
return ret;
db::txn txn
{
*m::dbs::events
};
m::dbs::write_opts opts;
opts.op = db::op::SET;
for(; it; ++it)
{
const m::event &event{*it};
opts.event_idx = it.event_idx();
opts.appendix.reset();
opts.appendix.set(dbs::appendix::ROOM_HEAD);
m::dbs::write(txn, event, opts);
++ret;
}
txn();
return ret;
}
void
ircd::m::room::head::modify(const m::event::id &event_id,
const db::op &op,
const bool &refs)
{
const m::event::fetch event
{
event_id
};
db::txn txn
{
*m::dbs::events
};
// Iterate all of the existing heads with a delete operation
m::dbs::write_opts opts;
opts.op = op;
opts.event_idx = event.event_idx;
opts.appendix.reset();
opts.appendix.set(dbs::appendix::ROOM_HEAD);
m::dbs::write(txn, event, opts);
// Commit txn
txn();
}