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construct/matrix/dbs_room_events.cc
2020-05-19 15:55:18 -07:00

319 lines
7.5 KiB
C++

// The Construct
//
// Copyright (C) The Construct Developers, Authors & Contributors
// Copyright (C) 2016-2020 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::dbs
{
static bool room_events__cmp_lt(const string_view &, const string_view &);
}
/// Linkage for a reference to the room_events column
decltype(ircd::m::dbs::room_events)
ircd::m::dbs::room_events;
decltype(ircd::m::dbs::desc::room_events__block__size)
ircd::m::dbs::desc::room_events__block__size
{
{ "name", "ircd.m.dbs._room_events.block.size" },
{ "default", 512L },
};
decltype(ircd::m::dbs::desc::room_events__meta_block__size)
ircd::m::dbs::desc::room_events__meta_block__size
{
{ "name", "ircd.m.dbs._room_events.meta_block.size" },
{ "default", long(16_KiB) },
};
decltype(ircd::m::dbs::desc::room_events__cache__size)
ircd::m::dbs::desc::room_events__cache__size
{
{
{ "name", "ircd.m.dbs._room_events.cache.size" },
{ "default", long(32_MiB) },
}, []
{
const size_t &value{room_events__cache__size};
db::capacity(db::cache(dbs::room_events), value);
}
};
decltype(ircd::m::dbs::desc::room_events__cache_comp__size)
ircd::m::dbs::desc::room_events__cache_comp__size
{
{
{ "name", "ircd.m.dbs._room_events.cache_comp.size" },
{ "default", long(16_MiB) },
}, []
{
const size_t &value{room_events__cache_comp__size};
db::capacity(db::cache_compressed(dbs::room_events), value);
}
};
/// Prefix transform for the room_events. The prefix here is a room_id
/// and the suffix is the depth+event_id concatenation.
/// for efficient sequences
///
const ircd::db::prefix_transform
ircd::m::dbs::desc::room_events__pfx
{
"_room_events",
[](const string_view &key)
{
return has(key, "\0"_sv);
},
[](const string_view &key)
{
return split(key, '\0').first;
}
};
/// Comparator for the room_events. The goal here is to sort the
/// events within a room by their depth from highest to lowest, so the
/// highest depth is hit first when a room is sought from this column.
///
const ircd::db::comparator
ircd::m::dbs::desc::room_events__cmp
{
"_room_events",
room_events__cmp_lt,
std::equal_to<string_view>{},
};
/// This column stores events in sequence in a room. Consider the following:
///
/// [room_id | depth + event_idx]
///
/// The key is composed from three parts:
///
/// - `room_id` is the official prefix, bounding the sequence. That means we
/// make a blind query with just a room_id and get to the beginning of the
/// sequence, then iterate until we stop before the next room_id (upper bound).
///
/// - `depth` is the ordering. Within the sequence, all elements are ordered by
/// depth from HIGHEST TO LOWEST. The sequence will start at the highest depth.
/// NOTE: Depth is a fixed 8 byte binary integer.
///
/// - `event_idx` is the key suffix. This column serves to sequence all events
/// within a room ordered by depth. There may be duplicate room_id|depth
/// prefixing but the event_idx suffix gives the key total uniqueness.
/// NOTE: event_idx is a fixed 8 byte binary integer.
///
const ircd::db::descriptor
ircd::m::dbs::desc::room_events
{
// name
"_room_events",
// explanation
R"(Indexes events in timeline sequence for a room
[room_id | depth + event_idx]
)",
// typing (key, value)
{
typeid(string_view), typeid(string_view)
},
// options
{},
// comparator
room_events__cmp,
// prefix transform
room_events__pfx,
// drop column
false,
// cache size
bool(cache_enable)? -1 : 0,
// cache size for compressed assets
bool(cache_comp_enable)? -1 : 0,
// bloom filter bits
0, // no bloom filter because of possible comparator issues
// expect queries hit
true,
// block size
size_t(room_events__block__size),
// meta_block size
size_t(room_events__meta_block__size),
};
//
// indexer
//
/// Adds the entry for the room_events column into the txn.
void
ircd::m::dbs::_index_room_events(db::txn &txn,
const event &event,
const write_opts &opts)
{
assert(opts.appendix.test(appendix::ROOM_EVENTS));
thread_local char buf[ROOM_EVENTS_KEY_MAX_SIZE];
const ctx::critical_assertion ca;
const string_view &key
{
room_events_key(buf, at<"room_id"_>(event), at<"depth"_>(event), opts.event_idx)
};
db::txn::append
{
txn, room_events,
{
opts.op, // db::op
key, // key,
}
};
}
//
// cmp
//
bool
ircd::m::dbs::room_events__cmp_lt(const string_view &a,
const string_view &b)
{
static const auto &pt
{
desc::room_events__pfx
};
// Extract the prefix from the keys
const string_view pre[2]
{
pt.get(a),
pt.get(b),
};
if(size(pre[0]) != size(pre[1]))
return size(pre[0]) < size(pre[1]);
if(pre[0] != pre[1])
return pre[0] < pre[1];
// After the prefix is the depth + event_idx
const string_view post[2]
{
a.substr(size(pre[0])),
b.substr(size(pre[1])),
};
// These conditions are matched on some queries when the user only
// supplies a room id.
if(empty(post[0]))
return true;
if(empty(post[1]))
return false;
// Distill out the depth and event_idx integers
const auto &[depth_a, event_idx_a]
{
room_events_key(post[0])
};
const auto &[depth_b, event_idx_b]
{
room_events_key(post[1])
};
// When two events are at the same depth sort by index (the sequence
// number given as they were admitted into the system) otherwise
// sort by depth. Note this is a reverse order comparison.
const auto ret
{
depth_b != depth_a?
depth_b < depth_a:
event_idx_b < event_idx_a
};
return ret;
}
//
// key
//
std::tuple<uint64_t, ircd::m::event::idx>
ircd::m::dbs::room_events_key(const string_view &amalgam)
{
assert(size(amalgam) >= 1 + 8 + 8 || size(amalgam) == 1 + 8);
assert(amalgam.front() == '\0');
const uint64_t &depth
{
*reinterpret_cast<const uint64_t *>(data(amalgam) + 1)
};
const event::idx &event_idx
{
size(amalgam) >= 1 + 8 + 8?
*reinterpret_cast<const event::idx *>(data(amalgam) + 1 + 8):
std::numeric_limits<event::idx>::max()
};
// Make sure these are copied rather than ever returning references in
// a tuple because the chance the integers will be aligned is low.
return { depth, event_idx };
}
ircd::string_view
ircd::m::dbs::room_events_key(const mutable_buffer &out_,
const id::room &room_id,
const uint64_t &depth)
{
mutable_buffer out{out_};
consume(out, copy(out, room_id));
consume(out, copy(out, '\0'));
consume(out, copy(out, byte_view<string_view>(depth)));
const mutable_buffer ret
{
data(out_), data(out)
};
assert(size(ret) == size(room_id) + 1 + 8);
return ret;
}
ircd::string_view
ircd::m::dbs::room_events_key(const mutable_buffer &out_,
const id::room &room_id,
const uint64_t &depth,
const event::idx &event_idx)
{
mutable_buffer out{out_};
consume(out, copy(out, room_id));
consume(out, copy(out, '\0'));
consume(out, copy(out, byte_view<string_view>(depth)));
consume(out, copy(out, byte_view<string_view>(event_idx)));
const mutable_buffer ret
{
data(out_), data(out)
};
assert(size(ret) == size(room_id) + 1 + 8 + 8);
return ret;
}