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construct/matrix/dbs.cc

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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.
/// Residence of the events database instance pointer.
decltype(ircd::m::dbs::events)
ircd::m::dbs::events;
/// Coarse variable for enabling the uncompressed cache on the events database;
/// note this conf item is only effective by setting an environmental variable
/// before daemon startup. It has no effect in any other regard.
decltype(ircd::m::dbs::cache_enable)
ircd::m::dbs::cache_enable
{
{ "name", "ircd.m.dbs.cache.enable" },
{ "default", true },
};
/// Coarse variable for enabling the compressed cache on the events database;
/// note this conf item is only effective by setting an environmental variable
/// before daemon startup. It has no effect in any other regard.
decltype(ircd::m::dbs::cache_comp_enable)
ircd::m::dbs::cache_comp_enable
{
{ "name", "ircd.m.dbs.cache.comp.enable" },
{ "default", false },
};
/// The size of the memory buffer for new writes to the DB (backed by the WAL
/// on disk). When this buffer is full it is flushed to sorted SST files on
/// disk. If this is 0, a per-column value can be used; otherwise this value
/// takes precedence as a total value for all columns. (db_write_buffer_size)
decltype(ircd::m::dbs::mem_write_buffer_size)
ircd::m::dbs::mem_write_buffer_size
{
{ "name", "ircd.m.dbs.mem.write_buffer_size" },
{ "default", 0L },
};
/// Value determines the size of writes when creating SST files (i.e during
/// compaction). Consider that write calls are yield-points for IRCd and the
/// time spent filling the write buffer between calls may hog the CPU doing
/// compression during that time etc. (writable_file_max_buffer_size)
decltype(ircd::m::dbs::sst_write_buffer_size)
ircd::m::dbs::sst_write_buffer_size
{
{
{ "name", "ircd.m.dbs.sst.write_buffer_size" },
{ "default", long(1_MiB) },
}, []
{
static const string_view key{"writable_file_max_buffer_size"};
const size_t &value{sst_write_buffer_size};
if(events)
db::setopt(*events, key, lex_cast(value));
}
};
//
// init
//
/// Initializes the m::dbs subsystem; sets up the events database. Held/called
/// by m::init. Most of the extern variables in m::dbs are not ready until
/// this call completes.
///
/// We also update the fs::basepath for the database directory to include our
/// servername in the path component. The fs::base::DB setting was generated
/// during the build and install process, and is unaware of our servername
/// at runtime. This change deconflicts multiple instances of IRCd running in
/// the same installation prefix using different servernames (i.e clustering
/// on the same machine).
///
ircd::m::dbs::init::init(const string_view &servername,
std::string dbopts)
:our_dbpath
{
ircd::string(fs::PATH_MAX_LEN | SHRINK_TO_FIT, [&servername]
(const mutable_buffer &buf)
{
return fs::path(buf, fs::base::DB, servername);
})
}
,their_dbpath
{
// NOTE that this is a global change that leaks outside of ircd::m. The
// database directory for the entire process is being changed here.
fs::basepath::set(fs::base::DB, our_dbpath)
}
{
// Recall the db directory init manually with the now-updated basepath
db::init::directory();
// Open the events database
static const string_view &dbname{"events"};
events = std::make_shared<database>(dbname, std::move(dbopts), desc::events);
// Cache the columns for the event tuple in order for constant time lookup
assert(event_columns == event::size());
std::array<string_view, event::size()> keys; //TODO: why did this happen?
_key_transform(event{}, begin(keys), end(keys)); //TODO: how did this happen?
// Construct global convenience references for the event property columns.
for(size_t i(0); i < keys.size(); ++i)
event_column.at(i) = db::column
{
*events, keys.at(i), std::nothrow
};
// Construct global convenience references for the metadata columns
event_idx = db::column{*events, desc::event_idx.name};
event_json = db::column{*events, desc::event_json.name};
event_refs = db::domain{*events, desc::event_refs.name};
event_horizon = db::domain{*events, desc::event_horizon.name};
event_sender = db::domain{*events, desc::event_sender.name};
event_type = db::domain{*events, desc::event_type.name};
event_state = db::domain{*events, desc::event_state.name};
room_head = db::domain{*events, desc::room_head.name};
room_events = db::domain{*events, desc::room_events.name};
room_type = db::domain{*events, desc::room_type.name};
room_joined = db::domain{*events, desc::room_joined.name};
room_state = db::domain{*events, desc::room_state.name};
room_state_space = db::domain{*events, desc::room_state_space.name};
}
/// Shuts down the m::dbs subsystem; closes the events database. The extern
/// variables in m::dbs will no longer be functioning after this call.
ircd::m::dbs::init::~init()
noexcept
{
// Unref DB (should close)
events = {};
// restore the fs::base::DB path the way we found it.
fs::basepath::set(fs::base::DB, their_dbpath);
}
//
// write_opts
//
decltype(ircd::m::dbs::write_opts::event_refs_all)
ircd::m::dbs::write_opts::event_refs_all{[]
{
char full[event_refs_all.size()];
memset(full, '1', sizeof(full));
return decltype(event_refs_all)
{
full, sizeof(full)
};
}()};
decltype(ircd::m::dbs::write_opts::appendix_all)
ircd::m::dbs::write_opts::appendix_all{[]
{
char full[appendix_all.size()];
memset(full, '1', sizeof(full));
return decltype(appendix_all)
{
full, sizeof(full)
};
}()};
//
// Basic write suite
//
namespace ircd::m::dbs
{
static void _index(db::txn &, const event &, const write_opts &);
static void blacklist(db::txn &txn, const event::id &, const write_opts &);
}
void
ircd::m::dbs::write(db::txn &txn,
const event &event,
const write_opts &opts)
try
{
if(opts.event_idx == 0 && opts.blacklist)
return blacklist(txn, event.event_id, opts);
if(unlikely(opts.event_idx == 0))
throw panic
{
"Cannot write to database: no index specified for event."
};
_index(txn, event, opts);
}
catch(const std::exception &e)
{
log::error
{
log, "Event %s txn building error :%s",
string_view{event.event_id},
e.what()
};
throw;
}
void
ircd::m::dbs::blacklist(db::txn &txn,
const event::id &event_id,
const write_opts &opts)
{
// An entry in the event_idx column with a value 0 is blacklisting
// because 0 is not a valid event_idx. Thus a value here can only
// have the value zero.
assert(opts.event_idx == 0);
assert(!event_id.empty());
static const m::event::idx &zero_idx{0UL};
static const byte_view<string_view> zero_value
{
zero_idx
};
db::txn::append
{
txn, event_idx,
{
opts.op,
string_view{event_id},
zero_value
}
};
}
//
// Internal interface
//
namespace ircd::m::dbs
{
static void _index_room_redact(db::txn &, const event &, const write_opts &);
static void _index_room(db::txn &, const event &, const write_opts &);
static void _index_event(db::txn &, const event &, const write_opts &);
}
void
ircd::m::dbs::_index(db::txn &txn,
const event &event,
const write_opts &opts)
{
_index_event(txn, event, opts);
if(json::get<"room_id"_>(event))
_index_room(txn, event, opts);
}
void
ircd::m::dbs::_index_event(db::txn &txn,
const event &event,
const write_opts &opts)
{
if(opts.appendix.test(appendix::EVENT_ID))
_index_event_id(txn, event, opts);
if(opts.appendix.test(appendix::EVENT_COLS))
_index_event_cols(txn, event, opts);
if(opts.appendix.test(appendix::EVENT_JSON))
_index_event_json(txn, event, opts);
if(opts.appendix.test(appendix::EVENT_SENDER))
_index_event_sender(txn, event, opts);
if(opts.appendix.test(appendix::EVENT_TYPE))
_index_event_type(txn, event, opts);
if(opts.appendix.test(appendix::EVENT_STATE))
_index_event_state(txn, event, opts);
if(opts.appendix.test(appendix::EVENT_REFS) && opts.event_refs.any())
_index_event_refs(txn, event, opts);
if(opts.appendix.test(appendix::EVENT_HORIZON_RESOLVE) && opts.horizon_resolve.any())
_index_event_horizon_resolve(txn, event, opts);
}
void
ircd::m::dbs::_index_room(db::txn &txn,
const event &event,
const write_opts &opts)
{
assert(!empty(json::get<"room_id"_>(event)));
if(opts.appendix.test(appendix::ROOM_EVENTS))
_index_room_events(txn, event, opts);
if(opts.appendix.test(appendix::ROOM_TYPE))
_index_room_type(txn, event, opts);
if(opts.appendix.test(appendix::ROOM_HEAD))
_index_room_head(txn, event, opts);
if(opts.appendix.test(appendix::ROOM_HEAD_RESOLVE))
_index_room_head_resolve(txn, event, opts);
if(defined(json::get<"state_key"_>(event)))
{
if(opts.appendix.test(appendix::ROOM_STATE))
_index_room_state(txn, event, opts);
if(opts.appendix.test(appendix::ROOM_STATE_SPACE))
_index_room_state_space(txn, event, opts);
if(opts.appendix.test(appendix::ROOM_JOINED) && at<"type"_>(event) == "m.room.member")
_index_room_joined(txn, event, opts);
}
if(opts.appendix.test(appendix::ROOM_REDACT) && json::get<"type"_>(event) == "m.room.redaction")
_index_room_redact(txn, event, opts);
}
// NOTE: QUERY
void
ircd::m::dbs::_index_room_redact(db::txn &txn,
const event &event,
const write_opts &opts)
{
assert(opts.appendix.test(appendix::ROOM_REDACT));
assert(json::get<"type"_>(event) == "m.room.redaction");
const auto &target_id
{
at<"redacts"_>(event)
};
const m::event::idx target_idx
{
find_event_idx(target_id, opts)
};
if(unlikely(!target_idx))
{
log::dwarning
{
"Redaction from '%s' missing redaction target '%s'",
string_view{event.event_id},
target_id
};
if(opts.appendix.test(appendix::EVENT_HORIZON))
_index_event_horizon(txn, event, opts, target_id);
return;
}
char state_key_buf[event::STATE_KEY_MAX_SIZE];
const string_view &state_key
{
m::get(std::nothrow, target_idx, "state_key", state_key_buf)
};
if(!state_key)
return;
char type_buf[event::TYPE_MAX_SIZE];
const string_view &type
{
m::get(std::nothrow, target_idx, "type", type_buf)
};
assert(!empty(type));
const ctx::critical_assertion ca;
thread_local char buf[ROOM_STATE_SPACE_KEY_MAX_SIZE];
const string_view &key
{
room_state_key(buf, at<"room_id"_>(event), type, state_key)
};
db::txn::append
{
txn, room_state,
{
db::op::DELETE,
key,
}
};
}
// NOTE: QUERY
ircd::m::event::idx
ircd::m::dbs::find_event_idx(const event::id &event_id,
const write_opts &wopts)
{
event::idx ret{0};
if(wopts.interpose)
ret = wopts.interpose->val(db::op::SET, "_event_idx", event_id, 0UL);
if(wopts.allow_queries && !ret)
ret = m::index(std::nothrow, event_id); // query
return ret;
}