0
0
Fork 0
mirror of https://github.com/matrix-construct/construct synced 2024-11-30 02:32:43 +01:00
construct/include/ircd/m/dbs/dbs.h
2020-11-05 22:10:53 -08:00

240 lines
8.7 KiB
C++

// Matrix Construct
//
// Copyright (C) Matrix Construct Developers, Authors & Contributors
// Copyright (C) 2016-2019 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.
#pragma once
#define HAVE_IRCD_M_DBS_DBS_H
/// Database Schema
namespace ircd::m::dbs
{
struct init;
struct write_opts;
enum class ref :uint8_t;
// General confs
extern conf::item<bool> cache_enable;
extern conf::item<bool> cache_comp_enable;
extern conf::item<bool> prefetch_enable;
extern conf::item<size_t> mem_write_buffer_size;
extern conf::item<size_t> sst_write_buffer_size;
// Database instance
extern std::shared_ptr<db::database> events;
// [SET (txn)] Basic write suite
size_t write(db::txn &, const event &, const write_opts &);
}
/// Database description
namespace ircd::m::dbs::desc
{
extern const db::description events;
}
/// Transaction appendage builder namespace.
namespace ircd::m::dbs::appendix
{
enum index :uint8_t;
}
#include "event_idx.h" // event_id => event_idx
#include "event_json.h" // event_idx => (full JSON)
#include "event_column.h" // event_idx => (direct value)
#include "event_refs.h" // event_idx | ref_type, event_idx
#include "event_horizon.h" // event_id | event_idx
#include "event_sender.h" // sender | event_idx || hostpart | localpart, event_idx
#include "event_type.h" // type | event_idx
#include "event_state.h" // state_key, type, room_id, depth, event_idx
#include "room_events.h" // room_id | depth, event_idx
#include "room_type.h" // room_id | type, depth, event_idx
#include "room_state.h" // room_id | type, state_key => event_idx
#include "room_state_space.h" // room_id | type, state_key, depth, event_idx
#include "room_joined.h" // room_id | origin, member => event_idx
#include "room_head.h" // room_id | event_id => event_idx
/// Options that affect the dbs::write() of an event to the transaction.
struct ircd::m::dbs::write_opts
{
static const std::bitset<256> event_refs_all;
static const std::bitset<64> appendix_all;
/// Operation code; usually SET or DELETE. Note that we interpret the
/// code internally and may set different codes for appendages of the
/// actual transaction.
db::op op {db::op::SET};
/// Principal's index number. Most codepaths do not permit zero. This may
/// be zero for blacklisting, but the blacklist option must be set.
uint64_t event_idx {0};
/// Fuse panel to toggle transaction elements.
std::bitset<64> appendix {appendix_all};
/// Selection of what reference types to manipulate in event_refs. Refs
/// will not be made if it is not appropriate for the event anyway, so
/// this defaults to all bits. User can disable one or more ref types
/// by clearing a bit.
std::bitset<256> event_refs {event_refs_all};
/// Selection of what reference types to resolve and delete from the
/// event_horizon for this event.
std::bitset<256> horizon_resolve {event_refs_all};
/// Whether the event.source can be used directly for event_json. Defaults
/// to false unless the caller wants to avoid a redundant re-stringify.
bool json_source {false};
/// Data in this db::txn is used as a primary source in some cases where
/// indexers make a database query. This is useful when the sought data
/// has not even been written to the database, and this may even point to
/// the same db::txn as the result being composed in the first place. By
/// default a database query is made as a fallback after using this.
const db::txn *interpose {nullptr};
/// Whether indexers are allowed to make database queries when composing
/// the transaction. note: database queries may yield the ircd::ctx and
/// made indepdently; this is slow and requires external synchronization
/// to not introduce inconsistent data into the txn.
bool allow_queries {true};
/// Setting to true allows the event_idx to be 0 which allows the insertion
/// of the event_id into a "blacklist" to mark it as unprocessable; this
/// prevents the server from repeatedly trying to process an event.
///
/// Note for now this just creates an entry in _event_idx of 0 for the
/// event_id which also means "not found" for most codepaths, a reasonable
/// default. But for codepaths that must distinguish between "not found"
/// and "blacklist" they must know that `event_id => 0` was *found* to be
/// zero.
bool blacklist {false};
/// Whether index operations should be performed. This effectively toggles
/// building of the transaction; if set to false, write() will not append
/// to the transaction.
bool index {true};
/// Perform a round of prefetches for data which may block queries made
/// during indexing. Note that when index=false, only prefetches are made
/// and write() should not have a reason to block; the return value becomes
/// the number of prefetches launched.
bool prefetch {true};
};
/// Values which represent some element(s) included in a transaction or
/// codepaths taken to construct a transaction. This enum is generally used
/// in a bitset in dbs::write_opts to control the behavior of dbs::write().
///
enum ircd::m::dbs::appendix::index
:std::underlying_type<ircd::m::dbs::appendix::index>::type
{
/// Involves the event_idx column; translates an event_id to our internal
/// index number. This bit can be dark during re-indexing operations.
EVENT_ID,
/// Involves the event_json column; writes a full JSON serialization
/// of the event. See the `json_source` write_opts option. This bit can be
/// dark during re-indexing operations to avoid rewriting the same data.
EVENT_JSON,
/// Involves any direct event columns; such columns are forward-indexed
/// values from the original event data but split into columns for each
/// property. Can be dark during re-indexing similar to EVENT_JSON.
EVENT_COLS,
/// Take branch to handle event reference graphing. A separate bitset is
/// offered in write_opts for fine-grained control over which reference
/// types are involved.
EVENT_REFS,
/// Involves the event_horizon column which saves the event_id of any
/// unresolved event_refs at the time of the transaction. This is important
/// for out-of-order writes to the database. When the unresolved prev_event
/// is encountered later and finds its event_id in event_horizon it can
/// properly complete the event_refs graph to all the referencing events.
EVENT_HORIZON,
/// Resolves unresolved references for this event left in event_horizon.
EVENT_HORIZON_RESOLVE,
/// Involves the event_sender column (reverse index on the event sender).
EVENT_SENDER,
/// Involves the event_type column (reverse index on the event type).
EVENT_TYPE,
/// Involves the event_state column.
EVENT_STATE,
/// Involves room_events table.
ROOM_EVENTS,
/// Involves room_type table.
ROOM_TYPE,
/// Whether the event should be added to the room_head, indicating that
/// it has not yet been referenced at the time of this write. Defaults
/// to true, but if this is an older event this opt should be rethought.
ROOM_HEAD,
/// Whether the event removes the prev_events it references from the
/// room_head. This defaults to true and should almost always be true.
ROOM_HEAD_RESOLVE,
/// Involves room_state (present state) table.
ROOM_STATE,
/// Involves room_space (all states) table.
ROOM_STATE_SPACE,
/// Involves room_joined table.
ROOM_JOINED,
/// Take branch to handle room redaction events.
ROOM_REDACT,
};
struct ircd::m::dbs::init
{
std::string our_dbpath;
std::string their_dbpath;
public:
init(const string_view &servername, std::string dbopts = {});
~init() noexcept;
};
// Internal utils (here for now)
namespace ircd::m::dbs
{
size_t prefetch_event_idx(const vector_view<const event::id> &in, const write_opts &);
bool prefetch_event_idx(const event::id &, const write_opts &);
size_t find_event_idx(const vector_view<event::idx> &out, const vector_view<const event::id> &in, const write_opts &);
event::idx find_event_idx(const event::id &, const write_opts &);
}
inline ircd::m::event::idx
ircd::m::dbs::find_event_idx(const event::id &event_id,
const write_opts &wopts)
{
event::idx ret{0};
const vector_view<event::idx> out(&ret, 1);
const vector_view<const event::id> in(&event_id, 1);
find_event_idx(out, in, wopts);
return ret;
}
inline bool
ircd::m::dbs::prefetch_event_idx(const event::id &event_id,
const write_opts &wopts)
{
const vector_view<const event::id> in(&event_id, 1);
return prefetch_event_idx(in, wopts);
}