e038ebfaf1
modules/vm: Minor cleanup. |
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.. | ||
aliases.h | ||
auth.h | ||
head.h | ||
members.h | ||
messages.h | ||
origins.h | ||
power.h | ||
README.md | ||
room.h | ||
server_acl.h | ||
state.h | ||
state_space.h | ||
stats.h | ||
timeline.h |
Matrix Room Interface
The headers in this directory as well as ../room.h
comprise the API for
Matrix rooms. These interfaces may conduct IO for both the local database
and the network; many calls may block an ircd::ctx for these purposes.
A room is composed from a timeline of events. We use several key-value tables as the database for room in addition to the raw event data itself.
-
room_events This is the timeline for room events. We sort the keys of this table by an event's
depth
. This table allows us to scan the room's events as a collection. See:m::room::messages
. -
room_state This is the present state table for a room. We sort the keys of this table by
(type,state_key)
. See:m::room::state
. -
room_joined This is the present joined members list. It is technically redundant to that aspect of the room_state table but it is more efficient for us to maintain a separate table. See:
m::room::origins
which uses this table. Other interfaces are internally optimized by this table for some calls. -
room_head This is the collection of forward extremities (unreferenced) for a room. This is a fast-moving table that would otherwise be just a list in RAM; however persisting this through the database prevents recalculating it on startup.
-
state_node This is a key-value store of nodes in a b-tree which is how we efficiently represent the state of a room at any past event. See:
m::state
subsystem. Note thatm::state
should not be confused withm::room::state
. The latter is the user interface to room state which you are probably looking for; the former is the actual implementation of the b-tree and low-level details.
Sending & Transmission
The write interface for rooms is aggregated almost entirely in the index
header ../room.h
. These calls all converge on a single function commit
which sends a partial event to a room via m::vm
evaluation.
These calls all take a room
structure as an argument which will be further
explained in the Reading section. For now know that the room
argument is
lightweight and trivially constructed from a room_id
. It can take a pointer
to m::vm::eval
options which offer extensive control over the transmission
process.
All of the transmitting calls will block an ircd::ctx
but the extent to
which they do is configurable via the eval options. All of the calls return
an event::id::buf
of the event which they just committed to the room.
Above the lowest-level commit()
function there are two mid-level send()
suites. One suite creates and sends a state event to the room, the other
creates and sends a non-state event. The overloads are distinguished by an
extra state_key argument for the former.
Above the mid-level send()
suites there is an accumulation of higher-level
convenience functions, like message()
and join()
et al.
Reading & Access
The rest of these interfaces are read-only interfaces which present aspects of the room as efficiently as possible.
m::room
The principal structure is m::room
in room/room.h
. There are no ways to
change an actual room through this interface, but an instance can be used with
calls that do. Instances of room
are lightweight, maintaining a reference to
a room_id
and an optional event_id
. The data behind those references must
stay in scope for the duration of the room
instance.
When a room
instance is used either for reading or writing, the event_id
indicates a cursory position in the room to conduct operations. The room will
be represented at that event_id
. If no event_id
is specified, the room
will be represented at the latest "present" state; note the present state of
a room is subject to change between calls.
The room
class interface offers a convenience frontend which brings together
the basic elements of the room::messages
and room::state
interfaces. These
have different characteristics.
Other interfaces
The remainder of room/
is comprised of specialized interfaces which operate
efficiently and friendly for their specific purpose.