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ReStructuredText
142 lines
5.7 KiB
ReStructuredText
This is a standalone description of the data architecture of Synapse. There is a
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lot of overlap with the current specification, so it has been split out here for
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posterity. Hopefully all the important bits have been merged into the relevant
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places in the main spec.
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Model
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-----
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Overview
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~~~~~~~~
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Matrix is used to reliably distribute data between sets of `users`.
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Users are associated with one of many matrix `servers`. These distribute,
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receive and store data on behalf of its registered users. Servers can be run on
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any host accessible from the internet.
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When a user wishes to send data to users on different servers the local server
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will distribute the data to each remote server. These will in turn distribute
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to their local users involved.
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A user sends and receives data using one or more authenticated `clients`
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connected to his server. Clients may persist data locally or request it when
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required from the server.
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Events
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~~~~~~
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An event is a collection of data (the `payload`) and metadata to be distributed
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across servers and is the primary data unit in Matrix. Events are extensible
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so that clients and servers can add extra arbitrary fields to both the payload
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or metadata.
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Events are distributed to interested servers upon creation. Historical events
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may be requested from servers; servers are not required to produce all
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or any events requested.
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All events have a metadata `type` field that is used by client and servers to
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determine how the payload should be processed and used. There are a number of
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types reserved by the protocol for particular uses, but otherwise types may be
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defined by applications, clients or servers for their own purposes.
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.. TODO : Namespacing of new types.
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Graph
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+++++
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Each event has a list of zero or more `parent` events. These relations form
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directed acyclic graphs of events called `event graphs`. Every event graph has
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a single root event, and each event graph forms the basis of the history of a
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matrix room.
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Event graphs give a partial ordering of events, i.e. given two events one may
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be considered to have come before the other if one is an ancestor of the other.
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Since two events may be on separate branches, not all events can be compared in
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this manner.
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Every event has a metadata `depth` field that is a positive integer that is
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strictly greater than the depths of any of its parents. The root event should
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have a depth of 1.
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[Note: if one event is before another, then it must have a strictly smaller
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depth]
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Integrity
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+++++++++
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.. TODO: Specify the precise subset of essential fields
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Portions of events will be signed by one or more servers or clients. The parent
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relations, type, depth and payload (as well as other metadata fields that will
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be specified) must be signed by the originating server. [Note: Thus, once an
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event is distributed and referenced by later events, they effectively become
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immutable].
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The payload may also be encrypted by clients, except in the case where the
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payload needs to be interpreted by the servers. A list of event types that
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cannot have an encrypted payload are given later.
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State
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~~~~~
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Event graphs may have meta information associated with them, called `state`.
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State can be updated over time by servers or clients, subject to
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authorisation.
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The state of a graph is split into `sections` that can be atomically updated
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independently of each other.
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State is stored within the graph itself, and can be computed by looking at the
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graph in its entirety. We define the state at a given event to be the state of
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the sub graph of all events "before" and including that event.
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Some sections of the state may determine behaviour of the protocol, including
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authorisation and distribution. These sections must not be encrypted.
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State Events
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++++++++++++
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`State events` are events that update a section of state data for a room. These
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state events hold all the same properties of events, and are part of the event
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graph. The payload of the event is the replacement value for the particular
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section of state being updated.
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State events must also include a `state_key` metadata field. The pair of fields
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type and state_key uniquely defines the section of state that is to be updated.
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State Resolution
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++++++++++++++++
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A given state section may have multiple state events associated with it in a
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given graph. A consistent method of selecting which state event takes
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precedence is therefore required.
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This is done by taking the latest state events, i.e. the set of events that are
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either incomparable or after every other event in the graph. A state resolution
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algorithm is then applied to this set to select the single event that takes
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precedence.
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The state resolution algorithm must be transitive and not depend on server
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state, as it must consistently select the same event irrespective of the server
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or the order the events were received in.
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State Dictionary
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++++++++++++++++
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The state dictionary is the mapping from sections of state to the state events
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which set the section to its current value. The state dictionary, like the
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state itself, depends on the events currently in the graph and so is updated
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with each new event received.
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Since the sections of the state are defined by the pair of strings from the
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type and state_key of the events that update them, the state dictionary can be
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defined as a mapping from the pair (type, state_key) to a state event with
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those values in the graph.
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Deleting State
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++++++++++++++
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State sections may also be deleted, i.e. removed from the state dictionary. The
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state events will still be present in the event graph.
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This is done by sending a special state event indicating that the given entry
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should be removed from the dictionary. These events follow the same rules for
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state resolution, with the added requirement that it loses all conflicts.
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[Note: This is required to make the algorithm transitive.]
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