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author | Matthew Hodgson <matthew@matrix.org> | 2014-10-09 20:38:00 +0200 |
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committer | Matthew Hodgson <matthew@matrix.org> | 2014-10-09 20:38:00 +0200 |
commit | e1170d4edbc3563730028047c23a4169e6420c59 (patch) | |
tree | 4664a10735780cca5ef41f08f6abad32f106cfb3 /docs/specification.rst | |
parent | Add spec-additions.rst with info on recaptcha and common event fields. (diff) | |
download | synapse-e1170d4edbc3563730028047c23a4169e6420c59.tar.xz |
move matrix-generic content to new matrix-doc git project
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diff --git a/docs/specification.rst b/docs/specification.rst deleted file mode 100644 index 9f7c86f21c..0000000000 --- a/docs/specification.rst +++ /dev/null @@ -1,2739 +0,0 @@ -Matrix Specification -==================== - -WARNING -======= - -.. WARNING:: - The Matrix specification is still very much evolving: the API is not yet frozen - and this document is in places incomplete, stale, and may contain security - issues. Needless to say, we have made every effort to highlight the problem - areas that we're aware of. - - We're publishing it at this point because it's complete enough to be more than - useful and provide a canonical reference to how Matrix is evolving. Our end - goal is to mirror WHATWG's `Living Standard <http://wiki.whatwg.org/wiki/FAQ#What_does_.22Living_Standard.22_mean.3F>`_ - approach except right now Matrix is more in the process of being born than actually being - living! - -.. contents:: Table of Contents -.. sectnum:: - -Matrix is a new set of open APIs for open-federated Instant Messaging and VoIP -functionality, designed to create and support a new global real-time -communication ecosystem on the internet. This specification is the ongoing -result of standardising the APIs used by the various components of the Matrix -ecosystem to communicate with one another. - -The principles that Matrix attempts to follow are: - -- Pragmatic Web-friendly APIs (i.e. JSON over REST) -- Keep It Simple & Stupid - - + provide a simple architecture with minimal third-party dependencies. - -- Fully open: - - + Fully open federation - anyone should be able to participate in the global - Matrix network - + Fully open standard - publicly documented standard with no IP or patent - licensing encumbrances - + Fully open source reference implementation - liberally-licensed example - implementations with no IP or patent licensing encumbrances - -- Empowering the end-user - - + The user should be able to choose the server and clients they use - + The user should be control how private their communication is - + The user should know precisely where their data is stored - -- Fully decentralised - no single points of control over conversations or the - network as a whole -- Learning from history to avoid repeating it - - + Trying to take the best aspects of XMPP, SIP, IRC, SMTP, IMAP and NNTP - whilst trying to avoid their failings - -The functionality that Matrix provides includes: - -- Creation and management of fully distributed chat rooms with no - single points of control or failure -- Eventually-consistent cryptographically secure synchronisation of room - state across a global open network of federated servers and services -- Sending and receiving extensible messages in a room with (optional) - end-to-end encryption -- Extensible user management (inviting, joining, leaving, kicking, banning) - mediated by a power-level based user privilege system. -- Extensible room state management (room naming, aliasing, topics, bans) -- Extensible user profile management (avatars, displaynames, etc) -- Managing user accounts (registration, login, logout) -- Use of 3rd Party IDs (3PIDs) such as email addresses, phone numbers, - Facebook accounts to authenticate, identify and discover users on Matrix. -- Trusted federation of Identity servers for: - - + Publishing user public keys for PKI - + Mapping of 3PIDs to Matrix IDs - -The end goal of Matrix is to be a ubiquitous messaging layer for synchronising -arbitrary data between sets of people, devices and services - be that for -instant messages, VoIP call setups, or any other objects that need to be -reliably and persistently pushed from A to B in an interoperable and federated -manner. - -Basis -===== - -Architecture ------------- - -Clients transmit data to other clients through home servers (HSes). Clients do -not communicate with each other directly. - -:: - - How data flows between clients - ============================== - - { Matrix client A } { Matrix client B } - ^ | ^ | - | events | | events | - | V | V - +------------------+ +------------------+ - | |---------( HTTP )---------->| | - | Home Server | | Home Server | - | |<--------( HTTP )-----------| | - +------------------+ Federation +------------------+ - -A "Client" typically represents a human using a web application or mobile app. -Clients use the "Client-to-Server" (C-S) API to communicate with their home -server, which stores their profile data and their record of the conversations -in which they participate. Each client is associated with a user account (and -may optionally support multiple user accounts). A user account is represented -by a unique "User ID". This ID is namespaced to the home server which allocated -the account and looks like:: - - @localpart:domain - -The ``localpart`` of a user ID may be a user name, or an opaque ID identifying -this user. They are case-insensitive. - -.. TODO-spec - - Need to specify precise grammar for Matrix IDs - -A "Home Server" is a server which provides C-S APIs and has the ability to -federate with other HSes. It is typically responsible for multiple clients. -"Federation" is the term used to describe the sharing of data between two or -more home servers. - -Data in Matrix is encapsulated in an "event". An event is an action within the -system. Typically each action (e.g. sending a message) correlates with exactly -one event. Each event has a ``type`` which is used to differentiate different -kinds of data. ``type`` values MUST be uniquely globally namespaced following -Java's `package naming conventions -<http://docs.oracle.com/javase/specs/jls/se5.0/html/packages.html#7.7>`, e.g. -``com.example.myapp.event``. The special top-level namespace ``m.`` is reserved -for events defined in the Matrix specification. Events are usually sent in the -context of a "Room". - -Room structure -~~~~~~~~~~~~~~ - -A room is a conceptual place where users can send and receive events. Rooms can -be created, joined and left. Events are sent to a room, and all participants in -that room with sufficient access will receive the event. Rooms are uniquely -identified internally via a "Room ID", which look like:: - - !opaque_id:domain - -There is exactly one room ID for each room. Whilst the room ID does contain a -domain, it is simply for globally namespacing room IDs. The room does NOT -reside on the domain specified. Room IDs are not meant to be human readable. -They ARE case-sensitive. - -The following diagram shows an ``m.room.message`` event being sent in the room -``!qporfwt:matrix.org``:: - - { @alice:matrix.org } { @bob:domain.com } - | ^ - | | - Room ID: !qporfwt:matrix.org Room ID: !qporfwt:matrix.org - Event type: m.room.message Event type: m.room.message - Content: { JSON object } Content: { JSON object } - | | - V | - +------------------+ +------------------+ - | Home Server | | Home Server | - | matrix.org |<-------Federation------->| domain.com | - +------------------+ +------------------+ - | ................................. | - |______| Shared State |_______| - | Room ID: !qporfwt:matrix.org | - | Servers: matrix.org, domain.com | - | Members: | - | - @alice:matrix.org | - | - @bob:domain.com | - |.................................| - -Federation maintains shared state between multiple home servers, such that when -an event is sent to a room, the home server knows where to forward the event on -to, and how to process the event. State is scoped to a single room, and -federation ensures that all home servers have the information they need, even -if that means the home server has to request more information from another home -server before processing the event. - -Room Aliases -~~~~~~~~~~~~ - -Each room can also have multiple "Room Aliases", which looks like:: - - #room_alias:domain - - .. TODO - - Need to specify precise grammar for Room Aliases - -A room alias "points" to a room ID and is the human-readable label by which -rooms are publicised and discovered. The room ID the alias is pointing to can -be obtained by visiting the domain specified. They are case-insensitive. Note -that the mapping from a room alias to a room ID is not fixed, and may change -over time to point to a different room ID. For this reason, Clients SHOULD -resolve the room alias to a room ID once and then use that ID on subsequent -requests. - -When resolving a room alias the server will also respond with a list of servers -that are in the room that can be used to join via. - -:: - - GET - #matrix:domain.com !aaabaa:matrix.org - | ^ - | | - _______V____________________|____ - | domain.com | - | Mappings: | - | #matrix >> !aaabaa:matrix.org | - | #golf >> !wfeiofh:sport.com | - | #bike >> !4rguxf:matrix.org | - |________________________________| - -Identity -~~~~~~~~ - -Users in Matrix are identified via their user ID. However, existing ID -namespaces can also be used in order to identify Matrix users. A Matrix -"Identity" describes both the user ID and any other existing IDs from third -party namespaces *linked* to their account. - -Matrix users can *link* third-party IDs (3PIDs) such as email addresses, social -network accounts and phone numbers to their user ID. Linking 3PIDs creates a -mapping from a 3PID to a user ID. This mapping can then be used by other Matrix -users in order to discover other users, according to a strict set of privacy -permissions. - -In order to ensure that the mapping from 3PID to user ID is genuine, a globally -federated cluster of trusted "Identity Servers" (IS) are used to perform -authentication of the 3PID. Identity servers are also used to preserve the -mapping indefinitely, by replicating the mappings across multiple ISes. - -Usage of an IS is not required in order for a client application to be part of -the Matrix ecosystem. However, without one clients will not be able to look up -user IDs using 3PIDs. - -Presence -~~~~~~~~ -.. NOTE:: - This section is a work in progress. - -Each user has the concept of presence information. This encodes the -"availability" of that user, suitable for display on other user's clients. This -is transmitted as an ``m.presence`` event and is one of the few events which -are sent *outside the context of a room*. The basic piece of presence -information is represented by the ``presence`` key, which is an enum of one of -the following: - - - ``online`` : The default state when the user is connected to an event - stream. - - ``unavailable`` : The user is not reachable at this time. - - ``offline`` : The user is not connected to an event stream. - - ``free_for_chat`` : The user is generally willing to receive messages - moreso than default. - - ``hidden`` : Behaves as offline, but allows the user to see the client - state anyway and generally interact with client features. (Not yet - implemented in synapse). - -This basic ``presence`` field applies to the user as a whole, regardless of how -many client devices they have connected. The home server should synchronise -this status choice among multiple devices to ensure the user gets a consistent -experience. - -In addition, the server maintains a timestamp of the last time it saw an active -action from the user; either sending a message to a room, or changing presence -state from a lower to a higher level of availability (thus: changing state from -``unavailable`` to ``online`` will count as an action for being active, whereas -in the other direction will not). This timestamp is presented via a key called -``last_active_ago``, which gives the relative number of miliseconds since the -message is generated/emitted, that the user was last seen active. - -Home servers can also use the user's choice of presence state as a signal for -how to handle new private one-to-one chat message requests. For example, it -might decide: - - - ``free_for_chat`` : accept anything - - ``online`` : accept from anyone in my addres book list - - ``busy`` : accept from anyone in this "important people" group in my - address book list - -Presence List -+++++++++++++ -Each user's home server stores a "presence list" for that user. This stores a -list of other user IDs the user has chosen to add to it. To be added to this -list, the user being added must receive permission from the list owner. Once -granted, both user's HS(es) store this information. Since such subscriptions -are likely to be bidirectional, HSes may wish to automatically accept requests -when a reverse subscription already exists. - -As a convenience, presence lists should support the ability to collect users -into groups, which could allow things like inviting the entire group to a new -("ad-hoc") chat room, or easy interaction with the profile information ACL -implementation of the HS. - -Presence and Permissions -++++++++++++++++++++++++ -For a viewing user to be allowed to see the presence information of a target -user, either: - - - The target user has allowed the viewing user to add them to their presence - list, or - - The two users share at least one room in common - -In the latter case, this allows for clients to display some minimal sense of -presence information in a user list for a room. - -Profiles -~~~~~~~~ -.. NOTE:: - This section is a work in progress. - -.. TODO-spec - - Metadata extensibility - -Internally within Matrix users are referred to by their user ID, which is -typically a compact unique identifier. Profiles grant users the ability to see -human-readable names for other users that are in some way meaningful to them. -Additionally, profiles can publish additional information, such as the user's -age or location. - -A Profile consists of a display name, an avatar picture, and a set of other -metadata fields that the user may wish to publish (email address, phone -numbers, website URLs, etc...). This specification puts no requirements on the -display name other than it being a valid unicode string. Avatar images are not -stored directly; instead the home server stores an ``http``-scheme URL where -clients may fetch it from. - -API Standards -------------- - -The mandatory baseline for communication in Matrix is exchanging JSON objects -over RESTful HTTP APIs. HTTPS is mandated as the baseline for server-server -(federation) communication. HTTPS is recommended for client-server -communication, although HTTP may be supported as a fallback to support basic -HTTP clients. More efficient optional transports for client-server -communication will in future be supported as optional extensions - e.g. a -packed binary encoding over stream-cipher encrypted TCP socket for -low-bandwidth/low-roundtrip mobile usage. - -.. TODO - We need to specify capability negotiation for extensible transports - -For the default HTTP transport, all API calls use a Content-Type of -``application/json``. In addition, all strings MUST be encoded as UTF-8. - -Clients are authenticated using opaque ``access_token`` strings (see -`Registration and Login`_ for details), passed as a query string parameter on -all requests. - -.. TODO - Need to specify any HMAC or access_token lifetime/ratcheting tricks - -Any errors which occur on the Matrix API level MUST return a "standard error -response". This is a JSON object which looks like:: - - { - "errcode": "<error code>", - "error": "<error message>" - } - -The ``error`` string will be a human-readable error message, usually a sentence -explaining what went wrong. The ``errcode`` string will be a unique string -which can be used to handle an error message e.g. ``M_FORBIDDEN``. These error -codes should have their namespace first in ALL CAPS, followed by a single _. -For example, if there was a custom namespace ``com.mydomain.here``, and a -``FORBIDDEN`` code, the error code should look like -``COM.MYDOMAIN.HERE_FORBIDDEN``. There may be additional keys depending on the -error, but the keys ``error`` and ``errcode`` MUST always be present. - -Some standard error codes are below: - -:``M_FORBIDDEN``: - Forbidden access, e.g. joining a room without permission, failed login. - -:``M_UNKNOWN_TOKEN``: - The access token specified was not recognised. - -:``M_BAD_JSON``: - Request contained valid JSON, but it was malformed in some way, e.g. missing - required keys, invalid values for keys. - -:``M_NOT_JSON``: - Request did not contain valid JSON. - -:``M_NOT_FOUND``: - No resource was found for this request. - -:``M_LIMIT_EXCEEDED``: - Too many requests have been sent in a short period of time. Wait a while then - try again. - -Some requests have unique error codes: - -:``M_USER_IN_USE``: - Encountered when trying to register a user ID which has been taken. - -:``M_ROOM_IN_USE``: - Encountered when trying to create a room which has been taken. - -:``M_BAD_PAGINATION``: - Encountered when specifying bad pagination query parameters. - -:``M_LOGIN_EMAIL_URL_NOT_YET``: - Encountered when polling for an email link which has not been clicked yet. - -The C-S API typically uses ``HTTP POST`` to submit requests. This means these -requests are not idempotent. The C-S API also allows ``HTTP PUT`` to make -requests idempotent. In order to use a ``PUT``, paths should be suffixed with -``/{txnId}``. ``{txnId}`` is a unique client-generated transaction ID which -identifies the request, and is scoped to a given Client (identified by that -client's ``access_token``). Crucially, it **only** serves to identify new -requests from retransmits. After the request has finished, the ``{txnId}`` -value should be changed (how is not specified; a monotonically increasing -integer is recommended). It is preferable to use ``HTTP PUT`` to make sure -requests to send messages do not get sent more than once should clients need to -retransmit requests. - -Valid requests look like:: - - POST /some/path/here?access_token=secret - { - "key": "This is a post." - } - - PUT /some/path/here/11?access_token=secret - { - "key": "This is a put with a txnId of 11." - } - -In contrast, these are invalid requests:: - - POST /some/path/here/11?access_token=secret - { - "key": "This is a post, but it has a txnId." - } - - PUT /some/path/here?access_token=secret - { - "key": "This is a put but it is missing a txnId." - } - -Glossary --------- -.. NOTE:: - This section is a work in progress. - -Backfilling: - The process of synchronising historic state from one home server to another, - to backfill the event storage so that scrollback can be presented to the - client(s). Not to be confused with pagination. - -Context: - A single human-level entity of interest (currently, a chat room) - -EDU (Ephemeral Data Unit): - A message that relates directly to a given pair of home servers that are - exchanging it. EDUs are short-lived messages that related only to one single - pair of servers; they are not persisted for a long time and are not forwarded - on to other servers. Because of this, they have no internal ID nor previous - EDUs reference chain. - -Event: - A record of activity that records a single thing that happened on to a context - (currently, a chat room). These are the "chat messages" that Synapse makes - available. - -PDU (Persistent Data Unit): - A message that relates to a single context, irrespective of the server that - is communicating it. PDUs either encode a single Event, or a single State - change. A PDU is referred to by its PDU ID; the pair of its origin server - and local reference from that server. - -PDU ID: - The pair of PDU Origin and PDU Reference, that together globally uniquely - refers to a specific PDU. - -PDU Origin: - The name of the origin server that generated a given PDU. This may not be the - server from which it has been received, due to the way they are copied around - from server to server. The origin always records the original server that - created it. - -PDU Reference: - A local ID used to refer to a specific PDU from a given origin server. These - references are opaque at the protocol level, but may optionally have some - structured meaning within a given origin server or implementation. - -Presence: - The concept of whether a user is currently online, how available they declare - they are, and so on. See also: doc/model/presence - -Profile: - A set of metadata about a user, such as a display name, provided for the - benefit of other users. See also: doc/model/profiles - -Room ID: - An opaque string (of as-yet undecided format) that identifies a particular - room and used in PDUs referring to it. - -Room Alias: - A human-readable string of the form #name:some.domain that users can use as a - pointer to identify a room; a Directory Server will map this to its Room ID - -State: - A set of metadata maintained about a Context, which is replicated among the - servers in addition to the history of Events. - -User ID: - A string of the form @localpart:domain.name that identifies a user for - wire-protocol purposes. The localpart is meaningless outside of a particular - home server. This takes a human-readable form that end-users can use directly - if they so wish, avoiding the 3PIDs. - -Transaction: - A message which relates to the communication between a given pair of servers. - A transaction contains possibly-empty lists of PDUs and EDUs. - -.. TODO - This glossary contradicts the terms used above - especially on State Events v. "State" - and Non-State Events v. "Events". We need better consistent names. - -Events -====== - -Receiving live updates on a client ----------------------------------- - -Clients can receive new events by long-polling the home server. This will hold -open the HTTP connection for a short period of time waiting for new events, -returning early if an event occurs. This is called the `Event Stream`_. All -events which are visible to the client will appear in the event stream. When -the request returns, an ``end`` token is included in the response. This token -can be used in the next request to continue where the client left off. - -.. TODO-spec - How do we filter the event stream? - Do we ever return multiple events in a single request? Don't we get lots of request - setup RTT latency if we only do one event per request? Do we ever support streaming - requests? Why not websockets? - -When the client first logs in, they will need to initially synchronise with -their home server. This is achieved via the |initialSync|_ API. This API also -returns an ``end`` token which can be used with the event stream. - -Room Events ------------ -.. NOTE:: - This section is a work in progress. - -This specification outlines several standard event types, all of which are -prefixed with ``m.`` - -``m.room.name`` - Summary: - Set the human-readable name for the room. - Type: - State event - JSON format: - ``{ "name" : "string" }`` - Example: - ``{ "name" : "My Room" }`` - Description: - A room has an opaque room ID which is not human-friendly to read. A room - alias is human-friendly, but not all rooms have room aliases. The room name - is a human-friendly string designed to be displayed to the end-user. The - room name is not *unique*, as multiple rooms can have the same room name - set. The room name can also be set when creating a room using |createRoom|_ - with the ``name`` key. - -``m.room.topic`` - Summary: - Set a topic for the room. - Type: - State event - JSON format: - ``{ "topic" : "string" }`` - Example: - ``{ "topic" : "Welcome to the real world." }`` - Description: - A topic is a short message detailing what is currently being discussed in - the room. It can also be used as a way to display extra information about - the room, which may not be suitable for the room name. The room topic can - also be set when creating a room using |createRoom|_ with the ``topic`` - key. - -``m.room.member`` - Summary: - The current membership state of a user in the room. - Type: - State event - JSON format: - ``{ "membership" : "enum[ invite|join|leave|ban ]" }`` - Example: - ``{ "membership" : "join" }`` - Description: - Adjusts the membership state for a user in a room. It is preferable to use - the membership APIs (``/rooms/<room id>/invite`` etc) when performing - membership actions rather than adjusting the state directly as there are a - restricted set of valid transformations. For example, user A cannot force - user B to join a room, and trying to force this state change directly will - fail. See the `Rooms`_ section for how to use the membership APIs. - -``m.room.create`` - Summary: - The first event in the room. - Type: - State event - JSON format: - ``{ "creator": "string"}`` - Example: - ``{ "creator": "@user:example.com" }`` - Description: - This is the first event in a room and cannot be changed. It acts as the - root of all other events. - -``m.room.join_rules`` - Summary: - Descripes how/if people are allowed to join. - Type: - State event - JSON format: - ``{ "join_rule": "enum [ public|knock|invite|private ]" }`` - Example: - ``{ "join_rule": "public" }`` - Description: - TODO-doc : Use docs/models/rooms.rst - -``m.room.power_levels`` - Summary: - Defines the power levels of users in the room. - Type: - State event - JSON format: - ``{ "<user_id>": <int>, ..., "default": <int>}`` - Example: - ``{ "@user:example.com": 5, "@user2:example.com": 10, "default": 0 }`` - Description: - If a user is in the list, then they have the associated power level. - Otherwise they have the default level. If not ``default`` key is supplied, - it is assumed to be 0. - -``m.room.add_state_level`` - Summary: - Defines the minimum power level a user needs to add state. - Type: - State event - JSON format: - ``{ "level": <int> }`` - Example: - ``{ "level": 5 }`` - Description: - To add a new piece of state to the room a user must have the given power - level. This does not apply to updating current state, which is goverened - by the ``required_power_level`` event key. - -``m.room.send_event_level`` - Summary: - Defines the minimum power level a user needs to send an event. - Type: - State event - JSON format: - ``{ "level": <int> }`` - Example: - ``{ "level": 0 }`` - Description: - To send a new event into the room a user must have at least this power - level. This allows ops to make the room read only by increasing this level, - or muting individual users by lowering their power level below this - threshold. - -``m.room.ops_levels`` - Summary: - Defines the minimum power levels that a user must have before they can - kick and/or ban other users. - Type: - State event - JSON format: - ``{ "ban_level": <int>, "kick_level": <int>, "redact_level": <int> }`` - Example: - ``{ "ban_level": 5, "kick_level": 5 }`` - Description: - This defines who can ban and/or kick people in the room. Most of the time - ``ban_level`` will be greater than or equal to ``kick_level`` since - banning is more severe than kicking. - -``m.room.aliases`` - Summary: - These state events are used to inform the room about what room aliases it - has. - Type: - State event - JSON format: - ``{ "aliases": ["string", ...] }`` - Example: - ``{ "aliases": ["#foo:example.com"] }`` - Description: - This event is sent by a homeserver directly to inform of changes to the - list of aliases it knows about for that room. As a special-case, the - ``state_key`` of the event is the homeserver which owns the room alias. - For example, an event might look like:: - - { - "type": "m.room.aliases", - "event_id": "012345678ab", - "room_id": "!xAbCdEfG:example.com", - "state_key": "example.com", - "content": { - "aliases": ["#foo:example.com"] - } - } - - The event contains the full list of aliases now stored by the home server - that emitted it; additions or deletions are not explicitly mentioned as - being such. The entire set of known aliases for the room is then the union - of the individual lists declared by all such keys, one from each home - server holding at least one alias. - - Clients `should` check the validity of any room alias given in this list - before presenting it to the user as trusted fact. The lists given by this - event should be considered simply as advice on which aliases might exist, - for which the client can perform the lookup to confirm whether it receives - the correct room ID. - -``m.room.message`` - Summary: - A message. - Type: - Non-state event - JSON format: - ``{ "msgtype": "string" }`` - Example: - ``{ "msgtype": "m.text", "body": "Testing" }`` - Description: - This event is used when sending messages in a room. Messages are not - limited to be text. The ``msgtype`` key outlines the type of message, e.g. - text, audio, image, video, etc. Whilst not required, the ``body`` key - SHOULD be used with every kind of ``msgtype`` as a fallback mechanism when - a client cannot render the message. For more information on the types of - messages which can be sent, see `m.room.message msgtypes`_. - -``m.room.message.feedback`` - Summary: - A receipt for a message. - Type: - Non-state event - JSON format: - ``{ "type": "enum [ delivered|read ]", "target_event_id": "string" }`` - Example: - ``{ "type": "delivered", "target_event_id": "e3b2icys" }`` - Description: - Feedback events are events sent to acknowledge a message in some way. There - are two supported acknowledgements: ``delivered`` (sent when the event has - been received) and ``read`` (sent when the event has been observed by the - end-user). The ``target_event_id`` should reference the ``m.room.message`` - event being acknowledged. - -``m.room.redaction`` - Summary: - Indicates a previous event has been redacted. - Type: - Non-state event - JSON format: - ``{ "reason": "string" }`` - Description: - Events can be redacted by either room or server admins. Redacting an event - means that all keys not required by the protocol are stripped off, allowing - admins to remove offensive or illegal content that may have been attached - to any event. This cannot be undone, allowing server owners to physically - delete the offending data. There is also a concept of a moderator hiding a - non-state event, which can be undone, but cannot be applied to state - events. - The event that has been redacted is specified in the ``redacts`` event - level key. - -m.room.message msgtypes -~~~~~~~~~~~~~~~~~~~~~~~ - -.. TODO-spec - How a client should handle unknown message types. - -Each ``m.room.message`` MUST have a ``msgtype`` key which identifies the type -of message being sent. Each type has their own required and optional keys, as -outlined below: - -``m.text`` - Required keys: - - ``body`` : "string" - The body of the message. - Optional keys: - None. - Example: - ``{ "msgtype": "m.text", "body": "I am a fish" }`` - -``m.emote`` - Required keys: - - ``body`` : "string" - The emote action to perform. - Optional keys: - None. - Example: - ``{ "msgtype": "m.emote", "body": "tries to come up with a witty explanation" }`` - -``m.image`` - Required keys: - - ``url`` : "string" - The URL to the image. - Optional keys: - - ``info`` : "string" - info : JSON object (ImageInfo) - The image info for - image referred to in ``url``. - - ``thumbnail_url`` : "string" - The URL to the thumbnail. - - ``thumbnail_info`` : JSON object (ImageInfo) - The image info for the - image referred to in ``thumbnail_url``. - - ``body`` : "string" - The alt text of the image, or some kind of content - description for accessibility e.g. "image attachment". - - ImageInfo: - Information about an image:: - - { - "size" : integer (size of image in bytes), - "w" : integer (width of image in pixels), - "h" : integer (height of image in pixels), - "mimetype" : "string (e.g. image/jpeg)", - } - -``m.audio`` - Required keys: - - ``url`` : "string" - The URL to the audio. - Optional keys: - - ``info`` : JSON object (AudioInfo) - The audio info for the audio - referred to in ``url``. - - ``body`` : "string" - A description of the audio e.g. "Bee Gees - Stayin' - Alive", or some kind of content description for accessibility e.g. - "audio attachment". - AudioInfo: - Information about a piece of audio:: - - { - "mimetype" : "string (e.g. audio/aac)", - "size" : integer (size of audio in bytes), - "duration" : integer (duration of audio in milliseconds), - } - -``m.video`` - Required keys: - - ``url`` : "string" - The URL to the video. - Optional keys: - - ``info`` : JSON object (VideoInfo) - The video info for the video - referred to in ``url``. - - ``body`` : "string" - A description of the video e.g. "Gangnam style", or - some kind of content description for accessibility e.g. "video - attachment". - - VideoInfo: - Information about a video:: - - { - "mimetype" : "string (e.g. video/mp4)", - "size" : integer (size of video in bytes), - "duration" : integer (duration of video in milliseconds), - "w" : integer (width of video in pixels), - "h" : integer (height of video in pixels), - "thumbnail_url" : "string (URL to image)", - "thumbanil_info" : JSON object (ImageInfo) - } - -``m.location`` - Required keys: - - ``geo_uri`` : "string" - The geo URI representing the location. - Optional keys: - - ``thumbnail_url`` : "string" - The URL to a thumnail of the location - being represented. - - ``thumbnail_info`` : JSON object (ImageInfo) - The image info for the - image referred to in ``thumbnail_url``. - - ``body`` : "string" - A description of the location e.g. "Big Ben, - London, UK", or some kind of content description for accessibility e.g. - "location attachment". - -The following keys can be attached to any ``m.room.message``: - - Optional keys: - - ``sender_ts`` : integer - A timestamp (ms resolution) representing the - wall-clock time when the message was sent from the client. - -Events on Change of Profile Information -~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ -Because the profile displayname and avatar information are likely to be used in -many places of a client's display, changes to these fields cause an automatic -propagation event to occur, informing likely-interested parties of the new -values. This change is conveyed using two separate mechanisms: - - - a ``m.room.member`` event is sent to every room the user is a member of, - to update the ``displayname`` and ``avatar_url``. - - a presence status update is sent, again containing the new values of the - ``displayname`` and ``avatar_url`` keys, in addition to the required - ``presence`` key containing the current presence state of the user. - -Both of these should be done automatically by the home server when a user -successfully changes their displayname or avatar URL fields. - -Additionally, when home servers emit room membership events for their own -users, they should include the displayname and avatar URL fields in these -events so that clients already have these details to hand, and do not have to -perform extra roundtrips to query it. - -Voice over IP -------------- -Matrix can also be used to set up VoIP calls. This is part of the core -specification, although is still in a very early stage. Voice (and video) over -Matrix is based on the WebRTC standards. - -Call events are sent to a room, like any other event. This means that clients -must only send call events to rooms with exactly two participants as currently -the WebRTC standard is based around two-party communication. - -Events -~~~~~~ -``m.call.invite`` -This event is sent by the caller when they wish to establish a call. - - Required keys: - - ``call_id`` : "string" - A unique identifier for the call - - ``offer`` : "offer object" - The session description - - ``version`` : "integer" - The version of the VoIP specification this - message adheres to. This specification is version 0. - - ``lifetime`` : "integer" - The time in milliseconds that the invite is - valid for. Once the invite age exceeds this value, clients should discard - it. They should also no longer show the call as awaiting an answer in the - UI. - - Optional keys: - None. - Example: - ``{ "version" : 0, "call_id": "12345", "offer": { "type" : "offer", "sdp" : "v=0\r\no=- 6584580628695956864 2 IN IP4 127.0.0.1[...]" } }`` - -``Offer Object`` - Required keys: - - ``type`` : "string" - The type of session description, in this case - 'offer' - - ``sdp`` : "string" - The SDP text of the session description - -``m.call.candidates`` -This event is sent by callers after sending an invite and by the callee after -answering. Its purpose is to give the other party additional ICE candidates to -try using to communicate. - - Required keys: - - ``call_id`` : "string" - The ID of the call this event relates to - - ``version`` : "integer" - The version of the VoIP specification this - messages adheres to. his specification is version 0. - - ``candidates`` : "array of candidate objects" - Array of object - describing the candidates. - -``Candidate Object`` - - Required Keys: - - ``sdpMid`` : "string" - The SDP media type this candidate is intended - for. - - ``sdpMLineIndex`` : "integer" - The index of the SDP 'm' line this - candidate is intended for - - ``candidate`` : "string" - The SDP 'a' line of the candidate - -``m.call.answer`` - - Required keys: - - ``call_id`` : "string" - The ID of the call this event relates to - - ``version`` : "integer" - The version of the VoIP specification this - messages - - ``answer`` : "answer object" - Object giving the SDK answer - -``Answer Object`` - - Required keys: - - ``type`` : "string" - The type of session description. 'answer' in this - case. - - ``sdp`` : "string" - The SDP text of the session description - -``m.call.hangup`` -Sent by either party to signal their termination of the call. This can be sent -either once the call has has been established or before to abort the call. - - Required keys: - - ``call_id`` : "string" - The ID of the call this event relates to - - ``version`` : "integer" - The version of the VoIP specification this - messages - -Message Exchange -~~~~~~~~~~~~~~~~ -A call is set up with messages exchanged as follows: - -:: - - Caller Callee - m.call.invite -----------> - m.call.candidate --------> - [more candidates events] - User answers call - <------ m.call.answer - [...] - <------ m.call.hangup - -Or a rejected call: - -:: - - Caller Callee - m.call.invite -----------> - m.call.candidate --------> - [more candidates events] - User rejects call - <------- m.call.hangup - -Calls are negotiated according to the WebRTC specification. - - -Glare -~~~~~ -This specification aims to address the problem of two users calling each other -at roughly the same time and their invites crossing on the wire. It is a far -better experience for the users if their calls are connected if it is clear -that their intention is to set up a call with one another. - -In Matrix, calls are to rooms rather than users (even if those rooms may only -contain one other user) so we consider calls which are to the same room. - -The rules for dealing with such a situation are as follows: - - - If an invite to a room is received whilst the client is preparing to send an - invite to the same room, the client should cancel its outgoing call and - instead automatically accept the incoming call on behalf of the user. - - If an invite to a room is received after the client has sent an invite to - the same room and is waiting for a response, the client should perform a - lexicographical comparison of the call IDs of the two calls and use the - lesser of the two calls, aborting the greater. If the incoming call is the - lesser, the client should accept this call on behalf of the user. - -The call setup should appear seamless to the user as if they had simply placed -a call and the other party had accepted. Thusly, any media stream that had been -setup for use on a call should be transferred and used for the call that -replaces it. - -Client-Server API -================= - -Registration and Login ----------------------- - -Clients must register with a home server in order to use Matrix. After -registering, the client will be given an access token which must be used in ALL -requests to that home server as a query parameter 'access_token'. - -If the client has already registered, they need to be able to login to their -account. The home server may provide many different ways of logging in, such as -user/password auth, login via a social network (OAuth2), login by confirming a -token sent to their email address, etc. This specification does not define how -home servers should authorise their users who want to login to their existing -accounts, but instead defines the standard interface which implementations -should follow so that ANY client can login to ANY home server. Clients login -using the |login|_ API. Clients register using the |register|_ API. -Registration follows the same general procedure as login, but the path requests -are sent to and the details contained in them are different. - -In both registration and login cases, the process takes the form of one or more -stages, where at each stage the client submits a set of data for a given stage -type and awaits a response from the server, which will either be a final -success or a request to perform an additional stage. This exchange continues -until the final success. - -In order to determine up-front what the server's requirements are, the client -can request from the server a complete description of all of its acceptable -flows of the registration or login process. It can then inspect the list of -returned flows looking for one for which it believes it can complete all of the -required stages, and perform it. As each home server may have different ways of -logging in, the client needs to know how they should login. All distinct login -stages MUST have a corresponding ``type``. A ``type`` is a namespaced string -which details the mechanism for logging in. - -A client may be able to login via multiple valid login flows, and should choose -a single flow when logging in. A flow is a series of login stages. The home -server MUST respond with all the valid login flows when requested by a simple -``GET`` request directly to the ``/login`` or ``/register`` paths:: - - { - "flows": [ - { - "type": "<login type1a>", - "stages": [ "<login type 1a>", "<login type 1b>" ] - }, - { - "type": "<login type2a>", - "stages": [ "<login type 2a>", "<login type 2b>" ] - }, - { - "type": "<login type3>" - } - ] - } - -The client can now select which flow it wishes to use, and begin making -``POST`` requests to the ``/login`` or ``/register`` paths with JSON body -content containing the name of the stage as the ``type`` key, along with -whatever additional parameters are required for that login or registration type -(see below). After the flow is completed, the client's fully-qualified user -ID and a new access token MUST be returned:: - - { - "user_id": "@user:matrix.org", - "access_token": "abcdef0123456789" - } - -The ``user_id`` key is particularly useful if the home server wishes to support -localpart entry of usernames (e.g. "user" rather than "@user:matrix.org"), as -the client may not be able to determine its ``user_id`` in this case. - -If the flow has multiple stages to it, the home server may wish to create a -session to store context between requests. If a home server responds with a -``session`` key to a request, clients MUST submit it in subsequent requests -until the flow is completed:: - - { - "session": "<session id>" - } - -This specification defines the following login types: - - ``m.login.password`` - - ``m.login.oauth2`` - - ``m.login.email.code`` - - ``m.login.email.url`` - - ``m.login.email.identity`` - -Password-based -~~~~~~~~~~~~~~ -:Type: - ``m.login.password`` -:Description: - Login is supported via a username and password. - -To respond to this type, reply with:: - - { - "type": "m.login.password", - "user": "<user_id or user localpart>", - "password": "<password>" - } - -The home server MUST respond with either new credentials, the next stage of the -login process, or a standard error response. - -OAuth2-based -~~~~~~~~~~~~ -:Type: - ``m.login.oauth2`` -:Description: - Login is supported via OAuth2 URLs. This login consists of multiple requests. - -To respond to this type, reply with:: - - { - "type": "m.login.oauth2", - "user": "<user_id or user localpart>" - } - -The server MUST respond with:: - - { - "uri": <Authorization Request URI OR service selection URI> - } - -The home server acts as a 'confidential' client for the purposes of OAuth2. If -the uri is a ``sevice selection URI``, it MUST point to a webpage which prompts -the user to choose which service to authorize with. On selection of a service, -this MUST link through to an ``Authorization Request URI``. If there is only 1 -service which the home server accepts when logging in, this indirection can be -skipped and the "uri" key can be the ``Authorization Request URI``. - -The client then visits the ``Authorization Request URI``, which then shows the -OAuth2 Allow/Deny prompt. Hitting 'Allow' returns the ``redirect URI`` with the -auth code. Home servers can choose any path for the ``redirect URI``. The -client should visit the ``redirect URI``, which will then finish the OAuth2 -login process, granting the home server an access token for the chosen service. -When the home server gets this access token, it verifies that the cilent has -authorised with the 3rd party, and can now complete the login. The OAuth2 -``redirect URI`` (with auth code) MUST respond with either new credentials, the -next stage of the login process, or a standard error response. - -For example, if a home server accepts OAuth2 from Google, it would return the -Authorization Request URI for Google:: - - { - "uri": "https://accounts.google.com/o/oauth2/auth?response_type=code& - client_id=CLIENT_ID&redirect_uri=REDIRECT_URI&scope=photos" - } - -The client then visits this URI and authorizes the home server. The client then -visits the REDIRECT_URI with the auth code= query parameter which returns:: - - { - "user_id": "@user:matrix.org", - "access_token": "0123456789abcdef" - } - -Email-based (code) -~~~~~~~~~~~~~~~~~~ -:Type: - ``m.login.email.code`` -:Description: - Login is supported by typing in a code which is sent in an email. This login - consists of multiple requests. - -To respond to this type, reply with:: - - { - "type": "m.login.email.code", - "user": "<user_id or user localpart>", - "email": "<email address>" - } - -After validating the email address, the home server MUST send an email -containing an authentication code and return:: - - { - "type": "m.login.email.code", - "session": "<session id>" - } - -The second request in this login stage involves sending this authentication -code:: - - { - "type": "m.login.email.code", - "session": "<session id>", - "code": "<code in email sent>" - } - -The home server MUST respond to this with either new credentials, the next -stage of the login process, or a standard error response. - -Email-based (url) -~~~~~~~~~~~~~~~~~ -:Type: - ``m.login.email.url`` -:Description: - Login is supported by clicking on a URL in an email. This login consists of - multiple requests. - -To respond to this type, reply with:: - - { - "type": "m.login.email.url", - "user": "<user_id or user localpart>", - "email": "<email address>" - } - -After validating the email address, the home server MUST send an email -containing an authentication URL and return:: - - { - "type": "m.login.email.url", - "session": "<session id>" - } - -The email contains a URL which must be clicked. After it has been clicked, the -client should perform another request:: - - { - "type": "m.login.email.url", - "session": "<session id>" - } - -The home server MUST respond to this with either new credentials, the next -stage of the login process, or a standard error response. - -A common client implementation will be to periodically poll until the link is -clicked. If the link has not been visited yet, a standard error response with -an errcode of ``M_LOGIN_EMAIL_URL_NOT_YET`` should be returned. - - -Email-based (identity server) -~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ -:Type: - ``m.login.email.identity`` -:Description: - Login is supported by authorising an email address with an identity server. - -Prior to submitting this, the client should authenticate with an identity -server. After authenticating, the session information should be submitted to -the home server. - -To respond to this type, reply with:: - - { - "type": "m.login.email.identity", - "threepidCreds": [ - { - "sid": "<identity server session id>", - "clientSecret": "<identity server client secret>", - "idServer": "<url of identity server authed with, e.g. 'matrix.org:8090'>" - } - ] - } - - - -N-Factor Authentication -~~~~~~~~~~~~~~~~~~~~~~~ -Multiple login stages can be combined to create N-factor authentication during -login. - -This can be achieved by responding with the ``next`` login type on completion -of a previous login stage:: - - { - "next": "<next login type>" - } - -If a home server implements N-factor authentication, it MUST respond with all -``stages`` when initially queried for their login requirements:: - - { - "type": "<1st login type>", - "stages": [ <1st login type>, <2nd login type>, ... , <Nth login type> ] - } - -This can be represented conceptually as:: - - _______________________ - | Login Stage 1 | - | type: "<login type1>" | - | ___________________ | - | |_Request_1_________| | <-- Returns "session" key which is used throughout. - | ___________________ | - | |_Request_2_________| | <-- Returns a "next" value of "login type2" - |_______________________| - | - | - _________V_____________ - | Login Stage 2 | - | type: "<login type2>" | - | ___________________ | - | |_Request_1_________| | - | ___________________ | - | |_Request_2_________| | - | ___________________ | - | |_Request_3_________| | <-- Returns a "next" value of "login type3" - |_______________________| - | - | - _________V_____________ - | Login Stage 3 | - | type: "<login type3>" | - | ___________________ | - | |_Request_1_________| | <-- Returns user credentials - |_______________________| - -Fallback -~~~~~~~~ -Clients cannot be expected to be able to know how to process every single login -type. If a client determines it does not know how to handle a given login type, -it should request a login fallback page:: - - GET matrix/client/api/v1/login/fallback - -This MUST return an HTML page which can perform the entire login process. - - -Rooms ------ - -Creation -~~~~~~~~ -To create a room, a client has to use the |createRoom|_ API. There are various -options which can be set when creating a room: - -``visibility`` - Type: - String - Optional: - Yes - Value: - Either ``public`` or ``private``. - Description: - A ``public`` visibility indicates that the room will be shown in the public - room list. A ``private`` visibility will hide the room from the public room - list. Rooms default to ``private`` visibility if this key is not included. - -``room_alias_name`` - Type: - String - Optional: - Yes - Value: - The room alias localpart. - Description: - If this is included, a room alias will be created and mapped to the newly - created room. The alias will belong on the same home server which created - the room, e.g. ``!qadnasoi:domain.com >>> #room_alias_name:domain.com`` - -``name`` - Type: - String - Optional: - Yes - Value: - The ``name`` value for the ``m.room.name`` state event. - Description: - If this is included, an ``m.room.name`` event will be sent into the room to - indicate the name of the room. See `Room Events`_ for more information on - ``m.room.name``. - -``topic`` - Type: - String - Optional: - Yes - Value: - The ``topic`` value for the ``m.room.topic`` state event. - Description: - If this is included, an ``m.room.topic`` event will be sent into the room - to indicate the topic for the room. See `Room Events`_ for more information - on ``m.room.topic``. - -``invite`` - Type: - List - Optional: - Yes - Value: - A list of user ids to invite. - Description: - This will tell the server to invite everyone in the list to the newly - created room. - -Example:: - - { - "visibility": "public", - "room_alias_name": "thepub", - "name": "The Grand Duke Pub", - "topic": "All about happy hour" - } - -The home server will create a ``m.room.create`` event when the room is created, -which serves as the root of the PDU graph for this room. This event also has a -``creator`` key which contains the user ID of the room creator. It will also -generate several other events in order to manage permissions in this room. This -includes: - - - ``m.room.power_levels`` : Sets the power levels of users. - - ``m.room.join_rules`` : Whether the room is "invite-only" or not. - - ``m.room.add_state_level``: The power level required in order to add new - state to the room (as opposed to updating exisiting state) - - ``m.room.send_event_level`` : The power level required in order to send a - message in this room. - - ``m.room.ops_level`` : The power level required in order to kick or ban a - user from the room or redact an event in the room. - -See `Room Events`_ for more information on these events. - -Room aliases -~~~~~~~~~~~~ -.. NOTE:: - This section is a work in progress. - -Room aliases can be created by sending a ``PUT /directory/room/<room alias>``:: - - { - "room_id": <room id> - } - -They can be deleted by sending a ``DELETE /directory/room/<room alias>`` with -no content. Only some privileged users may be able to delete room aliases, e.g. -server admins, the creator of the room alias, etc. This specification does not -outline the privilege level required for deleting room aliases. - -As room aliases are scoped to a particular home server domain name, it is -likely that a home server will reject attempts to maintain aliases on other -domain names. This specification does not provide a way for home servers to -send update requests to other servers. - -Rooms store a *partial* list of room aliases via the ``m.room.aliases`` state -event. This alias list is partial because it cannot guarantee that the alias -list is in any way accurate or up-to-date, as room aliases can point to -different room IDs over time. Crucially, the aliases in this event are -**purely informational** and SHOULD NOT be treated as accurate. They SHOULD -be checked before they are used or shared with another user. If a room -appears to have a room alias of ``#alias:example.com``, this SHOULD be checked -to make sure that the room's ID matches the ``room_id`` returned from the -request. - -Room aliases can be checked in the same way they are resolved; by sending a -``GET /directory/room/<room alias>``:: - - { - "room_id": <room id>, - "servers": [ <domain>, <domain2>, <domain3> ] - } - -Home servers can respond to resolve requests for aliases on other domains than -their own by using the federation API to ask other domain name home servers. - - -Permissions -~~~~~~~~~~~ -.. NOTE:: - This section is a work in progress. - -Permissions for rooms are done via the concept of power levels - to do any -action in a room a user must have a suitable power level. Power levels are -stored as state events in a given room. - -Power levels for users are defined in ``m.room.power_levels``, where both a -default and specific users' power levels can be set:: - - { - "<user id 1>": <power level int>, - "<user id 2>": <power level int>, - "default": 0 - } - -By default all users have a power level of 0, other than the room creator whose -power level defaults to 100. Users can grant other users increased power levels -up to their own power level. For example, user A with a power level of 50 could -increase the power level of user B to a maximum of level 50. Power levels for -users are tracked per-room even if the user is not present in the room. - -State events may contain a ``required_power_level`` key, which indicates the -minimum power a user must have before they can update that state key. The only -exception to this is when a user leaves a room, which revokes the user's right -to update state events in that room. - -To perform certain actions there are additional power level requirements -defined in the following state events: - -- ``m.room.send_event_level`` defines the minimum ``level`` for sending - non-state events. Defaults to 50. -- ``m.room.add_state_level`` defines the minimum ``level`` for adding new - state, rather than updating existing state. Defaults to 50. -- ``m.room.ops_level`` defines the minimum ``ban_level`` and ``kick_level`` to - ban and kick other users respectively. This defaults to a kick and ban levels - of 50 each. - - -Joining rooms -~~~~~~~~~~~~~ -.. TODO-doc What does the home server have to do to join a user to a room? - - See SPEC-30. - -Users need to join a room in order to send and receive events in that room. A -user can join a room by making a request to |/join/<room_alias_or_id>|_ with:: - - {} - -Alternatively, a user can make a request to |/rooms/<room_id>/join|_ with the -same request content. This is only provided for symmetry with the other -membership APIs: ``/rooms/<room id>/invite`` and ``/rooms/<room id>/leave``. If -a room alias was specified, it will be automatically resolved to a room ID, -which will then be joined. The room ID that was joined will be returned in -response:: - - { - "room_id": "!roomid:domain" - } - -The membership state for the joining user can also be modified directly to be -``join`` by sending the following request to -``/rooms/<room id>/state/m.room.member/<url encoded user id>``:: - - { - "membership": "join" - } - -See the `Room events`_ section for more information on ``m.room.member``. - -After the user has joined a room, they will receive subsequent events in that -room. This room will now appear as an entry in the |initialSync|_ API. - -Some rooms enforce that a user is *invited* to a room before they can join that -room. Other rooms will allow anyone to join the room even if they have not -received an invite. - -Inviting users -~~~~~~~~~~~~~~ -.. TODO-doc Invite-join dance - - Outline invite join dance. What is it? Why is it required? How does it work? - - What does the home server have to do? - -The purpose of inviting users to a room is to notify them that the room exists -so they can choose to become a member of that room. Some rooms require that all -users who join a room are previously invited to it (an "invite-only" room). -Whether a given room is an "invite-only" room is determined by the room config -key ``m.room.join_rules``. It can have one of the following values: - -``public`` - This room is free for anyone to join without an invite. - -``invite`` - This room can only be joined if you were invited. - -Only users who have a membership state of ``join`` in a room can invite new -users to said room. The person being invited must not be in the ``join`` state -in the room. The fully-qualified user ID must be specified when inviting a -user, as the user may reside on a different home server. To invite a user, send -the following request to |/rooms/<room_id>/invite|_, which will manage the -entire invitation process:: - - { - "user_id": "<user id to invite>" - } - -Alternatively, the membership state for this user in this room can be modified -directly by sending the following request to -``/rooms/<room id>/state/m.room.member/<url encoded user id>``:: - - { - "membership": "invite" - } - -See the `Room events`_ section for more information on ``m.room.member``. - -Leaving rooms -~~~~~~~~~~~~~ -.. TODO-spec - HS deleting rooms they are no longer a part of. Not implemented. - - This is actually Very Tricky. If all clients a HS is serving leave a room, - the HS will no longer get any new events for that room, because the servers - who get the events are determined on the *membership list*. There should - probably be a way for a HS to lurk on a room even if there are 0 of their - members in the room. - - Grace period before deletion? - - Under what conditions should a room NOT be purged? - - -A user can leave a room to stop receiving events for that room. A user must -have joined the room before they are eligible to leave the room. If the room is -an "invite-only" room, they will need to be re-invited before they can re-join -the room. To leave a room, a request should be made to -|/rooms/<room_id>/leave|_ with:: - - {} - -Alternatively, the membership state for this user in this room can be modified -directly by sending the following request to -``/rooms/<room id>/state/m.room.member/<url encoded user id>``:: - - { - "membership": "leave" - } - -See the `Room events`_ section for more information on ``m.room.member``. - -Once a user has left a room, that room will no longer appear on the -|initialSync|_ API. - -If all members in a room leave, that room becomes eligible for deletion. - -Banning users in a room -~~~~~~~~~~~~~~~~~~~~~~~ -A user may decide to ban another user in a room. 'Banning' forces the target -user to leave the room and prevents them from re-joining the room. A banned -user will not be treated as a joined user, and so will not be able to send or -receive events in the room. In order to ban someone, the user performing the -ban MUST have the required power level. To ban a user, a request should be made -to |/rooms/<room_id>/ban|_ with:: - - { - "user_id": "<user id to ban" - "reason": "string: <reason for the ban>" - } - -Banning a user adjusts the banned member's membership state to ``ban`` and -adjusts the power level of this event to a level higher than the banned person. -Like with other membership changes, a user can directly adjust the target -member's state, by making a request to -``/rooms/<room id>/state/m.room.member/<user id>``:: - - { - "membership": "ban" - } - -Events in a room -~~~~~~~~~~~~~~~~ -Room events can be split into two categories: - -:State Events: - These are events which replace events that came before it, depending on a set - of unique keys. These keys are the event ``type`` and a ``state_key``. - Events with the same set of keys will be overwritten. Typically, state events - are used to store state, hence their name. - -:Non-state events: - These are events which cannot be overwritten after sending. The list of - events continues to grow as more events are sent. As this list grows, it - becomes necessary to provide a mechanism for navigating this list. Pagination - APIs are used to view the list of historical non-state events. Typically, - non-state events are used to send messages. - -This specification outlines several events, all with the event type prefix -``m.``. However, applications may wish to add their own type of event, and this -can be achieved using the REST API detailed in the following sections. If new -events are added, the event ``type`` key SHOULD follow the Java package naming -convention, e.g. ``com.example.myapp.event``. This ensures event types are -suitably namespaced for each application and reduces the risk of clashes. - -State events -~~~~~~~~~~~~ -State events can be sent by ``PUT`` ing to -|/rooms/<room_id>/state/<event_type>/<state_key>|_. These events will be -overwritten if ``<room id>``, ``<event type>`` and ``<state key>`` all match. -If the state event has no ``state_key``, it can be omitted from the path. These -requests **cannot use transaction IDs** like other ``PUT`` paths because they -cannot be differentiated from the ``state_key``. Furthermore, ``POST`` is -unsupported on state paths. Valid requests look like:: - - PUT /rooms/!roomid:domain/state/m.example.event - { "key" : "without a state key" } - - PUT /rooms/!roomid:domain/state/m.another.example.event/foo - { "key" : "with 'foo' as the state key" } - -In contrast, these requests are invalid:: - - POST /rooms/!roomid:domain/state/m.example.event/ - { "key" : "cannot use POST here" } - - PUT /rooms/!roomid:domain/state/m.another.example.event/foo/11 - { "key" : "txnIds are not supported" } - -Care should be taken to avoid setting the wrong ``state key``:: - - PUT /rooms/!roomid:domain/state/m.another.example.event/11 - { "key" : "with '11' as the state key, but was probably intended to be a txnId" } - -The ``state_key`` is often used to store state about individual users, by using -the user ID as the ``state_key`` value. For example:: - - PUT /rooms/!roomid:domain/state/m.favorite.animal.event/%40my_user%3Adomain.com - { "animal" : "cat", "reason": "fluffy" } - -In some cases, there may be no need for a ``state_key``, so it can be omitted:: - - PUT /rooms/!roomid:domain/state/m.room.bgd.color - { "color": "red", "hex": "#ff0000" } - -See `Room Events`_ for the ``m.`` event specification. - -Non-state events -~~~~~~~~~~~~~~~~ -Non-state events can be sent by sending a request to -|/rooms/<room_id>/send/<event_type>|_. These requests *can* use transaction -IDs and ``PUT``/``POST`` methods. Non-state events allow access to historical -events and pagination, making it best suited for sending messages. For -example:: - - POST /rooms/!roomid:domain/send/m.custom.example.message - { "text": "Hello world!" } - - PUT /rooms/!roomid:domain/send/m.custom.example.message/11 - { "text": "Goodbye world!" } - -See `Room Events`_ for the ``m.`` event specification. - -Syncing rooms -~~~~~~~~~~~~~ -.. NOTE:: - This section is a work in progress. - -When a client logs in, they may have a list of rooms which they have already -joined. These rooms may also have a list of events associated with them. The -purpose of 'syncing' is to present the current room and event information in a -convenient, compact manner. The events returned are not limited to room events; -presence events will also be returned. A single syncing API is provided: - - - |initialSync|_ : A global sync which will present room and event information - for all rooms the user has joined. - -.. TODO-spec room-scoped initial sync - - |/rooms/<room_id>/initialSync|_ : A sync scoped to a single room. Presents - room and event information for this room only. - - Room-scoped initial sync is Very Tricky because typically people would - want to sync the room then listen for any new content from that point - onwards. The event stream cannot do this for a single room currently. - As a result, commenting room-scoped initial sync at this time. - -The |initialSync|_ API contains the following keys: - -``presence`` - Description: - Contains a list of presence information for users the client is interested - in. - Format: - A JSON array of ``m.presence`` events. - -``end`` - Description: - Contains an event stream token which can be used with the `Event Stream`_. - Format: - A string containing the event stream token. - -``rooms`` - Description: - Contains a list of room information for all rooms the client has joined, - and limited room information on rooms the client has been invited to. - Format: - A JSON array containing Room Information JSON objects. - -Room Information: - Description: - Contains all state events for the room, along with a limited amount of - the most recent non-state events, configured via the ``limit`` query - parameter. Also contains additional keys with room metadata, such as the - ``room_id`` and the client's ``membership`` to the room. - Format: - A JSON object with the following keys: - ``room_id`` - A string containing the ID of the room being described. - ``membership`` - A string representing the client's membership status in this room. - ``messages`` - An event stream JSON object containing a ``chunk`` of recent non-state - events, along with an ``end`` token. *NB: The name of this key will be - changed in a later version.* - ``state`` - A JSON array containing all the current state events for this room. - -Getting events for a room -~~~~~~~~~~~~~~~~~~~~~~~~~ -There are several APIs provided to ``GET`` events for a room: - -``/rooms/<room id>/state/<event type>/<state key>`` - Description: - Get the state event identified. - Response format: - A JSON object representing the state event **content**. - Example: - ``/rooms/!room:domain.com/state/m.room.name`` returns ``{ "name": "Room name" }`` - -|/rooms/<room_id>/state|_ - Description: - Get all state events for a room. - Response format: - ``[ { state event }, { state event }, ... ]`` - Example: - TODO-doc - - -|/rooms/<room_id>/members|_ - Description: - Get all ``m.room.member`` state events. - Response format: - ``{ "start": "<token>", "end": "<token>", "chunk": [ { m.room.member event }, ... ] }`` - Example: - TODO-doc - -|/rooms/<room_id>/messages|_ - Description: - Get all ``m.room.message`` and ``m.room.member`` events. This API supports - pagination using ``from`` and ``to`` query parameters, coupled with the - ``start`` and ``end`` tokens from an |initialSync|_ API. - Response format: - ``{ "start": "<token>", "end": "<token>" }`` - Example: - TODO-doc - -|/rooms/<room_id>/initialSync|_ - Description: - Get all relevant events for a room. This includes state events, paginated - non-state events and presence events. - Response format: - `` { TODO-doc } `` - Example: - TODO-doc - -Redactions -~~~~~~~~~~ -Since events are extensible it is possible for malicious users and/or servers -to add keys that are, for example offensive or illegal. Since some events -cannot be simply deleted, e.g. membership events, we instead 'redact' events. -This involves removing all keys from an event that are not required by the -protocol. This stripped down event is thereafter returned anytime a client or -remote server requests it. - -Events that have been redacted include a ``redacted_because`` key whose value -is the event that caused it to be redacted, which may include a reason. - -Redacting an event cannot be undone, allowing server owners to delete the -offending content from the databases. - -Currently, only room admins can redact events by sending a ``m.room.redaction`` -event, but server admins also need to be able to redact events by a similar -mechanism. - -Upon receipt of a redaction event, the server should strip off any keys not in -the following list: - - - ``event_id`` - - ``type`` - - ``room_id`` - - ``user_id`` - - ``state_key`` - - ``prev_state`` - - ``content`` - -The content object should also be stripped of all keys, unless it is one of -one of the following event types: - - - ``m.room.member`` allows key ``membership`` - - ``m.room.create`` allows key ``creator`` - - ``m.room.join_rules`` allows key ``join_rule`` - - ``m.room.power_levels`` allows keys that are user ids or ``default`` - - ``m.room.add_state_level`` allows key ``level`` - - ``m.room.send_event_level`` allows key ``level`` - - ``m.room.ops_levels`` allows keys ``kick_level``, ``ban_level`` - and ``redact_level`` - - ``m.room.aliases`` allows key ``aliases`` - -The redaction event should be added under the key ``redacted_because``. - - -When a client receives a redaction event it should change the redacted event -in the same way a server does. - -Presence -~~~~~~~~ -The client API for presence is on the following set of REST calls. - -Fetching basic status:: - - GET $PREFIX/presence/:user_id/status - - Returned content: JSON object containing the following keys: - presence: "offline"|"unavailable"|"online"|"free_for_chat" - status_msg: (optional) string of freeform text - last_active_ago: miliseconds since the last activity by the user - -Setting basic status:: - - PUT $PREFIX/presence/:user_id/status - - Content: JSON object containing the following keys: - presence and status_msg: as above - -When setting the status, the activity time is updated to reflect that activity; -the client does not need to specify the ``last_active_ago`` field. - -Fetching the presence list:: - - GET $PREFIX/presence/list - - Returned content: JSON array containing objects; each object containing the - following keys: - user_id: observed user ID - presence: "offline"|"unavailable"|"online"|"free_for_chat" - status_msg: (optional) string of freeform text - last_active_ago: miliseconds since the last activity by the user - -Maintaining the presence list:: - - POST $PREFIX/presence/list - - Content: JSON object containing either or both of the following keys: - invite: JSON array of strings giving user IDs to send invites to - drop: JSON array of strings giving user IDs to remove from the list - -.. TODO-spec - - Define how users receive presence invites, and how they accept/decline them - -Profiles -~~~~~~~~ -The client API for profile management consists of the following REST calls. - -Fetching a user account displayname:: - - GET $PREFIX/profile/:user_id/displayname - - Returned content: JSON object containing the following keys: - displayname: string of freeform text - -This call may be used to fetch the user's own displayname or to query the name -of other users; either locally or on remote systems hosted on other home -servers. - -Setting a new displayname:: - - PUT $PREFIX/profile/:user_id/displayname - - Content: JSON object containing the following keys: - displayname: string of freeform text - -Fetching a user account avatar URL:: - - GET $PREFIX/profile/:user_id/avatar_url - - Returned content: JSON object containing the following keys: - avatar_url: string containing an http-scheme URL - -As with displayname, this call may be used to fetch either the user's own, or -other users' avatar URL. - -Setting a new avatar URL:: - - PUT $PREFIX/profile/:user_id/avatar_url - - Content: JSON object containing the following keys: - avatar_url: string containing an http-scheme URL - -Fetching combined account profile information:: - - GET $PREFIX/profile/:user_id - - Returned content: JSON object containing the following keys: - displayname: string of freeform text - avatar_url: string containing an http-scheme URL - -At the current time, this API simply returns the displayname and avatar URL -information, though it is intended to return more fields about the user's -profile once they are defined. Client implementations should take care not to -expect that these are the only two keys returned as future versions of this -specification may yield more keys here. - -Security --------- - -Rate limiting -~~~~~~~~~~~~~ -Home servers SHOULD implement rate limiting to reduce the risk of being -overloaded. If a request is refused due to rate limiting, it should return a -standard error response of the form:: - - { - "errcode": "M_LIMIT_EXCEEDED", - "error": "string", - "retry_after_ms": integer (optional) - } - -The ``retry_after_ms`` key SHOULD be included to tell the client how long they -have to wait in milliseconds before they can try again. - -.. TODO-spec - - Surely we should recommend an algorithm for the rate limiting, rather than letting every - homeserver come up with their own idea, causing totally unpredictable performance over - federated rooms? - -End-to-End Encryption -~~~~~~~~~~~~~~~~~~~~~ - -.. TODO-doc - - Why is this needed. - - Overview of process - - Implementation - -Content repository ------------------- -.. NOTE:: - This section is a work in progress. - -.. TODO-spec - - path to upload - - format for thumbnail paths, mention what it is protecting against. - - content size limit and associated M_ERROR. - - -Address book repository ------------------------ -.. NOTE:: - This section is a work in progress. - -.. TODO-spec - - format: POST(?) wodges of json, some possible processing, then return wodges of json on GET. - - processing may remove dupes, merge contacts, pepper with extra info (e.g. matrix-ability of - contacts), etc. - - Standard json format for contacts? Piggy back off vcards? - -Federation API -=============== - -Federation is the term used to describe how to communicate between Matrix home -servers. Federation is a mechanism by which two home servers can exchange -Matrix event messages, both as a real-time push of current events, and as a -historic fetching mechanism to synchronise past history for clients to view. It -uses HTTPS connections between each pair of servers involved as the underlying -transport. Messages are exchanged between servers in real-time by active -pushing from each server's HTTP client into the server of the other. Queries to -fetch historic data for the purpose of back-filling scrollback buffers and the -like can also be performed. Currently routing of messages between homeservers -is full mesh (like email) - however, fan-out refinements to this design are -currently under consideration. - -There are three main kinds of communication that occur between home servers: - -:Queries: - These are single request/response interactions between a given pair of - servers, initiated by one side sending an HTTPS GET request to obtain some - information, and responded by the other. They are not persisted and contain - no long-term significant history. They simply request a snapshot state at - the instant the query is made. - -:Ephemeral Data Units (EDUs): - These are notifications of events that are pushed from one home server to - another. They are not persisted and contain no long-term significant - history, nor does the receiving home server have to reply to them. - -:Persisted Data Units (PDUs): - These are notifications of events that are broadcast from one home server to - any others that are interested in the same "context" (namely, a Room ID). - They are persisted to long-term storage and form the record of history for - that context. - -EDUs and PDUs are further wrapped in an envelope called a Transaction, which is -transferred from the origin to the destination home server using an HTTP PUT -request. - - -Transactions ------------- -.. WARNING:: - This section may be misleading or inaccurate. - -The transfer of EDUs and PDUs between home servers is performed by an exchange -of Transaction messages, which are encoded as JSON objects, passed over an HTTP -PUT request. A Transaction is meaningful only to the pair of home servers that -exchanged it; they are not globally-meaningful. - -Each transaction has: - - An opaque transaction ID. - - A timestamp (UNIX epoch time in milliseconds) generated by its origin - server. - - An origin and destination server name. - - A list of "previous IDs". - - A list of PDUs and EDUs - the actual message payload that the Transaction - carries. - -``origin`` - Type: - String - Description: - DNS name of homeserver making this transaction. - -``ts`` - Type: - Integer - Description: - Timestamp in milliseconds on originating homeserver when this transaction - started. - -``previous_ids`` - Type: - List of strings - Description: - List of transactions that were sent immediately prior to this transaction. - -``pdus`` - Type: - List of Objects. - Description: - List of updates contained in this transaction. - -:: - - { - "transaction_id":"916d630ea616342b42e98a3be0b74113", - "ts":1404835423000, - "origin":"red", - "destination":"blue", - "prev_ids":["e1da392e61898be4d2009b9fecce5325"], - "pdus":[...], - "edus":[...] - } - -The ``prev_ids`` field contains a list of previous transaction IDs that the -``origin`` server has sent to this ``destination``. Its purpose is to act as a -sequence checking mechanism - the destination server can check whether it has -successfully received that Transaction, or ask for a retransmission if not. - -The ``pdus`` field of a transaction is a list, containing zero or more PDUs.[*] -Each PDU is itself a JSON object containing a number of keys, the exact details -of which will vary depending on the type of PDU. Similarly, the ``edus`` field -is another list containing the EDUs. This key may be entirely absent if there -are no EDUs to transfer. - -(* Normally the PDU list will be non-empty, but the server should cope with -receiving an "empty" transaction.) - -PDUs and EDUs -------------- -.. WARNING:: - This section may be misleading or inaccurate. - -All PDUs have: - - An ID - - A context - - A declaration of their type - - A list of other PDU IDs that have been seen recently on that context - (regardless of which origin sent them) - -``context`` - Type: - String - Description: - Event context identifier - -``origin`` - Type: - String - Description: - DNS name of homeserver that created this PDU. - -``pdu_id`` - Type: - String - Description: - Unique identifier for PDU within the context for the originating homeserver - -``ts`` - Type: - Integer - Description: - Timestamp in milliseconds on originating homeserver when this PDU was - created. - -``pdu_type`` - Type: - String - Description: - PDU event type. - -``prev_pdus`` - Type: - List of pairs of strings - Description: - The originating homeserver and PDU ids of the most recent PDUs the - homeserver was aware of for this context when it made this PDU. - -``depth`` - Type: - Integer - Description: - The maximum depth of the previous PDUs plus one. - - -.. TODO-spec paul - - Update this structure so that 'pdu_id' is a two-element [origin,ref] pair - like the prev_pdus are - -For state updates: - -``is_state`` - Type: - Boolean - Description: - True if this PDU is updating state. - -``state_key`` - Type: - String - Description: - Optional key identifying the updated state within the context. - -``power_level`` - Type: - Integer - Description: - The asserted power level of the user performing the update. - -``required_power_level`` - Type: - Integer - Description: - The required power level needed to replace this update. - -``prev_state_id`` - Type: - String - Description: - PDU event type. - -``prev_state_origin`` - Type: - String - Description: - The PDU id of the update this replaces. - -``user_id`` - Type: - String - Description: - The user updating the state. - -:: - - { - "pdu_id":"a4ecee13e2accdadf56c1025af232176", - "context":"#example.green", - "origin":"green", - "ts":1404838188000, - "pdu_type":"m.text", - "prev_pdus":[["blue","99d16afbc857975916f1d73e49e52b65"]], - "content":... - "is_state":false - } - -In contrast to Transactions, it is important to note that the ``prev_pdus`` -field of a PDU refers to PDUs that any origin server has sent, rather than -previous IDs that this ``origin`` has sent. This list may refer to other PDUs -sent by the same origin as the current one, or other origins. - -Because of the distributed nature of participants in a Matrix conversation, it -is impossible to establish a globally-consistent total ordering on the events. -However, by annotating each outbound PDU at its origin with IDs of other PDUs -it has received, a partial ordering can be constructed allowing causality -relationships to be preserved. A client can then display these messages to the -end-user in some order consistent with their content and ensure that no message -that is semantically in reply of an earlier one is ever displayed before it. - -PDUs fall into two main categories: those that deliver Events, and those that -synchronise State. For PDUs that relate to State synchronisation, additional -keys exist to support this: - -:: - - {..., - "is_state":true, - "state_key":TODO-doc - "power_level":TODO-doc - "prev_state_id":TODO-doc - "prev_state_origin":TODO-doc} - -EDUs, by comparison to PDUs, do not have an ID, a context, or a list of -"previous" IDs. The only mandatory fields for these are the type, origin and -destination home server names, and the actual nested content. - -:: - - {"edu_type":"m.presence", - "origin":"blue", - "destination":"orange", - "content":...} - - -Protocol URLs -------------- -.. WARNING:: - This section may be misleading or inaccurate. - -All these URLs are namespaced within a prefix of:: - - /_matrix/federation/v1/... - -For active pushing of messages representing live activity "as it happens":: - - PUT .../send/:transaction_id/ - Body: JSON encoding of a single Transaction - Response: TODO-doc - -The transaction_id path argument will override any ID given in the JSON body. -The destination name will be set to that of the receiving server itself. Each -embedded PDU in the transaction body will be processed. - - -To fetch a particular PDU:: - - GET .../pdu/:origin/:pdu_id/ - Response: JSON encoding of a single Transaction containing one PDU - -Retrieves a given PDU from the server. The response will contain a single new -Transaction, inside which will be the requested PDU. - - -To fetch all the state of a given context:: - - GET .../state/:context/ - Response: JSON encoding of a single Transaction containing multiple PDUs - -Retrieves a snapshot of the entire current state of the given context. The -response will contain a single Transaction, inside which will be a list of PDUs -that encode the state. - -To backfill events on a given context:: - - GET .../backfill/:context/ - Query args: v, limit - Response: JSON encoding of a single Transaction containing multiple PDUs - -Retrieves a sliding-window history of previous PDUs that occurred on the given -context. Starting from the PDU ID(s) given in the "v" argument, the PDUs that -preceeded it are retrieved, up to a total number given by the "limit" argument. -These are then returned in a new Transaction containing all of the PDUs. - - -To stream events all the events:: - - GET .../pull/ - Query args: origin, v - Response: JSON encoding of a single Transaction consisting of multiple PDUs - -Retrieves all of the transactions later than any version given by the "v" -arguments. - - -To make a query:: - - GET .../query/:query_type - Query args: as specified by the individual query types - Response: JSON encoding of a response object - -Performs a single query request on the receiving home server. The Query Type -part of the path specifies the kind of query being made, and its query -arguments have a meaning specific to that kind of query. The response is a -JSON-encoded object whose meaning also depends on the kind of query. - -Backfilling ------------ -.. NOTE:: - This section is a work in progress. - -.. TODO-doc - - What it is, when is it used, how is it done - -SRV Records ------------ -.. NOTE:: - This section is a work in progress. - -.. TODO-doc - - Why it is needed - -State Conflict Resolution -------------------------- -.. NOTE:: - This section is a work in progress. - -.. TODO-doc - - How do conflicts arise (diagrams?) - - How are they resolved (incl tie breaks) - - How does this work with deleting current state - -Presence --------- -The server API for presence is based entirely on exchange of the following -EDUs. There are no PDUs or Federation Queries involved. - -Performing a presence update and poll subscription request:: - - EDU type: m.presence - - Content keys: - push: (optional): list of push operations. - Each should be an object with the following keys: - user_id: string containing a User ID - presence: "offline"|"unavailable"|"online"|"free_for_chat" - status_msg: (optional) string of freeform text - last_active_ago: miliseconds since the last activity by the user - - poll: (optional): list of strings giving User IDs - - unpoll: (optional): list of strings giving User IDs - -The presence of this combined message is two-fold: it informs the recipient -server of the current status of one or more users on the sending server (by the -``push`` key), and it maintains the list of users on the recipient server that -the sending server is interested in receiving updates for, by adding (by the -``poll`` key) or removing them (by the ``unpoll`` key). The ``poll`` and -``unpoll`` lists apply *changes* to the implied list of users; any existing IDs -that the server sent as ``poll`` operations in a previous message are not -removed until explicitly requested by a later ``unpoll``. - -On receipt of a message containing a non-empty ``poll`` list, the receiving -server should immediately send the sending server a presence update EDU of its -own, containing in a ``push`` list the current state of every user that was in -the orginal EDU's ``poll`` list. - -Sending a presence invite:: - - EDU type: m.presence_invite - - Content keys: - observed_user: string giving the User ID of the user whose presence is - requested (i.e. the recipient of the invite) - observer_user: string giving the User ID of the user who is requesting to - observe the presence (i.e. the sender of the invite) - -Accepting a presence invite:: - - EDU type: m.presence_accept - - Content keys - as for m.presence_invite - -Rejecting a presence invite:: - - EDU type: m.presence_deny - - Content keys - as for m.presence_invite - -.. TODO-doc - - Explain the timing-based roundtrip reduction mechanism for presence - messages - - Explain the zero-byte presence inference logic - See also: docs/client-server/model/presence - -Profiles --------- -The server API for profiles is based entirely on the following Federation -Queries. There are no additional EDU or PDU types involved, other than the -implicit ``m.presence`` and ``m.room.member`` events (see section below). - -Querying profile information:: - - Query type: profile - - Arguments: - user_id: the ID of the user whose profile to return - field: (optional) string giving a field name - - Returns: JSON object containing the following keys: - displayname: string of freeform text - avatar_url: string containing an http-scheme URL - -If the query contains the optional ``field`` key, it should give the name of a -result field. If such is present, then the result should contain only a field -of that name, with no others present. If not, the result should contain as much -of the user's profile as the home server has available and can make public. - -Server-Server Authentication ----------------------------- - -.. TODO-doc - - Why is this needed. - - High level overview of process. - - Transaction/PDU signing - - How does this work with redactions? (eg hashing required keys only) - - - -Threat Model ------------- - -Denial of Service -~~~~~~~~~~~~~~~~~ - -The attacker could attempt to prevent delivery of messages to or from the -victim in order to: - -* Disrupt service or marketing campaign of a commercial competitor. -* Censor a discussion or censor a participant in a discussion. -* Perform general vandalism. - -Threat: Resource Exhaustion -+++++++++++++++++++++++++++ - -An attacker could cause the victims server to exhaust a particular resource -(e.g. open TCP connections, CPU, memory, disk storage) - -Threat: Unrecoverable Consistency Violations -++++++++++++++++++++++++++++++++++++++++++++ - -An attacker could send messages which created an unrecoverable "split-brain" -state in the cluster such that the victim's servers could no longer dervive a -consistent view of the chatroom state. - -Threat: Bad History -+++++++++++++++++++ - -An attacker could convince the victim to accept invalid messages which the -victim would then include in their view of the chatroom history. Other servers -in the chatroom would reject the invalid messages and potentially reject the -victims messages as well since they depended on the invalid messages. - -.. TODO-spec - Track trustworthiness of HS or users based on if they try to pretend they - haven't seen recent events, and fake a splitbrain... --M - -Threat: Block Network Traffic -+++++++++++++++++++++++++++++ - -An attacker could try to firewall traffic between the victim's server and some -or all of the other servers in the chatroom. - -Threat: High Volume of Messages -+++++++++++++++++++++++++++++++ - -An attacker could send large volumes of messages to a chatroom with the victim -making the chatroom unusable. - -Threat: Banning users without necessary authorisation -+++++++++++++++++++++++++++++++++++++++++++++++++++++ - -An attacker could attempt to ban a user from a chatroom with the necessary -authorisation. - -Spoofing -~~~~~~~~ - -An attacker could try to send a message claiming to be from the victim without -the victim having sent the message in order to: - -* Impersonate the victim while performing illict activity. -* Obtain privileges of the victim. - -Threat: Altering Message Contents -+++++++++++++++++++++++++++++++++ - -An attacker could try to alter the contents of an existing message from the -victim. - -Threat: Fake Message "origin" Field -+++++++++++++++++++++++++++++++++++ - -An attacker could try to send a new message purporting to be from the victim -with a phony "origin" field. - -Spamming -~~~~~~~~ - -The attacker could try to send a high volume of solicicted or unsolicted -messages to the victim in order to: - -* Find victims for scams. -* Market unwanted products. - -Threat: Unsoliticted Messages -+++++++++++++++++++++++++++++ - -An attacker could try to send messages to victims who do not wish to receive -them. - -Threat: Abusive Messages -++++++++++++++++++++++++ - -An attacker could send abusive or threatening messages to the victim - -Spying -~~~~~~ - -The attacker could try to access message contents or metadata for messages sent -by the victim or to the victim that were not intended to reach the attacker in -order to: - -* Gain sensitive personal or commercial information. -* Impersonate the victim using credentials contained in the messages. - (e.g. password reset messages) -* Discover who the victim was talking to and when. - -Threat: Disclosure during Transmission -++++++++++++++++++++++++++++++++++++++ - -An attacker could try to expose the message contents or metadata during -transmission between the servers. - -Threat: Disclosure to Servers Outside Chatroom -++++++++++++++++++++++++++++++++++++++++++++++ - -An attacker could try to convince servers within a chatroom to send messages to -a server it controls that was not authorised to be within the chatroom. - -Threat: Disclosure to Servers Within Chatroom -~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ - -An attacker could take control of a server within a chatroom to expose message -contents or metadata for messages in that room. - - -Identity Servers -================ -.. NOTE:: - This section is a work in progress. - -.. TODO-doc Dave - - 3PIDs and identity server, functions - -Lawful Interception -------------------- - -Key Escrow Servers -~~~~~~~~~~~~~~~~~~ - -Policy Servers -============== -.. NOTE:: - This section is a work in progress. - -.. TODO-spec - We should mention them in the Architecture section at least: how they fit - into the picture. - -Enforcing policies ------------------- - - - -.. Links through the external API docs are below -.. ============================================= - -.. |createRoom| replace:: ``/createRoom`` -.. _createRoom: /docs/api/client-server/#!/-rooms/create_room - -.. |initialSync| replace:: ``/initialSync`` -.. _initialSync: /docs/api/client-server/#!/-events/initial_sync - -.. |/rooms/<room_id>/initialSync| replace:: ``/rooms/<room_id>/initialSync`` -.. _/rooms/<room_id>/initialSync: /docs/api/client-server/#!/-rooms/get_room_sync_data - -.. |login| replace:: ``/login`` -.. _login: /docs/api/client-server/#!/-login - -.. |register| replace:: ``/register`` -.. _register: /docs/api/client-server/#!/-registration - -.. |/rooms/<room_id>/messages| replace:: ``/rooms/<room_id>/messages`` -.. _/rooms/<room_id>/messages: /docs/api/client-server/#!/-rooms/get_messages - -.. |/rooms/<room_id>/members| replace:: ``/rooms/<room_id>/members`` -.. _/rooms/<room_id>/members: /docs/api/client-server/#!/-rooms/get_members - -.. |/rooms/<room_id>/state| replace:: ``/rooms/<room_id>/state`` -.. _/rooms/<room_id>/state: /docs/api/client-server/#!/-rooms/get_state_events - -.. |/rooms/<room_id>/send/<event_type>| replace:: ``/rooms/<room_id>/send/<event_type>`` -.. _/rooms/<room_id>/send/<event_type>: /docs/api/client-server/#!/-rooms/send_non_state_event - -.. |/rooms/<room_id>/state/<event_type>/<state_key>| replace:: ``/rooms/<room_id>/state/<event_type>/<state_key>`` -.. _/rooms/<room_id>/state/<event_type>/<state_key>: /docs/api/client-server/#!/-rooms/send_state_event - -.. |/rooms/<room_id>/invite| replace:: ``/rooms/<room_id>/invite`` -.. _/rooms/<room_id>/invite: /docs/api/client-server/#!/-rooms/invite - -.. |/rooms/<room_id>/join| replace:: ``/rooms/<room_id>/join`` -.. _/rooms/<room_id>/join: /docs/api/client-server/#!/-rooms/join_room - -.. |/rooms/<room_id>/leave| replace:: ``/rooms/<room_id>/leave`` -.. _/rooms/<room_id>/leave: /docs/api/client-server/#!/-rooms/leave - -.. |/rooms/<room_id>/ban| replace:: ``/rooms/<room_id>/ban`` -.. _/rooms/<room_id>/ban: /docs/api/client-server/#!/-rooms/ban - -.. |/join/<room_alias_or_id>| replace:: ``/join/<room_alias_or_id>`` -.. _/join/<room_alias_or_id>: /docs/api/client-server/#!/-rooms/join - -.. _`Event Stream`: /docs/api/client-server/#!/-events/get_event_stream - |