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": "", "stages": [ "", "" ] }, { "type": "", "stages": [ "", "" ] }, { "type": "" } ] } 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": "" } 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": "", "password": "" } The home server MUST respond with either new credentials, the next stage of the login process, or a standard error response. Captcha-based ~~~~~~~~~~~~~ :Type: ``m.login.recaptcha`` :Description: Login is supported by responding to a captcha (in the case of the Synapse implementation, Google's Recaptcha library is used). To respond to this type, reply with:: { "type": "m.login.recaptcha", "challenge": "", "response": "" } .. NOTE:: In Synapse, the Recaptcha parameters can be obtained in Javascript by calling: Recaptcha.get_challenge(); Recaptcha.get_response(); 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": "" } The server MUST respond with:: { "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": "", "email": "" } After validating the email address, the home server MUST send an email containing an authentication code and return:: { "type": "m.login.email.code", "session": "" } The second request in this login stage involves sending this authentication code:: { "type": "m.login.email.code", "session": "", "code": "" } 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": "", "email": "" } After validating the email address, the home server MUST send an email containing an authentication URL and return:: { "type": "m.login.email.url", "session": "" } 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": "" } 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": "", "clientSecret": "", "idServer": "" } ] } 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": "" } 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>, ... , ] } This can be represented conceptually as:: _______________________ | Login Stage 1 | | type: "" | | ___________________ | | |_Request_1_________| | <-- Returns "session" key which is used throughout. | ___________________ | | |_Request_2_________| | <-- Returns a "next" value of "login type2" |_______________________| | | _________V_____________ | Login Stage 2 | | type: "" | | ___________________ | | |_Request_1_________| | | ___________________ | | |_Request_2_________| | | ___________________ | | |_Request_3_________| | <-- Returns a "next" value of "login type3" |_______________________| | | _________V_____________ | Login Stage 3 | | type: "" | | ___________________ | | |_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_id": } They can be deleted by sending a ``DELETE /directory/room/`` 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_id": , "servers": [ , , ] } 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:: { "": , "": , "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/|_ with:: {} Alternatively, a user can make a request to |/rooms//join|_ with the same request content. This is only provided for symmetry with the other membership APIs: ``/rooms//invite`` and ``/rooms//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//state/m.room.member/``:: { "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//invite|_, which will manage the entire invitation process:: { "user_id": "" } Alternatively, the membership state for this user in this room can be modified directly by sending the following request to ``/rooms//state/m.room.member/``:: { "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//leave|_ with:: {} Alternatively, the membership state for this user in this room can be modified directly by sending the following request to ``/rooms//state/m.room.member/``:: { "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//ban|_ with:: { "user_id": "" } 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//state/m.room.member/``:: { "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//state//|_. These events will be overwritten if ````, ```` and ```` 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//send/|_. 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//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//state//`` 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//state|_ Description: Get all state events for a room. Response format: ``[ { state event }, { state event }, ... ]`` Example: TODO-doc |/rooms//members|_ Description: Get all ``m.room.member`` state events. Response format: ``{ "start": "", "end": "", "chunk": [ { m.room.member event }, ... ] }`` Example: TODO-doc |/rooms//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": "", "end": "" }`` Example: TODO-doc |/rooms//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? .. 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//initialSync| replace:: ``/rooms//initialSync`` .. _/rooms//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//messages| replace:: ``/rooms//messages`` .. _/rooms//messages: /docs/api/client-server/#!/-rooms/get_messages .. |/rooms//members| replace:: ``/rooms//members`` .. _/rooms//members: /docs/api/client-server/#!/-rooms/get_members .. |/rooms//state| replace:: ``/rooms//state`` .. _/rooms//state: /docs/api/client-server/#!/-rooms/get_state_events .. |/rooms//send/| replace:: ``/rooms//send/`` .. _/rooms//send/: /docs/api/client-server/#!/-rooms/send_non_state_event .. |/rooms//state//| replace:: ``/rooms//state//`` .. _/rooms//state//: /docs/api/client-server/#!/-rooms/send_state_event .. |/rooms//invite| replace:: ``/rooms//invite`` .. _/rooms//invite: /docs/api/client-server/#!/-rooms/invite .. |/rooms//join| replace:: ``/rooms//join`` .. _/rooms//join: /docs/api/client-server/#!/-rooms/join_room .. |/rooms//leave| replace:: ``/rooms//leave`` .. _/rooms//leave: /docs/api/client-server/#!/-rooms/leave .. |/rooms//ban| replace:: ``/rooms//ban`` .. _/rooms//ban: /docs/api/client-server/#!/-rooms/ban .. |/join/| replace:: ``/join/`` .. _/join/: /docs/api/client-server/#!/-rooms/join .. _`Event Stream`: /docs/api/client-server/#!/-events/get_event_stream