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ReStructuredText
575 lines
18 KiB
ReStructuredText
.. TODO
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Sometimes application services need to create rooms (e.g. when lazy loading
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from room aliases). Created rooms need to have a user that created them, so
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federation works (as it relies on an entry existing in m.room.member). We
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should be able to add metadata to m.room.member to state that this user is an
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application service, a virtual user, etc.
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Application Services HTTP API
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=============================
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.. contents:: Table of Contents
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.. sectnum::
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Application Service -> Home Server
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----------------------------------
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This contains home server APIs which are used by the application service.
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Registration API ``[Draft]``
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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This API registers the application service with its host homeserver to offer its
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services.
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Inputs:
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- Credentials (e.g. some kind of string token)
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- Namespace[users]
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- Namespace[room aliases]
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- URL base to receive inbound comms
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Output:
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- The credentials the HS will use to query the AS with in return. (e.g. some
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kind of string token)
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Side effects:
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- The HS will start delivering events to the URL base specified if this 200s.
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API called when:
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- The application service wants to register with a brand new home server.
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Notes:
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- An application service can state whether they should be the only ones who
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can manage a specified namespace. This is referred to as an "exclusive"
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namespace. An exclusive namespace prevents humans and other application
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services from creating/deleting entities in that namespace. Typically,
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exclusive namespaces are used when the rooms represent real rooms on
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another service (e.g. IRC). Non-exclusive namespaces are used when the
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application service is merely augmenting the room itself (e.g. providing
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logging or searching facilities).
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- Namespaces are represented by POSIX extended regular expressions in JSON.
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They look like::
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users: [
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{
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"exclusive": true,
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"regex": "@irc\.freenode\.net/.*"
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}
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]
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::
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POST /register
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Request format
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{
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url: "https://my.application.service.com/matrix/",
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as_token: "some_AS_token",
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namespaces: {
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users: [
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{
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"exclusive": true,
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"regex": "@irc\.freenode\.net/.*"
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}
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],
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aliases: [
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{
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"exclusive": true,
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"regex": "#irc\.freenode\.net/.*"
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}
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],
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rooms: [
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{
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"exclusive": true,
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"regex": "!irc\.freenode\.net/.*"
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}
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]
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}
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}
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Returns:
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200 : Registration accepted.
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400 : Namespaces do not conform to regex
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401 : Credentials need to be supplied.
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403 : AS credentials rejected.
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200 OK response format
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{
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hs_token: "string"
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}
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Unregister API ``[Draft]``
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~~~~~~~~~~~~~~~~~~~~~~~~~~
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This API unregisters a previously registered AS from the home server.
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Inputs:
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- AS token
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Output:
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- None.
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Side effects:
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- The HS will stop delivering events to the URL base specified for this AS if
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this 200s.
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API called when:
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- The application service wants to stop receiving all events from the HS.
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::
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POST /unregister
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Request format
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{
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as_token: "string"
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}
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Home Server -> Application Service
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----------------------------------
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This contains application service APIs which are used by the home server.
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User Query ``[Draft]``
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~~~~~~~~~~~~~~~~~~~~~~
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This API is called by the HS to query the existence of a user on the Application
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Service's namespace.
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Inputs:
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- User ID
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- HS Credentials
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Output:
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- Whether the user exists.
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Side effects:
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- User is created on the HS by the AS via CS APIs during the processing of this request.
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API called when:
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- HS receives an event for an unknown user ID in the AS's namespace, e.g. an
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invite event to a room.
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Notes:
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- When the AS receives this request, if the user exists, it must create the user via
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the CS API.
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- It can also set arbitrary information about the user (e.g. display name, join rooms, etc)
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using the CS API.
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- When this setup is complete, the AS should respond to the HS request. This means the AS
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blocks the HS until the user is created.
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- This is deemed more flexible than alternative methods (e.g. returning a JSON blob with the
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user's display name and get the HS to provision the user).
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Retry notes:
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- The home server cannot respond to the client's request until the response to
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this API is obtained from the AS.
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- Recommended that home servers try a few times then time out, returning a
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408 Request Timeout to the client.
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::
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GET /users/$user_id?access_token=$hs_token
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Returns:
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200 : User is recognised.
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404 : User not found.
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401 : Credentials need to be supplied.
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403 : HS credentials rejected.
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200 OK response format
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{}
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Room Alias Query ``[Draft]``
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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This API is called by the HS to query the existence of a room alias on the
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Application Service's namespace.
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Inputs:
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- Room alias
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- HS Credentials
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Output:
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- Whether the room exists.
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Side effects:
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- Room is created on the HS by the AS via CS APIs during the processing of
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this request.
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API called when:
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- HS receives an event to join a room alias in the AS's namespace.
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Notes:
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- When the AS receives this request, if the room exists, it must create the room via
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the CS API.
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- It can also set arbitrary information about the room (e.g. name, topic, etc)
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using the CS API.
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- It can send messages as other users in order to populate scrollback.
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- When this setup is complete, the AS should respond to the HS request. This means the AS
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blocks the HS until the room is created and configured.
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- This is deemed more flexible than alternative methods (e.g. returning an initial sync
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style JSON blob and get the HS to provision the room). It also means that the AS knows
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the room ID -> alias mapping.
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Retry notes:
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- The home server cannot respond to the client's request until the response to
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this API is obtained from the AS.
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- Recommended that home servers try a few times then time out, returning a
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408 Request Timeout to the client.
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::
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GET /rooms/$room_alias?access_token=$hs_token
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Returns:
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200 : Room is recognised.
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404 : Room not found.
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401 : Credentials need to be supplied.
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403 : HS credentials rejected.
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200 OK response format
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{}
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Pushing ``[Draft]``
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~~~~~~~~~~~~~~~~~~~
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This API is called by the HS when the HS wants to push an event (or batch of
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events) to the AS.
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Inputs:
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- HS Credentials
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- Event(s) to give to the AS
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- HS-generated transaction ID
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Output:
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- None.
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Data flows:
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::
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Typical
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HS ---> AS : Home server sends events with transaction ID T.
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<--- : AS sends back 200 OK.
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AS ACK Lost
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HS ---> AS : Home server sends events with transaction ID T.
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<-/- : AS 200 OK is lost.
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HS ---> AS : Home server retries with the same transaction ID of T.
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<--- : AS sends back 200 OK. If the AS had processed these events
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already, it can NO-OP this request (and it knows if it is the same
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events based on the transacton ID).
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Retry notes:
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- If the HS fails to pass on the events to the AS, it must retry the request.
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- Since ASes by definition cannot alter the traffic being passed to it (unlike
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say, a Policy Server), these requests can be done in parallel to general HS
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processing; the HS doesn't need to block whilst doing this.
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- Home servers should use exponential backoff as their retry algorithm.
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- Home servers MUST NOT alter (e.g. add more) events they were going to
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send within that transaction ID on retries, as the AS may have already
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processed the events.
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Ordering notes:
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- The events sent to the AS should be linearised, as they are from the event
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stream.
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- The home server will need to maintain a queue of transactions to send to
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the AS.
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::
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PUT /transactions/$transaction_id?access_token=$hs_token
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Request format
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{
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events: [
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...
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]
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}
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Client-Server v2 API Extensions
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-------------------------------
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Identity assertion
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~~~~~~~~~~~~~~~~~~
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The client-server API infers the user ID from the ``access_token`` provided in
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every request. It would be an annoying amount of book-keeping to maintain tokens
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for every virtual user. It would be preferable if the application service could
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use the CS API with its own ``as_token`` instead, and specify the virtual user
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they wish to be acting on behalf of. For real users, this would require
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additional permissions granting the AS permission to masquerade as a matrix user.
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Inputs:
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- Application service token (``access_token``)
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Either:
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- User ID in the AS namespace to act as.
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Or:
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- OAuth2 token of real user (which may end up being an access token)
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Notes:
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- This will apply on all aspects of the CS API, except for Account Management.
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- The ``as_token`` is inserted into ``access_token`` which is usually where the
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client token is. This is done on purpose to allow application services to
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reuse client SDKs.
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::
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/path?access_token=$token&user_id=$userid
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Query Parameters:
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access_token: The application service token
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user_id: The desired user ID to act as.
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/path?access_token=$token&user_token=$token
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Query Parameters:
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access_token: The application service token
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user_token: The token granted to the AS by the real user
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Timestamp massaging
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~~~~~~~~~~~~~~~~~~~
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The application service may want to inject events at a certain time (reflecting
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the time on the network they are tracking e.g. irc, xmpp). Application services
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need to be able to adjust the ``origin_server_ts`` value to do this.
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Inputs:
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- Application service token (``as_token``)
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- Desired timestamp
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Notes:
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- This will only apply when sending events.
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::
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/path?access_token=$token&ts=$timestamp
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Query Parameters added to the send event APIs only:
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access_token: The application service token
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ts: The desired timestamp
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Server admin style permissions
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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The home server needs to give the application service *full control* over its
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namespace, both for users and for room aliases. This means that the AS should
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be able to create/edit/delete any room alias in its namespace, as well as
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create/delete any user in its namespace. No additional API changes need to be
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made in order for control of room aliases to be granted to the AS. Creation of
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users needs API changes in order to:
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- Work around captchas.
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- Have a 'passwordless' user.
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This involves bypassing the registration flows entirely. This is achieved by
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including the AS token on a ``/register`` request, along with a login type of
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``m.login.application_service`` to set the desired user ID without a password.
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::
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/register?access_token=$as_token
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Content:
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{
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type: "m.login.application_service",
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user: "<desired user localpart in AS namespace>"
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}
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Application services which attempt to create users or aliases *outside* of
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their defined namespaces will receive an error code ``M_EXCLUSIVE``. Similarly,
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normal users who attempt to create users or alises *inside* an application
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service-defined namespace will receive the same ``M_EXCLUSIVE`` error code.
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ID conventions ``[Draft]``
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--------------------------
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.. NOTE::
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- Giving HSes the freedom to namespace still feels like the Right Thing here.
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- Exposing a public API provides the consistency which was the main complaint
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against namespacing.
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- This may have knock-on effects for the AS registration API. E.g. why don't
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we let ASes specify the *URI* regex they want?
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This concerns the well-defined conventions for mapping 3P network IDs to matrix
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IDs, which we expect clients to be able to do by themselves.
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User IDs
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~~~~~~~~
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Matrix users may wish to directly contact a virtual user, e.g. to send an email.
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The URI format is a well-structured way to represent a number of different ID
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types, including:
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- MSISDNs (``tel``)
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- Email addresses (``mailto``)
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- IRC nicks (``irc`` - https://tools.ietf.org/html/draft-butcher-irc-url-04)
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- XMPP (xep-0032)
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- SIP URIs (RFC 3261)
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As a result, virtual user IDs SHOULD relate to their URI counterpart. This
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mapping from URI to user ID can be expressed in a number of ways:
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- Expose a C-S API on the HS which takes URIs and responds with user IDs.
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- Munge the URI with the user ID.
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Exposing an API would allow HSes to internally map user IDs however they like,
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at the cost of an extra round trip (of which the response can be cached).
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Munging the URI would allow clients to apply the mapping locally, but would force
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user X on service Y to always map to the same munged user ID. Considering the
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exposed API could just be applying this munging, there is more flexibility if
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an API is exposed.
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::
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GET /_matrix/app/v1/user?uri=$url_encoded_uri
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Returns 200 OK:
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{
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user_id: <complete user ID on local HS>
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}
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Room Aliases
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~~~~~~~~~~~~
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We may want to expose some 3P network rooms so Matrix users can join them directly,
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e.g. IRC rooms. We don't want to expose every 3P network room though, e.g. mailto,
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tel. Rooms which are publicly accessible (e.g. IRC rooms) can be exposed as an alias by
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the application service. Private rooms (e.g. sending an email to someone) should not
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be exposed in this way, but should instead operate using normal invite/join semantics.
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Therefore, the ID conventions discussed below are only valid for public rooms which
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expose room aliases.
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Matrix users may wish to join XMPP rooms (e.g. using XEP-0045) or IRC rooms. In both
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cases, these rooms can be expressed as URIs. For consistency, these "room" URIs
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SHOULD be mapped in the same way as "user" URIs.
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::
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GET /_matrix/app/v1/alias?uri=$url_encoded_uri
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Returns 200 OK:
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{
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alias: <complete room alias on local HS>
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}
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Event fields
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~~~~~~~~~~~~
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We recommend that any gatewayed events should include an `external_url` field in
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their content to provide a way for Matrix clients to link into the 'native'
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client from which the event originated. For instance, this could contain the
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message-ID for emails/nntp posts, or a link to a blog comment when gatewaying
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blog comment traffic in & out of matrix
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Examples
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--------
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.. NOTE::
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- User/Alias namespaces are subject to change depending on ID conventions.
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IRC
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~~~
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Pre-conditions:
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- Server admin stores the AS token "T_a" on the home server.
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- Home server has a token "T_h".
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- Home server has the domain "hsdomain.com"
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1. Application service registration
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::
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AS -> HS: Registers itself with the home server
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POST /register
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{
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url: "https://someapp.com/matrix",
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as_token: "T_a",
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namespaces: {
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users: [
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{
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"exclusive": true,
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"regex": "@irc\.freenode\.net/.*"
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}
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],
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aliases: [
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{
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"exclusive": true,
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"regex": "#irc\.freenode\.net/.*"
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}
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]
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}
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}
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Returns 200 OK:
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{
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hs_token: "T_h"
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}
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2. IRC user "Bob" says "hello?" on "#matrix" at timestamp 1421416883133:
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::
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- AS stores message as potential scrollback.
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- Nothing happens as no Matrix users are in the room.
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3. Matrix user "@alice:hsdomain.com" wants to join "#matrix":
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::
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User -> HS: Request to join "#irc.freenode.net/#matrix:hsdomain.com"
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HS -> AS: Room Query "#irc.freenode.net/#matrix:hsdomain.com"
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GET /rooms/%23irc.freenode.net%2F%23matrix%3Ahsdomain.com?access_token=T_h
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[Starts blocking]
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AS -> HS: Creates room. Gets room ID "!aasaasasa:hsdomain.com".
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AS -> HS: Sets room name to "#matrix".
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AS -> HS: Sends message as ""@irc.freenode.net/Bob:hsdomain.com"
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PUT /rooms/%21aasaasasa%3Ahsdomain.com/send/m.room.message
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?access_token=T_a
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&user_id=%40irc.freenode.net%2FBob%3Ahsdomain.com
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&ts=1421416883133
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{
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body: "hello?"
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msgtype: "m.text"
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}
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HS -> AS: User Query "@irc.freenode.net/Bob:hsdomain.com"
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GET /users/%40irc.freenode.net%2FBob%3Ahsdomain.com?access_token=T_h
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[Starts blocking]
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AS -> HS: Creates user using CS API extension.
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POST /register?access_token=T_a
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{
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type: "m.login.application_service",
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user: "irc.freenode.net/Bob"
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}
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AS -> HS: Set user display name to "Bob".
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[Finishes blocking]
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[Finished blocking]
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- HS sends room information back to client.
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4. @alice:hsdomain.com says "hi!" in this room:
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::
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User -> HS: Send message "hi!" in room !aasaasasa:hsdomain.com
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- HS sends message.
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- HS sees the room ID is in the AS namespace and pushes it to the AS.
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HS -> AS: Push event
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PUT /transactions/1?access_token=T_h
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{
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events: [
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{
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content: {
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body: "hi!",
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msgtype: "m.text"
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},
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origin_server_ts: <generated by hs>,
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user_id: "@alice:hsdomain.com",
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room_id: "!aasaasasa:hsdomain.com",
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type: "m.room.message"
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}
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]
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}
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- AS passes this through to IRC.
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5. IRC user "Bob" says "what's up?" on "#matrix" at timestamp 1421418084816:
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::
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IRC -> AS: "what's up?"
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AS -> HS: Send message via CS API extension
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PUT /rooms/%21aasaasasa%3Ahsdomain.com/send/m.room.message
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?access_token=T_a
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&user_id=%40irc.freenode.net%2FBob%3Ahsdomain.com
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&ts=1421418084816
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{
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body: "what's up?"
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msgtype: "m.text"
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}
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- HS modifies the user_id and origin_server_ts on the event and sends it.
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