XMPP Extensions: Difference between revisions
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[[Category:Telepathy]] |
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This page documents the current server extensions relied upon by the Telepathy client in use on the XOs, and the ways they are used. On the whole these are official [http://www.xmpp.org/extensions/ XMPP Extension Proposals] (XEPs) from the XMPP Standards Foundation, along with ejabberd specific shared roster behaviour. In some respects, it is a more verbose version of [[ |
This page documents the current server extensions relied upon by the Telepathy client in use on the XOs, and the ways they are used. On the whole these are official [http://www.xmpp.org/extensions/ XMPP Extension Proposals] (XEPs) from the XMPP Standards Foundation, along with ejabberd specific shared roster behaviour. In some respects, it is a more verbose version of [[Shared Activity Protocol 1.0]] but is focussed on server extensions rather than the client<->client protocols. It goes on to propose a new OLPC-specific XMPP server component which will address scalability issues, and replace the reliance on shared rosters and perhaps also on PEP. |
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== Server Extensions Currently In Use == |
== Server Extensions Currently In Use == |
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=== [http://www.xmpp.org/extensions/xep-0045.html XEP-0045: Multi-User Chat] === |
=== [http://www.xmpp.org/extensions/xep-0045.html XEP-0045: Multi-User Chat] === |
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Every shared activity is represented with one MUC room on the . They are configured so that they are not persistent (ie the server discards them when the last user has left), are private (users are made aware of the activities by other means or direct <message> invitations), and all members are able to see the full JID of the members (MUC nicknames are not used or exposed anywhere in the UI) |
Every shared activity is represented with one MUC room on the server's conference server. They are configured so that they are not persistent (ie the server discards them when the last user has left), are private (users are made aware of the activities by other means or direct <message> invitations), and all members are able to see the full JID of the members (MUC nicknames are not used or exposed anywhere in the UI). Shared activity data is exchanged over these rooms with Telepathy's [http://telepathy.freedesktop.org/xmpp/tubes.html Tubes] and [http://telepathy.freedesktop.org/xmpp/muc-bytestream.html MUC Bytestream] protocols. |
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=== [http://www.xmpp.org/extensions/xep-0163.html XEP-0163: Personal Eventing via Pubsub] === |
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PEP is used on the server to propogate information. Each XO publishes a number of nodes with properties as documented [http://people.collabora.co.uk/~smcv/olpc.html here], which are seperate nodes on the basis that they will change at different frequencies, so that each update is as small as possible. The nodes are: |
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* Nickname (as in [http://www.xmpp.org/extensions/xep-0172.html XEP-0172: User Nickname]) |
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* Buddy properties (colour, public key, etc) |
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* Current activity (changes more often) |
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* List of all joined activities |
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* Properties for the activities (type, colour, instance ID, etc) |
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Activities are identified by the JID of the MUC room they use to communicate. Note that the activity properties are only stored in a seperate PEP node to the list of activities as an interim solution. It is inefficient because it requires every member of the activity to publish the properties, to make the activity metadata robust against any individual leaving. It was always intended that activity properties would be stored somewhere elsewhere per-room, although no such mechanism has been identified or implemented to date. |
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=== [http://www.process-one.net/docs/ejabberd/guide_en.html#htoc64 ejabberd mod_shared_roster] === |
=== [http://www.process-one.net/docs/ejabberd/guide_en.html#htoc64 ejabberd mod_shared_roster] === |
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The server is [[Ejabberd Configuration|configured]] with ejabberd's shared roster module so that there is a group in the roster of every user which contains every other user on the server. This means that presence and PEP notifications for every user on the server are sent automatically to every user who is logged in, and that all PEP nodes published with default (equal to presence) permissions are readable by all. |
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... |
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Currently XOs automatically approve any incoming subscription requests, because no UI has yet been created for this. It is intended that before Update.1, we fix [http://dev.laptop.org/ticket/4965 #4965] and the roster will at least contain the XO's friends so that we can stop relying on shared roster functionality and existing XOs will at least still see their friends. |
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== Problems With This Approach == |
== Problems With This Approach == |
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* The shared roster is totally infeasible for any large Jabber servers due to the sheer size of the list that's pushed the client. Jabber.laptop.org has in the region of 4000 registered users and the roster push is already 500k or so. |
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== Proposed Solution == |
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* If any significant number of these users actually log in, the XO will be deluged with a firehose of presence and PEP notifications that at best it won't be able to show to the user in any meaningful way (the mesh view is already very crowded by 30-40 individuals) or at worst will render the network or device unusable due to sheer amount of traffic and processing. |
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* The shared roster allows no privacy controls over who can see what information about individuals. Basic controls such as not notifying people about presence without subscription, or using subscriptions to control what kind of communication is possible are rendered totally useless. |
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* As hinted at above, the PEP nodes containing activity properties are published per person when they should be published per activity. This leads to needless network churn when people join activities as properties are copied between the members, and notified to their friends. |
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* There is currently no way to implement searching of Buddies or Activities without naive client-side filtering, which requires that the client is aware of all of the possible buddies and activities. |
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* The consequence of requiring PEP support and shared rosters to function at even a basic level means that its much harder than it should be to deploy OLPC-friendly Jabber servers. Only ejabberd has been made to support this configuration to date, so there is no flexibility to choose other solutions based on their respective merits. |
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== |
== Proposed Solution == |
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The page [[XMPP Component Protocol]] has details of the proposed XMPP component protocol to solve the issues. |
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* Do we still want to use PEP for notifying our subscribed friends about our properties, current activities, and such like? |
Latest revision as of 09:44, 1 January 2009
This page documents the current server extensions relied upon by the Telepathy client in use on the XOs, and the ways they are used. On the whole these are official XMPP Extension Proposals (XEPs) from the XMPP Standards Foundation, along with ejabberd specific shared roster behaviour. In some respects, it is a more verbose version of Shared Activity Protocol 1.0 but is focussed on server extensions rather than the client<->client protocols. It goes on to propose a new OLPC-specific XMPP server component which will address scalability issues, and replace the reliance on shared rosters and perhaps also on PEP.
Server Extensions Currently In Use
XEP-0077: In-Band Registration
Every laptop registers itself a JID on the configured server whose username part is the base64 of their public key ID, and password is a hash of the private key. This can be easily replaced by the user entering an existing XMPP account.
XEP-0054: vcard-temp
Every laptop publishes a vCard which contains the user's nickname, or updates the NICKNAME field of any existing vCard to patch. Avatars are not currently used.
<iq type="set"> <vCard xmlns="vcard:temp"> <NICKNAME>foo</NICKNAME> </vCard> </iq>
XEP-0030: Service Discovery
Upon connection, the client requests http://jabber.org/protocol/disco#info and http://jabber.org/protocol/disco#items nodes from the server, to find whether the server has PEP (its JID has the appropriate http://jabber.org/protocol/pubsub features), and the address of the server's conference server (the first JID on the items list which has category="conference", type="text" and has the http://jabber.org/protocol/muc feature).
XEP-0045: Multi-User Chat
Every shared activity is represented with one MUC room on the server's conference server. They are configured so that they are not persistent (ie the server discards them when the last user has left), are private (users are made aware of the activities by other means or direct <message> invitations), and all members are able to see the full JID of the members (MUC nicknames are not used or exposed anywhere in the UI). Shared activity data is exchanged over these rooms with Telepathy's Tubes and MUC Bytestream protocols.
XEP-0163: Personal Eventing via Pubsub
PEP is used on the server to propogate information. Each XO publishes a number of nodes with properties as documented here, which are seperate nodes on the basis that they will change at different frequencies, so that each update is as small as possible. The nodes are:
- Nickname (as in XEP-0172: User Nickname)
- Buddy properties (colour, public key, etc)
- Current activity (changes more often)
- List of all joined activities
- Properties for the activities (type, colour, instance ID, etc)
Activities are identified by the JID of the MUC room they use to communicate. Note that the activity properties are only stored in a seperate PEP node to the list of activities as an interim solution. It is inefficient because it requires every member of the activity to publish the properties, to make the activity metadata robust against any individual leaving. It was always intended that activity properties would be stored somewhere elsewhere per-room, although no such mechanism has been identified or implemented to date.
The server is configured with ejabberd's shared roster module so that there is a group in the roster of every user which contains every other user on the server. This means that presence and PEP notifications for every user on the server are sent automatically to every user who is logged in, and that all PEP nodes published with default (equal to presence) permissions are readable by all.
Currently XOs automatically approve any incoming subscription requests, because no UI has yet been created for this. It is intended that before Update.1, we fix #4965 and the roster will at least contain the XO's friends so that we can stop relying on shared roster functionality and existing XOs will at least still see their friends.
Problems With This Approach
- The shared roster is totally infeasible for any large Jabber servers due to the sheer size of the list that's pushed the client. Jabber.laptop.org has in the region of 4000 registered users and the roster push is already 500k or so.
- If any significant number of these users actually log in, the XO will be deluged with a firehose of presence and PEP notifications that at best it won't be able to show to the user in any meaningful way (the mesh view is already very crowded by 30-40 individuals) or at worst will render the network or device unusable due to sheer amount of traffic and processing.
- The shared roster allows no privacy controls over who can see what information about individuals. Basic controls such as not notifying people about presence without subscription, or using subscriptions to control what kind of communication is possible are rendered totally useless.
- As hinted at above, the PEP nodes containing activity properties are published per person when they should be published per activity. This leads to needless network churn when people join activities as properties are copied between the members, and notified to their friends.
- There is currently no way to implement searching of Buddies or Activities without naive client-side filtering, which requires that the client is aware of all of the possible buddies and activities.
- The consequence of requiring PEP support and shared rosters to function at even a basic level means that its much harder than it should be to deploy OLPC-friendly Jabber servers. Only ejabberd has been made to support this configuration to date, so there is no flexibility to choose other solutions based on their respective merits.
Proposed Solution
The page XMPP Component Protocol has details of the proposed XMPP component protocol to solve the issues.