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681 lines
28 KiB
XML
681 lines
28 KiB
XML
<?xml version='1.0' encoding='UTF-8'?>
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<!DOCTYPE xep SYSTEM 'xep.dtd' [
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<!ENTITY % ents SYSTEM 'xep.ent'>
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%ents;
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]>
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<?xml-stylesheet type='text/xsl' href='xep.xsl'?>
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<xep>
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<header>
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<title>COnferences with LIghtweight BRIdging (COLIBRI)</title>
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<abstract>This specification defines an XMPP extension that allows
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real-time communications clients to discover and interact with
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conference bridges that provide conference mixing or relaying
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capabilities.
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</abstract>
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&LEGALNOTICE;
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<number>0340</number>
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<status>Deferred</status>
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<type>Standards Track</type>
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<sig>Standards</sig>
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<approver>Council</approver>
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<dependencies>
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<spec>XEP-0167</spec>
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</dependencies>
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<supersedes/>
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<supersededby/>
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<shortname>colibri</shortname>
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<discuss>jingle</discuss>
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<author>
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<firstname>Emil</firstname>
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<surname>Ivov</surname>
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<org>jitsi.org</org>
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<email>emcho@jitsi.org</email>
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<jid>emcho@sip-communicator.org</jid>
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</author>
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<author>
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<firstname>Lyubomir</firstname>
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<surname>Marinov</surname>
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<org>jitsi.org</org>
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<email>lubo@jitsi.org</email>
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<jid>lubo@sip-communicator.org</jid>
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</author>
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&fippo;
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<revision>
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<version>0.2</version>
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<date>2017-09-11</date>
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<initials>XEP Editor (jwi)</initials>
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<remark>Defer due to lack of activity.</remark>
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</revision>
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<revision>
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<version>0.1</version>
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<date>2014-01-08</date>
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<initials>psa</initials>
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<remark><p>Initial published version approved by the XMPP Council.</p></remark>
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</revision>
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<revision>
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<version>0.0.2</version>
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<date>2013-12-04</date>
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<initials>ei/ph</initials>
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<remark>
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<p>Added usecases.</p>
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</remark>
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</revision>
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<revision>
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<version>0.0.1</version>
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<date>2013-05-30</date>
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<initials>ei/lm</initials>
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<remark>
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<p>First draft.</p>
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</remark>
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</revision>
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</header>
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<section1 topic='Introduction' anchor='intro'>
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<p>
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&xep0298; defines a way for XMPP agents to establish and
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participate in tightly coupled conference calls. Such conference
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calls would typically involve a number of regular participants
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that establish direct one-to-one sessions with a single entity,
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often referred to as a focus agent. Focus agents are generally
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responsible for making sure that media sent from one call
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participant would be distributed to all others so that everyone
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would effectively hear or see everyone else. In other words they
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often act as media mixers.
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</p>
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<p>
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Depending on the mixing technology used by media mixers, they may
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require significant bandwidth, processing resources or both. It is
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hence common for mixers to be hosted on dedicated servers that can
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provide such resources. They are then made reachable as
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rendez-vous points and conference call participants are required
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to call in, in order to join a conference call. This requires a
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certain amount of pre-call configuration to be completed by the
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service maintainers in order to create conference rooms and grant
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proper access to the expected participants. The authorization
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credentials are then often relayed to the participants in
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preparation of the call by other means, such as IM or mail.
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</p>
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<p>
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In certain situations, such pre-call preparations are
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inconvenient and it is important for users to be able to establish
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ad-hoc conference calls. One way to achieve this is for user
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agents themselves to act as focus agents and media mixers.
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Everyone else just calls the user at the focus agent, who then can
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decide whether to accept or reject the calls as they arrive. This
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works particularly well for audio only calls as the amount of
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bandwidth and processing resources that they require is generally
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within reach for end-user devices.
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</p>
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<p>
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The situation is quite different for video calls. Media decoding
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and especially encoding require considerably more resources with
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video than they do with audio. Today, encoding a single video flow
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with an acceptable quality is often the maximum that can be
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expected from an end-user device. The advantages that come with
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Moore's law will likely be insufficient to improve this, given the
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massive shift toward mobile devices and the ever-increasing user
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expectations toward video quality.
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</p>
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<p>
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Therefore, this specification (COLIBRI) aims to provide a means
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for user agents to interact with conference mixers. Such
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interaction allows user agents to allocate mixing channels,
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indicate what conferences they should be attached to, what
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integers the various payload types map to, etc. Using COLIBRI
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would hence allow any user agent to organize conference calls and
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act as a signalling focus by outsourcing the actual media mixing
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to a dedicated mixer.
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</p>
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</section1>
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<section1 topic='Terminology' anchor='terms'>
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<dl>
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<di>
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<dt>
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Focus or Focus Agent
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</dt>
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<dd>
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The terms apply to XMPP agents that, in terms of signalling,
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stand at the center of a tightly-coupled conference call. In
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other words, all conference participants establish a &xep0166;
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session with and only with that agent. Focus Agents are not
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necessarily performing media mixing themselves. In fact, the
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very purpose of this specification is to provide them with a
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means of handling this elsewhere.
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</dd>
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</di>
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<di>
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<dt>
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Mixer or Bridge
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</dt>
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<dd>
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Throughout this document the term is used to depict an
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entity that is responsible for mixing and delivering to
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conference participants all media exchanged in a conference
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call. Mixers or bridges can provide their service by either
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performing Content Mixing, or RTP translation or both.
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</dd>
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</di>
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<di>
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<dt>
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Content Mixing
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</dt>
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<dd>
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The term refers to a kind of media processing where the
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content of multiple input RTP streams is "mixed" into a single
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output stream. In conference calls audio mixing
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implementations generally simply add and adjust all source
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audio streams to produce their single output stream. Video
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content mixing, on the other hand, is often implemented by
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creating composite images containing individual frames from
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the input streams. Another common implementation consists in
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producing an output that is identical to one of the input
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streams, often the one belonging to a currently active
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speaker.
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</dd>
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</di>
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<di>
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<dt>
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RTP Translation
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</dt>
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<dd>
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<cite>RFC 3550</cite> defines a translator as "an intermediate
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system that forwards RTP packets with their synchronization
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source identifier intact." This specification respects that
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definition but it also uses "RTP Translation" in opposition
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with "Content Mixing". Conference bridges that perform RTP
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translation simply redirect each incoming RTP packet to all
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participants, often excluding the one where it came from.
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Contrary to content mixing, rtp translation generally requires
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less processing resources since it does not involve media
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manipulation. Bandwidth requirements on the other hand, could
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be significantly higher with RTP translation than with content
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mixing.
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</dd>
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</di>
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</dl>
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</section1>
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<section1 topic='Requirements' anchor='reqs'>
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<p>
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The extension defined herein is designed to meet the following
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requirements:
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</p>
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<ol>
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<li>
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Provide a means for conference focus agents to interact with
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conference mixers in order to configure payload type mappings
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and allocate ports or other resources that they could then
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advertise in Jingle sessions so that all media would traverse
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the bridge.
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</li>
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<li>Impose no COLIBRI specific requirements on non-focus
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participants so that any Jingle supporting client would be able
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to participate.
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</li>
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<li>[TODO] Anything else?</li>
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</ol>
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</section1>
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<section1 topic='How It Works' anchor='howitworks'>
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<p>
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This section provides a friendly introduction to COLIBRI.
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</p>
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<p>
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In essence, the goal of COLIBRI is to provide focus agents with a
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way of using remote mixers as if as they were available locally.
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The most important part of that is the possibility to allocate
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ports on the mixer interfaces and then use these ports when
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establishing Jingle sessions with the various participants.
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</p>
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<p>
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Every participant in the conference call is assigned one port for
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RTP data and one for RTCP. An RTP/RTCP port couple is called a
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channel. Each participant would use one channel per media type.
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That is, a client participating with audio only would get one
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channel, while another one that joins with both audio and video
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would get two: one for audio and one for video.
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</p>
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<p>
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Channels are used for streams from the bridge to participants and
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from participants to the bridge. Typically a channel would contain
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one stream from a participant to a bridge, for example their
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webcam or desktop, and one or more streams in the opposite
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direction (e.g. webcam or desktop streams from other participants
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to the one using this channel). This is not a requirement though
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and a channel can certainly be used for transportation of multiple
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streams in both directions in cases where one bridge is connected
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to another.
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</p>
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<p>
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Typically channels would be created by the entity controlling a
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conference call. This could either be a conferencing server or a
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smart client capable of handling conferences. We would refer to
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both of these as the "focus". In either case, the important part
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is that the focus terminates all signalling. It is a signalling
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endpoint and it is responsible for all aspects of call signalling
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including offer/answer.
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</p>
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<p>
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In other words, when setting up a conference, a focus would first
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allocate the necessary channels, then directly initiate sessions
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(invite) other participants into the call. Only, when sending the
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invitations to these participants, the focus would use the
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transport information (addresses and ports) that it would have
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received from the COLIBRI bridge, rather than its own.
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</p>
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<!--
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discovery
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creating a conference call
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modifying a conference call
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defining payload types
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supports transcoding
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get supported formats
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Mixing vs. RTP translation
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RTP/RTCP channels
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RAW UDP
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ICE UDP
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ZRTP
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composited / switched
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-->
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</section1>
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<section1 topic='Use cases' anchor='usecases'>
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<section2 topic='Creating a conference' anchor='usecases-create'>
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<p>
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The most important thing about setting up a conference is the
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creation of channels for every participant. Conference setup is
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not the only chance an organiser gets to declare all
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participants but typically when a conference call is setup it
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is because there are at least some number of known participants
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and there would be no point in delaying channel creation for
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them.
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</p>
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<p>
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The following example shows how Romeo creates an audio/video
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conference at a bridge, requesting that three participant
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channels be created.
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</p>
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<example caption='Creating a conference'><![CDATA[
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SEND: <iq from='romeo@montague.lit/orchard'
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id='zid615d9'
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to='garden.montague.lit'
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type='set'>
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<conference xmlns='http://jitsi.org/protocol/colibri'>
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<content name='audio'>
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<channel initiator='true'>
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[optional payload and transport description]
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</channel>
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<channel initiator='true'/>
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...
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<channel initiator='true'/>
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</content>
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<content name='video'>
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<channel initiator='true'/>
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...
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<channel initiator='true'/>
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</content>
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</conference>
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</iq>
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]]></example>
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<p>
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Notice how the 'initiator' channel above is set to true. The
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setting determines ICE and DTLS/SRTP behaviour for the bridge.
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In this specific case, 'initiator' being set to 'true' Romeo is
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requesting that the bridge behave as the initiator of the
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session which means that it would try to be the controlling ICE
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agent and also assume the 'dtls-actpass' role for DTLS/SRTP
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negotiation. A value of 'false' would have meant that the bridge
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would behave as the controlled ICE agent and assume the
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'dtls-active' role.
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</p>
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<p>
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When sending its result back, the bridge confirms creation of
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the requested channels and it also delivers transport
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information that would be necessary for participants to
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transport media to the bridge. These would most often include
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ICE candidates, ufrag and pwd parameters, and DTLS fingerprints.
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</p>
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<p>
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Note that ICE is not mandatory for use and COLIBRI bridges can
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just as well perform Hosted NAT Traversal using latching and a
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RAW-UDP transport.
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</p>
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<example caption='Result'><![CDATA[
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RECV: <iq type='result' to='romeo@montague.lit/orchard'
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from='garden.montague.lit'
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id='zid615d9'>
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<conference xmlns='http://jitsi.org/protocol/colibri'
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id='cafb6f2c8197818e'>
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<content name='audio'>
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<channel rtp-level-relay-type='mixer' direction='recvonly'
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initiator='true' id='c6a142b7cf728fd0' expire='60'>
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<source xmlns='urn:xmpp:jingle:apps:rtp:ssma:0' ssrc='3716204482'/>
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<transport xmlns='urn:xmpp:jingle:transports:ice-udp:1'
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pwd='5d0mj' ufrag='amiq'>
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<fingerprint xmlns='urn:xmpp:jingle:apps:dtls:0' hash='sha-1'>
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99:...:F6
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</fingerprint>
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<candidate type='host' protocol='udp' id='ca' ip='10.0.1.1'
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component='1' port='5144' foundation='3' generation='0'
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priority='2113932031' network='0'/>
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<candidate type='host' protocol='udp' id='ga' ip='10.0.1.1'
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component='2' port='5145' foundation='3' generation='0'
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priority='2113932030' network='0'/>
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</transport>
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</channel>
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...
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</content>
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<content name='video'>
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<channel rtp-level-relay-type='mixer' direction='recvonly'
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initiator='true' id='c9726594ccb4ede7' expire='60'>
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...
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</channel>
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...
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</content>
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</conference>
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</iq>
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]]></example>
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<p>
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The above "result" also contains the following elements of
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interest for every channel:
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</p>
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<p>
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- an ID that is necessary for any further modification from that
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the focus wants to set on a channel. [FIXME: clients should be
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able to specify these id-s so as not to rely on ordering to
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identify channels and get complexes thinking they are SDP
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parsers]
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</p>
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<p>
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- an rtp-level-relay-type attribute with possible values of
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'mixer' and 'translator' indicating how the bridge is going to
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deliver data on a specific channel [FIXME: this would definitely
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need to be specifiable from the client].
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</p>
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<p>
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- mixer channels would also include ssrc-s for that channels in
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question. This is particularly necessary when SSRC-s need to be
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announced to participants (because people never learned how RTP
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works and are afraid from anything that wasn't explicitly
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announced with an Offer/Answer exchange). Generally such
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announcements would be possible by simply propagating SSRCs that
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other participants announce. In a mixed flow however the SSRC
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would belong to the mixer (or COLIBRI bridge) so it would need
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to be known in advance.
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attribute
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</p>
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<p>
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- the initiator value is echoed
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</p>
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<p>
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- expire describes how many seconds the bridge will keep the
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channel open without media activity
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</p>
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</section2>
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<section2 topic='Updating payload information for a channel' anchor='usecases-update-payload'>
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<p>
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Channel updates can happen for various reasons. The following
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examples illustrate two of them:
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</p>
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<p>
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- specifying payload types. While payload types in RTP are
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sometimes static (e.g. for older codecs such as G.711), this is
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not always the case for more recent types, which need to be
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assigned dynamically during session establishment. The tricky
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part here is that dynamic means dynamic so every participant in
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a conference call may end up expecting different payload types.
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As a result, a COLIBRI bridge SHOULD know about everyone's
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expectations, which is why channels are updated with payload
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types. Note that if a bridge does see unknown payload types it
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MUST still relay them to other participants as they might have
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used some other mechanism to make sure they know what they
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mean.
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</p>
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<p>
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- DTLS/SRTP fingerprints.
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</p>
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<example caption='Focus updates payload information for a channel'>
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<![CDATA[
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SEND: <iq to='garden.montague.lit' from='romeo@montague.lit/orchard'
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type='set' id='74s'>
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<conference xmlns='http://jitsi.org/protocol/colibri'
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id='cafb6f2c8197818e'>
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<content name='audio'>
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<channel id='c6a142b7cf728fd0' initiator='true'>
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<payload-type id='111' name='opus' clockrate='48000' channels='2'/>
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<payload-type id='0' name='PCMU' clockrate='8000' channels='1'/>
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<payload-type id='8' name='PCMA' clockrate='8000' channels='1'/>
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<transport xmlns='urn:xmpp:jingle:transports:ice-udp:1'
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ufrag='WP+qAQZGnDhhM+87' pwd='0Uxdzy9gTryxAkmAx2LD1TYR'>
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<fingerprint hash='sha-256' xmlns='urn:xmpp:jingle:apps:dtls:0'
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setup='active'>
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08:...:C7
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</fingerprint>
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</transport>
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</channel>
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</content>
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<content name='video'>
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<channel id='c9726594ccb4ede7' initiator='true'>
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<payload-type id='100' name='VP8' clockrate='90000' channels='1'/>
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<payload-type id='116' name='red' clockrate='90000' channels='1'/>
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<payload-type id='117' name='ulpfec' clockrate='90000' channels='1'/>
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<transport xmlns='urn:xmpp:jingle:transports:ice-udp:1'
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ufrag='hpx55NAN46sNYwF+' pwd='hkg/YRpjXZx4qDG3KbzB3qr1'>
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<fingerprint hash='sha-256' xmlns='urn:xmpp:jingle:apps:dtls:0'
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setup='active'>
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08:...:C7
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</fingerprint>
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</transport>
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</channel>
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</content>
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</conference>
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</iq>
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]]></example>
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<p>
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Note that while the result in this case is essentially an
|
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acknowledgement, it still carries a full representation of the
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bridge.
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</p>
|
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<example caption='Result'><![CDATA[
|
|
RECV: <iq to='romeo@montague.lit/orchard' from='garden.montague.lit'
|
|
type='result' id='74s'>
|
|
<conference xmlns='http://jitsi.org/protocol/colibri'
|
|
id='cafb6f2c8197818e'>
|
|
<content name='audio'>
|
|
<channel rtp-level-relay-type='mixer' direction='recvonly'
|
|
initiator='true' id='c6a142b7cf728fd0' expire='60'>
|
|
<transport xmlns='urn:xmpp:jingle:transports:ice-udp:1'
|
|
pwd='5d0mj' ufrag='amiq'>
|
|
<fingerprint xmlns='urn:xmpp:jingle:apps:dtls:0' hash='sha-1'>
|
|
99:...:F6
|
|
</fingerprint>
|
|
<candidate type='host' protocol='udp' id='ca' ip='10.0.1.1' component='1'
|
|
port='5144' foundation='3' generation='0' priority='2113932031'
|
|
network='0'/>
|
|
<candidate type='host' protocol='udp' id='ga' ip='10.0.1.1' component='2'
|
|
port='5145' foundation='3' generation='0' priority='2113932030'
|
|
network='0'/>
|
|
</transport>
|
|
</channel>
|
|
...
|
|
</content>
|
|
<content name='video'>
|
|
<channel rtp-level-relay-type='translator' initiator='true'
|
|
id='c9726594ccb4ede7' expire='60'>
|
|
...
|
|
</channel>
|
|
...
|
|
</content>
|
|
</conference>
|
|
</iq>
|
|
]]></example>
|
|
</section2>
|
|
<section2 topic='Updating transport information for a channel' anchor='usecases-update-transport'>
|
|
<example caption='Result'><![CDATA[
|
|
SEND: <iq to='garden.montague.lit' from='romeo@montague.lit/orchard'
|
|
type='set' id='1581'>
|
|
<conference xmlns='http://jitsi.org/protocol/colibri' id='cafb6f2c8197818e'>
|
|
<content name='audio'>
|
|
<channel id='c6a142b7cf728fd0' initiator='true'>
|
|
<transport xmlns='urn:xmpp:jingle:transports:ice-udp:1'>
|
|
<candidate foundation='2241210590' component='1' protocol='udp'
|
|
priority='2113937151' ip='192.168.2.101' port='61141' type='host'
|
|
generation='0' network='1' id='1234'/>
|
|
</transport>
|
|
</channel>
|
|
</content>
|
|
</conference>
|
|
</iq>
|
|
]]></example>
|
|
<!--
|
|
<p>FIXME: Describe trickle ice?</p>
|
|
<p>FIXME: ufrag/pwd missing? required?</p>
|
|
-->
|
|
<example caption='Result'><![CDATA[
|
|
RECV: <iq type='result' to='romeo@montague.lit/orchard' from='garden.montague.lit' id='1581'>
|
|
<conference xmlns='http://jitsi.org/protocol/colibri' id='cafb6f2c8197818e'>
|
|
<content name='audio'>
|
|
<channel rtp-level-relay-type='translator' initiator='true'
|
|
id='c6a142b7cf728fd0' expire='60'>
|
|
<transport xmlns='urn:xmpp:jingle:transports:ice-udp:1'
|
|
pwd='5d0mja27fgl83r9tsl1b9gkk4f' ufrag='amiqp'>
|
|
<fingerprint xmlns='urn:xmpp:jingle:apps:dtls:0' hash='sha-1'>
|
|
99:..:F6
|
|
</fingerprint>
|
|
<candidate type='host' protocol='udp' id='1' ip='10.0.1.1' component='1'
|
|
port='5144' foundation='3' generation='0' priority='2113932031' network='0'/>
|
|
<candidate type='host' protocol='udp' id='2' ip='10.0.1.1' component='2'
|
|
port='5145' foundation='3' generation='0' priority='2113932030' network='0'/>
|
|
</transport>
|
|
</channel>
|
|
</content>
|
|
</conference>
|
|
</iq>
|
|
]]></example>
|
|
<p>Essentially that information is the transport description from
|
|
the bridge. <!-- Do we need that? FIXME -->
|
|
</p>
|
|
</section2>
|
|
<section2 topic='Adding a new channel' anchor='usecases-addchannel'>
|
|
<p>
|
|
ICE candidates are another reason why a focus might want to
|
|
update a channel. Earlier examples indicated how conference
|
|
setup could be completed without providing any transport
|
|
information whatsoever. Whenever that is the case, such
|
|
information would need to be provided through channel
|
|
modification.
|
|
</p>
|
|
<example caption='Adding a new channel'><![CDATA[
|
|
SEND: <iq to='garden.montague.lit' from='romeo@montague.lit/orchard' type='get' id='247'>
|
|
<conference xmlns='http://jitsi.org/protocol/colibri' id='cafb6f2c8197818e'>
|
|
<content creator='initiator' name='audio'>
|
|
<channel initiator='true'/>
|
|
</content>
|
|
<content creator='initiator' name='video'>
|
|
<channel initiator='true'/>
|
|
</content>
|
|
</conference>
|
|
</iq>
|
|
]]></example>
|
|
<example caption='Result'><![CDATA[
|
|
RECV: <iq type='result' to='romeo@montague.lit/orchard' from='garden.montague.lit' id='247'>
|
|
<conference xmlns='http://jitsi.org/protocol/colibri' id='49a91b4f6694bc6a'>
|
|
<content name='audio'>
|
|
<channel rtp-level-relay-type='mixer' direction='recvonly' initiator='true'
|
|
id='e97d7f794fbed74b' expire='60'>
|
|
<source xmlns='urn:xmpp:jingle:apps:rtp:ssma:0' ssrc='2579640556'/>
|
|
<transport xmlns='urn:xmpp:jingle:transports:ice-udp:1'
|
|
pwd='75e88spurhqbih628ord5a3l9b' ufrag='6c7a6'>
|
|
<fingerprint xmlns='urn:xmpp:jingle:apps:dtls:0' hash='sha-1'>
|
|
A9:...:2F
|
|
</fingerprint>
|
|
<candidate type='host' protocol='udp' id='1' ip='10.0.1.1' component='1'
|
|
port='5168' foundation='3' generation='0' priority='2113932031'
|
|
network='0'/>
|
|
<candidate type='host' protocol='udp' id='2' ip='10.0.1.1' component='2'
|
|
port='5169' foundation='3' generation='0' priority='2113932030'
|
|
network='0'/>
|
|
</transport>
|
|
</channel>
|
|
</content>
|
|
<content name='video'>
|
|
<channel rtp-level-relay-type='translator' initiator='true'
|
|
id='b4557f274216f99a' expire='60'>
|
|
<transport xmlns='urn:xmpp:jingle:transports:ice-udp:1'
|
|
pwd='1oriuuhjfq6884ln9d3g1rjq13' ufrag='3gh3o'>
|
|
<fingerprint xmlns='urn:xmpp:jingle:apps:dtls:0' hash='sha-1'>
|
|
D7:...:C2
|
|
</fingerprint>
|
|
<candidate type='host' protocol='udp' id='1' ip='10.0.1.1' component='1'
|
|
port='5170' foundation='3' generation='0' priority='2113932031'
|
|
network='0'/>
|
|
<candidate type='host' protocol='udp' id='2' ip='10.0.1.1' component='2'
|
|
port='5171' foundation='3' generation='0' priority='2113932030'
|
|
network='0'/>
|
|
</transport>
|
|
</channel>
|
|
</content>
|
|
</conference>
|
|
</iq>
|
|
]]></example>
|
|
</section2>
|
|
</section1>
|
|
<!--
|
|
<section1 topic='Use with Jingle' anchor='use-with-jingle'>
|
|
<p>TODO: a non-normative section showing the flow of jingle sessions and bridge interaction</p>
|
|
</section1>
|
|
-->
|
|
<section1 topic='Determining Support' anchor='support'>
|
|
<p>If an entity supports COLIBRI, it SHOULD advertise that fact by
|
|
returning
|
|
a feature of "http://jitsi.org/protocol/colibri" in response to
|
|
a &xep0030;
|
|
information request.
|
|
</p>
|
|
<example caption="Service Discovery Information Request"><![CDATA[
|
|
<iq from='kingclaudius@shakespeare.lit/castle'
|
|
id='ku6e51v3'
|
|
to='belfry.shakespeare.lit'
|
|
type='get'>
|
|
<query xmlns='http://jabber.org/protocol/disco#info'/>
|
|
</iq>
|
|
]]></example>
|
|
<example caption="Service Discovery Information Response"><![CDATA[
|
|
<iq from='belfry.shakespeare.lit'
|
|
id='ku6e51v3'
|
|
to='kingclaudius@shakespeare.lit/castle'
|
|
type='result'>
|
|
<query xmlns='http://jabber.org/protocol/disco#info'>
|
|
<feature var='http://jitsi.org/protocol/colibri'/>
|
|
</query>
|
|
</iq>
|
|
]]></example>
|
|
<p>In order for an application to determine whether an entity
|
|
supports this
|
|
protocol, where possible it SHOULD use the dynamic, presence-based
|
|
profile
|
|
of service discovery defined in &xep0115;. However, if an
|
|
application has
|
|
not received entity capabilities information from an entity, it
|
|
SHOULD use
|
|
explicit service discovery instead.
|
|
</p>
|
|
</section1>
|
|
<section1 topic='Security Considerations' anchor='security'>
|
|
<p>PENDING</p>
|
|
</section1>
|
|
<section1 topic='Open Issues' anchor='issues'>
|
|
<p>PENDING</p>
|
|
</section1>
|
|
<section1 topic='XML Schemas' anchor='schema'>
|
|
<p>PENDING</p>
|
|
</section1>
|
|
<section1 topic='Acknowledgements' anchor='acks'>
|
|
<p>Jitsi's participation in this specification is funded by the
|
|
NLnet
|
|
Foundation.
|
|
</p>
|
|
</section1>
|
|
</xep>
|