Independent Submission A. Saleem
Request for Comments: 5707 Y. Xin
Category: Informational RadiSys
ISSN: 2070-1721 G. Sharratt
Consultant
February 2010
Media Server Markup Language (MSML)
Abstract
The Media Server Markup Language (MSML) is used to control and invoke
many different types of services on IP media servers. The MSML
control interface was initially driven by RadiSys with subsequent
significant contributions from Intel, Dialogic, and others in the
industry. Clients can use it to define how multimedia sessions
interact on a media server and to apply services to individuals or
groups of users. MSML can be used, for example, to control media
server conferencing features such as video layout and audio mixing,
create sidebar conferences or personal mixes, and set the properties
of media streams. As well, clients can use MSML to define media
processing dialogs, which may be used as parts of application
interactions with users or conferences. Transformation of media
streams to and from users or conferences as well as interactive voice
response (IVR) dialogs are examples of such interactions, which are
specified using MSML. MSML clients may also invoke dialogs with
individual users or with groups of conference participants using
VoiceXML.
Status of This Memo
This document is not an Internet Standards Track specification; it is
published for informational purposes.
This is a contribution to the RFC Series, independently of any other
RFC stream. The RFC Editor has chosen to publish this document at
its discretion and makes no statement about its value for
implementation or deployment. Documents approved for publication by
the RFC Editor are not a candidate for any level of Internet
Standard; see Section 2 of RFC 5741.
Information about the current status of this document, any errata,
and how to provide feedback on it may be obtained at
http://www.rfc-editor.org/info/rfc5707.
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IESG Note
This RFC is not a candidate for any level of Internet Standard. The
IETF disclaims any knowledge of the fitness of this RFC for any
purpose and in particular notes that the decision to publish is not
based on IETF review for such things as security, congestion control,
or inappropriate interaction with deployed protocols. The RFC Editor
has chosen to publish this document at its discretion. Readers of
this document should exercise caution in evaluating its value for
implementation and deployment. See RFC 3932 for more information.
Copyright Notice
Copyright (c) 2010 IETF Trust and the persons identified as the
document authors. All rights reserved.
This document is subject to BCP 78 and the IETF Trust's Legal
Provisions Relating to IETF Documents
(http://trustee.ietf.org/license-info) in effect on the date of
publication of this document. Please review these documents
carefully, as they describe your rights and restrictions with respect
to this document.
RFC 5707 Media Server Markup Language February 2010
8.6. <audiomix> ................................................35
8.7. <videolayout> .............................................36
8.8. <join> ....................................................43
8.9. <modifystream> ............................................45
8.10. <unjoin> .................................................46
8.11. <monitor> ................................................47
8.12. <stream> .................................................47
9. MSML Dialog Packages ...........................................51
9.1. Overview ..................................................51
9.2. Primitives ................................................53
9.3. Events ....................................................55
9.4. MSML Dialog Usage with SIP ................................56
9.5. MSML Dialog Structure and Modularity ......................57
9.6. MSML Dialog Core Package ..................................58
9.7. MSML Dialog Base Package ..................................63
9.8. MSML Dialog Group Package .................................81
9.9. MSML Dialog Transform Package .............................85
9.10. MSML Dialog Speech Package ...............................88
9.11. MSML Dialog Fax Detection Package ........................92
9.12. MSML Dialog Fax Send/Receive Package .....................93
10. MSML Audit Package ...........................................100
10.1. MSML Audit Core Package .................................100
10.2. MSML Audit Conference Package ...........................102
10.3. MSML Audit Connection Package ...........................106
10.4. MSML Audit Dialog Package ...............................108
10.5. MSML Audit Stream Package ...............................110
11. Response Codes ...............................................111
12. MSML Conference Examples .....................................113
12.1. Establishing a Dial-In Conference .......................113
12.2. Example of a Sidebar Audio Conference ...................117
12.3. Example of Removing a Conference ........................118
12.4. Example of Modifying Video Layout .......................118
13. MSML Dialog Examples .........................................120
13.1. Announcement ............................................120
13.2. Voice Mail Retrieval ....................................120
13.3. Play and Record .........................................122
13.4. Speech Recognition ......................................125
13.5. Play and Collect ........................................125
13.6. User Controlled Gain ....................................128
14. MSML Audit Examples ..........................................128
14.1. Audit All Conferences ...................................128
14.2. Audit Conference Dialogs ................................129
14.3. Audit Conference Streams ................................130
14.4. Audit All Connections ...................................131
14.5. Audit Connection Dialogs ................................131
14.6. Audit Connection Streams ................................132
14.7. Audit Connection with Selective States ..................133
15. Future Work ..................................................134
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16. XML Schema ...................................................134
16.1. MSML Core ...............................................136
16.2. MSML Conference Core Package ............................140
16.3. MSML Dialog Packages ....................................148
16.4. MSML Audit Packages .....................................170
17. Security Considerations ......................................176
18. IANA Considerations ..........................................176
18.1. IANA Registrations for 'application' MIME Media Type ....176
18.2. IANA Registrations for 'text' MIME Media Type ...........178
18.3. URN Sub-Namespace Registration ..........................179
18.4. XML Schema Registration .................................180
19. References ...................................................181
19.1. Normative References ....................................181
19.2. Informative References ..................................182
Acknowledgments ..................................................183
1. Introduction
Media servers contain dynamic pools of media resources. Control
agents and other users of media servers (called media server clients)
can define and create many different services based on how they
configure and use those resources. Often, that configuration and the
ways in which those resources interact will be changed dynamically
over the course of a call, to reflect changes in the way that an
application interacts with a user.
For example, a call may undergo an initial IVR dialog before being
placed into a conference. Calls may be moved from a main conference
to a sidebar conference and then back again. Individual calls may be
directly bridged to create small n-way calls or simple sidebars.
None of these change the SIP [n1] dialog or RTP [i3] session. Yet
these do affect the media flow and processing internal to the media
server.
The Media Server Markup Language (MSML) is an XML [n2] language used
to control the flow of media streams and services applied to media
streams within a media server. It is used to invoke many different
types of services on individual sessions, groups of sessions, and
conferences. MSML allows the creation of conferences, bridging
different sessions together, and bridging sessions into conferences.
MSML may also be used to create user interaction dialogs and allows
the application of media transforms to media streams. Media
interaction dialogs created using MSML allow construction of IVR
dialog sessions to individual users as well as to groups of users
participating in a conference. Dialogs may also be specified using
other languages, VoiceXML [n5], which support complete single-party
application logic to be executed on the media server.
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MSML is a transport independent language, such that it does not rely
on underlying transport mechanisms and language semantics are
independent of transport. However, SIP is a typical and commonly
used transport mechanism for MSML, invoked using the SIP URI scheme.
This specification defines using MSML dialogs using SIP as the
transport mechanism.
A network connection may be established with the media server using
SIP. Media received and transmitted on that connection will flow
through different media resources on the media server depending on
the requested service. Basic Network Media Services with SIP [n7]
defines conventions for associating a basic service with a SIP
Request-URI. MSML allows services to be dynamically applied and
changed by a control agent during the lifetime of the SIP dialog.
MSML has been designed to address the control and manipulation of
media processing operations (e.g., announcement, IVR, play and
record, automatic speech recognition (ASR), text to speech (TTS),
fax, video), as well as control and relationships of media streams
(e.g., simple and advanced conferencing). It provides a general-
purpose media server control architecture. MSML can additionally be
used to invoke other more complex IVR languages such as VoiceXML.
The MSML control interface has been widely deployed in the industry,
with numerous client-side and server-side implementations, since
2003. The in-service commercial deployments cover a wide variety of
applications including, but not limited to, IP multimedia
conferencing, network voice services, IVR, IVVR (interactive voice
and video response), and voice/video mail.
2. Glossary
Media Server: a general-purpose platform for executing real-time
media processing tasks. This is a logical function that maps either
to a single physical device or to a portion of a physical device.
Media Server Client: an application that originates MSML requests to
a media server and also referred to as a control agent in this
specification.
Network Connection: a participant that represents the termination on
a media server of one or more RTP [i3] sessions (for example, audio
and video) associated with a call. Network connections are
established and removed using a session establishment protocol such
as SIP. An instance of a network connection is independent of MSML
processing instructions applied to it.
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Dialog: an automated IVR participant. Examples of dialogs may be
announcement players, IVR interfaces, or voice recorders. Dialogs
may be defined in MSML or using VoiceXML [n5].
Conference: an intermediary function that provides multimedia mixing
and other advanced conferencing services. This specification
currently considers conferences with audio and/or video media types,
but is extensible to other media types.
Identifier: a name that is used to refer to a specific instance of an
object on the media server, such as a conference or a dialog.
Identifiers are composed of one or more terms where each term
identifies an object class and instance.
Object: the generic term for a media server entity that terminates,
originates, or processes media. This specification defines four
classes of objects and specifies mechanisms to create them, join them
together, and destroy them.
Participant Object: an object in a media server that sources original
media in a call and/or receives and terminates media in a call.
Intermediary Object: an object in a media server that acts on media
within a call for the benefit of the participants.
Independent Object: an object that can exist on a media server
independent of other objects.
Operator: an intermediary transformer that modifies or transforms a
media stream. Examples of operators may be audio gain controls,
video scaling, or voice masking. MSML defines operators as media
transform objects, which transform media using operations such as
gain control, when applied to media streams.
Media Stream: a single media flow between two objects. A media
stream has a media type and may be unidirectional or bidirectional.
3. MSML SIP Usage
SIP is used to create and modify media sessions with a media server
according to the procedures defined in RFC 3261 [n1]. Often, SIP
third party call control [i4] will be used to create sessions to a
media server on behalf of end users. MSML is used to define and
change the service that a user connected to a media server will
receive. MSML clients are application servers, soft-switches, or
other forms of control agents, and SHOULD have an authorized security
relationship with the media server. MSML itself does not define
authorization mechanisms.
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MSML transactions are originated based upon events that occur in the
application domain. These events may be independent from any media
or user interaction. For example, an application may wish to play an
announcement to a conference warning that its scheduled completion
time is approaching. Applications themselves are structured in many
different ways. Their structure and requirements contribute to their
selection of protocols and languages. To accommodate differing
application needs, MSML has been designed to be neutral to other
languages and independent of the transport used to carry it.
MSML is purposely designed to be transport independent. In this
release of the specification, SIP INFO [i5] and SIP Control Framework
[i11] have been chosen for transport mechanisms for MSML, as
described in the following sections.
3.1. SIP INFO
SIP INVITE and INFO [i5] requests and responses MAY be used to carry
MSML. INFO requests allow asynchronous mid-call messages within SIP
with few additional semantics. In addition, there are existing
widely deployed implementations of that method, it aids in initial
developments that are closely coupled with SIP session establishment,
and it allows MSML to be directly associated with user dialogs when
third party call control is used.
Although INFO is sometimes considered not to be a suitable general-
purpose transport mechanism for messages within SIP, there have been
proposals to make it more acceptable. MSML may evolve to include
other SIP usage and/or to work with other protocols or as a stand-
alone protocol established through SIP, in future releases of this
document.
MSML supports several models for client interaction. When clients
use 3PCC to establish media sessions on behalf of end users, clients
will have a SIP dialog for each media session. MSML MAY be sent on
these dialogs. However the targets of MSML actions are not inferred
from the session associated with the SIP dialog. The targets of MSML
actions are always explicitly specified using identifiers as
previously defined.
An application, after interacting with a user, may want to affect
multiple objects within a media server. For example, tones or
messages are often played to a conference when connections are added
or removed. A separate message may also be played to a participant
as they are joined, or to moderators. Explicit identifiers, that is,
not inferred from a transport mechanism, allow these multiple actions
to be easily grouped into a single transaction sent on any SIP
dialog.
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MSML also supports a model of dedicated control associations. This
supports decoupled application architectures where a client can
control media server services without also establishing all of the
media sessions itself. Control associations are created using SIP,
but they do not have any associated media session. Although
initially INFO messages will be sent on this SIP dialog, just as with
dialogs associated with media sessions, it is possible that in the
future, the SIP dialog will be used to establish a separate control
session (defined in SDP [n9]) that does not use SIP as the transport
for MSML messages.
A media server using MSML also sends asynchronous events to a client
using MSML scripts in SIP INFO. Events are sent based on previous
MSML requests and are sent within the SIP dialog on which the MSML
request that caused the event to be generated was received. If this
dialog no longer exists when the event is generated, the event is
discarded.
Events may be generated during the execution of a dialog created by a
<dialogstart> element. For example, dialogs can send events based on
user input. VoiceXML dialogs, on the other hand, generally interact
with other servers outside of MSML using HTTP.
An event is also generated when the execution of a dialog terminates,
because of either completion or failure. The exact information
returned is dependent on the dialog language, the capabilities of the
dialog execution environment, and what was requested by the dialog.
Both MSML and VoiceXML [n5] allow information to be returned when
they exit. These events may be sent in a SIP INFO or a SIP BYE. SIP
BYE is used when the dialog itself specifies that the connection
should be disconnected, for example, through the use of the
<disconnect> element.
Conferences may also generate events based upon their configuration.
An example of this is the notification of the set of active speakers.
3.2. SIP Control Framework
The SIP Control Framework [i11] MAY be used as a transport mechanism
for MSML.
The Control Framework provides a generic approach for establishment
and reporting capabilities of remotely initiated commands. The
framework utilizes many functions provided by the Session Initiation
Protocol (SIP) [n1] for the rendezvous and establishment of a
reliable channel for control interactions. Compared to SIP INFO, the
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SIP Control Framework is a more general-purpose transport mechanism
and one that is not constrained by limitations of the SIP INFO
mechanism.
The Control Framework also introduces the concept of a Control
Package, which is an explicit usage of the Control Framework for a
particular interaction set. This specification has already specified
a list of packages for MSML to control the media server in many
aspects, including basic dialog, advanced conferencing, advanced
dialog, and audit service. Each of these packages has a unique
Control Package name assigned in order for MSML to be used with the
Control Framework.
This section fulfills the mandatory requirement for information that
MUST be specified during the definition of a Control Framework
Package, as detailed in SIP Control Framework [i11].
3.2.1. Control Framework Package Names
The Control Framework [i11] requires a Control Package definition to
specify and register a unique name.
MSML specification defines Control Package names using a hierarchical
scheme to indicate the inherited relationship across packages. For
example, package "msml-x" is derived from package "msml", and package
"msml-x-y" is derived from package "msml-x".
The following is a list of Control Package names reserved by the MSML
specification.
"msml": this Control Package supports MSML Core Package as specified
in section 7.
"msml-conf": this Control Package supports MSML Conference Core
Package as specified in section 8.
"msml-dialog": this Control Package supports MSML Dialog Core Package
as specified in section 9.6.
"msml-dialog-base": this Control Package supports MSML Dialog Base
Package as specified in section 9.7.
"msml-dialog-group": this Control Package supports MSML Dialog Group
Package as specified in section 9.8.
"msml-dialog-transform": this Control Package supports MSML Dialog
Transform Package as specified in section 9.9.
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"msml-dialog-speech": this Control Package supports MSML Dialog
Speech Package as specified in section 9.10.
"msml-dialog-fax-detect": this Control Package supports MSML Dialog
Fax Detection Package as specified in section 9.11.
"msml-dialog-fax-sendrecv": this Control Package supports MSML Dialog
Fax Send/Receive Package as specified in section 9.12.
"msml-audit": this Control Package supports MSML Audit Core Package
as specified in section 10.1.
"msml-audit-conf": this Control Package supports MSML Audit
Conference Package as specified in section 10.2.
"msml-audit-conn": this Control Package supports MSML Audit
Connection Package as specified in section 10.3.
"msml-audit-dialog": this Control Package supports MSML Audit Dialog
Package as specified in section 10.4.
"msml-audit-stream": this Control Package supports MSML Audit Stream
Package as specified in section 10.5.
An application server using the Control Framework as transport for
MSML MUST use one or multiple package names, depending on the service
required from the media server. The package name(s) are identified
in the "Control-Packages" SIP header that is present in the SIP
INVITE dialog request that creates the control channel, as specified
in [i11]. The "Control-Packages" value MAY be re-negotiated via the
SIP re-INVITE mechanism.
3.2.2. Control Framework Messages
The usage of CONTROL, response, and REPORT messages, as defined in
[i11], by each Control Package defined in MSML is different and
described separately in the following sections.
MSML Core Package "msml"
The application server may send a CONTROL message with a body
of MSML request using the following elements to the MS:
<msml>: the root element that may contain a list of child
elements that request a specific operation. The child elements
are defined in extended packages (e.g., "msml-conf" and "msml-
dialog"). This element is also the root element that contains
an MSML result and event.
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<send>: sends an event to the specified recipient within the
media server. Specific event types are defined within the
extended packages.
The media server replies with a response message containing a
MSML result using the following elements:
<result>: reports the results of an MSML transaction.
The media server MAY send the MSML event to the application
server, in a REPORT or CONTROL message, using the element
<event>. The actual content of the <event> and which Control
Framework message to use are defined within the extended
packages.
MSML Conference Core Package "msml-conf"
This package extends the MSML Core Package to define a
framework for creation, manipulation, and deletion of a
conference.
The AS can send a CONTROL message with a body of the MSML
request that contains one or multiple conference-related
commands to the MS. The MS then replies with a response
message with a body of the MSML result to indicate whether or
not the request has been fulfilled.
During the lifetime of a conference, whenever an event occurs,
the media server MAY send CONTROL messages containing MSML
events to notify the application server. The application
server SHOULD reply with a response message with no MSML body
to acknowledge the event has been received.
This package does NOT use the REPORT message.
Dialog Core Package "msml-dialog"
This package extends the MSML Core Package to define the
structural framework and abstractions for MSML dialogs.
The application server MAY send CONTROL messages containing a
MSML request using the following elements:
<dialogstart>: instantiate an MSML media dialog on a connection
or a conference.
<dialogend>: terminates an MSML dialog.
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<send>: sends an event and an optional namelist to the dialog,
dialog group, or dialog primitive.
<exit>: used by the dialog description language to cause the
execution of the MSML dialog to terminate.
For the <dialogstart> command, the response message MUST
contain an MSML result that indicates that the dialog has been
started successfully. The MSML result MAY contain <dialogid>
to return the dialog identifier, if the identifier was assigned
by the media server. Subsequently, zero or more MSML events
MAY be initiated by the media server in (update) REPORT
messages to report information gathered during the dialog.
Finally, an MSML event "msml.dialog.exit" SHOULD be generated
in a (terminate) REPORT message when the dialog terminates
(e.g., MSML execution of <exit>).
For the <dialogend> and <send> commands, the response message
contains the final MSML result that indicates that the request
has either been fulfilled or rejected.
Dialog Base Package "msml-dialog-base"
This package extends the MSML Dialog Core Package to define a
set of base functionality for MSML dialogs. The extension
defines individual media primitives, including <play>,
<dtmfgen>, <tonegen>, <record>, <dtmf> and <collect>, to be
used as child element of <dialogstart>. This package does not
change the framework message usage as defined by the MSML
Dialog Core Package.
Dialog Transform Package "msml-dialog-transform"
This package extends the MSML Dialog Core Package to define a
set of transform primitives that works as filter on half-duplex
media streams. The extension defines transform primitives,
including <vad>, <gain>, <agc>, <gate>, <clamp> and <relay>,
that MAY be used as child elements of <dialogstart>. This
package does not change the framework message usage as defined
by the MSML Dialog Core Package.
Dialog Group Package "msml-dialog-group"
This package extends the MSML Dialog Core, Base, and Transform
Packages to define a single control flow construct that
specifies concurrent execution of multiple media primitives.
The extension defines the <group> element that MAY be used as a
child element of <dialogstart> to enclose multiple media
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primitives, such that they can be executed concurrently. This
package does not change the framework message usage as defined
by the MSML Dialog Core Package.
Dialog Speech Package "msml-dialog-speech"
This package extends the MSML Dialog Core and MSML Base Package
to define functionality that MAY be used for automatic speech
recognition and text to speech. The extension extends the
<dialogstart> and the <play> elements.
For <dialogstart>, it defines a new child element <speech> to
activate grammars or user input rules associated with speech
recognition. For <play>, it defines a new child element <tts>
to initiate the text-to-speech service.
This package does not change the framework message usage as
defined by the MSML Dialog Core Package.
This package extends the MSML Dialog Core Package to define
primitives provide fax detection service. The extension
defines a primitive <faxdetect> to be used as a child element
of <dialogstart>. This package does not change the framework
message usage as defined by the MSML Dialog Core Package.
This package extends the MSML Dialog Core Package to define
primitives that allow a media server to provide fax send or
receive service. The extension defines new primitives
<faxsend> and <faxrcv>, to be used as a child element of
<dialogstart>. This package does not change the framework
message usage as defined by the MSML Dialog Core Package.
Dialog Audit Core Package "msml-audit"
This package extends the MSML Core Package to define a
framework for auditing media resource(s) allocated on the media
server.
This package follows a simple request/response transaction,
allowing the application server to send CONTROL messages
containing MSML <audit> requests. The media server MUST reply
with a response message containing the result. The result is
contained within the <auditresult> element, returning the
queried state information.
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This package does NOT use the REPORT message.
Dialog Audit Conference Package "msml-audit-conf"
This package extends the MSML Audit Core Package to define
conference specific states that MAY be queried via the <audit>
command and the corresponding response MUST be returned by the
<auditresult> element. This package does not change the
framework message usage as defined by the MSML Audit Core
Package.
Dialog Audit Connection Package "msml-audit-conn"
This package extends the MSML Audit Core Package to define
connection specific states that MAY be queried via the <audit>
command and the corresponding response MUST be returned by the
<auditresult> element. This package does not change the
framework message usage as defined by the MSML Audit Core
Package.
Dialog Audit Dialog Package "msml-audit-dialog"
This package extends the MSML Audit Core Package to define
dialog specific states that MAY be queried via the <audit>
command and the corresponding response MUST be returned by the
<auditresult> element. This package does not change the
framework message usage as defined by the MSML Audit Core
Package.
Dialog Audit Stream Package "msml-audit-stream"
This package extends the MSML Audit Core Package to define
stream specific states that MAY be queried via the <audit>
command and the corresponding response MUST returned by the
<auditresult> element. This package does not change the
framework message usage as defined by the MSML Audit Core
Package.
3.2.3. Common XML Support
The XML schema described in [i11] MUST be supported by all Control
Packages defined by MSML. However, the "connection-id" value MUST be
constructed as defined by MSML (i.e., the identifier MUST contain a
local dialog tag only, while the SIP Control Framework [i11] requires
that the "connection-id" contain both local and remote dialog tags).
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3.2.4. Control Message Body
A valid CONTROL body message MUST conform to the MSML schema, as
included in this specification, for the MSML package(s) used.
3.2.5. REPORT Message Body
A valid REPORT body message MUST conform to the MSML schema, as
included in this specification, for the MSML package(s) used.
4. Language Structure
4.1. Package Scheme
The primary mechanism for extending MSML is the "package". A package
is an integrated set of one or more XML schemas that define
additional features and functions via new or extended use of elements
and attributes. Each package, except for those defined in the
current document, is defined in a separate standards document, e.g.,
an Internet Draft or an RFC. All packages that extend the base MSML
functionality MUST include references to the MSML base set of schemas
provided in the Internet Drafts. A schema in a package MUST only
extend MSML; that is, it must not alter the existing specification.
A particular MSML script will include references to all the schemas
defining the packages whose elements and attributes it makes use of.
A particular script MUST reference MSML base and optionally extension
package(s). See the IANA Considerations section.
Each package MUST define its own namespace so that elements or
attributes with the same name in different packages do not conflict.
A script using a particular element or attribute MUST prefix the
namespace name on that element or attribute's name if it is defined
in a package (as opposed to being defined in the base).
MSML consists of a core package that provides structure without
support for any specific feature set. Additional packages, relying
on the core package, provide functional features. Any combination of
additional packages may be used along with the core package. The
following describes the set of MSML packages defined in this
document.
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Describes the minimum base framework that MUST be implemented to
support additional core packages.
o MSML Conference Core Package (Conditionally Mandatory, for
Conferencing)
Describes the audio and multimedia basic and advanced conferencing
package that MAY be implemented.
o MSML Dialog Core Package (Conditionally Mandatory, for Dialogs)
Describes the dialog core package that MUST be implemented for any
dialog services. However, systems supporting conferencing only,
MAY omit support for MSML dialogs. The MSML Dialog Core Package
specifies the framework within which additional dialog packages
are supported. The MSML Dialog Base Package MUST be supported,
while all other dialog packages MAY be supported.
o MSML Dialog Base Package (Conditionally Mandatory, for Dialogs)
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o MSML Dialog Group Package (Optional)
o MSML Dialog Transform Package (Optional)
o MSML Dialog Fax Detection Package (Optional)
o MSML Dialog Fax Send/Receive Package (Optional)
o MSML Dialog Speech Package (Optional)
o MSML Audit Core Package (Conditionally Mandatory, for Auditing)
Describes the audit core package that MUST be implemented to
support auditing services. The MSML audit core package specifies
the framework within which additional audit packages are
supported.
o MSML Audit Conference Package (Conditionally Mandatory, for
Auditing Conference, Conference Dialog, and Conference Stream)
o MSML Audit Connection Package (Conditionally Mandatory, for
Auditing Connection, Connection Dialog, and Connection Stream)
o MSML Audit Dialog Package (Conditionally Mandatory, for Auditing
Dialog, and MUST be used with either MSML Audit Conference
Package or MSML Audit Connection Package)
o MSML Audit Stream Package (Conditionally Mandatory, for Auditing
Stream, and MUST be used with either MSML Audit Conference
Package or MSML Audit Connection Package)
The formal process for defining extensions to MSML dialogs is to
define a new package. The new package MUST provide a text
description of what extensions are included and how they work. It
MUST also define an XML schema file (if applicable) that defines the
new package (which may be through extension, restriction of an
existing package, or a specific profile of an existing package).
Dependencies upon other packages MUST be stated. For example, a
package that extends or restricts has a dependency on the original
package specification. Finally, the new package MUST be assigned a
unique name and version.
The types of things that can be defined in new packages are:
o new primitives
o extensions to existing primitives (events, shadow variables,
attributes, content)
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o new recognition grammars for existing primitives
o new markup languages for speech generation
o languages for specifying a topology schema
o new predefined topology schemas
o new variables / segment types (sets & languages)
o new control flow elements
MSML packages are assembled together to form a specific MSML profile
that is shared between different implementations. The base MSML
dialog profiles that are defined in this document consist of the MSML
Core Package, MSML Dialog Core Package, MSML Dialog Base Package,
MSML Dialog Group Package, MSML Transform Package, MSML Fax Packages,
and the MSML Speech Package.
MSML extension packages, which define primitives, MUST define the
following for each primitive within the package:
o the function that the primitive performs
o the attributes that may be used to tailor its behavior
o the events that it is capable of understanding
o the shadow variables that provide access to information
determined as a result of the primitive's operation
The mechanism used to ensure that a media server and its client share
a compatible set of packages is not defined. Currently, it is
expected that provisioning will be used, possibly coupled with a
future auditing capability. Additionally, when used in SIP networks,
packages could be defined using feature tags and the procedures
defined for Indicating User Agent Capabilities in SIP [i1] used to
allow a media server to describe its capabilities to other user
agents.
4.2. Profile Scheme
Not all devices and applications using MSML will need to support the
entire MSML schema. For example, a media processing device might
support only audio announcements, only audio simple conferencing, or
only multimedia IVR. It is highly desirable to have a system for
describing what portion of MSML a particular media processing device
or control agent supports.
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The package scheme described earlier allows MSML functionality to be
functionally grouped, relying on the MSML core package. This scheme
allows a portion of the complete MSML specification to be
implemented, on a per-package basis, and also creates a framework for
future extension packages. However, within a given package, in some
cases, only a subset of the package functionality may be required.
In order to support subsets of packages, with greater degree of
granularity than at the package level, a profile scheme is required.
MSML package profiles would identify a subset of a given MSML package
with specific definitions of elements and attributes. Each MSML
package profile MUST be accompanied by one or more corresponding
schemas. To use the examples above, there could be an audio
announcements profile of the MSML Dialog Base Package, an audio
simple conferencing profile of the MSML Conference Core Package, and
a multimedia IVR profile of the MSML Dialog Base Package.
MSML package profiles MUST be published separately from the MSML
specification, in one or more standards documents (e.g., Internet
Drafts or RFCs) dedicated to MSML package profiles. Profiles would
not be registered with IANA and any organization would additionally
be free to create its own profile(s) if required.
5. Execution Flow
MSML assumes a model where there is a single control context within a
media server for MSML processing. That context may have one or many
SIP [n1] dialogs associated with it. It is assumed that any SIP
dialogs associated with the MSML control context have been
authorized, as appropriate, by mechanisms outside the scope of MSML.
A media server control context maintains information about the state
of all media objects and media streams within a media server. It
receives and processes all MSML requests from authorized SIP dialogs
and receives all events generated internally by media objects and
sends them on the appropriate SIP dialog. An MSML request is able to
create new media objects and streams, and to modify or destroy any
existing media objects and streams.
An MSML request may simply specify a single action for a media server
to undertake. In this case, the document is very similar to a simple
command request. Often, though, it may be more natural for a client
to request multiple actions at one time, or the client would like
several actions to be closely coordinated by the media server.
Multiple MSML elements received in a single request MUST be processed
sequentially in document order.
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An example of the first scenario would be to create a conference and
join it with an initial participant. An example of the second case
would be to unjoin one or more participants from a main conference
and join them to a sidebar conference. In the first scenario,
network latencies may not be an issue, but it is simpler for the
client to combine the requests. In the second case, the added
network latency between separate requests could mean perceptible
audio loss to the participant.
Each MSML request is processed as a single transaction. A media
server MUST ensure that it has the necessary resources available to
carry out the complete transaction before executing any elements of
the request. If it does not have sufficient resources, it MUST
return a 520 response and MUST NOT execute the transaction.
The MSML request MUST be checked for well-formedness and validated
against the schema prior to executing any elements. This allows XML
[n2] errors to reported immediately and minimizes failures within a
transaction and the corresponding execution of only part of the
transaction.
Each element is expected to execute immediately. Elements such as
<dialogstart>, which take an unpredictable amount of time, are
"forked" and executed in a separate thread (see MSML Dialog
Packages). Once successfully forked, execution continues with the
element following the </dialogstart>. As such, MSML does not provide
mechanisms to sequence or coordinate other operations with dialog
elements.
Processing within a transaction MUST stop if any errors occur.
Elements that were executed prior to the error are not rolled back.
It is the responsibility of the client to determine appropriate
actions based upon the results indicated in the response. Most
elements MAY contain an optional "mark" attribute. The value of that
attribute from the last successfully executed element MUST be
returned in an error response. Note that errors that occur during
the execution of a dialog occur outside the context of an MSML
transaction. These errors will be indicated in an asynchronous
event.
Transaction results are returned as part of the SIP request response.
The transaction results indicate the success or failure of the
transaction. The result MUST also include identifiers for any
objects created by a media server for which the client did not
provide an instance name. Additionally, if the transaction fails,
the reason for the failure MUST be returned, as well as an indication
of how much of the transaction was executed before the failure
occurred SHOULD be returned.
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6. Media Server Object Model
Media servers are general-purpose platforms for executing real-time
media processing tasks. These tasks range in complexity from simple
ones such as serving announcements, to complex ones, such as speech
interfaces, centralized multimedia conferencing, and sophisticated
gaming applications.
Calls are established to a media server using SIP. Clients will
often use SIP third party call control (3PCC) [i4] to establish calls
to a media server on behalf of end users. However MSML does not
require that 3PCC be used, only that the client and the media server
share a common identifier for the call and its associated RTP [i3]
sessions.
Objects represent entities that source, sink, or modify media
streams. A media streams is a bidirectional or unidirectional media
flow between objects on a media server. The following subsections
define the classes of objects that exist on a media server and the
way these are identified in MSML.
6.1. Objects
A media object is an endpoint of one or more media streams. It may
be a connection that terminates RTP sessions from the network or a
resource that transforms or manipulates media. MSML defines four
classes of media objects. Each class defines the basic properties of
how object instances are used within a media server. However, most
classes require that the function of specific instances be defined by
the client, using MSML or other languages such as VoiceXML.
The following classes of media processing objects are defined. The
class names are given in parentheses:
o network connection (conn)
o conference (conf)
o dialog (dialog)
Network connection is an abstraction for the media processing
resources involved in terminating the RTP session(s) of a call. For
audio services, a connection instance presents a full-duplex audio
stream interface within a media server. Multimedia connections have
multiple media streams of different media types, each corresponding
to an RTP session. Network connections get instantiated through SIP
[n1].
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A conference represents the media resources and state information
required for a single logical mix of each media type in the
conference (e.g., audio and video). MSML models multiple mixes/views
of the same media type as separate conferences. Each conference has
multiple inputs. Inputs may be divided into classes that allow an
application to request different media treatment for different
participants. For example, the video streams for some participants
may be assigned to fixed regions of the screen while those for other
participants may only be shown when they are speaking.
A conference has a single logical output per media type. For each
participant, it consists of the audio conference mix, less any
contributed audio of the participant, and the video mix shared by all
conference participants. Video conferences using voice activated
switching have an optional ability to show the previous speaker to
the current speaker.
Conferences are instantiated using the <createconference> element.
The content of the <createconference> element specifies the
parameters of the audio and/or video mixes.
Dialogs are a class of objects that represent automated participants.
They are similar to network connections from a media flow perspective
and may have one or more media streams as the abstraction for their
interface within a media server. Unlike connections, however,
dialogs are created and destroyed through MSML, and the media server
itself implements the dialog participant. Dialogs are instantiated
through the <dialogstart> element. Contents of the <dialogstart>
element define the desired or expected dialog behavior. Dialogs may
also be invoked by referencing VoiceXML as the dialog description
language.
Operators are functions that are used to filter or transform a media
stream. The function that an instance of an operator fulfills is
defined as a property of the media stream. Operators may be
unidirectional or bidirectional and have a media type.
Unidirectional operators reflect simple atomic functions such as
automatic gain control, filtering tones from conferences, or applying
specific gain values to a stream. Unidirectional operators have a
single media input, which is connected to the media stream from one
object, and a single media output, which is connected to the media
stream of a different object.
Bidirectional operators have two media inputs and two media outputs.
One media input and output is associated with the stream to one
object, and the other input and output is associated with a stream to
a different object. Bidirectional objects may treat the media
differently in each direction. For example, an operator could be
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defined that changed the media sent to a connection based upon
recognized speech or dual-tone multi-frequency (DTMF) received from
the connection. Operators are implicitly instantiated when streams
are created or modified using the elements <join> and <modifystream>,
respectively.
The relationships between the different object classes (conf, conn,
and dialog) are shown in the figure below.
A single, full-duplex instance of each object class is shown together
with common relationships between them. An operator (such as gain)
is shown between a connection and a conference and dialogs are shown
participating both with an individual connection and with a
conference. The figure is not meant to imply only one-to-one
relationships. Conferences will often have hundreds of participants,
and either connections or conferences may be interacting with more
than one dialog. For example, one dialog may be recording a
conference while other dialogs announce participants joining or
leaving the conference.
6.2. Identifiers
Objects are referenced using identifiers that are composed of one or
more terms. Each term specifies an object class and names a specific
instance within that class. The object class and instance are
separated by a colon ":" in an identifier term.
Identifiers are assigned to objects when they are first created. In
general, either the MSML client or a media server may specify the
instance name for an object. Objects for which a client does not
assign an instance name will be assigned one by a media server.
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Media server assigned instance names are returned to the client as a
complete object identifier in the response to the request that
created the object.
It is meaningful for some classes of objects to exist independently
on a media server. Network connections may be created through SIP at
any time. MSML can then be used to associate their media with other
objects as required to create services. Conferences may be created
and have specific resources reserved waiting for participant
connections.
Objects from these two classes, connections and conferences, are
considered independent objects since they can exist on a standalone
basis. Identifiers for independent objects consist of a single term
as defined above. For example, identifiers for a conference and
connection could be "conf:abc" or "conn:1234" respectively. Clients
that choose to assign instance names to independent objects must use
globally unique instance names. One way to create globally unique
names is to include the domain name of the client as part of the
name.
Dialogs are created to provide a service to independent objects.
Dialogs may act as a participant in a conference or interact with a
connection similar to a two-participant call. Dialogs depend upon
the existence of independent objects, and this is reflected in the
composition of their identifiers. Operators modify the media flow
between other objects, such as application of gain between a
connection and a conference. As operators are merely media transform
primitives defined as properties of the media stream, they are not
represented by identifiers and created implicitly.
Identifiers for dialogs are composed of a structured list of slash
('/') separated terms. The left-most term of the identifier must
specify a conference or connection. This serves as the root for the
identifier. An example of an identifier for a dialog acting as a
conference participant could be:
conf:abc/dialog:recorder
All objects except connections are created using MSML. Connections
are created when media sessions get established through SIP. There
are several options clients and media servers can use to establish a
shared instance name for a connection and its media streams.
When media servers support multiple media types, the instance name
SHOULD be a call identifier that can be used to identify the
collection of RTP sessions associated with a call. When MSML is used
in conjunction with SIP and third party call control, the call
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identifier MUST be the same as the local tag assigned by the media
server to identify the SIP dialog. This will be the tag the media
server adds to the "To" header in its response to an initial invite
transaction. RFC 3261 requires the tag values to be globally unique.
An example of a connection identifier is: conn:74jgd63956ts.
With third party call control, the MSML client acts as a back-to-back
user agent (B2BUA) to establish the media sessions. SIP dialogs are
established between the client and the media server allowing the use
of the media server local tag as a connection identifier. If third
party call control is not used, a SIP event package MAY be used to
allow a media server to notify new sessions to a client that has
subscribed to this information.
Identifiers as described above allow every object in a media server
to be uniquely addressed. They can also be used to refer to multiple
objects. There are two ways in which this can currently be done:
wildcards
common instance names
An identifier can reference multiple objects when a wildcard is used
as an instance name. MSML reserves the instance name composed of a
single asterisk ('*') to mean all objects that have the same
identifier root and class. Instance names containing an asterisk
cannot be created. Wildcards MUST only be used as the right-most
term of an identifier and MUST NOT be used as part of the root for
dialog identifiers. Wildcards are only allowed where explicitly
indicated below.
The following are examples of valid wildcards:
conf:abc/dialog:*
conn:*
An example of illegal wildcard usage is:
conf:*/dialog:73849
Although identifiers share a common syntax, MSML elements restrict
the class of objects that are valid in a given context. As an
example, although it is valid to join two connections together, it is
not valid to join two IVR dialogs.
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7. MSML Core Package
This section describes the core MSML package that MUST be supported
in order to use any other MSML packages. The core MSML package
defines a framework, without explicit functionality, over which
functional packages are used.
7.1. <msml>
<msml> is the root element. When received by a media server, it
defines the set of operations that form a single MSML request.
Operations are requested by the contents of the element. Each
operation MAY appear zero or more times as children of <msml>.
Specific operations are defined within the conference package and in
the set of dialog packages.
The results of a request or the contents of events sent by a media
server are also enclosed within the <msml> element. The results of
the transaction are included as a body in the response to the SIP
request that contained the transaction. This response will contain
any identifiers that the media server assigned to newly created
objects. All messages that a media server generates are correlated
to an object identifier. Objects and identifiers are discussed in
section 6 (Media Server Object Model).
Attributes:
version: "1.1" Mandatory
7.2. <send>
Events are used to affect the behavior of different objects within a
media server. The <send> element is used to send an event to the
specified recipient within the media server.
Attributes:
event: the name of an event. Mandatory.
target: an object identifier. When the identifier is for a
dialog, it may optionally be appended with a slash "/" followed by
the target to be included in an MSML dialog <send>. Mandatory.
valuelist: a list of zero or more parameters that are included
with the event.
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mark: a token that can be used to identify execution progress in
the case of errors. The value of the mark attribute from the last
successfully executed MSML element is returned in an error
response. Therefore, the value of all mark attributes within an
MSML document should be unique.
7.3. <result>
The <result> element is used to report the results of an MSML
transaction. It is included as a body in the final response to the
SIP request that initiated the transaction. An optional child
element <description> may include text that expands on the meaning of
error responses. Response codes are defined in section 11 (Response
Codes).
Attributes:
response: a numeric code indicating the overall success or failure
of the transaction, and in the case of failure, an indication of
the reason. Mandatory.
mark: in the case of an error, the value of the mark attribute
from the last successfully executed element that included the mark
attribute.
In the case of failure, a description of the reason SHOULD be
provided using the child element <description>.
Three other child elements allow the response to include identifiers
for objects created by the request but that did not have instance
names specified by the client. Those elements are <confid> and
<dialogid>, for objects created through a <createconference> and
<dialogstart> respectively.
7.4. <event>
The <event> element is used to notify an event to a media server
client. Three types of events are defined by the MSML Core Package:
"msml.dialog.exit", "msml.conf.nomedia", and "msml.conf.asn". These
correspond to the termination of an executing dialog, a conference
being automatically deleted when the last participant has left, and
the notification of the current set of active speakers for a
conference, respectively. Events may also be generated by an
executing dialog. In this case, the event type is specified by the
dialog (see MSML Dialog Core Package <send>).
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Attributes:
name: the type of event. If the event is generated because of the
execution MSML dialog <send>, the value MUST be the value of the
"event" attribute from the <send> element within the MSML Dialog
Core Package. If the event is generated because of the execution
of an <exit>, the value MUST be "moml.exit". If the event is
generated because of the execution of a <disconnect>, the value
MUST be "moml.disconnect". If the event is generated because of
an error, the value must be "moml.error". Mandatory.
id: the identifier of the conference or dialog that generated the
event or caused the event to be generated. Mandatory.
<event> has two children, <name> and <value>, which contain the
name and value respectively of each namelist item associated with
the event.
8. MSML Conference Core Package
8.1. Conferences
A conference has a mixer for each type of media that the conference
supports. Each mix has a corresponding description that defines how
the media from participants contributes to that mix. A mixer has
multiple inputs that are combined in a media specific way to create a
single logical output.
The elements that describe the mix for each media type are called
mixer description elements. They are:
<audiomix> defines the parameters for mixing audio media.
<videolayout> defines the composition of a video window.
These elements, defined in sections 8.6 (Audio Mix) and 8.7 (Video
Layout) respectively, are used as content of the <createconference>
element to establish the initial properties of a conference. The
elements are used within the <modifyconference> element to change the
properties of a conference once it has been created, or within the
<destroyconference> element to remove individual mixes from the
conference.
Conferences may be terminated by an MSML client using the
<destroyconference> element to remove the entire conference or by
removing the last mixer(s) associated with the conference.
Conferences can also be terminated automatically by a media server
based on criteria specified when the conference is created. When the
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conference is deleted, any remaining participants will have their
associated SIP dialogs left unchanged or deleted based on the value
of the "term" attribute specified when the conference was created.
8.2. Media Streams
Objects have at least one media input and output for each type of
media that they support. Each object class defines the number of
input and output objects of that class support. Media streams are
created when objects are joined, either explicitly using <join> or
implicitly when dialogs are created using <dialogstart>. Dialog
creation has two stages, allocating and configuring the resources
required for the dialog instance, and implicitly joining those
resources to the dialog target during the dialog execution. Refer to
the MSML Dialog Base Package.
A join operation by default creates a bidirectional audio stream
between two objects. Video and unidirectional streams may also be
created. A media stream is created by connecting the output from one
object to the input of another object and vice versa (assuming a
bidirectional or full-duplex join).
Many objects may only support a single input for each type of media.
Within this specification, only the conference object class supports
an arbitrary number of inputs. When a stream is requested to be
created to an object that already has a stream of the same type
connected to its single input, the result of the request depends upon
the type of the media stream.
Audio mixing is done by summing audio signals. Automatically mixing
audio streams has common and straightforward applications. For
example, the ability to bridge two streams allows for the easy
creation of simple three-way calls or to bridge private announcements
with a (whispered) conference mix for an individual participant. In
the case of general conferences, however, an MSML client SHOULD
create an audio conference and then join participants to the
conference. Conference mixers SHOULD subtract the audio of each
participant from the mix so that they do not hear themselves.
A media server receiving a request that requires joining an audio
stream to the single audio input of an object that already has an
audio stream connected SHOULD automatically bridge the new stream
with the existing stream, creating a mix of the two audio streams.
The maximum number of streams that may be bridged in this manner is
implementation specific. It is RECOMMENDED that a media server
support bridging at least two streams. A media server that cannot
bridge a new stream with any existing streams MUST fail the operation
requesting the join.
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Unlike audio mixing, there are many different ways that two video
streams may be combined and presented. For example, they may be
presented side by side in separate panes, picture in picture, or in a
single pane that displays only a single stream at a time based on a
heuristic such as active speaker. Each of these options creates a
very different presentation and requires significantly different
media resources.
A join operation does not describe how a new stream can be combined
with an existing stream. Therefore, automatic bridging of video is
not supported. A media server MUST fail requests to join a new video
stream to an object that only supports a single video input and
already has a video stream connected to that input. For an object to
have multiple video streams joined to it, the object itself must be
capable in supporting multiple video streams. Conference objects can
support multiple video streams and provide a way to specify the
mixing presentation for the video streams.
A media server MUST NOT establish any streams unless the media server
is able to create all the streams requested by an operation. Streams
are only able to be created if both objects support a media type and
at least one of the following conditions is true:
1. Each object that is to receive media is not already receiving a
stream of that type.
2. Any object that is to receive media and is already receiving a
stream of that type supports receiving an additional stream of
that type. The only class of objects defined in this
specification that directly support receiving multiple streams
of the same type are conferences.
3. The media server is able to automatically bridge media streams
for an object that is to receive media and that is already
receiving a stream of the requested type. The only type of
media defined in this specification that MAY be automatically
bridged is audio.
The directionality of media streams associated with a connection is
modeled independently from what SDP [n9] allows for the corresponding
RTP [i3] sessions. Media servers MUST respect the SDP in what they
actually transmit but MUST NOT allow the SDP to affect the
directionality when joining streams internal to the media server.
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8.3. <createconference>
<createconference> is used to allocate and configure the media mixing
resources for conferences. A description of the properties for each
type of media mix required for the conference is defined within the
content of the <createconference> element. Mixer descriptions are
described in Audio Mix and Video Layout sections. When no mixer
descriptions are specified, the default behavior MUST be equivalent
to inclusion of a single <audiomix>.
Clients can request that a media server automatically delete a
conference when a specified condition occurs by using the
"deletewhen" attribute. A value of "nomedia" indicates that the
conference MUST be deleted when no participants remain in the
conference. When this occurs, an "msml.conf.nomedia" event MUST be
notified to the MSML client. A value of "nocontrol" indicates that
the conference MUST be deleted when the SIP [n1] dialog that carries
the <createconference> element is terminated. When this occurs, a
media server MUST terminate all participant dialogs by sending a BYE
for their associated SIP dialog. A value of "never" MUST leave the
ability to delete a conference under the control of the MSML client.
Attributes:
name: the instance name of the conference. If the attribute is
not present, the media server MUST assign a globally unique name
for the conference. If the attribute is present but the name is
already in use, an error (432) will result and MSML document
execution MUST stop. Events that the conference generates use
this name as the value of their "id" attribute (see section 7.4
(<event>)).
deletewhen: defines whether a media server should automatically
delete the conference. Possible values are "nomedia",
"nocontrol", and "never". Default is "nomedia".
term: when true, the media server MUST send a BYE request on all
SIP dialogs still associated with the conference when the
conference is deleted. Setting term equal to false allows clients
to start dialogs on connections once the conference has completed.
Default is "true".
mark: a token that MAY be used to identify execution progress in
the case of errors. The value of the mark attribute from the last
successfully executed MSML element is returned in an error
response. Therefore, the value of all mark attributes within an
MSML document should be unique.
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An example of creating an audio conference is shown below. This
conference allows at most two participants to contend to be heard and
reports the set of active speakers no more frequently than every 10
seconds.
Conference resources may be reserved by including the <reserve>
element as a child of <createconference>. <reserve> allows the
specification of a set of resources that a media server will reserve
for the conference. Any requests for resources beyond those that
have been reserved should be honored on a best-effort basis by a
media server.
Attributes:
required: boolean that specifies whether <createconference> should
fail if the requested resources are not available. When set to
false, the conference will be created, with no reserved resources,
if the complete reservation cannot be honored. Default is "true".
8.3.1.1. <resource>
The resources to be reserved are defined using <resource>. The
contents of these elements describe a resource that is to be
reserved. Descriptions are implementation dependent. Media servers
that support MSML dialogs may use the elements from that package as
the basis for resource descriptions. Each resource element may use
the attribute "n" to define the quantity of the resource to reserve.
For example, the following creates a conference and reserves two
types of resources. One resource element may represent resources
that are shared by all participants of the conference, while the
other may represent resources that are reserved for each of the
expected participants.
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Attributes:
n: number of resources to be reserved. Default is 1.
type: specifies whether the resource is to be reserved by each
individual participant or reserved as a shared conference
resource. Valid values for this attribute are "individual" or
"shared". Default is "individual".
<createconference>
<reserve>
<resource n="20">
<!--description of resources used by each participant-->
</resource>
<resource n="2" type="shared">
<!--description of the shared conference resources-->
</resource>
</reserve>
</createconference>
8.4. <modifyconference>
All of the properties of an audio mix or the presentation of a video
mix may be changed during the life of a conference using the
<modifyconference> element. Changes to an audio mix are requested by
including an <audiomix> element as a child of <modifyconference>.
This may also be used to add an audio mixer to the conference if none
was previously allocated. Changes to a video presentation are
requested by including a <videolayout> element as a child of
<modifyconference>. Similar to an audio mixer, this may be used to
add a video mixer if none was previously allocated.
Mixers are removed by including a mixer description element within
<destroyconference/>.
Features and presentation aspects are enabled/added or modified by
including the element(s) that define the feature or presentation
aspect within a mixer description. The complete specification of the
element must be included just as it would be included when the
conference is created. The new definition completely replaces any
previous definition that existed. Only things that are defined by
elements included in the mixer descriptions are affected. Any
existing configuration aspects of a conference, which are not
specified within the <modifyconference/> element, MUST maintain their
current state in the media server.
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For example, if an MSML client wanted to change the minimum reporting
interval for active speaker notification from that shown in the
Conference Examples section (<createconference>) it would send the
following to the media server:
This would also enable active speaker notification if it had not
previously been enabled. The N-loudest mixing is unaffected.
Multiple elements MAY be included in the mixer descriptions similar
to when conferences are created. For example, in a video conference,
the video mix description (<videolayout>) could specify that the
layout of the video being displayed should change such that the
regions currently displaying participants get smaller and new
region(s) are created to support additional participants. A media
server MUST make all of the requested changes or none of the
requested changes.
Additional examples of modifying conferences are presented in the
Conference Examples section.
Attributes:
id: the identifier for a conference. Wildcards MUST NOT be used.
Mandatory.
mark: a token that can be used to identify execution progress in
the case of errors. The value of the mark attribute from the last
successfully executed MSML element is returned in an error
response. Therefore, the value of all "mark" attributes within an
MSML document SHOULD be unique.
8.5. <destroyconference>
Destroy conference is used to delete mixers or to delete the entire
conference and all state and shared resources. When a mixer is
removed, all of the streams joined to that mixer are unjoined. When
a conference is destroyed, SIP dialogs for any remaining participants
MUST be maintained or removed based on the value of the "term"
attribute when the conference was created.
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When there is no element content, <destroyconference/> deletes the
entire conference. Individual mixers are removed by including a
mixer description element identifying the mix (or mixes) to be
removed as content to <destroyconference/>. <audiomix/> is used
remove audio mixers and <videolayout/> is used remove video mixers.
When one or more mixer descriptions are specified, then media server
MUST only delete the specified mixer and MUST NOT affect any other
existing mixers. When <audiomix/> or <videolayout/> is identified
for individual removal, other feature aspects of the mix MUST NOT be
included. If specified, the media server MUST ignore any such
elements. When the last mixer is removed from a conference, a media
server MUST remove all conference state, leaving or removing any
remaining SIP dialogs as described above.
Attributes:
id: the identifier for a conference. Mandatory.
mark: a token that can be used to identify execution progress in
the case of errors. The value of the mark attribute from the last
successfully executed MSML element is returned in an error
response. Therefore, the value of all "mark" attributes within an
MSML document SHOULD be unique.
8.6. <audiomix>
The properties of the overall audio mix are specified using the
<audiomix> element.
Attributes:
id: an optional identifier for the audio mix.
samplerate: Integer value specifies the sample rate (in Hz) for
the audio mixer. Optional, default value of 8000.
An example of the description for an audio mix is:
The <n-loudest> element defines that participants contend to be
included in the conference mix based upon their audio energy. When
the element is not present, all participants are mixed.
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Attributes:
n: the number of participants that will be included in the audio
mix based upon having the greatest audio energy. Mandatory.
8.6.2. <asn>
The <asn> element enables notification of active speakers. Active
speakers MUST be notified using the <event> element with an event
name of "msml.conf.asn". The namelist of the event consists of the
set of active speakers. The name of each item is the string
"speaker" with a value of the connection identifier for the
connection.
Attributes:
ri: the minimum reporting interval defines the minimum duration of
time that must pass before changes to active speakers will be
reported. A value of zero disables active speaker notification.
asth: specifies the active speaker threshold (in unit of dBm0).
Valid value range is 0 to -96. Optional, default is -96.
A video layout is specified using the <videolayout> element. It is
used as a container to hold elements that describe all of the
properties of a video mix. The parameters of the window that
displays the video mix are defined by the <root> element. When the
video mix in composed of multiple panes, the location and
characteristics of the panes are defined by one or more <region>
elements. A <region> element is not required when only a single
video stream is displayed at one time and none of the visual
attributes of regions are required.
Some regions may be used to display a video stream based on a
selection criteria rather than having a video stream of a single
participant continuously presented in the region. One such an
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example is a distance learning lecture where the instructor sees each
of the students periodically displayed in a region. When a region is
used to display one of a number of streams, it is placed as a child
of a <selector> element.
Attributes:
type: specifies the language used to define the layout. Layouts
defined using MSML MUST use the value "text/msml-basic-layout".
This is the same convention as defined for the layout package from
the W3C SMIL 2.0 specification [i6]. The default when omitted is
"text/msml-basic-layout".
id: an optional identifier for the video layout.
8.7.1. <root>
The <root> element describes the root window or virtual screen in
which the conference video mix will be displayed. Simple conferences
can display participant video directly within the root window but
more complex conferences will use regions for this purpose. Areas of
the window which are not used to display video will show the root
window background.
All video presentations require a root window. It MUST be present
when a video mix is created and it cannot be deleted; however, its
attributes MAY be changed using the <modifyconference> element.
Attributes:
size: the size of the root window specified as one of the five
standard common intermediate formats (e.g., CIF, QCIF).
backgroundcolor: the color for the root window background defined
using the values for the "background-color" property of the CSS2
specification [n10].
backgroundimage: the URI for an image to be displayed as the root
window background. Transparent portions of the image allow the
background color to show through.
8.7.2. <region>
<region> elements define video panes that are used to display
participant video streams. Regions are rendered on top of the root
window.
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The size of a region is specified relative to the size of the root
window using the "relativesize" attribute. Relative sizes are
expressed as fractions (e.g., 1/4, 1/3) that preserve the aspect
ratio of the original video stream while allowing for efficient
scaling implementations.
Regions are located on the root window based on the value of the
position attributes "top" and "left". These attributes define the
position of the top left corner of the region as an offset from the
top left corner of the root window. Their values may be expressed
either as a number of pixels or as a percent of the vertical or
horizontal dimension of the root window. Percent values are appended
with a percent ('%') character. Percent values of "33%" and "67%"
should be interpreted as "1/3" and "2/3" to allow easy alignment of
regions whose size is expressed relative to the size of the root
window.
The area of the root window covered by a region is a function of the
region's position and its size. When areas of different regions
overlap, they are layered in order of their "priority" attribute.
The region with the highest value for the "priority" attribute is
below all other regions and will be hidden by overlapping regions.
The region with the lowest non-zero value for the "priority"
attribute is on top of all other regions and will not be hidden by
overlapping regions. The priority attribute may be assigned values
between 0 and 1. A value of zero disables the region, freeing any
resources associated with the region, and unjoining any video stream
displayed in the region.
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Regions that do not specify a priority will be assigned a priority by
a media server when a conference is created. The first region within
the <videolayout> element that does not specify a priority will be
assigned a priority of one, the second a priority of two, etc. In
this way, all regions that do not explicitly specify a priority will
be underneath all regions that do specify a priority. As well,
within those regions that do not specify a priority, they will be
layered from top to bottom, in the order they appear within the
<videolayout> element.
For example, if a layout was specified as follows:
Visual attributes are used to define aspects of the visual appearance
of individual regions. A border may be defined together with a title
and/or logo. Text and logos are displayed as images on top of the
region's video, below all regions with a lower priority. The visual
attributes are "title", "titletextcolor", "titlebackgroundcolor",
"bordercolor", "borderwidth", and "logo".
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Visual attributes can also be defined for individual streams (Video
Stream Properties). When visual attributes are specified as part of
both a region and a stream, those associated with the stream MUST
take precedence. This allows streams that are chosen for display
automatically (Stream Selection) to have proper text and logos
displayed. The region visual attributes are displayed when no stream
is associated with the region.
Two other attributes associated with a region, "blank" and "freeze",
define the state of the video displayed in the region. When the
blank or freeze attribute is assigned the value "true", then the
media server MUST display the region either as a blank region, or the
video image frozen at the last received frame.
These attributes are specified for a region and not allowed for
streams because that appears to be the common use case. Applying
them to streams would allow only that stream to be affected within a
selector while other streams continue to display normally. Except
for personal mixing scenarios, the same effect can be achieved by
having the participant mute their own transmission to the media
server.
Attributes: associated with each region:
id: a name that can be used to refer to the region.
left: the position of the region from the left side of the root
window.
top: the position of the region from the top of the root window.
relativesize: the size of the region expressed as a fraction of
the root window size.
priority: a number between 0 and 1 that is used to define the
precedence when rendering overlapping regions. A value of zero
disables the region.
title: text to be displayed as the title for the region
titletextcolor: the color of the text
titlebackgroundcolor: the color of the text background
bordercolor: the color of the region border
borderwidth: the width of the region border
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logo: the URI of an image file to be displayed
freeze: a boolean value, with a default of "false", that defines
whether the video image should be frozen at the currently
displayed frame
blank: a boolean value, with a default of "false", that defines
whether the region should display black instead of the associated
video stream
8.7.3. <selector>
It is often desired that one of several video streams be
automatically selected to be displayed. The <selector> element is
used to define the selection criteria and its associated parameters.
The selection algorithm is specified by the "method" attribute.
Currently defined selection methods allow for voice activated
switching and to iterate sequentially through the set of associated
video streams.
The regions that will display the selected video stream are placed as
child elements of the <selector> element. Including regions within a
<selector> element does not affect their layout with respect to
regions not subject to the selection. For simple video conferences
that display the video directly in the root window, the <root>
element can be placed as a child of <selector>. Region elements MUST
NOT be used in this case.
For example, below is a common video layout that allows the video
stream from the currently active speaker to be displayed in the large
region ("1") at the top left of the layout while the streams from
five other participants are displayed in regions located at the
layout periphery.
All selector methods must be defined so that they work if only a
single region is a child of the selector. Selector methods that
support more than one child region MUST specify how the method works
across multiple regions. Media server implementations MAY support
only a single region for methods that are defined to allow multiple
regions.
The selector or region for a participant's video is defined using the
"display" attribute of <stream> during a join operation. Specifying
a selector allows the stream to be displayed according to the
criteria defined by the selector method. Specifying a region
supports continuous presence display of participants. Some streams
may be joined with both a selector and a region. In this case, the
value of <blankothers> attribute defines whether the streams
associated with a continuous presence region should be blanked when
the stream is selected for display in one of the selector regions.
Attributes: common to all selector methods are:
id: a name that can be used to refer to the selector.
method: the name of the method used to select the video stream. A
value of "vas" (see the following section, Voice Activated
Switching) MAY be specified.
status: specifies whether the selector is "active" or "disabled".
blankothers: when "true", video streams that are also displayed in
continuous presence regions will have the continuous presence
regions blanked when the stream is displayed in a selection
region.
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8.7.3.1. Voice Activated Switching ("vas")
Voice activated switching (VAS) is used to display the video stream
that correlates with the participant who is currently speaking. It
is specified using a selector method value of "vas".
If the video stream associated with the active speaker is not
currently displayed in a selection region, then it replaces the video
in the region that is displaying the video of the speaker that was
least recently active. If the video of the active speaker is
currently displayed in a selection region, then there is no change to
any region. When VAS is applied to a single region, this has the
effect that the current speaker is displayed in that region.
Attributes:
si: switching interval is the minimum period of time that must
elapse before allowing the video to switch to the active speaker.
speakersees: defines whether the active speaker sees the "current"
speaker (themselves) or the "previous" speaker.
8.8. <join>
<join> is used to create one or more streams between two independent
objects. Streams may be audio or video and may be bidirectional or
unidirectional. A bidirectional stream is implicitly composed of two
unidirectional streams that can be manipulated independently. The
streams to be established are specified by <stream> elements (section
<stream>) as the content of <join>.
Without any content, <join> by default establishes a bidirectional
audio stream. When only a stream of a single type has previously
been created between two objects, or when only a unidirectional
stream exists, <join> can be used to add a stream of another media
type or make the stream bidirectional by including the necessary
<stream> elements. Bidirectional streams are made unidirectional by
using <unjoin> (section <unjoin>) to remove the unidirectional stream
for the direction that is no longer required.
In addition to defining the media type and direction of streams,
<stream> elements are also used to establish the properties of
streams, such as gain, voice masking, or tone clamping of audio
streams, or labels and other visual characteristics of video streams.
Properties are often defined asymmetrically for a single direction of
a stream. Creating a bidirectional stream requires two <stream>
elements within the <join>, one for each direction, if one direction
is to have different properties from the other direction.
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If a media server can provide services using both compressed or
uncompressed media, the MSML client may need to distinguish within
requests which format is to be used. When compressed streams are
created, both objects must use the same media format or an error
response (450) is generated.
Attributes:
id1: an identifier of either a connection or conference.
Wildcards MUST NOT be used. Mandatory. Any other object class
results in a 440 error.
id2: an identifier of either a connection or conference.
Wildcards MUST NOT be used. Mandatory. Any other object class
results in a 440 error.
mark: a token that can be used to identify execution progress in
the case of errors. The value of the mark attribute from the last
successfully executed MSML element is returned in an error
response. Therefore, the value of all mark attributes within an
MSML document SHOULD be unique.
For example, consider a call center coaching scenario where a
supervisor can listen to the conversation between an agent and a
customer and provide hints to the agent, which are not heard by the
customer. One join establishes a stream between the agent and the
customer and another join establishes a stream between the agent and
the supervisor. A third join is used to establish a half-duplex
stream from the customer to the supervisor. The media server
automatically bridges the media streams from the customer and the
supervisor for the agent, and from the customer and the agent for the
supervisor.
Assuming the following connections, each with a single audio stream:
conn:supervisor
conn:agent
conn:customer
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The following would create the media flows previously described:
The following example shows joining a participant to a multimedia
conference. It assumes that the conference has a video
presentation region named "topright". The "display" attribute is
explained in the section Video Stream Properties.
Media streams can have different properties such as the gain for an
audio stream or a visual label for a video stream. These properties
are specified as the content of <stream> elements (section <stream>).
<modifystream> is used to change the properties of a stream by
including one or more <stream> elements that are to have their
properties changed.
Stream properties MUST be set as specified by the element <stream> as
a child element of <modifystream> element. Any properties not
included in the <stream> element when modifying a stream MUST remain
unchanged. Setting a property for only one direction of a
bidirectional stream MUST NOT affect the other direction. The
directionality of streams can be changed by issuing an <unjoin>
followed by a <join>. Any streams that exist between the two objects
that are not included within <modifystream> MUST NOT be affected.
Attributes:
id1: an identifier of either a conference or a connection. The
instance name MUST NOT contain a wildcard if "id2" contains a
wildcard. Mandatory.
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id2: an identifier of either a conference or a connection. The
instance name MUST NOT contain a wildcard if "id1" contains a
wildcard. Mandatory.
mark: a token that can be used to identify execution progress in
the case of errors. The value of the mark attribute from the last
successfully executed MSML element is returned in an error
response. Therefore, the value of all mark attributes within an
MSML document is RECOMMENDED to be unique.
8.10. <unjoin>
Unjoin removes one or more media streams between two objects. In the
absence of any content in the <stream> element, all media streams
between the objects MUST be removed. Individual streams may be
removed by specifying them using <stream> elements, while the
unspecified streams MUST NOT be removed. A bidirectional stream is
changed to a unidirectional stream by unjoining the direction that is
no longer required, using the <unjoin> element. Operator elements
MUST NOT be specified within <stream> elements when streams are being
unjoined using the <unjoin> element. Any specified stream operators
MUST be ignored.
<unjoin> and <join> may be used together to move a media stream, such
as from a main conference to a sidebar conference.
Attributes:
id1: an identifier of either a conference or a connection. The
instance name MUST NOT contain a wildcard if "id2" contains a
wildcard. Mandatory.
id2: an identifier of either a conference or a connection. The
instance name MUST NOT contain a wildcard if "id1" contains a
wildcard. Mandatory.
mark: a token that can be used to identify execution progress in
the case of errors. The value of the mark attribute from the last
successfully executed MSML element is returned in an error
response. Therefore, the value of all mark attributes within an
MSML document SHOULD be unique.
The following removes a participant from a conference and plays a
leave tone for the remaining participants in the conference.
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Monitor is a specialized unidirectional join that copies the media
that is destined for a connection object. One example of the use for
<monitor> may be quality monitoring within a conference. The media
stream may be removed using the <unjoin> element (see the section
<unjoin>).
Attributes:
id1: an identifier of the connection to be monitored. Mandatory.
Any other object class results in a 440 error. Wildcards MUST NOT
be used.
id2: an identifier of the object that is to receive the copy of
the media destined to id1. id2 may be a connection or a
conference. Mandatory. Any other object class results in a 440
error. Wildcards MUST NOT be used.
compressed: "true" or "false". Specifies whether the join should
occur before or after compression. When "true", id2 must be a
connection using the same media format as id1 or an error response
(450) is generated. Default is "false".
mark: a token that can be used to identify execution progress in
the case of errors. The value of the mark attribute from the last
successfully executed MSML element is returned in an error
response. Therefore, the value of all mark attributes within an
MSML document SHOULD be unique.
8.12. <stream>
Individual streams are specified using the <stream> element. They
MAY be included as a child element in any of the stream manipulation
elements <join>, <modifystream>, or <unjoin>.
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The type of the stream is specified using a "media" attribute that
uses values corresponding to the top-level MIME media types as
defined in RFC 2046 [i7]. This specification only addresses audio
and video media. Other specifications may define procedures for
additional types.
A bidirectional stream is identified when no direction attribute
"dir" is present. A unidirectional stream is identified when a
direction attribute is present. The "dir" attribute MUST have a
value of "from-id1" or "to-id1" depending on the required direction.
These values are relative to the identifier attributes of the parent
element.
The compressed attribute is used to distinguish the compressed nature
of the stream when necessary. It is implementation specific what is
used when the attribute is not present. Joining compressed streams
acts much like an RTP [i3] relay.
The properties of the media streams are specified as the content of
<stream> elements when the element is used as a child of <join> or
<modifystream>. Stream elements MUST NOT have any content when they
are used as a child of <unjoin> to identify specific streams to
remove.
Some properties are defined within MSML as additional attributes or
child elements of <stream> that are media type specific. Ones for
audio streams and video streams are defined in the following two sub-
sections. Operators, viewed as properties of the media stream, MAY
be specified as child elements of the <stream> element.
Attributes:
media: "audio" or video". Mandatory
dir: "from-id1" or "to-id1".
compressed: "true" or "false". Specifies whether the stream uses
compressed media. Default is implementation specific.
8.12.1. Audio Stream Properties
Audio mixes can be specified to only mix the N-loudest participants.
However, there may be some "preferred" participants that are always
able to contribute. When audio streams are joined to a conference
that uses N-loudest audio mixing, preferred streams need to be
identified.
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A preferred audio stream is identified using the "preferred"
attribute. The "preferred" attribute MAY be used for an audio stream
that is input to a conference and MUST NOT be used for other streams.
Additional attributes of the <stream> element for audio streams are:
Attributes:
preferred: a boolean value that defines whether the stream does
not contend for N-loudest mixing. A value of "true" means that
the stream MUST always be mixed while a value of "false" means
that the stream MAY contend for mixing into a conference when
N-loudest mixing is enabled. Default is "false".
There are two elements that can be used to change the characteristics
of an audio stream as defined below.
8.12.1.1. <gain>
The <gain> element may be used to adjust the volume of an audio media
stream. It may be set to a specific gain amount, to automatically
adjust the gain to a desired target level, or to mute the stream.
Attributes:
id: an optional identifier that may be referenced elsewhere for
sending events to the gain primitive.
amt: a specific gain to apply specified in dB or the string "mute"
indicating that the stream should be muted. This attribute MUST
NOT be used if "agc" is present.
agc: boolean indicating whether automatic gain control is to be
used. This attribute MUST NOT be used if "amt" is present.
tgtlvl: the desired target level for AGC specified in dBm0. This
attribute MUST be specified if "agc" is set to "true". This
attribute MUST NOT be specified if "agc" is not present.
maxgain: the maximum gain that AGC may apply. Maxgain is
specified in dB. This attribute MUST be used if "agc" is present
and MUST NOT be used when "agc" is not present.
8.12.1.2. <clamp>
The <clamp> element is used to filter tones and/or audio-band dtmf
from a media stream.
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Attributes:
dtmf: boolean indicating whether DTMF tones should be removed.
tone: boolean indicating whether other tones should be removed.
8.12.2. Video Stream Properties
Video mixes define a presentation that may have multiple regions,
such as a quad-split. Each region displays the video from one or
more participants. When video streams are joined to such a
conference, the region that will display the video needs to be
specified as part of the join operation.
The region that will display the video is specified using the
"display" attribute. The "display" attribute MUST be used for a
video stream that is input to a conference and MUST NOT be used for
other streams. The value of the attribute MUST identify a <region>
(see the section <region>) or a <selector> (see the section
<selector>) that is defined for the conference. A stream MUST NOT be
directly joined to a region that is defined within a selector.
Changing the value of the "display" attribute can be used to change
where in a video presentation layout a video stream is displayed.
Additional attributes of the <stream> element for video streams are:
Attributes:
display: the identifier of a video layout region or selector that
is to be used to display the video stream.
override: specifies whether or not the given video stream is the
override source in the region defined by "display" attribute.
Valid values are "true" or "false". Optional, default value is
"false". Only a video stream that is input to a conference can be
the override source. A particular region can have at most one
override source at a time. The most recently joined video stream
with this attribute set to "true" becomes the override source.
When there's an override source in place, its video is always
displayed in the region, regardless of what video selection
algorithm (either a selector or continuous presence mode) is
configured for that region. Once the override source is cleared,
the conference MUST revert back to original video selection
algorithm.
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8.12.2.1. <visual>
Some regions of video conferences may display different streams
automatically, such as when voice activated switching is used.
Connections MAY also be joined directly without the use of video
mixing. In these cases, the <visual> element may be used to define
visual display properties for a stream.
The <visual> element MAY use any of the visual attributes defined for
regions (see the section <region>). This allows the visual aspects
of regions within a <selector> to be tailored to the selected video
stream, or for streams that are directly joined to display a name or
logo.
9. MSML Dialog Packages
9.1. Overview
MSML Dialog Packages define an XML [n2] language for composing
complex media objects from a vocabulary of simple media resource
objects called primitives. It is primarily a descriptive or
declarative language to describe media processing objects. MSML
dialogs operate on a single or multiple streams that are identified
by the MSML document outside the scope of the MSML Dialog Package.
MSML dialogs are intended to be used in different environments. As
such, the language itself does not define how an MSML dialog is used.
Each environment in which an MSML dialog is used must define how it
is used, the set of services provided, and the mechanism for passing
information between the environment and MSML dialog. The specific
mechanisms used to realize the interface between MSML dialog and its
environment are platform specific.
MSML Dialog Packages provide two models for access to media resources
and service creation building blocks. Both models MAY be used in
conjunction with each other in a complementary manner. The first
model (referred to as "Media Primitives and Composites", part of the
mandatory MSML Dialog Base Package) contains media primitives (such
as digit collection and announcements) and composite functions (such
as play and collect combined as a single operation). The second
model (referred to as "Media Groups", part of the optional MSML
Dialog Group Package) allows the ability to define complex customized
interactions, via event passing mechanisms, between media primitives,
if required.
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MSML Dialog Core Package
Defines core framework over which all MSML Dialog Packages
operate.
MSML Dialog Base Package
Media Primitives
<dtmf> or <collect>
DTMF digit collection
<play>
Playing of Announcements
<dtmfgen>
Generation of DTMF digits
<tonegen>
Tone genration
<record>
Media recording
Media Composites
<collect>
Supports play and collect operation.
Composite function with inclusion of play.
<record>
Supports play and record operation.
Composite function with inclusion of play.
MSML Dialog Group Package
<group>
Allows grouping of media primitives for parallel
execution, with an event exchange mechanism
between the media primitives to achieve
customized media operations. All the above media
primitive elements are accepted within the
group.
The following operations MUST be supported using elements described
above using either the MSML Dialog Base Package or MSML Dialog Group
Package.
Announcement only
<play>
Collection only
<dtmf> or <collect>
Recording only
<record>
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Play and Collect
<collect>
<play/>
</collect>
Play and Record
<record>
<play/>
</record>
Additional MSML Dialog Packages are:
o MSML Dialog Transform Package
o MSML Dialog Speech Package
o MSML Fax Detection Package
o MSML Fax Send/Receive Package
MSML dialogs MAY be used to simply expose primitive media resource
objects but will be used more often to describe dialog operations and
media transformation objects that can be controlled via user
interaction.
MSML dialogs do not contain any computation or flow control
constructs. There are no results automatically generated when media
operations complete. Results MUST be explicitly requested using a
<send> or <exit> element within the definition of the MSML dialog.
9.2. Primitives
Primitives perform a single function on a media stream or multiple
streams such as generating audio/video, recognizing speech or DTMF,
or adjusting the gain. They may be composed so that primitives
execute concurrently. Primitives not composed for concurrent
execution MUST simply execute sequentially in the order they occur in
an MSML document. All concurrently executing primitives in the same
MSML object (defined in one MSML document) MAY interact with each
other through events (see MSML Dialog Group Package).
Primitives are categorized into one of the following descriptive
categories.
o Recognizers have a media input but no output. They allow
different things within a media stream to be recognized or
detected and for events to be generated based upon received
media.
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o Transformers have one media input and output and may send and
receive events.
o Sources and sinks generate or consume media. They have either
a media input or a media output but not both. They may receive
and generate events.
o Composites combine underlying primitives to provide higher-
level user interaction, without the need for specific event-
based exchange between the primitives. The composite elements
provide a simpler mechanism for more commonly used services,
such as play and collect or play and record.
Primitives may define different media processing behavior (states)
based upon the events that they receive. Primitives that support
different processing states must define their default starting state
and should support the "initial" attribute to allow that state to be
specified when the primitive is instantiated. All primitives must
support the "terminate" event class.
The following types of primitives are defined within this
specification:
Recognizers Transformers Source/Sink Composites
------------------------------------------------------
dtmf/collect agc play dtmf/collect
faxdetect clamp record record
speech gain dtmfgen
vad gate tonegen
relay faxsend
faxrcv
Primitives have shadow variables, similar to those within VoiceXML
[n5], which are automatically assigned values when the primitives are
used. Upon initialization of an MSML dialog context, all shadow
variables have the string value "undefined". Each primitive has its
own instance of shadow variables that are global in scope to the
entire MSML dialog context.
Names SHOULD be assigned to individual primitives when more than one
primitive of the same type is used within one MSML document. Shadow
variables are overwritten if the primitive has not been named and is
instantiated a second time.
Shadow variables cannot be modified under user control. They may be
returned from the MSML dialog context using the <send> element.
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9.3. Events
Events provide the mechanism for primitives to interact with each
other and for an MSML context to interact with its external
environment. The external environment is defined by the way in which
an MSML context has been invoked. This will often be through MSML,
but other languages and protocols such as SIP may also be used.
Every primitive and group conceptually implements their own event
queue. Events sent to them get placed into their associated queue.
Events are removed from their queues and processed in order.
Primitives within a group conceptually have their own thread of
execution. Due to the asynchronous nature of servicing events from
multiple queues, it cannot be assumed that several events sent in
sequence to different queues will be processed in the order in which
they were sent. For example, if recognition of something led to
sending events to both a <play> and a <record> in that order, it is
possible that the <record> may process its event before the <play>.
Primitives each define the set of events that they support and the
behavior associated with their handling of each event. This allows
many types of behaviors to be defined. For example, VCR type
controls can be constructed by defining primitives that support
events corresponding to each control. Media recognition/detection
can be used to cause those events to be generated.
Alternatively, events can be originated elsewhere, such as from a
control agent, and simply received by the primitive implementing the
control. Examples of the use of events include adjusting volume
(gain) and pause and resume of both announcement playout and record
creation.
Primitives act on events based upon the longest match of an event
name. Event names are a period '.' delimited sequence of tokens.
The first token, or the root of the name, can be considered an event
class. Matching allows a standard meaning to be defined and then
extended based upon what triggers an event's generation. For
example, a record primitive has different behavior depending upon
whether it completed because a user stopped speaking or because it
was cancelled. The recording is retained in the first case but not
the second.
Longest match allows new recognizers to be created and used without
changing how existing primitives are defined. For example, a face
recognition capability could be created that generates a
terminate.frowning event when a user looks puzzled. Although no
primitive directly defines this event, it will still effect a generic
terminate action. Primitives that require specialized behavior based
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upon frowning may be extended to support this. As well, the event
can still be exported from the MSML context without requiring that
primitives receiving the event understand facial expressions.
9.4. MSML Dialog Usage with SIP
MSML dialogs MAY be used directly with SIP for dialog interactions
(e.g., IVR or fax). It can be initially invoked as part of the
"Prompt and Collect" service described in "Basic Network Media
Services with SIP" [n7]. That defines service indicators for a small
number of well-defined services using the user part of the SIP
Request-URI (R-URI).
The prompt and collect service uses "dialog" as the service
indicator. URI parameters further refine the specific IVR request.
This document defines an additional parameter "msml-param" for the
dialog service indicator as follows:
There are no additional URI parameters when MSML is used as the
dialog language.
MSML dialogs define discrete IVR dialog commands. These commands MAY
be included directly in the body of the INVITE to the "dialog"
service indicator by using the "cid" [n8] URL scheme. This scheme
identifies a message body part that in this case would contain the
MSML dialog request. Note that a multipart message body, containing
a single part, MUST be present even if the INVITE does not contain an
SDP offer. Subsequent MSML dialog requests are sent in the body of
SIP INFO messages as are all messages from a media server.
RFC 5707 Media Server Markup Language February 2010
The results of executing an <exit> or <disconnect>, or of executing a
<send> that has a "target" attribute value equal to "source", are
notified in SIP INFO messages using the <event> element from MSML
Core package. No messages are sent if execution completes normally
without executing one of these elements.
If there is an error during validation or execution, then a media
server MUST notify the error as described above and must include the
namelist items "moml.error.status" and "moml.error.description". The
values for these items are defined in section 11.
A restricted subset of MSML dialogs can also be used with the
"Announcement" service defined in [n7]. This service uses "annc" as
the service indicator and defines parameters that describe an
announcement. The "play=" parameter identifies the URL of a prompt
or a provisioned announcement sequence. The value of the "play="
parameter can refer to an MSML dialog body part using a "cid" URL as
described above. That body part must only contain the <play>
primitive.
Using MSML dialogs enhances the announcement service by allowing the
client to specify a sequence of audio segments rather than requiring
each sequence to be provisioned as well as support for video.
Moreover, MSML dialogs define a standard set of variables in contrast
to [n7] which defines a parameterization mechanism but does not
formally specify any semantics.
If a media server does not understand the "cid" scheme or does not
understand MSML dialogs, it must respond with the SIP response code
"488 - not acceptable here". If the MSML dialog body contains
elements other than the <play> primitive, or there are errors during
validation, a media server must respond with a SIP response code "400
- bad request". Finally, if there is a discrepancy between
parameters specified in the Request-URI and corresponding attributes
defined in the MSML dialog body, the Request-URI parameters must be
silently ignored.
MSML dialogs MUST NOT change the operation of the announcement
service from that defined in [n7]. When the announcement completes,
a media server issues a SIP BYE request. The INFO method MUST NOT
used with the announcement service.
9.5. MSML Dialog Structure and Modularity
MSML is structured as a set of packages. Only the core and base
packages are required. The Dialog Core Package defines the framework
for MSML requests to a media server, without specific functionality.
It consists of the "primitive" abstraction, an abstract element for
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control flow, the sequential execution model, and the <send> element.
That is, the MSML Dialog Core Package allows for the execution of a
sequence of one or more media processing primitives with the ability
to notify events to the invocation environment.
Primitives are contained within the MSML Dialog Base Package, which
defines the basic <play>, <record>, <dtmf>, <dtmfgen>, <tonegen>, and
<collect> elements. Another package, the MSML Dialog Transform
Package, defines the simple half-duplex filters. More advanced
primitives are defined in the speech and fax packages. The MSML
speech package depends on the MSML Dialog Base Package as it extends
the capability of <play> by adding synthesized speech. Finally, the
group execution model, which is currently the only element that
changes the flow of control, is defined in a separate MSML Dialog
Group Package. All of these packages are optional with the exception
that MSML Dialog Core and MSML Dialog Base Packages MUST be
implemented to provide the minimal functionality.
9.6. MSML Dialog Core Package
The MSML Dialog Core Package defines the structural framework and
abstractions for MSML dialogs (via its schema). It also defines the
basic elements that are not part of the core primitive or control
abstractions. This package is dependent on the MSML Core Package.
Events generated by MSML dialogs, such as prompt completion, digits
collected, or dialog termination, are communicated by the media
server via the MSML Core Package (see MSML Core Package <event>).
MSML dialogs are executed independently from the MSML core context.
When an MSML dialog is started, MSML allocates the dialog control
resources, and if successful, starts those resources executing. MSML
core execution then continues without waiting for the MSML dialog to
complete. This forking of MSML dialog invocation from the MSML core
context is done via the <dialogstart> element. Media streams are
created between the MSML dialog target and other internal media
server resources as part of dialog execution. Stream creation is
subject to the requirements defined in the MSML Core Package and
media streams as defined by the MSML Conference Core Package.
9.6.1. <dialogstart>
The <dialogstart> element is used to instantiate an MSML media dialog
on connections or conferences. The dialog is specified either inline
or by a URI [n6]. Inline dialogs MUST be composed of any of the MSML
Dialog Packages. MSML dialogs MAY be defined externally as VoiceXML
[n5]. The MSML dialog description MUST NOT be inline if the src
attribute, containing a URI, is present.
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The originator of the MSML dialog is notified using a
"msml.dialog.exit" event when the dialog completes. Any results
returned by the dialog when it exits are sent as a namelist to the
event.
The "msml.dialog.exit" event is also used when dialogs fail due to
errors encountered fetching external documents or errors that occur
within the dialog execution thread. In this case, a namelist
containing the items "dialog.exit.status" and
"dialog.exit.description" is returned with the event to inform the
client of the failure and the failure reason. The values of these
items are defined within this package and the MSML Core Package.
Information from the failed dialog may be returned as additional
namelist items.
Attributes:
target: an identifier of a connection or a conference that will
interact with the dialog. The identifier must not contain
wildcards. Mandatory.
src: the URL of the dialog description. MUST NOT be used if the
MSML dialog description is inline. Otherwise, an error (422) will
result and MSML document execution will stop.
type: a MIME type that identifies the type of language used to
describe the dialog. application/moml+xml and
application/vxml+xml are used to identify MSML dialogs and
VoiceXML [n5] respectively. Mandatory.
name: an instance name for the dialog. If the attribute is not
present, the media server will assign an identifier to the dialog.
If the attribute is present but the name is already associated
with the target, an error (431) will result and MSML document
execution will stop. Any results that a dialog generates will be
correlated to its identifier.
mark: a token that can be used to identify execution progress in
the case of errors. The value of the mark attribute from the last
successfully executed MSML element is returned in an error
response. Therefore, the value of all "mark" attributes within an
MSML document should be unique.
The following sections show examples of initiating an external MSML
dialog, an inline embedded MSML dialog, and an MSML-initiated
VoiceXML dialog.
The following example starts an MSML dialog on a connection.
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If this dialog fails once its execution thread had begun, for
example, the fetch of the VoiceXML document failed, an example of the
event that would be returned would be:
RFC 5707 Media Server Markup Language February 2010
9.6.2. <dialogend>
Dialog end is used to terminate an MSML dialog created through
<dialogstart> before it completes of its own accord. The operation
of <dialogend> depends on the dialog language being used by the
executing context. When that context is VoiceXML, a
"connection.disconnected" event will be thrown to the VoiceXML
application. When that context is MSML dialog, a "terminate" event
will be sent to the MSML core context.
<dialogend> allows the executing dialog the opportunity to gracefully
complete before generating a "msml.dialog.exit" event. Dialog
results may be returned and will be contained as a namelist to that
event.
Attributes:
id: the identifier of a dialog. Mandatory.
mark: a token that can be used to identify execution progress in
the case of errors. The value of the mark attribute from the last
successfully executed MSML dialog element is returned in an error
response. Therefore, the value of all "mark" attributes within an
MSML document should be unique.
For example, if the dialog from the previous example was still
executing, the following would terminate the dialog and generate an
"msml.dialog.exit" event.
The <send> element sends an event and optional namelist to the
recipient identified by the target attribute. Event names are
defined by the recipient. In the case where the recipient is an MSML
dialog group or primitive, the events are defined within this
document. Other recipients MAY use names that are suitable for their
environment.
The "target" attribute specifies the recipient of the event.
Recipients MAY be other MSML dialog primitives or groups executing
within the object, the object itself, or the environment that invoked
the MSML dialog. Sending events to media primitives or groups is
supported by the MSML Dialog Group Package. Any target that is
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unknown within the object is assumed to be destined to the external
environment. By convention, the string "source" SHOULD used to
address that environment, but any target name distinct from the MSML
dialog namespace MAY be used.
Attributes:
event: the name of an event. Mandatory.
target: the recipient of the event. The recipient MUST be a MSML
dialog primitive, the currently executing group, or the MSML
dialog environment. A primitive is specified by a primitive type,
optionally appended by a period '.' followed by the identifier of
a primitive. Identifiers are only needed when more than one
primitive of the same type exists in the object. The executing
group is specified using the token "group". The environment is
specified using the token "source", optionally appended by a
period '.' followed by any environment specific target.
Mandatory.
namelist: a list of zero or more shadow variables that are
included with the event.
9.6.4. <exit>
The <exit> element causes execution of the MSML dialog to terminate.
Attributes:
namelist: a list of one or more shadow variables that MAY
optionally be sent to the context that invoked the MSML Dialog
object.
9.6.5. <disconnect>
The <disconnect> element is similar to <exit> but has the additional
semantics of indicating to the context that invoked the MSML dialog
that it should disconnect from a media server, the media stream
associated with the object. The method of disconnection depends upon
how the media stream was initially established. If SIP was used, a
<disconnect> would cause a media server to issue a BYE request. The
request would be sent for the SIP dialog associated with media
session on which the MSML dialog was operating.
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Attributes:
namelist: a list of one or more shadow variables that MAY
optionally be sent to the context that invoked the MSML dialog
object.
9.7. MSML Dialog Base Package
The MSML Dialog Base Package defines a required set of base
functionality for the media server. It supports individual media
primitives, such as playing an announcement or collection digits, as
well as composite operations such as play and collect. When this
package is used in conjunction with the MSML Dialog Group Package,
the event-based mechanism is used to control primitives. This
package may also be used in conjunction with the MSML Speech Package
to extend the functionality of prompts to include TTS and user input
collection to include ASR.
In the following sections, subsections of a primitive define child
elements of that primitive and are not themselves considered
primitives. They do not receive events or populate shadow variables.
9.7.1. <play>
Play is used to generate an audio or video stream. It MUST play in
sequence the media created by the child media elements <audio>,
<video>, <media>, <tts>, and <var>. When the play stops, either
because the terminate event is received or all media generation has
completed, the <playexit> element, if present, is executed. At least
one media generation element must be present.
Play supports two states: generate and suspend. Media generation
occurs in the generate state and is suspended in the suspend state.
Once in the suspend state, media generation continues upon receiving
the generate event. The default initial state is generate.
Audio MAY be generated in different languages by specifying the
xml:lang attribute for <play> and/or the child elements of <play>.
The language is inherited by the child elements, but each child MAY
specify its own language. Except for physical audio clips, it is an
error if a language is specified but the media server cannot render
the audio in the requested language.
Attributes:
id: an optional identifier that may be referenced elsewhere for
sending events to the play primitive.
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interval: specifies the delay between stopping one iteration and
beginning another. The attribute has no effect if iterate is not
also specified. Default is no interval.
iterate: specifies the number of times the media specified by the
child media elements should be played. Each iteration is a
complete play of each of the child media elements in document
order. Defaults to once '1'.
initial: defines the initial state for the play element. Default
is "generate".
maxtime: defines the maximum allowed time for the <play> to
complete.
barge: defines whether or not audio announcements may be
interrupted by DTMF detection during play-out. The DTMF digit
barging the announcement is stored in the digit buffer. Valid
values for barge are "true" or "false", and the attribute is
mandatory. When barge is applied to a conference target, DTMF
digit detected from any conference participant MUST terminate the
announcement.
cleardb: defines whether or not the digit buffer is cleared, prior
to starting the announcement. Valid values for cleardb are "true"
or "false", and the attribute is mandatory.
offset: defines an offset, measured in units of time, where the
<play> is to begin media generation. Offset is only valid when
all child media elements are <audio>.
skip: an amount, expressed in time, that will be used to skip
through the media when "forward" and "backward" events are
received. Default is 3 s (three seconds).
xml:lang: specifies the language to use for content that can be
rendered in different languages.
Events:
The following describes input events to the media primitive
object. The MSML Dialog Group Package allows an event exchange
mechanism between primitives.
pause: causes the play to enter the suspend state.
resume: causes play to enter the generate state.
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forward: skips forward through the media. Only has effect when
all child media elements are <audio>.
backward: skips backward through the media. Only has effect when
all child media elements are <audio>.
restart: skips to the beginning of the media. Only has effect
when all child media elements are <audio>.
toggle-state: causes the suspend / generate state to toggle.
terminate: terminates the play and assigns values to the shadow
variables.
Shadow Variables:
play.amt: identifies the length of time for which media was
generated before the play was stopped. This does not include time
that may have elapsed while the play was in the suspend state.
play.end: contains the event that caused the play to stop. When
the play stops because all media generation has completed, end is
assigned the value "play.complete".
Note: Attributes barge and cleardb provide a simplified mechanism for
controlling play operations with implicit DTMF without the use of
<group> and event exchange mechanism. When using the <play> element
within the group framework and barge is specified, detection of barge
condition generates an implicit terminate event to the play
primitive.
The following sections describe the child elements of <play>.
9.7.1.1. <audio>
The <audio> element identifies prerecorded audio to play. Local URI
references may resolve to a single physical audio clip, a logical
clip, or a provisioned sequence of clips (physical or logical). A
logical clip is one that can be rendered differently based on the
language attribute. Logical clips are provisioned for each of the
languages that a media server supports. Remote URI references are
resolved according to the capabilities of the remote server.
Attributes:
uri: identifies the location of the audio to be played. The file
and http schemes are supported. Mandatory.
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format: defines the encoding and file type of the audio resource.
The format attribute is defined as a string type of form
"audio/<filetype>;codecs=<codec>". The keyword 'audio' identifies
an audio content. The codecs field identifies the audio file's
codec to be used for decoding the audio content. If format
attribute is not specified, the filetype MUST be determined from
the URI and the codec information MUST be determined from the
media resource.
audiosamplerate: identifies audio sample rate in kHz. If not
specified, the sample rate SHOULD be determined from the media
resource.
audiosamplesize: identifies audio sample size in bits. If not
specified, the sample size SHOULD be determined from the media
resource.
iterate: specifies the number of times the audio is to be played.
Defaults to once '1'.
xml:lang: specifies the language to use when the URI identifies a
logical clip, either directly, or as part of a sequence.
9.7.1.2. <video>
The <video> element identifies prerecorded multimedia to play.
Contents identified by the URI attribute may contain audio only,
video only, or both audio and video. The media server SHOULD attempt
to play both audio and video from the identified URI, if both are
available in the content.
Attributes:
uri: identifies the location of the video or multimedia to be
played. The file and http schemes are supported. Mandatory.
format: defines the encoding and file type of the video or
multimedia resource. The format attribute is defined as a string
type of form "video/<filetype>;codecs=<codecx>,<codecy>". The
keyword 'video' identifies video-only media or media containing
audio and video. The "codecs" field identifies the audio and/or
video codecs to be used for decoding the file content, where the
order of the codec values is not significant. In the event of
audio and video content, using 'video' keyword, the
codecs=<codecx>,<codecy> field MAY be used to identify the audio
codec and the video codec. If not specified, the codec
information SHOULD be determined from the media file.
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audiosamplerate: identifies audio sample rate in kHz. If not
specified, the sample rate SHOULD be determined from the media
file.
audiosamplesize: identifies audio sample size in bits. If not
specified, the sample size SHOULD be determined from the media
file.
codecconfig: identifies an optional special instruction string for
codec configuration. Default is to send no special configuration
string to the codec.
profile: identifies a video profile name specific to the codec.
If not specified, default video profile of the codec SHOULD be
selected.
level: identifies a video profile level to the codec. Default is
to send no profile information to the codec and allow the codec to
select an internal default.
imagewidth: identifies the width of video image in pixels.
Default is to use image width information from media file.
imageheight: identifies the height of video image in pixels.
Default is to use image height information from media file.
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maxbitrate: identifies the bitrate of the video signal in kbps.
Default is to use maximum bitrate information from the media file.
framerate: identifies the video frame rate in frames per second.
Default is to use frame rate information from the media file.
iterate: specifies the number of times the media content is to be
played. Defaults to once '1'.
9.7.1.3. <media>
The <media> element identifies multimedia content for play. All
content of the <media> element MUST start to play concurrently. This
element may be used to generate a multimedia stream from two
independent media resources, one identifying audio and the other
identifying video.
The <media> element MUST contain at least one child element. Valid
child elements of <media> are <audio> and <video>, as described
earlier. <media> element MUST contain at most one <audio> element or
at most one <video> element.
9.7.1.4. <var>
The <var> element specifies the generation of audio from a variable
using prerecorded audio segments. A variable represents a semantic
concept (such as date or number) and dynamically produces the
appropriate speech.
Prerecorded audio allows an application vendor or service provider to
choose the exact voice for their audio and therefore completely
control the "sound and feel" of the service provided to end users.
It provides very high audio quality and allows the variables to blend
seamlessly into the surrounding audio segments.
Text to speech (TTS) using Speech Synthesis Markup Language (SSML)
[n11] may also be used to render variables, but may not provide as
good quality, or allow as complete control of the "sound and feel" or
user experience. TTS is normally used for reading text such as
emails and for very large vocabularies such as stock names. TTS
results in a very clear difference between the variables and the
surrounding audio segments. (See MSML Dialog Speech Package.)
Attributes:
type: specifies the type of variable. Mandatory. Variable type
must be one of "date", "digits", "duration", "month", "money",
"number", "silence", "time", or "weekday".
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subtype: specifies an optional clarification of type. Specific
values depend upon the type.
value: text that should be rendered appropriate to the type and
subtype attributes. Mandatory.
xml:lang: specifies the language to use when rendering the
variable.
9.7.1.5. <playexit>
The <playexit> element MUST be invoked when generation of all content
of the <play> has come to completion. The contents of this element
MAY be used to send events.
Attributes:
none
9.7.2. <dtmfgen>
DTMF generator originates one or more DTMF digits in sequence.
Attributes:
id: an optional identifier that may be referenced elsewhere for
sending events to the dtmfgen primitive.
digits: a string of characters from the alphabet "0-9a-d#*" that
correspond to a sequence of DTMF tones. Mandatory.
level: used to define the power level for which the tones will be
generated. Expressed in dBm0 in a range of 0 to -96 dBm0. Larger
negative values express lower power levels. Note that values
lower than -55 dBm0 will be rejected by most receivers (TR-
TSY-000181, ITU-T Q.24A). Default is -6 dBm0.
dur: the duration in milliseconds for which each tone should be
generated. Implementations may round the value if they only
support discrete durations. Default is 100 ms.
interval: the duration in milliseconds of a silence interval
following each generated tone. Implementations may round the
value if they only support discrete durations. Default is 100 ms.
Events:
terminate: terminates DTMF generation and assigns values to the
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shadow variables.
Shadow Variables:
dtmfgen.end: contains the event that caused DTMF generation to
stop.
The following sections describe the child elements of <dtmfgen>.
9.7.2.1. <dtmfgenexit>
The <dtmfgenexit> element MUST be invoked when the DTMF generation
operation completes or is terminated as a result of receiving the
terminate event. The <dtmfgenexit> element MAY be used to send
events when the DTMF generation has completed.
Attributes:
none
9.7.3. <tonegen>
Tone generator allows customized tone generation. A sequence of
varying tones with optional silence intervals can be composed using
the <tonegen> element. Child elements of <tonegen>, namely <tone>
and <silence>, specify a single tone or sequence of tones.
Attributes:
id: an optional identifier that may be referenced elsewhere for
sending events to the tonegen primitive.
iterate: A numeric value specifying the total number of
iterations. A value of 'forever' represents infinite repetitions.
Optional. Default is 1.
Events:
terminate: terminates tone generation and assigns values to the
shadow variables.
Shadow Variables:
tonegen.end: contains the event that caused tone generation to
stop.
The following sections describe the child elements of <tonegen>.
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9.7.3.1. <tone>
The <tone> element specifies a single tone with an optional silence
interval. The tone specification consists of two tone frequencies,
their attenuation values, a duration of the tone, and the number of
times to repeat the tone.
Attributes:
duration: time duration or length of the individual tone,
specified in "ms" or "s" in increments of 10 ms. A value of 0
represents an infinite duration. Mandatory.
iterate: specifies the number of times to execute the contents of
<tone> element. A value of 'forever' represents infinite
repetitions. Optional. Default is 1.
Events:
none
Child Elements:
The child elements of <tone> element specify a single tone and an
optional silence interval to be inserted at the end of tone
generation. A tone is defined by <tone1> and <tone2> elements.
Each <tone> element MUST contain at least one of <tone1> or
<tone2>, or MAY contain <tone1> and <tone2> exactly once.
<tone1>
Attributes:
freq: specifies the frequency of the first tone in "Hz",
ranging from 0 to 3999 Hz. Mandatory.
atten: specifies the attenuation level expressed in dBm0,
ranging from 0 to -96 dBm0. Mandatory.
<tone2>
Attributes:
freq: specifies the frequency of the second tone in "Hz",
ranging from 0 to 3999 Hz. Mandatory.
atten: specifies the attenuation level expressed in dBm0,
ranging from 0 to -96 dBm0. Mandatory.
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<silence> - Refer to the silence element definition below.
9.7.3.2. <silence>
The <silence> element inserts a silence interval as optional content
of <tonegen> or <tone> elements.
Attributes:
duration: specifies the amount of silence interval in "ms" or "s",
in increments of 10ms. Mandatory.
Events:
none
9.7.3.3. <tonegenexit>
The <tonegenexit> element MUST be invoked when the tone generation
operation completes or is terminated as a result of receiving the
terminate event. The <tonegenexit> element MAY be used to send
events when the tone generation has completed.
Attributes:
none
9.7.4. <record>
Record creates a recording. Similar to play, <record> supports two
states: create and suspend. Received media becomes part of the
recording when <record> is in the create state and is discarded when
it is in the suspend state.
Recording MUST be terminated when a terminate event is received or
when a nospeech event is received and no audio has yet been recorded.
<record> differentiates different types of terminate events.
An optional <play> element MAY be specified as a child element of
<record>. This mechanism provides a complete play-record operation,
where the prompts specified within the <play> element are played in
advance of start of recording.
Note: Attributes prespeech, postspeech, and termkey provide a
simplified mechanism for controlling record operations using implicit
DTMF and VAD, without the use of <group> and event exchange
mechanism.
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Attributes:
id: an optional identifier that may be referenced elsewhere for
sending events to the record primitive.
append: a boolean that defines whether the recording is allowed to
be appended to an existing file if dest already exists. Default
is "false". The attribute is ignored if the scheme is http.
dest: the destination for the recording, which will contain either
audio only, video only, or both audio and video depending on the
stream(s) being recorded. Recording MAY be either local or
external based upon the attribute value. File and http schemes
are supported.
audiodest: the destination for the audio-only recording.
Recording MAY be either local or external based upon the attribute
value. All combinations of dest, audiodest, and videodest are
valid. File and http schemes are supported.
videodest: the destination for the video-only recording.
Recording MAY be either local or external based upon the attribute
value. All combinations of dest, audiodest, and videodest are
valid. File and http schemes are supported.
format: defines the encoding and file type of the recording. The
format attribute is defined as a string type of form
"audio|video/filetype;codecs=x,y". The keyword 'audio' identifies
an audio only recording, while the keyword 'video' identifies
video-only recording or an audio plus video recording. The codecs
field identifies the audio and/or video codecs to be used for the
recording, where the order of the codec values is not significant.
In the event of audio and video recording, using 'video' keyword,
the codecs=x,y field MAY be used to identify the audio codec and
the video codec. Mandatory.
codecconfig: identifies an optional special instruction string for
codec configuration. Default is to send no special configuration
string to the codec.
audiosamplerate: identifies audio sample rate in kHz. If not
specified, the sample rate SHOULD be determined from the media
source.
audiosamplesize: identifies audio sample size in bits. If not
specified, the sample size SHOULD be determined from the media
source.
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profile: identifies a video profile name specific to the codec.
If not specified, default video profile of the codec SHOULD be
selected for the recording.
level: identifies a video profile level to the codec. Default is
to send no profile information to the codec and allow the codec to
select an internal default.
imagewidth: identifies the width of video image in pixels.
Default is to use image width information from the media source.
imageheight: identifies the height of video image in pixels.
Default is to use image height information from the media source.
maxbitrate: identifies the bitrate of the video signal in kbps.
Default is to use maximum bitrate information from the media
source.
framerate: identifies the video frame rate in frames per second.
Default is to use frame rate information from the media source.
initial: defines the initial state for the record element.
Default is "create", which starts the recording as soon as the
<record> element is executed. The "initial" attribute is
applicable only when <record> is used within the <group>
structure.
maxtime: defines the maximum length of the recording in units of
time. Mandatory.
prespeech: defines a timer value, in seconds, for detection of
absence of audio energy at the start of the record operation. If
no audio energy is detection for the amount of time specified by
prespeech, the recording is terminated. Default is 0 s, which
does not activate the prespeech timer.
postspeech: defines a timer value, in seconds, for detection of
absence of audio energy while the recoding is in progress. During
an in progress recording, if absence of audio energy is detected
as specified by the postspeech timer, the recording is terminated.
Default is 0 s, which disables the ability to terminate a
recording due to postspeech silence.
termkey: defines a single DTMF key that, when detected, terminates
the recording. Absence of this attribute prevents the recording
from being terminated due to detection of DTMF digits. When
termkey is specified, the detected DTMF digit terminates the
recording and the DTMF digit is not entered in the digit buffer.
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Events:
The following describes input events to the media primitive
object. The MSML Dialog Group Package allows an event exchange
mechanism between primitives.
pause: causes the record to enter the suspend state. Received
media is discarded.
resume: causes the record to resume if it was suspended. It has
no effect otherwise.
toggle-state: causes the suspend / create state to toggle.
terminate: terminates the recording and assigns values to the
shadow variables.
terminate.cancelled: terminates the recording and assigns values
to the shadow variables. If the dest attribute used the file
scheme, the local recording is deleted. Applications are
responsible for removing external files created using the http
scheme.
terminate.finalsilence: terminates the recording and assigns
values to the shadow variables. If the dest attribute used the
file scheme, the final silence is removed from the recording.
nospeech: terminates the recording and assigns values to the
shadow variables if it is received and no recording has yet been
created. The "nospeech" event is ignored if audio has already
been recorded.
Shadow Variables:
record.len: the actual length of the recording measured in units
of time. This does not include time that may have elapsed while
the record was in the suspend state.
record.end: contains the event that caused the record to
terminate. When the record terminates because maxtime is
exceeded, end is assigned the value "record.complete.maxlength".
record.recordid: contains the value of the "dest" attribute, if
supplied, otherwise contains a media server assigned record
identifier.
Record termination due to prespeech silence results in assigned
value of "record.failed.prespeech"
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Record termination due to postspeech silence results in assigned
value of "record.complete.postspeech"
Record termination due to DTMF detection results in assigned value
of "record.complete.termkey"
The following sections describe the child elements of <record>.
9.7.4.1. <play>
The optional <play> element as a child element of <record> allows a
prompt to be played prior to start of recording. The record
operation starts at the end of the play sequence or if the play is
barged by DTMF, assuming that barge=true is specified for <play>.
For a complete description, refer to <play> element.
9.7.4.2. <tonegen>
The optional <tonegen> element as a child element of <record> allows
a tone or sequence of tones to be played prior to start of recording.
The record operation starts at the end of the tone generation. For a
complete description, refer to <tonegen> element.
9.7.4.3. <recordexit>
The <recordexit> element MUST be invoked when the record operation
completes or when the recording is terminated as a result of
receiving the terminate event. The <recordexit> element MAY be used
to send events when the recording has completed.
Attributes:
none
9.7.5. <dtmf> or <collect>
DTMF input fulfills several roles within MSML dialogs. It is used to
trigger events that will affect the media processing operation of
other primitives. It is also used to collect DTMF digits from a
media stream that are to be reported back to the user of MSML dialog.
Often DTMF detection is used for both purposes. Barge is the most
common example, where a prompt is stopped based upon DTMF input but
more digits may remain to be collected.
DTMF detection supports multiple simultaneous recognition patterns.
Different patterns can be used to trigger sending different events in
order to implement DTMF controls. Alternatively, one pattern may be
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used to represent a collection and another pattern, a substring of
the first, used as a barge indication.
An optional <play> element MAY be specified as a child element of
<dtmf> or <collect>. This mechanism provides a complete play-collect
operation, where the prompt(s) specified within the <play> element
are played in advance of DTMF digit collection.
Note that all patterns share the same digit collection buffer, inter-
digit timing, a single <nomatch> element, and a single <noinput>
element. As such, multiple patterns may not be suitable to support
simultaneous collections for different purposes. When this is
required, separate <dtmf> elements should be used instead.
<dtmf> terminates if any of the <pattern>, <noinput>, or <nomatch>
elements are matched the maximum number of times that they are
allowed. The number of times they may match may be specified as an
attribute of <dtmf> or of the individual child elements.
Element identifier <dtmf> is equivalent to <collect>. However,
<collect> is the preferred name. MSML clients SHOULD use <collect>,
while MSML servers SHOULD support both.
Attributes:
id: an optional identifier that may be referenced elsewhere for
sending events to this primitive.
cleardb: a boolean indication of whether the buffer for digit
collection should be cleared of any collected digits when the
element is instantiated. If set to false, any digits currently in
the buffer MUST be immediately compared against the pattern
elements.
fdt: defines the first-digit timer value. The first-digit timer
is started when DTMF detection is initially invoked. If no DTMF
digits are detected during this initial interval, the <noinput>
element MUST be invoked. Optional, default is 0 s (wait forever
for the first digit).
idt: defines the inter-digit timer to be used when digits are
being collected. When specified, the timer is started when the
first digit is detected and restarted on each subsequent digit.
Timer expiration is applied to all patterns. After that, if any
patterns remain active and a nomatch element is specified, the
nomatch is executed and DTMF input MUST terminate. The idt
attribute should only be used when digit collection is being
performed. Optional, default is 4 s.
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edt: defines the extra-digit timer value. Specifies the length of
time the media server MUST wait after a match to detect a
termination key, if one is specified by the <pattern> element.
Optional, default is 4 s.
starttimer: boolean value that defines whether the first digit
timer (fdt) is started initially. When set to false, the
starttimer event must be received for it to start. Default is
"false".
iterate: specifies the number of times the <pattern>, <noinput>,
and <nomatch> elements may be executed unless those elements
specify differently. The value "forever" MAY be used to indicate
that these may be executed any number of times. Default is once
'1'.
ldd: defines the minimum duration for a digit to be held in order
for it to be detected as a long DTMF digit. A long DTMF digit
event MUST be treated as a single DTMF event, and MUST contain an
extra character 'L' at the end to be distinguished from the other
regular digit events. For example, "#L" and "#" are different
DTMF events. Optional, default of 0 s. A value of 0 s disables
long DTMF digit detection and reporting. Attribute value is an
integer with a valid range from 100 ms to 100 s (units MUST be
supplied).
Events:
The following describes input events to the media primitive
object. The MSML Dialog Group Package allows an event exchange
mechanism between primitives.
starttimer: starts the first digit timer (fdt) if it has not
already been started. Has no effect otherwise.
terminate: terminates the DTMF input and assigns values to the
shadow variables.
Shadow Variables:
dtmf.digits: the string of DTMF digits that have been received
(the contents of the digit buffer).
dtmf.len: the number of digits in the digit buffer.
dtmf.last: the last digit in the digit buffer.
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dtmf.end: contains the event that caused the <dtmf> to terminate
or is assigned one of "dtmf.match", "dtmf.noinput", or
"dtmf.nomatch" depending upon which of the corresponding elements
reached its maximum.
The following sections describe the child elements of <dtmf> or
<collect>.
9.7.5.1. <play>
The optional <play> element as a child element of <dtmf> or <collect>
allows a prompt to be played prior to DTMF digit collection. DTMF
digit collection starts at the end of the play sequence or if the
play is barged by DTMF, assuming that barge=true is specified for
<play>. For a complete description, refer to <play> element.
9.7.5.2. <pattern>
The <pattern> element describes one or more DTMF digits that are to
be recognized. When the pattern is matched, the child elements MUST
be executed.
Attributes:
digits: the digit pattern that should be matched. Mandatory.
format: an enumerated value that defines the format used to
express the digit pattern. The format may be "mgcp" or "megaco"
for patterns expressed as a digit map from those specifications,
or as one of the simple built-in formats defined within this
specification. Currently, a single built-in format "moml+digits"
is defined that allows a match based on either one or more
specific digits, or based upon a specific length specification
with an optional return key. "moml+digits" is the default.
iterate: specifies the number of times the <pattern> may be
matched. The value "forever" may be used to indicate that
<pattern> may be matched any number of times. This value
overrides any specified in <dtmf>. Default is once '1'.
9.7.5.3. <detect>
The contents of the <detect> element MUST be executed whenever any
DTMF is first detected. It MUST be matched at most once.
Attributes:
none
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9.7.5.4. <noinput>
The <noinput> element is used when DTMF is being collected. Children
of the <noinput> element MUST be executed when DTMF has not been
detected and the first digit timeout occurs.
Attributes:
iterate: specifies the number of times the <noinput> may be
triggered. The value "forever" may be used to indicate that
<noinput> may be triggered any number of times. This value
overrides any specified in <dtmf>. Default is once '1'.
9.7.5.5. <nomatch>
The <nomatch> element is used when DTMF is being collected. Children
of the <nomatch> element MUST be executed when it is determined that
none of the individual patterns can be matched.
Attributes:
iterate: specifies the number of times the <nomatch> may be
triggered. The value "forever" may be used to indicate that
<nomatch> may be triggered any number of times. This value
overrides any specified in <dtmf>. Default is once '1'.
9.7.5.6. <dtmfexit>
The <dtmfexit> element MUST be invoked when the dtmf input completes
because one of <pattern>, <noinput>, or <nomatch> occurred its
maximum number of times.
Attributes:
None
9.7.6. <moml>
The root element <moml> MUST be used when the document is a stand-
alone MSML dialog, where the invoking application media type
indicates 'application/moml+xml'. Additionally, for backwards
compatibility, the <moml> element MUST be used within <dialogstart>,
which contains an inline embedded MSML dialog.
Valid contents of <moml> are all elements described within this MSML
Dialog Base Package.
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Attributes:
version: "1.0" Mandatory.
id: an identifier unique to this object. Events returned from
MSML dialog (the "target" attribute of a <send> is equal to
"source") will be correlated with this identifier. Mandatory.
Events:
terminate: terminates the MOML context. A terminate event gets
sent to the currently executing <group> or primitive.
9.8. MSML Dialog Group Package
The group package defines a single control flow construct that
specifies concurrent execution. Primitives are composed for
concurrent execution by placing them within a <group> element.
Groups define how media flows between multiple concurrently executing
primitives. They have one or more inputs and one or more outputs. A
<group> represents the declaration of a complex media processing
operation. The event interaction between primitives (see the
following subsection) is defined within the context of one or more
groups. However groups themselves do not scope events, they simply
define that primitives are concurrently executing and a primitive
must be executing in order to receive an event.
Placing primitives within a group structure is an optional feature of
this specification. It allows for complex services to created using
the event exchange mechanism between the primitives. For simpler
services, such as play/collect or play/record, the use of group
mechanism is not necessary. MSML Dialog Group Package is dependent
on the MSML Dialog Base Package.
Groups may also be used to describe media objects that transform a
media stream while optionally allowing application or user control of
the transformation. For example, a gain control could be defined
that responds to user speech or DTMF input. In this case, a
recognition primitive would send events to a gain control primitive.
Groups have one attribute that defines the media flow within them.
They also have a dimension that defines how many media inputs and
outputs they have. Currently, dimensions of 1 and 2 are supported
based upon the group topology. These correspond to a group with one
input and one output and a group with two inputs and two outputs.
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Media flow to and from the primitives within the group is based upon
a topology attribute of the <group> element. The topology attribute
defines a topology schema and implies the group dimension.
There are several common ways in which primitives are often connected
together. A schema provides a convenient template that can be
applied to multiple primitives without having to define all of the
individual media relationships. The following two schemas are
initially defined for one-dimensional groups:
o parallel: specifies that media sent to the group is sent to every
primitive that has an input. The group bridges the output from
every primitive that has an output into a single common group
output.
o serial: specifies that the first primitive listed in the group
receives the media sent to the group. Its output is to be
connected to the input of the next primitive defined within the
group and so on until the last primitive within the group becomes
the group output.
Groups with these topologies are shown in the two diagrams below.
The group on the left has a parallel topology and that on the right
has a serial topology.
More complex media flows MAY be created by nesting groups of serial
and parallel topologies within each other. For example, the diagram
below has a group with a serial topology nested within a star
topology.
This combination could be used to create record operation where DTMF
was to be clamped from the recording itself, but a DTMF key press is
still used to stop the recording. In this case, P1 would be a DTMF
recognizer, P2 would be a clamp primitive, and P3 a recorder as shown
by the following example. This example omits child elements and
attributes not concerned with the core concept. The following
section discusses sending events, and the details of each of the
primitives are found in section 4.
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A single schema, "fullduplex", is defined for a two-dimensional
group. A full-duplex two-dimensional group has exactly two immediate
children. Those children may be primitives or other one-dimensional
groups. A "fullduplex" group must only be used as the top-most group
and must not be nested. Each primitive (P1) and group (G2) becomes
half of the full-duplex group as shown in the diagram below.
G-A(in1) +-> G2 --> G-B(out1)
G-A(out2) <-- P1 <-+ G-B(in2)
Full-duplex groups are symmetrical when both halves are the same.
They are asymmetrical when they differ. Asymmetric groups need to
have a name associated with each side. The left side is defined as
the input of the first child of the full-duplex group combined with
the output of the second child. The right side is reverse. These
sides were labeled A and B respectively in the preceding diagram.
An example of a full-duplex group is the user operated gain control
mentioned at the beginning of this subsection. The gain should
operate on the audio that a user hears, but the gain is controlled by
recognizing things such as DTMF or spoken commands in media that the
user originates. The following shows the XML tag grouping that would
accomplish this and corresponds to the media flow shown in the
diagram above. If the user's audio is not required for anything
other than control of the gain, then the <relay> is not required and
the internal group could be omitted. A complete XML description for
this is included in the examples section.
Primitives within a group MUST begin concurrently but MAY finish
asynchronously based upon events that they receive or their task
completes. A group MUST terminate when all of the primitives within
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it have completed. If the group contains a <groupexit> element, then
the contents of that element MUST be executed as part of group
termination.
A group itself MAY receive a terminate event requesting termination.
A terminate event sent to the group causes a terminate event to be
sent to each of its currently active primitives. The <groupexit>
element is not executed until all primitives have processed their
respective terminate events.
9.8.1. <group>
The <group> element allows the contained primitives to be executed
concurrently.
Attributes:
topology: specifies a schema that defines the flow of media within
the group. Three schemas are initially defined. "fullduplex" is
specified for use with two-dimensional groups. "parallel" and
"serial" are for use with one-dimensional groups. The definitions
of these topologies are in section 9.8. Mandatory.
id: identifies the name of the group. Mandatory when groups are
nested.
Events:
terminate: causes a terminate event to be sent to each element
contained within the group.
9.8.2. <groupexit>
The <groupexit> element allows events to be sent when group
processing completes. Group processing completes when all contained
primitives terminate.
Attributes:
none
Events:
none
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9.9. MSML Dialog Transform Package
The MSML Dialog Transform Package gathers together the simple
primitives that work as filters on half-duplex media streams.
9.9.1. <vad>
Voice activity detection (VAD) is used to detect voice and silence
when speech recognition is not required. Similar to both speech and
DTMF, a VAD has different media conditions that it can match. Those
conditions can be qualified by a minimum length of time that is
required for them to be considered recognized.
Attributes:
id: an optional identifier that may be referenced elsewhere for
sending events to the vad primitive.
starttimer: boolean value that defines whether the timer is
started to allow recognition of the initial condition (voice,
silence). When set to false, the starttimer event must be
received in order for the initial condition to be recognized. The
timer does not affect recognition of the transition conditions.
Default is "false".
Events:
starttimer: starts the timer to allow recognition of the initial
condition if it has not already been started. Has no effect
otherwise.
terminate: terminates voice activity detection.
Shadow Variables:
none
The following sections describe the child elements of <vad>.
9.9.1.1. <voice>, <silence>, <tvoice>, <tsilence>
Each child element corresponds to a condition that a VAD can detect.
The first two detect when voice or silence has been initially present
for a minimum length of time since the VAD was started. The second
two require that a transition to the voice or silence condition first
occur.
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Attributes:
len: the length of time the condition must persist in order to be
recognized. Mandatory. In the case of <tvoice> and <tsilence>,
the length of time applies only to the final recognized condition.
sen: the maximum length of time the condition not being detected
may occur without causing the detector to begin measuring that
condition.
9.9.2. <gain>
Gain MAY be used to adjust of the gain of a media stream by a
specific amount. Application of <gain> removes any previous
connection AGC setting used by the <agc> element.
Attributes:
id: an optional identifier that may be referenced elsewhere for
sending events to the gain primitive.
incr: an increment, expressed in dB, that will be used to adjust
the gain when "louder" and "softer" events are received. Default
is 3 dB.
amt: a specific gain to apply specified in dB. Mandatory.
Events:
mute: self-explanatory.
unmute: self-explanatory.
reset: sets the gain to zero dB.
louder: makes the audio on a stream louder.
softer: makes the audio on a stream quieter.
amt: sets the gain to the specified value between -96 dB and 96
dB.
9.9.3. <agc>
Automatic gain control MAY be used to have a media server
automatically adjust the gain of a media stream. Application of
<agc> removes any previous connection gain setting used by the <gain>
element.
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Attributes:
id: an optional identifier that may be referenced elsewhere for
sending events to the gain primitive.
tgtlvl: the desired target level for AGC, specified in dBm0 with a
valid range of -40 to 0. Mandatory.
maxgain: an optional attribute used to specify the maximum gain
that AGC will apply, specified in dBm0 with a valid range of 0 to
40, with a default of 10.
Events:
mute: self-explanatory.
unmute: self-explanatory.
9.9.4. <gate>
The <gate> element is a simple filter that will pass or halt media,
regardless of the format of the media stream, based on the events it
receives. <gate> shares the same mute and unmute events for
compatibility with the gain primitives <gain> and <agc>.
Attributes:
id: an optional identifier that may be referenced elsewhere for
sending events to the gate primitive.
initial: the values "pass" and "halt" define whether media is
initially allowed to pass. Default is to pass.
Events:
mute: halts media flow through the primitive.
unmute: allows media to pass through the primitive.
9.9.5. <clamp>
This element MAY be used to filter DTMF tones from a media stream.
Media other than DTMF tones is passed unchanged.
Attributes:
id: an optional identifier that may be referenced elsewhere for
sending events to the clamp primitive.
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Events:
none.
9.9.6. <relay>
This element is a simple primitive that copies its input to its
output.
Attributes:
id: an optional identifier that may be referenced elsewhere for
sending events to the relay primitive.
Events:
none.
9.10. MSML Dialog Speech Package
The MSML speech package defines functionality that MAY be used for
automatic speech recognition <speech> and extends the <play>
primitive defined in the MSML Dialog Base Package to include speech
synthesis. As such, this package depends on the MSML Dialog Base
Package.
9.10.1. <speech>
The <speech> element activates grammars or user input rules
associated with speech recognition. If multiple grammars are
specified, all are activated. All active grammars share the same
timers, recognition attributes, and <noinput> and <nomatch> elements.
Each grammar may have its own <match> element.
<speech> terminates if any of the <grammar>, <noinput>, or <nomatch>
elements are matched the maximum number of times that they are
allowed. The number of times they may match may be specified as an
attribute of <speech> or of the individual child elements.
Attributes:
id: an optional identifier that may be referenced elsewhere for
sending events to the speech primitive.
noint: specifies a time period during which speech input must be
started; otherwise, the associated <noinput> element is invoked.
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norect: specifies a maximum time period during which speech must
begin to be matched; otherwise, the associated <nomatch> element
is invoked.
spcmplt: specifies the length of silence necessary after speech
before a result will be finalized in the case where there is a
complete match of an active grammar. Following the silence, the
appropriate <match> element will be triggered if the result is
above the confidence level. Otherwise, a <nomatch> element will
be triggered.
spincmplt: specifies the length of silence necessary after speech
before a result will be finalized in the case where there is a
incomplete match of all active grammars. Following the silence,
the <nomatch> element will be triggered.
confidence: the minimum confidence level that the recognizer must
have to consider a recognition result as matching a grammar.
Expressed as an integer between 1-100.
sens: specifies the sensitivity of the recognizer to determine
whether speech is present. Lower sensitivity may be required for
the recognizer to work well in the presence of high background
noise or line echo.
starttimer: boolean value that defines whether the no input
(noint) and no recognition (norect) are started initially. When
set to false, the starttimer event must be received in order to
start them. Default is "false".
iterate: specifies the number of times the <grammar>, <noinput>,
and <nomatch> elements may be executed unless those elements
specify differently. The value "forever" may be used to indicate
that these may be executed any number of times. Default is once
'1'.
Events:
sens: sets the sensitivity of the recognizer as described above.
starttimer: starts the no input (noint) and no recognition
(norect) timers if they have not already been started. Has no
effect otherwise.
terminate: terminates the speech input and assigns values to the
shadow variables.
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Shadow Variables:
speech.end: contains the event that caused the <speech> to
terminate or is assigned one of "speech.match", "speech.noinput",
or "speech.nomatch" depending upon which of the corresponding
elements reached its maximum.
speech.results: contains the results of a matched grammar. The
results are formatted using the Natural Language Semantics Markup
Language (NLSML) [n4]. When this variable is referenced to return
results, the results are returned as a separate MIME entity.
The following sections describe the child elements of <speech>.
9.10.1.1. <grammar>
The <grammar> element specifies and activates a speech grammar based
on Speech Recognition Grammar Specification (SRGS) [n3] XML notation.
Grammars may be referenced by a URI or defined inline. Child
elements of <match> MUST be executed when the specified speech
grammar is matched.
Attributes:
uri: specifies the location of an SRGS grammar when the grammar is
not defined inline.
iterate: specifies the number of times the <grammar> may be
matched. The value "forever" MAY be used to indicate that
<grammar> may be matched any number of times. This value
overrides any specified in <speech>. Default is once '1'.
9.10.1.2. <match>
<match> is a child of <grammar> and specifies the actions to take
when the corresponding grammar is matched.
9.10.1.3. <noinput>
The <noinput> element is used when speech is being recognized.
Children of the <noinput> element MUST be executed when speech has
not been detected and the no input timeout (noint) occurs.
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Attributes:
iterate: specifies the number of times the <noinput> may be
triggered. The value "forever" may be used to indicate that
<noinput> may be triggered any number of times. This value
overrides any specified in <speech>. Default is once '1'.
9.10.1.4. <nomatch>
The <nomatch> element is used when speech is being recognized.
Children of the <nomatch> element MUST be executed when it is
determined that none of the active grammars will match.
Attributes:
iterate: specifies the maximum number of times the <nomatch> may
be triggered. The value "forever" MAY be used to indicate that
<nomatch> may be triggered any number of times. This value
overrides any specified in <speech>. Default is once '1'.
9.10.1.5. <speechexit>
The <speechexit> element MUST be invoked when the speech input
completes because one of <grammar>, <noinput>, or <nomatch> occurred
its maximum number of times.
Attributes:
none
9.10.2. <play>
The <play> element, as defined in the MSML Dialog Base Package, is
extended with a new child element for synthesizing speech. From an
XML perspective, <tts> is a member of a media substitution group.
See the schema at the end of this document for details.
The following sections describe the child elements of <play>.
9.10.2.1. <tts>
Contents of the <tts> element are rendered using text-to-speech
services and must be compliant to the SSML specification [n11].
Element content MAY be plain text, contain the SSML <speak> element,
or the uri attribute should identify the location of text to be
rendered.
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Attributes:
uri: identifies the location of the text to be rendered. The file
and http schemes are supported.
iterate: specifies the number of times the text-to-speech block is
to be rendered. Defaults to once '1'.
xml:lang: specifies the language to use when it is not explicitly
specified as an attribute for <speak>.
9.11. MSML Dialog Fax Detection Package
The Fax Detection Package defines primitives that allow a media
server to provide facsimile detection services.
9.11.1. <faxdetect>
Fax tone detection is used to detect the presence of the T.30 Calling
Tone (CNG) or Called Station Identification (CED) tone in a media
stream. Child elements of <faxdetectexit> MUST be executed when a
CNG tone is detected.
Attributes:
id: an optional identifier that may be referenced elsewhere for
sending events to the faxdetect primitive.
Events:
terminate: terminates fax tone detection and assigns values to the
associated shadow variables.
Shadow Variables:
faxdetect.tone: A string that specifies the fax tone type detected
by the media server. Values supported SHOULD include "CED",
"CNG", or empty string. The empty string MUST be used if fax tone
detection terminated before detection of a fax tone, resulting in
execution of the <faxdetectexit> element.
faxdetect.end: A string value that specifies the reason for
termination of <faxdetect>. Values supported SHOULD include
"faxdetect.complete" (due to detection of CED or CNG tone),
"faxdetect.failed.noresource" (failed due to lack of resources on
the media server), "faxdetect.failed" (failed due to any other
reason) "faxdetect.terminated" (terminated by <dialogend>), or
undefined.
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9.11.2. <faxdetectexit>
The <faxdetectexit> element MUST be invoked when fax detection,
invoked via <faxdetect>, terminates. Child elements of
<faxdetectexit>, <send> and <exit>, allow events to be reported by
the media server.
Attributes:
none
9.12. MSML Dialog Fax Send/Receive Package
9.12.1. <faxsend>
The <faxsend> primitive provides the functionality of a calling fax
terminal. This typically means sending a set of pages. However, it
can also mean requesting the called terminal to send pages instead
of, or in addition to, receiving pages. The fax images to send are
defined by the <sendobj> elements, described below.
Requesting the called terminal to send pages happens when the
<rxpoll> element is included as part of <faxsend>. This element may
be included in addition to, or instead of, the <sendobj> element.
One <sendobj> (at a minimum) or <rxpoll> element must be present.
When both are present, a media server will first send pages and will
then poll the other terminal, requesting pages.
Because fax is a distinct media type, the <faxsend> primitive is not
expected to interact with other primitives. Rather, it will interact
using fax protocols with a remote fax terminal (or gateway) and will
send requested status events to its invoking environment. During fax
operation, shadow variables are used to record the progress and
parameters of the varying stages of fax operation.
Status events are requested by including one or more status request
elements. These elements correspond to different stages or events in
fax operation and cause predefined events to be sent to the invoking
environment when they occur. Since the only recipient of these
events is expected to be a fax control agent, requests are simplified
by associating a predefined namelist of shadow variables with each
event. This decision may be revisited to allowed tailored namelists
based on further implementation experience. Status requests apply
both to sending and polling operation.
Attributes:
lclid: the identifier that a media server uses to identify itself.
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minspeed: the minimum acceptable speed to negotiate for the
operation.
maxspeed: the maximum speed to negotiate for the operation. This
attribute is primarily for testing purposes.
ecm: specifies whether Error Correction Mode (ECM) is allowed to
be used if supported by the remote terminal. Defaults to "true".
Events:
terminate: terminates the fax send operation.
Shadow Variables:
fax.rmtid: the identifier of the remote fax terminal.
fax.rate: the negotiated speed for the operation.
fax.resolution: identifies the resolution of the image. Both
metric- and inch-based resolutions are defined. Metric-based
resolutions are 75x75, 150x150, 204x98, 204x196, 204x391, and
408x391. Inch-based resolutions are 200x200, 300x300, 400x400,
and 600x600.
fax.pagesize: identifies the negotiated page size. Metric sizes
are "A3", "A4", "A5", "A6", and "B4". Inch-based page sizes are
"Letter" and "Legal".
fax.encoding: identifies the image encoding utilized. Valid
values are "MH", "R", "MMR", and "JPEG".
fax.ecm: identifies whether ECM operation was used.
fax.pagebadlines: the number of bad lines in a page.
fax.objbadlines: the number of bad lines in an object.
fax.opbadlines: the number of bad lines in an operation.
fax.objuri: the objuri of the current object.
fax.resendcount: the number of pages resent due to errors.
fax.totalpages: the number of pages processed or stored.
fax.totalobjects: the count of the objects used in the operation.
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fax.duration: the duration of the operation expressed as a
duration in seconds and milliseconds (e.g., "23s250ms").
fax.result: contains the reason that caused the fax operation to
complete. When the operation completes successfully, the value
will be assigned "fax.success". Other values include
"fax.partial", "fax.nofax", "fax.remotedisconnect",
"fax.uri.access.error", and "fax.invalid.startpage".
The following sections describe the child elements of <faxsend>.
9.12.1.1. <sendobj>
<sendobj> is used to define a fax transmission. There MAY be
multiple instances of the element, which will be transmitted in
order.
Attributes:
objuri: a URI that points to the fax image that will be
transmitted. Mandatory.
startpage: the first page of a multi-page objuri to send.
pagecount: page count.
9.12.1.2. <hdrfooter>
<hdrfooter> describes the header/footer that a media server MAY put
on pages. The header or footer may be defined as the content of the
<format> child element. The <format> element is only allowed if the
type attribute has a value of "header" or "footer".
Attributes:
type: specifies whether a header or a footer should be put on
pages and identifies the source of the header or footer. The
following enumerated values may be used:
"header" indicates that the media server should put a header on
pages using the contents of the <format> element.
"nohdr" indicates that there should be no header or footer.
"footer" indicates that the media server should put a footer on
pages using the contents of the <format> element.
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style: defines the style of insertion onto a fax page that a media
server should use for the header or footer. Valid styles are
"append", "overlay", or "replace".
<format> is a child of the <hdrfooter> element that defines the style
format to be used for the header or footer. It uses a "C" language
style format statement (as shown below) to define the contents and
layout of the header or footer.
code length name format
%a 3 day of week 3-character abbreviation
%d 2 date 01-31
%m 2 month 01-12
%y 2 year 00-99
%Y 4 year 0000-9999
%I 2 12 hour 01-12
%H 2 24 hour 00-23
%M 2 minute 00-59
%S 2 seconds 00-59
%p 2 AM/PM AM or PM
%P 2 page number 01-99
%T 2 total pages 01-99
%l 20 local ID (sender) 0-9, + or spaces
%r 20 remote ID (rcvr) 0-9, + or spaces
%% 1 percent display % in header/ftr
9.12.1.3. <rxpoll>
<rxpoll> provides the information necessary for a receive polling
operation to occur. The object(s) to be received are defined by one
or more <rcvobj> elements. The <rcvobj> is defined further under the
child elements of <faxrcv>. The <rxpoll> element MAY also include a
description of the header/footer that a media server SHOULD put on
received pages. The <hdrfooter> element and its usage is described
above.
Attributes:
rmtid: specifies the identifier of the remote fax terminal that is
to be associated with a polling operation. A media server MUST
NOT execute a polling operation unless the value of rmtid matches
that of the connected remote machine. Mandatory.
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9.12.1.4. <faxstart>
The <faxstart> element requests that an event be sent when fax
operation has begun. When triggered, the following will be executed:
<send target="source" event="fax.start"/>
9.12.1.5. <faxnegotiate>
The <faxnegotiate> element requests that an event be sent when a
negotiation has been completed. Multiple events MAY be sent each
time a Digital Command Signal (DCS) frame is sent or received. When
triggered, the following will be executed:
The <faxrcv> primitive provides the functionality of a called fax
terminal. Typically this type of operation is to receive pages.
However, it can include sending pages instead of, or in addition to,
receiving them. The fax objects to receive are defined by the
<rcvobj> elements, described below.
A media server SHOULD send pages as a polled terminal when the
<txpoll> element is included as part of <faxrcv>. This element may
be included in addition to, or instead of, the <rcvobj> element. One
<rcvobj> or <txpoll> element must be present. When both are present,
a media server SHOULD first receive pages and will then allow the
other terminal to poll the media server, requesting pages.
Because fax is a distinct media type, the <faxrcv> primitive is not
expected to interact with other primitives. Rather, it will interact
using fax protocols with a remote fax terminal and will send
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requested status events to its invoking environment. During fax
operation, shadow variables are used to record the progress and
parameters of the varying stages of fax operation.
Status events are requested by including one or more status request
elements. These elements correspond to different stages or events in
fax operation and cause predefined events to be sent to the invoking
environment when they occur. Since the only recipient of these
events is expected to be a fax control agent, requests are simplified
by associating a predefined namelist of shadow variables with each
event. This decision may be revisited to allowed tailored namelists
based on further implementation experience. Status requests apply
both to receiving and polling operation.
Attributes:
id: an optional identifier that may be referenced elsewhere for
sending events to the faxrecv primitive.
lclid: the identifier that a media server uses to identify itself.
ecm: specifies whether ECM mode is allowed to be used if supported
by the remote terminal. Defaults to "true".
Events:
terminate: terminates the fax reception operation.
Shadow Variables:
<faxrcv> supports the same set of shadow variables as <faxsend>
The following sections describe the child elements of <faxrcv>.
In addition to the elements defined below, <faxrcv> MAY also have
the following child elements, which were defined under <faxsend>:
o <hdrfooter>
o <faxstart>
o <faxnegotiate>
o <faxpagedone>
o <faxobjectdone>
o <faxopcomplete>
o <faxpollstarted>
Their meaning and usage are the same as previously defined.
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9.12.2.1. <rcvobj>
<rcvobj> is used to define fax objects that a media server will
receive. There may be multiple instances of the element, which will
be used in order.
Attributes:
objuri: a URI that points to the location that a received image is
to be stored. Mandatory.
maxpages: the maximum number of pages that will be stored in
objuri.
9.12.2.2. <txpoll>
<txpoll> provides the information for a polling operation to occur as
part of a fax receive operation. An object or multiple objects to be
sent may be supplied by one or more <sendobj> elements. In the event
of multiple occurrences, a media server MUST select the <sendobj>
element whose rmtid attribute matches that of the remote terminal.
The <sendobj> element was defined previously as a child element of
<faxsend>. The <txpoll> element is extended with an rmtid attribute
that specifies the identifier of the remote fax terminal and is used
to select the specific <sendobj> to send.
A media server SHOULD put a header/footer on transmitted pages based
on any <hdrfooter> element included as part of <txpoll>.
Attributes:
rmtid: specifies the identifier of the remote fax terminal that is
to be associated with a polling operation. A media server MUST
NOT execute a polling operation unless the value of rmtid matches
that of the connected remote machine. Mandatory.
10. MSML Audit Package
10.1. MSML Audit Core Package
This section describes the MSML Audit Core Package that MAY be
implemented to support auditing services.
Audit requests and results may vary based on the information being
audited. The MSML Audit Core Package specifies the framework to send
audit request, defines a state list, and builds audit results. The
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additional audit packages define package specific state lists and
associated audit result content. The additional audit packages MUST
be defined within the framework specified by the Audit Core Package.
10.1.1. <audit>
The <audit> element is an optional child element of <msml>, which MAY
be used by MSML clients to perform state auditing of current media
resources allocated and in use by the media server. The requested
state information is returned in an MSML response.
Attributes:
queryid: the identifier of the MSML object being queried by the
MSML client. Mandatory. Supported object types: conference or
connection. Wildcards are allowed.
statelist: a list of one or more state parameters that are being
queried. Optional. If not present, the media server SHOULD
return the id of audited object only. Each object type may
contain a set of states. If the "statelist" contains any state
that does not match the audited object type, the request MUST be
rejected.
mark: in the case of an error, the value of the mark attribute
from the last successfully executed element that included the mark
attribute.
State Parameters:
The state parameter MUST be named using a dot-notation format
"audit.X.a.b.c...", where X is the mandatory field that indicates
the class name of the object (e.g., "conf" or "conn") and the
"a.b.c..." is the optional field used to describe the actual name
of the state parameter in a hierarchical manner. The wildcard "*"
MAY be used as part of a state name; however, it MUST only be used
in the last field of the dot-notation (e.g., "audit.conf.*" is
valid, but "audit.conf.*.a" is invalid). When a wildcard is used,
it is equivalent to querying all the states below the specified
level. Each field (e.g., within "a.b.c...") will result in
individual element names <a>, <b>, and <c> in the audit result to
contain corresponding state value. The parent/child relationship
between these elements follows the hierarchy of the state name
(i.e., <c> is child element of <b>, and <b> is child element of
<a>).
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10.1.2. <auditresult>
The <auditresult> element is an optional child element of <result>,
which MUST be used by the media server to return the audit result. A
specific instance of the <auditresult> element contains the state
information of a single active object. Therefore, if multiple
objects are within the scope of the audit request, then one
<auditresult> element per object MUST be present. A zero occurrence
of <auditresult> element indicates that there are no active resources
within the scope of the audit request.
Attributes:
targetid: the identifier of a conference or connection.
Mandatory. Wildcard is not allowed.
The <auditresult> may contain child element(s) that return additional
state information, corresponding to the "statelist" attribute in the
<audit> request. The child element names correspond to the fields of
the state parameter name (e.g., "a.b.c..."), following the same
hierarchical structure.
10.2. MSML Audit Conference Package
This section describes the MSML Audit Conference Package that MUST be
implemented to support auditing of conference services. The MSML
Audit Conference Package follows the framework specified by the MSML
Audit Core Package. This package defines the state parameter list
and audit result for conference auditing.
10.2.1. State Parameters
All conference state parameter names MUST be prefixed by
"audit.conf".
confconfig: query the conferences general configuration.
confconfig.audiomix: query the audio mixer's general configuration
in the conference.
confconfig.audiomix.asn: query the current ASN setting in the
audio mixer.
confconfig.audiomix.n-loudest: query the current n-loudest setting
in the audio mixer.
confconfig.videolayout: query the video layout's general
configuration in the conference.
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confconfig.videolayout.root: query the root window setting of the
video layout.
confconfig.videolayout.selector: query the video stream selector
setting of the video layout.
confconfig.controller: query who is the conference controller.
dialog: query the active dialog information on the conference.
See MSML Audit Dialog Package for details.
stream: query the active stream information on the conference.
See MSML Audit Stream Package for details.
10.2.2. <auditresult>
The <auditresult> attribute of "targetid" is required to indicate
results for auditing a conference.
The <auditresult> element may optionally contain the following child
elements, returning additional conference state information, if
corresponding states are queried and available.
10.2.2.1. confconfig
The <confconfig> element is used to return the general configuration
state(s) of a conference, using the following attributes.
Attributes:
deletewhen: as defined by <createconference> element in MSML
Conference Core Package.
term: as defined by <createconference> element in MSML Conference
Core Package.
10.2.2.2. confconfig.audiomix
The <audiomix> element contains the general audio mixer configuration
using the following attributes.
Attributes:
id: as defined by <audiomix> element in MSML Conference Core
Package.
samplerate: as defined by <audiomix> element in MSML Conference
Core Package.
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10.2.2.3. confconfig.audiomix.asn
The <asn> element contains the current ASN setting of an audio mixer,
if ASN is enabled. The state values are included in the following
attributes.
Attributes:
ri: as defined by <asn> element in MSML Conference Core Package.
asth: as defined by <asn> element in MSML Conference Core Package.
10.2.2.4. confconfig.audiomix.n-loudest
The <n-loudest> element contains the current n-loudest setting of the
audio mixer. The state values are included in the following
attributes.
Attributes:
n: as defined by <n-loudest> element in MSML Conference Core
Package.
10.2.2.5. confconfig.videolayout
The <videolayout> element contains the general video layout
configuration using the following attributes.
Attributes:
id: as defined by <videolayout> in MSML Conference Core Package.
type: as defined by <videolayout> in MSML Conference Core Package.
10.2.2.6. confconfig.videolayout.root
The <root> element is used to contain root window settings.
Attributes:
size: as defined by <root> element in MSML Conference Core
Package.
backgroundcolor: as defined by <root> element in MSML Conference
Core Package.
Backgroundimage: as defined by <root> element in MSML Conference
Core Package.
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10.2.2.7. confconfig.videolayout.selector
The <selector> element is used to contain selector settings.
Attributes:
id: as defined by <selector> element in MSML Conference Core
Package.
method: as defined by <selector> element in MSML Conference Core
Package.
status: as defined by <selector> element in MSML Conference Core
Package.
blankothers: as defined by <selector> element in MSML Conference
Core Package.
si: as defined by <selector> element in MSML Conference Core
Package when selector method is "vas".
speakersees: as defined by <selector> element in MSML Conference
Core Package when selector method is "vas".
10.2.2.8. confconfig.controller
The <controller> element is used to return the conference controller
id in its content. The conference controller is the SIP dialog that
carries the <createconference> request. The return value is the MSML
connection id.
10.2.2.9. dialog
If conference dialog state is queried, the audit result is returned
using the <dialog> element as specified in the MSML Audit Dialog
Package.
10.2.2.10. stream
If conference stream state is queried, the audit result is returned
using the <stream> element as specified in the MSML Audit Stream
Package.
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10.3. MSML Audit Connection Package
This section describes the MSML Audit Connection Package that MAY be
implemented to support auditing connection services. The MSML Audit
Connection Package follows the framework specified by the MSML Audit
Core Package. This package defines the state parameter list and
audit result for connection auditing.
10.3.1. State Parameters
Connection state parameter names are prefixed by "audit.conn".
sipdialog: queries the identifier of the SIP dialog with which the
connection is associated.
sipdialog.localseq: queries one of the SIP dialog states - local
sequence number.
sipdialog.remoteseq: queries one of the SIP dialog states - remote
sequence number.
sipdialog.localURI: queries one of the SIP dialog states - local
URI.
sipdialog.remoteURI: queries one of the SIP dialog states - remote
URI.
sipdialog.remotetarget: queries one of the SIP dialog states -
remote target.
sipdialog.routeset: queries one of the SIP dialog states - route
set.
localsdp: queries the local SDP body of the connection.
remotesdp: queries the remote SDP body of the connection.
dialog: queries the active dialog information on the connection.
See MSML Audit Dialog Package for details.
stream: queries the active stream information on the connection.
See MSML Audit Stream Package for details.
10.3.2. <auditresult>
The <auditresult> attribute "targetid" MUST specify a connection
identifier for a connection result.
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The <auditresult> element MAY contain the following child elements
optionally to return additional connection state information if the
corresponding states are queried and are available.
10.3.2.1. sipdialog
The <sipdialog> element contains the associated SIP dialog
information. The SIP dialog ID information is returned using the
following attributes.
Attributes:
callid: call-ID value as defined in [n1]. Mandatory.
localtag: local-tag value as defined in [n1]. Mandatory.
remotetag: remote-tag value as defined in [n1]. Mandatory.
This element can contain the following child elements optionally to
return additional SIP dialog state information to the client if the
corresponding states are queried and available.
10.3.2.2. sipdialog.localseq
The <localseq> element contains the local sequence number. The local
sequence number is one of the SIP dialog states as defined in [n1].
10.3.2.3. sipdialog.remoteseq
The <remoteseq> element contains the remote sequence number. The
remote sequence number is one of the SIP dialog states as defined in
[n1].
10.3.2.4. sipdialog.localuri
The <localuri> element contains the local URI value. The local URI
is one of the SIP dialog states as defined in [n1].
10.3.2.5. sipdialog.remoteuri
The <remoteuri> element contains the remote URI value. The remote
URI is one of the SIP dialog states as defined in [n1].
10.3.2.6. sipdialog.remotetarget
The <remotetarget> element contains the remote target value. The
remote target is one of the SIP dialog states as defined in [n1].
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10.3.2.7. sipdialog.routeset
The <routeset> element contains the route-set value (an ordered list
of URIs separated by comma). The route set is one of the SIP dialog
states as defined in [n1].
10.3.2.8. localsdp
The <localsdp> element contains the local SDP body.
10.3.2.9. remotesdp
The <remotesdp> element contains the remote SDP body.
10.3.2.10. dialog
If the connection dialog state is queried, the audit result returns
the queried information using the <dialog> element, as specified in
the MSML Audit Dialog Package.
10.3.2.11. stream
If the connection stream state is queried, the audit result returns
the queried information using the <stream> element, as specified in
the MSML Audit Stream Package.
10.4. MSML Audit Dialog Package
This section describes the MSML Audit Dialog Package that MAY be
implemented to support auditing dialogs. The MSML Audit Dialog
Package follows the framework specified by the MSML Audit Core
Package.
The MSML Audit Dialog Package must be used together with either the
MSML Audit Conference Package or MSML Audit Connection Package, since
the dialogs are applicable to conferences or connections.
10.4.1. State Parameters
Dialog state parameter names are prefixed by "dialog". Since this
package must be used together with the MSML Audit Conference Package
or MSML Audit Connection Package, the complete dialog state name must
be prefixed by "audit.conf.dialog" or "audit.conn.dialog", depending
on the context within which the dialog state is queried.
dialog: queries the number of active dialog(s) running on the target
(a conference or connection); basic dialog information will be
returned.
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dialog.duration: queries the amount of time a dialog has been
running.
dialog.primitive: queries the media primitive currently being
executed by the dialog.
dialog.controller: queries the dialog controller.
10.4.2. <dialog>
The <dialog> element is a child element of <auditresult>, which
contains the active dialog information on the target identified by
the attribute "targetid" of the <audioresult> element.
Basic dialog information is returned using the following attributes.
Attributes:
src: as defined by the <dialogstart> element in the MSML Dialog
Core Package.
type: as defined by the <dialogstart> element in the MSML Dialog
Core Package. Mandatory.
name: as defined by the <dialogstart> element in the MSML Dialog
Core Package. Mandatory.
This element may contain the following child elements optionally to
return additional dialog information if the corresponding state
parameter has been queried and the state value is available.
10.4.2.1. <duration>
The <duration> element returns the duration that a dialog has been
running on the specified target. The duration value is included in
the element content. It is a positive integer value (in unit of
seconds).
10.4.2.2. <primitive>
The <primitive> element returns the currently active media primitive
in its content. The active media primitive is the primitive that is
currently being executed. Possible return values are play, dtmf,
collect, dtmfgen, tonegen, record, or none.
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10.4.2.3. <controller>
The <controller> element returns the dialog controller id in its
content. The dialog controller is the SIP dialog that carries the
<dialogstart> request. The returned value is the MSML connection id.
10.5. MSML Audit Stream Package
This section describes the MSML Audit Stream Package that MAY be
implemented to support auditing stream. The MSML Audit Stream
Package follows the framework specified by the MSML Audit Core
Package.
The MSML Audit Stream Package MUST be used together with either the
MSML Audit Conference Package or the MSML Audit Connection Package,
since the stream is applicable between conferences, between
connections, or between conferences and connections.
10.5.1. State Parameters
Stream state parameter names are prefixed by "stream". Since this
package must be used together with the MSML Audit Conference Package
or MSML Audit Connection Package, the complete stream state name must
be prefixed by "audit.conf.stream" or "audit.conn.stream", depending
on the context within which the stream state is queried.
stream: queries the number of active streams created on the audited
object; basic stream information will be returned.
stream.clamp: queries the clamping status.
stream.gain: queries the gain control information.
stream.visual: queries the visual setting.
10.5.2. <stream>
The <stream> element is a child element of <auditresult> and contains
the active stream information on the target identified by the
attribute "targetid" of the <audioresult> element.
Basic stream information is returned using the following attributes.
Attributes:
joinwith: an identifier of either a connection or a conference
with which the audited object is joined. Mandatory. Wildcard is
not allowed.
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media: as defined by the <stream> element in the MSML Conference
Core Package. Mandatory.
dir: direction of stream, from audited target perspective, "from"
or "to". Mandatory.
compressed: as defined by the <stream> element in the MSML
Conference Core Package.
display: as defined by the <stream> element in the MSML Conference
Core Package.
override: as defined by the <stream> element in the MSML
Conference Core Package.
preferred: as defined by the <stream> element in the MSML
Conference Core Package.
This element MAY contain the following child elements that optionally
return additional stream information, if the corresponding state
parameter is queried and the state value is available.
10.5.2.1. <clamp>
The <clamp> element is included if stream clamping is active. The
currently active clamping state values are returned using the
attributes as defined by the <clamp> element in the MSML Conference
Core Package.
10.5.2.2. <gain>
The <gain> element is included if stream gain is active. The current
gain control state values are returned using the attributes as
defined by the <gain> element in the MSML Conference Core Package.
10.5.2.3. <visual>
The <visual> element is included if stream visual display is active.
The current visual display settings are returned using the attributes
as defined by the <visual> element in the MSML Conference Core
Package.
11. Response Codes
Response codes are used to indicate reasons for failures as well as
completion status. The appropriate code and description must be
passed to the invoking environment on failure.
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The response codes defined in this section are returned as the value
of the response attribute to the <result> element. Some values may
also be returned as part of a namelist to an "msml.dialog.exit" event
generated when an executing MSML dialog fails.
Informational (1xx)
Reserved for future use
Success (200)
200 OK
Request Error (4xx)
400 Bad Request
401 Unknown Element
402 Unsupported Element
403 Missing mandatory element content
404 Forbidden element content
405 Invalid element content
406 Unknown attribute
407 Attribute not supported
408 Missing mandatory attribute
409 Forbidden attribute is present
410 Invalid attribute value
420 Unsupported media description language
421 Unknown media description language
422 Ambiguous request (both URI and inline description)
423 External document fetch error
424 Syntax error in foreign language
425 Semantic error in foreign language
426 Unknown error executing foreign language
430 Object does not exist
431 Object instance name already used
432 Conference name already in use
433 reserved
434 External document fetch error
440 Cannot join objects of the specified class
441 Objects have incompatible media types
442 reserved
443 reserved
444 Number of media inputs exceeded
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450 Objects have incompatible media formats
451 Incompatible media stream format
Server Error (5xx)
500 Internal media server error
503 Service Unavailable
510 Not in service
511 Service Unavailable
520 No resource to fulfill request
521 Internal limit exceeded
12. MSML Conference Examples
These examples focus on the MSML Conference Core Package used by a
control agent (CA) to control services on a media server (MS). They
show the relationship between SIP signaling to establish media
sessions and MSML service control commands. For brevity, only the
content of MSML messages is shown. The examples assumes that the CA
and MS use the IPv4 address and UDP port number of the audio stream
(on the MS) to identify the MSML connection.
Steps 1-3: establish an MSML control channel for the conference.
Alternatively, a control channel could already have been established
that was used for all CA/MS interactions. A control channel per
conference is only one possible model. Currently, MSML uses SIP INFO
requests and responses on this SIP dialog. There is a proposal to
use this message exchange to establish a TCP channel for MSML similar
to the approach used for the Media Resource Control Protocol v2
(MRCPv2). This approach would require that a request identifier be
added to the <msml> element to correlate requests and responses.
This currently relies on the SIP INFO request and response for this
property. MSML messages are shown without specifying the transport
in this example, but it assumes a request/response correlation based
on transport messages.
Step 4: create a conference that will mix the loudest two speakers
and report those speakers to the control agent every 10 seconds. The
media server will automatically terminate remaining media sessions
and delete the conference and associated resources and when the
control channel is terminated.
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Steps 6-11: standard 3PCC establishment of a user-initiated media
session to a media server. This is the equivalent of a dial-in
conference participant. The "To:" header returned by the MS in the
200 response of Step F8 was:
Step 12: request an initial dialog with the participant to prompt for
their name, desired conference, etc. The dialog completes by
informing the participant that they are joining the conference. If
this was not the first participant, the dialog could also announce
the other participants.
Step 14: sequence of HTTP VoiceXML dialog interactions.
Step 15: the VoiceXML browser exits (but does not disconnect). If a
namelist had been specified within the VoiceXML <exit> element, it
would have been included in the <event> sent to the CA.
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Step 19: dialog started successfully. The dialog identifier is
returned. The media server assigned a unique identifier since name
attribute was not specified in <dialogstart>.
Steps 6 through 21 are repeated for the third and subsequent
participants.
12.2. Example of a Sidebar Audio Conference
This example assumes that a conference has already been established
as in the previous example. It creates a sidebar conference that
hears the main conference as a whisper. Three participants are moved
to the sidebar. After some period of time, the sidebar participants
are returned to the main conference and the sidebar is deleted.
Step 1: the sidebar conference is created. It is joined half-duplex
to the main conference and a manual gain object is inserted in the
media stream. Three participants are then moved from the main
conference to the sidebar. Although not shown, a CA could include
the "mark" attribute in each element to allow recovery in the event
of a mid- transaction error.
Step 3: once the sidebar conference has completed, the participants
are rejoined to the main conference. The sidebar is destroyed
automatically by the MS when the last media stream is removed as
specified when the sidebar conference was created.
This example assumes a conference created similar to the first
example where there is an MSML control channel specific to the
conference and the conference has been configured to be deleted when
that channel is removed (using SIP).
Steps 1-2: the CA signals BYE for the SIP dialog used to establish
the conference control channel.
Steps 3-6: the MS initiates terminating the media sessions for each
participant remaining in the conference.
The MS deletes the conference and removes all resources when the last
participant has been removed.
12.4. Example of Modifying Video Layout
Assume that a conference named "example" is created using the
following mixer descriptions.
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The relative location of the regions does not change. However, the
sizes of the regions do change because they are relative to the size
of the root window. The result is a layout that looks identical but
half the size.
The following would freeze the video displayed in region "2" without
affecting any other attributes of that region.
RFC 5707 Media Server Markup Language February 2010
13. MSML Dialog Examples
These examples focus on the MSML Dialog Base Package and the MSML
Dialog Group Package.
13.1. Announcement
The following is a simple announcement scenario. Two recorded audio
files are played in sequence followed by generated speech followed by
a variable. The results are reported once media generation
completes.
Below is an example that shows a simple voice mail retrieval
operation consisting of playing a message and allowing the user to
pause and resume play using '5' to toggle the state. The operation
would terminate when the play completed or the user entered '#'.
During the play, the user can advance forward and backward through
the message as well as rewinding to the beginning.
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13.3. Play and Record
A more complex example is a play and record operation. This sources
and sinks media and uses voice activity DTMF detection and
recognition to influence behavior. Any DTMF input or voice activity
will barge the play and cause the record to begin. However, if the
prompt was barged with a DTMF digit of '#', the record terminates
without starting. When the play terminates, it send a starttimer
event to the VAD to allow it to recognize an initial silence
condition. The recording will be terminated (without starting) when
the VAD detects an initial 3 seconds of silence.
Once resumed (based upon voice detection), the recording may be
terminated under several conditions. It will terminate after 5
seconds of silence or after 60 seconds elapses. It will also
terminate if a '#' key is recognized. Every aspect of this behavior
can be modified by changing what is recognized and the events that
are sent. The following example uses the MSML Dialog Group Package.
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The following implements the same functionality, as described above,
in using the MSML Dialog Base Package, using the <record> composite
mechanism for the play and record operation.
This example prompts a user to enter 4 DTMF digits terminated by the
'#' key (represented by "xxxx#" below). The prompt will be barged
and the user has 10 seconds to begin entering input or no input will
be indicated.
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The following implements the same functionality, as described above,
using the MSML Dialog Base Package, using the <collect> composite
mechanism for the play and collect operation.
RFC 5707 Media Server Markup Language February 2010
13.6. User Controlled Gain
This shows an example of nesting groups to create an arbitrary full-
duplex media control. DTMF is detected on media flowing in one
direction and used to adjust the gain applied to media flowing in the
opposite direction. Additionally, the stream that is used to detect
DTMF has DTMF removed and its gain automatically adjusted before
leaving the group. This widget could be used between a conference
participant and a conference mixer.
The following examples describe the MSML Audit Conference Package and
the MSML Audit Connection Package, and their use together with the
MSML Audit Dialog Package or/and the MSML Audit Stream Package.
14.1. Audit All Conferences
This example describes an audit of all active conferences on the
media server, querying the conference configurations.
RFC 5707 Media Server Markup Language February 2010
The following result assumes two conferences currently allocated by
the media server. Conference "conf:1" contains both an audio mixer
(with ASN enabled) and a video layout (vas) created, while conference
"conf:2" contains only an audio mixer created with ASN disabled.
The example result assumes a single dialog running on conference
"conf:1", which has been running for 60 seconds, and the dialog is
currently executing a record operation.
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The example result assumes three audio participants in the
conference. Connection "conn:1234" is a talk-listen participant with
both clamp and gain control enabled. Connection "conn:1235" is a
talk-only participant. Connection "conn:1236" is a listen-only
participant with automatic gain control enabled.
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The example result assumes three audio streams created between target
connection and other MSML objects, one of which is a bidirectional
stream between target connection and a conference, and two are
unidirectional streams between two other connections.
The following capabilities may be added in future versions of this
document:
o Ability for MSML clients to audit or query the media server for
supported set of MSML packages and profiles.
o Ability to version MSML packages and profiles and naming scheme for
MSML extension packages.
16. XML Schema
MSML specification consists of a set of XML schemas, all of which may
be used together or any sub-set of the schemas may be used for each
MSML package. The following sections define a complete set of
schemas covering all MSML packages.
Each package contains a single schema file, <package-name>-
datatypes.xsd. This schema file can be included by its extended
package(s). Every package optionally contains another schema file,
<package_name>.xsd, which can be used directly to build or validate
MSML scripts for a given package.
The complete MSML schema (msml.xsd) includes all the individual MSML
packages.
RFC 5707 Media Server Markup Language February 2010
17. Security Considerations
MSML being an XML-based language, security considerations as defined
by RFC 3023 [i2] are applicable.
Media server interfaces driven using MSML are under the explicit
control of a SIP application server. SIP call legs are used to
deliver XML-based MSML transactions to the media server. The
security and integrity of MSML transactions, whenever required,
SHOULD use sips: and TLS for encryption and authentication of the SIP
control channel used to carry MSML payloads. Further information
related to security, privacy, and integrity of MSML media types is
described in the IANA Considerations section.
Media streams, such as audio/video, MAY optionally be protected,
encrypted/decrypted, and authenticated, utilizing Secure Real Time
Protocol (SRTP), wherever media stream security is required. Media
negotiation establishes the required level of security and is
initiated by the clients, which is outside the scope of the control
interface specified by MSML.
18. IANA Considerations
18.1. IANA Registrations for 'application' MIME Media Type
charset semantics as specified in RFC 3023 [i2] for
"application/xml" media type.
Encoding considerations:
As specified in RFC 3023 [i2].
Security Considerations:
Media types included in this section are XML based, and therefore
security considerations as defined by RFC 3023 [i10] are
applicable.
These media types do not contain active or executable content as
the content itself merely provides control of the underlying media
streams.
Secure exchange of content associated with these media types for
purposes of authentication and privacy, whenever applicable, shall
require the establishment of a secure control channel using sips:
and TLS.
Privacy and integrity of media content associated with these media
types shall be considered when applications using these media
types are exchanging personal information such as personal
identification codes or conference access codes. Whenever such
content is deemed to require secure transport and authentication,
a secure channel using sips: and TLS MUST be used, as these media
types themselves provide no such inherent mechanisms for security.
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Interoperability considerations:
As specified in RFC 3023 [i2] and as specified within this
document.
Published specification: RFC 5707
Intended applications for these media types:
Multimedia Conferencing, Interactive Voice Response systems
Additional information:
Magic number(s): None
File extension(s): None
Macintosh file type code(s): None
Person & email address to contact for further information:
18.2. IANA Registrations for 'text' MIME Media Type
The following registrations are planned:
'text/vnd.radisys.msml-basic-layout'
Required parameters: none
Optional parameters: charset
charset semantics as specified in RFC 3023 [i2] for "text/xml"
media type.
Encoding considerations: As specified in RFC 3023 [i2].
Security Considerations:
Media types included in this section are XML based, and therefore
security considerations as defined by RFC 3023 [i10] are
applicable.
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The media type defined in this section does not contain active or
executable content. The media type defines only a visual layout
scheme of a video conference. Establishment of active connections
associated with the video conference are outside the scope of this
media type.
Since this media type only defines a visual layout scheme, with no
reference or information about client connections or participants
within the conference, privacy and integrity concerns are not
applicable to this media type.
Interoperability considerations:
As specified in RFC 3023 [i2] and as specified within this
document.
Published specification: RFC 5707
Intended applications for these media types:
Multimedia Conferencing, Interactive Voice Response systems
Additional information:
Magic number(s): None
File extension(s): None
Macintosh file type code(s): None
Person & email address to contact for further information:
The namespace URI for elements defined within this specification is a
URN [i8]. It uses the namespace identifier 'ietf' defined by [i9]
and extended by RFC 3688 [i10].
The following registrations of URN Sub-Namespaces are planned:
XML namespace: urn:ietf:params:xml:ns:msml
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XML:
BEGIN
<?xml version="1.0"?>
<!DOCTYPE html PUBLIC "-//W3C//DTD XHTML Basic 1.0//EN"
This section registers an XML schema per the procedures in [i10].
URI: urn:ietf:params:xml:schema:msml
Registrant Contact:
Adnan Saleem ([email protected]) and authors listed
within this document.
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The XML for this schema can be found as the sole content of Section
16.
19. References
19.1. Normative References
[n1] Rosenberg, J., Schulzrinne, H., Camarillo, G., Johnston, A.,
Peterson, J., Sparks, R., Handley, M., and E. Schooler, "SIP:
Session Initiation Protocol", RFC 3261, June 2002.
[n2] Bray, T., Paoli, J., Sperberg-McQueen, C., and E. Maler,
"Extensible Markup Language (XML) 1.0 (Second Edition)," W3C
First Edition REC-xml-20001006, October 2000.
[n3] World Wide Web Consortium, "Speech Recognition Grammar
Specification Version 1.0" (SRGS), W3C Candidate
Recommendation, March 16, 2004
[n4] World Wide Web Consortium, "Natural Language Semantics Markup
Language (NLSML) for the Speech Interface Framework", W3C
Working Draft 20, November 2000.
[n5] World Wide Web Consortium, "Voice Extensible Markup Language
(VoiceXML) Version 2.0, W3C Candidate Recommendation, March 16,
2004.
[n6] Berners-Lee, T., Fielding, R., and L. Masinter, "Uniform
Resource Identifier (URI): Generic Syntax", STD 66, RFC 3986,
January 2005.
[n7] Burger, E., Ed., Van Dyke, J., and A. Spitzer, "Basic Network
Media Services with SIP", RFC 4240, December 2005.
[n8] Levinson, E., "Content-ID and Message-ID Uniform Resource
Locators", RFC 2392, August 1998.
[n9] Handley, M., Jacobson, V., and C. Perkins, "SDP: Session
Description Protocol", RFC 4566, July 2006.
[n10] Bos, B., Lie, H., Tantek, C., and Hickson, I., "Cascading Style
Sheets, level 2 (CSS2) Specification," W3C REC CR-CSS21-, July
2007.
[n11] Burnett, D., Walker, M., and Hunt, A., "Speech Synthesis Markup
Language (SSML) Version 1.0", W3C Recommendation, 7 September
2004.
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19.2. Informative References
[i1] Rosenberg, J., Schulzrinne, H., and P. Kyzivat, "Indicating
User Agent Capabilities in the Session Initiation Protocol
(SIP)", RFC 3840, August 2004.
[i2] Murata, M., St. Laurent, S., and D. Kohn, "XML Media Types",
RFC 3023, January 2001.
[i3] Schulzrinne, H., Casner, S., Frederick, R., and V. Jacobson,
"RTP: A Transport Protocol for Real-Time Applications", STD 64,
RFC 3550, July 2003.
[i4] Rosenberg, J., Peterson, J., Schulzrinne, H., and G. Camarillo,
"Best Current Practices for Third Party Call Control (3pcc) in
the Session Initiation Protocol (SIP)", BCP 85, RFC 3725, April
2004.
[i5] Donovan, S., "The SIP INFO Method", RFC 2976, October 2000.
[i6] Ossenbruggen, J., Rutledge, L., Saccocio, B., Schmitz, P.,
Kate, W., Ayars, J., Bulterman, D., Cohen, A., Day, K., Hodge,
E., Hoschka, P., Hyche, E., Jourdan, M., Kubota, K., Lanphier,
R., Laya'da, N., Michel, T., and D. Newman, "Synchronized
Multimedia Integration Language (SMIL 2.0) Specification," W3C
REC REC-smil2-20050107, January 2005.
[i7] Freed, N. and N. Borenstein, "Multipurpose Internet Mail
Extensions (MIME) Part Two: Media Types", RFC 2046, November
1996.
[i8] Moats, R., "URN Syntax", RFC 2141, May 1997.
[i9] Moats, R., "A URN Namespace for IETF Documents", RFC 2648,
August 1999.
[i10] Mealling, M., "The IETF XML Registry", BCP 81, RFC 3688,
January 2004.
[i11] Boulton, C., Melanchuk, T., McGlashan, S., and A. Shiratzky, "A
Control Framework for the Session Initiation Protocol (SIP)",
Work in Progress, February 2007.
Saleem, et al. Informational [Page 182]
RFC 5707 Media Server Markup Language February 2010
Acknowledgments
Sergiu Stambolian of RadiSys provided key insights, both theoretic
and through development experience, on several versions of the
document.
Stephen Buko and George Raskulinec of Intel made numerous valuable
contributions towards enhancements of multimedia playback and record
operations. Gene Shtirmer of Intel provided review feedback on
several revisions and feature enhancement suggestions.
David Asher of NMS Communications provided valuable insights towards
creation of standard profiles and a modularization scheme based on
packages for better interoperability.
Gilles Compienne of Ubiquity Software has provided feedback on
several earlier versions of this document.
Chris Boulton and Ben Smith, both of Ubiquity, and Michael Rice of
VocalData helped clarify several issues, while Bruce Walsh and Kevin
Fitzgerald, both of Spectel/Avaya, provided important feedback.
Cliff Schornak of Commetrex significantly contributed to the
facsimile work. Peter Danielsen of Lucent has contributed thoughtful
and detailed reviews for several earlier versions of the document.
Saleem, et al. Informational [Page 183]
RFC 5707 Media Server Markup Language February 2010
Authors' Addresses
Adnan Saleem
RadiSys
4190 Still Creek Drive, Suite 300
Burnaby, BC, V5C 6C6
Canada
