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IETF RFC 8859
Last modified on Tuesday, January 19th, 2021 Permanent link to RFC 8859 Search GitHub Wiki for RFC 8859 Show other RFCs mentioning RFC 8859 Internet Engineering Task Force (IETF) S. Nandakumar Request for Comments: 8859 Cisco Category: Standards Track January 2021 ISSN: 2070-1721 A Framework for Session Description Protocol (SDP) Attributes When Multiplexing Abstract The purpose of this specification is to provide a framework for analyzing the multiplexing characteristics of Session Description Protocol (SDP) attributes when SDP is used to negotiate the usage of a single 5-tuple for sending and receiving media associated with multiple media descriptions. This specification also categorizes the existing SDP attributes based on the framework described herein. Status of This Memo This is an Internet Standards Track document. This document is a product of the Internet Engineering Task Force (IETF). It represents the consensus of the IETF community. It has received public review and has been approved for publication by the Internet Engineering Steering Group (IESG). Further information on Internet Standards is available in Section 2 of RFC 7841. Information about the current status of this document, any errata, and how to provide feedback on it may be obtained at https://www.rfc-editor.org/info/RFC 8859. Copyright Notice Copyright (c) 2021 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 (https://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. Code Components extracted from this document must include Simplified BSD License text as described in Section 4.e of the Trust Legal Provisions and are provided without warranty as described in the Simplified BSD License. Table of Contents 1. Introduction 2. Terminology 3. Motivation 4. SDP Attribute Analysis Framework 4.1. Category: NORMAL 4.2. Category: CAUTION 4.3. Category: IDENTICAL 4.4. Category: SUM 4.5. Category: TRANSPORT 4.6. Category: INHERIT 4.7. Category: IDENTICAL-PER-PT 4.8. Category: SPECIAL 4.9. Category: TBD 5. Analysis of Existing Attributes 5.1. RFC 4566: SDP 5.2. RFC 4585: RTP/AVPF 5.3. RFC 5761: Multiplexing RTP and RTCP 5.4. RFC 3312: Integration of Resource Management and SIP 5.5. RFC 4574: SDP "label" Attribute 5.6. RFC 5432: QoS Mechanism Selection in SDP 5.7. RFC 4568: SDP Security Descriptions 5.8. RFC 5762: RTP over DCCP 5.9. RFC 6773: DCCP-UDP Encapsulation 5.10. RFC 5506: Reduced-Size RTCP in RTP Profile 5.11. RFC 6787: Media Resource Control Protocol Version 2 5.12. RFC 8445: ICE 5.13. RFC 5285: RTP Header Extensions 5.14. RFC 3605: RTCP Attribute in SDP 5.15. RFC 5576: Source-Specific SDP Attributes 5.16. RFC 7273: RTP Clock Source Signaling 5.17. RFC 6236: Image Attributes in SDP 5.18. RFC 7197: Duplication Delay Attribute in SDP 5.19. RFC 7266: RTCP XR Blocks for MOS Metric Reporting 5.20. RFC 6285: Rapid Acquisition of Multicast RTP Sessions 5.21. RFC 6230: Media Control Channel Framework 5.22. RFC 6364: SDP Elements for FEC Framework 5.23. RFC 4796: "content" Attribute 5.24. RFC 3407: SDP Simple Capability Declaration 5.25. RFC 6284: Port Mapping between Unicast and Multicast RTP Sessions 5.26. RFC 6714: MSRP-CEMA 5.27. RFC 4583: SDP Format for BFCP Streams 5.28. RFC 5547: SDP Offer/Answer for File Transfer 5.29. RFC 6849: SDP and RTP Media Loopback Extension 5.30. RFC 5760: RTCP with Unicast Feedback 5.31. RFC 3611: RTCP XR 5.32. RFC 5939: SDP Capability Negotiation 5.33. RFC 6871: SDP Media Capabilities Negotiation 5.34. RFC 7006: Miscellaneous Capabilities Negotiation in SDP 5.35. RFC 4567: Key Management Extensions for SDP and RTSP 5.36. RFC 4572: Comedia over TLS in SDP 5.37. RFC 4570: SDP Source Filters 5.38. RFC 6128: RTCP Port for Multicast Sessions 5.39. RFC 6189: ZRTP 5.40. RFC 4145: Connection-Oriented Media 5.41. RFC 6947: The SDP "altc" Attribute 5.42. RFC 7195: SDP Extension for Circuit-Switched Bearers in PSTN 5.43. RFC 7272: IDMS Using the RTP Control Protocol (RTCP) 5.44. RFC 5159: Open Mobile Alliance (OMA) Broadcast (BCAST) SDP Attributes 5.45. RFC 6193: Media Description for IKE in SDP 5.46. RFC 2326: Real Time Streaming Protocol 5.47. RFC 7826: Real-Time Streaming Protocol 5.48. RFC 6064: SDP and RTSP Extensions for 3GPP 5.49. RFC 3108: ATM SDP 5.50. 3GPP TS 183.063 5.51. 3GPP TS 24.229 5.52. ITU T.38 5.53. ITU-T Q.1970 5.54. ITU-T H.248.15 5.55. RFC 4975: The Message Session Relay Protocol 5.56. Historical Attributes 6. bwtype Attribute Analysis 6.1. RFC 4566: SDP 6.2. RFC 3556: SDP Bandwidth Modifiers for RTCP Bandwidth 6.3. RFC 3890: Bandwidth Modifier for SDP 7. rtcp-fb Attribute Analysis 7.1. RFC 4585: RTP/AVPF 7.2. RFC 5104: Codec Control Messages in AVPF 7.3. RFC 6285: Unicast-Based Rapid Acquisition of Multicast RTP Sessions (RAMS) 7.4. RFC 6679: ECN for RTP over UDP/IP 7.5. RFC 6642: Third-Party Loss Report 7.6. RFC 5104: Codec Control Messages in AVPF 8. group Attribute Analysis 8.1. RFC 5888: SDP Grouping Framework 8.2. RFC 3524: Mapping Media Streams to Resource Reservation Flows 8.3. RFC 4091: ANAT Semantics 8.4. RFC 5956: FEC Grouping Semantics in SDP 8.5. RFC 5583: Signaling Media Decoding Dependency in SDP 8.6. RFC 7104: Duplication Grouping Semantics in the SDP 9. ssrc-group Attribute Analysis 9.1. RFC 5576: Source-Specific SDP Attributes 9.2. RFC 7104: Duplication Grouping Semantics in the SDP 10. QoS Mechanism Token Analysis 10.1. RFC 5432: QoS Mechanism Selection in SDP 11. k= Attribute Analysis 11.1. RFC 4566: SDP 12. content Attribute Analysis 12.1. RFC 4796 12.2. 3GPP TS 24.182 12.3. 3GPP TS 24.183 13. Payload Formats 13.1. RFC 5109: RTP Payload Format for Generic FEC 14. Multiplexing Considerations for Encapsulating Attributes 14.1. RFC 3407: cpar Attribute Analysis 14.2. RFC 5939 Analysis 14.2.1. Recommendation: Procedures for Potential Configuration Pairing 14.3. RFC 6871 Analysis 14.3.1. Recommendation: Dealing with Payload Type Numbers 14.3.2. Recommendation: Dealing with Latent Configurations 15. IANA Considerations 15.1. New "Multiplexing Categories" Subregistry 15.2. "Mux Category" Column for Subregistries 15.2.1. Table: SDP bwtype 15.2.2. Table: attribute-name 15.2.3. Table: content SDP Parameters 15.2.4. Table: Semantics for the "group" SDP Attribute 15.2.5. Table: "rtcp-fb" Attribute Values 15.2.6. Table: "ack" and "nack" Attribute Values 15.2.7. Table: "depend" SDP Attribute Values 15.2.8. Table: "cs-correlation" Attribute Values 15.2.9. Table: Semantics for the "ssrc-group" SDP Attribute 15.2.10. Table: SDP/RTSP Key Management Protocol Identifiers 15.2.11. Table: Codec Control Messages 15.2.12. Table: QoS Mechanism Tokens 15.2.13. Table: SDP Capability Negotiation Option Tags 15.2.14. Table: Timestamp Reference Clock Source Parameters 15.2.15. Table: Media Clock Source Parameters 16. Security Considerations 17. References 17.1. Normative References 17.2. Informative References Acknowledgements Author's Address 1. Introduction SDP defines several attributes for capturing characteristics that apply to the individual media descriptions (described by "m=" lines) and the overall multimedia session. Typically, different media types (audio, video, etc.) described using different media descriptions represent separate RTP sessions that are carried over individual transport-layer flows. However, [RFC 8843] defines a way to use a single address:port combination (BUNDLE address) for receiving media associated with multiple SDP media descriptions. This would, for example, allow the usage of a single set of Interactive Connectivity Establishment (ICE) [RFC 8445] candidates for multiple media descriptions. This, in turn, has made it necessary to understand the interpretation and usage of the SDP attributes defined for the multiplexed media descriptions. Given the number of SDP attributes registered with the [IANA] and the possibility of new attributes being defined in the future, there is need for a framework to analyze these attributes for their applicability in the transport multiplexing use cases. The document starts with providing the motivation for requiring such a framework. This is followed by introduction to the SDP attribute analysis framework and procedures, following which several sections apply the framework to the SDP attributes registered with the [IANA]. 2. Terminology 5-tuple: A collection of the following values: source address, source port, destination address, destination port, and transport- layer protocol. 3GPP: Third Generation Partnership Project; see <https://www.3gpp.org> for more information about this organization. The key words "MUST", "MUST NOT", "REQUIRED", "SHALL", "SHALL NOT", "SHOULD", "SHOULD NOT", "RECOMMENDED", "NOT RECOMMENDED", "MAY", and "OPTIONAL" in this document are to be interpreted as described in BCP 14 [RFC 2119] [RFC 8174] when, and only when, they appear in all capitals, as shown here. 3. Motivation An effort to reduce the number of necessary transport-level flows is required because of the time and complications involved in setting up Secure Real-time Transport Protocol (SRTP) [RFC 5763] transports for use by RTP based on ICE [RFC 8445] and Datagram Transport Layer Security (DTLS). These procedures motivate conservation of ports bindings on the Network Address Translators (NATs). This necessity has resulted in the definition of ways, such as that described in [RFC 8843], to multiplex RTP over a single transport flow in order to preserve network resources such as port numbers. This imposes further restrictions on applicability of the SDP attributes as they are defined today. The specific problem is that there are attribute combinations that make sense when specified on independent "m=" lines -- as with classical SDP -- that do not make sense when those "m=" lines are then multiplexed over the same transport. To give an obvious example, ICE permits each "m=" line to have an independently specified "ice-ufrag" attribute. However, if the media from multiple "m=" lines is multiplexed over the same ICE component, then the meaning of media-level "ice-ufrag" attributes becomes muddled. At the time of writing this document, there are close to 250 SDP attributes registered with the [IANA], and more will be added in the future. There is no clearly defined procedure to establish the validity/applicability of these attributes when used with transport multiplexing. 4. SDP Attribute Analysis Framework Attributes in an SDP session description can be defined at the session level, media level, or source level. Informally, there are various semantic groupings for these attributes. One such grouping could be as follows: * Attributes related to media content such as media type, encoding schemes, and payload types. * Attributes specifying media transport characteristics such as RTP/ RTP Control Protocol (RTCP) port numbers, network addresses, and QoS. * Metadata description attributes capturing session timing and origin information. * Attributes establishing relationships between media descriptions, such as grouping framework [RFC 5888]. The proposed framework analyzes the SDP attributes usage under multiplexing and assigns each SDP attribute to an appropriate multiplexing category. Since the multiplexing categories defined in this specification are independent of any informal semantic groupings of the SDP attributes, the categorizations assigned are normative. 4.1. Category: NORMAL The attributes in the NORMAL category can be independently specified when multiplexed, and they retain their original semantics. In the example given below, the direction and label attributes are independently specified for audio and video "m=" lines. These attributes are not impacted by multiplexing these media streams over a single transport-layer flow. v=0 o=alice 2890844526 2890844527 IN IP4 host.atlanta.example.com s= c=IN IP4 host.atlanta.example.com t=0 0 m=audio 49172 RTP/AVP 99 a=sendonly a=label:1 a=rtpmap:99 iLBC/8000 m=video 49172 RTP/AVP 31 a=recvonly a=label:2 a=rtpmap:31 H261/90000 4.2. Category: CAUTION It is not advisable to multiplex with the attributes in the CAUTION category, since their usage under multiplexing might lead to incorrect behavior. Example: Multiplexing media descriptions over a single Datagram Congestion Control Protocol (DCCP) transport [RFC 5762] is not recommended, since DCCP is a connection-oriented protocol and therefore doesn't allow multiple connections on the same 5-tuple. v=0 o=bob 2890844527 2890844527 IN IP4 client.biloxi.example.com s= c=IN IP4 client.biloxi.example.com t=0 0 m=video 5004 DCCP/RTP/AVP 99 a=rtpmap:99 h261/9000 a=dccp-service-code:SC=x52545056 a=setup:passive a=connection:new m=video 5004 DCCP/RTP/AVP 100 a=rtpmap:100 h261/9000 a=dccp-service-code:SC=x5254504f a=setup:passive a=connection:new 4.3. Category: IDENTICAL The attributes and their associated values (if any) in the IDENTICAL category MUST be repeated across all the media descriptions under multiplexing. Attributes such as rtcp-mux fall into this category. Since RTCP reporting is done per RTP session, RTCP multiplexing MUST be enabled for both the audio and video "m=" lines if they are transported over a single 5-tuple. v=0 o=bob 2890844527 2890844527 IN IP4 client.biloxi.example.com s= c=IN IP4 client.biloxi.example.com t=0 0 m=audio 34567 RTP/AVP 97 a=rtcp-mux m=video 34567 RTP/AVP 31 a=rtpmap:31 H261/90000 a=rtcp-mux Note: Even though IDENTICAL attributes must be repeated across all media descriptions under multiplexing, they might not always be explicitly encoded across all media descriptions. [RFC 8843] defines rules for when attributes and their values are implicitly applied to media description. 4.4. Category: SUM The attributes in the SUM category can be set as they are normally used, but software using them in the multiplexing scenario MUST apply the sum of all the attributes being multiplexed instead of trying to use them independently. This is typically used for bandwidth or other rate-limiting attributes to the underlying transport. The software parsing the SDP sample below should use the aggregate Application Specific (AS) bandwidth value from the individual media descriptions to determine the AS value for the multiplexed session. Thus the calculated AS value would be 256+64 kilobits per second for the given example. v=0 o=test 2890844526 2890842807 IN IP4 client.biloxi.example.com c=IN IP4 client.biloxi.example.com t=0 0 m=audio 49170 RTP/AVP 0 b=AS:64 m=video 51372 RTP/AVP 31 b=AS:256 4.5. Category: TRANSPORT The attributes in the TRANSPORT category can be set normally for multiple items in a multiplexed group, but the software MUST pick the one that's associated with the "m=" line whose information is used for setting up the underlying transport. In the example below, the "a=crypto" attribute is defined for both the audio and video "m=" lines. The video media line's "a=crypto" attribute is chosen since its MID value (bar) appears first in the "a=group:BUNDLE" line. This is due to the BUNDLE grouping semantic [RFC 8843], which mandates that the values from the "m=" line corresponding to the mid appearing first on the "a=group:BUNDLE" line be considered for setting up the RTP transport. v=0 o=alice 2890844526 2890844527 IN IP4 host.atlanta.example.com s= c=IN IP4 host.atlanta.example.com t=0 0 a=group:BUNDLE bar foo m=audio 49172 RTP/AVP 99 a=mid:foo a=crypto:1 AES_CM_128_HMAC_SHA1_80 inline:d0RmdmcmVCspeEc3QGZiNWpVLFJhQX1cfHAwJSoj|2^20|1:32 a=rtpmap:99 iLBC/8000 m=video 51374 RTP/AVP 31 a=mid:bar a=crypto:1 AES_CM_128_HMAC_SHA1_80 inline:EcGZiNWpFJhQXdspcl1ekcmVCNWpVLcfHAwJSoj|2^20|1:32 a=rtpmap:96 H261/90000 4.6. Category: INHERIT The attributes in the INHERIT category encapsulate other SDP attributes or parameters. These attributes inherit their multiplexing characteristics from the attributes or parameters they encapsulate. Such attributes are defined in [RFC 3407], [RFC 5939], and [RFC 6871] as part of a generic framework for indicating and negotiating capabilities in the SDP related to transport, media, and media format. The inheritance manifests itself when the encapsulated attribute or parameter is being leveraged. In the case of SDP Capability Negotiation [RFC 5939], for example, this occurs when a capability (encapsulating attribute) is used as part of a configuration; the configuration inherits the multiplexing category of each of its constituent (encapsulated) attributes and parameters. The inherited attributes MUST be coherent in order to form a valid configuration from a multiplexing point of view (see Section 14 for further details). v=0 o=alice 2890844526 2890844527 IN IP4 host.atlanta.example.com s= c=IN IP4 host.atlanta.example.com t=0 0 m=video 3456 RTP/AVP 100 a=rtpmap:100 VP8/90000 a=fmtp:100 max-fr=30;max-fs=8040 a=sqn: 0 a=cdsc: 1 video RTP/AVP 100 a=cpar: a=rtcp-mux m=video 3456 RTP/AVP 101 a=rtpmap:101 VP8/90000 a=fmtp:100 max-fr=15;max-fs=1200 a=cdsc: 2 video RTP/AVP 101 a=cpar: a=rtcp-mux In this example, the category IDENTICAL is inherited by the cpar- encapsulated "rtcp-mux" attribute. 4.7. Category: IDENTICAL-PER-PT The attributes in the IDENTICAL-PER-PT category define the RTP payload configuration on the basis of the payload type, and they MUST have identical values across all the media descriptions for a given RTP payload type when repeated. These payload types identify the same codec configuration as defined in Section 9.1 of [RFC 8843] under this context. In the SDP example below, Payload Types 96 and 97 are repeated across all the video "m=" lines, and all the payload-specific parameters (for example, rtpmap and fmtp) are identical. (Note: some line breaks are due to formatting only.) v=0 o=alice 2890844526 2890844527 IN IP4 host.atlanta.example.com s= c=IN IP4 host.atlanta.example.com t=0 0 a=group:BUNDLE cam1 cam2 m=video 96 97 a=mid:cam1 a=rtpmap:96 H264/90000 a=fmtp:96 profile-level-id=42400d; max-fs=3600; max-fps=3000; max-mbps=108000; max-br=1000 a=rtpmap:97 H264/90000 a=fmtp:97 profile-level-id=42400a; max-fs=240; max-fps=3000; max-mbps=7200; max-br=200 m=video 96 97 a=mid:cam2 a=rtpmap:96 H264/90000 a=fmtp:96 profile-level-id=42400d; max-fs=3600; max-fps=3000; max-mbps=108000; max-br=1000 a=rtpmap:97 H264/90000 a=fmtp:97 profile-level-id=42400a; max-fs=240; max-fps=3000; max-mbps=7200; max-br=200 4.8. Category: SPECIAL For the attributes in the SPECIAL category, the text in the specification defining the attribute MUST be consulted for further handling when multiplexed. As an example, for the attribute "extmap" [RFC 5285], the specification defining the extension needs to be consulted to understand the multiplexing implications. 4.9. Category: TBD The attributes in the TBD category have not been analyzed under the proposed multiplexing framework and SHOULD NOT be multiplexed. 5. Analysis of Existing Attributes This section analyzes attributes listed in [IANA], grouped under the IETF document that defines them. The "Level" column indicates whether the attribute is currently specified as: * S -- Session level * M -- Media level * B -- Both (Implies either a session level or a media level attribute) * SR -- Source-level (for a single SSRC) [RFC 5576] The "Mux Category" column identifies the multiplexing category assigned to each attribute, and the "Notes" column captures additional informative details regarding the assigned category, wherever necessary. 5.1. RFC 4566: SDP [RFC 4566] defines SDP that is intended for describing multimedia sessions for the purposes of session announcement, session invitation, and other forms of multimedia session initiation. +================+=====================+=======+==================+ | Name | Notes | Level | Mux Category | +================+=====================+=======+==================+ | sendrecv | Not impacted | B | NORMAL | +----------------+---------------------+-------+------------------+ | sendonly | Not impacted | B | NORMAL | +----------------+---------------------+-------+------------------+ | recvonly | Not impacted | B | NORMAL | +----------------+---------------------+-------+------------------+ | inactive | Not impacted | B | NORMAL | +----------------+---------------------+-------+------------------+ | cat | Not impacted | S | NORMAL | +----------------+---------------------+-------+------------------+ | ptime | The attribute value | M | IDENTICAL-PER-PT | | | MUST be the same | | | | | for a given codec | | | | | configuration. | | | +----------------+---------------------+-------+------------------+ | maxptime | The attribute value | M | IDENTICAL-PER-PT | | | MUST be the same | | | | | for a given codec | | | | | configuration. | | | +----------------+---------------------+-------+------------------+ | orient | Not impacted | M | NORMAL | +----------------+---------------------+-------+------------------+ | framerate | The attribute value | M | IDENTICAL-PER-PT | | | MUST be the same | | | | | for a given codec | | | | | configuration. | | | +----------------+---------------------+-------+------------------+ | quality | Not impacted | M | NORMAL | +----------------+---------------------+-------+------------------+ | rtpmap | The attribute value | M | IDENTICAL-PER-PT | | | MUST be the same | | | | | for a given codec | | | | | configuration. | | | +----------------+---------------------+-------+------------------+ | fmtp | The attribute value | M | IDENTICAL-PER-PT | | | MUST be the same | | | | | for a given codec | | | | | configuration. | | | +----------------+---------------------+-------+------------------+ | keywds | Not impacted | S | NORMAL | +----------------+---------------------+-------+------------------+ | type | Not impacted | S | NORMAL | +----------------+---------------------+-------+------------------+ | type:broadcast | Not impacted | S | NORMAL | +----------------+---------------------+-------+------------------+ | type:H332 | Not impacted | S | NORMAL | +----------------+---------------------+-------+------------------+ | type:meeting | Not impacted | S | NORMAL | +----------------+---------------------+-------+------------------+ | type:moderated | Not impacted | S | NORMAL | +----------------+---------------------+-------+------------------+ | type:test | Not impacted | S | NORMAL | +----------------+---------------------+-------+------------------+ | tool | Not impacted | S | NORMAL | +----------------+---------------------+-------+------------------+ | charset | Not impacted | S | NORMAL | +----------------+---------------------+-------+------------------+ | sdplang | Not impacted | B | NORMAL | +----------------+---------------------+-------+------------------+ | lang | Not impacted | B | NORMAL | +----------------+---------------------+-------+------------------+ Table 1: RFC 4566 Attribute Analysis 5.2. RFC 4585: RTP/AVPF [RFC 4585] defines an extension to the Audio-visual Profile (AVP) that enables receivers to provide, statistically, more immediate feedback to the senders and thus allows for short-term adaptation and efficient feedback-based repair mechanisms to be implemented. +=========+===========================+=======+==================+ | Name | Notes | Level | Mux Category | +=========+===========================+=======+==================+ | rtcp-fb | Since RTCP feedback | M | IDENTICAL-PER-PT | | | attributes are scoped by | | | | | payload type (PT), their | | | | | values MUST be identical | | | | | for a given PT across the | | | | | multiplexed "m=" lines. | | | +---------+---------------------------+-------+------------------+ Table 2: RFC 4585 Attribute Analysis 5.3. RFC 5761: Multiplexing RTP and RTCP [RFC 5761] discusses issues that arise when multiplexing RTP data packets and RTP Control Protocol (RTCP) packets on a single UDP port. It describes when such multiplexing is and is not appropriate, and it explains how the SDP can be used to signal multiplexed sessions. +==========+=================================+=======+==============+ | Name | Notes | Level | Mux | | | | | Category | +==========+=================================+=======+==============+ | rtcp-mux | RTP and RTCP multiplexing | M | IDENTICAL | | | affects the entire RTP session. | | | +----------+---------------------------------+-------+--------------+ Table 3: RFC 5761 Attribute Analysis 5.4. RFC 3312: Integration of Resource Management and SIP [RFC 3312] defines a generic framework for preconditions, which are extensible through IANA registration. This document also discusses how network quality of service can be made a precondition for establishment of sessions initiated by the Session Initiation Protocol (SIP). These preconditions require that the participant reserve network resources before continuing with the session. +======+======================+=======+==============+ | Name | Notes | Level | Mux Category | +======+======================+=======+==============+ | des | Refer to notes below | M | CAUTION | +------+----------------------+-------+--------------+ | conf | Refer to notes below | M | CAUTION | +------+----------------------+-------+--------------+ | curr | Refer to notes below | M | CAUTION | +------+----------------------+-------+--------------+ Table 4: RFC 3312 Attribute Analysis NOTE: A mismatched set of preconditions across media descriptions results in session establishment failures due to inability to meet the requested resource reservations. 5.5. RFC 4574: SDP "label" Attribute [RFC 4574] defines a new SDP media-level attribute: "label". The "label" attribute carries a pointer to a media stream in the context of an arbitrary network application that uses SDP. The sender of the SDP document can attach the "label" attribute to a particular media stream or streams. The application can then use the provided pointer to refer to each particular media stream in its context. +=======+==============+=======+==============+ | Name | Notes | Level | Mux Category | +=======+==============+=======+==============+ | label | Not impacted | M | NORMAL | +-------+--------------+-------+--------------+ Table 5: RFC 4574 Attribute Analysis 5.6. RFC 5432: QoS Mechanism Selection in SDP [RFC 5432] defines procedures for negotiating QoS mechanisms using the SDP offer/answer model. +===============+======================+=======+==============+ | Name | Notes | Level | Mux Category | +===============+======================+=======+==============+ | qos-mech-send | Refer to Section 10. | B | TRANSPORT | +---------------+----------------------+-------+--------------+ | qos-mech-recv | Refer to Section 10. | B | TRANSPORT | +---------------+----------------------+-------+--------------+ Table 6: RFC 5432 Attribute Analysis 5.7. RFC 4568: SDP Security Descriptions [RFC 4568] defines an SDP cryptographic attribute for unicast media streams. The attribute describes a cryptographic key and other parameters that serve to configure security for a unicast media stream in either a single message or a roundtrip exchange. +========+=================================+=======+===========+ | Name | Notes | Level | Mux | | | | | Category | +========+=================================+=======+===========+ | crypto | crypto attribute MUST be the | M | TRANSPORT | | | one that corresponds to the | | | | | "m=" line chosen for setting up | | | | | the underlying transport flow. | | | +--------+---------------------------------+-------+-----------+ Table 7: RFC 4568 Attribute Analysis 5.8. RFC 5762: RTP over DCCP RTP is a widely used transport for real-time multimedia on IP networks. DCCP is a transport protocol that provides desirable services for real-time applications. [RFC 5762] specifies a mapping of RTP onto DCCP, along with associated signaling, such that real- time applications can make use of the services provided by DCCP. +===================+======================+=========+==========+ | Name | Notes | Current | Mux | | | | | Category | +===================+======================+=========+==========+ | dccp-service-code | If RFC 6773 is not | M | CAUTION | | | being used in | | | | | addition to RFC 5762, | | | | | the port in the "m=" | | | | | line is a DCCP port. | | | | | Being a connection- | | | | | oriented protocol, | | | | | DCCP does not allow | | | | | multiple connections | | | | | on the same 5-tuple. | | | +-------------------+----------------------+---------+----------+ Table 8: RFC 5762 Attribute Analysis NOTE: If RFC 6773 is being used in addition to RFC 5762, and the DCCP-in-UDP layer has additional demultiplexing, then it may be possible to use different DCCP service codes for each DCCP flow, given each uses a different DCCP port. However, doing so might conflict with the media type of the "m=" line. None of this is standardized yet, and it wouldn't work as explained. Hence performing multiplexing is not recommended even in this alternate scenario. 5.9. RFC 6773: DCCP-UDP Encapsulation [RFC 6773] specifies an alternative encapsulation of DCCP, referred to as DCCP-UDP. This encapsulation allows DCCP to be carried through the current generation of Network Address Translation (NAT) middleboxes without modification of those middleboxes. +===========+==============================+=======+==========+ | Name | Notes | Level | Mux | | | | | Category | +===========+==============================+=======+==========+ | dccp-port | Multiplexing is not | M | CAUTION | | | recommended due to potential | | | | | conflict between the port | | | | | used for DCCP encapsulation/ | | | | | decapsulation and the RTP. | | | +-----------+------------------------------+-------+----------+ Table 9: RFC 6773 Attribute Analysis NOTE: RFC 6773 allows DCCP-UDP encapsulation, with the UDP port being the port of the DCCP encapsulation/decapsulation service. This encapsulation allows arbitrary DCCP packets to be encapsulated, and the DCCP port chosen can conflict with the port chosen for the RTP traffic. Multiplexing several DCCP-in-UDP encapsulations on the same UDP port with no RTP traffic on the same port implies collapsing several DCCP port spaces together. Whether or not this works depends on the nature of DCCP encapsulation and ports choices; it is thus very application dependent. 5.10. RFC 5506: Reduced-Size RTCP in RTP Profile [RFC 5506] discusses benefits and issues that arise when allowing RTCP packets to be transmitted with reduced size. +============+===========================+=======+==============+ | Name | Notes | Level | Mux Category | +============+===========================+=======+==============+ | rtcp-rsize | Reduced-size RTCP affects | M | IDENTICAL | | | the entire RTP session. | | | +------------+---------------------------+-------+--------------+ Table 10: RFC 5506 Attribute Analysis 5.11. RFC 6787: Media Resource Control Protocol Version 2 The Media Resource Control Protocol Version 2 (MRCPv2) allows client hosts to control media service resources such as speech synthesizers, recognizers, verifiers, and identifiers residing in servers on the network. MRCPv2 is not a "stand-alone" protocol; it relies on other protocols, such as the SIP, to coordinate MRCPv2 clients and servers and manage session between them, and SDP to describe, discover, and exchange capabilities. It also depends on SIP and SDP to establish the media sessions and associated parameters between the media source or sink and the media server. Once this is done, the MRCPv2 exchange operates over the control session established above, allowing the client to control the media-processing resources on the speech resource server. [RFC 6787] defines attributes for this purpose. +==========+==============+=======+==============+ | Name | Notes | Level | Mux Category | +==========+==============+=======+==============+ | resource | Not impacted | M | NORMAL | +----------+--------------+-------+--------------+ | channel | Not impacted | M | NORMAL | +----------+--------------+-------+--------------+ | cmid | Not impacted | M | NORMAL | +----------+--------------+-------+--------------+ Table 11: RFC 6787 Attribute Analysis 5.12. RFC 8445: ICE [RFC 8445] describes a protocol for NAT traversal for UDP-based multimedia sessions established with the offer/answer model. ICE makes use of the Session Traversal Utilities for NAT (STUN) protocol and its extension, Traversal Using Relay NAT (TURN). ICE can be used by any protocol utilizing the offer/answer model, such as the SIP. +===================+===========================+=======+===========+ | Name | Notes | Level | Mux | | | | | Category | +===================+===========================+=======+===========+ | ice-lite | Not impacted | S | NORMAL | +-------------------+---------------------------+-------+-----------+ | ice-options | Not impacted | S | NORMAL | +-------------------+---------------------------+-------+-----------+ | ice-mismatch | Not impacted | S | NORMAL | +-------------------+---------------------------+-------+-----------+ | ice-pwd | ice-pwd MUST be the one | B | TRANSPORT | | | that corresponds to the | | | | | "m=" line chosen for | | | | | setting up the | | | | | underlying transport | | | | | flow. | | | +-------------------+---------------------------+-------+-----------+ | ice-ufrag | ice-ufrag MUST be the | B | TRANSPORT | | | one that corresponds to | | | | | the "m=" line chosen | | | | | for setting up the | | | | | underlying transport | | | | | flow. | | | +-------------------+---------------------------+-------+-----------+ | candidate | ice candidate MUST be | M | TRANSPORT | | | the one that | | | | | corresponds to the "m=" | | | | | line chosen for setting | | | | | up the underlying | | | | | transport flow. | | | +-------------------+---------------------------+-------+-----------+ | remote-candidates | ice remote candidate | M | TRANSPORT | | | MUST be the one that | | | | | corresponds to the "m=" | | | | | line chosen for setting | | | | | up the underlying | | | | | transport flow. | | | +-------------------+---------------------------+-------+-----------+ | ice2 | Not impacted | S | NORMAL | +-------------------+---------------------------+-------+-----------+ Table 12: RFC 8445 Attribute Analysis 5.13. RFC 5285: RTP Header Extensions [RFC 5285] provides a general mechanism for using the header-extension feature of RTP. (Note: [RFC 5285] has been obsoleted by [RFC 8285].) It provides the option to use a small number of small extensions in each RTP packet, where the universe of possible extensions is large and registration is decentralized. The actual extensions in use in a session are signaled in the setup information for that session. +========+================================+=======+==============+ | Name | Notes | Level | Mux Category | +========+================================+=======+==============+ | extmap | Refer to the document defining | B | SPECIAL | | | the specific RTP extension. | | | +--------+--------------------------------+-------+--------------+ Table 13: RFC 5285 Attribute Analysis 5.14. RFC 3605: RTCP Attribute in SDP Originally, SDP assumed that RTP and RTCP were carried on consecutive ports. However, this is not always true when NATs are involved. [RFC 3605] specifies an early mechanism for indicating the RTCP port. +======+================================+=======+===========+ | Name | Notes | Level | Mux | | | | | Category | +======+================================+=======+===========+ | rtcp | RTCP port MUST be the one that | M | TRANSPORT | | | corresponds to the "m=" line | | | | | chosen for setting up the | | | | | underlying transport flow. | | | +------+--------------------------------+-------+-----------+ Table 14: RFC 3605 Attribute Analysis 5.15. RFC 5576: Source-Specific SDP Attributes [RFC 5576] defines a mechanism for describing RTP media sources -- which are identified by their synchronization source (SSRC) identifiers -- in SDP, to associate attributes with these sources and express relationships among sources. It also defines several source- level attributes that can be used to describe properties of media sources. +===============+=====================+=======+==================+ | Name | Notes | Level | Mux Category | +===============+=====================+=======+==================+ | ssrc | Refer to notes | M | NORMAL | | | below. | | | +---------------+---------------------+-------+------------------+ | ssrc-group | Refer to Section 9 | M | NORMAL | | | for specific | | | | | analysis of the | | | | | grouping semantics. | | | +---------------+---------------------+-------+------------------+ | cname | Not impacted | SR | NORMAL | +---------------+---------------------+-------+------------------+ | previous-ssrc | Refer to notes | SR | NORMAL | | | below | | | +---------------+---------------------+-------+------------------+ | fmtp | The attribute value | SR | IDENTICAL-PER-PT | | | MUST be the same | | | | | for a given codec | | | | | configuration. | | | +---------------+---------------------+-------+------------------+ Table 15: RFC 5576 Attribute Analysis NOTE: If SSRCs are repeated across "m=" lines being multiplexed, they MUST all represent the same underlying RTP Source. 5.16. RFC 7273: RTP Clock Source Signaling [RFC 7273] specifies SDP signaling that identifies timestamp reference clock sources and SDP signaling that identifies the media clock sources in a multimedia session. +===================+==============+=======+==============+ | Name | Notes | Level | Mux Category | +===================+==============+=======+==============+ | ts-refclk | Not impacted | B | NORMAL | +-------------------+--------------+-------+--------------+ | mediaclk | Not impacted | B | NORMAL | +-------------------+--------------+-------+--------------+ | ts-refclk:ntp | Not impacted | B | NORMAL | +-------------------+--------------+-------+--------------+ | ts-refclk:ptp | Not impacted | B | NORMAL | +-------------------+--------------+-------+--------------+ | ts-refclk:gps | Not impacted | B | NORMAL | +-------------------+--------------+-------+--------------+ | ts-refclk:gal | Not impacted | B | NORMAL | +-------------------+--------------+-------+--------------+ | ts-refclk:glonass | Not impacted | B | NORMAL | +-------------------+--------------+-------+--------------+ | ts-refclk:local | Not impacted | B | NORMAL | +-------------------+--------------+-------+--------------+ | ts-refclk:private | Not impacted | B | NORMAL | +-------------------+--------------+-------+--------------+ | mediaclk:sender | Not impacted | B | NORMAL | +-------------------+--------------+-------+--------------+ | mediaclk:direct | Not impacted | B | NORMAL | +-------------------+--------------+-------+--------------+ | mediaclk:IEEE1722 | Not impacted | B | NORMAL | +-------------------+--------------+-------+--------------+ Table 16: RFC 7273 Attribute Analysis 5.17. RFC 6236: Image Attributes in SDP [RFC 6236] proposes a new generic session setup attribute to make it possible to negotiate different image attributes, such as image size. A possible use case is to make it possible for a low-end handheld terminal to display video without the need to rescale the image, something that may consume large amounts of memory and processing power. The document also helps to maintain an optimal bitrate for video as only the image size that is desired by the receiver is transmitted. +===========+==========================+=======+==================+ | Name | Notes | Level | Mux Category | +===========+==========================+=======+==================+ | imageattr | The attribute value MUST | M | IDENTICAL-PER-PT | | | be the same for a given | | | | | codec configuration. | | | +-----------+--------------------------+-------+------------------+ Table 17: RFC 6236 Attribute Analysis 5.18. RFC 7197: Duplication Delay Attribute in SDP [RFC 7197] defines an attribute to indicate the presence of temporally redundant media streams and the duplication delay in SDP. +===================+==============+=======+==============+ | Name | Notes | Level | Mux Category | +===================+==============+=======+==============+ | duplication-delay | Not impacted | B | NORMAL | +-------------------+--------------+-------+--------------+ Table 18: RFC 7197 Attribute Analysis 5.19. RFC 7266: RTCP XR Blocks for MOS Metric Reporting [RFC 7266] defines an RTCP Extended Report (XR) Block that includes two new segment types and associated SDP parameters that allow the reporting of mean opinion score (MOS) metrics for use in a range of RTP applications. +============+==============+=======+==============+ | Name | Notes | Level | Mux Category | +============+==============+=======+==============+ | calgextmap | Not impacted | B | NORMAL | +------------+--------------+-------+--------------+ Table 19: RFC 7266 Attribute Analysis 5.20. RFC 6285: Rapid Acquisition of Multicast RTP Sessions [RFC 6285] describes a method of using the existing RTP and RTCP machinery that reduces the acquisition delay. In this method, an auxiliary unicast RTP session carrying the reference information to the receiver precedes or accompanies the multicast stream. This unicast RTP flow can be transmitted at a faster-than-natural bitrate to further accelerate the acquisition. The motivating use case for this capability is multicast applications that carry real-time compressed audio and video. +==============+=================+=======+==============+ | Name | Notes | Level | Mux Category | +==============+=================+=======+==============+ | rams-updates | Not recommended | M | CAUTION | +--------------+-----------------+-------+--------------+ Table 20: RFC 6285 Attribute Analysis 5.21. RFC 6230: Media Control Channel Framework [RFC 6230] describes a framework and protocol for application deployment where the application programming logic and media processing are distributed. This implies that application programming logic can seamlessly gain access to appropriate resources that are not co-located on the same physical network entity. The framework uses SIP to establish an application-level control mechanism between application servers and associated external servers such as media servers. +========+==============+=======+==============+ | Name | Notes | Level | Mux Category | +========+==============+=======+==============+ | cfw-id | Not impacted | M | NORMAL | +--------+--------------+-------+--------------+ Table 21: RFC 6230 Attribute Analysis 5.22. RFC 6364: SDP Elements for FEC Framework [RFC 6364] specifies the use of SDP to describe the parameters required to signal the Forward Error Correction (FEC) Framework Configuration Information between the sender(s) and receiver(s). This document also provides examples that show the semantics for grouping multiple source and repair flows together for the applications that simultaneously use multiple instances of the FEC Framework. +=================+======================+=======+==========+ | Name | Notes | Level | Mux | | | | | Category | +=================+======================+=======+==========+ | fec-source-flow | Refer to the | M | SPECIAL | | | document defining | | | | | specific FEC scheme. | | | +-----------------+----------------------+-------+----------+ | fec-repair-flow | Refer to the | M | SPECIAL | | | document defining | | | | | specific FEC scheme. | | | +-----------------+----------------------+-------+----------+ | repair-window | Refer to the | M | SPECIAL | | | document defining | | | | | specific FEC scheme. | | | +-----------------+----------------------+-------+----------+ Table 22: RFC 6364 Attribute Analysis 5.23. RFC 4796: "content" Attribute [RFC 4796] defines a new SDP media-level attribute, "content". The "content" attribute defines the content of the media stream to a more detailed level than the media description line. The sender of an SDP session description can attach the "content" attribute to one or more media streams. The receiving application can then treat each media stream differently (e.g., show it on a big or small screen) based on its content. +=========+==============+=======+==============+ | Name | Notes | Level | Mux Category | +=========+==============+=======+==============+ | content | Not impacted | M | NORMAL | +---------+--------------+-------+--------------+ Table 23: RFC 4796 Attribute Analysis 5.24. RFC 3407: SDP Simple Capability Declaration [RFC 3407] defines a set of SDP attributes that enables SDP to provide a minimal and backwards-compatible capability declaration mechanism. +=========+======================+=======+==============+ | Name | Notes | Level | Mux Category | +=========+======================+=======+==============+ | sqn | Not impacted | B | NORMAL | +---------+----------------------+-------+--------------+ | cdsc | Not impacted | B | NORMAL | +---------+----------------------+-------+--------------+ | cpar | Refer to Section 14 | B | INHERIT | +---------+----------------------+-------+--------------+ | cparmin | Refer to notes below | B | SPECIAL | +---------+----------------------+-------+--------------+ | cparmax | Refer to notes below | B | SPECIAL | +---------+----------------------+-------+--------------+ Table 24: RFC 3407 Attribute Analysis NOTE: The attributes "a=cparmin" and "a=cparmax" define minimum and maximum numerical values associated with the attributes described in "a=cpar". Since the cpar attribute can either define a "b=" attribute or any "a=" attribute, the multiplexing category depends on the actual attribute being encapsulated and the implications of the numerical values assigned. Hence it is recommended to consult the specification defining attributes "cparmin" and "cparmax" to further analyze their behavior under multiplexing. 5.25. RFC 6284: Port Mapping between Unicast and Multicast RTP Sessions [RFC 6284] presents a port-mapping solution that allows RTP receivers to choose their own ports for an auxiliary unicast session in RTP applications using both unicast and multicast services. The solution provides protection against denial-of-service or packet amplification attacks that could be used to cause one or more RTP packets to be sent to a victim client. +=================+=========================+=======+==========+ | Name | Notes | Level | Mux | | | | | Category | +=================+=========================+=======+==========+ | portmapping-req | Not recommended if port | M | CAUTION | | | mapping is required by | | | | | the application | | | +-----------------+-------------------------+-------+----------+ Table 25: RFC 6284 Attribute Analysis 5.26. RFC 6714: MSRP-CEMA [RFC 6714] defines a Message Session Relay Protocol (MSRP) extension, Connection Establishment for Media Anchoring (CEMA). Support of this extension is optional. The extension allows middleboxes to anchor the MSRP connection without the need for middleboxes to modify the MSRP messages; thus, it also enables secure end-to-end MSRP communication in networks where such middleboxes are deployed. This document also defines an SDP attribute, "msrp-cema", that MSRP endpoints use to indicate support of the CEMA extension. +===========+======================+=======+==============+ | Name | Notes | Level | Mux Category | +===========+======================+=======+==============+ | msrp-cema | Refer to notes below | M | TBD | +-----------+----------------------+-------+--------------+ Table 26: RFC 6714 Attribute Analysis NOTE: As per Section 9 of [RFC 8843], there exists no publicly available specification that defines procedures for multiplexing/ demultiplexing MSRP flows over a single 5-tuple. Once such a specification is available, the assignments of multiplexing categories for the attributes in this section could be revisited. 5.27. RFC 4583: SDP Format for BFCP Streams [RFC 4583] specifies how to describe Binary Floor Control Protocol (BFCP) streams in SDP descriptions. User agents using the offer/ answer model to establish BFCP streams use this format in their offers and answers. +===========+======================+=======+==============+ | Name | Notes | Level | Mux Category | +===========+======================+=======+==============+ | floorctrl | Refer to notes below | M | TBD | +-----------+----------------------+-------+--------------+ | confid | Refer to notes below | M | TBD | +-----------+----------------------+-------+--------------+ | userid | Refer to notes below | M | TBD | +-----------+----------------------+-------+--------------+ | floorid | Refer to notes below | M | TBD | +-----------+----------------------+-------+--------------+ Table 27: RFC 4583 Attribute Analysis NOTE: [RFC 4583] has been obsoleted by [RFC 8856], which redefines the SDP attributes listed in this section, including the "Mux Category" values. However, [RFC 8856] does not change the "Mux Category" values of the attributes. NOTE: As per Section 9 of [RFC 8843], there exists no publicly available specification that defines procedures for multiplexing/ demultiplexing BFCP streams over a single 5-tuple. Once such a specification is available, the assignments of multiplexing categories for the attributes in this section could be revisited. 5.28. RFC 5547: SDP Offer/Answer for File Transfer [RFC 5547] provides a mechanism to negotiate the transfer of one or more files between two endpoints by using the SDP offer/answer model specified in [RFC 3264]. +==================+======================+=======+==============+ | Name | Notes | Level | Mux Category | +==================+======================+=======+==============+ | file-selector | Refer to notes below | M | TBD | +------------------+----------------------+-------+--------------+ | file-transfer-id | Refer to notes below | M | TBD | +------------------+----------------------+-------+--------------+ | file-disposition | Refer to notes below | M | TBD | +------------------+----------------------+-------+--------------+ | file-date | Refer to notes below | M | TBD | +------------------+----------------------+-------+--------------+ | file-icon | Refer to notes below | M | TBD | +------------------+----------------------+-------+--------------+ | file-range | Refer to notes below | M | TBD | +------------------+----------------------+-------+--------------+ Table 28: RFC 5547 Attribute Analysis NOTE: As per Section 9 of [RFC 8843], there exists no publicly available specification that defines procedures for multiplexing/ demultiplexing MSRP flows over a single 5-tuple. Once such a specification is available, the assignments of multiplexing categories for attributes in this section could be revisited. 5.29. RFC 6849: SDP and RTP Media Loopback Extension [RFC 6849] adds new SDP media types and attributes that enable establishment of media sessions where the media is looped back to the transmitter. Such media sessions will serve as monitoring and troubleshooting tools by providing the means for measurement of more advanced Voice over IP (VoIP), real-time text, and Video over IP performance metrics. +====================+================+=======+==================+ | Name | Notes | Level | Mux Category | +====================+================+=======+==================+ | loopback rtp-pkt- | The attribute | M | IDENTICAL-PER-PT | | loopback | value MUST be | | | | | same for a | | | | | given codec | | | | | configuration. | | | +--------------------+----------------+-------+------------------+ | loopback rtp- | The attribute | M | IDENTICAL-PER-PT | | media-loopback | value MUST be | | | | | same for a | | | | | given codec | | | | | configuration. | | | +--------------------+----------------+-------+------------------+ | loopback-source | Not impacted | M | NORMAL | +--------------------+----------------+-------+------------------+ | loopback-mirror | Not impacted | M | NORMAL | +--------------------+----------------+-------+------------------+ Table 29: RFC 6849 Analysis 5.30. RFC 5760: RTCP with Unicast Feedback [RFC 5760] specifies an extension to RTCP to use unicast feedback to a multicast sender. The proposed extension is useful for single-source multicast sessions such as source-specific multicast (SSM) communication where the traditional model of many-to-many group communication is either not available or not desired. +==============+=========================+=======+===========+ | Name | Notes | Level | Mux | | | | | Category | +==============+=========================+=======+===========+ | rtcp-unicast | The attribute MUST be | M | IDENTICAL | | | reported across all | | | | | multiplexed "m=" lines. | | | +--------------+-------------------------+-------+-----------+ Table 30: RFC 5760 Attribute Analysis 5.31. RFC 3611: RTCP XR [RFC 3611] defines the Extended Report (XR) packet type for RTCP and defines how the use of XR packets can be signaled by an application if it employs the Session Description Protocol (SDP). +=========+==============+=======+==============+ | Name | Notes | Level | Mux Category | +=========+==============+=======+==============+ | rtcp-xr | Not impacted | B | NORMAL | +---------+--------------+-------+--------------+ Table 31: RFC 3611 Attribute Analysis 5.32. RFC 5939: SDP Capability Negotiation [RFC 5939] defines a general SDP Capability Negotiation framework. It also specifies how to provide attributes and transport protocols as capabilities and negotiate them using the framework. Extensions for other types of capabilities (e.g., media types and media formats) may be provided in other documents. +========+=====================+=======+==============+ | Name | Notes | Level | Mux Category | +========+=====================+=======+==============+ | pcfg | Refer to Section 14 | M | SPECIAL | +--------+---------------------+-------+--------------+ | acfg | Refer to Section 14 | M | SPECIAL | +--------+---------------------+-------+--------------+ | csup | Not impacted | B | NORMAL | +--------+---------------------+-------+--------------+ | creq | Not impacted | B | NORMAL | +--------+---------------------+-------+--------------+ | acap | Refer to Section 14 | B | INHERIT | +--------+---------------------+-------+--------------+ | tcap | Refer to Section 14 | B | INHERIT | +--------+---------------------+-------+--------------+ | cap-v0 | Not impacted | B | NORMAL | +--------+---------------------+-------+--------------+ Table 32: RFC 5939 Attribute Analysis 5.33. RFC 6871: SDP Media Capabilities Negotiation SDP capability negotiation provides a general framework for indicating and negotiating capabilities in SDP. The base framework only defines capabilities for negotiating transport protocols and attributes. [RFC 6871] extends the framework by defining media capabilities that can be used to negotiate media types and their associated parameters. +========+======================+=======+==================+ | Name | Notes | Level | Mux Category | +========+======================+=======+==================+ | rmcap | Refer to Section 14 | B | IDENTICAL-PER-PT | +--------+----------------------+-------+------------------+ | omcap | Not impacted | B | NORMAL | +--------+----------------------+-------+------------------+ | mfcap | Refer to Section 14 | B | IDENTICAL-PER-PT | +--------+----------------------+-------+------------------+ | mscap | Refer to Section 14 | B | INHERIT | +--------+----------------------+-------+------------------+ | lcfg | Refer to Section 14 | B | SPECIAL | +--------+----------------------+-------+------------------+ | sescap | Refer to notes below | S | CAUTION | +--------+----------------------+-------+------------------+ | med-v0 | Not impacted | S | NORMAL | +--------+----------------------+-------+------------------+ Table 33: RFC 6871 Attribute Analysis NOTE: The "sescap" attribute is not recommended for use with multiplexing. The reason is that it requires the use of unique configuration numbers across the entire SDP (per [RFC 6871]) as opposed to within a media description only (per [RFC 5939]). As described in Section 14, the use of identical configuration numbers between multiplexed (bundled) media descriptions is the default way of indicating compatible configurations in a bundle. 5.34. RFC 7006: Miscellaneous Capabilities Negotiation in SDP [RFC 7006] extends the SDP Capability Negotiation framework to allow endpoints to negotiate three additional SDP capabilities. In particular, this memo provides a mechanism to negotiate bandwidth ("b=" line), connection data ("c=" line), and session or media titles ("i=" line for each session or media). +=========+==================================+=======+===========+ | Name | Notes | Level | Mux | | | | | Category | +=========+==================================+=======+===========+ | bcap | Inherit the category SUM as | B | INHERIT | | | applicable to the "b=" attribute | | | +---------+----------------------------------+-------+-----------+ | bcap-v0 | Not impacted | B | NORMAL | +---------+----------------------------------+-------+-----------+ | ccap | The connection address type MUST | B | IDENTICAL | | | be identical across all the | | | | | multiplexed "m=" lines. | | | +---------+----------------------------------+-------+-----------+ | ccap-v0 | Not impacted | B | NORMAL | +---------+----------------------------------+-------+-----------+ | icap | Not impacted | B | NORMAL | +---------+----------------------------------+-------+-----------+ | icap-v0 | Not impacted | B | NORMAL | +---------+----------------------------------+-------+-----------+ Table 34: RFC 7006 Attribute Analysis 5.35. RFC 4567: Key Management Extensions for SDP and RTSP [RFC 4567] defines general extensions for SDP and Real-Time Streaming Protocol (RTSP) to carry messages, as specified by a key management protocol, in order to secure the media. These extensions are presented as a framework to be used by one or more key management protocols. As such, their use is meaningful only when complemented by an appropriate key management protocol. +==========+==========================+=======+===========+ | Name | Notes | Level | Mux | | | | | Category | +==========+==========================+=======+===========+ | key-mgmt | Key management protocol | B | IDENTICAL | | | MUST be identical across | | | | | all the "m=" lines. | | | +----------+--------------------------+-------+-----------+ | mikey | Key management protocol | B | IDENTICAL | | | MUST be identical across | | | | | all the "m=" lines. | | | +----------+--------------------------+-------+-----------+ Table 35: RFC 4567 Attribute Analysis 5.36. RFC 4572: Comedia over TLS in SDP [RFC 4572] specifies how to establish secure connection-oriented media transport sessions over the Transport Layer Security (TLS) protocol using SDP. (Note: [RFC 4572] has been obsoleted by [RFC 8122].) It defines a new SDP protocol identifier, "TCP/TLS". It also defines the syntax and semantics for an SDP "fingerprint" attribute that identifies the certificate that will be presented for the TLS session. This mechanism allows media transport over TLS connections to be established securely, so long as the integrity of session descriptions is assured. +=============+=================================+=======+===========+ | Name | Notes | Level | Mux | | | | | Category | +=============+=================================+=======+===========+ | fingerprint | fingerprint value MUST be | B | TRANSPORT | | | the one that corresponds | | | | | to the "m=" line chosen | | | | | for setting up the | | | | | underlying transport flow. | | | +-------------+---------------------------------+-------+-----------+ Table 36: RFC 4572 Attribute Analysis 5.37. RFC 4570: SDP Source Filters [RFC 4570] describes how to adapt SDP to express one or more source addresses as a source filter for one or more destination "connection" addresses. It defines the syntax and semantics for an SDP "source- filter" attribute that may reference either IPv4 or IPv6 address(es) as either an inclusive or exclusive source list for either multicast or unicast destinations. In particular, an inclusive source filter can be used to specify a source-specific multicast (SSM) session. +===============+=========================+=======+===========+ | Name | Notes | Level | Mux | | | | | Category | +===============+=========================+=======+===========+ | source-filter | The attribute MUST be | B | IDENTICAL | | | repeated across all | | | | | multiplexed "m=" lines. | | | +---------------+-------------------------+-------+-----------+ Table 37: RFC 4570 Attribute Analysis 5.38. RFC 6128: RTCP Port for Multicast Sessions SDP has an attribute that allows RTP applications to specify an address and a port associated with the RTCP traffic. In RTP-based source-specific multicast (SSM) sessions, the same attribute is used to designate the address and the RTCP port of the Feedback Target in the SDP description. However, the RTCP port associated with the SSM session itself cannot be specified by the same attribute to avoid ambiguity and thus is required to be derived from the "m=" line of the media description. Deriving the RTCP port from the "m=" line imposes an unnecessary restriction. [RFC 6128] removes this restriction by introducing a new SDP attribute. +================+==========================+=======+===========+ | Name | Notes | Level | Mux | | | | | Category | +================+==========================+=======+===========+ | multicast-rtcp | Multicast RTCP port MUST | B | IDENTICAL | | | be identical across all | | | | | the "m=" lines. | | | +----------------+--------------------------+-------+-----------+ Table 38: RFC 6128 Attribute Analysis 5.39. RFC 6189: ZRTP [RFC 6189] defines ZRTP, a protocol for media path Diffie-Hellman exchange to agree on a session key and parameters for establishing unicast SRTP sessions for VoIP applications. +===========+=================================+=======+===========+ | Name | Notes | Level | Mux | | | | | Category | +===========+=================================+=======+===========+ | zrtp-hash | The zrtp-hash attribute MUST be | M | TRANSPORT | | | the one that corresponds to the | | | | | "m=" line chosen for setting up | | | | | the underlying transport flow. | | | +-----------+---------------------------------+-------+-----------+ Table 39: RFC 6189 Attribute Analysis 5.40. RFC 4145: Connection-Oriented Media [RFC 4145] describes how to express media transport over TCP using SDP. It defines the SDP "TCP" protocol identifier, the SDP "setup" attribute, which describes the connection setup procedure, and the SDP "connection" attribute, which handles connection re- establishment. +============+==================================+=======+===========+ | Name | Notes | Level | Mux | | | | | Category | +============+==================================+=======+===========+ | setup | The setup attribute MUST be the | B | TRANSPORT | | | one that corresponds to the | | | | | "m=" line chosen for setting up | | | | | the underlying transport flow. | | | +------------+----------------------------------+-------+-----------+ | connection | The connection attribute MUST | B | TRANSPORT | | | be the one that corresponds to | | | | | the "m=" line chosen for | | | | | setting up the underlying | | | | | transport flow. | | | +------------+----------------------------------+-------+-----------+ Table 40: RFC 4145 Attribute Analysis 5.41. RFC 6947: The SDP "altc" Attribute [RFC 6947] proposes a mechanism that allows the same SDP offer to carry multiple IP addresses of different address families (e.g., IPv4 and IPv6). The proposed "altc" attribute solves the backward- compatibility problem that plagued Alternative Network Address Types (ANAT) due to their syntax. +======+=================================+=======+===========+ | Name | Notes | Level | Mux | | | | | Category | +======+=================================+=======+===========+ | altc | The IP address and port MUST be | M | TRANSPORT | | | the ones that correspond to the | | | | | "m=" line chosen for setting up | | | | | the underlying transport flow. | | | +------+---------------------------------+-------+-----------+ Table 41: RFC 6947 Attribute Analysis 5.42. RFC 7195: SDP Extension for Circuit-Switched Bearers in PSTN [RFC 7195] describes use cases, requirements, and protocol extensions for using the SDP offer/answer model for establishing audio and video media streams over circuit-switched bearers in the Public Switched Telephone Network (PSTN). +=========================+=============+=======+==============+ | Name | Notes | Level | Mux Category | +=========================+=============+=======+==============+ | cs-correlation:callerid | Refer to | M | TBD | | | notes below | | | +-------------------------+-------------+-------+--------------+ | cs-correlation:uuie | Refer to | M | TBD | | | notes below | | | +-------------------------+-------------+-------+--------------+ | cs-correlation:dtmf | Refer to | M | TBD | | | notes below | | | +-------------------------+-------------+-------+--------------+ | cs-correlation:external | Refer to | M | TBD | | | notes below | | | +-------------------------+-------------+-------+--------------+ Table 42: RFC 7195 Attribute Analysis NOTE: [RFC 7195] defines SDP attributes for establishing audio and video media streams over circuit-switched bearers by defining a new nettype value, "PSTN". However, Section 7.2 of [RFC 8843] requires the "c=" line nettype value to be "IN". If there exists in future a specification that defines procedures to multiplex media streams over nettype "PSTN", the multiplexing categories for attributes in this section could be revisited. 5.43. RFC 7272: IDMS Using the RTP Control Protocol (RTCP) [RFC 7272] defines a new RTCP packet type and an RTCP Extended Report (XR) Block Type to be used for achieving Inter-Destination Media Synchronization (IDMS). +===========+==============+=======+==============+ | Name | Notes | Level | Mux Category | +===========+==============+=======+==============+ | rtcp-idms | Not impacted | M | NORMAL | +-----------+--------------+-------+--------------+ Table 43: RFC 7272 Attribute Analysis 5.44. RFC 5159: Open Mobile Alliance (OMA) Broadcast (BCAST) SDP Attributes [RFC 5159] provides descriptions of SDP attributes used by the Open Mobile Alliance's "Service and Content Protection for Mobile Broadcast Services" specification. +====================+===============+=======+==============+ | Name | Notes | Level | Mux Category | +====================+===============+=======+==============+ | bcastversion | Not impacted | S | NORMAL | +--------------------+---------------+-------+--------------+ | stkmstream | Not impacted | B | NORMAL | +--------------------+---------------+-------+--------------+ | SRTPAuthentication | Needs further | M | TBD | | | analysis | | | +--------------------+---------------+-------+--------------+ | SRTPROCTxRate | Needs further | M | TBD | | | analysis | | | +--------------------+---------------+-------+--------------+ Table 44: RFC 5159 Attribute Analysis 5.45. RFC 6193: Media Description for IKE in SDP [RFC 6193] specifies how to establish a media session that represents a virtual private network using the Session Initiation Protocol for the purpose of on-demand media/application sharing between peers. It extends the protocol identifier of SDP so that it can negotiate use of the Internet Key Exchange Protocol (IKE) for media sessions in the SDP offer/answer model. +==================+============================+=======+==========+ | Name | Notes | Level | Mux | | | | | Category | +==================+============================+=======+==========+ | ike-setup | Unlikely to use IKE in the | B | CAUTION | | | context of multiplexing | | | +------------------+----------------------------+-------+----------+ | psk-fingerprint | Unlikely to use IKE in the | B | CAUTION | | | context of multiplexing | | | +------------------+----------------------------+-------+----------+ | ike-esp | Unlikely to use IKE in the | B | CAUTION | | | context of multiplexing | | | +------------------+----------------------------+-------+----------+ | ike-esp-udpencap | Unlikely to use IKE in the | B | CAUTION | | | context of multiplexing | | | +------------------+----------------------------+-------+----------+ Table 45: RFC 6193 Attribute Analysis 5.46. RFC 2326: Real Time Streaming Protocol The Real Time Streaming Protocol, or RTSP, is an application-level protocol for control over the delivery of data with real-time properties. RTSP provides an extensible framework to enable controlled, on-demand delivery of real-time data, such as audio and video. +=========+=======================+=======+==============+ | Name | Notes | Level | Mux Category | +=========+=======================+=======+==============+ | etag | RFC 2326 is obsolete. | B | CAUTION | +---------+-----------------------+-------+--------------+ | range | RFC 2326 is obsolete. | B | CAUTION | +---------+-----------------------+-------+--------------+ | control | RFC 2326 is obsolete. | B | CAUTION | +---------+-----------------------+-------+--------------+ | mtag | RFC 2326 is obsolete. | B | CAUTION | +---------+-----------------------+-------+--------------+ Table 46: RFC 2326 Attribute Analysis NOTE: [RFC 2326] defines SDP attributes that are applicable in the declarative usage of SDP alone. For the purposes of this document, only the offer/answer usage of SDP is considered to be mandated by [RFC 8843]. 5.47. RFC 7826: Real-Time Streaming Protocol The Real-Time Streaming Protocol, or RTSP, is an application-level protocol for control over the delivery of data with real-time properties. RTSP provides an extensible framework to enable controlled, on-demand delivery of real-time data, such as audio and video. +=========+===========================+=======+==============+ | Name | Notes | Level | Mux Category | +=========+===========================+=======+==============+ | range | RTSP is not supported for | B | CAUTION | | | RTP stream multiplexing. | | | +---------+---------------------------+-------+--------------+ | control | RTSP is not supported for | B | CAUTION | | | RTP stream multiplexing. | | | +---------+---------------------------+-------+--------------+ | mtag | RTSP is not supported for | B | CAUTION | | | RTP stream multiplexing. | | | +---------+---------------------------+-------+--------------+ Table 47: RFC 7826 Attribute Analysis NOTE: [RFC 7826] defines SDP attributes that are applicable in the declarative usage of SDP alone. For the purposes of this document, only the offer/answer usage of SDP is considered to be mandated by [RFC 8843]. 5.48. RFC 6064: SDP and RTSP Extensions for 3GPP The Packet-switched Streaming Service (PSS) and the Multimedia Broadcast/Multicast Service (MBMS) defined by 3GPP use SDP and RTSP with some extensions. [RFC 6064] provides information about these extensions and registers the RTSP and SDP extensions with IANA. +==============================+=============+=======+==============+ | Name | Notes | Level | Mux | | | | | Category | +==============================+=============+=======+==============+ | X-predecbufsize | Refer to | M | CAUTION | | | notes below | | | +------------------------------+-------------+-------+--------------+ | X-initpredecbufperiod | Refer to | M | CAUTION | | | notes below | | | +------------------------------+-------------+-------+--------------+ | X-initpostdecbufperiod | Refer to | M | CAUTION | | | notes below | | | +------------------------------+-------------+-------+--------------+ | X-decbyterate | Refer to | M | CAUTION | | | notes below | | | +------------------------------+-------------+-------+--------------+ | 3gpp-videopostdecbufsize | Refer to | M | CAUTION | | | notes below | | | +------------------------------+-------------+-------+--------------+ | framesize | Refer to | M | CAUTION | | | notes below | | | +------------------------------+-------------+-------+--------------+ | 3GPP-Integrity-Key | Refer to | S | CAUTION | | | notes below | | | +------------------------------+-------------+-------+--------------+ | 3GPP-SDP-Auth | Refer to | S | CAUTION | | | notes below | | | +------------------------------+-------------+-------+--------------+ | 3GPP-SRTP-Config | Refer to | M | CAUTION | | | notes below | | | +------------------------------+-------------+-------+--------------+ | alt | Refer to | M | CAUTION | | | notes below | | | +------------------------------+-------------+-------+--------------+ | alt-default-id | Refer to | M | CAUTION | | | notes below | | | +------------------------------+-------------+-------+--------------+ | alt-group | Refer to | S | CAUTION | | | notes below | | | +------------------------------+-------------+-------+--------------+ | 3GPP-Adaptation-Support | Refer to | M | CAUTION | | | notes below | | | +------------------------------+-------------+-------+--------------+ | 3GPP-Asset-Information | Refer to | B | CAUTION | | | notes below | | | +------------------------------+-------------+-------+--------------+ | mbms-mode | Refer to | B | CAUTION | | | notes below | | | +------------------------------+-------------+-------+--------------+ | mbms-flowid | Refer to | M | CAUTION | | | notes below | | | +------------------------------+-------------+-------+--------------+ | mbms-repair | Refer to | B | CAUTION | | | notes below | | | +------------------------------+-------------+-------+--------------+ | 3GPP-QoE-Metrics | Refer to | M | CAUTION | | | notes below | | | +------------------------------+-------------+-------+--------------+ | 3GPP-QoE-Metrics:Corruption | Refer to | M | CAUTION | | duration | notes below | | | +------------------------------+-------------+-------+--------------+ | 3GPP-QoE-Metrics:Rebuffering | Refer to | M | CAUTION | | duration | notes below | | | +------------------------------+-------------+-------+--------------+ | 3GPP-QoE-Metrics:Initial | Refer to | M | CAUTION | | buffering duration | notes below | | | +------------------------------+-------------+-------+--------------+ | 3GPP-QoE-Metrics:Successive | Refer to | M | CAUTION | | loss of RTP packets | notes below | | | +------------------------------+-------------+-------+--------------+ | 3GPP-QoE-Metrics:Frame rate | Refer to | M | CAUTION | | deviation | notes below | | | +------------------------------+-------------+-------+--------------+ | 3GPP-QoE-Metrics:Jitter | Refer to | M | CAUTION | | duration | notes below | | | +------------------------------+-------------+-------+--------------+ | 3GPP-QoE-Metrics:Content | Refer to | B | CAUTION | | Switch Time | notes below | | | +------------------------------+-------------+-------+--------------+ | 3GPP-QoE-Metrics:Average | Refer to | M | CAUTION | | Codec Bitrate | notes below | | | +------------------------------+-------------+-------+--------------+ | 3GPP-QoE-Metrics:Codec | Refer to | M | CAUTION | | Information | notes below | | | +------------------------------+-------------+-------+--------------+ | 3GPP-QoE-Metrics:Buffer | Refer to | M | CAUTION | | Status | notes below | | | +------------------------------+-------------+-------+--------------+ Table 48: RFC 6064 Attribute Analysis NOTE: [RFC 6064] defines SDP attributes that are applicable in the declarative usage of SDP alone. For the purposes of this document, only the offer/answer usage of SDP is considered to be mandated by [RFC 8843]. 5.49. RFC 3108: ATM SDP [RFC 3108] describes conventions for using SDP described for controlling ATM bearer connections and any associated ATM Adaptation Layer (AAL). +=======================+=============+=======+==============+ | Name | Notes | Level | Mux Category | +=======================+=============+=======+==============+ | aalType | Refer to | B | CAUTION | | | notes below | | | +-----------------------+-------------+-------+--------------+ | eecid | Refer to | B | CAUTION | | | notes below | | | +-----------------------+-------------+-------+--------------+ | capability | Refer to | B | CAUTION | | | notes below | | | +-----------------------+-------------+-------+--------------+ | qosClass | Refer to | B | CAUTION | | | notes below | | | +-----------------------+-------------+-------+--------------+ | bcob | Refer to | B | CAUTION | | | notes below | | | +-----------------------+-------------+-------+--------------+ | stc | Refer to | B | CAUTION | | | notes below | | | +-----------------------+-------------+-------+--------------+ | upcc | Refer to | B | CAUTION | | | notes below | | | +-----------------------+-------------+-------+--------------+ | atmQOSparms | Refer to | B | CAUTION | | | notes below | | | +-----------------------+-------------+-------+--------------+ | atmTrfcDesc | Refer to | B | CAUTION | | | notes below | | | +-----------------------+-------------+-------+--------------+ | abrParms | Refer to | B | CAUTION | | | notes below | | | +-----------------------+-------------+-------+--------------+ | abrSetup | Refer to | B | CAUTION | | | notes below | | | +-----------------------+-------------+-------+--------------+ | bearerType | Refer to | B | CAUTION | | | notes below | | | +-----------------------+-------------+-------+--------------+ | lij | Refer to | B | CAUTION | | | notes below | | | +-----------------------+-------------+-------+--------------+ | anycast | Refer to | B | CAUTION | | | notes below | | | +-----------------------+-------------+-------+--------------+ | cache | Refer to | B | CAUTION | | | notes below | | | +-----------------------+-------------+-------+--------------+ | bearerSigIE | Refer to | B | CAUTION | | | notes below | | | +-----------------------+-------------+-------+--------------+ | aalApp | Refer to | B | CAUTION | | | notes below | | | +-----------------------+-------------+-------+--------------+ | cbrRate | Refer to | B | CAUTION | | | notes below | | | +-----------------------+-------------+-------+--------------+ | sbc | Refer to | B | CAUTION | | | notes below | | | +-----------------------+-------------+-------+--------------+ | clkrec | Refer to | B | CAUTION | | | notes below | | | +-----------------------+-------------+-------+--------------+ | fec | Refer to | B | CAUTION | | | notes below | | | +-----------------------+-------------+-------+--------------+ | prtfl | Refer to | B | CAUTION | | | notes below | | | +-----------------------+-------------+-------+--------------+ | structure | Refer to | B | CAUTION | | | notes below | | | +-----------------------+-------------+-------+--------------+ | cpsSDUsize | Refer to | B | CAUTION | | | notes below | | | +-----------------------+-------------+-------+--------------+ | aal2CPS | Refer to | B | CAUTION | | | notes below | | | +-----------------------+-------------+-------+--------------+ | aal2CPSSDUrate | Refer to | B | CAUTION | | | notes below | | | +-----------------------+-------------+-------+--------------+ | aal2sscs3661unassured | Refer to | B | CAUTION | | | notes below | | | +-----------------------+-------------+-------+--------------+ | aal2sscs3661assured | Refer to | B | CAUTION | | | notes below | | | +-----------------------+-------------+-------+--------------+ | aal2sscs3662 | Refer to | B | CAUTION | | | notes below | | | +-----------------------+-------------+-------+--------------+ | aal5sscop | Refer to | B | CAUTION | | | notes below | | | +-----------------------+-------------+-------+--------------+ | atmmap | Refer to | B | CAUTION | | | notes below | | | +-----------------------+-------------+-------+--------------+ | silenceSupp | Refer to | B | CAUTION | | | notes below | | | +-----------------------+-------------+-------+--------------+ | ecan | Refer to | B | CAUTION | | | notes below | | | +-----------------------+-------------+-------+--------------+ | gc | Refer to | B | CAUTION | | | notes below | | | +-----------------------+-------------+-------+--------------+ | profileDesc | Refer to | B | CAUTION | | | notes below | | | +-----------------------+-------------+-------+--------------+ | vsel | Refer to | B | CAUTION | | | notes below | | | +-----------------------+-------------+-------+--------------+ | dsel | Refer to | B | CAUTION | | | notes below | | | +-----------------------+-------------+-------+--------------+ | fsel | Refer to | B | CAUTION | | | notes below | | | +-----------------------+-------------+-------+--------------+ | onewaySel | Refer to | B | CAUTION | | | notes below | | | +-----------------------+-------------+-------+--------------+ | codecconfig | Refer to | B | CAUTION | | | notes below | | | +-----------------------+-------------+-------+--------------+ | isup_usi | Refer to | B | CAUTION | | | notes below | | | +-----------------------+-------------+-------+--------------+ | uiLayer1_Prot | Refer to | B | CAUTION | | | notes below | | | +-----------------------+-------------+-------+--------------+ | chain | Refer to | B | CAUTION | | | notes below | | | +-----------------------+-------------+-------+--------------+ Table 49: RFC 3108 Attribute Analysis NOTE: RFC 3108 describes conventions for using SDP for characterizing ATM bearer connections using an AAL1, AAL2, or AAL5 adaptation layer. For AAL1, AAL2, and AAL5, bearer connections can be used to transport single media streams. In addition, for AAL1 and AAL2, multiple media streams can be multiplexed into a bearer connection. For all adaptation types (AAL1, AAL2, and AAL5), bearer connections can be bundled into a single media group. In all cases addressed by RFC 3108, a real-time media stream (voice, video, voiceband data, pseudowire, and others) or a multiplex of media streams is mapped directly into an ATM connection. RFC 3108 does not address cases where ATM serves as a low-level transport pipe for IP packets that can, in turn, carry one or more real-time (e.g., VoIP) media sessions with a life cycle different from that of the underlying ATM transport. 5.50. 3GPP TS 183.063 [TISPAN] describes Telecommunications and Internet converged Services and Protocols for Advanced Networking (TISPAN); +====================+==============+=======+==============+ | Name | Notes | Level | Mux Category | +====================+==============+=======+==============+ | PSCid | Not impacted | S | NORMAL | +--------------------+--------------+-------+--------------+ | bc_service | Not impacted | S | NORMAL | +--------------------+--------------+-------+--------------+ | bc_program | Not impacted | S | NORMAL | +--------------------+--------------+-------+--------------+ | bc_service_package | Not impacted | S | NORMAL | +--------------------+--------------+-------+--------------+ Table 50: 3GPP TS 183.063 Attribute Analysis 5.51. 3GPP TS 24.229 [IP-CALL] specifies an IP multimedia call control protocol based on Session Initial protocol and Session Description Protocol. +=================+============================+=======+===========+ | Name | Notes | Level | Mux | | | | | Category | +=================+============================+=======+===========+ | secondary-realm | secondary-realm MUST be | M | TRANSPORT | | | the one that corresponds | | | | | to the "m=" line chosen | | | | | for setting up the | | | | | underlying transport flow. | | | +-----------------+----------------------------+-------+-----------+ | visited-realm | visited-realm MUST be the | M | TRANSPORT | | | one that corresponds to | | | | | the "m=" line chosen for | | | | | setting up the underlying | | | | | transport flow. | | | +-----------------+----------------------------+-------+-----------+ | omr-m-cksum | Not impacted | M | NORMAL | +-----------------+----------------------------+-------+-----------+ | omr-s-cksum | Not impacted | M | NORMAL | +-----------------+----------------------------+-------+-----------+ | omr-m-att | Not impacted | M | NORMAL | +-----------------+----------------------------+-------+-----------+ | omr-s-att | Not impacted | M | NORMAL | +-----------------+----------------------------+-------+-----------+ | omr-m-bw | Not impacted | M | NORMAL | +-----------------+----------------------------+-------+-----------+ | omr-s-bw | Not impacted | M | NORMAL | +-----------------+----------------------------+-------+-----------+ | omr-codecs | Not impacted | M | NORMAL | +-----------------+----------------------------+-------+-----------+ Table 51: 3GPP TS 24.229 Attribute Analysis 5.52. ITU T.38 [T.38] defines procedures for real-time Group 3 facsimile communications over IP networks. +=======================+=============+=======+==============+ | Name | Notes | Level | Mux Category | +=======================+=============+=======+==============+ | T38FaxVersion | Refer to | M | TBD | | | notes below | | | +-----------------------+-------------+-------+--------------+ | T38MaxBitRate | Refer to | M | TBD | | | notes below | | | +-----------------------+-------------+-------+--------------+ | T38FaxFillBitRemoval | Refer to | M | TBD | | | notes below | | | +-----------------------+-------------+-------+--------------+ | T38FaxTranscodingMMR | Refer to | M | TBD | | | notes below | | | +-----------------------+-------------+-------+--------------+ | T38FaxTranscodingJBIG | Refer to | M | TBD | | | notes below | | | +-----------------------+-------------+-------+--------------+ | T38FaxRateManagement | Refer to | M | TBD | | | notes below | | | +-----------------------+-------------+-------+--------------+ | T38FaxMaxBuffer | Refer to | M | TBD | | | notes below | | | +-----------------------+-------------+-------+--------------+ | T38FaxMaxDatagram | Refer to | M | TBD | | | notes below | | | +-----------------------+-------------+-------+--------------+ | T38FaxUdpEC | Refer to | M | TBD | | | notes below | | | +-----------------------+-------------+-------+--------------+ | T38FaxMaxIFP | Refer to | M | TBD | | | notes below | | | +-----------------------+-------------+-------+--------------+ | T38FaxUdpECDepth | Refer to | M | TBD | | | notes below | | | +-----------------------+-------------+-------+--------------+ | T38FaxUdpFECMaxSpan | Refer to | M | TBD | | | notes below | | | +-----------------------+-------------+-------+--------------+ | T38ModemType | Refer to | M | TBD | | | notes below | | | +-----------------------+-------------+-------+--------------+ | T38VendorInfo | Refer to | M | TBD | | | notes below | | | +-----------------------+-------------+-------+--------------+ Table 52: ITU T.38 Attribute Analysis NOTE: As per Section 9 of [RFC 8843], there exists no publicly available specification that defines procedures for multiplexing/ demultiplexing fax protocol flows over a single 5-tuple. Once such a specification is available, the multiplexing category assignments for the attributes in this section could be revisited. 5.53. ITU-T Q.1970 [Q.1970] defines Bearer Independent Call Control (BICC) IP bearer control protocol. +=======+=====================================+=======+==========+ | Name | Notes | Level | Mux | | | | | Category | +=======+=====================================+=======+==========+ | ipbcp | ipbcp version identifies the types | S | SPECIAL | | | of IP bearer control protocol | | | | | (IPBCP) message used in BICC (ITU-T | | | | | Q.1901) environment that are | | | | | limited to single-media payload. | | | | | Refer to the pertinent ITU-T | | | | | specifications while multiplexing. | | | +-------+-------------------------------------+-------+----------+ Table 53: ITU-T Q.1970 Attribute Analysis 5.54. ITU-T H.248.15 ITU-T H.248.15 [H.248.15] defines the Gateway Control Protocol SDP H.248 package attribute. +==========+=====================================+=======+==========+ | Name | Notes | Level | Mux | | | | | Category | +==========+=====================================+=======+==========+ | h248item | It is only applicable for | B | SPECIAL | | | signaling the inclusion of H.248 | | | | | extension packages to a gateway | | | | | via the local and remote | | | | | descriptors. The attribute | | | | | itself is unaffected by | | | | | multiplexing, but the package | | | | | referenced in a specific use of | | | | | the attribute can be impacted. | | | | | Further analysis of each package | | | | | is needed to determine if there | | | | | is an issue. This is only a | | | | | concern in environments using a | | | | | decomposed server/gateway with | | | | | H.248 signaled between them. The | | | | | ITU-T will need to do further | | | | | analysis of various packages when | | | | | they specify how to signal the | | | | | use of multiplexing to a gateway. | | | +----------+-------------------------------------+-------+----------+ Table 54: ITU-T H.248.15 Attribute Analysis 5.55. RFC 4975: The Message Session Relay Protocol [RFC 4975] describes the Message Session Relay Protocol, a protocol for transmitting a series of related instant messages in the context of a session. Message sessions are treated like any other media stream when set up via a rendezvous or session-creation protocol such as the Session Initiation Protocol. +======================+=============+=======+==============+ | Name | Notes | Level | Mux Category | +======================+=============+=======+==============+ | accept-types | Refer to | M | TBD | | | notes below | | | +----------------------+-------------+-------+--------------+ | accept-wrapped-types | Refer to | M | TBD | | | notes below | | | +----------------------+-------------+-------+--------------+ | max-size | Refer to | M | TBD | | | notes below | | | +----------------------+-------------+-------+--------------+ | path | Refer to | M | TBD | | | notes below | | | +----------------------+-------------+-------+--------------+ Table 55: RFC 4975 Attribute Analysis NOTE: As per Section 9 of [RFC 8843], there exists no publicly available specification that defines procedures for multiplexing/ demultiplexing MSRP flows over a single 5-tuple. Once such a specification is available, the multiplexing categories assignments for the attributes in this section could be revisited. 5.56. Historical Attributes This section specifies analysis for the attributes that are included for historic usage alone by the [IANA]. +=========+=====================+=======+==============+ | Name | Notes | Level | Mux Category | +=========+=====================+=======+==============+ | rtpred1 | Historic attributes | M | CAUTION | +---------+---------------------+-------+--------------+ | rtpred2 | Historic attributes | M | CAUTION | +---------+---------------------+-------+--------------+ Table 56: Historical Attribute Analysis 6. bwtype Attribute Analysis This section specifies handling of specific bandwidth attributes when used in multiplexing scenarios. 6.1. RFC 4566: SDP [RFC 4566] defines SDP that is intended for describing multimedia sessions for the purposes of session announcement, session invitation, and other forms of multimedia session initiation. +===========+=================================+=======+==========+ | Name | Notes | Level | Mux | | | | | Category | +===========+=================================+=======+==========+ | bwtype:CT | Not impacted | S | NORMAL | +-----------+---------------------------------+-------+----------+ | bwtype:AS | For media-level usage, the | B | SUM | | | aggregate of individual | | | | | bandwidth values is considered. | | | +-----------+---------------------------------+-------+----------+ Table 57: RFC 4566 bwtype Analysis 6.2. RFC 3556: SDP Bandwidth Modifiers for RTCP Bandwidth [RFC 3556] defines an extension to SDP to specify two additional modifiers for the bandwidth attribute. These modifiers may be used to specify the bandwidth allowed for RTCP packets in an RTP session. +===========+================================+=======+==========+ | Name | Notes | Level | Mux | | | | | Category | +===========+================================+=======+==========+ | bwtype:RS | Session-level usage represents | B | SUM | | | session aggregate, and media- | | | | | level usage indicates SUM of | | | | | the individual values while | | | | | multiplexing. | | | +-----------+--------------------------------+-------+----------+ | bwtype:RR | Session-level usage represents | B | SUM | | | session aggregate, and media- | | | | | level usage indicates SUM of | | | | | the individual values while | | | | | multiplexing. | | | +-----------+--------------------------------+-------+----------+ Table 58: RFC 3556 bwtype Analysis 6.3. RFC 3890: Bandwidth Modifier for SDP [RFC 3890] defines SDP Transport Independent Application Specific Maximum (TIAS) bandwidth modifier that does not include transport overhead; instead, an additional packet-rate attribute is defined. The transport-independent bitrate value together with the maximum packet rate can then be used to calculate the real bitrate over the transport actually used. +=============+==================================+=======+==========+ | Name | Notes | Level | Mux | | | | | Category | +=============+==================================+=======+==========+ | bwtype:TIAS | The usage of TIAS is not | B | SPECIAL | | | defined under offer/answer | | | | | usage. | | | +-------------+----------------------------------+-------+----------+ | maxprate | The usage of TIAS and | B | SPECIAL | | | maxprate is not well | | | | | defined under multiplexing. | | | +-------------+----------------------------------+-------+----------+ Table 59: RFC 3890 bwtype Analysis NOTE: The intention of TIAS is that the media-level bitrate is multiplied with the known per-packet overhead for the selected transport and the maxprate value to determine the worst-case bitrate from the transport to more accurately capture the required usage. Summing TIAS values independently across "m=" lines and multiplying the computed sum with maxprate and the per-packet overhead would inflate the value significantly. Instead, performing multiplication and adding the individual values is a more appropriate usage. 7. rtcp-fb Attribute Analysis This section analyzes rtcp-fb SDP attributes. 7.1. RFC 4585: RTP/AVPF [RFC 4585] defines an extension to the Audio-Visual Profile (AVP) that enables receivers to provide, statistically, more immediate feedback to the senders; it thus allows for short-term adaptation and implementation of efficient feedback-based repair mechanisms. +=========+=============================+=======+==================+ | Name | Notes | Level | Mux Category | +=========+=============================+=======+==================+ | ack | The attribute value MUST be | M | IDENTICAL-PER-PT | | rpsi | the same for a given codec | | | | | configuration. | | | +---------+-----------------------------+-------+------------------+ | ack app | Feedback parameters MUST be | M | SPECIAL | | | handled in the app-specific | | | | | way when multiplexed. | | | +---------+-----------------------------+-------+------------------+ | nack | The attribute value MUST be | M | IDENTICAL-PER-PT | | | the same for a given codec | | | | | configuration. | | | +---------+-----------------------------+-------+------------------+ | nack | The attribute value MUST be | M | IDENTICAL-PER-PT | | pli | the same for a given codec | | | | | configuration. | | | +---------+-----------------------------+-------+------------------+ | nack | The attribute value MUST be | M | IDENTICAL-PER-PT | | sli | the same for a given codec | | | | | configuration. | | | +---------+-----------------------------+-------+------------------+ | nack | The attribute value MUST be | M | IDENTICAL-PER-PT | | rpsi | the same for a given codec | | | | | configuration. | | | +---------+-----------------------------+-------+------------------+ | nack | Feedback parameters MUST be | M | SPECIAL | | app | handled in the app specific | | | | | way when multiplexed. | | | +---------+-----------------------------+-------+------------------+ | trr-int | The attribute value MUST be | M | IDENTICAL-PER-PT | | | the same for a given codec | | | | | configuration. | | | +---------+-----------------------------+-------+------------------+ Table 60: RFC 4585 Attribute Analysis 7.2. RFC 5104: Codec Control Messages in AVPF [RFC 5104] specifies a few extensions to the messages defined in the Audio-Visual Profile with Feedback (AVPF). They are helpful primarily in conversational multimedia scenarios where centralized multipoint functionalities are in use. However, some are also usable in smaller multicast environments and point-to-point calls. +======+==========================+=======+==================+ | Name | Notes | Level | Mux Category | +======+==========================+=======+==================+ | ccm | The attribute value MUST | M | IDENTICAL-PER-PT | | | be the same for a given | | | | | codec configuration. | | | +------+--------------------------+-------+------------------+ Table 61: RFC 5104 Attribute Analysis 7.3. RFC 6285: Unicast-Based Rapid Acquisition of Multicast RTP Sessions (RAMS) [RFC 6285] describes a method of using the existing RTP and RTCP machinery that reduces the acquisition delay. In this method, an auxiliary unicast RTP session carrying the Reference Information to the receiver precedes or accompanies the multicast stream. This unicast RTP flow can be transmitted at a faster-than-natural bitrate to further accelerate the acquisition. The motivating use case for this capability is multicast applications that carry real-time compressed audio and video. +======+==========================+=======+==================+ | Name | Notes | Level | Mux Category | +======+==========================+=======+==================+ | nack | The attribute value MUST | M | IDENTICAL-PER-PT | | rai | be the same for a given | | | | | codec configuration. | | | +------+--------------------------+-------+------------------+ Table 62: RFC 6285 Attribute Analysis 7.4. RFC 6679: ECN for RTP over UDP/IP [RFC 6679] specifies how Explicit Congestion Notification (ECN) can be used with the RTP running over UDP, using the RTCP as a feedback mechanism. It defines a new RTCP Extended Report (XR) block for periodic ECN feedback, a new RTCP transport feedback message for timely reporting of congestion events, and a STUN extension used in the optional initialization method using ICE. +=================+============================+=======+===========+ | Name | Notes | Level | Mux | | | | | Category | +=================+============================+=======+===========+ | ecn-capable-rtp | ECN markup is enabled at | M | IDENTICAL | | | the RTP session level. | | | +-----------------+----------------------------+-------+-----------+ | nack ecn | This attribute enables ECN | M | IDENTICAL | | | at the RTP session level. | | | +-----------------+----------------------------+-------+-----------+ Table 63: RFC 6679 Attribute Analysis 7.5. RFC 6642: Third-Party Loss Report In a large RTP session using the RTCP feedback mechanism defined in [RFC 4585], a feedback target may experience transient overload if some event causes a large number of receivers to send feedback at once. This overload is usually avoided by ensuring that feedback reports are forwarded to all receivers, allowing them to avoid sending duplicate feedback reports. However, there are cases where it is not recommended to forward feedback reports, and this may allow feedback implosion. [RFC 6642] discusses these cases and defines a new RTCP Third-Party Loss Report that can be used to inform receivers that the feedback target is aware of some loss event, allowing them to suppress feedback. Associated SDP signaling is also defined. +=======+==========================+=======+==================+ | Name | Notes | Level | Mux Category | +=======+==========================+=======+==================+ | nack | The attribute value MUST | M | IDENTICAL-PER-PT | | tllei | be the same for a given | | | | | codec configuration. | | | +-------+--------------------------+-------+------------------+ | nack | The attribute value MUST | M | IDENTICAL-PER-PT | | pslei | be the same for a given | | | | | codec configuration. | | | +-------+--------------------------+-------+------------------+ Table 64: RFC 6642 Attribute Analysis 7.6. RFC 5104: Codec Control Messages in AVPF [RFC 5104] specifies a few extensions to the messages defined in the Audio-Visual Profile with Feedback (AVPF). They are helpful primarily in conversational multimedia scenarios where centralized multipoint functionalities are in use. However, some are also usable in smaller multicast environments and point-to-point calls. +=======+==========================+=======+==================+ | Name | Notes | Level | Mux Category | +=======+==========================+=======+==================+ | ccm | The attribute value MUST | M | IDENTICAL-PER-PT | | fir | be the same for a given | | | | | codec configuration. | | | +-------+--------------------------+-------+------------------+ | ccm | The attribute value MUST | M | IDENTICAL-PER-PT | | tmmbr | be the same for a given | | | | | codec configuration. | | | +-------+--------------------------+-------+------------------+ | ccm | The attribute value MUST | M | IDENTICAL-PER-PT | | tstr | be the same for a given | | | | | codec configuration. | | | +-------+--------------------------+-------+------------------+ | ccm | The attribute value MUST | M | IDENTICAL-PER-PT | | vbcm | be the same for a given | | | | | codec configuration. | | | +-------+--------------------------+-------+------------------+ Table 65: RFC 5104 Attribute Analysis 8. group Attribute Analysis This section analyzes SDP "group" attribute semantics [RFC 5888]. 8.1. RFC 5888: SDP Grouping Framework [RFC 5888] defines a framework to group "m=" lines in SDP for different purposes. +===========+==============+=======+==============+ | Name | Notes | Level | Mux Category | +===========+==============+=======+==============+ | group:LS | Not impacted | S | NORMAL | +-----------+--------------+-------+--------------+ | group:FID | Not impacted | S | NORMAL | +-----------+--------------+-------+--------------+ Table 66: RFC 5888 Attribute Analysis 8.2. RFC 3524: Mapping Media Streams to Resource Reservation Flows [RFC 3524] defines an extension to the SDP grouping framework. It allows requesting a group of media streams to be mapped into a single resource reservation flow. The SDP syntax needed is defined, as well as a new "semantics" attribute called Single Reservation Flow (SRF). +===========+==============+=======+==============+ | Name | Notes | Level | Mux Category | +===========+==============+=======+==============+ | group:SRF | Not impacted | S | NORMAL | +-----------+--------------+-------+--------------+ Table 67: RFC 3524 Attribute Analysis 8.3. RFC 4091: ANAT Semantics [RFC 4091] defines ANAT semantics for the SDP grouping framework. (Note: [RFC 4091] has been obsoleted by [RFC 8445].) The ANAT semantics allow alternative types of network addresses to establish a particular media stream. +============+==============================+=======+==============+ | Name | Notes | Level | Mux Category | +============+==============================+=======+==============+ | group:ANAT | ANAT semantics is obsoleted. | S | CAUTION | +------------+------------------------------+-------+--------------+ Table 68: RFC 4091 Attribute Analysis 8.4. RFC 5956: FEC Grouping Semantics in SDP [RFC 5956] defines the semantics for grouping the associated source and FEC-based repair flows in SDP. The semantics defined in the document are to be used with the SDP Grouping Framework [RFC 5888]. These semantics allow the description of grouping relationships between the source and repair flows when one or more source and/or repair flows are associated in the same group; they also provide support for additive repair flows. SSRC-level grouping semantics are also defined in this document for RTP streams using SSRC multiplexing. +==============+==============+=======+==============+ | Name | Notes | Level | Mux Category | +==============+==============+=======+==============+ | group:FEC-FR | Not impacted | S | NORMAL | +--------------+--------------+-------+--------------+ Table 69: RFC 5956 Attribute Analysis 8.5. RFC 5583: Signaling Media Decoding Dependency in SDP [RFC 5583] defines semantics that allow for signaling the decoding dependency of different media descriptions with the same media type in SDP. This is required, for example, if media data is separated and transported in different network streams as a result of using a layered or multiple descriptive media coding process. +===========+==========================+=======+==================+ | Name | Notes | Level | Mux Category | +===========+==========================+=======+==================+ | group:DDP | Not impacted | S | NORMAL | +-----------+--------------------------+-------+------------------+ | depend | The attribute value MUST | M | IDENTICAL-PER-PT | | lay | be the same for a given | | | | | codec configuration. | | | +-----------+--------------------------+-------+------------------+ | depend | The attribute value MUST | M | IDENTICAL-PER-PT | | mdc | be the same for a given | | | | | codec configuration. | | | +-----------+--------------------------+-------+------------------+ Table 70: RFC 5583 Attribute Analysis 8.6. RFC 7104: Duplication Grouping Semantics in the SDP [RFC 7104] defines the semantics for grouping redundant streams in SDP. The semantics defined in this document are to be used with the SDP Grouping Framework. Grouping semantics at the synchronization source (SSRC) level are also defined in this document for RTP streams using SSRC multiplexing. +===========+==============+=======+==============+ | Name | Notes | Level | Mux Category | +===========+==============+=======+==============+ | group:DUP | Not impacted | S | NORMAL | +-----------+--------------+-------+--------------+ Table 71: RFC 7104 Attribute Analysis 9. ssrc-group Attribute Analysis This section analyzes "ssrc-group" semantics. 9.1. RFC 5576: Source-Specific SDP Attributes [RFC 5576] defines a mechanism for describing RTP media sources -- which are identified by their synchronization source (SSRC) identifiers -- in SDP, to associate attributes with these sources and express relationships among sources. It also defines several source- level attributes that can be used to describe properties of media sources. +===================+==============+=======+==============+ | Name | Notes | Level | Mux Category | +===================+==============+=======+==============+ | ssrc-group:FID | Not impacted | SR | NORMAL | +-------------------+--------------+-------+--------------+ | ssrc-group:FEC | Not impacted | SR | NORMAL | +-------------------+--------------+-------+--------------+ | ssrc-group:FEC-FR | Not impacted | SR | NORMAL | +-------------------+--------------+-------+--------------+ Table 72: RFC 5576 Attribute Analysis 9.2. RFC 7104: Duplication Grouping Semantics in the SDP [RFC 7104] defines the semantics for grouping redundant streams in SDP. The semantics defined in this document are to be used with the SDP Grouping Framework. Grouping semantics at the synchronization source (SSRC) level are also defined in this document for RTP streams using SSRC multiplexing. +================+==============+=======+==============+ | Name | Notes | Level | Mux Category | +================+==============+=======+==============+ | ssrc-group:DUP | Not impacted | SR | NORMAL | +----------------+--------------+-------+--------------+ Table 73: RFC 7104 Attribute Analysis 10. QoS Mechanism Token Analysis This section analyzes QoS tokes specified with SDP. 10.1. RFC 5432: QoS Mechanism Selection in SDP [RFC 5432] defines procedures to negotiate QoS mechanisms using the SDP offer/answer model. +======+================================+=======+===========+ | Name | Notes | Level | Mux | | | | | Category | +======+================================+=======+===========+ | rsvp | rsvp attribute MUST be the one | B | TRANSPORT | | | that corresponds to the "m=" | | | | | line chosen for setting up the | | | | | underlying transport flow. | | | +------+--------------------------------+-------+-----------+ | nsis | rsvp attribute MUST be the one | B | TRANSPORT | | | that corresponds to the "m=" | | | | | line chosen for setting up the | | | | | underlying transport. | | | +------+--------------------------------+-------+-----------+ Table 74: RFC 5432 Attribute Analysis NOTE: A single Differentiated Services Code Point (DSCP) for each flow being multiplexed doesn't impact multiplexing, since QoS mechanisms are signaled/scoped per flow. For scenarios that involve having different DSCP code points for packets being transmitted over the same 5-tuple, issues as discussed in [RFC 7657] need to be taken into consideration. 11. k= Attribute Analysis 11.1. RFC 4566: SDP [RFC 4566] defines SDP that is intended for describing multimedia sessions for the purposes of session announcement, session invitation, and other forms of multimedia session initiation. +======+===================================+=======+==============+ | Name | Notes | Level | Mux Category | +======+===================================+=======+==============+ | k= | It is not recommended to use this | S | CAUTION | | | attribute under multiplexing. | | | +------+-----------------------------------+-------+--------------+ Table 75: RFC 4566 Attribute Analysis 12. content Attribute Analysis 12.1. RFC 4796 [RFC 4796] defines a new SDP media-level attribute, "content". The "content" attribute defines the content of the media stream to a more detailed level than the media description line. The sender of an SDP session description can attach the "content" attribute to one or more media streams. The receiving application can then treat each media stream differently (e.g., show it on a big or small screen) based on its content. +=================+==============+=======+==============+ | Name | Notes | Level | Mux Category | +=================+==============+=======+==============+ | content:slides | Not impacted | M | NORMAL | +-----------------+--------------+-------+--------------+ | content:speaker | Not impacted | M | NORMAL | +-----------------+--------------+-------+--------------+ | content:main | Not impacted | M | NORMAL | +-----------------+--------------+-------+--------------+ | content:sl | Not impacted | M | NORMAL | +-----------------+--------------+-------+--------------+ | content:alt | Not impacted | M | NORMAL | +-----------------+--------------+-------+--------------+ Table 76: RFC 4796 Attribute Analysis 12.2. 3GPP TS 24.182 [IMS-CAT] specifies an IP multimedia subsystem for customized alerting tones. +============+=========================+=======+==============+ | Name | Notes | Level | Mux Category | +============+=========================+=======+==============+ | g.3gpp.cat | Usage defined for the | M | NORMAL | | | IP multimedia subsystem | | | +------------+-------------------------+-------+--------------+ Table 77: 3GPP TS 24.182 Attribute Analysis 12.3. 3GPP TS 24.183 [IMS-CRS] specifies an IP multimedia subsystem for customized ringing signal. +============+=========================+=======+==============+ | Name | Notes | Level | Mux Category | +============+=========================+=======+==============+ | g.3gpp.crs | Usage defined for the | M | NORMAL | | | IP multimedia subsystem | | | +------------+-------------------------+-------+--------------+ Table 78: 3GPP TS 24.183 Attribute Analysis 13. Payload Formats 13.1. RFC 5109: RTP Payload Format for Generic FEC [RFC 5109] describes a payload format for generic Forward Error Correction (FEC) for media data encapsulated in RTP. It is based on the exclusive-or (parity) operation. The payload format allows end systems to apply protection using various protection lengths and levels, in addition to using various protection group sizes to adapt to different media and channel characteristics. It enables complete recovery of the protected packets or partial recovery of the critical parts of the payload, depending on the packet loss situation. +==============+=====================+=======+==========+ | Name | Notes | Level | Mux | | | | | Category | +==============+=====================+=======+==========+ | audio/ulpfec | Not recommended for | M | CAUTION | | | multiplexing due to | | | | | reuse of SSRCs. | | | +--------------+---------------------+-------+----------+ | video/ulpfec | Not recommended for | M | CAUTION | | | multiplexing due to | | | | | reuse of SSRCs. | | | +--------------+---------------------+-------+----------+ | text/ulpfec | Not recommended for | M | CAUTION | | | multiplexing due to | | | | | reuse of SSRCs. | | | +--------------+---------------------+-------+----------+ | application/ | Not recommended for | M | CAUTION | | ulpfec | multiplexing due to | | | | | reuse of SSRCs. | | | +--------------+---------------------+-------+----------+ Table 79: RFC 5109 Payload Format Analysis 14. Multiplexing Considerations for Encapsulating Attributes This section deals with recommendations for defining the multiplexing characteristics of the SDP attributes that encapsulate other SDP attributes/parameters. As of today, such attributes, for example, are defined in [RFC 3407], [RFC 5939] and [RFC 6871] as part of a generic framework for indicating and negotiating transport-, media-, and media-format-related capabilities in the SDP. The behavior of such attributes under multiplexing is, in turn, defined by the multiplexing behavior of the attributes they encapsulate, which are made known once the offer/answer negotiation process is completed. 14.1. RFC 3407: cpar Attribute Analysis The [RFC 3407] capability parameter attribute "a=cpar" encapsulates a "b=" (bandwidth) or an "a=" attribute. For bandwidth attribute encapsulation, the category SUM is inherited. For the case of "a=" attribute, the category corresponding to the SDP attribute being encapsulated is inherited. v=0 o=alice 2890844526 2890844527 IN IP4 host.atlanta.example.com s= c=IN IP4 host.atlanta.example.com t=0 0 m=video 3456 RTP/AVP 100 a=rtpmap:100 VP8/90000 a=sqn: 0 a=cdsc: 1 video RTP/AVP 100 a=cpar: a=rtcp-mux m=video 3456 RTP/AVP 101 a=rtpmap:101 VP8/90000 a=fmtp:100 max-fr=15;max-fs=1200 a=cdsc: 2 video RTP/AVP 101 a=cpar: a=rtcp-mux In this example, the category IDENTICAL is inherited for the cpar- encapsulated "rtcp-mux" attribute. 14.2. RFC 5939 Analysis [RFC 5939] defines a general SDP capability negotiation framework. It also specifies how to provide transport protocols and SDP attributes as capabilities and negotiate them using the framework. For this purpose, [RFC 5939] defines the following: * A set of capabilities for the session and its associated media- stream components, supported by each side. The attribute "a=acap" defines how to list an attribute name and its associated value (if any) as a capability. The attribute "a=tcap" defines how to list transport protocols (e.g., "RTP/AVP") as capabilities. * A set of potential configurations ("a=pcfg") provided by the offerer to indicate which combinations of those capabilities can be used for the session and its associated media stream components. Potential configurations are not ready for use until fully negotiated. They provide an alternative that MAY be used, subject to SDP capability-negotiation procedures. In particular, the answerer MAY choose one of the potential configurations for use as part of the current offer/answer exchange. * An actual configuration ("a=acfg") for the session and its associated media stream components. The actual configuration identifies the potential configuration that was negotiated for use. Use of an actual configuration does not require any further negotiation. * A negotiation process that takes the current actual and the set of potential configurations (combinations of capabilities) as input and provides the negotiated actual configurations as output. In [RFC 5939], the negotiation process is done independently for each media description. 14.2.1. Recommendation: Procedures for Potential Configuration Pairing This section provides recommendations for entities generating and processing SDP under the generic capability-negotiation framework as defined in [RFC 5939] under the context of media-stream multiplexing. These recommendations are provided for the purposes of enabling the offerer to make sure that the generated potential configurations between the multiplexed streams can (easily) be negotiated to be consistent between those streams. In particular, the procedures aim to simplify the answerer's procedure for choosing potential configurations that are consistent across all the multiplexed media descriptions. A potential configuration selects a set of attributes and parameters that become part of the media description when negotiated. When multiplexing media descriptions with potential configurations specified, there MAY be a need for coordinating this selection between multiplexed media descriptions to ensure the right multiplexing behavior. Although it is possible to analyze the various potential configurations in multiplexed media descriptions to find combinations that satisfy such constraints, it can quickly become complicated to do so. The procedures defined in [RFC 5939] state that each potential configuration in the SDP has a unique configuration number; however, the scope of uniqueness is limited to each media description. To make it simple for the answerer to chose valid combinations of potential configurations across media descriptions in a given BUNDLE group, we provide a simple rule for constructing potential configurations: * Let m-bundle be the set of media descriptions that form a given bundle. * Let m-bundle-pcfg be the set of media descriptions in m-bundle that include one or more potential configurations. * Each media description in m-bundle-pcfg MUST have at least one potential configuration with the same configuration number (e.g., "1"). * For each potential configuration with configuration number x in m- bundle-pcfg, the offerer MUST ensure that if the answerer chooses configuration number x in each of the media descriptions in m- bundle-pcfg, then the resulting SDP will have all multiplexing constraints satisfied for those media descriptions. * Since it is nearly impossible to define a generic mechanism for various capability extensions, this document doesn't provide procedures for dealing with the capability-extension attributes. However, Section 14.3 provides analysis of media-capability- extension attributes as defined in [RFC 6871]. The above allows the answerer to easily find multiplexing-compatible combinations of potential configurations. The answerer simply chooses a potential configuration (number) that is present in all of the media descriptions with potential configurations in the bundle. Note that it is still possible for the offerer to provide additional potential configurations with independent configuration numbers. The answerer will have to perform more complicated analysis to determine valid multiplexed combinations of those. 14.2.1.1. Example: Transport-Capability Multiplexing v=0 o=alice 2890844526 2890844527 IN IP4 host.atlanta.example.com s= c=IN IP4 host.atlanta.example.com t=0 0 a=tcap:1 RTP/SAVPF a=tcap:2 RTP/SAVP a=group:BUNDLE audio video m=audio a=mid:audio a=pcfg:1 t=1 a=pcfg:2 m=video a=mid:video a=pcfg:1 t=1 a=pcfg:2 t=2 In this example, the potential configurations that offer transport- protocol capability of RTP/SAVPF have the same configuration number "1" in both the audio and video media descriptions. 14.2.1.2. Example: Attribute-Capability Multiplexing v=0 o=alice 2890844526 2890844527 IN IP4 host.atlanta.example.com s= c=IN IP4 host.atlanta.example.com t=0 0 a=acap:1 a=rtcp-mux a=acap:2 a=crypto:1 AES_CM_128_HMAC_SHA1_80 inline:EcGZiNWpFJhQXdspcl1ekcmVCNWpVLcfHAwJSoj|2^20|1:32 a=group:BUNDLE audio video m=audio 49172 RTP/AVP 99 a=mid:audio a=pcfg:1 a=1 a=pcfg:2 m=video 560024 RTP/AVP 100 a=mid:video a=pcfg:1 a=1 a=pcfg:2 a=2 In this example, the potential configuration number "1" is repeated while referring to attribute capability a=rtcp-mux, since the behavior is IDENTICAL for the attribute a=rtcp-mux under multiplexing. 14.3. RFC 6871 Analysis [RFC 6871] extends the capability negotiation framework described in [RFC 5939] by defining media capabilities that can be used to indicate and negotiate media types and their associated format parameters. It also allows indication of latent configurations and session capabilities. 14.3.1. Recommendation: Dealing with Payload Type Numbers [RFC 6871] defines a new payload type parameter ("pt") to be used with the potential, actual, and latent configuration parameters. The parameter associates RTP payload type numbers with the referenced RTP-based media-format capabilities ("a=rmcap") defined in [RFC 6871] and is appropriate only when the transport protocol uses RTP. This means that the same payload type number can be assigned as part of potential or actual configurations in different media descriptions in a bundle. There are rules for the usage of identical payload type values across multiplexed "m=" lines, described in [RFC 8843], which must be followed here, as well. As described in Section 14.2.1, the use of identical configuration numbers for compatible configurations in different media descriptions that are part of the bundle provides a way to ensure that the answerer can easily pick compatible configurations here, as well. 14.3.1.1. Example: Attribute Capability under Shared Payload Type The attributes "a=rmcap" and "a=mfcap" follow the above recommendations under multiplexing. v=0 o=- 25678 753849 IN IP4 192.0.2.1 s= c=IN IP4 192.0.2.1 t=0 0 a=creq:med-v0 m=audio 54322 RTP/AVP 96 a=rtpmap:96 AMR-WB/16000/1 a=fmtp:96 mode-change-capability=1; max-red=220; mode-set=0,2,4,7 a=rmcap:1,3 audio AMR-WB/16000/1 a=rmcap:2 audio AMR/8000/1 a=mfcap:1,2 mode-change-capability=1 a=mfcap:3 mode-change-capability=2 a=pcfg:1 m=1 pt=1:96 a=pcfg:2 m=2 pt=2:97 a=pcfg:3 m=3 pt=3:98 m=audio 54322 RTP/AVP 96 a=rtpmap:96 AMR-WB/16000/1 a=fmtp:96 mode-change-capability=1; max-red=220; mode-set=0,2,4,7 a=rmcap:4 audio AMR/8000/1 a=rmcap:5 audio OPUS/48000/2 a=mfcap:5 minptime=40 a=mfcap:4 mode-change-capability=1 a=pcfg:1 m=4 pt=4:97 a=pcfg:4 m=5 pt=5:101 In this example, the potential configuration number "1" is repeated when referring to media and media-format capability used for the Payload Type 96. This implies that both media capabilities 2 and 4, along with their media-format capabilities, MUST refer to the same codec configuration, as per the definition of IDENTICAL-PER-PT. 14.3.2. Recommendation: Dealing with Latent Configurations [RFC 6871] adds the notion of a latent configuration that provides configuration information that may be used to guide a subsequent offer/exchange -- e.g., by adding another media stream or using alternative codec combinations not currently offered. Latent configurations have configuration numbers that cannot overlap with the potential configuration numbers [RFC 6871]. Supported combinations of potential and latent configurations are indicated by use of the "a=sescap" attribute; however, use of this attribute is not recommended with multiplexed media, since it requires the use of unique configuration numbers across the SDP. Taken together, this means there is no well-defined way to indicate supported combinations of latent configurations, or combinations of latent and potential configurations with multiplexed media. It is still allowed to use the latent configuration attribute; however, the limitations above will apply. To determine valid combinations, actual negotiation will have to be attempted subsequently instead. 15. IANA Considerations Section 15.1 defines a new subregistry, which has been added by the IANA, for identifying the initial registrations for various multiplexing categories applicable, as described in this document. IANA has added a new column named "Mux Category" to several of the subregistries in the "Session Description Protocol (SDP) Parameters" registry. The tables in Section 15.2 identify the names of entries in the existing subregistry and specify the value to be put in the new "Mux Category" column of the associated IANA registry for each. 15.1. New "Multiplexing Categories" Subregistry A new subregistry has been created. It is called "Multiplexing Categories" and has the following registrations initially: +=========================+===========+ | Multiplexing Categories | Reference | +=========================+===========+ | NORMAL | RFC 8859 | +-------------------------+-----------+ | CAUTION | RFC 8859 | +-------------------------+-----------+ | IDENTICAL | RFC 8859 | +-------------------------+-----------+ | TRANSPORT | RFC 8859 | +-------------------------+-----------+ | SUM | RFC 8859 | +-------------------------+-----------+ | INHERIT | RFC 8859 | +-------------------------+-----------+ | IDENTICAL-PER-PT | RFC 8859 | +-------------------------+-----------+ | SPECIAL | RFC 8859 | +-------------------------+-----------+ | TBD | RFC 8859 | +-------------------------+-----------+ Table 80 Further entries can be registered using Standard Actions policies outlined in [RFC 8126], which requires IESG review and approval and Standards Track IETF RFC publication. Each registration needs to indicate the multiplexing category value to be added to the "Multiplexing Categories" subregistry, as defined in this section. Such a registration MUST also indicate the applicability of the newly defined multiplexing category value to various subregistries defined in the "Session Description Protocol (SDP) Parameters" registry. 15.2. "Mux Category" Column for Subregistries Each subsection identifies a subregistry of the "Session Description Protocol (SDP) Parameters" registry. The tables list the column that identifies the SDP attribute name/Token/Value from the corresponding subregistries and the values to be used for the new "Mux Category" column to be added. Entries in the existing subregistries of the "Session Description Protocol (SDP) Parameters" registry that lack a value for the "Mux Category" in this specification will get a value of "TBD". The registration policy for updates to the "Mux Category" column values for existing parameters, or when registering new parameters, is beyond the scope of this document. The registration policy for the affected table is defined in [RFC 8866]. 15.2.1. Table: SDP bwtype The following values have been added to the "bwtype" subregistry of the "Session Description Protocol (SDP) Parameters" registry. The references have been updated to point to this RFC as well as the previous references. +==========+==============+ | SDP Name | Mux Category | +==========+==============+ | CT | NORMAL | +----------+--------------+ | AS | SUM | +----------+--------------+ | RS | SUM | +----------+--------------+ | RR | SUM | +----------+--------------+ | TIAS | SPECIAL | +----------+--------------+ Table 81 15.2.2. Table: attribute-name The following values have been added to the "attribute-name" (formerly "att-field") subregistry of the "Session Description Protocol (SDP) Parameters" registry. The references have been updated to point to this RFC as well as the previous references. NOTE: The attributes from [FLUTE] ("flute-tsi", "flute-ch", "FEC- declaration", "FEC-OTI-extension", "content-desc") were not analyzed for their multiplexing behavior, due to the expired status of the draft. For the purposes of this specification, the multiplexing category of "TBD" is assigned. +==========================+==================+ | SDP Name | Mux Category | +==========================+==================+ | cat | NORMAL | +--------------------------+------------------+ | keywds | NORMAL | +--------------------------+------------------+ | type | NORMAL | +--------------------------+------------------+ | type:broadcast | NORMAL | +--------------------------+------------------+ | type:H332 | NORMAL | +--------------------------+------------------+ | type:meeting | NORMAL | +--------------------------+------------------+ | type:moderated | NORMAL | +--------------------------+------------------+ | type:test | NORMAL | +--------------------------+------------------+ | charset | NORMAL | +--------------------------+------------------+ | charset:iso8895-1 | NORMAL | +--------------------------+------------------+ | tool | NORMAL | +--------------------------+------------------+ | ipbcp | SPECIAL | +--------------------------+------------------+ | group | NORMAL | +--------------------------+------------------+ | ice-lite | NORMAL | +--------------------------+------------------+ | ice-options | NORMAL | +--------------------------+------------------+ | bcastversion | NORMAL | +--------------------------+------------------+ | 3GPP-Integrity-Key | CAUTION | +--------------------------+------------------+ | 3GPP-SDP-Auth | CAUTION | +--------------------------+------------------+ | alt-group | CAUTION | +--------------------------+------------------+ | PSCid | NORMAL | +--------------------------+------------------+ | bc_service | NORMAL | +--------------------------+------------------+ | bc_program | NORMAL | +--------------------------+------------------+ | bc_service_package | NORMAL | +--------------------------+------------------+ | sescap | CAUTION | +--------------------------+------------------+ | rtsp-ice-d-m | TBD | +--------------------------+------------------+ | recvonly | NORMAL | +--------------------------+------------------+ | sendrecv | NORMAL | +--------------------------+------------------+ | sendonly | NORMAL | +--------------------------+------------------+ | sdplang | NORMAL | +--------------------------+------------------+ | lang | NORMAL | +--------------------------+------------------+ | h248item | SPECIAL | +--------------------------+------------------+ | sqn | NORMAL | +--------------------------+------------------+ | cdsc | NORMAL | +--------------------------+------------------+ | cpar | INHERIT | +--------------------------+------------------+ | cparmin | SPECIAL | +--------------------------+------------------+ | cparmax | SPECIAL | +--------------------------+------------------+ | rtcp-xr | NORMAL | +--------------------------+------------------+ | maxprate | SPECIAL | +--------------------------+------------------+ | setup | TRANSPORT | +--------------------------+------------------+ | connection | TRANSPORT | +--------------------------+------------------+ | key-mgmt | IDENTICAL | +--------------------------+------------------+ | source-filter | IDENTICAL | +--------------------------+------------------+ | inactive | NORMAL | +--------------------------+------------------+ | fingerprint | TRANSPORT | +--------------------------+------------------+ | flute-tsi | TBD | +--------------------------+------------------+ | flute-ch | TBD | +--------------------------+------------------+ | FEC-declaration | TBD | +--------------------------+------------------+ | FEC-OTI-extension | TBD | +--------------------------+------------------+ | content-desc | TBD | +--------------------------+------------------+ | ice-pwd | TRANSPORT | +--------------------------+------------------+ | ice-ufrag | TRANSPORT | +--------------------------+------------------+ | stkmstream | NORMAL | +--------------------------+------------------+ | extmap | SPECIAL | +--------------------------+------------------+ | qos-mech-send | TRANSPORT | +--------------------------+------------------+ | qos-mech-recv | TRANSPORT | +--------------------------+------------------+ | csup | NORMAL | +--------------------------+------------------+ | creq | NORMAL | +--------------------------+------------------+ | acap | INHERIT | +--------------------------+------------------+ | tcap | INHERIT | +--------------------------+------------------+ | 3GPP-QoE-Metrics | CAUTION | +--------------------------+------------------+ | 3GPP-Asset-Information | CAUTION | +--------------------------+------------------+ | mbms-mode | CAUTION | +--------------------------+------------------+ | mbms-repair | CAUTION | +--------------------------+------------------+ | ike-setup | IDENTICAL | +--------------------------+------------------+ | psk-fingerprint | IDENTICAL | +--------------------------+------------------+ | multicast-rtcp | IDENTICAL | +--------------------------+------------------+ | rmcap | IDENTICAL-PER-PT | +--------------------------+------------------+ | omcap | NORMAL | +--------------------------+------------------+ | mfcap | IDENTICAL-PER-PT | +--------------------------+------------------+ | mscap | INHERIT | +--------------------------+------------------+ | 3gpp.iut.replication | TBD | +--------------------------+------------------+ | bcap | INHERIT | +--------------------------+------------------+ | ccap | IDENTICAL | +--------------------------+------------------+ | icap | NORMAL | +--------------------------+------------------+ | etag | CAUTION | +--------------------------+------------------+ | duplication-delay | NORMAL | +--------------------------+------------------+ | range | CAUTION | +--------------------------+------------------+ | control | CAUTION | +--------------------------+------------------+ | mtag | CAUTION | +--------------------------+------------------+ | ts-refclk | NORMAL | +--------------------------+------------------+ | mediaclk | NORMAL | +--------------------------+------------------+ | calgextmap | NORMAL | +--------------------------+------------------+ | ptime | IDENTICAL-PER-PT | +--------------------------+------------------+ | orient | NORMAL | +--------------------------+------------------+ | orient:portrait | NORMAL | +--------------------------+------------------+ | orient:landscape | NORMAL | +--------------------------+------------------+ | orient:seascape | NORMAL | +--------------------------+------------------+ | framerate | IDENTICAL-PER-PT | +--------------------------+------------------+ | quality | NORMAL | +--------------------------+------------------+ | rtpmap | IDENTICAL-PER-PT | +--------------------------+------------------+ | fmtp | IDENTICAL-PER-PT | +--------------------------+------------------+ | rtpred1 | CAUTION | +--------------------------+------------------+ | rtpred2 | CAUTION | +--------------------------+------------------+ | T38FaxVersion | TBD | +--------------------------+------------------+ | T38MaxBitRate | TBD | +--------------------------+------------------+ | T38FaxFillBitRemoval | TBD | +--------------------------+------------------+ | T38FaxTranscodingMMR | TBD | +--------------------------+------------------+ | T38FaxTranscodingJBIG | TBD | +--------------------------+------------------+ | T38FaxRateManagement | TBD | +--------------------------+------------------+ | T38FaxMaxBuffer | TBD | +--------------------------+------------------+ | T38FaxMaxDatagram | TBD | +--------------------------+------------------+ | T38FaxUdpEC | TBD | +--------------------------+------------------+ | maxptime | IDENTICAL-PER-PT | +--------------------------+------------------+ | des | CAUTION | +--------------------------+------------------+ | curr | CAUTION | +--------------------------+------------------+ | conf | CAUTION | +--------------------------+------------------+ | mid | NORMAL | +--------------------------+------------------+ | rtcp | TRANSPORT | +--------------------------+------------------+ | rtcp-fb | IDENTICAL-PER-PT | +--------------------------+------------------+ | label | NORMAL | +--------------------------+------------------+ | T38VendorInfo | TBD | +--------------------------+------------------+ | crypto | TRANSPORT | +--------------------------+------------------+ | eecid | CAUTION | +--------------------------+------------------+ | aalType | CAUTION | +--------------------------+------------------+ | capability | CAUTION | +--------------------------+------------------+ | qosClass | CAUTION | +--------------------------+------------------+ | bcob | CAUTION | +--------------------------+------------------+ | stc | CAUTION | +--------------------------+------------------+ | upcc | CAUTION | +--------------------------+------------------+ | atmQOSparms | CAUTION | +--------------------------+------------------+ | atmTrfcDesc | CAUTION | +--------------------------+------------------+ | abrParms | CAUTION | +--------------------------+------------------+ | abrSetup | CAUTION | +--------------------------+------------------+ | bearerType | CAUTION | +--------------------------+------------------+ | lij | CAUTION | +--------------------------+------------------+ | anycast | CAUTION | +--------------------------+------------------+ | cache | CAUTION | +--------------------------+------------------+ | bearerSigIE | CAUTION | +--------------------------+------------------+ | aalApp | CAUTION | +--------------------------+------------------+ | cbrRate | CAUTION | +--------------------------+------------------+ | sbc | CAUTION | +--------------------------+------------------+ | clkrec | CAUTION | +--------------------------+------------------+ | fec | CAUTION | +--------------------------+------------------+ | prtfl | CAUTION | +--------------------------+------------------+ | structure | CAUTION | +--------------------------+------------------+ | cpsSDUsize | CAUTION | +--------------------------+------------------+ | aal2CPS | CAUTION | +--------------------------+------------------+ | aal2CPSSDUrate | CAUTION | +--------------------------+------------------+ | aal2sscs3661unassured | CAUTION | +--------------------------+------------------+ | aal2sscs3661assured | CAUTION | +--------------------------+------------------+ | aal2sscs3662 | CAUTION | +--------------------------+------------------+ | aal5sscop | CAUTION | +--------------------------+------------------+ | atmmap | CAUTION | +--------------------------+------------------+ | silenceSupp | CAUTION | +--------------------------+------------------+ | ecan | CAUTION | +--------------------------+------------------+ | gc | CAUTION | +--------------------------+------------------+ | profileDesc | CAUTION | +--------------------------+------------------+ | vsel | CAUTION | +--------------------------+------------------+ | dsel | CAUTION | +--------------------------+------------------+ | fsel | CAUTION | +--------------------------+------------------+ | onewaySel | CAUTION | +--------------------------+------------------+ | codecconfig | CAUTION | +--------------------------+------------------+ | isup_usi | CAUTION | +--------------------------+------------------+ | uiLayer1_Prot | CAUTION | +--------------------------+------------------+ | chain | CAUTION | +--------------------------+------------------+ | floorctrl | TBD | +--------------------------+------------------+ | confid | TBD | +--------------------------+------------------+ | userid | TBD | +--------------------------+------------------+ | floorid | TBD | +--------------------------+------------------+ | FEC | NORMAL | +--------------------------+------------------+ | accept-types | TBD | +--------------------------+------------------+ | accept-wrapped-types | TBD | +--------------------------+------------------+ | max-size | TBD | +--------------------------+------------------+ | path | TBD | +--------------------------+------------------+ | dccp-service-code | CAUTION | +--------------------------+------------------+ | rtcp-mux | IDENTICAL | +--------------------------+------------------+ | candidate | TRANSPORT | +--------------------------+------------------+ | ice-mismatch | NORMAL | +--------------------------+------------------+ | remote-candidates | TRANSPORT | +--------------------------+------------------+ | SRTPAuthentication | TBD | +--------------------------+------------------+ | SRTPROCTxRate | TBD | +--------------------------+------------------+ | rtcp-rsize | IDENTICAL | +--------------------------+------------------+ | file-selector | TBD | +--------------------------+------------------+ | file-transfer-id | TBD | +--------------------------+------------------+ | file-disposition | TBD | +--------------------------+------------------+ | file-date | TBD | +--------------------------+------------------+ | file-icon | TBD | +--------------------------+------------------+ | file-range | TBD | +--------------------------+------------------+ | depend | IDENTICAL-PER-PT | +--------------------------+------------------+ | ssrc | NORMAL | +--------------------------+------------------+ | ssrc-group | NORMAL | +--------------------------+------------------+ | rtcp-unicast | IDENTICAL | +--------------------------+------------------+ | pcfg | SPECIAL | +--------------------------+------------------+ | acfg | SPECIAL | +--------------------------+------------------+ | zrtp-hash | TRANSPORT | +--------------------------+------------------+ | X-predecbufsize | CAUTION | +--------------------------+------------------+ | X-initpredecbufperiod | CAUTION | +--------------------------+------------------+ | X-initpostdecbufperiod | CAUTION | +--------------------------+------------------+ | X-decbyterate | CAUTION | +--------------------------+------------------+ | 3gpp-videopostdecbufsize | CAUTION | +--------------------------+------------------+ | framesize | CAUTION | +--------------------------+------------------+ | 3GPP-SRTP-Config | CAUTION | +--------------------------+------------------+ | alt | CAUTION | +--------------------------+------------------+ | alt-default-id | CAUTION | +--------------------------+------------------+ | 3GPP-Adaption-Support | CAUTION | +--------------------------+------------------+ | mbms-flowid | CAUTION | +--------------------------+------------------+ | fec-source-flow | SPECIAL | +--------------------------+------------------+ | fec-repair-flow | SPECIAL | +--------------------------+------------------+ | repair-window | SPECIAL | +--------------------------+------------------+ | rams-updates | CAUTION | +--------------------------+------------------+ | imageattr | IDENTICAL-PER-PT | +--------------------------+------------------+ | cfw-id | NORMAL | +--------------------------+------------------+ | portmapping-req | CAUTION | +--------------------------+------------------+ | ecn-capable-rtp | IDENTICAL | +--------------------------+------------------+ | visited-realm | TRANSPORT | +--------------------------+------------------+ | secondary-realm | TRANSPORT | +--------------------------+------------------+ | omr-s-cksum | NORMAL | +--------------------------+------------------+ | omr-m-cksum | NORMAL | +--------------------------+------------------+ | omr-codecs | NORMAL | +--------------------------+------------------+ | omr-m-att | NORMAL | +--------------------------+------------------+ | omr-s-att | NORMAL | +--------------------------+------------------+ | omr-m-bw | NORMAL | +--------------------------+------------------+ | omr-s-bw | NORMAL | +--------------------------+------------------+ | msrp-cema | TBD | +--------------------------+------------------+ | dccp-port | CAUTION | +--------------------------+------------------+ | resource | NORMAL | +--------------------------+------------------+ | channel | NORMAL | +--------------------------+------------------+ | cmid | NORMAL | +--------------------------+------------------+ | content | NORMAL | +--------------------------+------------------+ | lcfg | SPECIAL | +--------------------------+------------------+ | loopback | NORMAL | +--------------------------+------------------+ | loopback-source | NORMAL | +--------------------------+------------------+ | loopback-mirror | NORMAL | +--------------------------+------------------+ | chatroom | TBD | +--------------------------+------------------+ | altc | TRANSPORT | +--------------------------+------------------+ | T38FaxMaxIFP | TBD | +--------------------------+------------------+ | T38FaxUdpECDepth | TBD | +--------------------------+------------------+ | T38FaxUdpFECMaxSpan | TBD | +--------------------------+------------------+ | T38ModemType | TBD | +--------------------------+------------------+ | cs-correlation | TBD | +--------------------------+------------------+ | rtcp-idms | NORMAL | +--------------------------+------------------+ | cname | NORMAL | +--------------------------+------------------+ | previous-ssrc | NORMAL | +--------------------------+------------------+ | fmtp | IDENTICAL-PER-PT | +--------------------------+------------------+ | ts-refclk | NORMAL | +--------------------------+------------------+ | mediaclk | NORMAL | +--------------------------+------------------+ Table 82 15.2.3. Table: content SDP Parameters The following values have been added to the "content SDP Parameters" subregistry of the "Session Description Protocol (SDP) Parameters" registry. The references have been updated to point to this RFC as well as the previous references. +============+==============+ | SDP Name | Mux Category | +============+==============+ | slides | NORMAL | +------------+--------------+ | speaker | NORMAL | +------------+--------------+ | sl | NORMAL | +------------+--------------+ | main | NORMAL | +------------+--------------+ | alt | NORMAL | +------------+--------------+ | g.3gpp.cat | NORMAL | +------------+--------------+ | g.3gpp.crs | NORMAL | +------------+--------------+ Table 83 15.2.4. Table: Semantics for the "group" SDP Attribute The following values have been added to the "Semantics for the 'group' SDP Attribute" subregistry of the "Session Description Protocol (SDP) Parameters" registry. The references have been updated to point to this RFC as well as the previous references. +========+==============+ | Token | Mux Category | +========+==============+ | LS | NORMAL | +--------+--------------+ | FID | NORMAL | +--------+--------------+ | SRF | NORMAL | +--------+--------------+ | ANAT | CAUTION | +--------+--------------+ | FEC | NORMAL | +--------+--------------+ | FEC-FR | NORMAL | +--------+--------------+ | CS | NORMAL | +--------+--------------+ | DDP | NORMAL | +--------+--------------+ | DUP | NORMAL | +--------+--------------+ Table 84 15.2.5. Table: "rtcp-fb" Attribute Values The following values have been added to the "'rtcp-fb' Attribute Values" subregistry of the "Session Description Protocol (SDP) Parameters" registry. The references have been updated to point to this RFC as well as the previous references. +============+==================+ | Value Name | Mux Category | +============+==================+ | ack | IDENTICAL-PER-PT | +------------+------------------+ | app | SPECIAL | +------------+------------------+ | ccm | IDENTICAL-PER-PT | +------------+------------------+ | nack | IDENTICAL-PER-PT | +------------+------------------+ | trr-int | IDENTICAL-PER-PT | +------------+------------------+ Table 85 15.2.6. Table: "ack" and "nack" Attribute Values The following values have been added to the "'ack' and 'nack' Attribute Values" subregistry of the "Session Description Protocol (SDP) Parameters" registry. The references have been updated to point to this RFC as well as the previous references. +============+==================+ | Value Name | Mux Category | +============+==================+ | sli | IDENTICAL-PER-PT | +------------+------------------+ | pli | IDENTICAL-PER-PT | +------------+------------------+ | rpsi | IDENTICAL-PER-PT | +------------+------------------+ | app | SPECIAL | +------------+------------------+ | rai | IDENTICAL-PER-PT | +------------+------------------+ | tllei | IDENTICAL-PER-PT | +------------+------------------+ | pslei | IDENTICAL-PER-PT | +------------+------------------+ | ecn | IDENTICAL | +------------+------------------+ Table 86 15.2.7. Table: "depend" SDP Attribute Values The following values have been added to the "'depend' SDP Attribute Values" subregistry of the "Session Description Protocol (SDP) Parameters" registry. The references have been updated to point to this RFC as well as the previous references. +=======+==================+ | Token | Mux Category | +=======+==================+ | lay | IDENTICAL-PER-PT | +-------+------------------+ | mdc | IDENTICAL-PER-PT | +-------+------------------+ Table 87 15.2.8. Table: "cs-correlation" Attribute Values The following values have been added to the "'cs-correlation' Attribute Values" subregistry of the "Session Description Protocol (SDP) Parameters" registry. The references have been updated to point to this RFC as well as the previous references. +==========+==============+ | Value | Mux Category | +==========+==============+ | callerid | TBD | +----------+--------------+ | uuie | TBD | +----------+--------------+ | dtmf | TBD | +----------+--------------+ | external | TBD | +----------+--------------+ Table 88 15.2.9. Table: Semantics for the "ssrc-group" SDP Attribute The following values have been added to the "Semantics for the 'ssrc- group' SDP Attribute" subregistry of the "Session Description Protocol (SDP) Parameters" registry. The references have been updated to point to this RFC as well as the previous references. +========+==============+ | Token | Mux Category | +========+==============+ | FID | NORMAL | +--------+--------------+ | FEC | NORMAL | +--------+--------------+ | FEC-FR | NORMAL | +--------+--------------+ | DUP | NORMAL | +--------+--------------+ Table 89 15.2.10. Table: SDP/RTSP Key Management Protocol Identifiers The following values have been added to the "SDP/RTSP key management protocol identifiers" subregistry of the "Session Description Protocol (SDP) Parameters" registry. The references have been updated to point to this RFC as well as the previous references. +============+==============+ | Value Name | Mux Category | +============+==============+ | mikey | IDENTICAL | +------------+--------------+ Table 90 15.2.11. Table: Codec Control Messages The following values have been added to the "Codec Control Messages" subregistry of the "Session Description Protocol (SDP) Parameters" registry. The references have been updated to point to this RFC as well as the previous references. +============+==================+ | Value Name | Mux Category | +============+==================+ | fir | IDENTICAL-PER-PT | +------------+------------------+ | tmmbr | IDENTICAL-PER-PT | +------------+------------------+ | tstr | IDENTICAL-PER-PT | +------------+------------------+ | vbcm | IDENTICAL-PER-PT | +------------+------------------+ Table 91 15.2.12. Table: QoS Mechanism Tokens The following values have been added to the "QoS Mechanism Tokens" subregistry of the "Session Description Protocol (SDP) Parameters" registry. The references have been updated to point to this RFC as well as the previous references. +===============+==============+ | QoS Mechanism | Mux Category | +===============+==============+ | rsvp | TRANSPORT | +---------------+--------------+ | nsis | TRANSPORT | +---------------+--------------+ Table 92 15.2.13. Table: SDP Capability Negotiation Option Tags The following values have been added to the "SDP Capability Negotiation Option Tags" subregistry of the "Session Description Protocol (SDP) Parameters" registry. The references have been updated to point to this RFC as well as the previous references. +============+==============+ | Option Tag | Mux Category | +============+==============+ | cap-v0 | NORMAL | +------------+--------------+ | med-v0 | NORMAL | +------------+--------------+ | bcap-v0 | NORMAL | +------------+--------------+ | ccap-v0 | NORMAL | +------------+--------------+ | icap-v0 | NORMAL | +------------+--------------+ Table 93 15.2.14. Table: Timestamp Reference Clock Source Parameters The following values have been added to the "Timestamp Reference Clock Source Parameters" subregistry of the "Session Description Protocol (SDP) Parameters" registry. The references have been updated to point to this RFC as well as the previous references. +=========+==============+ | Name | Mux Category | +=========+==============+ | ntp | NORMAL | +---------+--------------+ | ptp | NORMAL | +---------+--------------+ | gps | NORMAL | +---------+--------------+ | gal | NORMAL | +---------+--------------+ | glonass | NORMAL | +---------+--------------+ | local | NORMAL | +---------+--------------+ | private | NORMAL | +---------+--------------+ Table 94 15.2.15. Table: Media Clock Source Parameters The following values have been added to the "Media Clock Source Parameters" subregistry of the "Session Description Protocol (SDP) Parameters" registry. The references have been updated to point to this RFC as well as the previous references. +==========+==============+ | Name | Mux Category | +==========+==============+ | sender | NORMAL | +----------+--------------+ | direct | NORMAL | +----------+--------------+ | IEEE1722 | NORMAL | +----------+--------------+ Table 95 16. Security Considerations The primary security considerations for RTP, including the way it is used here, are described in [RFC 3550] and [RFC 3711]. When multiplexing SDP attributes with the category "CAUTION", the implementations should be aware of possible issues described in this specification. 17. References 17.1. Normative References [RFC 2119] Bradner, S., "Key words for use in RFCs to Indicate Requirement Levels", BCP 14, RFC 2119, DOI 10.17487/RFC 2119, March 1997, <https://www.rfc-editor.org/info/RFC 2119>. [RFC 4566] Handley, M., Jacobson, V., and C. Perkins, "SDP: Session Description Protocol", RFC 4566, DOI 10.17487/RFC 4566, July 2006, <https://www.rfc-editor.org/info/RFC 4566>. [RFC 8126] Cotton, M., Leiba, B., and T. Narten, "Guidelines for Writing an IANA Considerations Section in RFCs", BCP 26, RFC 8126, DOI 10.17487/RFC 8126, June 2017, <https://www.rfc-editor.org/info/RFC 8126>. [RFC 8174] Leiba, B., "Ambiguity of Uppercase vs Lowercase in RFC 2119 Key Words", BCP 14, RFC 8174, DOI 10.17487/RFC 8174, May 2017, <https://www.rfc-editor.org/info/RFC 8174>. [RFC 8843] Holmberg, C., Alvestrand, H., and C. Jennings, "Negotiating Media Multiplexing Using the Session Description Protocol (SDP)", RFC 8843, DOI 10.17487/RFC 8843, January 2021, <https://www.rfc-editor.org/info/RFC 8843>. 17.2. Informative References [FLUTE] Walsh, R., Peltotalo, J., Peltotalo, S., Curcio, I. D., and H. Mehta, "SDP Descriptors for FLUTE", Work in Progress, Internet-Draft, draft-ietf-rmt-flute-sdp-03, 12 September 2012, <https://tools.ietf.org/html/draft-ietf-rmt-flute-sdp-03>. [H.248.15] ITU-T, "Gateway control protocol: SDP ITU-T H.248 package attribute", ITU-T Recommendation H.248.15, March 2013, <https://www.itu.int/rec/T-REC-H.248.15>. [IANA] IANA, "Session Description Protocol (SDP) Parameters", <https://www.iana.org/assignments/sdp-parameters>. [IMS-CAT] 3GPP, "IP Multimedia Subsystem (IMS) Customized Alerting Tones (CAT); Protocol specification", Specification 24.182, Specification 24.182, January 2015, <https://www.3gpp.org/ftp/Specs/html-info/24182.htm>. [IMS-CRS] 3GPP, "IP Multimedia Subsystem (IMS) Customized Ringing Signal (CRS); Protocol specification", Specification 24.183, September 2016, <https://www.3gpp.org/ftp/Specs/html-info/24183.htm>. [IP-CALL] 3GPP, "IP multimedia call control protocol based on Session Initiation Protocol (SIP) and Session Description Protocol (SDP); Stage 3", Specification 24.229, September 2016, <https://www.3gpp.org/ftp/Specs/html-info/24229.htm>. [Q.1970] ITU-T, "Q.1970: BICC IP bearer control protocol", ITU-T Recommendation Q.1970, September 2006, <https://www.itu.int/rec/T-REC-Q.1970-200609-I/en>. [RFC 2326] Schulzrinne, H., Rao, A., and R. Lanphier, "Real Time Streaming Protocol (RTSP)", RFC 2326, DOI 10.17487/RFC 2326, April 1998, <https://www.rfc-editor.org/info/RFC 2326>. [RFC 3108] Kumar, R. and M. Mostafa, "Conventions for the use of the Session Description Protocol (SDP) for ATM Bearer Connections", RFC 3108, DOI 10.17487/RFC 3108, May 2001, <https://www.rfc-editor.org/info/RFC 3108>. [RFC 3264] Rosenberg, J. and H. Schulzrinne, "An Offer/Answer Model with Session Description Protocol (SDP)", RFC 3264, DOI 10.17487/RFC 3264, June 2002, <https://www.rfc-editor.org/info/RFC 3264>. [RFC 3312] Camarillo, G., Ed., Marshall, W., Ed., and J. Rosenberg, "Integration of Resource Management and Session Initiation Protocol (SIP)", RFC 3312, DOI 10.17487/RFC 3312, October 2002, <https://www.rfc-editor.org/info/RFC 3312>. [RFC 3407] Andreasen, F., "Session Description Protocol (SDP) Simple Capability Declaration", RFC 3407, DOI 10.17487/RFC 3407, October 2002, <https://www.rfc-editor.org/info/RFC 3407>. [RFC 3524] Camarillo, G. and A. Monrad, "Mapping of Media Streams to Resource Reservation Flows", RFC 3524, DOI 10.17487/RFC 3524, April 2003, <https://www.rfc-editor.org/info/RFC 3524>. [RFC 3550] Schulzrinne, H., Casner, S., Frederick, R., and V. Jacobson, "RTP: A Transport Protocol for Real-Time Applications", STD 64, RFC 3550, DOI 10.17487/RFC 3550, July 2003, <https://www.rfc-editor.org/info/RFC 3550>. [RFC 3556] Casner, S., "Session Description Protocol (SDP) Bandwidth Modifiers for RTP Control Protocol (RTCP) Bandwidth", RFC 3556, DOI 10.17487/RFC 3556, July 2003, <https://www.rfc-editor.org/info/RFC 3556>. [RFC 3605] Huitema, C., "Real Time Control Protocol (RTCP) attribute in Session Description Protocol (SDP)", RFC 3605, DOI 10.17487/RFC 3605, October 2003, <https://www.rfc-editor.org/info/RFC 3605>. [RFC 3611] Friedman, T., Ed., Caceres, R., Ed., and A. Clark, Ed., "RTP Control Protocol Extended Reports (RTCP XR)", RFC 3611, DOI 10.17487/RFC 3611, November 2003, <https://www.rfc-editor.org/info/RFC 3611>. [RFC 3711] Baugher, M., McGrew, D., Naslund, M., Carrara, E., and K. Norrman, "The Secure Real-time Transport Protocol (SRTP)", RFC 3711, DOI 10.17487/RFC 3711, March 2004, <https://www.rfc-editor.org/info/RFC 3711>. [RFC 3890] Westerlund, M., "A Transport Independent Bandwidth Modifier for the Session Description Protocol (SDP)", RFC 3890, DOI 10.17487/RFC 3890, September 2004, <https://www.rfc-editor.org/info/RFC 3890>. [RFC 4091] Camarillo, G. and J. Rosenberg, "The Alternative Network Address Types (ANAT) Semantics for the Session Description Protocol (SDP) Grouping Framework", RFC 4091, DOI 10.17487/RFC 4091, June 2005, <https://www.rfc-editor.org/info/RFC 4091>. [RFC 4145] Yon, D. and G. Camarillo, "TCP-Based Media Transport in the Session Description Protocol (SDP)", RFC 4145, DOI 10.17487/RFC 4145, September 2005, <https://www.rfc-editor.org/info/RFC 4145>. [RFC 4567] Arkko, J., Lindholm, F., Naslund, M., Norrman, K., and E. Carrara, "Key Management Extensions for Session Description Protocol (SDP) and Real Time Streaming Protocol (RTSP)", RFC 4567, DOI 10.17487/RFC 4567, July 2006, <https://www.rfc-editor.org/info/RFC 4567>. [RFC 4568] Andreasen, F., Baugher, M., and D. Wing, "Session Description Protocol (SDP) Security Descriptions for Media Streams", RFC 4568, DOI 10.17487/RFC 4568, July 2006, <https://www.rfc-editor.org/info/RFC 4568>. [RFC 4570] Quinn, B. and R. Finlayson, "Session Description Protocol (SDP) Source Filters", RFC 4570, DOI 10.17487/RFC 4570, July 2006, <https://www.rfc-editor.org/info/RFC 4570>. [RFC 4572] Lennox, J., "Connection-Oriented Media Transport over the Transport Layer Security (TLS) Protocol in the Session Description Protocol (SDP)", RFC 4572, DOI 10.17487/RFC 4572, July 2006, <https://www.rfc-editor.org/info/RFC 4572>. [RFC 4574] Levin, O. and G. Camarillo, "The Session Description Protocol (SDP) Label Attribute", RFC 4574, DOI 10.17487/RFC 4574, August 2006, <https://www.rfc-editor.org/info/RFC 4574>. [RFC 4583] Camarillo, G., "Session Description Protocol (SDP) Format for Binary Floor Control Protocol (BFCP) Streams", RFC 4583, DOI 10.17487/RFC 4583, November 2006, <https://www.rfc-editor.org/info/RFC 4583>. [RFC 4585] Ott, J., Wenger, S., Sato, N., Burmeister, C., and J. Rey, "Extended RTP Profile for Real-time Transport Control Protocol (RTCP)-Based Feedback (RTP/AVPF)", RFC 4585, DOI 10.17487/RFC 4585, July 2006, <https://www.rfc-editor.org/info/RFC 4585>. [RFC 4796] Hautakorpi, J. and G. Camarillo, "The Session Description Protocol (SDP) Content Attribute", RFC 4796, DOI 10.17487/RFC 4796, February 2007, <https://www.rfc-editor.org/info/RFC 4796>. [RFC 4975] Campbell, B., Ed., Mahy, R., Ed., and C. Jennings, Ed., "The Message Session Relay Protocol (MSRP)", RFC 4975, DOI 10.17487/RFC 4975, September 2007, <https://www.rfc-editor.org/info/RFC 4975>. [RFC 5104] Wenger, S., Chandra, U., Westerlund, M., and B. Burman, "Codec Control Messages in the RTP Audio-Visual Profile with Feedback (AVPF)", RFC 5104, DOI 10.17487/RFC 5104, February 2008, <https://www.rfc-editor.org/info/RFC 5104>. [RFC 5109] Li, A., Ed., "RTP Payload Format for Generic Forward Error Correction", RFC 5109, DOI 10.17487/RFC 5109, December 2007, <https://www.rfc-editor.org/info/RFC 5109>. [RFC 5159] Dondeti, L., Ed. and A. Jerichow, "Session Description Protocol (SDP) Attributes for Open Mobile Alliance (OMA) Broadcast (BCAST) Service and Content Protection", RFC 5159, DOI 10.17487/RFC 5159, March 2008, <https://www.rfc-editor.org/info/RFC 5159>. [RFC 5285] Singer, D. and H. Desineni, "A General Mechanism for RTP Header Extensions", RFC 5285, DOI 10.17487/RFC 5285, July 2008, <https://www.rfc-editor.org/info/RFC 5285>. [RFC 5432] Polk, J., Dhesikan, S., and G. Camarillo, "Quality of Service (QoS) Mechanism Selection in the Session Description Protocol (SDP)", RFC 5432, DOI 10.17487/RFC 5432, March 2009, <https://www.rfc-editor.org/info/RFC 5432>. [RFC 5506] Johansson, I. and M. Westerlund, "Support for Reduced-Size Real-Time Transport Control Protocol (RTCP): Opportunities and Consequences", RFC 5506, DOI 10.17487/RFC 5506, April 2009, <https://www.rfc-editor.org/info/RFC 5506>. [RFC 5547] Garcia-Martin, M., Isomaki, M., Camarillo, G., Loreto, S., and P. Kyzivat, "A Session Description Protocol (SDP) Offer/Answer Mechanism to Enable File Transfer", RFC 5547, DOI 10.17487/RFC 5547, May 2009, <https://www.rfc-editor.org/info/RFC 5547>. [RFC 5576] Lennox, J., Ott, J., and T. Schierl, "Source-Specific Media Attributes in the Session Description Protocol (SDP)", RFC 5576, DOI 10.17487/RFC 5576, June 2009, <https://www.rfc-editor.org/info/RFC 5576>. [RFC 5583] Schierl, T. and S. Wenger, "Signaling Media Decoding Dependency in the Session Description Protocol (SDP)", RFC 5583, DOI 10.17487/RFC 5583, July 2009, <https://www.rfc-editor.org/info/RFC 5583>. [RFC 5760] Ott, J., Chesterfield, J., and E. Schooler, "RTP Control Protocol (RTCP) Extensions for Single-Source Multicast Sessions with Unicast Feedback", RFC 5760, DOI 10.17487/RFC 5760, February 2010, <https://www.rfc-editor.org/info/RFC 5760>. [RFC 5761] Perkins, C. and M. Westerlund, "Multiplexing RTP Data and Control Packets on a Single Port", RFC 5761, DOI 10.17487/RFC 5761, April 2010, <https://www.rfc-editor.org/info/RFC 5761>. [RFC 5762] Perkins, C., "RTP and the Datagram Congestion Control Protocol (DCCP)", RFC 5762, DOI 10.17487/RFC 5762, April 2010, <https://www.rfc-editor.org/info/RFC 5762>. [RFC 5763] Fischl, J., Tschofenig, H., and E. Rescorla, "Framework for Establishing a Secure Real-time Transport Protocol (SRTP) Security Context Using Datagram Transport Layer Security (DTLS)", RFC 5763, DOI 10.17487/RFC 5763, May 2010, <https://www.rfc-editor.org/info/RFC 5763>. [RFC 5888] Camarillo, G. and H. Schulzrinne, "The Session Description Protocol (SDP) Grouping Framework", RFC 5888, DOI 10.17487/RFC 5888, June 2010, <https://www.rfc-editor.org/info/RFC 5888>. [RFC 5939] Andreasen, F., "Session Description Protocol (SDP) Capability Negotiation", RFC 5939, DOI 10.17487/RFC 5939, September 2010, <https://www.rfc-editor.org/info/RFC 5939>. [RFC 5956] Begen, A., "Forward Error Correction Grouping Semantics in the Session Description Protocol", RFC 5956, DOI 10.17487/RFC 5956, September 2010, <https://www.rfc-editor.org/info/RFC 5956>. [RFC 6064] Westerlund, M. and P. Frojdh, "SDP and RTSP Extensions Defined for 3GPP Packet-Switched Streaming Service and Multimedia Broadcast/Multicast Service", RFC 6064, DOI 10.17487/RFC 6064, January 2011, <https://www.rfc-editor.org/info/RFC 6064>. [RFC 6128] Begen, A., "RTP Control Protocol (RTCP) Port for Source- Specific Multicast (SSM) Sessions", RFC 6128, DOI 10.17487/RFC 6128, February 2011, <https://www.rfc-editor.org/info/RFC 6128>. [RFC 6189] Zimmermann, P., Johnston, A., Ed., and J. Callas, "ZRTP: Media Path Key Agreement for Unicast Secure RTP", RFC 6189, DOI 10.17487/RFC 6189, April 2011, <https://www.rfc-editor.org/info/RFC 6189>. [RFC 6193] Saito, M., Wing, D., and M. Toyama, "Media Description for the Internet Key Exchange Protocol (IKE) in the Session Description Protocol (SDP)", RFC 6193, DOI 10.17487/RFC 6193, April 2011, <https://www.rfc-editor.org/info/RFC 6193>. [RFC 6230] Boulton, C., Melanchuk, T., and S. McGlashan, "Media Control Channel Framework", RFC 6230, DOI 10.17487/RFC 6230, May 2011, <https://www.rfc-editor.org/info/RFC 6230>. [RFC 6236] Johansson, I. and K. Jung, "Negotiation of Generic Image Attributes in the Session Description Protocol (SDP)", RFC 6236, DOI 10.17487/RFC 6236, May 2011, <https://www.rfc-editor.org/info/RFC 6236>. [RFC 6284] Begen, A., Wing, D., and T. Van Caenegem, "Port Mapping between Unicast and Multicast RTP Sessions", RFC 6284, DOI 10.17487/RFC 6284, June 2011, <https://www.rfc-editor.org/info/RFC 6284>. [RFC 6285] Ver Steeg, B., Begen, A., Van Caenegem, T., and Z. Vax, "Unicast-Based Rapid Acquisition of Multicast RTP Sessions", RFC 6285, DOI 10.17487/RFC 6285, June 2011, <https://www.rfc-editor.org/info/RFC 6285>. [RFC 6364] Begen, A., "Session Description Protocol Elements for the Forward Error Correction (FEC) Framework", RFC 6364, DOI 10.17487/RFC 6364, October 2011, <https://www.rfc-editor.org/info/RFC 6364>. [RFC 6642] Wu, Q., Ed., Xia, F., and R. Even, "RTP Control Protocol (RTCP) Extension for a Third-Party Loss Report", RFC 6642, DOI 10.17487/RFC 6642, June 2012, <https://www.rfc-editor.org/info/RFC 6642>. [RFC 6679] Westerlund, M., Johansson, I., Perkins, C., O'Hanlon, P., and K. Carlberg, "Explicit Congestion Notification (ECN) for RTP over UDP", RFC 6679, DOI 10.17487/RFC 6679, August 2012, <https://www.rfc-editor.org/info/RFC 6679>. [RFC 6714] Holmberg, C., Blau, S., and E. Burger, "Connection Establishment for Media Anchoring (CEMA) for the Message Session Relay Protocol (MSRP)", RFC 6714, DOI 10.17487/RFC 6714, August 2012, <https://www.rfc-editor.org/info/RFC 6714>. [RFC 6773] Phelan, T., Fairhurst, G., and C. Perkins, "DCCP-UDP: A Datagram Congestion Control Protocol UDP Encapsulation for NAT Traversal", RFC 6773, DOI 10.17487/RFC 6773, November 2012, <https://www.rfc-editor.org/info/RFC 6773>. [RFC 6787] Burnett, D. and S. Shanmugham, "Media Resource Control Protocol Version 2 (MRCPv2)", RFC 6787, DOI 10.17487/RFC 6787, November 2012, <https://www.rfc-editor.org/info/RFC 6787>. [RFC 6849] Kaplan, H., Ed., Hedayat, K., Venna, N., Jones, P., and N. Stratton, "An Extension to the Session Description Protocol (SDP) and Real-time Transport Protocol (RTP) for Media Loopback", RFC 6849, DOI 10.17487/RFC 6849, February 2013, <https://www.rfc-editor.org/info/RFC 6849>. [RFC 6871] Gilman, R., Even, R., and F. Andreasen, "Session Description Protocol (SDP) Media Capabilities Negotiation", RFC 6871, DOI 10.17487/RFC 6871, February 2013, <https://www.rfc-editor.org/info/RFC 6871>. [RFC 6947] Boucadair, M., Kaplan, H., Gilman, R., and S. Veikkolainen, "The Session Description Protocol (SDP) Alternate Connectivity (ALTC) Attribute", RFC 6947, DOI 10.17487/RFC 6947, May 2013, <https://www.rfc-editor.org/info/RFC 6947>. [RFC 7006] Garcia-Martin, M., Veikkolainen, S., and R. Gilman, "Miscellaneous Capabilities Negotiation in the Session Description Protocol (SDP)", RFC 7006, DOI 10.17487/RFC 7006, September 2013, <https://www.rfc-editor.org/info/RFC 7006>. [RFC 7104] Begen, A., Cai, Y., and H. Ou, "Duplication Grouping Semantics in the Session Description Protocol", RFC 7104, DOI 10.17487/RFC 7104, January 2014, <https://www.rfc-editor.org/info/RFC 7104>. [RFC 7195] Garcia-Martin, M. and S. Veikkolainen, "Session Description Protocol (SDP) Extension for Setting Audio and Video Media Streams over Circuit-Switched Bearers in the Public Switched Telephone Network (PSTN)", RFC 7195, DOI 10.17487/RFC 7195, May 2014, <https://www.rfc-editor.org/info/RFC 7195>. [RFC 7197] Begen, A., Cai, Y., and H. Ou, "Duplication Delay Attribute in the Session Description Protocol", RFC 7197, DOI 10.17487/RFC 7197, April 2014, <https://www.rfc-editor.org/info/RFC 7197>. [RFC 7266] Clark, A., Wu, Q., Schott, R., and G. Zorn, "RTP Control Protocol (RTCP) Extended Report (XR) Blocks for Mean Opinion Score (MOS) Metric Reporting", RFC 7266, DOI 10.17487/RFC 7266, June 2014, <https://www.rfc-editor.org/info/RFC 7266>. [RFC 7272] van Brandenburg, R., Stokking, H., van Deventer, O., Boronat, F., Montagud, M., and K. Gross, "Inter- Destination Media Synchronization (IDMS) Using the RTP Control Protocol (RTCP)", RFC 7272, DOI 10.17487/RFC 7272, June 2014, <https://www.rfc-editor.org/info/RFC 7272>. [RFC 7273] Williams, A., Gross, K., van Brandenburg, R., and H. Stokking, "RTP Clock Source Signalling", RFC 7273, DOI 10.17487/RFC 7273, June 2014, <https://www.rfc-editor.org/info/RFC 7273>. [RFC 7657] Black, D., Ed. and P. Jones, "Differentiated Services (Diffserv) and Real-Time Communication", RFC 7657, DOI 10.17487/RFC 7657, November 2015, <https://www.rfc-editor.org/info/RFC 7657>. [RFC 7826] Schulzrinne, H., Rao, A., Lanphier, R., Westerlund, M., and M. Stiemerling, Ed., "Real-Time Streaming Protocol Version 2.0", RFC 7826, DOI 10.17487/RFC 7826, December 2016, <https://www.rfc-editor.org/info/RFC 7826>. [RFC 8122] Lennox, J. and C. Holmberg, "Connection-Oriented Media Transport over the Transport Layer Security (TLS) Protocol in the Session Description Protocol (SDP)", RFC 8122, DOI 10.17487/RFC 8122, March 2017, <https://www.rfc-editor.org/info/RFC 8122>. [RFC 8285] Singer, D., Desineni, H., and R. Even, Ed., "A General Mechanism for RTP Header Extensions", RFC 8285, DOI 10.17487/RFC 8285, October 2017, <https://www.rfc-editor.org/info/RFC 8285>. [RFC 8445] Keranen, A., Holmberg, C., and J. Rosenberg, "Interactive Connectivity Establishment (ICE): A Protocol for Network Address Translator (NAT) Traversal", RFC 8445, DOI 10.17487/RFC 8445, July 2018, <https://www.rfc-editor.org/info/RFC 8445>. [RFC 8856] Camarillo, G., Kristensen, T., and C. Holmberg, "Session Description Protocol (SDP) Format for Binary Floor Control Protocol (BFCP) Streams", RFC 8856, DOI 10.17487/RFC 8856, January 2021, <https://www.rfc-editor.org/info/RFC 8856>. [RFC 8866] Begen, A., Kyzivat, P., Perkins, C., and M. Handley, "SDP: Session Description Protocol", RFC 8866, DOI 10.17487/RFC 8866, January 2021, <https://www.rfc-editor.org/info/RFC 8866>. [T.38] ITU-T, "Procedures for real-time Group 3 facsimile communication over IP networks", ITU-T Recommendation T.38, November 2015, <https://www.itu.int/rec/T-REC-T.38/e>. [TISPAN] ETSI, "Telecommunications and Internet converged Services and Protocols for Advanced Networking (TISPAN); IMS-based IPTV stage 3 specification", Technical Specification 183 063 V2.1.0, June 2008, <https://www.etsi.org/deliver/ etsi_ts/183000_183099/183063/02.01.00_60/ ts_183063v020100p.pdf>. Acknowledgements I would like to thank Cullen Jennings and Flemming Andreasen for suggesting the categories, contributing text, and reviewing the draft of this document. I would also like to thank Magnus Westerlund, Christer Holmberg, Jonathan Lennox, Bo Burman, Ari Keränen, and Dan Wing for suggesting structural changes that improved the document's readability. I would like also to thank the following experts for their inputs and reviews as listed: Flemming Andreasen (5.24, 5.32, 5.33, 14), Rohan Mahy (5.54), Eric Burger (5.26), Christian Huitema (5.14), Christer Holmberg (5.21, 5.26, 12.2, 12.3), Richard Ejzak (5.44, 5.50, 5.51), Colin Perkins (5.7, 5.8, 5.9, 5.55), Magnus Westerlund (5.2, 5.3, 5.9, 5.27, 5.47, 6.1 - 6.3, 8.3, 7), Roni Even (5.12, 5.27, 8.4), Subha Dhesikan (5.6, 10), Dan Wing (5.7, 5.12, 5.35, 5.39, 5.45), Cullen Jennings (5.40), Ali C Begen (5.1, 5.20, 5.22, 5.25, 5.38, 7.3, 8.2, 8.4, 8.6, 9.2, 13.1), Bo Burman (7.2, 7.6), Charles Eckel (5.15, 5.27, 5.28, 9.1, 8.5), Paul Kyzivat (5.24), Ian Johansson (5.15), Saravanan Shanmugham (5.11), Paul E Jones (5.30), Rajesh Kumar (5.48), Jonathan Lennox (5.36, 5, 15, 9.1, 11.1), Mo Zanaty (5.4, 5.5, 5.23, 8.1, 8.3, 8.5, 12.1), Christian Huitema (5.14), Qin Wu (5.47, PM-Dir review), Hans Stokking (5.43, 5.16), Christian Groves (5.48, 5.52), and Thomas Stach. I would like to thank Chris Lonvick for the SECDIR review, Dan Romascanu for the Gen-ART review, and Sabrina Tanamal for the IANA review. Thanks to Ben Campbell for Area Director review suggestions. Thanks to Spencer Dawkins, Stephen Farrel, Alissa Cooper, Mirja Kühlewind, and the entire IESG for their reviews. Author's Address Suhas Nandakumar Cisco 170 West Tasman Drive San Jose, CA 95134 United States of America Email: snandaku@cisco.com RFC TOTAL SIZE: 220222 bytes PUBLICATION DATE: Tuesday, January 19th, 2021 LEGAL RIGHTS: The IETF Trust (see BCP 78) |