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Network Working Group A. Duric
Request for Comments: 3952 Telio
Category: Experimental S. Andersen
Aalborg University
December 2004
Real-time Transport Protocol (RTP) Payload Format
for internet Low Bit Rate Codec (iLBC) Speech
Status of this Memo
This memo defines an Experimental Protocol for the Internet
community. It does not specify an Internet standard of any kind.
Discussion and suggestions for improvement are requested.
Distribution of this memo is unlimited.
Copyright Notice
Copyright (C) The Internet Society (2004).
Abstract
This document describes the Real-time Transport Protocol (RTP)
payload format for the internet Low Bit Rate Codec (iLBC) Speech
developed by Global IP Sound (GIPS). Also, within the document there
are included necessary details for the use of iLBC with MIME and
Session Description Protocol (SDP).
Table of Contents
1. Introduction. . . . . . . . . . . . . . . . . . . . . . . . . . 2
2. Background. . . . . . . . . . . . . . . . . . . . . . . . . . . 2
3. RTP Payload Format. . . . . . . . . . . . . . . . . . . . . . . 3
3.1. Bitstream definition . . . . . . . . . . . . . . . . . . . 3
3.2. Multiple iLBC frames in a RTP packet . . . . . . . . . . . 6
4. IANA Considerations . . . . . . . . . . . . . . . . . . . . . . 7
4.1. Storage Mode . . . . . . . . . . . . . . . . . . . . . . . 7
4.2. MIME registration of iLBC. . . . . . . . . . . . . . . . . 8
5. Mapping to SDP Parameters . . . . . . . . . . . . . . . . . . . 9
6. Security Considerations . . . . . . . . . . . . . . . . . . . . 11
7. References. . . . . . . . . . . . . . . . . . . . . . . . . . . 11
7.1. Normative References . . . . . . . . . . . . . . . . . . . 11
7.2. Informative References . . . . . . . . . . . . . . . . . . 12
8. Acknowledgements. . . . . . . . . . . . . . . . . . . . . . . . 12
Authors' Addresses . . . . . . . . . . . . . . . . . . . . . . . . 12
Full Copyright Statement . . . . . . . . . . . . . . . . . . . . . 13
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RFC 3952 RTP Payload Format for iLBC Speech December 2004
1. Introduction
This document describes how compressed iLBC speech, as produced by
the iLBC codec [1], may be formatted for use as an RTP payload type.
Methods are provided to packetize the codec data frames into RTP
packets. The sender may send one or more codec data frames per
packet depending on the application scenario or based on the
transport network condition, bandwidth restriction, delay
requirements and packet-loss tolerance.
The key words "MUST", "MUST NOT", "REQUIRED", "SHALL", "SHALL NOT",
"SHOULD", "SHOULD NOT", "RECOMMENDED", "MAY", and "OPTIONAL" in this
document are to be interpreted as described in BCP 14, RFC 2119 [2].
2. Background
Global IP Sound (GIPS) has developed a speech compression algorithm
for use in IP based communications [1]. The iLBC codec enables
graceful speech quality degradation in the case of lost frames, which
occurs in connection with lost or delayed IP packets.
This codec is suitable for real time communications such as,
telephony and videoconferencing, streaming audio, archival and
messaging.
The iLBC codec [1] is an algorithm that compresses each basic frame
(20 ms or 30 ms) of 8000 Hz, 16-bit sampled input speech, into output
frames with rate of 400 bits for 30 ms basic frame size and 304 bits
for 20 ms basic frame size.
The codec supports two basic frame lengths: 30 ms at 13.33 kbit/s and
20 ms at 15.2 kbit/s, using a block independent linear-predictive
coding (LPC) algorithm. When the codec operates at block lengths of
20 ms, it produces 304 bits per block which MUST be packetized in 38
bytes. Similarly, for block lengths of 30 ms it produces 400 bits
per block which MUST be packetized in 50 bytes. This algorithm
results in a speech coding system with a controlled response to
packet losses similar to what is known from pulse code modulation
(PCM) with a packet loss concealment (PLC), such as ITU-T G711
standard [7], which operates at a fixed bit rate of 64 kbit/s. At
the same time, this algorithm enables fixed bit rate coding with a
quality-versus-bit rate tradeoff close to what is known from code-
excited linear prediction (CELP).
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3. RTP Payload Format
The iLBC codec uses 20 or 30 ms frames and a sampling rate clock of 8
kHz, so the RTP timestamp MUST be in units of 1/8000 of a second. The
RTP payload for iLBC has the format shown in the figure bellow. No
addition header specific to this payload format is required.
This format is intended for the situations where the sender and the
receiver send one or more codec data frames per packet. The RTP
packet looks as follows:
0 1 2 3
0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
| RTP Header [3] |
+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+
| |
+ one or more frames of iLBC [1] |
| |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
Figure 1, Packet format diagram
The RTP header of the packetized encoded iLBC speech has the expected
values as described in [3]. The usage of M bit SHOULD be as
specified in the applicable RTP profile, for example, RFC 3551 [4]
specifies that if the sender does not suppress silence (i.e., sends a
frame on every frame interval), the M bit will always be zero. When
more then one codec data frame is present in a single RTP packet, the
timestamp is, as always, the oldest data frame represented in the RTP
packet.
The assignment of an RTP payload type for this new packet format is
outside the scope of this document, and will not be specified here.
It is expected that the RTP profile for a particular class of
applications will assign a payload type for this encoding, or if that
is not done, then a payload type in the dynamic range shall be chosen
by the sender.
3.1. Bitstream definition
The total number of bits used to describe one frame of 20 ms speech
is 304, which fits in 38 bytes and results in a bit rate of 15.20
kbit/s. For the case with a frame length of 30 ms speech the total
number of bits used is 400, which fits in 50 bytes and results in a
bit rate of 13.33 kbit/s. In the bitstream definition, the bits are
distributed into three classes according to their bit error or loss
sensitivity. The most sensitive bits (class 1) are placed first in
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the bitstream for each frame. The less sensitive bits (class 2) are
placed after the class 1 bits. The least sensitive bits (class 3)
are placed at the end of the bitstream for each frame.
Looking at the 20/30 ms frame length cases for each class: The class
1 bits occupy a total of 6/8 bytes (48/64 bits), the class 2 bits
occupy 8/12 bytes (64/96 bits), and the class 3 bits occupy 24/30
bytes (191/239 bits). This distribution of the bits enables the use
of uneven level protection (ULP). The detailed bit allocation is
shown in the table below. When a quantization index is distributed
between more classes the more significant bits belong to the lowest
class.
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Bitstream structure:
------------------------------------------------------------------+
Parameter | Bits Class <1,2,3> |
| 20 ms frame | 30 ms frame |
----------------------------------+---------------+---------------+
Split 1 | 6 <6,0,0> | 6 <6,0,0> |
LSF 1 Split 2 | 7 <7,0,0> | 7 <7,0,0> |
LSF Split 3 | 7 <7,0,0> | 7 <7,0,0> |
------------------+---------------+---------------+
Split 1 | NA (Not Appl.)| 6 <6,0,0> |
LSF 2 Split 2 | NA | 7 <7,0,0> |
Split 3 | NA | 7 <7,0,0> |
------------------+---------------+---------------+
Sum | 20 <20,0,0> | 40 <40,0,0> |
----------------------------------+---------------+---------------+
Block Class. | 2 <2,0,0> | 3 <3,0,0> |
----------------------------------+---------------+---------------+
Position 22 sample segment | 1 <1,0,0> | 1 <1,0,0> |
----------------------------------+---------------+---------------+
Scale Factor State Coder | 6 <6,0,0> | 6 <6,0,0> |
----------------------------------+---------------+---------------+
Sample 0 | 3 <0,1,2> | 3 <0,1,2> |
Quantized Sample 1 | 3 <0,1,2> | 3 <0,1,2> |
Residual : | : : | : : |
State : | : : | : : |
Samples : | : : | : : |
Sample 56 | 3 <0,1,2> | 3 <0,1,2> |
Sample 57 | NA | 3 <0,1,2> |
------------------+---------------+---------------+
Sum | 171 <0,57,114>| 174 <0,58,116>|
----------------------------------+---------------+---------------+
Stage 1 | 7 <6,0,1> | 7 <4,2,1> |
CB for 22/23 Stage 2 | 7 <0,0,7> | 7 <0,0,7> |
sample block Stage 3 | 7 <0,0,7> | 7 <0,0,7> |
------------------+---------------+---------------+
Sum | 21 <6,0,15> | 21 <4,2,15> |
----------------------------------+---------------+---------------+
Stage 1 | 5 <2,0,3> | 5 <1,1,3> |
Gain for 22/23 Stage 2 | 4 <1,1,2> | 4 <1,1,2> |
sample block Stage 3 | 3 <0,0,3> | 3 <0,0,3> |
------------------+---------------+---------------+
Sum | 12 <3,1,8> | 12 <2,2,8> |
----------------------------------+---------------+---------------+
Stage 1 | 8 <7,0,1> | 8 <6,1,1> |
sub-block 1 Stage 2 | 7 <0,0,7> | 7 <0,0,7> |
Stage 3 | 7 <0,0,7> | 7 <0,0,7> |
------------------+---------------+---------------+
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Stage 1 | 8 <0,0,8> | 8 <0,7,1> |
sub-block 2 Stage 2 | 8 <0,0,8> | 8 <0,0,8> |
Indices Stage 3 | 8 <0,0,8> | 8 <0,0,8> |
for CB ------------------+---------------+---------------+
sub-blocks Stage 1 | NA | 8 <0,7,1> |
sub-block 3 Stage 2 | NA | 8 <0,0,8> |
Stage 3 | NA | 8 <0,0,8> |
------------------+---------------+---------------+
Stage 1 | NA | 8 <0,7,1> |
sub-block 4 Stage 2 | NA | 8 <0,0,8> |
Stage 3 | NA | 8 <0,0,8> |
------------------+---------------+---------------+
Sum | 46 <7,0,39> | 94 <6,22,66> |
----------------------------------+---------------+---------------+
Stage 1 | 5 <1,2,2> | 5 <1,2,2> |
sub-block 1 Stage 2 | 4 <1,1,2> | 4 <1,2,1> |
Stage 3 | 3 <0,0,3> | 3 <0,0,3> |
------------------+---------------+---------------+
Stage 1 | 5 <1,1,3> | 5 <0,2,3> |
sub-block 2 Stage 2 | 4 <0,2,2> | 4 <0,2,2> |
Stage 3 | 3 <0,0,3> | 3 <0,0,3> |
Gains for ------------------+---------------+---------------+
sub-blocks Stage 1 | NA | 5 <0,1,4> |
sub-block 3 Stage 2 | NA | 4 <0,1,3> |
Stage 3 | NA | 3 <0,0,3> |
------------------+---------------+---------------+
Stage 1 | NA | 5 <0,1,4> |
sub-block 4 Stage 2 | NA | 4 <0,1,3> |
Stage 3 | NA | 3 <0,0,3> |
------------------+---------------+---------------+
Sum | 24 <3,6,15> | 48 <2,12,34> |
-------------------------------------------------------------------
Empty frame indicator | 1 <0,0,1> | 1 <0,0,1> |
-------------------------------------------------------------------
SUM 304 <48,64,192> 400 <64,96,240>
Table 3.1 The bitstream definition for iLBC.
When packetized into the payload, all the class 1 bits MUST be sorted
in order (from top and down) as they were specified in the table.
Additionally, all the class 2 bits MUST be sorted (from top and down)
and all the class 3 bits MUST be sorted in the same sequential order.
3.2. Multiple iLBC frames in a RTP packet
More than one iLBC frame may be included in a single RTP packet by a
sender.
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It is important to observe that senders have the following additional
restrictions:
o SHOULD NOT include more iLBC frames in a single RTP packet than
will fit in the MTU of the RTP transport protocol.
o Frames MUST NOT be split between RTP packets.
o Frames of the different modes (20 ms and 30 ms) MUST NOT be
included within the same packet.
It is RECOMMENDED that the number of frames contained within an RTP
packet are consistent with the application. For example, in
telephony and other real time applications where delay is important,
the delay is lower depending on the amount of frames per packet
(i.e., fewer frames per packet, the lower the delay). Whereas for
bandwidth constrained links or delay insensitive streaming messaging
application, one or more frames per packet would be acceptable.
Information describing the number of frames contained in an RTP
packet is not transmitted as part of the RTP payload. The way to
determine the number of iLBC frames is to count the total number of
octets within the RTP packet, and divide the octet count by the
number of expected octets per frame (32/50 per frame).
4. IANA Considerations
One new MIME sub-type as described in this section has been
registered.
4.1. Storage Mode
The storage mode is used for storing speech frames (e.g., as a file
or email attachment).
+------------------+
| Header |
+------------------+
| Speech frame 1 |
+------------------+
: :
+------------------+
| Speech frame n |
+------------------+
Figure 2, Storage format diagram
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The file begins with a header that includes only a magic number to
identify that it is an iLBC file.
The magic number for iLBC file MUST correspond to the ASCII character
string:
o for 30 ms frame size mode:"#!iLBC30\n", or "0x23 0x21 0x69
0x4C 0x42 0x43 0x33 0x30 0x0A" in hexadecimal form,
o for 20 ms frame size mode:"#!iLBC20\n", or "0x23 0x21 0x69
0x4C 0x42 0x43 0x32 0x30 0x0A" in hexadecimal form.
After the header, follow the speech frames in consecutive order.
Speech frames lost in transmission MUST be stored as "empty frames",
as defined in [1].
4.2. MIME Registration of iLBC
MIME media type name: audio
MIME subtype: iLBC
Optional parameters:
All of the parameters does apply for RTP transfer only.
maxptime:The maximum amount of media which can be encapsulated in
each packet, expressed as time in milliseconds. The time
SHALL be calculated as the sum of the time the media present
in the packet represents. The time SHOULD be a multiple of
the frame size. This attribute is probably only meaningful
for audio data, but may be used with other media types if it
makes sense. It is a media attribute, and is not dependent
on charset. Note that this attribute was introduced after
RFC 2327, and non updated implementations will ignore this
attribute.
mode: The iLBC operating frame mode (20 or 30 ms) that will be
encapsulated in each packet. Values can be 0, 20 and 30
(where 0 is reserved, 20 stands for preferred 20 ms frame
size and 30 stands for preferred 30 ms frame size).
ptime: Defined as usual for RTP audio (see [5]).
Encoding considerations:
This type is defined for transfer via both RTP (RFC 3550)
and stored-file methods as described in Section 4.1, of RFC
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3952. Audio data is binary data, and must be encoded for
non-binary transport; the Base64 encoding is suitable for
email.
Security considerations:
See Section 6 of RFC 3952.
Public specification:
Please refer to RFC 3951 [1].
Additional information:
The following applies to stored-file transfer methods:
Magic number:
ASCII character string for:
o 30 ms frame size mode "#!iLBC30\n" (or 0x23 0x21
0x69 0x4C 0x42 0x43 0x33 0x30 0x0A in hexadecimal)
o 20 ms frame size mode "#!iLBC20\n" (or 0x23 0x21
0x69 0x4C 0x42 0x43 0x32 0x30 0x0A in hexadecimal)
File extensions: lbc, LBC
Macintosh file type code: none
Object identifier or OID: none
Person & email address to contact for further information:
alan.duric@telio.no
Intended usage: COMMON.
It is expected that many VoIP applications will use this
type.
Author/Change controller:
alan.duric@telio.no
IETF Audio/Video transport working group
5. Mapping To SDP Parameters
The information carried in the MIME media type specification has a
specific mapping to fields in the Session Description Protocol (SDP)
[5], which is commonly used to describe RTP sessions. When SDP is
used to specify sessions employing the iLBC codec, the mapping is as
follows:
o The MIME type ("audio") goes in SDP "m=" as the media name.
o The MIME subtype (payload format name) goes in SDP "a=rtpmap" as
the encoding name.
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RFC 3952 RTP Payload Format for iLBC Speech December 2004
o The parameters "ptime" and "maxptime" go in the SDP "a=ptime" and
"a=maxptime" attributes, respectively.
o The parameter "mode" goes in the SDP "a=fmtp" attribute by copying
it directly from the MIME media type string as "mode=value".
When conveying information by SDP, the encoding name SHALL be "iLBC"
(the same as the MIME subtype).
An example of the media representation in SDP for describing iLBC
might be:
m=audio 49120 RTP/AVP 97
a=rtpmap:97 iLBC/8000
If 20 ms frame size mode is used, remote iLBC encoder SHALL receive
"mode" parameter in the SDP "a=fmtp" attribute by copying them
directly from the MIME media type string as a semicolon separated
with parameter=value, where parameter is "mode", and values can be 0
and 20 (where 0 is reserved and 20 stands for preferred 20 ms frame
size). An example of the media representation in SDP for describing
iLBC when 20 ms frame size mode is used might be:
m=audio 49120 RTP/AVP 97
a=rtpmap:97 iLBC/8000
a=fmtp:97 mode=20
It is important to emphasize the bi-directional character of the
"mode" parameter - both sides of a bi-directional session MUST use
the same "mode" value.
The offer contains the preferred mode of the offerer. The answerer
may agree to that mode by including the same mode in the answer, or
may include a different mode. The resulting mode used by both
parties SHALL be the lower of the bandwidth modes in the offer and
answer.
That is, an offer of "mode=20" receiving an answer of "mode=30" will
result in "mode=30" being used by both participants. Similarly, an
offer of "mode=30" and an answer of "mode=20" will result in
"mode=30" being used by both participants.
This is important when one end point utilizes a bandwidth constrained
link (e.g., 28.8k modem link or slower), where only the lower frame
size will work.
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Parameter ptime can not be used for the purpose of specifying iLBC
operating mode, due to fact that for the certain values it will be
impossible to distinguish which mode is about to be used (e.g., when
ptime=60, it would be impossible to distinguish if packet is carrying
2 frames of 30 ms or 3 frames of 20 ms, etc.).
Note that the payload format (encoding) names are commonly shown in
upper case. MIME subtypes are commonly shown in lower case. These
names are case-insensitive in both places. Similarly, parameter
names are case-insensitive both in MIME types and in the default
mapping to the SDP a=fmtp attribute
6. Security Considerations
RTP packets using the payload format defined in this specification
are subject to the general security considerations discussed in [3]
and any appropriate profile (e.g., [4]).
As this format transports encoded speech, the main security issues
include confidentiality and authentication of the speech itself. The
payload format itself does not have any built-in security mechanisms.
Confidentiality of the media streams is achieved by encryption,
therefore external mechanisms, such as SRTP [6], MAY be used for that
purpose. The data compression used with this payload format is
applied end-to-end; hence encryption may be performed after
compression with no conflict between the two operations.
A potential denial-of-service threat exists for data encoding using
compression techniques that have non-uniform receiver-end
computational load. The attacker can inject pathological datagrams
into the stream which are complex to decode and cause the receiver to
become overloaded. However, the encodings covered in this document
do not exhibit any significant non-uniformity.
7. References
7.1. Normative References
[1] Andersen, S., Duric, A., Astrom, H., Hagen, R., Kleijn, W., and
J. Linden, "Internet Low Bit Rate Codec (iLBC)", RFC 3951,
December 2004.
[2] Bradner, S., "Key words for use in RFCs to Indicate Requirement
Levels", BCP 14, RFC 2119, March 1997.
[3] Schulzrinne, H., Casner, S., Frederick, R., and V. Jacobson,
"RTP: A Transport Protocol for Real-Time Applications", STD 64,
RFC 3550, July 2003.
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[4] Schulzrinne, H. and S. Casner, "RTP Profile for Audio and Video
Conferences with Minimal Control", STD 65, RFC 3551, July 2003.
[5] Handley, M. and V. Jacobson, "SDP: Session Description
Protocol", RFC 2327, April 1998.
[6] Baugher, M., McGrew, D., Naslund, M., Carrara, E., and K.
Norrman, "The Secure Real-time Transport Protocol", RFC 3711,
March 2004.
7.2. Informative References
[7] ITU-T Recommendation G.711, available online from the ITU
bookstore at http://www.itu.int.
8. Acknowledgements
Henry Sinnreich, Patrik Faltstrom, Alan Johnston and Jean-Francois
Mule for great support of the iLBC initiative and for valuable
feedback and comments.
Authors' Addresses
Alan Duric
Telio AS
Stoperigt. 2
Oslo, N-0250
Norway
Phone: +47 21673505
EMail: alan.duric@telio.no
Soren Vang Andersen
Department of Communication Technology
Aalborg University
Fredrik Bajers Vej 7A
9200 Aalborg
Denmark
Phone: ++45 9 6358627
EMail: sva@kom.auc.dk
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