| Index: doc/draft-ietf-codec-oggopus.xml
|
| diff --git a/doc/draft-ietf-codec-oggopus.xml b/doc/draft-ietf-codec-oggopus.xml
|
| new file mode 100644
|
| index 0000000000000000000000000000000000000000..6131e69ed5aaa8179ee6fe6b4b84a747cd26ce3f
|
| --- /dev/null
|
| +++ b/doc/draft-ietf-codec-oggopus.xml
|
| @@ -0,0 +1,1447 @@
|
| +<?xml version="1.0" encoding="utf-8"?>
|
| +<!DOCTYPE rfc SYSTEM 'rfc2629.dtd' [
|
| +<!ENTITY rfc2119 PUBLIC '' 'https://xml2rfc.tools.ietf.org/tools/xml2rfc/public/rfc/bibxml/reference.RFC.2119.xml'>
|
| +<!ENTITY rfc3533 PUBLIC '' 'https://xml2rfc.tools.ietf.org/tools/xml2rfc/public/rfc/bibxml/reference.RFC.3533.xml'>
|
| +<!ENTITY rfc3629 PUBLIC '' 'https://xml2rfc.tools.ietf.org/tools/xml2rfc/public/rfc/bibxml/reference.RFC.3629.xml'>
|
| +<!ENTITY rfc4732 PUBLIC '' 'https://xml2rfc.tools.ietf.org/tools/xml2rfc/public/rfc/bibxml/reference.RFC.4732.xml'>
|
| +<!ENTITY rfc5334 PUBLIC '' 'https://xml2rfc.tools.ietf.org/tools/xml2rfc/public/rfc/bibxml/reference.RFC.5334.xml'>
|
| +<!ENTITY rfc6381 PUBLIC '' 'https://xml2rfc.tools.ietf.org/tools/xml2rfc/public/rfc/bibxml/reference.RFC.6381.xml'>
|
| +<!ENTITY rfc6716 PUBLIC '' 'https://xml2rfc.tools.ietf.org/tools/xml2rfc/public/rfc/bibxml/reference.RFC.6716.xml'>
|
| +]>
|
| +<?rfc toc="yes" symrefs="yes" ?>
|
| +
|
| +<rfc ipr="trust200902" category="std" docName="draft-ietf-codec-oggopus-01">
|
| +
|
| +<front>
|
| +<title abbrev="Ogg Opus">Ogg Encapsulation for the Opus Audio Codec</title>
|
| +<author initials="T.B." surname="Terriberry" fullname="Timothy B. Terriberry">
|
| +<organization>Mozilla Corporation</organization>
|
| +<address>
|
| +<postal>
|
| +<street>650 Castro Street</street>
|
| +<city>Mountain View</city>
|
| +<region>CA</region>
|
| +<code>94041</code>
|
| +<country>USA</country>
|
| +</postal>
|
| +<phone>+1 650 903-0800</phone>
|
| +<email>tterribe@xiph.org</email>
|
| +</address>
|
| +</author>
|
| +
|
| +<author initials="R." surname="Lee" fullname="Ron Lee">
|
| +<organization>Voicetronix</organization>
|
| +<address>
|
| +<postal>
|
| +<street>246 Pulteney Street, Level 1</street>
|
| +<city>Adelaide</city>
|
| +<region>SA</region>
|
| +<code>5000</code>
|
| +<country>Australia</country>
|
| +</postal>
|
| +<phone>+61 8 8232 9112</phone>
|
| +<email>ron@debian.org</email>
|
| +</address>
|
| +</author>
|
| +
|
| +<author initials="R." surname="Giles" fullname="Ralph Giles">
|
| +<organization>Mozilla Corporation</organization>
|
| +<address>
|
| +<postal>
|
| +<street>163 West Hastings Street</street>
|
| +<city>Vancouver</city>
|
| +<region>BC</region>
|
| +<code>V6B 1H5</code>
|
| +<country>Canada</country>
|
| +</postal>
|
| +<phone>+1 604 778 1540</phone>
|
| +<email>giles@xiph.org</email>
|
| +</address>
|
| +</author>
|
| +
|
| +<date day="24" month="May" year="2013"/>
|
| +<area>RAI</area>
|
| +<workgroup>codec</workgroup>
|
| +
|
| +<abstract>
|
| +<t>
|
| +This document defines the Ogg encapsulation for the Opus interactive speech and
|
| + audio codec.
|
| +This allows data encoded in the Opus format to be stored in an Ogg logical
|
| + bitstream.
|
| +Ogg encapsulation provides Opus with a long-term storage format supporting
|
| + all of the essential features, including metadata, fast and accurate seeking,
|
| + corruption detection, recapture after errors, low overhead, and the ability to
|
| + multiplex Opus with other codecs (including video) with minimal buffering.
|
| +It also provides a live streamable format, capable of delivery over a reliable
|
| + stream-oriented transport, without requiring all the data, or even the total
|
| + length of the data, up-front, in a form that is identical to the on-disk
|
| + storage format.
|
| +</t>
|
| +</abstract>
|
| +</front>
|
| +
|
| +<middle>
|
| +<section anchor="intro" title="Introduction">
|
| +<t>
|
| +The IETF Opus codec is a low-latency audio codec optimized for both voice and
|
| + general-purpose audio.
|
| +See <xref target="RFC6716"/> for technical details.
|
| +This document defines the encapsulation of Opus in a continuous, logical Ogg
|
| + bitstream <xref target="RFC3533"/>.
|
| +</t>
|
| +<t>
|
| +Ogg bitstreams are made up of a series of 'pages', each of which contains data
|
| + from one or more 'packets'.
|
| +Pages are the fundamental unit of multiplexing in an Ogg stream.
|
| +Each page is associated with a particular logical stream and contains a capture
|
| + pattern and checksum, flags to mark the beginning and end of the logical
|
| + stream, and a 'granule position' that represents an absolute position in the
|
| + stream, to aid seeking.
|
| +A single page can contain up to 65,025 octets of packet data from up to 255
|
| + different packets.
|
| +Packets may be split arbitrarily across pages, and continued from one page to
|
| + the next (allowing packets much larger than would fit on a single page).
|
| +Each page contains 'lacing values' that indicate how the data is partitioned
|
| + into packets, allowing a demuxer to recover the packet boundaries without
|
| + examining the encoded data.
|
| +A packet is said to 'complete' on a page when the page contains the final
|
| + lacing value corresponding to that packet.
|
| +</t>
|
| +<t>
|
| +This encapsulation defines the required contents of the packet data, including
|
| + the necessary headers, the organization of those packets into a logical
|
| + stream, and the interpretation of the codec-specific granule position field.
|
| +It does not attempt to describe or specify the existing Ogg container format.
|
| +Readers unfamiliar with the basic concepts mentioned above are encouraged to
|
| + review the details in <xref target="RFC3533"/>.
|
| +</t>
|
| +
|
| +</section>
|
| +
|
| +<section anchor="terminology" title="Terminology">
|
| +<t>
|
| +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 <xref target="RFC2119"/>.
|
| +</t>
|
| +
|
| +<t>
|
| +Implementations that fail to satisfy one or more "MUST" requirements are
|
| + considered non-compliant.
|
| +Implementations that satisfy all "MUST" requirements, but fail to satisfy one
|
| + or more "SHOULD" requirements are said to be "conditionally compliant".
|
| +All other implementations are "unconditionally compliant".
|
| +</t>
|
| +
|
| +</section>
|
| +
|
| +<section anchor="packet_organization" title="Packet Organization">
|
| +<t>
|
| +An Opus stream is organized as follows.
|
| +</t>
|
| +<t>
|
| +There are two mandatory header packets.
|
| +The granule position of the pages on which these packets complete MUST be zero.
|
| +</t>
|
| +<t>
|
| +The first packet in the logical Ogg bitstream MUST contain the identification
|
| + (ID) header, which uniquely identifies a stream as Opus audio.
|
| +The format of this header is defined in <xref target="id_header"/>.
|
| +It MUST be placed alone (without any other packet data) on the first page of
|
| + the logical Ogg bitstream, and must complete on that page.
|
| +This page MUST have its 'beginning of stream' flag set.
|
| +</t>
|
| +<t>
|
| +The second packet in the logical Ogg bitstream MUST contain the comment header,
|
| + which contains user-supplied metadata.
|
| +The format of this header is defined in <xref target="comment_header"/>.
|
| +It MAY span one or more pages, beginning on the second page of the logical
|
| + stream.
|
| +However many pages it spans, the comment header packet MUST finish the page on
|
| + which it completes.
|
| +</t>
|
| +<t>
|
| +All subsequent pages are audio data pages, and the Ogg packets they contain are
|
| + audio data packets.
|
| +Each audio data packet contains one Opus packet for each of N different
|
| + streams, where N is typically one for mono or stereo, but may be greater than
|
| + one for, e.g., multichannel audio.
|
| +The value N is specified in the ID header (see
|
| + <xref target="channel_mapping"/>), and is fixed over the entire length of the
|
| + logical Ogg bitstream.
|
| +</t>
|
| +<t>
|
| +The first N-1 Opus packets, if any, are packed one after another into the Ogg
|
| + packet, using the self-delimiting framing from Appendix B of
|
| + <xref target="RFC6716"/>.
|
| +The remaining Opus packet is packed at the end of the Ogg packet using the
|
| + regular, undelimited framing from Section 3 of <xref target="RFC6716"/>.
|
| +All of the Opus packets in a single Ogg packet MUST be constrained to have the
|
| + same duration.
|
| +The duration and coding modes of each Opus packet are contained in the
|
| + TOC (table of contents) sequence in the first few bytes.
|
| +A decoder SHOULD treat any Opus packet whose duration is different from that of
|
| + the first Opus packet in an Ogg packet as if it were an Opus packet with an
|
| + illegal TOC sequence.
|
| +</t>
|
| +<t>
|
| +The first audio data page SHOULD NOT have the 'continued packet' flag set
|
| + (which would indicate the first audio data packet is continued from a previous
|
| + page).
|
| +Packets MUST be placed into Ogg pages in order until the end of stream.
|
| +Audio packets MAY span page boundaries.
|
| +A decoder MUST treat a zero-octet audio data packet as if it were an Opus
|
| + packet with an illegal TOC sequence.
|
| +The last page SHOULD have the 'end of stream' flag set, but implementations
|
| + should be prepared to deal with truncated streams that do not have a page
|
| + marked 'end of stream'.
|
| +The final packet on the last page SHOULD NOT be a continued packet, i.e., the
|
| + final lacing value should be less than 255.
|
| +There MUST NOT be any more pages in an Opus logical bitstream after a page
|
| + marked 'end of stream'.
|
| +</t>
|
| +</section>
|
| +
|
| +<section anchor="granpos" title="Granule Position">
|
| +<t>
|
| +The granule position of an audio data page encodes the total number of PCM
|
| + samples in the stream up to and including the last fully-decodable sample from
|
| + the last packet completed on that page.
|
| +A page that is entirely spanned by a single packet (that completes on a
|
| + subsequent page) has no granule position, and the granule position field MUST
|
| + be set to the special value '-1' in two's complement.
|
| +</t>
|
| +
|
| +<t>
|
| +The granule position of an audio data page is in units of PCM audio samples at
|
| + a fixed rate of 48 kHz (per channel; a stereo stream's granule position
|
| + does not increment at twice the speed of a mono stream).
|
| +It is possible to run an Opus decoder at other sampling rates, but the value
|
| + in the granule position field always counts samples assuming a 48 kHz
|
| + decoding rate, and the rest of this specification makes the same assumption.
|
| +</t>
|
| +
|
| +<t>
|
| +The duration of an Opus packet may be any multiple of 2.5 ms, up to a
|
| + maximum of 120 ms.
|
| +This duration is encoded in the TOC sequence at the beginning of each packet.
|
| +The number of samples returned by a decoder corresponds to this duration
|
| + exactly, even for the first few packets.
|
| +For example, a 20 ms packet fed to a decoder running at 48 kHz will
|
| + always return 960 samples.
|
| +A demuxer can parse the TOC sequence at the beginning of each Ogg packet to
|
| + work backwards or forwards from a packet with a known granule position (i.e.,
|
| + the last packet completed on some page) in order to assign granule positions
|
| + to every packet, or even every individual sample.
|
| +The one exception is the last page in the stream, as described below.
|
| +</t>
|
| +
|
| +<t>
|
| +All other pages with completed packets after the first MUST have a granule
|
| + position equal to the number of samples contained in packets that complete on
|
| + that page plus the granule position of the most recent page with completed
|
| + packets.
|
| +This guarantees that a demuxer can assign individual packets the same granule
|
| + position when working forwards as when working backwards.
|
| +For this to work, there cannot be any gaps.
|
| +In order to support capturing a stream that uses discontinuous transmission
|
| + (DTX), an encoder SHOULD emit packets that explicitly request the use of
|
| + Packet Loss Concealment (PLC) (i.e., with a frame length of 0, as defined in
|
| + Section 3.2.1 of <xref target="RFC6716"/>) in place of the packets that were
|
| + not transmitted.
|
| +</t>
|
| +
|
| +<section anchor="preskip" title="Pre-skip">
|
| +<t>
|
| +There is some amount of latency introduced during the decoding process, to
|
| + allow for overlap in the MDCT modes, stereo mixing in the LP modes, and
|
| + resampling, and the encoder will introduce even more latency (though the exact
|
| + amount is not specified).
|
| +Therefore, the first few samples produced by the decoder do not correspond to
|
| + real input audio, but are instead composed of padding inserted by the encoder
|
| + to compensate for this latency.
|
| +These samples need to be stored and decoded, as Opus is an asymptotically
|
| + convergent predictive codec, meaning the decoded contents of each frame depend
|
| + on the recent history of decoder inputs.
|
| +However, a decoder will want to skip these samples after decoding them.
|
| +</t>
|
| +
|
| +<t>
|
| +A 'pre-skip' field in the ID header (see <xref target="id_header"/>) signals
|
| + the number of samples which SHOULD be skipped (decoded but discarded) at the
|
| + beginning of the stream.
|
| +This provides sufficient history to the decoder so that it has already
|
| + converged before the stream's output begins.
|
| +It may also be used to perform sample-accurate cropping of existing encoded
|
| + streams.
|
| +This amount need not be a multiple of 2.5 ms, may be smaller than a single
|
| + packet, or may span the contents of several packets.
|
| +</t>
|
| +</section>
|
| +
|
| +<section anchor="pcm_sample_position" title="PCM Sample Position">
|
| +<t>
|
| +The PCM sample position is determined from the granule position using the
|
| + formula
|
| +<figure align="center">
|
| +<artwork align="center"><![CDATA[
|
| +'PCM sample position' = 'granule position' - 'pre-skip' .
|
| +]]></artwork>
|
| +</figure>
|
| +</t>
|
| +
|
| +<t>
|
| +For example, if the granule position of the first audio data page is 59,971,
|
| + and the pre-skip is 11,971, then the PCM sample position of the last decoded
|
| + sample from that page is 48,000.
|
| +This can be converted into a playback time using the formula
|
| +<figure align="center">
|
| +<artwork align="center"><![CDATA[
|
| + 'PCM sample position'
|
| +'playback time' = --------------------- .
|
| + 48000.0
|
| +]]></artwork>
|
| +</figure>
|
| +</t>
|
| +
|
| +<t>
|
| +The initial PCM sample position before any samples are played is normally '0'.
|
| +In this case, the PCM sample position of the first audio sample to be played
|
| + starts at '1', because it marks the time on the clock
|
| + <spanx style="emph">after</spanx> that sample has been played, and a stream
|
| + that is exactly one second long has a final PCM sample position of '48000',
|
| + as in the example here.
|
| +</t>
|
| +
|
| +<t>
|
| +Vorbis streams use a granule position smaller than the number of audio samples
|
| + contained in the first audio data page to indicate that some of those samples
|
| + must be trimmed from the output (see <xref target="vorbis-trim"/>).
|
| +However, to do so, Vorbis requires that the first audio data page contains
|
| + exactly two packets, in order to allow the decoder to perform PCM position
|
| + adjustments before needing to return any PCM data.
|
| +Opus uses the pre-skip mechanism for this purpose instead, since the encoder
|
| + may introduce more than a single packet's worth of latency, and since very
|
| + large packets in streams with a very large number of channels might not fit
|
| + on a single page.
|
| +</t>
|
| +</section>
|
| +
|
| +<section anchor="end_trimming" title="End Trimming">
|
| +<t>
|
| +The page with the 'end of stream' flag set MAY have a granule position that
|
| + indicates the page contains less audio data than would normally be returned by
|
| + decoding up through the final packet.
|
| +This is used to end the stream somewhere other than an even frame boundary.
|
| +The granule position of the most recent audio data page with completed packets
|
| + is used to make this determination, or '0' is used if there were no previous
|
| + audio data pages with a completed packet.
|
| +The difference between these granule positions indicates how many samples to
|
| + keep after decoding the packets that completed on the final page.
|
| +The remaining samples are discarded.
|
| +The number of discarded samples SHOULD be no larger than the number decoded
|
| + from the last packet.
|
| +</t>
|
| +</section>
|
| +
|
| +<section anchor="start_granpos_restrictions"
|
| + title="Restrictions on the Initial Granule Position">
|
| +<t>
|
| +The granule position of the first audio data page with a completed packet MAY
|
| + be larger than the number of samples contained in packets that complete on
|
| + that page, however it MUST NOT be smaller, unless that page has the 'end of
|
| + stream' flag set.
|
| +Allowing a granule position larger than the number of samples allows the
|
| + beginning of a stream to be cropped or a live stream to be joined without
|
| + rewriting the granule position of all the remaining pages.
|
| +This means that the PCM sample position just before the first sample to be
|
| + played may be larger than '0'.
|
| +Synchronization when multiplexing with other logical streams still uses the PCM
|
| + sample position relative to '0' to compute sample times.
|
| +This does not affect the behavior of pre-skip: exactly 'pre-skip' samples
|
| + should be skipped from the beginning of the decoded output, even if the
|
| + initial PCM sample position is greater than zero.
|
| +</t>
|
| +
|
| +<t>
|
| +On the other hand, a granule position that is smaller than the number of
|
| + decoded samples prevents a demuxer from working backwards to assign each
|
| + packet or each individual sample a valid granule position, since granule
|
| + positions must be non-negative.
|
| +A decoder MUST reject as invalid any stream where the granule position is
|
| + smaller than the number of samples contained in packets that complete on the
|
| + first audio data page with a completed packet, unless that page has the 'end
|
| + of stream' flag set.
|
| +It MAY defer this action until it decodes the last packet completed on that
|
| + page.
|
| +</t>
|
| +
|
| +<t>
|
| +If that page has the 'end of stream' flag set, a demuxer MUST reject as invalid
|
| + any stream where its granule position is smaller than the 'pre-skip' amount.
|
| +This would indicate that more samples should be skipped from the initial
|
| + decoded output than exist in the stream.
|
| +If the granule position is smaller than the number of decoded samples produced
|
| + by the packets that complete on that page, then a demuxer MUST use an initial
|
| + granule position of '0', and can work forwards from '0' to timestamp
|
| + individual packets.
|
| +If the granule position is larger than the number of decoded samples available,
|
| + then the demuxer MUST still work backwards as described above, even if the
|
| + 'end of stream' flag is set, to determine the initial granule position, and
|
| + thus the initial PCM sample position.
|
| +Both of these will be greater than '0' in this case.
|
| +</t>
|
| +</section>
|
| +
|
| +<section anchor="seeking_and_preroll" title="Seeking and Pre-roll">
|
| +<t>
|
| +Seeking in Ogg files is best performed using a bisection search for a page
|
| + whose granule position corresponds to a PCM position at or before the seek
|
| + target.
|
| +With appropriately weighted bisection, accurate seeking can be performed with
|
| + just three or four bisections even in multi-gigabyte files.
|
| +See <xref target="seeking"/> for general implementation guidance.
|
| +</t>
|
| +
|
| +<t>
|
| +When seeking within an Ogg Opus stream, the decoder SHOULD start decoding (and
|
| + discarding the output) at least 3840 samples (80 ms) prior to the
|
| + seek target in order to ensure that the output audio is correct by the time it
|
| + reaches the seek target.
|
| +This 'pre-roll' is separate from, and unrelated to, the 'pre-skip' used at the
|
| + beginning of the stream.
|
| +If the point 80 ms prior to the seek target comes before the initial PCM
|
| + sample position, the decoder SHOULD start decoding from the beginning of the
|
| + stream, applying pre-skip as normal, regardless of whether the pre-skip is
|
| + larger or smaller than 80 ms, and then continue to discard the samples
|
| + required to reach the seek target (if any).
|
| +</t>
|
| +</section>
|
| +
|
| +</section>
|
| +
|
| +<section anchor="headers" title="Header Packets">
|
| +<t>
|
| +An Opus stream contains exactly two mandatory header packets:
|
| + an identification header and a comment header.
|
| +</t>
|
| +
|
| +<section anchor="id_header" title="Identification Header">
|
| +
|
| +<figure anchor="id_header_packet" title="ID Header Packet" align="center">
|
| +<artwork align="center"><![CDATA[
|
| + 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
|
| ++-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
|
| +| 'O' | 'p' | 'u' | 's' |
|
| ++-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
|
| +| 'H' | 'e' | 'a' | 'd' |
|
| ++-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
|
| +| Version = 1 | Channel Count | Pre-skip |
|
| ++-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
|
| +| Input Sample Rate (Hz) |
|
| ++-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
|
| +| Output Gain (Q7.8 in dB) | Mapping Family| |
|
| ++-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ :
|
| +| |
|
| +: Optional Channel Mapping Table... :
|
| +| |
|
| ++-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
|
| +]]></artwork>
|
| +</figure>
|
| +
|
| +<t>
|
| +The fields in the identification (ID) header have the following meaning:
|
| +<list style="numbers">
|
| +<t><spanx style="strong">Magic Signature</spanx>:
|
| +<vspace blankLines="1"/>
|
| +This is an 8-octet (64-bit) field that allows codec identification and is
|
| + human-readable.
|
| +It contains, in order, the magic numbers:
|
| +<list style="empty">
|
| +<t>0x4F 'O'</t>
|
| +<t>0x70 'p'</t>
|
| +<t>0x75 'u'</t>
|
| +<t>0x73 's'</t>
|
| +<t>0x48 'H'</t>
|
| +<t>0x65 'e'</t>
|
| +<t>0x61 'a'</t>
|
| +<t>0x64 'd'</t>
|
| +</list>
|
| +Starting with "Op" helps distinguish it from audio data packets, as this is an
|
| + invalid TOC sequence.
|
| +<vspace blankLines="1"/>
|
| +</t>
|
| +<t><spanx style="strong">Version</spanx> (8 bits, unsigned):
|
| +<vspace blankLines="1"/>
|
| +The version number MUST always be '1' for this version of the encapsulation
|
| + specification.
|
| +Implementations SHOULD treat streams where the upper four bits of the version
|
| + number match that of a recognized specification as backwards-compatible with
|
| + that specification.
|
| +That is, the version number can be split into "major" and "minor" version
|
| + sub-fields, with changes to the "minor" sub-field (in the lower four bits)
|
| + signaling compatible changes.
|
| +For example, a decoder implementing this specification SHOULD accept any stream
|
| + with a version number of '15' or less, and SHOULD assume any stream with a
|
| + version number '16' or greater is incompatible.
|
| +The initial version '1' was chosen to keep implementations from relying on this
|
| + octet as a null terminator for the "OpusHead" string.
|
| +<vspace blankLines="1"/>
|
| +</t>
|
| +<t><spanx style="strong">Output Channel Count</spanx> 'C' (8 bits, unsigned):
|
| +<vspace blankLines="1"/>
|
| +This is the number of output channels.
|
| +This might be different than the number of encoded channels, which can change
|
| + on a packet-by-packet basis.
|
| +This value MUST NOT be zero.
|
| +The maximum allowable value depends on the channel mapping family, and might be
|
| + as large as 255.
|
| +See <xref target="channel_mapping"/> for details.
|
| +<vspace blankLines="1"/>
|
| +</t>
|
| +<t><spanx style="strong">Pre-skip</spanx> (16 bits, unsigned, little
|
| + endian):
|
| +<vspace blankLines="1"/>
|
| +This is the number of samples (at 48 kHz) to discard from the decoder
|
| + output when starting playback, and also the number to subtract from a page's
|
| + granule position to calculate its PCM sample position.
|
| +When cropping the beginning of existing Ogg Opus streams, a pre-skip of at
|
| + least 3,840 samples (80 ms) is RECOMMENDED to ensure complete
|
| + convergence in the decoder.
|
| +<vspace blankLines="1"/>
|
| +</t>
|
| +<t><spanx style="strong">Input Sample Rate</spanx> (32 bits, unsigned, little
|
| + endian):
|
| +<vspace blankLines="1"/>
|
| +This field is <spanx style="emph">not</spanx> the sample rate to use for
|
| + playback of the encoded data.
|
| +<vspace blankLines="1"/>
|
| +Opus has a handful of coding modes, with internal audio bandwidths of 4, 6, 8,
|
| + 12, and 20 kHz.
|
| +Each packet in the stream may have a different audio bandwidth.
|
| +Regardless of the audio bandwidth, the reference decoder supports decoding any
|
| + stream at a sample rate of 8, 12, 16, 24, or 48 kHz.
|
| +The original sample rate of the encoder input is not preserved by the lossy
|
| + compression.
|
| +<vspace blankLines="1"/>
|
| +An Ogg Opus player SHOULD select the playback sample rate according to the
|
| + following procedure:
|
| +<list style="numbers">
|
| +<t>If the hardware supports 48 kHz playback, decode at 48 kHz.</t>
|
| +<t>Otherwise, if the hardware's highest available sample rate is a supported
|
| + rate, decode at this sample rate.</t>
|
| +<t>Otherwise, if the hardware's highest available sample rate is less than
|
| + 48 kHz, decode at the highest supported rate above this and resample.</t>
|
| +<t>Otherwise, decode at 48 kHz and resample.</t>
|
| +</list>
|
| +However, the 'Input Sample Rate' field allows the encoder to pass the sample
|
| + rate of the original input stream as metadata.
|
| +This may be useful when the user requires the output sample rate to match the
|
| + input sample rate.
|
| +For example, a non-player decoder writing PCM format samples to disk might
|
| + choose to resample the output audio back to the original input sample rate to
|
| + reduce surprise to the user, who might reasonably expect to get back a file
|
| + with the same sample rate as the one they fed to the encoder.
|
| +<vspace blankLines="1"/>
|
| +A value of zero indicates 'unspecified'.
|
| +Encoders SHOULD write the actual input sample rate or zero, but decoder
|
| + implementations which do something with this field SHOULD take care to behave
|
| + sanely if given crazy values (e.g., do not actually upsample the output to
|
| + 10 MHz if requested).
|
| +<vspace blankLines="1"/>
|
| +</t>
|
| +<t><spanx style="strong">Output Gain</spanx> (16 bits, signed, little
|
| + endian):
|
| +<vspace blankLines="1"/>
|
| +This is a gain to be applied by the decoder.
|
| +It is 20*log10 of the factor to scale the decoder output by to achieve the
|
| + desired playback volume, stored in a 16-bit, signed, two's complement
|
| + fixed-point value with 8 fractional bits (i.e., Q7.8).
|
| +To apply the gain, a decoder could use
|
| +<figure align="center">
|
| +<artwork align="center"><![CDATA[
|
| +sample *= pow(10, output_gain/(20.0*256)) ,
|
| +]]></artwork>
|
| +</figure>
|
| + where output_gain is the raw 16-bit value from the header.
|
| +<vspace blankLines="1"/>
|
| +Virtually all players and media frameworks should apply it by default.
|
| +If a player chooses to apply any volume adjustment or gain modification, such
|
| + as the R128_TRACK_GAIN (see <xref target="comment_header"/>) or a user-facing
|
| + volume knob, the adjustment MUST be applied in addition to this output gain in
|
| + order to achieve playback at the desired volume.
|
| +<vspace blankLines="1"/>
|
| +An encoder SHOULD set this field to zero, and instead apply any gain prior to
|
| + encoding, when this is possible and does not conflict with the user's wishes.
|
| +The output gain should only be nonzero when the gain is adjusted after
|
| + encoding, or when the user wishes to adjust the gain for playback while
|
| + preserving the ability to recover the original signal amplitude.
|
| +<vspace blankLines="1"/>
|
| +Although the output gain has enormous range (+/- 128 dB, enough to amplify
|
| + inaudible sounds to the threshold of physical pain), most applications can
|
| + only reasonably use a small portion of this range around zero.
|
| +The large range serves in part to ensure that gain can always be losslessly
|
| + transferred between OpusHead and R128_TRACK_GAIN (see below) without
|
| + saturating.
|
| +<vspace blankLines="1"/>
|
| +</t>
|
| +<t><spanx style="strong">Channel Mapping Family</spanx> (8 bits,
|
| + unsigned):
|
| +<vspace blankLines="1"/>
|
| +This octet indicates the order and semantic meaning of the various channels
|
| + encoded in each Ogg packet.
|
| +<vspace blankLines="1"/>
|
| +Each possible value of this octet indicates a mapping family, which defines a
|
| + set of allowed channel counts, and the ordered set of channel names for each
|
| + allowed channel count.
|
| +The details are described in <xref target="channel_mapping"/>.
|
| +</t>
|
| +<t><spanx style="strong">Channel Mapping Table</spanx>:
|
| +This table defines the mapping from encoded streams to output channels.
|
| +It is omitted when the channel mapping family is 0, but REQUIRED otherwise.
|
| +Its contents are specified in <xref target="channel_mapping"/>.
|
| +</t>
|
| +</list>
|
| +</t>
|
| +
|
| +<t>
|
| +All fields in the ID headers are REQUIRED, except for the channel mapping
|
| + table, which is omitted when the channel mapping family is 0.
|
| +Implementations SHOULD reject ID headers which do not contain enough data for
|
| + these fields, even if they contain a valid Magic Signature.
|
| +Future versions of this specification, even backwards-compatible versions,
|
| + might include additional fields in the ID header.
|
| +If an ID header has a compatible major version, but a larger minor version,
|
| + an implementation MUST NOT reject it for containing additional data not
|
| + specified here.
|
| +However, implementations MAY reject streams in which the ID header does not
|
| + complete on the first page.
|
| +</t>
|
| +
|
| +<section anchor="channel_mapping" title="Channel Mapping">
|
| +<t>
|
| +An Ogg Opus stream allows mapping one number of Opus streams (N) to a possibly
|
| + larger number of decoded channels (M+N) to yet another number of output
|
| + channels (C), which might be larger or smaller than the number of decoded
|
| + channels.
|
| +The order and meaning of these channels are defined by a channel mapping,
|
| + which consists of the 'channel mapping family' octet and, for channel mapping
|
| + families other than family 0, a channel mapping table, as illustrated in
|
| + <xref target="channel_mapping_table"/>.
|
| +</t>
|
| +
|
| +<figure anchor="channel_mapping_table" title="Channel Mapping Table"
|
| + align="center">
|
| +<artwork align="center"><![CDATA[
|
| + 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
|
| + +-+-+-+-+-+-+-+-+
|
| + | Stream Count |
|
| ++-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
|
| +| Coupled Count | Channel Mapping... :
|
| ++-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
|
| +]]></artwork>
|
| +</figure>
|
| +
|
| +<t>
|
| +The fields in the channel mapping table have the following meaning:
|
| +<list style="numbers" counter="8">
|
| +<t><spanx style="strong">Stream Count</spanx> 'N' (8 bits, unsigned):
|
| +<vspace blankLines="1"/>
|
| +This is the total number of streams encoded in each Ogg packet.
|
| +This value is required to correctly parse the packed Opus packets inside an
|
| + Ogg packet, as described in <xref target="packet_organization"/>.
|
| +This value MUST NOT be zero, as without at least one Opus packet with a valid
|
| + TOC sequence, a demuxer cannot recover the duration of an Ogg packet.
|
| +<vspace blankLines="1"/>
|
| +For channel mapping family 0, this value defaults to 1, and is not coded.
|
| +<vspace blankLines="1"/>
|
| +</t>
|
| +<t><spanx style="strong">Coupled Stream Count</spanx> 'M' (8 bits, unsigned):
|
| +This is the number of streams whose decoders should be configured to produce
|
| + two channels.
|
| +This MUST be no larger than the total number of streams, N.
|
| +<vspace blankLines="1"/>
|
| +Each packet in an Opus stream has an internal channel count of 1 or 2, which
|
| + can change from packet to packet.
|
| +This is selected by the encoder depending on the bitrate and the audio being
|
| + encoded.
|
| +The original channel count of the encoder input is not preserved by the lossy
|
| + compression.
|
| +<vspace blankLines="1"/>
|
| +Regardless of the internal channel count, any Opus stream can be decoded as
|
| + mono (a single channel) or stereo (two channels) by appropriate initialization
|
| + of the decoder.
|
| +The 'coupled stream count' field indicates that the first M Opus decoders are
|
| + to be initialized in stereo mode, and the remaining N-M decoders are to be
|
| + initialized in mono mode.
|
| +The total number of decoded channels, (M+N), MUST be no larger than 255, as
|
| + there is no way to index more channels than that in the channel mapping.
|
| +<vspace blankLines="1"/>
|
| +For channel mapping family 0, this value defaults to C-1 (i.e., 0 for mono
|
| + and 1 for stereo), and is not coded.
|
| +<vspace blankLines="1"/>
|
| +</t>
|
| +<t><spanx style="strong">Channel Mapping</spanx> (8*C bits):
|
| +This contains one octet per output channel, indicating which decoded channel
|
| + should be used for each one.
|
| +Let 'index' be the value of this octet for a particular output channel.
|
| +This value MUST either be smaller than (M+N), or be the special value 255.
|
| +If 'index' is less than 2*M, the output MUST be taken from decoding stream
|
| + ('index'/2) as stereo and selecting the left channel if 'index' is even, and
|
| + the right channel if 'index' is odd.
|
| +If 'index' is 2*M or larger, the output MUST be taken from decoding stream
|
| + ('index'-M) as mono.
|
| +If 'index' is 255, the corresponding output channel MUST contain pure silence.
|
| +<vspace blankLines="1"/>
|
| +The number of output channels, C, is not constrained to match the number of
|
| + decoded channels (M+N).
|
| +A single index value MAY appear multiple times, i.e., the same decoded channel
|
| + might be mapped to multiple output channels.
|
| +Some decoded channels might not be assigned to any output channel, as well.
|
| +<vspace blankLines="1"/>
|
| +For channel mapping family 0, the first index defaults to 0, and if C==2,
|
| + the second index defaults to 1.
|
| +Neither index is coded.
|
| +</t>
|
| +</list>
|
| +</t>
|
| +
|
| +<t>
|
| +After producing the output channels, the channel mapping family determines the
|
| + semantic meaning of each one.
|
| +Currently there are three defined mapping families, although more may be added.
|
| +</t>
|
| +
|
| +<section anchor="channel_mapping_0" title="Channel Mapping Family 0">
|
| +<t>
|
| +Allowed numbers of channels: 1 or 2.
|
| +RTP mapping.
|
| +</t>
|
| +<t>
|
| +<list style="symbols">
|
| +<t>1 channel: monophonic (mono).</t>
|
| +<t>2 channels: stereo (left, right).</t>
|
| +</list>
|
| +<spanx style="strong">Special mapping</spanx>: This channel mapping value also
|
| + indicates that the contents consists of a single Opus stream that is stereo if
|
| + and only if C==2, with stream index 0 mapped to output channel 0 (mono, or
|
| + left channel) and stream index 1 mapped to output channel 1 (right channel)
|
| + if stereo.
|
| +When the 'channel mapping family' octet has this value, the channel mapping
|
| + table MUST be omitted from the ID header packet.
|
| +</t>
|
| +</section>
|
| +
|
| +<section anchor="channel_mapping_1" title="Channel Mapping Family 1">
|
| +<t>
|
| +Allowed numbers of channels: 1...8.
|
| +Vorbis channel order.
|
| +</t>
|
| +<t>
|
| +Each channel is assigned to a speaker location in a conventional surround
|
| + configuration.
|
| +Specific locations depend on the number of channels, and are given below
|
| + in order of the corresponding channel indicies.
|
| +<list style="symbols">
|
| + <t>1 channel: monophonic (mono).</t>
|
| + <t>2 channels: stereo (left, right).</t>
|
| + <t>3 channels: linear surround (left, center, right)</t>
|
| + <t>4 channels: quadraphonic (front left, front right, rear left, rear right).</t>
|
| + <t>5 channels: 5.0 surround (front left, front center, front right, rear left, rear right).</t>
|
| + <t>6 channels: 5.1 surround (front left, front center, front right, rear left, rear right, LFE).</t>
|
| + <t>7 channels: 6.1 surround (front left, front center, front right, side left, side right, rear center, LFE).</t>
|
| + <t>8 channels: 7.1 surround (front left, front center, front right, side left, side right, rear left, rear right, LFE)</t>
|
| +</list>
|
| +This set of surround configurations and speaker location orderings is the same
|
| + as the one used by the Vorbis codec <xref target="vorbis-mapping"/>.
|
| +The ordering is different from the one used by the
|
| + WAVE <xref target="wave-multichannel"/> and
|
| + FLAC <xref target="flac"/> formats,
|
| + so correct ordering requires permutation of the output channels when encoding
|
| + from or decoding to those formats.
|
| +'LFE' here refers to a Low Frequency Effects, often mapped to a subwoofer
|
| + with no particular spacial position.
|
| +Implementations SHOULD identify 'side' or 'rear' speaker locations with
|
| + 'surround' and 'back' as appropriate when interfacing with audio formats
|
| + or systems which prefer that terminology.
|
| +Speaker configurations other than those described here are not supported.
|
| +</t>
|
| +</section>
|
| +
|
| +<section anchor="channel_mapping_255"
|
| + title="Channel Mapping Family 255">
|
| +<t>
|
| +Allowed numbers of channels: 1...255.
|
| +No defined channel meaning.
|
| +</t>
|
| +<t>
|
| +Channels are unidentified.
|
| +General-purpose players SHOULD NOT attempt to play these streams, and offline
|
| + decoders MAY deinterleave the output into separate PCM files, one per channel.
|
| +Decoders SHOULD NOT produce output for channels mapped to stream index 255
|
| + (pure silence) unless they have no other way to indicate the index of
|
| + non-silent channels.
|
| +</t>
|
| +</section>
|
| +
|
| +<section anchor="channel_mapping_undefined"
|
| + title="Undefined Channel Mappings">
|
| +<t>
|
| +The remaining channel mapping families (2...254) are reserved.
|
| +A decoder encountering a reserved channel mapping family value SHOULD act as
|
| + though the value is 255.
|
| +</t>
|
| +</section>
|
| +
|
| +<section anchor="downmix" title="Downmixing">
|
| +<t>
|
| +An Ogg Opus player MUST play any Ogg Opus stream with a channel mapping family
|
| + of 0 or 1, even if the number of channels does not match the physically
|
| + connected audio hardware.
|
| +Players SHOULD perform channel mixing to increase or reduce the number of
|
| + channels as needed.
|
| +</t>
|
| +
|
| +<t>
|
| +Implementations MAY use the following matricies to implement downmixing from
|
| + multichannel files using <xref target="channel_mapping_1">Channel Mapping
|
| + Family 1</xref>, which are known to give acceptable results for stereo.
|
| +Matricies for 3 and 4 channels are normalized so each coefficent row sums
|
| + to 1 to avoid clipping.
|
| +For 5 or more channels they are normalized to 2 as a compromize between
|
| + clipping and dynamic range reduction.
|
| +</t>
|
| +<t>
|
| +In these matricies the front left and front right channels are generally
|
| +passed through directly.
|
| +When a surround channel is split between both the left and right stereo
|
| + channels, coefficients are chosen so their squares sum to 1, which
|
| + helps preserve the perceived intensity.
|
| +Rear channels are mixed more diffusely or attenuated to maintain focus
|
| + on the front channels.
|
| +</t>
|
| +
|
| +<figure anchor="downmix-matrix-3"
|
| + title="Stereo downmix matrix for the linear surround channel mapping"
|
| + align="center">
|
| +<artwork align="center"><![CDATA[
|
| + Left output = ( 0.585786 * left + 0.414214 * center )
|
| +Right output = ( 0.414214 * center + 0.585786 * right )
|
| +]]></artwork>
|
| +<postamble>
|
| +Exact coefficient values are 1 and 1/sqrt(2), multiplied by
|
| + 1/(1 + 1/sqrt(2)) for normalization.
|
| +</postamble>
|
| +</figure>
|
| +
|
| +<figure anchor="downmix-matrix-4"
|
| + title="Stereo downmix matrix for the quadraphonic channel mapping"
|
| + align="center">
|
| +<artwork align="center"><![CDATA[
|
| +/ \ / \ / FL \
|
| +| L output | | 0.422650 0.000000 0.366025 0.211325 | | FR |
|
| +| R output | = | 0.000000 0.422650 0.211325 0.366025 | | RL |
|
| +\ / \ / \ RR /
|
| +]]></artwork>
|
| +<postamble>
|
| +Exact coefficient values are 1, sqrt(3)/2 and 1/2, multiplied by
|
| + 1/(1 + sqrt(3)/2 + 1/2) for normalization.
|
| +</postamble>
|
| +</figure>
|
| +
|
| +<figure anchor="downmix-matrix-5"
|
| + title="Stereo downmix matrix for the 5.0 surround mapping"
|
| + align="center">
|
| +<artwork align="center"><![CDATA[
|
| + / FL \
|
| +/ \ / \ | FC |
|
| +| L | | 0.650802 0.460186 0.000000 0.563611 0.325401 | | FR |
|
| +| R | = | 0.000000 0.460186 0.650802 0.325401 0.563611 | | RL |
|
| +\ / \ / | RR |
|
| + \ /
|
| +]]></artwork>
|
| +<postamble>
|
| +Exact coefficient values are 1, 1/sqrt(2), sqrt(3)/2 and 1/2, multiplied by
|
| + 2/(1 + 1/sqrt(2) + sqrt(3)/2 + 1/2)
|
| + for normalization.
|
| +</postamble>
|
| +</figure>
|
| +
|
| +<figure anchor="downmix-matrix-6"
|
| + title="Stereo downmix matrix for the 5.1 surround mapping"
|
| + align="center">
|
| +<artwork align="center"><![CDATA[
|
| + /FL \
|
| +/ \ / \ |FC |
|
| +|L| | 0.529067 0.374107 0.000000 0.458186 0.264534 0.374107 | |FR |
|
| +|R| = | 0.000000 0.374107 0.529067 0.264534 0.458186 0.374107 | |RL |
|
| +\ / \ / |RR |
|
| + \LFE/
|
| +]]></artwork>
|
| +<postamble>
|
| +Exact coefficient values are 1, 1/sqrt(2), sqrt(3)/2 and 1/2, multiplied by
|
| +2/(1 + 1/sqrt(2) + sqrt(3)/2 + 1/2 + 1/sqrt(2))
|
| + for normalization.
|
| +</postamble>
|
| +</figure>
|
| +
|
| +<figure anchor="downmix-matrix-7"
|
| + title="Stereo downmix matrix for the 6.1 surround mapping"
|
| + align="center">
|
| +<artwork align="center"><![CDATA[
|
| + / \
|
| + | 0.455310 0.321953 0.000000 0.394310 0.227655 0.278819 0.321953 |
|
| + | 0.000000 0.321953 0.455310 0.227655 0.394310 0.278819 0.321953 |
|
| + \ /
|
| +]]></artwork>
|
| +<postamble>
|
| +Exact coefficient values are 1, 1/sqrt(2), sqrt(3)/2, 1/2 and
|
| + sqrt(3)/2/sqrt(2), multiplied by
|
| + 2/(1 + 1/sqrt(2) + sqrt(3)/2 + 1/2 +
|
| + sqrt(3)/2/sqrt(2) + 1/sqrt(2)) for normalization.
|
| +The coeffients are in the same order as in <xref target="channel_mapping_1" />,
|
| + and the matricies above.
|
| +</postamble>
|
| +</figure>
|
| +
|
| +<figure anchor="downmix-matrix-8"
|
| + title="Stereo downmix matrix for the 7.1 surround mapping"
|
| + align="center">
|
| +<artwork align="center"><![CDATA[
|
| +/ \
|
| +| .388631 .274804 .000000 .336565 .194316 .336565 .194316 .274804 |
|
| +| .000000 .274804 .388631 .194316 .336565 .194316 .336565 .274804 |
|
| +\ /
|
| +]]></artwork>
|
| +<postamble>
|
| +Exact coefficient values are 1, 1/sqrt(2), sqrt(3)/2 and 1/2, multiplied by
|
| + 2/(2 + 2/sqrt(2) + sqrt(3)) for normalization.
|
| +The coeffients are in the same order as in <xref target="channel_mapping_1" />,
|
| + and the matricies above.
|
| +</postamble>
|
| +</figure>
|
| +
|
| +</section>
|
| +
|
| +</section> <!-- end channel_mapping_table -->
|
| +
|
| +</section> <!-- end id_header -->
|
| +
|
| +<section anchor="comment_header" title="Comment Header">
|
| +
|
| +<figure anchor="comment_header_packet" title="Comment Header Packet"
|
| + align="center">
|
| +<artwork align="center"><![CDATA[
|
| + 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
|
| ++-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
|
| +| 'O' | 'p' | 'u' | 's' |
|
| ++-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
|
| +| 'T' | 'a' | 'g' | 's' |
|
| ++-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
|
| +| Vendor String Length |
|
| ++-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
|
| +| |
|
| +: Vendor String... :
|
| +| |
|
| ++-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
|
| +| User Comment List Length |
|
| ++-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
|
| +| User Comment #0 String Length |
|
| ++-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
|
| +| |
|
| +: User Comment #0 String... :
|
| +| |
|
| ++-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
|
| +| User Comment #1 String Length |
|
| ++-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
|
| +: :
|
| +]]></artwork>
|
| +</figure>
|
| +
|
| +<t>
|
| +The comment header consists of a 64-bit magic signature, followed by data in
|
| + the same format as the <xref target="vorbis-comment"/> header used in Ogg
|
| + Vorbis (without the final "framing bit"), Ogg Theora, and Speex.
|
| +<list style="numbers">
|
| +<t><spanx style="strong">Magic Signature</spanx>:
|
| +<vspace blankLines="1"/>
|
| +This is an 8-octet (64-bit) field that allows codec identification and is
|
| + human-readable.
|
| +It contains, in order, the magic numbers:
|
| +<list style="empty">
|
| +<t>0x4F 'O'</t>
|
| +<t>0x70 'p'</t>
|
| +<t>0x75 'u'</t>
|
| +<t>0x73 's'</t>
|
| +<t>0x54 'T'</t>
|
| +<t>0x61 'a'</t>
|
| +<t>0x67 'g'</t>
|
| +<t>0x73 's'</t>
|
| +</list>
|
| +Starting with "Op" helps distinguish it from audio data packets, as this is an
|
| + invalid TOC sequence.
|
| +<vspace blankLines="1"/>
|
| +</t>
|
| +<t><spanx style="strong">Vendor String Length</spanx> (32 bits, unsigned,
|
| + little endian):
|
| +<vspace blankLines="1"/>
|
| +This field gives the length of the following vendor string, in octets.
|
| +It MUST NOT indicate that the vendor string is longer than the rest of the
|
| + packet.
|
| +<vspace blankLines="1"/>
|
| +</t>
|
| +<t><spanx style="strong">Vendor String</spanx> (variable length, UTF-8 vector):
|
| +<vspace blankLines="1"/>
|
| +This is a simple human-readable tag for vendor information, encoded as a UTF-8
|
| + string <xref target="RFC3629"/>.
|
| +No terminating null octet is required.
|
| +<vspace blankLines="1"/>
|
| +This tag is intended to identify the codec encoder and encapsulation
|
| + implementations, for tracing differences in technical behavior.
|
| +User-facing encoding applications can use the 'ENCODER' user comment tag
|
| + to identify themselves.
|
| +<vspace blankLines="1"/>
|
| +</t>
|
| +<t><spanx style="strong">User Comment List Length</spanx> (32 bits, unsigned,
|
| + little endian):
|
| +<vspace blankLines="1"/>
|
| +This field indicates the number of user-supplied comments.
|
| +It MAY indicate there are zero user-supplied comments, in which case there are
|
| + no additional fields in the packet.
|
| +It MUST NOT indicate that there are so many comments that the comment string
|
| + lengths would require more data than is available in the rest of the packet.
|
| +<vspace blankLines="1"/>
|
| +</t>
|
| +<t><spanx style="strong">User Comment #i String Length</spanx> (32 bits,
|
| + unsigned, little endian):
|
| +<vspace blankLines="1"/>
|
| +This field gives the length of the following user comment string, in octets.
|
| +There is one for each user comment indicated by the 'user comment list length'
|
| + field.
|
| +It MUST NOT indicate that the string is longer than the rest of the packet.
|
| +<vspace blankLines="1"/>
|
| +</t>
|
| +<t><spanx style="strong">User Comment #i String</spanx> (variable length, UTF-8
|
| + vector):
|
| +<vspace blankLines="1"/>
|
| +This field contains a single user comment string.
|
| +There is one for each user comment indicated by the 'user comment list length'
|
| + field.
|
| +</t>
|
| +</list>
|
| +</t>
|
| +
|
| +<t>
|
| +The vendor string length and user comment list length are REQUIRED, and
|
| + implementations SHOULD reject comment headers that do not contain enough data
|
| + for these fields, or that do not contain enough data for the corresponding
|
| + vendor string or user comments they describe.
|
| +Making this check before allocating the associated memory to contain the data
|
| + may help prevent a possible Denial-of-Service (DoS) attack from small comment
|
| + headers that claim to contain strings longer than the entire packet or more
|
| + user comments than than could possibly fit in the packet.
|
| +</t>
|
| +
|
| +<t>
|
| +The user comment strings follow the NAME=value format described by
|
| + <xref target="vorbis-comment"/> with the same recommended tag names.
|
| +One new comment tag is introduced for Ogg Opus:
|
| +<figure align="center">
|
| +<artwork align="left"><![CDATA[
|
| +R128_TRACK_GAIN=-573
|
| +]]></artwork>
|
| +</figure>
|
| +representing the volume shift needed to normalize the track's volume.
|
| +The gain is a Q7.8 fixed point number in dB, as in the ID header's 'output
|
| + gain' field.
|
| +This tag is similar to the REPLAYGAIN_TRACK_GAIN tag in
|
| + Vorbis <xref target="replay-gain"/>, except that the normal volume
|
| + reference is the <xref target="EBU-R128"/> standard.
|
| +</t>
|
| +<t>
|
| +An Ogg Opus file MUST NOT have more than one such tag, and if present its
|
| + value MUST be an integer from -32768 to 32767, inclusive, represented in
|
| + ASCII with no whitespace.
|
| +If present, it MUST correctly represent the R128 normalization gain relative
|
| + to the 'output gain' field specified in the ID header.
|
| +If a player chooses to make use of the R128_TRACK_GAIN tag, it MUST be
|
| + applied <spanx style="emph">in addition</spanx> to the 'output gain' value.
|
| +If an encoder wishes to use R128 normalization, and the output gain is not
|
| + otherwise constrained or specified, the encoder SHOULD write the R128 gain
|
| + into the 'output gain' field and store a tag containing "R128_TRACK_GAIN=0".
|
| +That is, it should assume that by default tools will respect the 'output gain'
|
| + field, and not the comment tag.
|
| +If a tool modifies the ID header's 'output gain' field, it MUST also update or
|
| + remove the R128_TRACK_GAIN comment tag.
|
| +</t>
|
| +<t>
|
| +To avoid confusion with multiple normalization schemes, an Opus comment header
|
| + SHOULD NOT contain any of the REPLAYGAIN_TRACK_GAIN, REPLAYGAIN_TRACK_PEAK,
|
| + REPLAYGAIN_ALBUM_GAIN, or REPLAYGAIN_ALBUM_PEAK tags.
|
| +</t>
|
| +<t>
|
| +There is no Opus comment tag corresponding to REPLAYGAIN_ALBUM_GAIN.
|
| +That information should instead be stored in the ID header's 'output gain'
|
| + field.
|
| +</t>
|
| +</section>
|
| +
|
| +</section>
|
| +
|
| +<section anchor="packet_size_limits" title="Packet Size Limits">
|
| +<t>
|
| +Technically valid Opus packets can be arbitrarily large due to the padding
|
| + format, although the amount of non-padding data they can contain is bounded.
|
| +These packets might be spread over a similarly enormous number of Ogg pages.
|
| +Encoders SHOULD use no more padding than required to make a variable bitrate
|
| + (VBR) stream constant bitrate (CBR).
|
| +Decoders SHOULD avoid attempting to allocate excessive amounts of memory when
|
| + presented with a very large packet.
|
| +The presence of an extremely large packet in the stream could indicate a
|
| + memory exhaustion attack or stream corruption.
|
| +Decoders SHOULD reject a packet that is too large to process, and display a
|
| + warning message.
|
| +</t>
|
| +<t>
|
| +In an Ogg Opus stream, the largest possible valid packet that does not use
|
| + padding has a size of (61,298*N - 2) octets, or about 60 kB per
|
| + Opus stream.
|
| +With 255 streams, this is 15,630,988 octets (14.9 MB) and can
|
| + span up to 61,298 Ogg pages, all but one of which will have a granule
|
| + position of -1.
|
| +This is of course a very extreme packet, consisting of 255 streams, each
|
| + containing 120 ms of audio encoded as 2.5 ms frames, each frame
|
| + using the maximum possible number of octets (1275) and stored in the least
|
| + efficient manner allowed (a VBR code 3 Opus packet).
|
| +Even in such a packet, most of the data will be zeros as 2.5 ms frames
|
| + cannot actually use all 1275 octets.
|
| +The largest packet consisting of entirely useful data is
|
| + (15,326*N - 2) octets, or about 15 kB per stream.
|
| +This corresponds to 120 ms of audio encoded as 10 ms frames in either
|
| + LP or Hybrid mode, but at a data rate of over 1 Mbps, which makes little
|
| + sense for the quality achieved.
|
| +A more reasonable limit is (7,664*N - 2) octets, or about 7.5 kB
|
| + per stream.
|
| +This corresponds to 120 ms of audio encoded as 20 ms stereo MDCT-mode
|
| + frames, with a total bitrate just under 511 kbps (not counting the Ogg
|
| + encapsulation overhead).
|
| +With N=8, the maximum number of channels currently defined by mapping
|
| + family 1, this gives a maximum packet size of 61,310 octets, or just
|
| + under 60 kB.
|
| +This is still quite conservative, as it assumes each output channel is taken
|
| + from one decoded channel of a stereo packet.
|
| +An implementation could reasonably choose any of these numbers for its internal
|
| + limits.
|
| +</t>
|
| +</section>
|
| +
|
| +<section anchor="encoder" title="Encoder Guidelines">
|
| +<t>
|
| +When encoding Opus files, Ogg encoders should take into account the
|
| + algorithmic delay of the Opus encoder.
|
| +</t>
|
| +<figure align="center">
|
| +<preamble>
|
| +In encoders derived from the reference implementation, the number of
|
| + samples can be queried with:
|
| +</preamble>
|
| +<artwork align="center"><![CDATA[
|
| + opus_encoder_ctl(encoder_state, OPUS_GET_LOOKAHEAD, &samples_delay);
|
| +]]></artwork>
|
| +</figure>
|
| +<t>
|
| +To achieve good quality in the very first samples of a stream, the Ogg encoder
|
| + MAY use LPC extrapolation to generate at least 120 extra samples
|
| + (extra_samples) at the beginning to avoid the Opus encoder having to encode
|
| + a discontinuous signal.
|
| +For an input file containing length samples, the Ogg encoder SHOULD set the
|
| + preskip header flag to samples_delay+extra_samples, encode at least
|
| + length+samples_delay+extra_samples samples, and set the granulepos of the last
|
| + page to length+samples_delay+extra_samples.
|
| +This ensures that the encoded file has the same duration as the original, with
|
| + no time offset. The best way to pad the end of the stream is to also use LPC
|
| + extrapolation, but zero-padding is also acceptable.
|
| +</t>
|
| +
|
| +<section anchor="lpc" title="LPC Extrapolation">
|
| +<t>
|
| +The first step in LPC extrapolation is to compute linear prediction
|
| + coefficients.
|
| +When extending the end of the signal, order-N (typically with N ranging from 8
|
| + to 40) LPC analysis is performed on a window near the end of the signal.
|
| +The last N samples are used as memory to an infinite impulse response (IIR)
|
| + filter.
|
| +</t>
|
| +<figure align="center">
|
| +<preamble>
|
| +The filter is then applied on a zero input to extrapolate the end of the signal.
|
| +Let a(k) be the kth LPC coefficient and x(n) be the nth sample of the signal,
|
| + each new sample past the end of the signal is computed as:
|
| +</preamble>
|
| +<artwork align="center"><![CDATA[
|
| + N
|
| + ---
|
| +x(n) = \ a(k)*x(n-k)
|
| + /
|
| + ---
|
| + k=1
|
| +]]></artwork>
|
| +</figure>
|
| +<t>
|
| +The process is repeated independently for each channel.
|
| +It is possible to extend the beginning of the signal by applying the same
|
| + process backward in time.
|
| +When extending the beginning of the signal, it is best to apply a "fade in" to
|
| + the extrapolated signal, e.g. by multiplying it by a half-Hanning window
|
| + <xref target="hanning"/>.
|
| +</t>
|
| +
|
| +</section>
|
| +
|
| +<section anchor="continuous_chaining" title="Continuous Chaining">
|
| +<t>
|
| +In some applications, such as Internet radio, it is desirable to cut a long
|
| + streams into smaller chains, e.g. so the comment header can be updated.
|
| +This can be done simply by separating the input streams into segments and
|
| + encoding each segment independently.
|
| +The drawback of this approach is that it creates a small discontinuity
|
| + at the boundary due to the lossy nature of Opus.
|
| +An encoder MAY avoid this discontinuity by using the following procedure:
|
| +<list style="numbers">
|
| +<t>Encode the last frame of the first segment as an independent frame by
|
| + turning off all forms of inter-frame prediction.
|
| +De-emphasis is allowed.</t>
|
| +<t>Set the granulepos of the last page to a point near the end of the last
|
| + frame.</t>
|
| +<t>Begin the second segment with a copy of the last frame of the first
|
| + segment.</t>
|
| +<t>Set the preskip flag of the second stream in such a way as to properly
|
| + join the two streams.</t>
|
| +<t>Continue the encoding process normally from there, without any reset to
|
| + the encoder.</t>
|
| +</list>
|
| +</t>
|
| +</section>
|
| +
|
| +</section>
|
| +
|
| +<section anchor="implementation" title="Implementation Status">
|
| +<t>
|
| +A brief summary of major implementations of this draft is available
|
| + at <eref target="https://wiki.xiph.org/OggOpusImplementation"/>,
|
| + along with their status.
|
| +</t>
|
| +<t>
|
| +[Note to RFC Editor: please remove this entire section before
|
| + final publication per <xref target="draft-sheffer-running-code"/>.]
|
| +</t>
|
| +</section>
|
| +
|
| +<section anchor="security" title="Security Considerations">
|
| +<t>
|
| +Implementations of the Opus codec need to take appropriate security
|
| + considerations into account, as outlined in <xref target="RFC4732"/>.
|
| +This is just as much a problem for the container as it is for the codec itself.
|
| +It is extremely important for the decoder to be robust against malicious
|
| + payloads.
|
| +Malicious payloads must not cause the decoder to overrun its allocated memory
|
| + or to take an excessive amount of resources to decode.
|
| +Although problems in encoders are typically rarer, the same applies to the
|
| + encoder.
|
| +Malicious audio streams must not cause the encoder to misbehave because this
|
| + would allow an attacker to attack transcoding gateways.
|
| +</t>
|
| +
|
| +<t>
|
| +Like most other container formats, Ogg Opus files should not be used with
|
| + insecure ciphers or cipher modes that are vulnerable to known-plaintext
|
| + attacks.
|
| +Elements such as the Ogg page capture pattern and the magic signatures in the
|
| + ID header and the comment header all have easily predictable values, in
|
| + addition to various elements of the codec data itself.
|
| +</t>
|
| +</section>
|
| +
|
| +<section anchor="content_type" title="Content Type">
|
| +<t>
|
| +An "Ogg Opus file" consists of one or more sequentially multiplexed segments,
|
| + each containing exactly one Ogg Opus stream.
|
| +The RECOMMENDED mime-type for Ogg Opus files is "audio/ogg".
|
| +</t>
|
| +
|
| +<figure>
|
| +<preamble>
|
| +If more specificity is desired, one MAY indicate the presence of Opus streams
|
| + using the codecs parameter defined in <xref target="RFC6381"/>, e.g.,
|
| +</preamble>
|
| +<artwork align="center"><![CDATA[
|
| + audio/ogg; codecs=opus
|
| +]]></artwork>
|
| +<postamble>
|
| + for an Ogg Opus file.
|
| +</postamble>
|
| +</figure>
|
| +
|
| +<t>
|
| +The RECOMMENDED filename extension for Ogg Opus files is '.opus'.
|
| +</t>
|
| +
|
| +<t>
|
| +When Opus is concurrently multiplexed with other streams in an Ogg container,
|
| + one SHOULD use one of the "audio/ogg", "video/ogg", or "application/ogg"
|
| + mime-types, as defined in <xref target="RFC5334"/>.
|
| +Such streams are not strictly "Ogg Opus files" as described above,
|
| + since they contain more than a single Opus stream per sequentially
|
| + multiplexed segment, e.g. video or multiple audio tracks.
|
| +In such cases the the '.opus' filename extension is NOT RECOMMENDED.
|
| +</t>
|
| +</section>
|
| +
|
| +<section title="IANA Considerations">
|
| +<t>
|
| +This document has no actions for IANA.
|
| +</t>
|
| +</section>
|
| +
|
| +<section anchor="Acknowledgments" title="Acknowledgments">
|
| +<t>
|
| +Thanks to Greg Maxwell, Christopher "Monty" Montgomery, and Jean-Marc Valin for
|
| + their valuable contributions to this document.
|
| +Additional thanks to Andrew D'Addesio, Greg Maxwell, and Vincent Penqeurc'h for
|
| + their feedback based on early implementations.
|
| +</t>
|
| +</section>
|
| +
|
| +<section title="Copying Conditions">
|
| +<t>
|
| +The authors agree to grant third parties the irrevocable right to copy, use,
|
| + and distribute the work, with or without modification, in any medium, without
|
| + royalty, provided that, unless separate permission is granted, redistributed
|
| + modified works do not contain misleading author, version, name of work, or
|
| + endorsement information.
|
| +</t>
|
| +</section>
|
| +
|
| +</middle>
|
| +<back>
|
| +<references title="Normative References">
|
| + &rfc2119;
|
| + &rfc3533;
|
| + &rfc3629;
|
| + &rfc5334;
|
| + &rfc6381;
|
| + &rfc6716;
|
| +
|
| +<reference anchor="EBU-R128" target="http://tech.ebu.ch/loudness">
|
| +<front>
|
| +<title>"Loudness Recommendation EBU R128</title>
|
| +<author fullname="EBU Technical Committee"/>
|
| +<date month="August" year="2011"/>
|
| +</front>
|
| +</reference>
|
| +
|
| +<reference anchor="vorbis-comment"
|
| + target="http://www.xiph.org/vorbis/doc/v-comment.html">
|
| +<front>
|
| +<title>Ogg Vorbis I Format Specification: Comment Field and Header
|
| + Specification</title>
|
| +<author initials="C." surname="Montgomery"
|
| + fullname="Christopher "Monty" Montgomery"/>
|
| +<date month="July" year="2002"/>
|
| +</front>
|
| +</reference>
|
| +
|
| +</references>
|
| +
|
| +<references title="Informative References">
|
| +
|
| +<!--?rfc include="http://xml.resource.org/public/rfc/bibxml/reference.RFC.3550.xml"?-->
|
| + &rfc4732;
|
| +
|
| +<reference anchor="draft-sheffer-running-code"
|
| + target="https://tools.ietf.org/html/draft-sheffer-running-code-05#section-2">
|
| + <front>
|
| + <title>Improving "Rough Consensus" with Running Code</title>
|
| + <author initials="Y." surname="Sheffer" fullname="Yaron Sheffer"/>
|
| + <author initials="A." surname="Farrel" fullname="Adrian Farrel"/>
|
| + <date month="May" year="2013"/>
|
| + </front>
|
| +</reference>
|
| +
|
| +<reference anchor="flac"
|
| + target="https://xiph.org/flac/format.html">
|
| + <front>
|
| + <title>FLAC - Free Lossless Audio Codec Format Description</title>
|
| + <author initials="J." surname="Coalson" fullname="Josh Coalson"/>
|
| + <date month="January" year="2008"/>
|
| + </front>
|
| +</reference>
|
| +
|
| +<reference anchor="hanning"
|
| + target="http://en.wikipedia.org/wiki/Hamming_function#Hann_.28Hanning.29_window">
|
| + <front>
|
| + <title>"Hann window</title>
|
| + <author fullname="Wikipedia"/>
|
| + <date month="May" year="2013"/>
|
| + </front>
|
| +</reference>
|
| +
|
| +<reference anchor="replay-gain"
|
| + target="http://wiki.xiph.org/VorbisComment#Replay_Gain">
|
| +<front>
|
| +<title>VorbisComment: Replay Gain</title>
|
| +<author initials="C." surname="Parker" fullname="Conrad Parker"/>
|
| +<author initials="M." surname="Leese" fullname="Martin Leese"/>
|
| +<date month="June" year="2009"/>
|
| +</front>
|
| +</reference>
|
| +
|
| +<reference anchor="seeking"
|
| + target="http://wiki.xiph.org/Seeking">
|
| +<front>
|
| +<title>Granulepos Encoding and How Seeking Really Works</title>
|
| +<author initials="S." surname="Pfeiffer" fullname="Silvia Pfeiffer"/>
|
| +<author initials="C." surname="Parker" fullname="Conrad Parker"/>
|
| +<author initials="G." surname="Maxwell" fullname="Greg Maxwell"/>
|
| +<date month="May" year="2012"/>
|
| +</front>
|
| +</reference>
|
| +
|
| +<reference anchor="vorbis-mapping"
|
| + target="http://www.xiph.org/vorbis/doc/Vorbis_I_spec.html#x1-800004.3.9">
|
| +<front>
|
| +<title>The Vorbis I Specification, Section 4.3.9 Output Channel Order</title>
|
| +<author initials="C." surname="Montgomery"
|
| + fullname="Christopher "Monty" Montgomery"/>
|
| +<date month="January" year="2010"/>
|
| +</front>
|
| +</reference>
|
| +
|
| +<reference anchor="vorbis-trim"
|
| + target="http://xiph.org/vorbis/doc/Vorbis_I_spec.html#x1-130000A.2">
|
| + <front>
|
| + <title>The Vorbis I Specification, Appendix A: Embedding Vorbis
|
| + into an Ogg stream</title>
|
| + <author initials="C." surname="Montgomery"
|
| + fullname="Christopher "Monty" Montgomery"/>
|
| + <date month="November" year="2008"/>
|
| + </front>
|
| +</reference>
|
| +
|
| +<reference anchor="wave-multichannel"
|
| + target="http://msdn.microsoft.com/en-us/windows/hardware/gg463006.aspx">
|
| + <front>
|
| + <title>Multiple Channel Audio Data and WAVE Files</title>
|
| + <author fullname="Microsoft Corporation"/>
|
| + <date month="March" year="2007"/>
|
| + </front>
|
| +</reference>
|
| +
|
| +</references>
|
| +
|
| +</back>
|
| +</rfc>
|
|
|
Chromium Code Reviews
Issue 28553003:
Updating Opus to a pre-release of 1.1 (Closed)
Base URL: svn://svn.chromium.org/chrome/trunk/deps/third_party/opus