Commit 998e9e00 authored by Ralph Giles's avatar Ralph Giles
Browse files
parent 4784e071
...@@ -245,13 +245,81 @@ All other pages with completed packets after the first MUST have a granule ...@@ -245,13 +245,81 @@ All other pages with completed packets after the first MUST have a granule
This guarantees that a demuxer can assign individual packets the same granule This guarantees that a demuxer can assign individual packets the same granule
position when working forwards as when working backwards. position when working forwards as when working backwards.
For this to work, there cannot be any gaps. 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> </t>
<section anchor="gap-repair" title="Repairing Gaps in Real-time Streams">
<t>
In order to support capturing a real-time stream that has lost packets, or that
uses discontinuous transmission (DTX), a muxer SHOULD emit packets that
explicitly request the use of Packet Loss Concealment (PLC) in place of the
packets that were not transmitted.
Only gaps that are a multiple of 2.5&nbsp;ms are repairable, as these are the
only durations that can be created by packet loss or DTX.
Muxers need not handle other gap sizes.
Creating the necessary packets involves synthesizing a TOC byte (defined in
Section&nbsp;3.1 of&nbsp;<xref target="RFC6716"/>)---and whatever additional
internal framing is needed---to indicate the packet duration for each stream.
The actual length of each missing Opus frame inside the packet is zero bytes,
as defined in Section&nbsp;3.2.1 of&nbsp;<xref target="RFC6716"/>.
</t>
<t>
<xref target="RFC6716"/> does not impose any requirements on the PLC, but this
section outlines choices that are expected to have a positive influence on
most PLC implementations, including the reference implementation.
When possible, creating the TOC byte using the same mode, audio bandwidth,
channel count, and frame size as the previous packet (if any) covers all
losses that do not include a configuration switch, as defined in
Section&nbsp;4.5 of&nbsp;<xref target="RFC6716"/>.
This is the simplest and usually the most well-tested case for the PLC to
handle.
If there is no previous packet, reasonable decoders will not emit anything
other than silence regardless of the mode.
Using the CELT-only mode for this case (with any audio bandwidth) allows
maximum flexibility, since a single packet can represent any duration up to
120&nbsp;ms that is a multiple of 2.5&nbsp;ms using at most two bytes.
</t>
<t>
When a previous packet is available, keeping the audio bandwidth and channel
count the same allows the PLC to provide maximum continuity in the concealment
data it generates.
However, if the size of the gap is not a multiple of the most recent frame
size, then the frame size will have to change for at least some frames.
Delaying such changes as long as possible to simplifies things for PLC
implementations.
A 95&nbsp;ms gap could be encoded as 19 5&nbsp;ms frames in two bytes
with a single CBR code&nbsp;3 packet.
If the previous frame size was 20&nbsp;ms, using four 80&nbsp;ms frames,
followed by three 5&nbsp;ms frames requires 4&nbsp;bytes (plus an extra byte
of Ogg lacing overhead), but allows the PLC to use its well-tested steady
state behavior for as long as possible.
The total bitrate of the latter approach, including Ogg overhead, is about
0.4&nbsp;kbps, so the impact on file size is minimal.
</t>
<t>
Changing modes is discouraged, since this causes some decoder implementations
to reset their PLC state.
However, SILK and Hybrid modes cannot fill gaps that are not a multiple of
10&nbsp;ms.
If switching to CELT mode is needed to match the gap size, doing so at the end
of the gap allows the PLC to function for as long as possible.
Since CELT does not support medium-band audio, using wideband when switching
from medium-band SILK ensures that any PLC implementation that does try to
migrate state between the modes will not be forced to artificially reduce the
bandwidth.
</t>
<t>
The synthetic TOC byte MAY use any of codes&nbsp;0, 1, 2, or&nbsp;3 to pack the
frame(s) into a packet.
If the TOC configuration matches, the muxer MAY combine the empty frames with
previous or subsequent non-zero-length frames (using code&nbsp;2 or
VBR code&nbsp;3).
</t>
</section>
<section anchor="preskip" title="Pre-skip"> <section anchor="preskip" title="Pre-skip">
<t> <t>
There is some amount of latency introduced during the decoding process, to There is some amount of latency introduced during the decoding process, to
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