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119 lines
6 KiB
Markdown
119 lines
6 KiB
Markdown
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## Introduction
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This is GStreamer implementation of RaptorQ FEC for RTP streams.
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The sender element produces requested number `X` of repair packets from `K` RTP
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packets. The receiver only needs:
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- `K` of any repair or RTP packets to recover all the data with 99% probability
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- `K + 1` of any repair or RTP packets to recover all the data with 99.99%
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probability,
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- `K + 2` of any repair or RTP packets to recover all the data with 99.9999%
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probability etc.
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Relevant documents:
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- [RFC6363 - Forward Error Correction (FEC) Framework](https://datatracker.ietf.org/doc/html/rfc6363)
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- [RFC6681 - Raptor Forward Error Correction (FEC) Schemes for FECFRAME](https://datatracker.ietf.org/doc/html/rfc6681)
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- [RFC6682 - RTP Payload Format for Raptor Forward Error Correction (FEC)](https://datatracker.ietf.org/doc/html/rfc6682)
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## Sender/Receiver Example
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```shell
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gst-launch-1.0 \
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rtpbin name=rtp fec-encoders='fec,0="raptorqenc\ mtu=1356\ symbol-size=192";' \
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uridecodebin uri=file:///path/to/video/file ! x264enc key-int-max=60 tune=zerolatency ! \
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queue ! mpegtsmux ! rtpmp2tpay ssrc=0 ! \
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rtp.send_rtp_sink_0 rtp.send_rtp_src_0 ! udpsink host=127.0.0.1 port=5000 \
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rtp.send_fec_src_0_0 ! udpsink host=127.0.0.1 port=5002 async=false
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gst-launch-1.0 \
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rtpbin latency=200 fec-decoders='fec,0="raptorqdec";' name=rtp \
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udpsrc address=127.0.0.1 port=5002 \
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caps="application/x-rtp, payload=96, raptor-scheme-id=(string)6, repair-window=(string)1000000, t=(string)192" ! \
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queue ! rtp.recv_fec_sink_0_0 \
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udpsrc address=127.0.0.1 port=5000 \
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caps="application/x-rtp, media=video, clock-rate=90000, encoding-name=mp2t, payload=33" ! \
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queue ! netsim drop-probability=0.05 ! rtp.recv_rtp_sink_0 \
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rtp. ! decodebin ! videoconvert ! queue ! autovideosink
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```
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## Implementation Details
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### Encoder Element
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The encoder element stores the copy of original RTP packets internally until it
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receives the number of packets that are requested to be protected together. At
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this point it creates a Source Block that is passed to RaptorQ Encoder. Source
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Block is constructed by concatenating ADUIs (Application Data Unit Information)
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sometimes also called SPI (Source Packet Information). Each ADUI contains:
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- Header with Flow ID - `F(I)` and Length Indication for the packet - `L(I)`,
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- UDP payload, this a complete RTP packet with header,
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- Padding bytes if required,
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```text
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T T T T
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<----------------><--------------><---------------><---------------->
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+----+--------+-----------------------+-----------------------------+
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|F[0]| L[0] | ADU[0] | Pad[0] |
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+----+--------+----------+------------+-----------------------------+
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|F[1]| L[1] | ADU[1] | Pad[1] |
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+----+--------+----------+------------------------------------------+
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|F[2]| L[2] | ADU[2] |
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+----+--------+------+----------------------------------------------+
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|F[3]| L[3] |ADU[3]| Pad[3] |
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+----+--------+------+----------------------------------------------+
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\_________________________________ ________________________________/
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\/
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RaptorQ FEC encoding
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+-------------------------------------------------------------------+
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| Repair 4 |
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+-------------------------------------------------------------------+
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. .
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. .
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+-------------------------------------------------------------------+
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| Repair 7 |
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+-------------------------------------------------------------------+
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T - Symbol Size
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F - Flow ID
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L - Length Indication
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ADU - Application Data Unit (RTP packet)
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```
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Encoder element creates requested number of packets for a given Source Block.
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The repair packets are send during `repair-window` which is configurable
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parameter. E.g. if encoder element produces 5 repair packets and `repair-window`
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is set to 500ms, a first repair packet is send 100ms after the last protected
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packet, second at 200ms and the last at `repair-window`.
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Each repair packet except the symbols that are required to recover missing
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source packets, contains also the information about the Source Block:
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- `I` - Initial sequence number of the Source Block,
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- `Lp` - ADUI length in symbols,
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- `Lb` - Source Block Length in symbols,
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### Decoder Element
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Decoder element stores the copy of received RTP packets, and push original
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packet downstream immediately. If all the RTP packets have been received, the
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buffered media packets are dropped. If any packets are missing, the receiver
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checks if it has enough buffered media and repair packets to perform decoding.
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If that's the case it tries to recover missing packets by building the Source
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Block following the same rules as sender, except it skips missing packets and
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append repair packets to the block instead.
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Because the receiver element does not introduce latency, the recovered packets
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are send out of sequence, and it requires a `rtpjitterbuffer` to be chained
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downstream. The `rtpjitterbuffer` needs to be configured with high enough
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latency.
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The receiver to determine which media packets belongs to Source Blocks uses the
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information that can be retrieved from any of the repair packets. Then media
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packets with Sequence Numbers: `I + Lb/Lp - 1` inclusive, are considered during
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building a Source Block.
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The receiver uses `repair-window` that is signaled by the sender, and its own
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`repair-window-tolerance` parameter to decide for how long it should wait for
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the corresponding repair packets before giving up. The wait time is
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`repair-window + repair-window-tolerance`.
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