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149 lines
6.5 KiB
Text
149 lines
6.5 KiB
Text
RTP retransmission design
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GstRTPRetransmissionRequest
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---------------------------
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Custom upstream event which mainly contains the ssrc and the seqnum of the
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packet which is asked to be retransmisted.
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On the pipeline receiver side this event is generated by the
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gstrtpjitterbuffer element. Then it is translated to a NACK to be sent over
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the network.
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On the pipeline sender side, this event is generated by the gstrtpsession
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element when it receives a NACK from the network.
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rtprtxsend element
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------------------
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-- basic mechanism
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rtprtxsend keeps a history of rtp packets that it has already sent.
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When it receives the event GstRTPRetransmissionRequest from the downstream
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gstrtpsession element, it loopkup the requested seqnum in its stored packets.
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If the packet is present in its history, it will create a RTX packet according
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to RFC 4588. Then this rtx packet is pushed to its src pad as other packets.
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rtprtxsend works in SSRC-multiplexed mode, so it has one always sink and
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src pad.
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-- building retransmission packet fron original packet
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A rtx packet is mostly the same as an orignal packet, except it has its own
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ssrc and its own seqnum. That's why rtprtxsend works in SSRC-multiplexed mode.
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It also means that the same session is used.
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Another difference between rtx packet and its original is that it inserts the
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original seqnum (OSN: 2 bytes) at the beginning of the payload.
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Also rtprtxsend builds rtx packet without padding, to let other elements do that.
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The last difference is the payload type. For now the user has to set it through
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the rtx-payload-type property. Later it will be automatically retreive this
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information from SDP. See fmtp field as specifies in the RPC4588
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(a=fmtp:99 apt=98) fmtp is the payload type of the retransmission stream
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and apt the payload type of its associated master stream.
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-- restransmission ssrc and seqnum
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To choose rtx_ssrc it randomly selects a number between 0 and 2^32-1 until
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it is different than master_ssrc.
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rtx_seqnum is randomly selected between 0 and 2^16-1
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-- deeper in the stored buffer history
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For the history it uses a GSequence with 2^15-1 as its maximum size.
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Which is resonable as the default value is 100.
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It contains the packets in reverse order they have been sent
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(head:newest, tail:oldest)
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GSequence allows to add and remove an element in constant time (like a queue).
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Also GSequence allows to do a binary search when rtprtxsend lookup in its
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history.
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It's important if it receives a lot of requests or if the history is large.
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-- pending rtx packets
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When looking up in its history, if seqnum is found then it pushes the buffer
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into a GQueue to its tail.
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Before to send the current master stream packet, rtprtxsend sends all the
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buffers which are in this GQueue. Taking care of converting them to rtx
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packets.
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This way, rtx packets are sent in the same order they have been requested.
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(g_list_foreach traverse the queue from head to tail)
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The GQueue is cleared between sending 2 master stream packets.
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So for this GQueue to contain more than one element, it means that rtprtxsend
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receives more than one rtx request between sending 2 master packets.
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-- collision
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When handling a GstRTPCollision event, if the ssrc is its rtx ssrc then
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rtprtxsend clear its history and its pending retransmission queue.
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Then it chooses a rtx_ssrc until it's different than master ssrc.
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If the GstRTPCollision event does not contain its rtx ssrc, for example
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its master ssrc or other, then it just forwards the event to upstream.
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So that it can be handled by the rtppayloader.
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rtprtxreceive element
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------------------
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-- basic mechanism
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The same rtprtxreceive instance can receive several master streams and several
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retransmission streams.
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So it will try to dynamically associate a rtx ssrc with its master ssrc.
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So that it can reconstruct the original from the proper rtx packet.
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The algorithm is based on the fact that seqnums of different streams
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(considering all master and all rtx streams) evolve at a different rate.
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It means that the initial seqnum is random for each one and the offset could
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also be different. So that they are statistically all different at a given
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time. If bad luck then the association is delayed to the next rtx request.
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The algorithm also needs to know if a given packet is a rtx packet or not.
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To know this information there is the rtx-payload-types property. For now the
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user as to configure it but later it will be automatically retreive this
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information from SDP.
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It needs to know if the current packet is rtx or not in order to know if
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it can extract the OSN from the payload. Otherwise it would extract the OSN
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even on master streams which means nothing and so it could do bad things.
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In theory maybe it could work but we have this information in SDP so why not
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using it to avoid bad associations.
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Note that it also means that several master streams can have the same payload
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type. And also several rtx streams can have the same payload type.
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So the information from SDP which gives us which rtx payload type belong to
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a give master payload type is not enough to do the association between rtx ssrc
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and master ssrc.
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rtprtxreceive works in SSRC-multiplexed mode, so it has one always sink and
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src pad.
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-- deeper in the association algorithm
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When it receives a GstRTPRetransmissionRequest event it will remember the ssrc
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and the seqnum from this request.
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On incoming packets, if the packet has its ssrc already associated then it
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knows if the ssrc is an rtx ssrc or a master stream ssrc.
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If this is a rtx packet then it recontructs the original and pushs the result to
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src pad as if it was a master packet.
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If the ssrc is not yet associated rtprtxreceive checks the payload type.
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if the packet has its payload type marked as rtx then it will extract the OSN
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(original seqnum number) and lookup in its stored requests if a seqnum matchs.
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If found, then it associates the current ssrc to the master ssrc marked in the
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request. If not found it just drops the packet.
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Then it removes the request from the stored requests.
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If there are 2 requests with the same seqnum and different ssrc, then the
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couple seqnum,ssrc is removed from the stored requests.
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A stored request actually means that actually the couple seqnum,ssrc is stored.
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If it's happens the request is droped but it avoids to do bad associations.
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In this case the association is just delayed to the next request.
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-- building original packet from rtx packet
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Header, extensions, payload and padding are mostly the same. Except that the
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OSN is removed from the payload. Then ssrc, seqnum, and original payload type
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are correctly set. Original payload type is actually also stored when the
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rtx request is handled.
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