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gst/: More doc updates. More xrefs.
Original commit message from CVS: * gst/deinterlace/gstdeinterlace.c: * gst/rtpmanager/gstrtpbin.c: * gst/rtpmanager/gstrtpclient.c: * gst/rtpmanager/gstrtpjitterbuffer.c: * gst/rtpmanager/gstrtpptdemux.c: * gst/rtpmanager/gstrtpsession.c: * gst/rtpmanager/gstrtpssrcdemux.c: * gst/sdp/gstsdpdemux.c: More doc updates. More xrefs.
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6 changed files with 100 additions and 153 deletions
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@ -21,61 +21,50 @@
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* SECTION:element-gstrtpbin
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* @see_also: gstrtpjitterbuffer, gstrtpsession, gstrtpptdemux, gstrtpssrcdemux
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*
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* <refsect2>
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* <para>
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* RTP bin combines the functions of gstrtpsession, gstrtpssrcdemux, gstrtpjitterbuffer
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* and gstrtpptdemux in one element. It allows for multiple RTP sessions that will
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* be synchronized together using RTCP SR packets.
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* </para>
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* <para>
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* gstrtpbin is configured with a number of request pads that define the
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* functionality that is activated, similar to the gstrtpsession element.
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* </para>
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* <para>
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* To use gstrtpbin as an RTP receiver, request a recv_rtp_sink_%%d pad. The session
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* RTP bin combines the functions of #GstRtpSession, #GstRtpsSrcDemux,
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* #GstRtpJitterBuffer and #GstRtpPtDemux in one element. It allows for multiple
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* RTP sessions that will be synchronized together using RTCP SR packets.
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*
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* #GstRtpBin is configured with a number of request pads that define the
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* functionality that is activated, similar to the #GstRtpSession element.
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*
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* To use #GstRtpBin as an RTP receiver, request a recv_rtp_sink_%%d pad. The session
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* number must be specified in the pad name.
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* Data received on the recv_rtp_sink_%%d pad will be processed in the gstrtpsession
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* manager and after being validated forwarded on gstrtpssrcdemuxer element. Each
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* RTP stream is demuxed based on the SSRC and send to a gstrtpjitterbuffer. After
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* manager and after being validated forwarded on #GstRtpsSrcDemux element. Each
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* RTP stream is demuxed based on the SSRC and send to a #GstRtpJitterBuffer. After
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* the packets are released from the jitterbuffer, they will be forwarded to a
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* gstrtpptdemuxer element. The gstrtpptdemuxer element will demux the packets based
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* #GstRtpsSrcDemux element. The #GstRtpsSrcDemux element will demux the packets based
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* on the payload type and will create a unique pad recv_rtp_src_%%d_%%d_%%d on
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* gstrtpbin with the session number, SSRC and payload type respectively as the pad
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* name.
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* </para>
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* <para>
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* To also use gstrtpbin as an RTCP receiver, request a recv_rtcp_sink_%%d pad. The
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*
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* To also use #GstRtpBin as an RTCP receiver, request a recv_rtcp_sink_%%d pad. The
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* session number must be specified in the pad name.
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* </para>
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* <para>
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*
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* If you want the session manager to generate and send RTCP packets, request
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* the send_rtcp_src_%%d pad with the session number in the pad name. Packet pushed
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* on this pad contain SR/RR RTCP reports that should be sent to all participants
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* in the session.
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* </para>
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* <para>
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* To use gstrtpbin as a sender, request a send_rtp_sink_%%d pad, which will
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*
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* To use #GstRtpBin as a sender, request a send_rtp_sink_%%d pad, which will
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* automatically create a send_rtp_src_%%d pad. If the session number is not provided,
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* the pad from the lowest available session will be returned. The session manager will modify the
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* SSRC in the RTP packets to its own SSRC and wil forward the packets on the
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* send_rtp_src_%%d pad after updating its internal state.
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* </para>
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* <para>
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*
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* The session manager needs the clock-rate of the payload types it is handling
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* and will signal the GstRtpSession::request-pt-map signal when it needs such a
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* mapping. One can clear the cached values with the GstRtpSession::clear-pt-map
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* and will signal the #GstRtpSession::request-pt-map signal when it needs such a
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* mapping. One can clear the cached values with the #GstRtpSession::clear-pt-map
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* signal.
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* </para>
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*
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* <refsect2>
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* <title>Example pipelines</title>
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* <para>
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* <programlisting>
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* |[
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* gst-launch udpsrc port=5000 caps="application/x-rtp, ..." ! .recv_rtp_sink_0 \
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* gstrtpbin ! rtptheoradepay ! theoradec ! xvimagesink
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* </programlisting>
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* Receive RTP data from port 5000 and send to the session 0 in gstrtpbin.
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* </para>
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* <para>
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* <programlisting>
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* ]| Receive RTP data from port 5000 and send to the session 0 in gstrtpbin.
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* |[
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* gst-launch gstrtpbin name=rtpbin \
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* v4l2src ! ffmpegcolorspace ! ffenc_h263 ! rtph263ppay ! rtpbin.send_rtp_sink_0 \
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* rtpbin.send_rtp_src_0 ! udpsink port=5000 \
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* rtpbin.send_rtp_src_1 ! udpsink port=5002 \
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* rtpbin.send_rtcp_src_1 ! udpsink port=5003 sync=false async=false \
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* udpsrc port=5007 ! rtpbin.recv_rtcp_sink_1
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* </programlisting>
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* Encode and payload H263 video captured from a v4l2src. Encode and payload AMR
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* ]| Encode and payload H263 video captured from a v4l2src. Encode and payload AMR
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* audio generated from audiotestsrc. The video is sent to session 0 in rtpbin
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* and the audio is sent to session 1. Video packets are sent on UDP port 5000
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* and audio packets on port 5002. The video RTCP packets for session 0 are sent
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* is received on port 5007. Since RTCP packets from the sender should be sent
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* as soon as possible and do not participate in preroll, sync=false and
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* async=false is configured on udpsink
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* </para>
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* <para>
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* <programlisting>
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* gst-launch -v gstrtpbin name=rtpbin \
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* |[
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* gst-launch -v gstrtpbin name=rtpbin \
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* udpsrc caps="application/x-rtp,media=(string)video,clock-rate=(int)90000,encoding-name=(string)H263-1998" \
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* port=5000 ! rtpbin.recv_rtp_sink_0 \
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* rtpbin. ! rtph263pdepay ! ffdec_h263 ! xvimagesink \
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* rtpbin. ! rtpamrdepay ! amrnbdec ! alsasink \
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* udpsrc port=5003 ! rtpbin.recv_rtcp_sink_1 \
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* rtpbin.send_rtcp_src_1 ! udpsink port=5007 sync=false async=false
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* </programlisting>
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* Receive H263 on port 5000, send it through rtpbin in session 0, depayload,
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* ]| Receive H263 on port 5000, send it through rtpbin in session 0, depayload,
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* decode and display the video.
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* Receive AMR on port 5002, send it through rtpbin in session 1, depayload,
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* decode and play the audio.
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* synchronisation.
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* Send RTCP reports for session 0 on port 5005 and RTCP reports for session 1
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* on port 5007.
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* </para>
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* </refsect2>
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*
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* Last reviewed on 2007-08-30 (0.10.6)
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* @rtpbin: the object which received the signal
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*
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* Clear all previously cached pt-mapping obtained with
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* GstRtpBin::request-pt-map.
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* #GstRtpBin::request-pt-map.
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*/
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gst_rtp_bin_signals[SIGNAL_CLEAR_PT_MAP] =
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g_signal_new ("clear-pt-map", G_TYPE_FROM_CLASS (klass),
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* SECTION:element-gstrtpclient
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* @see_also: gstrtpjitterbuffer, gstrtpbin, gstrtpsession
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*
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* <refsect2>
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* <para>
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* This element handles RTP data from one client. It accepts multiple RTP streams that
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* should be synchronized together.
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* </para>
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* <para>
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*
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* Normally the SSRCs that map to the same CNAME (as given in the RTCP SDES messages)
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* should be synchronized.
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* </para>
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*
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* <refsect2>
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* <title>Example pipelines</title>
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* <para>
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* <programlisting>
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* </programlisting>
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* </para>
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* |[
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* FIXME: gst-launch
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* ]| FIXME: describe
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* </refsect2>
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*
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* Last reviewed on 2007-04-02 (0.10.5)
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/**
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* SECTION:element-gstrtpjitterbuffer
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*
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* <refsect2>
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* <para>
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* This element reorders and removes duplicate RTP packets as they are received
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* from a network source. It will also wait for missing packets up to a
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* configurable time limit using the ::latency property. Packets arriving too
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* late are considered to be lost packets.
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* </para>
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* <para>
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* This element acts as a live element and so adds ::latency to the pipeline.
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* </para>
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* <para>
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* configurable time limit using the #GstRtpJitterBuffer:latency property.
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* Packets arriving too late are considered to be lost packets.
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*
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* This element acts as a live element and so adds #GstRtpJitterBuffer:latency
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* to the pipeline.
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*
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* The element needs the clock-rate of the RTP payload in order to estimate the
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* delay. This information is obtained either from the caps on the sink pad or,
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* when no caps are present, from the ::request-pt-map signal. To clear the
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* previous pt-map use the ::clear-pt-map signal.
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* </para>
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* <para>
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* when no caps are present, from the #GstRtpJitterBuffer::request-pt-map signal.
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* To clear the previous pt-map use the #GstRtpJitterBuffer::clear-pt-map signal.
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*
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* This element will automatically be used inside gstrtpbin.
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* </para>
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*
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* <refsect2>
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* <title>Example pipelines</title>
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* <para>
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* <programlisting>
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* |[
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* gst-launch rtspsrc location=rtsp://192.168.1.133:8554/mpeg1or2AudioVideoTest ! gstrtpjitterbuffer ! rtpmpvdepay ! mpeg2dec ! xvimagesink
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* </programlisting>
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* Connect to a streaming server and decode the MPEG video. The jitterbuffer is
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* ]| Connect to a streaming server and decode the MPEG video. The jitterbuffer is
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* inserted into the pipeline to smooth out network jitter and to reorder the
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* out-of-order RTP packets.
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* </para>
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* </refsect2>
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*
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* Last reviewed on 2007-05-28 (0.10.5)
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/**
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* SECTION:element-gstrtpptdemux
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*
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* <refsect2>
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* <para>
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* gstrtpptdemux acts as a demuxer for RTP packets based on the payload type of the
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* packets. Its main purpose is to allow an application to easily receive and
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* decode an RTP stream with multiple payload types.
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* </para>
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* <para>
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* gstrtpptdemux acts as a demuxer for RTP packets based on the payload type of
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* the packets. Its main purpose is to allow an application to easily receive
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* and decode an RTP stream with multiple payload types.
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*
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* For each payload type that is detected, a new pad will be created and the
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* ::new-payload-type signal will be emitted. When the payload for the RTP
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* stream changes, the ::payload-type-change signal will be emitted.
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* </para>
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* <para>
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* #GstRtpPtDemux::new-payload-type signal will be emitted. When the payload for
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* the RTP stream changes, the #GstRtpPtDemux::payload-type-change signal will be
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* emitted.
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*
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* The element will try to set complete and unique application/x-rtp caps on the
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* outgoing buffers and pads based on the result of the ::request-pt-map signal.
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* </para>
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* outgoing buffers and pads based on the result of the
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* #GstRtpPtDemux::request-pt-map signal.
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*
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* <refsect2>
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* <title>Example pipelines</title>
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* <para>
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* <programlisting>
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* |[
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* gst-launch udpsrc caps="application/x-rtp" ! gstrtpptdemux ! fakesink
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* </programlisting>
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* Takes an RTP stream and send the RTP packets with the first detected payload
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* type to fakesink, discarding the other payload types.
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* </para>
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* ]| Takes an RTP stream and send the RTP packets with the first detected
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* payload type to fakesink, discarding the other payload types.
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* </refsect2>
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*
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* Last reviewed on 2007-05-28 (0.10.5)
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* SECTION:element-gstrtpsession
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* @see_also: gstrtpjitterbuffer, gstrtpbin, gstrtpptdemux, gstrtpssrcdemux
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*
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* <refsect2>
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* <para>
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* The RTP session manager models one participant with a unique SSRC in an RTP
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* session. This session can be used to send and receive RTP and RTCP packets.
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* Based on what REQUEST pads are requested from the session manager, specific
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* functionality can be activated.
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* </para>
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* <para>
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*
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* The session manager currently implements RFC 3550 including:
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* <itemizedlist>
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* <listitem>
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* <para>Scheduling of RR/SR RTCP packets.</para>
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* </listitem>
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* </itemizedlist>
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* </para>
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* <para>
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*
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* The gstrtpsession will not demux packets based on SSRC or payload type, nor will
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* it correct for packet reordering and jitter. Use gstrtpssrcdemux, gstrtpptdemux and
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* gstrtpjitterbuffer in addition to gstrtpsession to perform these tasks. It is
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* usually a good idea to use gstrtpbin, which combines all these features in one
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* element.
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* </para>
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* <para>
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* To use gstrtpsession as an RTP receiver, request a recv_rtp_sink pad, which will
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* it correct for packet reordering and jitter. Use #GstRtpsSrcDemux,
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* #GstRtpPtDemux and GstRtpJitterBuffer in addition to #GstRtpSession to
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* perform these tasks. It is usually a good idea to use #GstRtpBin, which
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* combines all these features in one element.
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*
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* To use #GstRtpSession as an RTP receiver, request a recv_rtp_sink pad, which will
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* automatically create recv_rtp_src pad. Data received on the recv_rtp_sink pad
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* will be processed in the session and after being validated forwarded on the
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* recv_rtp_src pad.
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* </para>
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* <para>
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* To also use gstrtpsession as an RTCP receiver, request a recv_rtcp_sink pad,
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*
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* To also use #GstRtpSession as an RTCP receiver, request a recv_rtcp_sink pad,
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* which will automatically create a sync_src pad. Packets received on the RTCP
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* pad will be used by the session manager to update the stats and database of
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* the other participants. SR packets will be forwarded on the sync_src pad
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* so that they can be used to perform inter-stream synchronisation when needed.
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* </para>
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* <para>
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*
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* If you want the session manager to generate and send RTCP packets, request
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* the send_rtcp_src pad. Packet pushed on this pad contain SR/RR RTCP reports
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* that should be sent to all participants in the session.
|
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* </para>
|
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* <para>
|
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* To use gstrtpsession as a sender, request a send_rtp_sink pad, which will
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*
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* To use #GstRtpSession as a sender, request a send_rtp_sink pad, which will
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* automatically create a send_rtp_src pad. The session manager will modify the
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* SSRC in the RTP packets to its own SSRC and wil forward the packets on the
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* send_rtp_src pad after updating its internal state.
|
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* </para>
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* <para>
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*
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* The session manager needs the clock-rate of the payload types it is handling
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* and will signal the GstRtpSession::request-pt-map signal when it needs such a
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* mapping. One can clear the cached values with the GstRtpSession::clear-pt-map
|
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* and will signal the #GstRtpSession::request-pt-map signal when it needs such a
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* mapping. One can clear the cached values with the #GstRtpSession::clear-pt-map
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* signal.
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* </para>
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*
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* <refsect2>
|
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* <title>Example pipelines</title>
|
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* <para>
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* <programlisting>
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* |[
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* gst-launch udpsrc port=5000 caps="application/x-rtp, ..." ! .recv_rtp_sink gstrtpsession .recv_rtp_src ! rtptheoradepay ! theoradec ! xvimagesink
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* </programlisting>
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* Receive theora RTP packets from port 5000 and send them to the depayloader,
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* ]| Receive theora RTP packets from port 5000 and send them to the depayloader,
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* decoder and display. Note that the application/x-rtp caps on udpsrc should be
|
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* configured based on some negotiation process such as RTSP for this pipeline
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* to work correctly.
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* </para>
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* <para>
|
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* <programlisting>
|
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* |[
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* gst-launch udpsrc port=5000 caps="application/x-rtp, ..." ! .recv_rtp_sink gstrtpsession name=session \
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* .recv_rtp_src ! rtptheoradepay ! theoradec ! xvimagesink \
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* udpsrc port=5001 caps="application/x-rtcp" ! session.recv_rtcp_sink
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* </programlisting>
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* Receive theora RTP packets from port 5000 and send them to the depayloader,
|
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* ]| Receive theora RTP packets from port 5000 and send them to the depayloader,
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* decoder and display. Receive RTCP packets from port 5001 and process them in
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* the session manager.
|
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* Note that the application/x-rtp caps on udpsrc should be
|
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* configured based on some negotiation process such as RTSP for this pipeline
|
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* to work correctly.
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* </para>
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* <para>
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* <programlisting>
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* |[
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* gst-launch videotestsrc ! theoraenc ! rtptheorapay ! .send_rtp_sink gstrtpsession .send_rtp_src ! udpsink port=5000
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* </programlisting>
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* Send theora RTP packets through the session manager and out on UDP port 5000.
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* </para>
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* <para>
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* <programlisting>
|
||||
* ]| Send theora RTP packets through the session manager and out on UDP port
|
||||
* 5000.
|
||||
* |[
|
||||
* gst-launch videotestsrc ! theoraenc ! rtptheorapay ! .send_rtp_sink gstrtpsession name=session .send_rtp_src \
|
||||
* ! udpsink port=5000 session.send_rtcp_src ! udpsink port=5001
|
||||
* </programlisting>
|
||||
* Send theora RTP packets through the session manager and out on UDP port 5000.
|
||||
* Send RTCP packets on port 5001. Note that this pipeline will not preroll
|
||||
* ]| Send theora RTP packets through the session manager and out on UDP port
|
||||
* 5000. Send RTCP packets on port 5001. Note that this pipeline will not preroll
|
||||
* correctly because the second udpsink will not preroll correctly (no RTCP
|
||||
* packets are sent in the PAUSED state). Applications should manually set and
|
||||
* keep (see #gst_element_set_locked_state()) the RTCP udpsink to the PLAYING state.
|
||||
* </para>
|
||||
* keep (see gst_element_set_locked_state()) the RTCP udpsink to the PLAYING state.
|
||||
* </refsect2>
|
||||
*
|
||||
* Last reviewed on 2007-05-28 (0.10.5)
|
||||
|
@ -492,7 +473,7 @@ gst_rtp_session_class_init (GstRtpSessionClass * klass)
|
|||
* GstRtpSession::clear-pt-map:
|
||||
* @sess: the object which received the signal
|
||||
*
|
||||
* Clear the cached pt-maps requested with GstRtpSession::request-pt-map.
|
||||
* Clear the cached pt-maps requested with #GstRtpSession::request-pt-map.
|
||||
*/
|
||||
gst_rtp_session_signals[SIGNAL_CLEAR_PT_MAP] =
|
||||
g_signal_new ("clear-pt-map", G_TYPE_FROM_CLASS (klass),
|
||||
|
|
|
@ -22,24 +22,19 @@
|
|||
/**
|
||||
* SECTION:element-gstrtpssrcdemux
|
||||
*
|
||||
* <refsect2>
|
||||
* <para>
|
||||
* gstrtpssrcdemux acts as a demuxer for RTP packets based on the SSRC of the
|
||||
* packets. Its main purpose is to allow an application to easily receive and
|
||||
* decode an RTP stream with multiple SSRCs.
|
||||
* </para>
|
||||
* <para>
|
||||
*
|
||||
* For each SSRC that is detected, a new pad will be created and the
|
||||
* ::new-ssrc-pad signal will be emitted.
|
||||
* </para>
|
||||
* #GstRtpSsrcDemux::new-ssrc-pad signal will be emitted.
|
||||
*
|
||||
* <refsect2>
|
||||
* <title>Example pipelines</title>
|
||||
* <para>
|
||||
* <programlisting>
|
||||
* |[
|
||||
* gst-launch udpsrc caps="application/x-rtp" ! gstrtpssrcdemux ! fakesink
|
||||
* </programlisting>
|
||||
* Takes an RTP stream and send the RTP packets with the first detected SSRC
|
||||
* ]| Takes an RTP stream and send the RTP packets with the first detected SSRC
|
||||
* to fakesink, discarding the other SSRCs.
|
||||
* </para>
|
||||
* </refsect2>
|
||||
*
|
||||
* Last reviewed on 2007-05-28 (0.10.5)
|
||||
|
@ -133,7 +128,7 @@ static gboolean gst_rtp_ssrc_demux_src_query (GstPad * pad, GstQuery * query);
|
|||
|
||||
static guint gst_rtp_ssrc_demux_signals[LAST_SIGNAL] = { 0 };
|
||||
|
||||
/**
|
||||
/*
|
||||
* Item for storing GstPad <-> SSRC pairs.
|
||||
*/
|
||||
struct _GstRtpSsrcDemuxPad
|
||||
|
|
Loading…
Reference in a new issue