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  • Les vidéos

    21 avril 2011, par

    Comme les documents de type "audio", Mediaspip affiche dans la mesure du possible les vidéos grâce à la balise html5 .
    Un des inconvénients de cette balise est qu’elle n’est pas reconnue correctement par certains navigateurs (Internet Explorer pour ne pas le nommer) et que chaque navigateur ne gère en natif que certains formats de vidéos.
    Son avantage principal quant à lui est de bénéficier de la prise en charge native de vidéos dans les navigateur et donc de se passer de l’utilisation de Flash et (...)

  • Websites made ​​with MediaSPIP

    2 mai 2011, par

    This page lists some websites based on MediaSPIP.

  • Possibilité de déploiement en ferme

    12 avril 2011, par

    MediaSPIP peut être installé comme une ferme, avec un seul "noyau" hébergé sur un serveur dédié et utilisé par une multitude de sites différents.
    Cela permet, par exemple : de pouvoir partager les frais de mise en œuvre entre plusieurs projets / individus ; de pouvoir déployer rapidement une multitude de sites uniques ; d’éviter d’avoir à mettre l’ensemble des créations dans un fourre-tout numérique comme c’est le cas pour les grandes plate-formes tout public disséminées sur le (...)

Sur d’autres sites (8068)

  • RTP and H.264 (Packetization Mode 1)... Decoding RAW Data... Help understanding the audio and STAP-A packets

    12 février 2014, par Lane

    I am attempting to re-create a video from a Wireshark capture. I have researched extensively and the following links provided me with the most useful information...

    How to convert H.264 UDP packets to playable media stream or file (defragmentation) (and the 2 sub-links)
    H.264 over RTP - Identify SPS and PPS Frames

    ...I understand from these links and RFC (RTP Payload Format for H.264 Video) that...

    • The Wireshark capture shows a client communicating with a server via RTSP/RTP by making the following calls... OPTIONS, DESCRIBE, SETUP, SETUP, then PLAY (both audio and video tracks exist)

    • The RTSP response from PLAY (that contains the Sequence and Picture Parameter Sets) contains the following (some lines excluded)...

    Media Description, name and address (m) : audio 0 RTP/AVP 0
    Media Attribute (a) : rtpmap:0 PCMU/8000/1
    Media Attribute (a) : control:trackID=1
    Media Attribute (a) : x-bufferdelay:0

    Media Description, name and address (m) : video 0 RTP/AVP 98
    Media Attribute (a) : rtpmap:98 H264/90000
    Media Attribute (a) : control:trackID=2
    Media Attribute (a) : fmtp:98 packetization-mode=1 ;profile-level-id=4D0028 ;sprop-parameter-sets=J00AKI2NYCgC3YC1AQEBQAAA+kAAOpg6GAC3IAAzgC7y40MAFuQABnAF3lwWNF3A,KO48gA==

    Media Description, name and address (m) : metadata 0 RTP/AVP 100
    Media Attribute (a) : rtpmap:100 IQ-METADATA/90000
    Media Attribute (a) : control:trackID=3

    ...the packetization-mode=1 means that only NAL Units, STAP-A and FU-A are accepted

    • The streaming RTP packets (video only, DynamicRTP-Type-98) arrive in the following order...

    1x
    [RTP Header]
    0x78 0x00 (Type is 24, meaning STAP-A)
    [Remaining Payload]

     36x
    [RTP Header]
    0x7c (Type is 28, meaning FU-A) then either 0x85 (first) 0x05 (middle) or 0x45 (last)
    [Remaining Payload]

    1x
    [RTP Header]
    0x18 0x00 (Type is 24, meaning STAP-A)
    [Remaining Payload]

    8x
    [RTP Header]
    0x5c (Type is 28, meaning FU-A) then either 0x81 (first) 0x01 (middle) or 0x41 (last)
    [Remaining Payload]

    ...the cycle then repeats... typically there are 29 0x18/0x5c RTP packets for each 0x78/0x7c packet

    • Approximately every 100 packets, there is an audio RTP packet, all have their Marker set to true and their sequence numbers ascend as expected. Sometimes there is an individual RTP audio packet and sometimes there are three, see a sample one here...

    RTP 1042 PT=ITU-T G.711 PCMU, SSRC=0x238E1F29, Seq=31957, Time=1025208762, Mark

    ...also, the type of each audio RTP packet is different (as far as first bytes go... I see 0x4e, 0x55, 0xc5, 0xc1, 0xbc, 0x3c, 0x4d, 0x5f, 0xcc, 0xce, 0xdc, 0x3e, 0xbf, 0x43, 0xc9, and more)

    • From what I gather... to re-create the video, I first need to create a file of the format

    0x000001 [SPS Payload]
    0x000001 [PPS Payload]
    0x000001 [Complete H.264 Frame (NAL Byte, followed by all fragmented RTP payloads without the first 2 bytes)
    0x000001 [Next Frame]
    Etc...

    I made some progress where I can run "ffmpeg -i file" without it saying a bad input format or unable to find codec. But currently it complains something about MP3. My questions are as follows...

    1. Should I be using the SPS and PPS payload returned by the response to the DESCRIBE RTSP call or use the data sent in the first STAP-A RTP packets (0x78 and 0x18) ?

    2. How does the file format change to incorporate the audio track ?

    3. Why is the audio track payload headers all over the place and how can I make sense / utilize them ?

    4. Is my understanding of anything incorrect ?

    Any help is GREATLY appreciated, thanks !

  • libzvbi-teletextdec : split dvb packet to slices

    1er mars 2014, par Marton Balint
    libzvbi-teletextdec : split dvb packet to slices

    Instead of using the demux function of libzvbi to split the packet to slices
    
(vbi lines), lets do it ourselves.
    

    - eliminates the 1 frame delay between page input and output

    - handles non-ascending line numbers more gracefully

    - enables us to return error codes on some invalid packets instead of silently
    
  ignoring them
    

    Signed-off-by : Marton Balint <cus@passwd.hu>
    • [DH] libavcodec/libzvbi-teletextdec.c

  • Merge commit ’ed06e5d92b4c67b49068d538461fbbe0a53a8c5e’

    9 mars 2014, par Michael Niedermayer
    Merge commit ’ed06e5d92b4c67b49068d538461fbbe0a53a8c5e’

    * commit ’ed06e5d92b4c67b49068d538461fbbe0a53a8c5e’ :
    
  hevc : Do not turn 32bit timebases into negative numbers
    

    Conflicts :
    
	libavcodec/hevc.c
    

    See : bf2ce19e51fde57727a4ee33a4b3c2622f37a5c4
    
Merged-by : Michael Niedermayer <michaelni@gmx.at>
    • [DH] libavcodec/hevc.c

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