[FFmpeg-devel] Microsoft Smooth Streaming

Marcus Nascimento marcus.cps at gmail.com
Wed Oct 26 22:30:25 CEST 2011


I'm not that familiar with the ffmpeg syntax.
But I assume you are trying to get a Smooth Streaming video from a video in
another format in order to host it in a server.
If so, the result files should be:

1 ISM file - The smooth streaming description file, used by the server;
1 ISMC file - The smooth streaming manifest file;
n ISMV files (n = number of bitrates you chose to use) - All encoded videos
in PIFF format (and encoded in your chosen codec).


You won't get any .mp4 file.

Please, read the following link. You will get more than you need.

http://alexzambelli.com/blog/2009/02/10/smooth-streaming-architecture/


BS
Marcus

On Wed, Oct 26, 2011 at 5:59 PM, C Chatterjee <cchatterj at hotmail.com> wrote:

>
> Thanks for the links to the smooth streaming patch.
> I integrated in my FFMPEG that is Dec 28-2010 tarball.
>
> What is the command to make this work on an input file say ob.ts?
>
> Here's a simple command line:
> -y -i ob.ts -acodec libfaac -vcodec libx264 -vpre veryfast -b 250k -threads
> 4 cc.ism
>
> I am missing something here? There has to be a .ism and a number of .mp4
> files.
>
> Pls send me an example command.
>
> Chanchal
>
> Date: Wed, 26 Oct 2011 04:25:29 +0200
> From: michaelni at gmx.at
> To: ffmpeg-devel at ffmpeg.org
> CC: baptiste.coudurier at gmail.com
> Subject: Re: [FFmpeg-devel] Microsoft Smooth Streaming
>
> On Tue, Oct 25, 2011 at 09:25:22PM -0200, Marcus Nascimento wrote:
> > Please, check the answers bellow.
> >
> > Thank you very much in advance.
>
> We have to thank you for the excelent explanation.
> Also iam CCing this to baptiste who is our mov/mp4 expert. He probably
> can help in explaining how to best connect all the things together.
>
>
> >
> >
> > On Tue, Oct 25, 2011 at 3:54 PM, Nicolas George <
> > nicolas.george at normalesup.org> wrote:
> >
> > > Le quartidi 4 brumaire, an CCXX, Marcus Nascimento a écrit :
> > > > I'd like to extend FFMpeg to support Microsoft Smooth Streaming
> > > (streaming
> > > > playback), the same way it has been done by all the available
> Silverlight
> > > > players.
> > >
> > > Contributions are always welcome on principle.
> > >
> > > > By now I do not intend to dump data to a file to be played locally or
> > > > anything like that. And probably will never intend to do that. I just
> > > want
> > > > to play it.
> > >
> > > If it can play it, then it can also dump it to a file. I hope you were
> not
> > > counting otherwise.
> > >
> > >
> > Definitely not. I was only worried about legal issues. Don't want to
> cause
> > trouble to FFMpeg or something like that.
> >
> >
> > > > I did some research in this mail list and find out some posts that
> talked
> > > > about that before.
> > > > However I couldn't find in depth information or anything beyond the
> point
> > > > I'm stuck.
> > > >
> > > > I've done a lot of research on MS Smooth Streaming theory of
> operation,
> > > > studied some ISOFF (and PIFF) and some more.
> > > > It is pretty clear to me how MS Smooth Streaming works. Now it is
> time to
> > > > focus on how to do that in the FFMpeg way.
> > > >
> > > > First things first, I'd like to know how a streaming should be
> processed
> > > in
> > > > order to be played by FFMpeg.
> > >
> > > I believe you would receive more relevant replies faster if you took a
> few
> > > minutes to describe an overview of how the protocol works.
> > >
> > >
> > Right away. I'll give as many details as necessary here. Prepare yourself
> > for some reading!
> >
> > First of all, Microsoft Smooth Streaming basic idea is to encode the same
> > video in multiple bitrates. The client can decide which bitrate to use.
> At
> > any time it is possible to switch to another bitrate based on bandwidth
> > availability and other measurements.
> > Each encoding bitrate will originate an independent ISMV file (IIS Smooth
> > Media Video I supose).
> > The encoding keeps focus in the idea of fragmented structure that ISOFF
> (ISO
> > File Format - the MP4 file format) offers. Keyframes are generated
> regularly
> > and equally spaced in all ISMV files (2s).
> > This is more restrictive than regular encoding procedures that allow some
> > flexibility on keyframe intervals (I believe it, since I'm not an
> specialist
> > on that).
> > Important to say that all fragments always start with a keyframe.
> > Each ISOFF fragment is perfectly aligned between different bitrates (in
> > terms of time, of course. Data size may vary drastically). That alignment
> > allows the client to request different bitrates for one fragment and
> switch
> > to another bitrate in the next fragment.
> >
> > The ISMV file format is called PIFF and is based on the ISOFF with a few
> > additions. There are 3 uuid box types that are dedicated to DRM purposes
> (I
> > wont touch them here). Thus the meaning of PIFF: Protected Interoperable
> > File Format. The PIFF brand (ftyp box value) is "piff".
> > More on PIFF format here: http://go.microsoft.com/?linkid=9682897
> >
> > The server side (in the MS implementation) is just an extension to the
> IIS
> > called IIS Media Services.
> > That is just a web service that accepts HTTP requests with a custom
> > formatted URL.
> > The base URL is something like http://domain.com/video.ism (note that is
> not
> > ISMV), which is never requested.
> >
> > By the time the client wants to play a video, it will request a Manifest
> > file. The URL is <baseUrl>/Manifest.
> > The Manifest is just a XML file that provides some information regarding
> > different streams and other information.
> > Here is a basic example (modified parts of the original found here:
> >
> http://playready.directtaps.net/smoothstreaming/SSWSS720H264/SuperSpeedway_720.ism/Manifest
> > ):
> >
> > <SmoothStreamingMedia MajorVersion="2" MinorVersion="1"
> > Duration="1209510000">
> > <StreamIndex Type="video" Name="video" Chunks="4" QualityLevels="2"
> > MaxWidth="1280" MaxHeight="720" DisplayWidth="1280" DisplayHeight="720"
> > Url="QualityLevels({bitrate})/Fragments(video={start time})">
> > <QualityLevel Index="0" Bitrate="2962000" FourCC="H264" MaxWidth="1280"
> > MaxHeight="720"
> >
> CodecPrivateData="000000016764001FAC2CA5014016EFFC100010014808080A000007D200017700C100005A648000B4C9FE31C6080002D3240005A64FF18E1DA12251600000000168E9093525"/>
> > <QualityLevel Index="1" Bitrate="2056000" FourCC="H264" MaxWidth="992"
> > MaxHeight="560"
> >
> CodecPrivateData="000000016764001FAC2CA503E047BFF040003FC52020202800001F480005DC03030003EBE8000FAFAFE31C6060007D7D0001F5F5FC6387684894580000000168E9093525"/>
> > <c d="20020000"/>
> > <c d="20020000"/>
> > <c d="20020000"/>
> > <c d="6670001"/>
> > </StreamIndex>
> > <StreamIndex Type="audio" Index="0" Name="audio" Chunks="4"
> > QualityLevels="1" Url="QualityLevels({bitrate})/Fragments(audio={start
> > time})">
> > <QualityLevel FourCC="AACL" Bitrate="128000" SamplingRate="44100"
> > Channels="2" BitsPerSample="16" PacketSize="4" AudioTag="255"
> > CodecPrivateData="1210"/>
> > <c d="20201360"/>
> > <c d="19969161"/>
> > <c d="19969161"/>
> > <c d="8126985"/>
> > </StreamIndex>
> > </SmoothStreamingMedia>
> >
> > We can see it says the version of the smooth stream media and the
> duration
> > (this is measured in 1 / 10,000,000 seconds).
> > Next we see the video section which says each quality level has 4 chunks
> > (fragments), with 2 quality levels available. It also says the video
> > dimensions and the URL format.
> > Next it gives information about each bitrate with codec information and
> > codec private data (I believe it is used to configure the codec is a
> opaque
> > way).
>
> CodecPrivateData looks like H.264 SPS and PPS NAL units from a quick
> look. This should be decoded hex->binary and placed in extradata or
> injected into the bitstream. FFmpegs decoders are quite forgiving on
> where and how they get this data normally ...
>
>
> > Next it lists each fragment size. The first fragment would be referenced
> as
> > 0 (zero), and the others as a sum of previous fragments size. I'm not
> sure
> > exactly what those values mean.
> > Next we have the same structure for audio description.
> >
> > After getting the Manifest file, the client must decide which quality
> level
> > is best suited for the device and its resources.
> > It is not clear to me on what parameters it bases it's decisions. I heard
> > about size of the screen and its resolution, computing power, download
> > bandwidth, etc.
> > As soon as the quality level is chosen, I suppose the decoder has to be
> > configured in a suitable way, using the CodecPrivateData information
> > provided.
> > The client then will start requesting fragments following the URL pattern
> > given in the Manifest.
> > To request the first fragment for the first quality level, it would
> follow
> > the <baseUrl>/QualityLevel(0)/Fragments(video=0).
> > To request the forth fragment for the second quality level, it would
> follow
> > the <baseUrl>/QualityLevel(1)/Fragments(video=60060000).
> > It is still possible to request just the audio following the same idea.
> For
> > instance: <baseUrl>/QualityLevels(0)/Fragments(audio=20201360).
> >
> > Each fragment received is arranged in PIFF wire format. In other words:
> > Contains exactly one moof box and exactly one mdat box and nothing
> > more (check MP4 specs for more info).
> > Of course there are internal boxes to those if applicable. It may contain
> > custom uuid boxes designed to allow DRM protection. Lets not consider
> them
> > here.
> > I'm not sure which information I can get from the moof boxes, but I
> assume
> > it would be relevant for the demuxer only, since the codec would only
> work
> > on the mdat contained opaque data. Correct me if I'm wrong, please.
> >
>
> > The client would apply some heuristics while requesting fragments and
> > sometime it may decide to switch to another quality level. I suppose it
> > would have to reconfigure the decoder and repeat it over and over until
> the
> > end of that.
>
> most likely no reconfiguration is needed, simply feeding the next
> "fragment" to the decoder might work fine.
> the decoder should detect changes and reconfigure itself.
>
>
> [...]
> > > > 2 - A very simple external code just request FFMpeg to play a smooth
> > > > streaming media. FFMpeg will detect this is a HTTP based media and
> will
> > > > request the manifest file for that (I believe I'd have to create a
> custom
> > > > HTTP based solution for that). By the time the manifest is available,
> > > ffmpeg
> > > > would configure the decoder. Then makes further HTTP requests same
> way as
> > > in
> > > > 1.
> > >
> > > There is already HTTP client code, as surely you know.
> > >
> > >
> > Yes. I've seen something about it. It looks suitable for the case.
> > It may be my starting point for studying. But I still feel like in need
> for
> > some big picture on how ffmpeg works in general.
>
> What we have basically are demuxers and protocols.
> Protocols are things that (for our purpose here) provide a bytestream
> from some url and may provide seeking support.
> Demuxers are things that on top of a protocol (or other things)
> produce data packets for various streams
>
> What you describe can be implemented either as protocol that works
> on top of a http protocol and which than feeds its data to a mp4
> demuxer (which possibly needs modifications to handle the data)
>
> or
>
> A demuxer that works on top of a http protocol and has a instance of
> a mp4 demuxer to which it passes the data.
>
> There are other ways too ...
>
>
> [...]
> --
> Michael     GnuPG fingerprint: 9FF2128B147EF6730BADF133611EC787040B0FAB
>
> No human being will ever know the Truth, for even if they happen to say it
> by chance, they would not even known they had done so. -- Xenophanes
>
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>



-- 
Marcus Nascimento


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