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473 lines
16 KiB
Markdown
473 lines
16 KiB
Markdown
# Encoding and Muxing
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## Problems this proposal attempts to solve
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- Duplication of pipeline code for gstreamer-based applications
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wishing to encode and or mux streams, leading to subtle differences
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and inconsistencies across those applications.
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- No unified system for describing encoding targets for applications
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in a user-friendly way.
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- No unified system for creating encoding targets for applications,
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resulting in duplication of code across all applications,
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differences and inconsistencies that come with that duplication, and
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applications hardcoding element names and settings resulting in poor
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portability.
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## Goals
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1. Convenience encoding element
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Create a convenience `GstBin` for encoding and muxing several streams,
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hereafter called 'EncodeBin'.
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This element will only contain one single property, which is a profile.
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2. Define a encoding profile system
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3. Encoding profile helper library
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Create a helper library to:
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- create EncodeBin instances based on profiles, and
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- help applications to create/load/save/browse those profiles.
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## EncodeBin
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### Proposed API
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EncodeBin is a `GstBin` subclass.
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It implements the `GstTagSetter` interface, by which it will proxy the
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calls to the muxer.
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Only two introspectable property (i.e. usable without extra API):
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- A `GstEncodingProfile`
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- The name of the profile to use
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When a profile is selected, encodebin will:
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- Add REQUEST sinkpads for all the GstStreamProfile
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- Create the muxer and expose the source pad
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Whenever a request pad is created, encodebin will:
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- Create the chain of elements for that pad
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- Ghost the sink pad
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- Return that ghost pad
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This allows reducing the code to the minimum for applications wishing to
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encode a source for a given profile:
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```
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encbin = gst_element_factory_make ("encodebin, NULL);
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g_object_set (encbin, "profile", "N900/H264 HQ", NULL);
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gst_element_link (encbin, filesink);
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vsrcpad = gst_element_get_src_pad (source, "src1");
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vsinkpad = gst_element_get_request\_pad (encbin, "video\_%u");
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gst_pad_link (vsrcpad, vsinkpad);
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```
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### Explanation of the Various stages in EncodeBin
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This describes the various stages which can happen in order to end up
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with a multiplexed stream that can then be stored or streamed.
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#### Incoming streams
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The streams fed to EncodeBin can be of various types:
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- Video
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- Uncompressed (but maybe subsampled)
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- Compressed
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- Audio
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- Uncompressed (audio/x-raw)
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- Compressed
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- Timed text
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- Private streams
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#### Steps involved for raw video encoding
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0) Incoming Stream
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1) Transform raw video feed (optional)
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Here we modify the various fundamental properties of a raw video stream
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to be compatible with the intersection of: \* The encoder `GstCaps` and \*
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The specified "Stream Restriction" of the profile/target
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The fundamental properties that can be modified are: \* width/height
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This is done with a video scaler. The DAR (Display Aspect Ratio) MUST be
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respected. If needed, black borders can be added to comply with the
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target DAR. \* framerate \* format/colorspace/depth All of this is done
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with a colorspace converter
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2) Actual encoding (optional for raw streams)
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An encoder (with some optional settings) is used.
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3) Muxing
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A muxer (with some optional settings) is used.
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4) Outgoing encoded and muxed stream
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#### Steps involved for raw audio encoding
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This is roughly the same as for raw video, expect for (1)
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1) Transform raw audo feed (optional)
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We modify the various fundamental properties of a raw audio stream to be
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compatible with the intersection of: \* The encoder `GstCaps` and \* The
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specified "Stream Restriction" of the profile/target
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The fundamental properties that can be modifier are: \* Number of
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channels \* Type of raw audio (integer or floating point) \* Depth
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(number of bits required to encode one sample)
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#### Steps involved for encoded audio/video streams
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Steps (1) and (2) are replaced by a parser if a parser is available for
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the given format.
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#### Steps involved for other streams
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Other streams will just be forwarded as-is to the muxer, provided the
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muxer accepts the stream type.
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## Encoding Profile System
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This work is based on:
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- The existing [GstPreset API documentation][gst-preset] system for elements
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- The gnome-media [GConf audio profile system][gconf-audio-profile]
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- The investigation done into device profiles by Arista and
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Transmageddon: [Research on a Device Profile API][device-profile-api],
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and [Research on defining presets usage][preset-usage].
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### Terminology
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- Encoding Target Category A Target Category is a classification of
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devices/systems/use-cases for encoding.
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Such a classification is required in order for: \* Applications with a
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very-specific use-case to limit the number of profiles they can offer
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the user. A screencasting application has no use with the online
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services targets for example. \* Offering the user some initial
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classification in the case of a more generic encoding application (like
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a video editor or a transcoder).
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Ex: Consumer devices Online service Intermediate Editing Format
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Screencast Capture Computer
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- Encoding Profile Target A Profile Target describes a specific entity
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for which we wish to encode. A Profile Target must belong to at
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least one Target Category. It will define at least one Encoding
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Profile.
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Examples (with category): Nokia N900 (Consumer device) Sony PlayStation 3
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(Consumer device) Youtube (Online service) DNxHD (Intermediate editing
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format) HuffYUV (Screencast) Theora (Computer)
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- Encoding Profile A specific combination of muxer, encoders, presets
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and limitations.
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Examples: Nokia N900/H264 HQ, Ipod/High Quality, DVD/Pal,
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Youtube/High Quality HTML5/Low Bandwith, DNxHD
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### Encoding Profile
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An encoding profile requires the following information:
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- Name This string is not translatable and must be unique. A
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recommendation to guarantee uniqueness of the naming could be:
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<target>/<name>
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- Description This is a translatable string describing the profile
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- Muxing format This is a string containing the GStreamer media-type
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of the container format.
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- Muxing preset This is an optional string describing the preset(s) to
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use on the muxer.
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- Multipass setting This is a boolean describing whether the profile
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requires several passes.
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- List of Stream Profile
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2.3.1 Stream Profiles
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A Stream Profile consists of:
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- Type The type of stream profile (audio, video, text, private-data)
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- Encoding Format This is a string containing the GStreamer media-type
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of the encoding format to be used. If encoding is not to be applied,
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the raw audio media type will be used.
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- Encoding preset This is an optional string describing the preset(s)
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to use on the encoder.
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- Restriction This is an optional GstCaps containing the restriction
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of the stream that can be fed to the encoder. This will generally
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containing restrictions in video width/heigh/framerate or audio
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depth.
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- presence This is an integer specifying how many streams can be used
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in the containing profile. 0 means that any number of streams can be
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used.
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- pass This is an integer which is only meaningful if the multipass
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flag has been set in the profile. If it has been set it indicates
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which pass this Stream Profile corresponds to.
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### 2.4 Example profile
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The representation used here is XML only as an example. No decision is
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made as to which formatting to use for storing targets and profiles.
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```
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<gst-encoding-target>
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<name>Nokia N900</name>
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<category>Consumer Device</category>
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<profiles>
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<profile>Nokia N900/H264 HQ</profile>
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<profile>Nokia N900/MP3</profile>
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<profile>Nokia N900/AAC</profile>
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</profiles>
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</gst-encoding-target>
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<gst-encoding-profile>
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<name>Nokia N900/H264 HQ</name>
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<description>
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High Quality H264/AAC for the Nokia N900
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</description>
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<format>video/quicktime,variant=iso</format>
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<streams>
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<stream-profile>
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<type>audio</type>
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<format>audio/mpeg,mpegversion=4</format>
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<preset>Quality High/Main</preset>
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<restriction>audio/x-raw,channels=[1,2]</restriction>
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<presence>1</presence>
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</stream-profile>
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<stream-profile>
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<type>video</type>
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<format>video/x-h264</format>
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<preset>Profile Baseline/Quality High</preset>
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<restriction>
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video/x-raw,width=[16, 800],\
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height=[16, 480],framerate=[1/1, 30000/1001]
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</restriction>
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<presence>1</presence>
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</stream-profile>
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</streams>
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</gst-encoding-profile>
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```
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### API
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A proposed C API is contained in the gstprofile.h file in this
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directory.
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### Modifications required in the existing GstPreset system
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#### Temporary preset.
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Currently a preset needs to be saved on disk in order to be used.
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This makes it impossible to have temporary presets (that exist only
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during the lifetime of a process), which might be required in the new
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proposed profile system
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#### Categorisation of presets.
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Currently presets are just aliases of a group of property/value without
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any meanings or explanation as to how they exclude each other.
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Take for example the H264 encoder. It can have presets for: \* passes
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(1,2 or 3 passes) \* profiles (Baseline, Main, ...) \* quality (Low,
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medium, High)
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In order to programmatically know which presets exclude each other, we
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here propose the categorisation of these presets.
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This can be done in one of two ways 1. in the name (by making the name
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be \[<category>:\]<name>) This would give for example: "Quality:High",
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"Profile:Baseline" 2. by adding a new \_meta key This would give for
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example: \_meta/category:quality
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#### Aggregation of presets.
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There can be more than one choice of presets to be done for an element
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(quality, profile, pass).
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This means that one can not currently describe the full configuration of
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an element with a single string but with many.
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The proposal here is to extend the `GstPreset` API to be able to set all
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presets using one string and a well-known separator ('/').
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This change only requires changes in the core preset handling code.
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This would allow doing the following: `gst_preset_load_preset
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(h264enc, "pass:1/profile:baseline/quality:high")`
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### Points to be determined
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This document hasn't determined yet how to solve the following problems:
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#### Storage of profiles
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One proposal for storage would be to use a system wide directory (like
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$prefix/share/gstreamer-0.10/profiles) and store XML files for every
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individual profiles.
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Users could then add their own profiles in ~/.gstreamer-0.10/profiles
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This poses some limitations as to what to do if some applications want
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to have some profiles limited to their own usage.
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## Helper library for profiles
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These helper methods could also be added to existing libraries (like
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`GstPreset`, GstPbUtils, ..).
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The various API proposed are in the accompanying gstprofile.h file.
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### Getting user-readable names for formats
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This is already provided by GstPbUtils.
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### Hierarchy of profiles
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The goal is for applications to be able to present to the user a list of
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combo-boxes for choosing their output profile:
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\[ Category \] \# optional, depends on the application \[ Device/Site/..
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\] \# optional, depends on the application \[ Profile \]
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Convenience methods are offered to easily get lists of categories,
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devices, and profiles.
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### Creating Profiles
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The goal is for applications to be able to easily create profiles.
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The applications needs to be able to have a fast/efficient way to: \*
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select a container format and see all compatible streams he can use with
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it. \* select a codec format and see which container formats he can use
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with it.
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The remaining parts concern the restrictions to encoder input.
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### Ensuring availability of plugins for Profiles
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When an application wishes to use a Profile, it should be able to query
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whether it has all the needed plugins to use it.
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This part will use GstPbUtils to query, and if needed install the
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missing plugins through the installed distribution plugin installer.
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## Use-cases researched
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This is a list of various use-cases where encoding/muxing is being used.
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### Transcoding
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The goal is to convert with as minimal loss of quality any input file
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for a target use. A specific variant of this is transmuxing (see below).
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Example applications: Arista, Transmageddon
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### Rendering timelines
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The incoming streams are a collection of various segments that need to
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be rendered. Those segments can vary in nature (i.e. the video
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width/height can change). This requires the use of identiy with the
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single-segment property activated to transform the incoming collection
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of segments to a single continuous segment.
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Example applications: PiTiVi, Jokosher
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### Encoding of live sources
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The major risk to take into account is the encoder not encoding the
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incoming stream fast enough. This is outside of the scope of encodebin,
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and should be solved by using queues between the sources and encodebin,
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as well as implementing QoS in encoders and sources (the encoders
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emitting QoS events, and the upstream elements adapting themselves
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accordingly).
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Example applications: camerabin, cheese
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### Screencasting applications
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This is similar to encoding of live sources. The difference being that
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due to the nature of the source (size and amount/frequency of updates)
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one might want to do the encoding in two parts: \* The actual live
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capture is encoded with a 'almost-lossless' codec (such as huffyuv) \*
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Once the capture is done, the file created in the first step is then
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rendered to the desired target format.
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Fixing sources to only emit region-updates and having encoders capable
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of encoding those streams would fix the need for the first step but is
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outside of the scope of encodebin.
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Example applications: Istanbul, gnome-shell, recordmydesktop
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### Live transcoding
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This is the case of an incoming live stream which will be
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broadcasted/transmitted live. One issue to take into account is to
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reduce the encoding latency to a minimum. This should mostly be done by
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picking low-latency encoders.
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Example applications: Rygel, Coherence
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### Transmuxing
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Given a certain file, the aim is to remux the contents WITHOUT decoding
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into either a different container format or the same container format.
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Remuxing into the same container format is useful when the file was not
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created properly (for example, the index is missing). Whenever
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available, parsers should be applied on the encoded streams to validate
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and/or fix the streams before muxing them.
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Metadata from the original file must be kept in the newly created file.
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Example applications: Arista, Transmaggedon
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### Loss-less cutting
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Given a certain file, the aim is to extract a certain part of the file
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without going through the process of decoding and re-encoding that file.
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This is similar to the transmuxing use-case.
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Example applications: PiTiVi, Transmageddon, Arista, ...
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### Multi-pass encoding
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Some encoders allow doing a multi-pass encoding. The initial pass(es)
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are only used to collect encoding estimates and are not actually muxed
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and outputted. The final pass uses previously collected information, and
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the output is then muxed and outputted.
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### Archiving and intermediary format
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The requirement is to have lossless
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### CD ripping
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Example applications: Sound-juicer
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### DVD ripping
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Example application: Thoggen
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### Research links
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Some of these are still active documents, some other not
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[gst-preset]: http://gstreamer.freedesktop.org/data/doc/gstreamer/head/gstreamer/html/GstPreset.html
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[gconf-audio-profile]: http://www.gnome.org/~bmsmith/gconf-docs/C/gnome-media.html
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[device-profile-api]: http://gstreamer.freedesktop.org/wiki/DeviceProfile (FIXME: wiki is gone)
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[preset-usage]: http://gstreamer.freedesktop.org/wiki/PresetDesign (FIXME: wiki is gone)
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