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GStreamer on Gateworks SBCs
The intended goal of this article is to provide the user with enough information so they can create their own GStreamer pipelines. These GStreamer pipelines have been tested and created for use on the Gateworks Single Board Computers (SBCs), specifically the Ventana family that utilizes the Freescale i.MX6 processors.
Gateworks SBCs can be viewed at the following link: http://www.gateworks.com
GStreamer
GStreamer is an opensource library created to handle multimedia. Pipelines are used to source and sink media however you would like (e.g. decoding the mp3 out of a video file and playing it back through speakers)
Plugins
GStreamer works on 'plugins'. A plugin comprises of elements that can do work on a media stream. For example, the mpeg2dec
can decode mpeg1 and mpeg2 video streams.
By default, we install several GStreamer plugins that can tap into the i.MX6 processor's hardware blocks such as the IPU (image processing unit), VPU (video processing unit), and GPU (graphical processing unit). The main advantage of using these plugins is that there is no CPU cost for decoding/encoding a stream because another hardware block in the i.MX6 takes care of it. This leaves your CPU free to deal with other programs etc.
There are two main versions of GStreamer: 0.10 and 1.0. Our Yocto 'master' branch and Yocto v1.8 'fido' branch include GStreamer 1.0 while Yocto versions prior (Yocto v1.7 (dizzy), Yocto v1.6 (daisy), Yocto v1.3 (danny)) include only GStreamer 0.10.
Different sets of plugins exist for each main version of GStreamer. The next few subsections will attempt to showcase plugins that utilize the i.MX6.
GStreamer-imx plugins (for GStreamer 1.0+)
The GStreamer-imx plugins project is a community project created by Carlos Rafael Giani (<dv@…>). These are always being updated which might make them good to use if a certain feature is only implemented in one of the below.
Pros:
- Open Source Development model: The project is on github and is very active
- The main developer has been a GStreamer contributer for some time now and is very active in the GStreamer community
- The source is very well documented and easy to follow
- Things are done in a very standard GStreamer way
Cons:
- These are relatively new (early 2014) so there might be undiscovered bugs
The following is a list of plugins provided by the latest version of gstreamer-imx (0.11.0)
Type | Plugin(s) | Element(s) | Comments |
---|---|---|---|
Audio Decoder | imxaudio | imxuniaudiodec | Uses i.MX uniaudio codecs for decoding |
Audio Encoder | imxaudio | imxmp3audioenc | Uses i.MX for MP3 audio encoding |
Device Sources | imxv4l2video | imxv4l2videosrc | Get camera source via v4l2 |
Video Decoder | imxvpu | imxvpudec | VPU Based decoder |
Video Encoder | imxvpu | imxvpuenc_mjpeg; imxvpuenc_mpeg4; imxvpuenc_h264; imxvpuenc_h263 | VPU Based encoders |
Video Render (sink) | imxg2d; imxpxp; imxeglvivsink; imxipu | imxg2dvideosink; imxpxpvideosink; imxeglvivsink; imxipuvideosink | g2d1, ipu1, pxp2, and egl (overlay) video sinks |
Video Converter | imxg2d; imxpxp; imxipu | imxg2dvideotransform; imxpxpvideotransform; imxipuvideotransform | g2d, pxp, egl and ipu video filter/converter/scalars3 |
Video Compositing | imxg2d; imxipu | imxg2dcompositor, imxipucompositor | gpu/ipu accelerated compositing |
1. The g2d sink is very flexible in the types of input video it can take, but doesn't have the ability to convert to as many formats as the IPU can. On the other hand, the IPU is very picky with it's input (e.g. requiring a 1px offset) and the kernel driver is very undocumented, but as stated before, it can convert between many colorspace formats.
2. Note that the PXP sinks are only applicable to the i.mx6solo and i.mx6dl processors.
3. Please see note 1 above.
Please uncollapse the following if you want to view gstreamer plugins specific to the imx6 previous to Yocto v1.8 (Fido). CollapsibleStart(Older GStreamer Plugins (Supported previous to Yocto 1.8))
Freescale GStreamer Plugins (fsl-gst-plugin)
The gst-fsl-plugin package plugins are written by Freescale. While they are open-source (release source tarballs are available) the development cycle is closed and there is no community involvement.
Pros:
- These have been available for some time now and many examples can be found on the Internet
Cons:
- There is no community involvement in the development of this code
- The code is a bit difficult to follow
- They do not follow the gstreamer model very well and do things in a very unorthodox way that don't mix well with the rest of GStreamer:
- their decoders rely on their 'aiur' demuxer to do stream parsing
- they do not use the PTS and DTS timestamps that come for upstream and instead re-generate their own
- they are not very compatible with other gstreamer elements (such as ones that are not DMA buffer aware)
- they do not communicate with the GStreamer development community
Freescale GStreamer 0.10 (plugin version 3.0.11) plugins
These plugins are available in the Gateworks Yocto 1.3, 1.6, and 1.7 BSP's.
For a very good reference for this version of the gst-fsl-plugins see the i.MX_Series_Yocto_Project_Multimedia_Users's_Guide.pdf and i.MX_6_Series_Yocto_Project_Multimedia_Release_Notes.pdf found in L3.10.17_1.0.0_LINUX_DOCS download provided by Freescale. In the link, please search for this document. You will have to sign in and sign a EULA in before downloading.
Type | Plugin(s) | Element(s) | Comments |
---|---|---|---|
Audio Decoder | beep.imx;amrdec.imx | beepdec; beepdec.vorbis; beepdec.mpr; beepdec.aac; mfw_amrdecoder | -- |
Audio Encoder | mp3enc.imx | mfw_mp3encoder | Encode audio to mp3 |
Audio Converter | audiopeq.imx | mfw_audio_pp | Equalizer |
Video Decoder | vpu.imx; h264.imx | vpudec; mfw_h264decoder | VPU Based decoder and h264 video decoder |
Video Encoder | vpu.imx | vpuenc | VPU Based encoder |
Demuxer | aiur.imx | aiurdemux | Universal Demuxer |
Video Render (sink) | v4lsink.imx; isink.imx | mfw_v4lsink; mfw_isink | Video4Linux2 and IPU based video sinks |
Device Source(src) | tvsrc.imx; v4lsrc.imx | tvsrc; mfw_v4lsrc | tvsrc: v4l2 tv src; mfw_v4lsrc: v4l2 camera src |
If there are any elements that you require more information on, please run a 'gst-inspect-0.10 <element>'.
Freescale GStreamer 0.10 (plugin version 4.0.2) plugins
These plugins are available in the Gateworks Yocto master branch and will be in the Gateworks Yocto 1.8 BSP.
For a very good reference for this version of the gst-fsl-plugins see the i.MX_Linux_Release_notes.pdf foudn in L3.10.53_1.1.0_LINUX_DOCS download provided by Freescale. In the link, please search for this document. You will have to sign in and sign a EULA in before downloading.
Type | Plugin(s) | Element(s) | Comments |
---|---|---|---|
Audio Decoder | beep.imx;amrdec.imx | beepdec; beepdec.vorbis; beepdec.mpr; beepdec.aac; mfw_amrdecoder | -- |
Audio Encoder | mp3enc.imx | mfw_mp3encoder | Encode audio to mp3 |
Audio Converter | audiopeq.imx | mfw_audio_pp | Equalizer |
Video Decoder | vpu.imx | vpudec | VPU Based decoder |
Video Encoder | vpu.imx | vpuenc | VPU Based encoder |
Demuxer | aiur.imx | aiurdemux | Universal Demuxer |
Video Render (sink) | v4lsink.imx; isink.imx | imxv4l2sink; mfw_isink | Video4Linux2 and IPU based video sinks |
Device Source(src) | tvsrc.imx; v4lsrc.imx | tvsrc; imxv4l2src | tvsrc: v4l2 tv src; imxv4l2src: v4l2 camera src |
If there are any elements that you require more information on, please run a 'gst-inspect-0.10 <element>'.
Freescale GStreamer 1.0 (plugin version 4.0.2) plugins
These plugins are available in the Gateworks Yocto master branch and will be in the Gateworks Yocto 1.8 BSP.
For a very good reference for this version of the gst-fsl-plugins see the i.MX_Linux_Release_notes.pdf foudn in L3.10.53_1.1.0_LINUX_DOCS download provided by Freescale. In the link, please search for this document. You will have to sign in and sign a EULA in before downloading.
Type | Plugin(s) | Element(s) | Comments |
---|---|---|---|
Audio Decoder | beep.imx;amrdec.imx | beepdec | MP3, AAC, WMA, AC3, etc. "Universal" |
Audio Encoder | imxmp3enc.imx | imxmp3enc | Encode audio to mp3 |
Video Decoder | vpu.imx | vpudec | VPU Based decoder |
Video Encoder | vpu.imx | vpuenc | VPU Based encoder |
Demuxer | aiur.imx | aiurdemux | AVI, MKV, MP4, MPEG4, ASF, OGG, FLV, WebM Demux |
Video Render (sink) | imxv4l2.imx; overlaysink.imx | imxv4l2sink; overlaysink | imxv4l2sink: v4l2 video sink; overlaysink: g2d based video sink |
Device Source(src) | imxv4l2.imx | imxv4l2src | imxv4l2src: v4l2 camera/TVin src |
Video Converter | imxvideoconvert.imx | imxvideoconvert_ipu; imxvideoconvert_g2d | IPU/G2D based video converters (i.e. colorspace etc) |
AVB Streaming | avb.imx | avbpcmsink; avbpcmsrc, avbmpegtssink; avbmpegtssrc | Please use 'gst-inspect-1.0' on element you're interested in |
If there are any elements that you require more information on, please run a 'gst-inspect-1.0 <element>'.
Codecs
For Codec support (Encoder / Decoder) details please see:
Pipeline Construction
gst-launch is a simple GStreamer application that can be used to test pipelines. A pipeline connects media handling components such as sources, sinks, decoders, encoders, muxes, demuxes, etc. Each of these elements are made available through GStreamer plugins. That is, if a certain plugin isn't installed on your device, you won't be able to use that element. To see that element's information, type gst-inspect element
where element
is the element you are looking for. To see a full listing of elements installed, you can type just gst-inspect
.
Here is a graphical example of a pipeline.
The most basic and important things to know is the pipeline '!'. This is a pipe, similar to Linux's pipe '|'. It takes the output of one element and inputs it into the next
Test Media Files
There is a variety of royalty free media available on the Internet that can be used freely in demos and for codec and file format testing:
- Big Buck Bunny - Creative Commons
- Sintel - Creative Commons
- Tears of Steel - Creative Commons
Video
Please see this page for some video pipeline examples.
Audio
Please see this page for some audio pipeline examples.
Multimedia
Please see this page for some multimedia pipeline examples.
Streaming
Please see this page for some streaming pipeline examples.
Latency
Please see this page for some latency information.
Video Composition
Please see this page for some compositing information.
Applications
GStreamer uses pipelines as a way to test elements in various ways. In a production environment, you generally want to write a GStreamer Application. GStreamer applications use glib, so one should be somewhat familiar with that.
Example Applications
GStreamer has an excellent hello world example that clearly explain what each step is meant to do. Please see here for more details.
Further, Gateworks has created their own suite (currently only consisting of one application) of applications that help to show developers how to create GStreamer apps.
gst-variable-rtsp-server
This application is included by default on our Yocto 1.8+ BSPs (multimedia/gui images). It is an example GStreamer application that, like the GStreamer test RTSP application, you can pass in a custom pipeline to create an RTSP server out of, but extends the usage quite a bit in order to showcase GStreamer call-backs, among other things. It is a fully open-source program to provide you, the developer, a working example of a solution to some commonly asked questions.
gst-variable-rtsp-server is a solution created by Gateworks that allows changing the quality of a live stream on the fly based on the number of clients connected to the server. Similar to other adaptive bitrate technologies, it can change quality based on information is knows about the stream. In our case, the number of connected clients was deemed as appropriate. Note that this ability will only work if you are not supplying the full pipeline (e.g. not using the -u
flag).
This application can change either the quant-param
or the bitrate
parameters of the imxvpuenc_h264
encoder. The quant-param
will only be used if the pipeline is set to Variable Bitrate mode (VBR). This can be accomplished by passing in the -b 0
flag to the program. Otherwise, gst-variable-rtsp-server
will change the bitrate
of the stream.
The algorithm used to change both bitrate
and quant-param
are based on the --steps
input (default to 5). For example, if using the default steps
value of 5, if the min bitrate was 500 and max bitrate was 2000, it would take 5 clients to get from the best to the worst quality.
To calculate a bitrate
or quant-param
for a number of clients or steps etc, please use the following formulas (integer math):
- First get step factor: step = (max1 - min2) / (steps - 1), e.g. (51 - 0) / 1 = 51
- Now, depending on the parameter, pick one:
- quant-param
- new_quant3 = ((clients_connected - 1) * step) + min2, e.g. ((2 - 1) * 51) + 0 = 51
- bitrate
- new_bitrate4 = max1 - ((clients_connected - 1) * step), e.g. 10000 - ((2 - 1) * 9999) = 1
- quant-param
1. max means the high number of that particular parameter
2. min means the low number of that particular parameter
3. Note that this is capped to the 'max' quant-param value
4. Note that this is capped to the 'min' bitrate value
The formulas above slightly differ due to the fact that the lower the bitrate
, the lower the quality, but with a higher quant-param
, the lower the quality (inverted).
Please see below for some example use cases:
- Use
imxv4l2videosrc
as input stream on/dev/video0
gst-variable-rtsp-server -s imxv4l2videosrc -i /dev/video0
- Use
imxv4l2videosrc
as input stream on/dev/video0
, but go from best to worst quality when 2 clients connectgst-variable-rtsp-server -s imxv4l2videosrc -i /dev/video0 --steps 2
- Use
imxv4l2videosrc
as input stream on/dev/video0
, cap max bitrate to 5000kbps and min bitrate to 2500kbpsgst-variable-rtsp-server -s imxv4l2videosrc -i /dev/video0 --max-bitrate=5000 --min-bitrate=2500
To connect as a client, you can use any program that can connect to an RTSP stream. Below is an example connecting with GStreamer:
gst-launch-1.0 rtspsrc location=rtsp://172.24.10.180:9099/stream latency=10 ! decodebin ! autovideosink
There are many more examples on our GStreamer streaming page.
With the above, if there is only a single client, the stream will be at it's best quality. But as you connect more clients, the quality of the stream will drop in order to account for network congestion. For more information, please see this README section.
References
- gstreamer.com contains much more information on the construction of pipelines.
- GStreamer Hello World Application explanation.
- Gateworks Example Application Suite
Miscellaneous
The below sections host some miscellaneous and loose information about GStreamer that didn't otherwise fit a specific category.
Troubleshooting
If something doesn't work right, make sure all of the defaults being used in your pipeline element properties are correct. Many of the examples above or found online may omit the 'device' property from the source or sink elements which will make it default to the first appropriate device.
You can see all the properties of a particular element with the 'gst-inspect <elementname>' command. You can see a list of all elements with 'gst-inspect' without arguments.
You can enable debug output for Gstreamer by using the --gst-debug parameter to gst-launch or by setting the GST_DEBUG environment variable.
For example, if you wanted to see DEBUG level messages for the mfw_v4lsrc plugin you can set GST_DEBUG=mfw_v4lsrc:4
References:
- http://gstreamer.freedesktop.org/data/doc/gstreamer/head/manual/html/section-checklist-debug.html
- http://gstreamer.freedesktop.org/data/doc/gstreamer/head/gstreamer/html/gst-running.html
More Information
For more pipeline examples, please visit the Freescale community site for the i.MX6 processor.