Gstreamer cheat sheet

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This page contains various shortcuts to achieving specific functionality using Gstreamer. These functionalities are mostly related to my Digital Video Transmission experiments. There is no easy to read "user manual" for gstreamer but the online the plugin documentation[1] often contains command line examples in addition to the API docs. Other sources of documentation:

  • The manual page for gst-launch
  • The gst-inspect tool
  • Online tutorials

The Gstreamer documentation is also available in Devhelp.

Contents

Video Test Source

To generate a test video stream use videotestsrc[2]:

 gst-launch videotestsrc ! ximagesink

Use the pattern property to select a specific pattern:

 gst-launch videotestsrc pattern=snow ! ximagesink

pattern can be both numeric [0,16] and symbolic. Some patterns can be adjusted using additional parameters.

To generate a test pattern of a given size and at a given rate a "caps filter" can be used:

 gst-launch videotestsrc ! video/x-raw-rgb, framerate=25/1, width=640, height=360 ! ximagesink

TODO: I'd like to add more about "caps filter" but I can not find any comprehensive documentation.

GstTestPattern.png

Webcam Capture

In its simplest form a v4l2src[3] can be connected directly to a video display sink:

 gst-launch v4l2src ! xvimagesink

This will grab the images at the highest possible resolution, which for my Logitech QuickCam Pro 9000 is 1600x1200. Adding a "caps filter" in between we can select the size and the desired frametrate:

 gst-launch v4l2src ! video/x-raw-yuv,width=320,height=240,framerate=20/1 ! xvimagesink

If the supported framerates are not good use videorate[4] to either insert or drop frames. This can also be used to deliver a fixed framerate in case the framerate from the camera varies.

The "caps filter" is also used to select a specific pixel format. The Logitech QuickCam Pro 9000 supports MJPG, YUYV, RGB3, BGR3, YU12 and YV12. The pixel format in the "caps filter" can be specified using fourcc[5] labels:

 gst-launch v4l2src ! video/x-raw-yuv,format=\(fourcc\)YUY2,width=320,height=240 ! xvimagesink

YUY2 is the standard YUYV 4:2:2 pixel format and corresponds to the YUYV format on the Logitech QuickCam Pro 9000.

The camera settings can be controlled using Guvcview[6] while the image is captured using gstremer. This requires guvcview to be executed using the -o or --control_only command line option.

GstWebcamGuvcview.png

Resizing and Cropping

videocrop

For quick cropping from 4:3 to 16:9, the aspectratiocrop[7] plugin can be used:

 gst-launch v4l2src ! video/x-raw-yuv,width=640,height=480,framerate=15/1 ! aspectratiocrop aspect-ratio=16/9 ! ffmpegcolorspace ! xvimagesink


videobox

videoscale


Filtering

ffmpegcolorspace

gamma

videobalance


Encoding and Muxing

Single Stream

Test Pattern

Encode video to H.264 using x264 and put it into MPEG-TS transport stream:

 gst-launch -e videotestsrc ! video/x-raw-yuv, framerate=25/1, width=640, height=360 ! x264enc ! flutsmux ! filesink location=test.ts

Note that it requires the Fluendo TS Muxer gst-fluendo-mpegmux for muxing and gst-fluendo-mpegdemux for demuxing. The -e option forces EOS on sources before shutting the pipeline down. This is useful when we write to files and want to shut down by killing gst-launch using CTRL+C or with the kill command[8]. Alternatively, we could use the num-buffers parameter to specify that we only want to record a certain number of frames. The following graph will record 500 frames and then stop:

 gst-launch videotestsrc num-buffers=500 ! video/x-raw-yuv, framerate=25/1, width=640, height=360 ! x264enc ! flutsmux ! filesink location=test.ts

We can use the playbin plugin to play the recorded video:

 gst-launch -v playbin uri=file:///path/to/test.ts

The -v option allows us to see which blocks gstreamer decides to use. In this case it will automatically select flutsdemux for demuxing the MPEG-TS and ffdec_h264 for decoding the H.264 video. Note that there appears to be no x264dec and no ffenc_h264.

By default x264enc will use 2048 kbps but this can be set to a different value:

gst-launch -e videotestsrc ! video/x-raw-yuv, framerate=20/1, width=640, height=480 ! x264enc bitrate=512 ! flutsmux ! filesink location=test.ts

bitrate is specified in kbps. Note that I've changed the size to 640x480. For H.264 (and most other modern codecs) it is advantageous to use width and height that is an integer multiple of 16. There are also many other options that can be used to optimize compression, quality and speed.

TODO: Find good settings for (1) high quality (2) fast compression (3) etc...

TODO: There is also the ffmux_mpegts but I can not make it work; it generates a 564 bytes long file.

Webcam

If we want to encode the webcam we need to include the ffmpegcolorspace[9] converter block:

 gst-launch -e v4l2src ! video/x-raw-yuv, framerate=10/1, width=320, height=240 ! ffmpegcolorspace ! \
               x264enc bitrate=256 ! flutsmux ! filesink location=webcam.ts

Multiple Streams

We can mux the test pattern and the webcam into one MPEG-TS stream. For this we first declare the muxer element and name it "muxer". The name is then used as reference when we connect to it:

 gst-launch -e flutsmux name="muxer" ! filesink location=multi.ts \
   v4l2src ! video/x-raw-yuv, format=\(fourcc\)YUY2, framerate=10/1, width=640, height=480 ! videorate ! ffmpegcolorspace ! x264enc ! muxer. \
   videotestsrc ! video/x-raw-yuv, framerate=10/1, width=640, height=480 ! x264enc ! muxer.

We can play the recorded multi.ts file with any MPEG-TS capable player:

  • VLC will play both channels at the same time in different windows.
  • Mplayer will show one stream and we can swap between the streams using the "_" key.
  • gst-launch playbin uri=/path/to/multi.ts will play one stream

TODO: Should be able to get both streams in gstreamer but might require some magic.

Adding Audio

Capturing and encoding audio is really easy:

 gst-launch -e pulsesrc ! audioconvert ! lamemp3enc target=1 bitrate=64 cbr=true ! filesink location=audio.mp3

This will record an MP3 audio using 64kbps CBR. Of course, we would prefer OGG or format, but the MPEG-TS we want to mux into only supports MPEG audio for now (this is a limitation of the flutsmux plugin I believe).

To include the recorded audio in the MUX we simply include it in the pipeline and replace the file sink with the muxer:

 gst-launch -e flutsmux name="muxer" ! filesink location=multi.ts \
   v4l2src ! video/x-raw-yuv, format=\(fourcc\)YUY2, framerate=10/1, width=640, height=480 ! videorate ! ffmpegcolorspace ! x264enc ! muxer. \
   videotestsrc ! video/x-raw-yuv, framerate=10/1, width=640, height=480 ! x264enc ! muxer. \
   pulsesrc ! audioconvert ! lamemp3enc target=1 bitrate=64 cbr=true ! muxer.

Decoding and Demuxing

TBD


Network Streaming

TBD

MPEG-TS can be streamed over UDP (TBC)

Raw videos, e.g. H.264, can be packed into RTP before sending over UDP (TBC)

 From man gst-launch:
 Network streaming
 
      Stream video using RTP and network elements.
 
      gst-launch v4l2src ! video/x-raw-yuv,width=128,height=96,format='(fourcc)'UYVY ! ffmpegcolorspace ! ffenc_h263
      ! video/x-h263 ! rtph263ppay pt=96 ! udpsink host=192.168.1.1 port=5000 sync=false
      Use this command on the receiver
 
      gst-launch  udpsrc  port=5000 ! application/x-rtp, clock-rate=90000,payload=96 ! rtph263pdepay queue-delay=0 !
      ffdec_h263 ! xvimagesink
      This command would be run on the transmitter

Compositing

Picture in Picture

The videomixer[10] can be used to mix two or more video streams together forming a PiP effect. The following example will put a 200x150 pixels snow test pattern over a 640x360 pixels SMPTE pattern:

 gst-launch -e videotestsrc pattern="snow" ! video/x-raw-yuv, framerate=10/1, width=200, height=150 ! videomixer name=mix ! \
   ffmpegcolorspace ! xvimagesink videotestsrc ! video/x-raw-yuv, framerate=10/1, width=640, height=360 ! mix.

GstPipDefault.png

According to the online documentation[10] the poisition and Z-order can be adjusted using GstVideoMixerPad properties; however, I do not yet know how to use this.

We can also position the small picture by using the videobox[11] element and add a transparent border. The following example will move the small snow pattern 20 pixels to the right and 25 pixels down:

 gst-launch -e videotestsrc pattern="snow" ! video/x-raw-yuv, framerate=10/1, width=200, height=150 ! videobox border-alpha=0 top=-20 left=-25 ! \
   videomixer name=mix ! ffmpegcolorspace ! xvimagesink videotestsrc ! video/x-raw-yuv, framerate=10/1, width=640, height=360 ! mix.

GstPipPosition.png

Note that the top and left values are negative, which means that pixels will be added. Positive value means that pixels are cropped from the original image. If we'd amde border-alpha 1.0 we'd seen a black border on the top and the left of the child image.

Transparency of each input stream can be controlled by passing the stream through an alpha filter. This is useful for the main (background) image. For the child image we do not need to add and additional alpha filter because the videobox can have it's own alpha channel:

 gst-launch -e videotestsrc pattern="snow" ! video/x-raw-yuv, framerate=10/1, width=200, height=150 ! \
   videobox border-alpha=0 alpha=0.6 top=-20 left=-25 ! videomixer name=mix ! ffmpegcolorspace ! xvimagesink \
   videotestsrc ! video/x-raw-yuv, framerate=10/1, width=640, height=360 ! mix.

GstPipAlpha.png

A border can be added around the child image by adding an additional videobox[11] where the top/left/right/bottom values correspond to the desired border width and border-alpha is set to 1.0 (opaque):

 gst-launch -e videotestsrc pattern="snow" ! video/x-raw-yuv, framerate=10/1, width=200, height=150 ! \
   videobox border-alpha=1.0 top=-2 bottom=-2 left=-2 right=-2 ! videobox border-alpha=0 alpha=0.6 top=-20 left=-25 ! \
   videomixer name=mix ! ffmpegcolorspace ! xvimagesink videotestsrc ! video/x-raw-yuv, framerate=10/1, width=640, height=360 ! mix.

GstPipBorder.png


TODO: four videos combined into one video matrix

Text Overlay

The texoverlay[12] plugin can be used to add text to the video stream:

 gst-launch videotestsrc ! video/x-raw-yuv,width=640,height=480,framerate=15/1 ! textoverlay text="Hello" ! ffmpegcolorspace ! ximagesink

It has many options for text positioning and alignment. User can also specify font properties as a Pango font description string, e.g. "Sans Italic 24".

TODO: A few font description examples.

Time Overlay

Elapsed time can be added using the timeoverlay[13] plugin:

 gst-launch videotestsrc ! timeoverlay ! xvimagesink

Timeoverlay inherits the properties of textoverlay so the text properties can be set using the same properties:

 gst-launch -v videotestsrc ! video/x-raw-yuv, framerate=25/1, width=640, height=360 ! \
   timeoverlay halign=left valign=bottom text="Stream time:" shaded-background=true ! xvimagesink

GstTimeOverlay.png

Alternatively, cairotimeoverlay[14] can be used but it doesn't seem to have any properties:

 gst-launch videotestsrc ! cairotimeoverlay ! xvimagesink

Instead of elapsed time, the system date and time can be added using the clockoverlay[15] plugin:

 gst-launch videotestsrc ! clockoverlay ! xvimagesink

Clockloverlay also inherits the properties of textoverlay. In addition to that clockoverlay also allows setting the time format:

 gst-launch videotestsrc ! clockoverlay halign=right valign=bottom shaded-background=true time-format="%Y.%m.%D" ! ffmpegcolorspace ! ximagesink

Complete Examples

Time-Lapse Video

A simple "surveillance camera" implementation using the Logitech QuickCam Vision Pro 9000 and Gstreamer. Frames from the camera are captured at 5 fps. The date, time and elapsed time are added. The stream is displayed on the screen at the captured rate and resolution and saved to an OGG file at 1 fps:

 gst-launch -e v4l2src ! video/x-raw-yuv,format=\(fourcc\)YUY2,width=1280,height=720,framerate=5/1 ! \
   ffmpegcolorspace ! timeoverlay halign=right valign=top ! clockoverlay halign=left valign=top time-format="%Y/%m/%d %H:%M:%S" ! \
   tee name="splitter" ! queue ! xvimagesink sync=false splitter. ! queue ! videorate ! video/x-raw-yuv,framerate=1/1 ! \
   heoraenc bitrate=256 ! oggmux ! filesink location=webcam.ogg

GstSurveilance.png

To create a time-lapse video we have to extract the individual frames from the recorded ogg file then assemble them to a new video using the new framerate.

Extract the individual frames:

 ffmpeg -i webcam.ogg -r 1 -sameq -f image2 img/webcam-%05d.jpg

Assemble frames to new video:

 ffmpeg -r 50 -i img/webcam-%05d.jpg -vcodec libx264 -b 5000k -r 25 timelapse.mov

See the time-lapse video on YouTube.

References

  1. Gstreamer documentation http://gstreamer.freedesktop.org/documentation/
  2. GStreamer Base Plugins 0.10 Plugins Reference Manual – videotestsrc
  3. GStreamer Good Plugins 0.10 Plugins Reference Manual – v4l2src
  4. GStreamer Base Plugins 0.10 Plugins Reference Manual – videorate
  5. FOURCC websiteYUV formats
  6. Gtk+ UVC Viewer: http://guvcview.berlios.de/
  7. GStreamer Good Plugins 0.10 Plugins Reference Manual – aspectratiocrop
  8. Elphel Development Blog – Interfacing Elphel cameras with GStreamer, OpenCV, OpenGL/GLSL and python.
  9. GStreamer Base Plugins 0.10 Plugins Reference Manual – ffmpegcolorspace. The details are available via gst-inspect ffmpegcolorspace.
  10. 10.0 10.1 GStreamer Good Plugins 0.10 Plugins Reference Manual – videomixer
  11. 11.0 11.1 GStreamer Good Plugins 0.10 Plugins Reference Manual – videobox
  12. GStreamer Base Plugins 0.10 Plugins Reference Manual – textoverlay
  13. GStreamer Base Plugins 0.10 Plugins Reference Manual – timeoverlay
  14. GStreamer Good Plugins 0.10 Plugins Reference Manual – cairotimeoverlay
  15. GStreamer Base Plugins 0.10 Plugins Reference Manual - clockoverlay

Other useful links: