I'm writing an Android application, and in it, I have a VirtualDisplay to mirror what is on the screen and I then send the frames from the screen to an instance of a MediaCodec. It works, but, I want to add a way of specifying the FPS of the encoded video, but I'm unsure how to do so.

From what I've read and experimented with, dropping encoded frames (based on the presentation times) doesn't work well as it ends up with blocky/artifact ridden video as opposed to a smooth video at a lower framerate. Other reading suggests that the only way to do what I want (limit the FPS) would be to limit the incoming FPS to the MediaCodec, but the VirtualDisplay just receives a Surface which is constructed from the MediaCodec as below

mSurface = <instance of MediaCodec>.createInputSurface();
mVirtualDisplay = mMediaProjection.createVirtualDisplay(

I've also tried subclassing Surface and limit the frames that are fed to the MediaCodec via the unlockCanvasAndPost(Canvas canvas) but the function never seems to be called on my instance, so, there may be some weirdness in how I extended Surface and the interaction with the Parcel as writeToParcel function is called on my instance, but that is the only function that is called in my instance (that I can tell).

Other reading suggests that I can go from encoder -> decoder -> encoder and limit the rate in which the second encoder is fed frames, but that's a lot of extra computation that I'd rather not do if I can avoid it.

Has anyone successfully limited the rate at which a VirtualDisplay feeds its Surface? Any help would be greatly appreciated!


Starting off with what you can't do...

You can't drop content from the encoded stream. Most of the frames in the encoded stream are essentially "diffs" from other frames. Without knowing how the frames interact, you can't safely drop content, and will end up with that corrupted macroblock look.

You can't specify the frame rate to the MediaCodec encoder. It might stuff that into metadata somewhere, but the only thing that really matters to the codec is the frames you're feeding into it, and the presentation time stamps associated with each frame. The encoder will not drop frames.

You can't do anything useful by subclassing Surface. The Canvas operations are only used for software rendering, which is unrelated to feeding in frames from a camera or virtual display.

What you can do is send the frames to an intermediate Surface, and then choose whether or not to forward them to the MediaCodec's input Surface. One approach would be to create a SurfaceTexture, construct a Surface from it, and pass that to the virtual display. When the SurfaceTexture's frame-available callback fires, you either ignore it, or render the texture onto the MediaCodec input Surface with GLES.

Various examples can be found in Grafika and on bigflake, none of which are an exact fit, but all of the necessary EGL and GLES classes are there.

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  • Thank you for your input fadden! Sounds pretty good (why didn't I think of that?). I'm a graphics engineer, so I should be pretty set with the OpenGL calls for the construction of the texture, etc. etc. I'll give this a shot and report back. – EncodedNybble Jul 22 '15 at 22:56
  • So, I've noticed that SurfaceTexture handles its on frame available callbacks by receiving a message on either the current looper, or the UI thread looper, or none. Which is...interesting. Wish there was a way to specify the handler or looper. Since I am doing all of this work in a HandlerThread, this will take some working around. – EncodedNybble Jul 24 '15 at 16:12
  • Just send a message. A typical onFrameAvailable() implementation looks like this: github.com/google/grafika/blob/master/src/com/android/grafika/… – fadden Jul 24 '15 at 17:42
  • I should also mention that my app is in the background (I'm experimenting). – EncodedNybble Jul 24 '15 at 20:51
  • I never get a onFrameAvailable callback if my application is in the background. I'll keep poking around to see what I can figure out. – EncodedNybble Jul 25 '15 at 1:06

You can reference the code sample from saki4510t's ScreenRecordingSample or RyanRQ's ScreenRecoder, they are all use the additional EGL Texture between the virtual display and media encoder, and the first one can keep at least 15 fps for the output video. You can search the keyword createVirtualDisplay from their code base for more details.

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