10

I'm recording the screen from my iPhone device to my Mac. As a preview layer, I am collecting sample buffers directly from an AVCaptureVideoDataOutput, from which I'm creating textures and rendering them with Metal. The problem I'm having is that code that worked in macOS prior to 10.13 stopped working after updating to 10.13. Namely,

CVImageBufferRef imageBuffer = CMSampleBufferGetImageBuffer(_currentSampleBuffer);

if (!imageBuffer) return;

CVPixelBufferLockBaseAddress(imageBuffer,0);
size_t width = CVPixelBufferGetWidth(imageBuffer);
size_t height = CVPixelBufferGetHeight(imageBuffer);

CVMetalTextureRef metalTexture = NULL;
CVReturn result = CVMetalTextureCacheCreateTextureFromImage(nil,
                                                            self.textureCache,
                                                            imageBuffer,
                                                            nil,
                                                            self.pixelFormat,
                                                            width,
                                                            height,
                                                            0,
                                                            &metalTexture);

if (result == kCVReturnSuccess) {
    self.texture = CVMetalTextureGetTexture(metalTexture);
}

Returns result = -6660, which translates to a generic kCVReturnError, as can be seen on the official Apple docs, and the metalTexture = NULL.

The pixel format I'm using is MTLPixelFormatBGRG422 since the samples coming from the camera are 2vuy.

As a workaround to creating metalTexture from sampleBuffer, I am now creating an intermediate NSImage like so:

CVImageBufferRef imageBuffer = CMSampleBufferGetImageBuffer(_currentSampleBuffer);
NSCIImageRep *imageRep = [NSCIImageRep imageRepWithCIImage:[CIImage imageWithCVImageBuffer:imageBuffer]];
    
NSImage *image = [[NSImage alloc] initWithSize:[imageRep size]];
[image addRepresentation:imageRep];

and creating a MTLTexture from that. That is obviously a subpar solution to using CVMetalTextureCacheCreateTextureFromImage directly.

Once again, the code in question works perfectly fine in macOS < 10.13, I'd like to know if anyone has similar issues, and if so, do you have any ideas how to overcome this?

3 Answers 3

15

I've come across the same issue, the problem was not asking for Metal compatibility when configuring the AVCaptureVideoDataOutput. I guess the system started to check this in macOS 10.13, possibly to apply some optimization when not requested.

The solution was to add the kCVPixelBufferMetalCompatibilityKey to the videoSettings property of AVCaptureVideoDataOutput.

In Objective-C:

outputCapture.videoSettings = @{
  /* ... */
  (NSString *)kCVPixelBufferMetalCompatibilityKey: @YES
};

In Swift:

outputCapture.videoSettings = [
  /* ... */
  kCVPixelBufferMetalCompatibilityKey as String: true
]

I think this warrants a radar, to ask Apple to at least print a warning message when this occurs. I'll update this if I get to it.

4
  • awesome, this works! I need to check the output format in the pixel buffer now though since I'm getting a split image and strange colors. I'll post my workaround in another answer for future reference. Oct 20, 2017 at 14:44
  • Thank you! This helped me as it also applies if you are making your own CVPixelBuffer with: CVPixelBufferCreate by adding to your attributes dictionary: let attrs = [kCVPixelBufferMetalCompatibilityKey: kCFBooleanTrue, ...<others>... ] as CFDictionary
    – peterept
    Apr 2, 2020 at 20:10
  • This doesn't work if you've created your cvpixelbuffer using CVPixelBufferCreateWithBytes or CVPixelBufferCreateWithPlanarBytes as specified in this technical note; developer.apple.com/library/archive/qa/qa1781/_index.html Setting the key has no effect. May 27, 2020 at 1:29
  • EliaCereda thank u, it helped me.
    – Nils
    Dec 17, 2021 at 15:27
1

I found a workaround for this, which keeps the 2vuy format in the pixel buffer, but the bad thing is that you make a copy of the pixel buffer data which affects performance. I'm posting this for future reference, or if anyone else finds it useful. Basically we intercept the pixel buffer and then add attributes while copying the data.

NSDictionary *attributes = @{
                             @"IOSurfaceCoreAnimationCompatibility": @YES
                             };
CVPixelBufferRef copy = NULL;

CVPixelBufferCreate(kCFAllocatorDefault,
                    CVPixelBufferGetWidth(pixelBuffer),
                    CVPixelBufferGetHeight(pixelBuffer),
                    CVPixelBufferGetPixelFormatType(pixelBuffer),
                    (__bridge CFDictionaryRef)attributes,
                    &copy);

CVPixelBufferLockBaseAddress(pixelBuffer, kCVPixelBufferLock_ReadOnly);
CVPixelBufferLockBaseAddress(copy, 0);

void *baseAddress = CVPixelBufferGetBaseAddress(pixelBuffer);
void *copyBaseAddress = CVPixelBufferGetBaseAddress(copy);

memcpy(copyBaseAddress, baseAddress, CVPixelBufferGetDataSize(pixelBuffer));

CVPixelBufferUnlockBaseAddress(copy, 0);
CVPixelBufferUnlockBaseAddress(pixelBuffer, kCVPixelBufferLock_ReadOnly);
1

Another way to get from a CVPixelBufferRef to a Metal texture, you could go via a CIImage and use a CIContext with a Metal device (hopefully minimises getting the CPU involved with copying the pixel buffer);

Make sure your target metal texture is appropriately sized.

CIContext* ciContext = [CIContext contextWithMTLDevice:mtlDevice
    options:[NSDictionary dictionaryWithObjectsAndKeys:@(NO),kCIContextUseSoftwareRenderer,nil]
];

id<MTLCommandBuffer> metalCommandBuffer=[mtlCommandQueue commandBufferWithUnretainedReferences];

CIImage* ciImage = [[CIImage alloc] initWithCVPixelBuffer:cvPixelBuffer];

[ciContext render:ciImage 
    toMTLTexture:metal_texture 
    commandBuffer:mtlCommandBuffer
    bounds:[ciImage extent])
    colorSpace:[ciImage colorSpace]];

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