On Thursday 08 December 2011, Daniel Vetter wrote: > > c) only allowing streaming mappings, even if those are non-coherent > > (requiring strict serialization between CPU (in-kernel) and dma users of > > the buffer) > > I think only allowing streaming access makes the most sense: > - I don't see much (if any need) for the kernel to access a dma_buf - > in all current usecases it just contains pixel data and no hw-specific > things (like sg tables, command buffers, ..). At most I see the need > for the kernel to access the buffer for dma bounce buffers, but that > is internal to the dma subsystem (and hence does not need to be > exposed). > - Userspace can still access the contents through the exporting > subsystem (e.g. use some gem mmap support). For efficiency reason gpu > drivers are already messing around with cache coherency in a platform > specific way (and hence violated the dma api a bit), so we could stuff > the mmap coherency in there, too. When we later on extend dma_buf > support so that other drivers than the gpu can export dma_bufs, we can > then extend the official dma api with already a few drivers with > use-patterns around. > > But I still think that the kernel must not be required to enforce > correct access ordering for the reasons outlined in my other mail. I still don't think that's possible. Please explain how you expect to change the semantics of the streaming mapping API to allow multiple mappers without having explicit serialization points that are visible to all users. For simplicity, let's assume a cache coherent system with bounce buffers where map() copies the buffer to a dma area and unmap() copies it back to regular kernel memory. How does a driver know if it can touch the buffer in memory or from DMA at any given point in time? Note that this problem is the same as the cache coherency problem but may be easier to grasp. Arnd _______________________________________________ dri-devel mailing list dri-devel@xxxxxxxxxxxxxxxxxxxxx http://lists.freedesktop.org/mailman/listinfo/dri-devel