Hello,
On Wednesday, June 22, 2011 10:53 AM Subash Patel wrote:
On 06/22/2011 12:29 PM, Marek Szyprowski wrote:
Hello,
On Wednesday, June 22, 2011 6:53 AM Subash Patel wrote:
On 06/20/2011 01:20 PM, Marek Szyprowski wrote:
Hello,
This patch series is a continuation of my works on implementing generic IOMMU support in DMA mapping framework for ARM architecture. Now I focused on the DMA mapping framework itself. It turned out that adding support for common dma_map_ops structure was not that hard as I
initally
thought. After some modification most of the code fits really well to the generic dma_map_ops methods.
The only change required to dma_map_ops is a new alloc function. During the discussion on Linaro Memory Management meeting in Budapest we got the idea that we can have only one alloc/free/mmap function with additional attributes argument. This way all different kinds of architecture specific buffer mappings can be hidden behind the attributes without the need of creating several versions of dma_alloc_ function. I also noticed that the dma_alloc_noncoherent() function can be also implemented this way with DMA_ATTRIB_NON_COHERENT attribute. Systems that just defines dma_alloc_noncoherent as dma_alloc_coherent will just ignore such attribute.
Another good use case for alloc methods with attributes is the possibility to allocate buffer without a valid kernel mapping. There
are
a number of drivers (mainly V4L2 and ALSA) that only exports the DMA buffers to user space. Such drivers don't touch the buffer data at all. For such buffers we can avoid the creation of a mapping in kernel virtual address space, saving precious vmalloc area. Such buffers might be allocated once a new attribute DMA_ATTRIB_NO_KERNEL_MAPPING.
Are you trying to say here, that the buffer would be allocated in the user space, and we just use it to map it to the device in DMA+IOMMU framework?
Nope. I proposed an extension which would allow you to allocate a buffer without creating the kernel mapping for it. Right now
dma_alloc_coherent()
performs 3 operations:
- allocates memory for the buffer
- creates coherent kernel mapping for the buffer
- translates physical buffer address to DMA address that can be used by
the hardware.
dma_mmap_coherent makes additional mapping for the buffer in user process virtual address space.
I want make the step 2 in dma_alloc_coherent() optional to save virtual address space: it is really limited resource. I really want to avoid wasting it for mapping 128MiB buffers just to create full-HD processing hardware pipeline, where no drivers will use kernel mapping at all.
I think by (2) above, you are referring to __dma_alloc_remap()->arm_vmregion_alloc() to allocate the kernel virtual address for the drivers use. That makes sense now.
Well, this is particular implementation which is used on ARM. Other architectures might implement it differently, that's why I used generic description and didn't point to any particular function.
I have a query in similar lines, but related to user virtual address space. Is it feasible to extend these DMA interfaces(and IOMMU), to map a user allocated buffer into the hardware?
This can be done with the current API, although it may not look so straightforward. You just need to create a scatter list of user pages (these can be gathered with get_user_pages function) and use dma_map_sg() function. If the dma-mapping support iommu, it can map all these pages into a single contiguous buffer on device (DMA) address space.
Some additional 'magic' might be required to get access to pages that are mapped with pure PFN (VM_PFNMAP flag), but imho it still can be done.
I will try to implement this feature in videobuf2-dma-config allocator together with the next version of my patches for dma-mapping&iommu.
Best regards