Re: IOVA allocation dependency between firmware buffer and remaining buffers

[Date Prev][Date Next][Thread Prev][Thread Next][Date Index][Thread Index]

 



On 2020-04-24 4:04 pm, Ajay kumar wrote:
Can someone check this?

On Mon, Apr 20, 2020 at 9:24 PM Ajay kumar <ajaynumb@xxxxxxxxx> wrote:

Hi All,

I have an IOMMU master which has limitations as mentioned below:
1) The IOMMU master internally executes a firmware, and the firmware memory
is allocated by the same master driver.
The firmware buffer address should be of the lowest range than other address
allocated by the device, or in other words, all the remaining buffer addresses
should always be in a higher range than the firmware address.
2) None of the buffer addresses should go beyond 0xC000_0000

That particular constraint could (and perhaps should) be expressed as a DMA mask/limit for the device, but if you have specific requirements to place buffers at particular addresses then you might be better off managing your own IOMMU domain like some other (mostly DRM) drivers do. The DMA APIs don't offer any guarantees about what addresses you'll get other than that they won't exceed the appropriate mask.

example:
If firmware buffer address is buf_fw = 0x8000_5000;
All other addresses given to the device should be greater than
(0x8000_5000 + firmware size) and less than 0xC000_0000

Out of curiosity, how do you control that in the no-IOMMU or IOMMU passthrough cases?

Robin.

Currently, this is being handled with one of the below hacks:
1) By keeping dma_mask in lower range while allocating firmware buffer,
and then increasing the dma_mask to higher range for other buffers.
2) By reserving IOVA for firmware at the lowest range and creating direct mappings for the same.

I want to know if there is a better way this can be handled with current framework,
or if anybody is facing similar problems with their devices,
please share how it is taken care.

I also think there should be some way the masters can specify the IOVA
range they want to limit to for current allocation.
Something like a new iommu_ops callback like below:
limit_iova_alloc_range(dev, iova_start, iova_end)

And, in my driver, the sequence will be:
limit_iova_alloc_range(dev, 0x0000_0000, 0x1000_0000); /* via helpers */
alloc( ) firmware buffer using DMA API
limit_iova_alloc_range(dev, 0x1000_0000, 0xC000_0000); /* via helpers */
alloc( ) other buffers using DMA API

Thanks,
Ajay Kumar




[Index of Archives]     [Linux ARM Kernel]     [Linux ARM]     [Linux Omap]     [Fedora ARM]     [IETF Annouce]     [Bugtraq]     [Linux OMAP]     [Linux MIPS]     [eCos]     [Asterisk Internet PBX]     [Linux API]

  Powered by Linux