On Sun, May 15, 2022 at 12:35:44PM +0200, Janne Grunau wrote: > Hej, > > I'm working on the display controller for Apple silicon SoCs and will > add some comments with support for it in mind. > > added as...@lists.linux.dev to CC for the Apple silicon related aspects > > On 2022-05-12 21:00:47 +0200, Thierry Reding wrote: > > > > this is another attempt at solving the problem of passing IOMMU > > configuration via device tree. It has significantly evolved since the > > last attempt, based on the discussion that followed. The discussion can > > be found here: > > > > > > https://lore.kernel.org/all/20210423163234.3651547-1-thierry.red...@gmail.com/ > > > > Rather than using a memory-region specifier, this new version introduces > > a new "iommu-addresses" property for the reserved-memory regions > > themselves. > > If experimented with both proposed bindings for dcp and I think this > binding is easer to understand and to work with. > > > These are used to describe either a static mapping or > > reservation that should be created for a given device. If both "reg" and > > "iommu-addresses" properties are given, a mapping will be created > > (typically this would be an identity mapping) > > dcp on Apple silicon will not use identity mappings. The IOMMU supports > identity mapping but the pre-configured mappings setup by Apple's system > firmware will not work with identity mapping. It maps multiple regions > which are incompatible with a linear identity mapping. In addition the > embbeded aarch64 micro controllers used in the display subsystem appears > to use a heap mapped at low IOVA space starting at 0. > > > whereas if only an "iommu-addresses" property is specified, a > > reservation for the specified range will be installed. > > > > An example is included in the DT bindings, but here is an extract of > > what I've used to test this: > > > > reserved-memory { > > #address-cells = <2>; > > #size-cells = <2>; > > ranges; > > > > /* > > * Creates an identity mapping for the framebuffer that > > * the firmware has setup to scan out a bootsplash from. > > */ > > fb: framebuffer@92cb2000 { > > reg = <0x0 0x92cb2000 0x0 0x00800000>; > > iommu-addresses = <&dc0 0x0 0x92cb2000 0x0 0x00800000>; > > }; > > The binding supports mapping the same region to multiple devices. The > code supports that and it will be used on Apple silicon. Not necessary > to extend and complicate the example for I wanted to mention it > explicitly. > > > > > /* > > * Creates a reservation in the IOVA space to prevent > > * any buffers from being mapped to that region. Note > > * that on Tegra the range is actually quite different > > * from this, but it would conflict with the display > > * driver that I tested this against, so this is just > > * a dummy region for testing. > > */ > > adsp: reservation-adsp { > > iommu-addresses = <&dc0 0x0 0x90000000 0x0 0x00010000>; > > }; > > }; > > > > host1x@50000000 { > > dc@54200000 { > > memory-region = <&fb>, <&adsp>; > > }; > > }; > > > > This is abbreviated a little to focus on the essentials. Note also that > > the ADSP reservation is not actually used on this device and the driver > > for this doesn't exist yet, but I wanted to include this variant for > > testing, because we'll want to use these bindings for the reservation > > use-case as well at some point. > > > > Adding Alyssa and Janne who have in the past tried to make these > > bindings work on Apple M1. Also adding Sameer from the Tegra audio team > > to look at the ADSP reservation and double-check that this is suitable > > for our needs. > > The binding itself is sufficient for the needs of the display subsystem > on Apple silicon. The device tree parsing code for reserved regions is > of limited use in it's current form. We will have either to extend or > duplicate it to retrieve the non-identity mappings. That's our problem > to solve.
I had looked at it a bit to see if I could easily implement that, but the direct mapping support in the IOMMU subsystem currently only supports either reservations or identity mappings, so arbitrary mappings would either have to be added to that code, or it would have to take a different code path that basically goes through the same steps, except that it uses different physical and I/O virtual addresses. The easiest, I think, would be for struct iommu_resv_region to be extended with a pair of start/length fields for the I/O virtual address and then the rest of the code should mostly work. This shouldn't even be very invasive, maybe just adding a version of iommu_alloc_resv_region() that takes the I/O virtual addresses as additional parameters. Come to think of it, the current code could probably be improved a bit by checking if the addresses in the reg and iommu-addresses properties match. Currently the code just ignores the reserved memory region's "reg" property, so one could technically set up a mapping that points to physical memory that the device doesn't "own". Thierry
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