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Re: [PATCH v4 13/14] dt-bindings: of: Add restricted DMA pool



Hi Claire,

On Tue, Feb 09, 2021 at 02:21:30PM +0800, Claire Chang wrote:
> Introduce the new compatible string, restricted-dma-pool, for restricted
> DMA. One can specify the address and length of the restricted DMA memory
> region by restricted-dma-pool in the reserved-memory node.
> 
> Signed-off-by: Claire Chang <tientzu@xxxxxxxxxxxx>
> ---
>  .../reserved-memory/reserved-memory.txt       | 24 +++++++++++++++++++
>  1 file changed, 24 insertions(+)
> 
> diff --git 
> a/Documentation/devicetree/bindings/reserved-memory/reserved-memory.txt 
> b/Documentation/devicetree/bindings/reserved-memory/reserved-memory.txt
> index e8d3096d922c..fc9a12c2f679 100644
> --- a/Documentation/devicetree/bindings/reserved-memory/reserved-memory.txt
> +++ b/Documentation/devicetree/bindings/reserved-memory/reserved-memory.txt
> @@ -51,6 +51,20 @@ compatible (optional) - standard definition
>            used as a shared pool of DMA buffers for a set of devices. It can
>            be used by an operating system to instantiate the necessary pool
>            management subsystem if necessary.
> +        - restricted-dma-pool: This indicates a region of memory meant to be
> +          used as a pool of restricted DMA buffers for a set of devices. The
> +          memory region would be the only region accessible to those devices.
> +          When using this, the no-map and reusable properties must not be 
> set,
> +          so the operating system can create a virtual mapping that will be 
> used
> +          for synchronization. The main purpose for restricted DMA is to
> +          mitigate the lack of DMA access control on systems without an 
> IOMMU,
> +          which could result in the DMA accessing the system memory at
> +          unexpected times and/or unexpected addresses, possibly leading to 
> data
> +          leakage or corruption. The feature on its own provides a basic 
> level
> +          of protection against the DMA overwriting buffer contents at
> +          unexpected times. However, to protect against general data leakage 
> and
> +          system memory corruption, the system needs to provide way to lock 
> down
> +          the memory access, e.g., MPU.

As far as I can tell, these pools work with both static allocations (which
seem to match your use-case where firmware has preconfigured the DMA ranges)
but also with dynamic allocations where a 'size' property is present instead
of the 'reg' property and the kernel is responsible for allocating the
reservation during boot. Am I right and, if so, is that deliberate?

I ask because I think that would potentially be useful to us for the
Protected KVM work, where we need to bounce virtio memory accesses via
guest-determined windows because the guest memory is generally inaccessible
to the host. We've been hacking this using a combination of "swiotlb=force"
and set_memory_{decrypted,encrypted}() but it would be much better to
leverage the stuff you have here.

Also:

> +
> +             restricted_dma_mem_reserved: restricted_dma_mem_reserved {
> +                     compatible = "restricted-dma-pool";
> +                     reg = <0x50000000 0x400000>;
> +             };
>       };
>  
>       /* ... */
> @@ -138,4 +157,9 @@ one for multimedia processing (named 
> multimedia-memory@77000000, 64MiB).
>               memory-region = <&multimedia_reserved>;
>               /* ... */
>       };
> +
> +     pcie_device: pcie_device@0,0 {
> +             memory-region = <&restricted_dma_mem_reserved>;
> +             /* ... */
> +     };

I find this example a bit weird, as I didn't think we usually had DT nodes
for PCI devices; rather they are discovered as a result of probing config
space. Is the idea that you have one reserved memory region attached to the
RC and all the PCI devices below that share the region, or is there a need
for a mapping mechanism?

Will



 


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