On Thu, Oct 30, 2014 at 05:52:44PM +0000, Peter Maydell wrote:
On 30 October 2014 17:43, Alexander Spyridakis a.spyridakis@virtualopensystems.com wrote:
Currently, the virt machine model generates Device Tree information dynamically based on the existing devices in the system. This patch series extends the same concept but for ACPI information instead. A total of seven tables have been implemented in this patch series, which is the minimum for a basic ARM support.
The set of generated tables are:
- RSDP
- XSDT
- MADT
- GTDT
- FADT
- FACS
- DSDT
The tables are created in standalone buffers, taking into account the needed information passed from the virt machine model. When the generation is finalized, the individual buffers are compacted to a single ACPI binary blob, where it is injected on the guest memory space in a fixed location. The guest kernel can find the ACPI tables by providing to it the physical address of the ACPI blob (e.g. acpi_rsdp=0x47000000 boot argument).
(Sorry, I should have waited for the cover letter to arrive before replying.)
I think this is definitely the wrong approach. We already have to generate device tree information for the hardware we have, and having an equivalent parallel infrastructure for generating ACPI as well seems like it would be a tremendous mess. We should support guests that require ACPI by having QEMU boot a UEFI bios blob and have that UEFI code generate ACPI tables based on the DTB we hand it. (Chances seem good that any guest that wants ACPI is going to want UEFI runtime services anyway.)
Depending on why people want ACPI in a guest environment, generating ACPI tables from a DTB might not be possible (e.g. if they want to use AML for some reason).
So the important question is _why_ the guest needs to see an ACPI environment. What exactly can ACPI provide to the guest that DT does not already provide, and why is that necessary? What infrastrucutre is needed for that use case?
Translating DT tables into the equivalent ACPI tables seems like a waste of effort unless it enables something we can't do at the moment.
Thanks, Mark.