On Thu, 11 Dec 2025 11:31:33 +0100 Oliver Steffen <[email protected]> wrote:
> When launching using an IGVM file, supply a copy of the MADT (part of the ACPI > tables) via an IGVM parameter (IGVM_VHY_MADT) to the guest, in addition to the > regular fw_cfg mechanism. > > The IGVM parameter can be consumed by Coconut SVSM [1], instead of relying on > the fw_cfg interface, which has caused problems before due to unexpected > access > [2,3]. Using IGVM parameters is the default way for Coconut SVSM; switching > over would allow removing specialized code paths for QEMU in Coconut. > > In any case OVMF, which runs after SVSM has already been initialized, will > continue reading all ACPI tables via fw_cfg and provide fixed up ACPI data to > the OS as before. > > This series makes ACPI table building more generic by making the BIOS linker > optional. This allows the MADT to be generated outside of the ACPI build > context. A new function (acpi_build_madt_standalone()) is added for that. With > that, the IGVM MADT parameter field can be filled with the MADT data during > processing of the IGVM file. > > Generating the MADT twice (IGVM processing and ACPI table building) seems > acceptable, since there is no infrastructure to obtain the MADT out of the > ACPI > table memory area during IGVM processing. looking at #2 and #3, it seems that root cause is still unknown, one should be able read tables multiple times from fw_cg. (so there is a but in QEMU or guest doesn't load ACPI tables correctly). Also seeing that regenerating tables every time helps, it hints that PCI subsystem is not configured when tables read 1st time. Why that causes guest kernel errors is still unclear. Main conditions to get acpi blob representing is that they should be read after guest firmware enumerated/configured PCI subsystem and firmware should use BIOSlinker workflow to load/postprocess tables otherwise all bets are off (even if this series works for now, it's subject to break without notice since user doesn't follow proper procedures for reading/processing ACPI blob). Hence I dislike this approach. Alternatively, instead of ACPI tables one can use FW_CFG_MAX_CPUS like old SeaBIOS used to do if all you need is APIC IDs. Limitation of this approach is that one can't use sparse APIC ID configs. Benefit is that no QEMU change is required whatsoever. If you still wish to proceed with standalone MADT approach, please add to justification exact root cause of what corrupts ACPI tables blob later on. With that, It would be easier to decide if standalone MADT is an acceptable hack. > [1] https://github.com/coconut-svsm/svsm/pull/858 > [2] https://gitlab.com/qemu-project/qemu/-/issues/2882 > [3] https://github.com/coconut-svsm/svsm/issues/646 > > v2: > - Provide more context in the message of the main commit > - Document the madt parameter of IgvmCfgClass::process() > - Document why no MADT data is provided the the process call in sev.c > > Based-On: <[email protected]> > Signed-off-by: Oliver Steffen <[email protected]> > > Oliver Steffen (3): > hw/acpi: Make BIOS linker optional > hw/acpi: Add standalone function to build MADT > igvm: Fill MADT IGVM parameter field > > backends/igvm-cfg.c | 8 +++++++- > backends/igvm.c | 37 ++++++++++++++++++++++++++++++++++++- > hw/acpi/aml-build.c | 7 +++++-- > hw/i386/acpi-build.c | 8 ++++++++ > hw/i386/acpi-build.h | 2 ++ > include/system/igvm-cfg.h | 5 ++++- > include/system/igvm.h | 2 +- > target/i386/sev.c | 5 +++-- > 8 files changed, 66 insertions(+), 8 deletions(-) >
