cf0386509e
32-bit x86 systems do not have a reserved memory for hole64. On those 32-bit systems without PSE36 or PAE CPU features, hotplugging memory devices are not supported by QEMU as QEMU always places hotplugged memory above 4 GiB boundary which is beyond the physical address space of the processor. Linux guests also does not support memory hotplug on those systems. Please see Linux kernel commit b59d02ed08690 ("mm/memory_hotplug: disable the functionality for 32b") for more details. Therefore, the maximum limit of the guest physical address in the absence of additional memory devices effectively coincides with the end of "above 4G memory space" region for 32-bit x86 without PAE/PSE36. When users configure additional memory devices, after properly accounting for the additional device memory region to find the maximum value of the guest physical address, the address will be outside the range of the processor's physical address space. This change adds improvements to take above into consideration. For example, previously this was allowed: $ ./qemu-system-x86_64 -cpu pentium -m size=10G With this change now it is no longer allowed: $ ./qemu-system-x86_64 -cpu pentium -m size=10G qemu-system-x86_64: Address space limit 0xffffffff < 0x2bfffffff phys-bits too low (32) However, the following are allowed since on both cases physical address space of the processor is 36 bits: $ ./qemu-system-x86_64 -cpu pentium2 -m size=10G $ ./qemu-system-x86_64 -cpu pentium,pse36=on -m size=10G For 32-bit, without PAE/PSE36, hotplugging additional memory is no longer allowed. $ ./qemu-system-i386 -m size=1G,maxmem=3G,slots=2 qemu-system-i386: Address space limit 0xffffffff < 0x1ffffffff phys-bits too low (32) $ ./qemu-system-i386 -machine q35 -m size=1G,maxmem=3G,slots=2 qemu-system-i386: Address space limit 0xffffffff < 0x1ffffffff phys-bits too low (32) A new compatibility flag is introduced to make sure pc_max_used_gpa() keeps returning the old value for machines 8.1 and older. Therefore, the above is still allowed for older machine types in order to support compatibility. Hence, the following still works: $ ./qemu-system-i386 -machine pc-i440fx-8.1 -m size=1G,maxmem=3G,slots=2 $ ./qemu-system-i386 -machine pc-q35-8.1 -m size=1G,maxmem=3G,slots=2 Further, following is also allowed as with PSE36, the processor has 36-bit address space: $ ./qemu-system-i386 -cpu 486,pse36=on -m size=1G,maxmem=3G,slots=2 After calling CPUID with EAX=0x80000001, all AMD64 compliant processors have the longmode-capable-bit turned on in the extended feature flags (bit 29) in EDX. The absence of CPUID longmode can be used to differentiate between 32-bit and 64-bit processors and is the recommended approach. QEMU takes this approach elsewhere (for example, please see x86_cpu_realizefn()), With this change, pc_max_used_gpa() also uses the same method to detect 32-bit processors. Unit tests are modified to not run 32-bit x86 tests that use memory hotplug. Suggested-by: David Hildenbrand <david@redhat.com> Signed-off-by: Ani Sinha <anisinha@redhat.com> Reviewed-by: David Hildenbrand <david@redhat.com> Message-Id: <20230922160413.165702-1-anisinha@redhat.com> Reviewed-by: Michael S. Tsirkin <mst@redhat.com> Signed-off-by: Michael S. Tsirkin <mst@redhat.com> |
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apic_internal.h | ||
apic-msidef.h | ||
apic.h | ||
hostmem-epc.h | ||
intel_iommu.h | ||
microvm.h | ||
pc.h | ||
sgx-epc.h | ||
topology.h | ||
vmport.h | ||
x86-iommu.h | ||
x86.h | ||
xen_arch_hvm.h |