@@ -2,7 +2,10 @@ Arm CPU Features
================
CPU features are optional features that a CPU of supporting type may
-choose to implement or not. In QEMU, optional CPU features have
+choose to implement or not. QEMU provides two different mechanisms
+to configure those features:
+
+1. For most CPU models, optional CPU features may have
corresponding boolean CPU proprieties that, when enabled, indicate
that the feature is implemented, and, conversely, when disabled,
indicate that it is not implemented. An example of an Arm CPU feature
@@ -29,6 +32,16 @@ supports the feature. While ``aarch64`` currently only works with KVM,
it could work with TCG. CPU features that are specific to KVM are
prefixed with "kvm-" and are described in "KVM VCPU Features".
+2. Additionally, the ``host`` CPU model on KVM allows to configure optional
+CPU features via the corresponding ID registers. The host kernel allows
+to write a subset of ID register fields. The host model exposes
+properties for each write ID register fields. Those options are named
+SYSREG_<IDREG>_<FIELD>. IDREG and FIELD names are those used in the
+ARM ARM Reference Manual. They can also be found in the linux
+arch/arm64/tool/sysreg file which is used to automatically generate the
+description for those registers and fields. This currently only has been
+implemented for KVM.
+
CPU Feature Probing
===================
@@ -106,6 +119,10 @@ As expected they are now all ``false``.
Only the ``pmu`` CPU feature is available.
+Probing for the ``custom`` CPU model is working differently. CPU model
+expansion will return the list of available SYSREG properties (matching
+writable ID register fields)
+
A note about CPU feature dependencies
-------------------------------------
@@ -124,13 +141,20 @@ A note about CPU models and KVM
Named CPU models generally do not work with KVM. There are a few cases
that do work, e.g. using the named CPU model ``cortex-a57`` with KVM on a
-seattle host, but mostly if KVM is enabled the ``host`` CPU type must be
-used. This means the guest is provided all the same CPU features as the
-host CPU type has. And, for this reason, the ``host`` CPU type should
-enable all CPU features that the host has by default. Indeed it's even
-a bit strange to allow disabling CPU features that the host has when using
-the ``host`` CPU type, but in the absence of CPU models it's the best we can
-do if we want to launch guests without all the host's CPU features enabled.
+seattle host, but mostly if KVM is enabled, the ``host`` CPU model must be
+used.
+
+Using the ``host`` type means the guest is provided all the same CPU
+features as the host CPU type has. And, for this reason, the ``host``
+CPU type should enable all CPU features that the host has by default.
+
+In case some features need to be hidden to the guest, and the host kernel
+supports it, the ``host`` model can be instructed to disable individual
+ID register values. This is especially useful for migration purposes.
+However, this interface will not allow configuring an arbitrary set of
+features; the ID registers must describe a subset of the host's features,
+and all differences to the host's configuration must actually be supported
+by the kernel to be deconfigured.
Enabling KVM also affects the ``query-cpu-model-expansion`` QMP command. The
affect is not only limited to specific features, as pointed out in example
@@ -167,6 +191,13 @@ disabling many SVE vector lengths would be quite verbose, the ``sve<N>`` CPU
properties have special semantics (see "SVE CPU Property Parsing
Semantics").
+Additionally, if supported by KVM on the host kernel, the ``host`` CPU model
+may be configured via individual ID register field properties, for example::
+
+ $ qemu-system-aarch64 -M virt -cpu host,SYSREG_ID_AA64ISAR0_EL1_DP=0x0
+
+This forces ID_AA64ISAR0_EL1 DP field to 0.
+
KVM VCPU Features
=================