| 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 |
| 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 |
| is the Performance Monitoring Unit (PMU). CPU types such as the |
| Cortex-A15 and the Cortex-A57, which respectively implement Arm |
| architecture reference manuals ARMv7-A and ARMv8-A, may both optionally |
| implement PMUs. For example, if a user wants to use a Cortex-A15 without |
| a PMU, then the ``-cpu`` parameter should contain ``pmu=off`` on the QEMU |
| command line, i.e. ``-cpu cortex-a15,pmu=off``. |
| |
| As not all CPU types support all optional CPU features, then whether or |
| not a CPU property exists depends on the CPU type. For example, CPUs |
| that implement the ARMv8-A architecture reference manual may optionally |
| support the AArch32 CPU feature, which may be enabled by disabling the |
| ``aarch64`` CPU property. A CPU type such as the Cortex-A15, which does |
| not implement ARMv8-A, will not have the ``aarch64`` CPU property. |
| |
| QEMU's support may be limited for some CPU features, only partially |
| supporting the feature or only supporting the feature under certain |
| configurations. For example, the ``aarch64`` CPU feature, which, when |
| disabled, enables the optional AArch32 CPU feature, is only supported |
| when using the KVM accelerator and when running on a host CPU type that |
| 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". |
| |
| CPU Feature Probing |
| =================== |
| |
| Determining which CPU features are available and functional for a given |
| CPU type is possible with the ``query-cpu-model-expansion`` QMP command. |
| Below are some examples where ``scripts/qmp/qmp-shell`` (see the top comment |
| block in the script for usage) is used to issue the QMP commands. |
| |
| 1. Determine which CPU features are available for the ``max`` CPU type |
| (Note, we started QEMU with qemu-system-aarch64, so ``max`` is |
| implementing the ARMv8-A reference manual in this case):: |
| |
| (QEMU) query-cpu-model-expansion type=full model={"name":"max"} |
| { "return": { |
| "model": { "name": "max", "props": { |
| "sve1664": true, "pmu": true, "sve1792": true, "sve1920": true, |
| "sve128": true, "aarch64": true, "sve1024": true, "sve": true, |
| "sve640": true, "sve768": true, "sve1408": true, "sve256": true, |
| "sve1152": true, "sve512": true, "sve384": true, "sve1536": true, |
| "sve896": true, "sve1280": true, "sve2048": true |
| }}}} |
| |
| We see that the ``max`` CPU type has the ``pmu``, ``aarch64``, ``sve``, and many |
| ``sve<N>`` CPU features. We also see that all the CPU features are |
| enabled, as they are all ``true``. (The ``sve<N>`` CPU features are all |
| optional SVE vector lengths (see "SVE CPU Properties"). While with TCG |
| all SVE vector lengths can be supported, when KVM is in use it's more |
| likely that only a few lengths will be supported, if SVE is supported at |
| all.) |
| |
| (2) Let's try to disable the PMU:: |
| |
| (QEMU) query-cpu-model-expansion type=full model={"name":"max","props":{"pmu":false}} |
| { "return": { |
| "model": { "name": "max", "props": { |
| "sve1664": true, "pmu": false, "sve1792": true, "sve1920": true, |
| "sve128": true, "aarch64": true, "sve1024": true, "sve": true, |
| "sve640": true, "sve768": true, "sve1408": true, "sve256": true, |
| "sve1152": true, "sve512": true, "sve384": true, "sve1536": true, |
| "sve896": true, "sve1280": true, "sve2048": true |
| }}}} |
| |
| We see it worked, as ``pmu`` is now ``false``. |
| |
| (3) Let's try to disable ``aarch64``, which enables the AArch32 CPU feature:: |
| |
| (QEMU) query-cpu-model-expansion type=full model={"name":"max","props":{"aarch64":false}} |
| {"error": { |
| "class": "GenericError", "desc": |
| "'aarch64' feature cannot be disabled unless KVM is enabled and 32-bit EL1 is supported" |
| }} |
| |
| It looks like this feature is limited to a configuration we do not |
| currently have. |
| |
| (4) Let's disable ``sve`` and see what happens to all the optional SVE |
| vector lengths:: |
| |
| (QEMU) query-cpu-model-expansion type=full model={"name":"max","props":{"sve":false}} |
| { "return": { |
| "model": { "name": "max", "props": { |
| "sve1664": false, "pmu": true, "sve1792": false, "sve1920": false, |
| "sve128": false, "aarch64": true, "sve1024": false, "sve": false, |
| "sve640": false, "sve768": false, "sve1408": false, "sve256": false, |
| "sve1152": false, "sve512": false, "sve384": false, "sve1536": false, |
| "sve896": false, "sve1280": false, "sve2048": false |
| }}}} |
| |
| As expected they are now all ``false``. |
| |
| (5) Let's try probing CPU features for the Cortex-A15 CPU type:: |
| |
| (QEMU) query-cpu-model-expansion type=full model={"name":"cortex-a15"} |
| {"return": {"model": {"name": "cortex-a15", "props": {"pmu": true}}}} |
| |
| Only the ``pmu`` CPU feature is available. |
| |
| A note about CPU feature dependencies |
| ------------------------------------- |
| |
| It's possible for features to have dependencies on other features. I.e. |
| it may be possible to change one feature at a time without error, but |
| when attempting to change all features at once an error could occur |
| depending on the order they are processed. It's also possible changing |
| all at once doesn't generate an error, because a feature's dependencies |
| are satisfied with other features, but the same feature cannot be changed |
| independently without error. For these reasons callers should always |
| attempt to make their desired changes all at once in order to ensure the |
| collection is valid. |
| |
| 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. |
| |
| 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 |
| (3) of "CPU Feature Probing", but also to which CPU types may be expanded. |
| When KVM is enabled, only the ``max``, ``host``, and current CPU type may be |
| expanded. This restriction is necessary as it's not possible to know all |
| CPU types that may work with KVM, but it does impose a small risk of users |
| experiencing unexpected errors. For example on a seattle, as mentioned |
| above, the ``cortex-a57`` CPU type is also valid when KVM is enabled. |
| Therefore a user could use the ``host`` CPU type for the current type, but |
| then attempt to query ``cortex-a57``, however that query will fail with our |
| restrictions. This shouldn't be an issue though as management layers and |
| users have been preferring the ``host`` CPU type for use with KVM for quite |
| some time. Additionally, if the KVM-enabled QEMU instance running on a |
| seattle host is using the ``cortex-a57`` CPU type, then querying ``cortex-a57`` |
| will work. |
| |
| Using CPU Features |
| ================== |
| |
| After determining which CPU features are available and supported for a |
| given CPU type, then they may be selectively enabled or disabled on the |
| QEMU command line with that CPU type:: |
| |
| $ qemu-system-aarch64 -M virt -cpu max,pmu=off,sve=on,sve128=on,sve256=on |
| |
| The example above disables the PMU and enables the first two SVE vector |
| lengths for the ``max`` CPU type. Note, the ``sve=on`` isn't actually |
| necessary, because, as we observed above with our probe of the ``max`` CPU |
| type, ``sve`` is already on by default. Also, based on our probe of |
| defaults, it would seem we need to disable many SVE vector lengths, rather |
| than only enabling the two we want. This isn't the case, because, as |
| disabling many SVE vector lengths would be quite verbose, the ``sve<N>`` CPU |
| properties have special semantics (see "SVE CPU Property Parsing |
| Semantics"). |
| |
| KVM VCPU Features |
| ================= |
| |
| KVM VCPU features are CPU features that are specific to KVM, such as |
| paravirt features or features that enable CPU virtualization extensions. |
| The features' CPU properties are only available when KVM is enabled and |
| are named with the prefix "kvm-". KVM VCPU features may be probed, |
| enabled, and disabled in the same way as other CPU features. Below is |
| the list of KVM VCPU features and their descriptions. |
| |
| kvm-no-adjvtime By default kvm-no-adjvtime is disabled. This |
| means that by default the virtual time |
| adjustment is enabled (vtime is not *not* |
| adjusted). |
| |
| When virtual time adjustment is enabled each |
| time the VM transitions back to running state |
| the VCPU's virtual counter is updated to ensure |
| stopped time is not counted. This avoids time |
| jumps surprising guest OSes and applications, |
| as long as they use the virtual counter for |
| timekeeping. However it has the side effect of |
| the virtual and physical counters diverging. |
| All timekeeping based on the virtual counter |
| will appear to lag behind any timekeeping that |
| does not subtract VM stopped time. The guest |
| may resynchronize its virtual counter with |
| other time sources as needed. |
| |
| Enable kvm-no-adjvtime to disable virtual time |
| adjustment, also restoring the legacy (pre-5.0) |
| behavior. |
| |
| kvm-steal-time Since v5.2, kvm-steal-time is enabled by |
| default when KVM is enabled, the feature is |
| supported, and the guest is 64-bit. |
| |
| When kvm-steal-time is enabled a 64-bit guest |
| can account for time its CPUs were not running |
| due to the host not scheduling the corresponding |
| VCPU threads. The accounting statistics may |
| influence the guest scheduler behavior and/or be |
| exposed to the guest userspace. |
| |
| TCG VCPU Features |
| ================= |
| |
| TCG VCPU features are CPU features that are specific to TCG. |
| Below is the list of TCG VCPU features and their descriptions. |
| |
| pauth-impdef When ``FEAT_Pauth`` is enabled, either the |
| *impdef* (Implementation Defined) algorithm |
| is enabled or the *architected* QARMA algorithm |
| is enabled. By default the impdef algorithm |
| is disabled, and QARMA is enabled. |
| |
| The architected QARMA algorithm has good |
| cryptographic properties, but can be quite slow |
| to emulate. The impdef algorithm used by QEMU |
| is non-cryptographic but significantly faster. |
| |
| SVE CPU Properties |
| ================== |
| |
| There are two types of SVE CPU properties: ``sve`` and ``sve<N>``. The first |
| is used to enable or disable the entire SVE feature, just as the ``pmu`` |
| CPU property completely enables or disables the PMU. The second type |
| is used to enable or disable specific vector lengths, where ``N`` is the |
| number of bits of the length. The ``sve<N>`` CPU properties have special |
| dependencies and constraints, see "SVE CPU Property Dependencies and |
| Constraints" below. Additionally, as we want all supported vector lengths |
| to be enabled by default, then, in order to avoid overly verbose command |
| lines (command lines full of ``sve<N>=off``, for all ``N`` not wanted), we |
| provide the parsing semantics listed in "SVE CPU Property Parsing |
| Semantics". |
| |
| SVE CPU Property Dependencies and Constraints |
| --------------------------------------------- |
| |
| 1) At least one vector length must be enabled when ``sve`` is enabled. |
| |
| 2) If a vector length ``N`` is enabled, then, when KVM is enabled, all |
| smaller, host supported vector lengths must also be enabled. If |
| KVM is not enabled, then only all the smaller, power-of-two vector |
| lengths must be enabled. E.g. with KVM if the host supports all |
| vector lengths up to 512-bits (128, 256, 384, 512), then if ``sve512`` |
| is enabled, the 128-bit vector length, 256-bit vector length, and |
| 384-bit vector length must also be enabled. Without KVM, the 384-bit |
| vector length would not be required. |
| |
| 3) If KVM is enabled then only vector lengths that the host CPU type |
| support may be enabled. If SVE is not supported by the host, then |
| no ``sve*`` properties may be enabled. |
| |
| SVE CPU Property Parsing Semantics |
| ---------------------------------- |
| |
| 1) If SVE is disabled (``sve=off``), then which SVE vector lengths |
| are enabled or disabled is irrelevant to the guest, as the entire |
| SVE feature is disabled and that disables all vector lengths for |
| the guest. However QEMU will still track any ``sve<N>`` CPU |
| properties provided by the user. If later an ``sve=on`` is provided, |
| then the guest will get only the enabled lengths. If no ``sve=on`` |
| is provided and there are explicitly enabled vector lengths, then |
| an error is generated. |
| |
| 2) If SVE is enabled (``sve=on``), but no ``sve<N>`` CPU properties are |
| provided, then all supported vector lengths are enabled, which when |
| KVM is not in use means including the non-power-of-two lengths, and, |
| when KVM is in use, it means all vector lengths supported by the host |
| processor. |
| |
| 3) If SVE is enabled, then an error is generated when attempting to |
| disable the last enabled vector length (see constraint (1) of "SVE |
| CPU Property Dependencies and Constraints"). |
| |
| 4) If one or more vector lengths have been explicitly enabled and at |
| least one of the dependency lengths of the maximum enabled length |
| has been explicitly disabled, then an error is generated (see |
| constraint (2) of "SVE CPU Property Dependencies and Constraints"). |
| |
| 5) When KVM is enabled, if the host does not support SVE, then an error |
| is generated when attempting to enable any ``sve*`` properties (see |
| constraint (3) of "SVE CPU Property Dependencies and Constraints"). |
| |
| 6) When KVM is enabled, if the host does support SVE, then an error is |
| generated when attempting to enable any vector lengths not supported |
| by the host (see constraint (3) of "SVE CPU Property Dependencies and |
| Constraints"). |
| |
| 7) If one or more ``sve<N>`` CPU properties are set ``off``, but no ``sve<N>``, |
| CPU properties are set ``on``, then the specified vector lengths are |
| disabled but the default for any unspecified lengths remains enabled. |
| When KVM is not enabled, disabling a power-of-two vector length also |
| disables all vector lengths larger than the power-of-two length. |
| When KVM is enabled, then disabling any supported vector length also |
| disables all larger vector lengths (see constraint (2) of "SVE CPU |
| Property Dependencies and Constraints"). |
| |
| 8) If one or more ``sve<N>`` CPU properties are set to ``on``, then they |
| are enabled and all unspecified lengths default to disabled, except |
| for the required lengths per constraint (2) of "SVE CPU Property |
| Dependencies and Constraints", which will even be auto-enabled if |
| they were not explicitly enabled. |
| |
| 9) If SVE was disabled (``sve=off``), allowing all vector lengths to be |
| explicitly disabled (i.e. avoiding the error specified in (3) of |
| "SVE CPU Property Parsing Semantics"), then if later an ``sve=on`` is |
| provided an error will be generated. To avoid this error, one must |
| enable at least one vector length prior to enabling SVE. |
| |
| SVE CPU Property Examples |
| ------------------------- |
| |
| 1) Disable SVE:: |
| |
| $ qemu-system-aarch64 -M virt -cpu max,sve=off |
| |
| 2) Implicitly enable all vector lengths for the ``max`` CPU type:: |
| |
| $ qemu-system-aarch64 -M virt -cpu max |
| |
| 3) When KVM is enabled, implicitly enable all host CPU supported vector |
| lengths with the ``host`` CPU type:: |
| |
| $ qemu-system-aarch64 -M virt,accel=kvm -cpu host |
| |
| 4) Only enable the 128-bit vector length:: |
| |
| $ qemu-system-aarch64 -M virt -cpu max,sve128=on |
| |
| 5) Disable the 512-bit vector length and all larger vector lengths, |
| since 512 is a power-of-two. This results in all the smaller, |
| uninitialized lengths (128, 256, and 384) defaulting to enabled:: |
| |
| $ qemu-system-aarch64 -M virt -cpu max,sve512=off |
| |
| 6) Enable the 128-bit, 256-bit, and 512-bit vector lengths:: |
| |
| $ qemu-system-aarch64 -M virt -cpu max,sve128=on,sve256=on,sve512=on |
| |
| 7) The same as (6), but since the 128-bit and 256-bit vector |
| lengths are required for the 512-bit vector length to be enabled, |
| then allow them to be auto-enabled:: |
| |
| $ qemu-system-aarch64 -M virt -cpu max,sve512=on |
| |
| 8) Do the same as (7), but by first disabling SVE and then re-enabling it:: |
| |
| $ qemu-system-aarch64 -M virt -cpu max,sve=off,sve512=on,sve=on |
| |
| 9) Force errors regarding the last vector length:: |
| |
| $ qemu-system-aarch64 -M virt -cpu max,sve128=off |
| $ qemu-system-aarch64 -M virt -cpu max,sve=off,sve128=off,sve=on |
| |
| SVE CPU Property Recommendations |
| -------------------------------- |
| |
| The examples in "SVE CPU Property Examples" exhibit many ways to select |
| vector lengths which developers may find useful in order to avoid overly |
| verbose command lines. However, the recommended way to select vector |
| lengths is to explicitly enable each desired length. Therefore only |
| example's (1), (4), and (6) exhibit recommended uses of the properties. |
| |
| SME CPU Property Examples |
| ------------------------- |
| |
| 1) Disable SME:: |
| |
| $ qemu-system-aarch64 -M virt -cpu max,sme=off |
| |
| 2) Implicitly enable all vector lengths for the ``max`` CPU type:: |
| |
| $ qemu-system-aarch64 -M virt -cpu max |
| |
| 3) Only enable the 256-bit vector length:: |
| |
| $ qemu-system-aarch64 -M virt -cpu max,sme256=on |
| |
| 3) Enable the 256-bit and 1024-bit vector lengths:: |
| |
| $ qemu-system-aarch64 -M virt -cpu max,sme256=on,sme1024=on |
| |
| 4) Disable the 512-bit vector length. This results in all the other |
| lengths supported by ``max`` defaulting to enabled |
| (128, 256, 1024 and 2048):: |
| |
| $ qemu-system-aarch64 -M virt -cpu max,sve512=off |
| |
| SVE User-mode Default Vector Length Property |
| -------------------------------------------- |
| |
| For qemu-aarch64, the cpu property ``sve-default-vector-length=N`` is |
| defined to mirror the Linux kernel parameter file |
| ``/proc/sys/abi/sve_default_vector_length``. The default length, ``N``, |
| is in units of bytes and must be between 16 and 8192. |
| If not specified, the default vector length is 64. |
| |
| If the default length is larger than the maximum vector length enabled, |
| the actual vector length will be reduced. Note that the maximum vector |
| length supported by QEMU is 256. |
| |
| If this property is set to ``-1`` then the default vector length |
| is set to the maximum possible length. |
| |
| SME CPU Properties |
| ================== |
| |
| The SME CPU properties are much like the SVE properties: ``sme`` is |
| used to enable or disable the entire SME feature, and ``sme<N>`` is |
| used to enable or disable specific vector lengths. Finally, |
| ``sme_fa64`` is used to enable or disable ``FEAT_SME_FA64``, which |
| allows execution of the "full a64" instruction set while Streaming |
| SVE mode is enabled. |
| |
| SME is not supported by KVM at this time. |
| |
| At least one vector length must be enabled when ``sme`` is enabled, |
| and all vector lengths must be powers of 2. The maximum vector |
| length supported by qemu is 2048 bits. Otherwise, there are no |
| additional constraints on the set of vector lengths supported by SME. |
| |
| SME User-mode Default Vector Length Property |
| -------------------------------------------- |
| |
| For qemu-aarch64, the cpu property ``sme-default-vector-length=N`` is |
| defined to mirror the Linux kernel parameter file |
| ``/proc/sys/abi/sme_default_vector_length``. The default length, ``N``, |
| is in units of bytes and must be between 16 and 8192. |
| If not specified, the default vector length is 32. |
| |
| As with ``sve-default-vector-length``, if the default length is larger |
| than the maximum vector length enabled, the actual vector length will |
| be reduced. If this property is set to ``-1`` then the default vector |
| length is set to the maximum possible length. |