.. SPDX-License-Identifier: GPL-2.0
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ARM Virtual Generic Interrupt Controller v3 and later (VGICv3)
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Device types supported:
- KVM_DEV_TYPE_ARM_VGIC_V3 ARM Generic Interrupt Controller v3.0
Only one VGIC instance may be instantiated through this API. The created VGIC
will act as the VM interrupt controller, requiring emulated user-space devices
to inject interrupts to the VGIC instead of directly to CPUs. It is not
possible to create both a GICv3 and GICv2 on the same VM.
Creating a guest GICv3 device requires a host GICv3 as well.
Groups:
KVM_DEV_ARM_VGIC_GRP_ADDR
Attributes:
KVM_VGIC_V3_ADDR_TYPE_DIST (rw, 64-bit)
Base address in the guest physical address space of the GICv3 distributor
register mappings. Only valid for KVM_DEV_TYPE_ARM_VGIC_V3.
This address needs to be 64K aligned and the region covers 64 KByte.
KVM_VGIC_V3_ADDR_TYPE_REDIST (rw, 64-bit)
Base address in the guest physical address space of the GICv3
redistributor register mappings. There are two 64K pages for each
VCPU and all of the redistributor pages are contiguous.
Only valid for KVM_DEV_TYPE_ARM_VGIC_V3.
This address needs to be 64K aligned.
KVM_VGIC_V3_ADDR_TYPE_REDIST_REGION (rw, 64-bit)
The attribute data pointed to by kvm_device_attr.addr is a __u64 value::
bits: | 63 .... 52 | 51 .... 16 | 15 - 12 |11 - 0
values: | count | base | flags | index
- index encodes the unique redistributor region index
- flags: reserved for future use, currently 0
- base field encodes bits [51:16] of the guest physical base address
of the first redistributor in the region.
- count encodes the number of redistributors in the region. Must be
greater than 0.
There are two 64K pages for each redistributor in the region and
redistributors are laid out contiguously within the region. Regions
are filled with redistributors in the index order. The sum of all
region count fields must be greater than or equal to the number of
VCPUs. Redistributor regions must be registered in the incremental
index order, starting from index 0.
The characteristics of a specific redistributor region can be read
by presetting the index field in the attr data.
Only valid for KVM_DEV_TYPE_ARM_VGIC_V3.
It is invalid to mix calls with KVM_VGIC_V3_ADDR_TYPE_REDIST and
KVM_VGIC_V3_ADDR_TYPE_REDIST_REGION attributes.
Note that to obtain reproducible results (the same VCPU being associated
with the same redistributor across a save/restore operation), VCPU creation
order, redistributor region creation order as well as the respective
interleaves of VCPU and region creation MUST be preserved. Any change in
either ordering may result in a different vcpu_id/redistributor association,
resulting in a VM that will fail to run at restore time.
Errors:
======= =============================================================
-E2BIG Address outside of addressable IPA range
-EINVAL Incorrectly aligned address, bad redistributor region
count/index, mixed redistributor region attribute usage
-EEXIST Address already configured
-ENOENT Attempt to read the characteristics of a non existing
redistributor region
-ENXIO The group or attribute is unknown/unsupported for this device
or hardware support is missing.
-EFAULT Invalid user pointer for attr->addr.
======= =============================================================
KVM_DEV_ARM_VGIC_GRP_DIST_REGS, KVM_DEV_ARM_VGIC_GRP_REDIST_REGS
Attributes:
The attr field of kvm_device_attr encodes two values::
bits: | 63 .... 32 | 31 .... 0 |
values: | mpidr | offset |
All distributor regs are (rw, 32-bit) and kvm_device_attr.addr points to a
__u32 value. 64-bit registers must be accessed by separately accessing the
lower and higher word.
Writes to read-only registers are ignored by the kernel.
KVM_DEV_ARM_VGIC_GRP_DIST_REGS accesses the main distributor registers.
KVM_DEV_ARM_VGIC_GRP_REDIST_REGS accesses the redistributor of the CPU
specified by the mpidr.
The offset is relative to the "[Re]Distributor base address" as defined
in the GICv3/4 specs. Getting or setting such a register has the same
effect as reading or writing the register on real hardware, except for the
following registers: GICD_STATUSR, GICR_STATUSR, GICD_ISPENDR,
GICR_ISPENDR0, GICD_ICPENDR, and GICR_ICPENDR0. These registers behave
differently when accessed via this interface compared to their
architecturally defined behavior to allow software a full view of the
VGIC's internal state.
The mpidr field is used to specify which
redistributor is accessed. The mpidr is ignored for the distributor.
The mpidr encoding is based on the affinity information in the
architecture defined MPIDR, and the field is encoded as follows::
| 63 .... 56 | 55 .... 48 | 47 .... 40 | 39 .... 32 |
| Aff3 | Aff2 | Aff1 | Aff0 |
Note that distributor fields are not banked, but return the same value
regardless of the mpidr used to access the register.
GICD_IIDR.Revision is updated when the KVM implementation is changed in a
way directly observable by the guest or userspace. Userspace should read
GICD_IIDR from KVM and write back the read value to confirm its expected
behavior is aligned with the KVM implementation. Userspace should set
GICD_IIDR before setting any other registers to ensure the expected
behavior.
The GICD_STATUSR and GICR_STATUSR registers are architecturally defined such
that a write of a clear bit has no effect, whereas a write with a set bit
clears that value. To allow userspace to freely set the values of these two
registers, setting the attributes with the register offsets for these two
registers simply sets the non-reserved bits to the value written.
Accesses (reads and writes) to the GICD_ISPENDR register region and
GICR_ISPENDR0 registers get/set the value of the latched pending state for
the interrupts.
This is identical to the value returned by a guest read from ISPENDR for an
edge triggered interrupt, but may differ for level triggered interrupts.
For edge triggered interrupts, once an interrupt becomes pending (whether
because of an edge detected on the input line or because of a guest write
to ISPENDR) this state is "latched", and only cleared when either the
interrupt is activated or when the guest writes to ICPENDR. A level
triggered interrupt may be pending either because the level input is held
high by a device, or because of a guest write to the ISPENDR register. Only
ISPENDR writes are latched; if the device lowers the line level then the
interrupt is no longer pending unless the guest also wrote to ISPENDR, and
conversely writes to ICPENDR or activations of the interrupt do not clear
the pending status if the line level is still being held high. (These
rules are documented in the GICv3 specification descriptions of the ICPENDR
and ISPENDR registers.) For a level triggered interrupt the value accessed
here is that of the latch which is set by ISPENDR and cleared by ICPENDR or
interrupt activation, whereas the value returned by a guest read from
ISPENDR is the logical OR of the latch value and the input line level.
Raw access to the latch state is provided to userspace so that it can save
and restore the entire GIC internal state (which is defined by the
combination of the current input line level and the latch state, and cannot
be deduced from purely the line level and the value of the ISPENDR
registers).
Accesses to GICD_ICPENDR register region and GICR_ICPENDR0 registers have
RAZ/WI semantics, meaning that reads always return 0 and writes are always
ignored.
Errors:
====== =====================================================
-ENXIO Getting or setting this register is not yet supported
-EBUSY One or more VCPUs are running
====== =====================================================
KVM_DEV_ARM_VGIC_GRP_CPU_SYSREGS
Attributes:
The attr field of kvm_device_attr encodes two values::
bits: | 63 .... 32 | 31 .... 16 | 15 .... 0 |
values: | mpidr | RES | instr |
The mpidr field encodes the CPU ID based on the affinity information in the
architecture defined MPIDR, and the field is encoded as follows::
| 63 .... 56 | 55 .... 48 | 47 .... 40 | 39 .... 32 |
| Aff3 | Aff2 | Aff1 | Aff0 |
The instr field encodes the system register to access based on the fields
defined in the A64 instruction set encoding for system register access
(RES means the bits are reserved for future use and should be zero)::
| 15 ... 14 | 13 ... 11 | 10 ... 7 | 6 ... 3 | 2 ... 0 |
| Op 0 | Op1 | CRn | CRm | Op2 |
All system regs accessed through this API are (rw, 64-bit) and
kvm_device_attr.addr points to a __u64 value.
KVM_DEV_ARM_VGIC_GRP_CPU_SYSREGS accesses the CPU interface registers for the
CPU specified by the mpidr field.
CPU interface registers access is not implemented for AArch32 mode.
Error -ENXIO is returned when accessed in AArch32 mode.
Errors:
======= =====================================================
-ENXIO Getting or setting this register is not yet supported
-EBUSY VCPU is running
-EINVAL Invalid mpidr or register value supplied
======= =====================================================
KVM_DEV_ARM_VGIC_GRP_NR_IRQS
Attributes:
A value describing the number of interrupts (SGI, PPI and SPI) for
this GIC instance, ranging from 64 to 1024, in increments of 32.
kvm_device_attr.addr points to a __u32 value.
Errors:
======= ======================================
-EINVAL Value set is out of the expected range
-EBUSY Value has already be set.
======= ======================================
KVM_DEV_ARM_VGIC_GRP_CTRL
Attributes:
KVM_DEV_ARM_VGIC_CTRL_INIT
request the initialization of the VGIC, no additional parameter in
kvm_device_attr.addr. Must be called after all VCPUs have been created.
KVM_DEV_ARM_VGIC_SAVE_PENDING_TABLES
save all LPI pending bits into guest RAM pending tables.
The first kB of the pending table is not altered by this operation.
Errors:
======= ========================================================
-ENXIO VGIC not properly configured as required prior to calling
this attribute
-ENODEV no online VCPU
-ENOMEM memory shortage when allocating vgic internal data
-EFAULT Invalid guest ram access
-EBUSY One or more VCPUS are running
======= ========================================================
KVM_DEV_ARM_VGIC_GRP_LEVEL_INFO
Attributes:
The attr field of kvm_device_attr encodes the following values::
bits: | 63 .... 32 | 31 .... 10 | 9 .... 0 |
values: | mpidr | info | vINTID |
The vINTID specifies which set of IRQs is reported on.
The info field specifies which information userspace wants to get or set
using this interface. Currently we support the following info values:
VGIC_LEVEL_INFO_LINE_LEVEL:
Get/Set the input level of the IRQ line for a set of 32 contiguously
numbered interrupts.
vINTID must be a multiple of 32.
kvm_device_attr.addr points to a __u32 value which will contain a
bitmap where a set bit means the interrupt level is asserted.
Bit[n] indicates the status for interrupt vINTID + n.
SGIs and any interrupt with a higher ID than the number of interrupts
supported, will be RAZ/WI. LPIs are always edge-triggered and are
therefore not supported by this interface.
PPIs are reported per VCPU as specified in the mpidr field, and SPIs are
reported with the same value regardless of the mpidr specified.
The mpidr field encodes the CPU ID based on the affinity information in the
architecture defined MPIDR, and the field is encoded as follows::
| 63 .... 56 | 55 .... 48 | 47 .... 40 | 39 .... 32 |
| Aff3 | Aff2 | Aff1 | Aff0 |
Errors:
======= =============================================
-EINVAL vINTID is not multiple of 32 or info field is
not VGIC_LEVEL_INFO_LINE_LEVEL
======= =============================================