Hypercall APIs

This section contains APIs for the hypercall services. Sources for the Device Model are found in the ACRN Hypervisor GitHub repo

group acrn_hypercall

Hypercall.

Defines

MAX_VM_OS_NAME_LEN
GSI_SET_HIGH

Operation types for setting IRQ line

GSI_SET_LOW
GSI_RAISING_PULSE
GSI_FALLING_PULSE
SPACE_SYSTEM_MEMORY

Info The power state data of a VCPU.

SPACE_SYSTEM_IO
SPACE_PCI_CONFIG
SPACE_Embedded_Control
SPACE_SMBUS
SPACE_PLATFORM_COMM
SPACE_FFixedHW
PMCMD_VMID_MASK

Info PM command from DM/VHM.

The command would specify request type(e.g. get px count or data) for specific VM and specific VCPU with specific state number. For Px, PMCMD_STATE_NUM means Px number from 0 to (MAX_PSTATE - 1), For Cx, PMCMD_STATE_NUM means Cx entry index from 1 to MAX_CX_ENTRY.

PMCMD_VCPUID_MASK
PMCMD_STATE_NUM_MASK
PMCMD_TYPE_MASK
PMCMD_VMID_SHIFT
PMCMD_VCPUID_SHIFT
PMCMD_STATE_NUM_SHIFT
MAX_PTDEV_NUM

Info to get a VM interrupt count data.

the parameter for HC_VM_INTR_MONITOR hypercall

INTR_CMD_GET_DATA

cmd for intr monitor

INTR_CMD_DELAY_INT

Enums

enum pm_cmd_type

Values:

PMCMD_GET_PX_CNT
PMCMD_GET_PX_DATA
PMCMD_GET_CX_CNT
PMCMD_GET_CX_DATA

Functions

int32_t hcall_sos_offline_cpu(struct acrn_vm *vm, uint64_t lapicid)

offline vcpu from SOS

The function offline specific vcpu from SOS.

Pre
Pointer vm shall point to SOS_VM
Return
0 on success, non-zero on error.
Parameters
  • vm: Pointer to VM data structure
  • lapicid: lapic id of the vcpu which wants to offline

int32_t hcall_get_api_version(struct acrn_vm *vm, uint64_t param)

Get hypervisor api version.

The function only return api version information when VM is SOS_VM.

Pre
Pointer vm shall point to SOS_VM
Return
0 on success, non-zero on error.
Parameters
  • vm: Pointer to VM data structure
  • param: guest physical memory address. The api version returned will be copied to this gpa

int32_t hcall_get_platform_info(struct acrn_vm *vm, uint64_t param)

Get basic platform information.

The function returns basic hardware or configuration information for the current platform.

Pre
Pointer vm shall point to SOS_VM
Return
0 on success, -1 in case of error.
Parameters
  • vm: Pointer to VM data structure.
  • param: GPA pointer to struct hc_platform_info.

int32_t hcall_create_vm(struct acrn_vm *vm, uint64_t param)

create virtual machine

Create a virtual machine based on parameter, currently there is no limitation for calling times of this function, will add MAX_VM_NUM support later.

Pre
Pointer vm shall point to SOS_VM
Return
0 on success, non-zero on error.
Parameters
  • vm: Pointer to VM data structure
  • param: guest physical memory address. This gpa points to struct acrn_create_vm

int32_t hcall_destroy_vm(uint16_t vmid)

destroy virtual machine

Destroy a virtual machine, it will pause target VM then shutdown it. The function will return -1 if the target VM does not exist.

Return
0 on success, non-zero on error.
Parameters
  • vmid: ID of the VM

int32_t hcall_reset_vm(uint16_t vmid)

reset virtual machine

Reset a virtual machine, it will make target VM rerun from pre-defined entry. Comparing to start vm, this function reset each vcpu state and do some initialization for guest. The function will return -1 if the target VM does not exist.

Return
0 on success, non-zero on error.
Parameters
  • vmid: ID of the VM

int32_t hcall_start_vm(uint16_t vmid)

start virtual machine

Start a virtual machine, it will schedule target VM’s vcpu to run. The function will return -1 if the target VM does not exist or the IOReq buffer page for the VM is not ready.

Return
0 on success, non-zero on error.
Parameters
  • vmid: ID of the VM

int32_t hcall_pause_vm(uint16_t vmid)

pause virtual machine

Pause a virtual machine, if the VM is already paused, the function will return 0 directly for success. The function will return -1 if the target VM does not exist.

Return
0 on success, non-zero on error.
Parameters
  • vmid: ID of the VM

int32_t hcall_create_vcpu(struct acrn_vm *vm, uint16_t vmid, uint64_t param)

create vcpu

Create a vcpu based on parameter for a VM, it will allocate vcpu from freed physical cpus, if there is no available pcpu, the function will return -1.

Pre
Pointer vm shall point to SOS_VM
Return
0 on success, non-zero on error.
Parameters
  • vm: Pointer to VM data structure
  • vmid: ID of the VM
  • param: guest physical address. This gpa points to struct acrn_create_vcpu

int32_t hcall_set_vcpu_regs(struct acrn_vm *vm, uint16_t vmid, uint64_t param)

set vcpu regs

Set the vcpu regs. It will set the vcpu init regs from DM. Now, it’s only applied to BSP. AP always uses fixed init regs. The function will return -1 if the targat VM or BSP doesn’t exist.

Return
0 on success, non-zero on error.
Parameters
  • vm: Pointer to VM data structure
  • vmid: ID of the VM
  • param: guest physical address. This gpa points to struct acrn_vcpu_regs

int32_t hcall_set_irqline(const struct acrn_vm *vm, uint16_t vmid, const struct acrn_irqline_ops *ops)

set or clear IRQ line

Set or clear a virtual IRQ line for a VM, which could be from ISA or IOAPIC, normally it triggers an edge IRQ. The function will return -1 if the target VM does not exist.

Pre
Pointer vm shall point to SOS_VM
Return
0 on success, non-zero on error.
Parameters
  • vm: Pointer to VM data structure
  • vmid: ID of the VM
  • ops: request command for IRQ set or clear

int32_t hcall_inject_msi(struct acrn_vm *vm, uint16_t vmid, uint64_t param)

inject MSI interrupt

Inject a MSI interrupt for a VM. The function will return -1 if the target VM does not exist.

Pre
Pointer vm shall point to SOS_VM
Return
0 on success, non-zero on error.
Parameters
  • vm: Pointer to VM data structure
  • vmid: ID of the VM
  • param: guest physical address. This gpa points to struct acrn_msi_entry

int32_t hcall_set_ioreq_buffer(struct acrn_vm *vm, uint16_t vmid, uint64_t param)

set ioreq shared buffer

Set the ioreq share buffer for a VM. The function will return -1 if the target VM does not exist.

Pre
Pointer vm shall point to SOS_VM
Return
0 on success, non-zero on error.
Parameters
  • vm: Pointer to VM data structure
  • vmid: ID of the VM
  • param: guest physical address. This gpa points to struct acrn_set_ioreq_buffer

int32_t hcall_notify_ioreq_finish(uint16_t vmid, uint16_t vcpu_id)

notify request done

Notify the requestor VCPU for the completion of an ioreq. The function will return -1 if the target VM does not exist.

Return
0 on success, non-zero on error.
Parameters
  • vmid: ID of the VM
  • vcpu_id: vcpu ID of the requestor

int32_t hcall_set_vm_memory_regions(struct acrn_vm *vm, uint64_t param)

setup ept memory mapping for multi regions

Pre
Pointer vm shall point to SOS_VM
Return
0 on success, non-zero on error.
Parameters
  • vm: Pointer to VM data structure
  • param: guest physical address. This gpa points to struct set_memmaps

int32_t hcall_write_protect_page(struct acrn_vm *vm, uint16_t vmid, uint64_t wp_gpa)

change guest memory page write permission

Pre
Pointer vm shall point to SOS_VM
Return
0 on success, non-zero on error.
Parameters
  • vm: Pointer to VM data structure
  • vmid: ID of the VM
  • wp_gpa: guest physical address. This gpa points to struct wp_data

int32_t hcall_gpa_to_hpa(struct acrn_vm *vm, uint16_t vmid, uint64_t param)

translate guest physical address to host physical address

Translate guest physical address to host physical address for a VM. The function will return -1 if the target VM does not exist.

Pre
Pointer vm shall point to SOS_VM
Return
0 on success, non-zero on error.
Parameters
  • vm: Pointer to VM data structure
  • vmid: ID of the VM
  • param: guest physical address. This gpa points to struct vm_gpa2hpa

int32_t hcall_assign_ptdev(struct acrn_vm *vm, uint16_t vmid, uint64_t param)

Assign one passthrough dev to VM.

Pre
Pointer vm shall point to SOS_VM
Return
0 on success, non-zero on error.
Parameters
  • vm: Pointer to VM data structure
  • vmid: ID of the VM
  • param: the physical BDF of the assigning ptdev To keep the compatibility it still can be the guest physical address that points to the physical BDF of the assigning ptdev.(Depreciated)

int32_t hcall_deassign_ptdev(struct acrn_vm *vm, uint16_t vmid, uint64_t param)

Deassign one passthrough dev from VM.

Pre
Pointer vm shall point to SOS_VM
Return
0 on success, non-zero on error.
Parameters
  • vm: Pointer to VM data structure
  • vmid: ID of the VM
  • param: the physical BDF of the deassigning ptdev To keep the compatibility it still can be the guest physical address that points to the physical BDF of the deassigning ptdev.(Depreciated)

int32_t hcall_set_ptdev_intr_info(struct acrn_vm *vm, uint16_t vmid, uint64_t param)

Set interrupt mapping info of ptdev.

Pre
Pointer vm shall point to SOS_VM
Return
0 on success, non-zero on error.
Parameters
  • vm: Pointer to VM data structure
  • vmid: ID of the VM
  • param: guest physical address. This gpa points to data structure of hc_ptdev_irq including intr remapping info

int32_t hcall_reset_ptdev_intr_info(struct acrn_vm *vm, uint16_t vmid, uint64_t param)

Clear interrupt mapping info of ptdev.

Pre
Pointer vm shall point to SOS_VM
Return
0 on success, non-zero on error.
Parameters
  • vm: Pointer to VM data structure
  • vmid: ID of the VM
  • param: guest physical address. This gpa points to data structure of hc_ptdev_irq including intr remapping info

int32_t hcall_debug(struct acrn_vm *vm, uint64_t param1, uint64_t param2, uint64_t hypcall_id)

Setup hypervisor debug infrastructure, such as share buffer, NPK log and profiling.

Pre
Pointer vm shall point to SOS_VM
Return
0 on success, non-zero on error.
Parameters
  • vm: Pointer to VM data structure
  • param1: hypercall param1 from guest
  • param2: hypercall param2 from guest
  • hypcall_id: hypercall ID from guest

int32_t hcall_get_cpu_pm_state(struct acrn_vm *vm, uint64_t cmd, uint64_t param)

Get VCPU Power state.

Pre
Pointer vm shall point to SOS_VM
Return
0 on success, non-zero on error.
Parameters
  • vm: pointer to VM data structure
  • cmd: cmd to show get which VCPU power state data
  • param: VCPU power state data

int32_t hcall_vm_intr_monitor(struct acrn_vm *vm, uint16_t vmid, uint64_t param)

Get VCPU a VM’s interrupt count data.

Pre
Pointer vm shall point to SOS_VM
Return
0 on success, non-zero on error.
Parameters
  • vm: pointer to VM data structure
  • vmid: id of the VM
  • param: guest physical address. This gpa points to data structure of acrn_intr_monitor

int32_t hcall_set_callback_vector(const struct acrn_vm *vm, uint64_t param)

set upcall notifier vector

This is the API that helps to switch the notifer vecotr. If this API is not called, the hypervisor will use the default notifier vector(0xF7) to notify the SOS kernel.

Pre
Pointer vm shall point to SOS_VM
Return
0 on success, non-zero on error.
Parameters
  • vm: Pointer to VM data structure
  • param: the expected notifier vector from guest

struct mmio_request
#include <acrn_common.h>

Representation of a MMIO request.

Public Members

uint32_t direction

Direction of the access.

Either REQUEST_READ or REQUEST_WRITE.

uint32_t reserved

reserved

uint64_t address

Address of the I/O access.

uint64_t size

Width of the I/O access in byte.

uint64_t value

The value read for I/O reads or to be written for I/O writes.

struct pio_request
#include <acrn_common.h>

Representation of a port I/O request.

Public Members

uint32_t direction

Direction of the access.

Either REQUEST_READ or REQUEST_WRITE.

uint32_t reserved

reserved

uint64_t address

Port address of the I/O access.

uint64_t size

Width of the I/O access in byte.

uint32_t value

The value read for I/O reads or to be written for I/O writes.

struct pci_request
#include <acrn_common.h>

Representation of a PCI configuration space access.

Public Members

uint32_t direction

Direction of the access.

Either REQUEST_READ or REQUEST_WRITE.

uint32_t reserved[3]

Reserved.

int64_t size

Width of the I/O access in byte.

int32_t value

The value read for I/O reads or to be written for I/O writes.

int32_t bus

The bus part of the BDF of the device.

int32_t dev

The device part of the BDF of the device.

int32_t func

The function part of the BDF of the device.

int32_t reg

The register to be accessed in the configuration space.

union vhm_io_request
#include <acrn_common.h>

Public Members

struct pio_request pio
struct pci_request pci
struct mmio_request mmio
int64_t reserved1[8]
struct vhm_request
#include <acrn_common.h>

256-byte VHM requests

The state transitions of a VHM request are:

FREE -> PENDING -> PROCESSING -> COMPLETE -> FREE -> …

When a request is in COMPLETE or FREE state, the request is owned by the hypervisor. SOS (VHM or DM) shall not read or write the internals of the request except the state.

When a request is in PENDING or PROCESSING state, the request is owned by SOS. The hypervisor shall not read or write the request other than the state.

Based on the rules above, a typical VHM request lifecycle should looks like the following.

SOS vCPU 0 SOS vCPU x UOS vCPU y
   

Hypervisor:

  • Fill in type, addr, etc.
  • Pause UOS vCPU y
  • Set state to PENDING (a)
  • Fire upcall to SOS vCPU 0

VHM:

  • Scan for pending requests
  • Set state to PROCESSING (b)
  • Assign requests to clients (c)
   
 

Client:

  • Scan for assigned requests
  • Handle the requests (d)
  • Set state to COMPLETE
  • Notify the hypervisor
 
 

Hypervisor:

  • resume UOS vCPU y (e)
 
   

Hypervisor:

  • Post-work (f)
  • set state to FREE

Note that the following shall hold.

  1. (a) happens before (b)
  2. (c) happens before (d)
  3. (e) happens before (f)
  4. One vCPU cannot trigger another I/O request before the previous one has completed (i.e. the state switched to FREE)

Accesses to the state of a vhm_request shall be atomic and proper barriers are needed to ensure that:

  1. Setting state to PENDING is the last operation when issuing a request in the hypervisor, as the hypervisor shall not access the request any more.
  2. Due to similar reasons, setting state to COMPLETE is the last operation of request handling in VHM or clients in SOS.

Public Members

uint32_t type

Type of this request.

Byte offset: 0.

uint32_t completion_polling

Hypervisor will poll completion if set.

Byte offset: 4.

uint32_t reserved0[14]

Reserved.

Byte offset: 8.

union vhm_io_request reqs

Details about this request.

For REQ_PORTIO, this has type pio_request. For REQ_MMIO and REQ_WP, this has type mmio_request. For REQ_PCICFG, this has type pci_request.

Byte offset: 64.

uint32_t reserved1

Reserved.

Byte offset: 128.

int32_t client

The client which is distributed to handle this request.

Accessed by VHM only.

Byte offset: 132.

uint32_t processed

The status of this request.

Taking REQ_STATE_xxx as values.

Byte offset: 136.

union vhm_request_buffer
#include <acrn_common.h>

Public Members

struct vhm_request req_queue[VHM_REQUEST_MAX]
int8_t reserved[4096]
struct acrn_create_vm
#include <acrn_common.h>

Info to create a VM, the parameter for HC_CREATE_VM hypercall.

Public Members

uint16_t vmid

created vmid return to VHM. Keep it first field

uint16_t reserved0

Reserved

uint16_t vcpu_num

VCPU numbers this VM want to create

uint16_t reserved1

Reserved

uint8_t uuid[16]

the UUID of this VM

uint64_t vm_flag
uint64_t req_buf
uint8_t reserved2[16]

Reserved for future use

struct acrn_create_vcpu
#include <acrn_common.h>

Info to create a VCPU.

the parameter for HC_CREATE_VCPU hypercall

Public Members

uint16_t vcpu_id

the virtual CPU ID for the VCPU created

uint16_t pcpu_id

the physical CPU ID for the VCPU created

struct acrn_gp_regs
#include <acrn_common.h>

Public Members

uint64_t rax
uint64_t rcx
uint64_t rdx
uint64_t rbx
uint64_t rsp
uint64_t rbp
uint64_t rsi
uint64_t rdi
uint64_t r8
uint64_t r9
uint64_t r10
uint64_t r11
uint64_t r12
uint64_t r13
uint64_t r14
uint64_t r15
struct acrn_descriptor_ptr
#include <acrn_common.h>

Public Members

uint16_t limit
uint64_t base
uint16_t reserved[3]
struct acrn_vcpu_regs
#include <acrn_common.h>

registers info for vcpu.

Public Members

struct acrn_gp_regs gprs
struct acrn_descriptor_ptr gdt
struct acrn_descriptor_ptr idt
uint64_t rip
uint64_t cs_base
uint64_t cr0
uint64_t cr4
uint64_t cr3
uint64_t ia32_efer
uint64_t rflags
uint64_t reserved_64[4]
uint32_t cs_ar
uint32_t cs_limit
uint32_t reserved_32[3]
uint16_t cs_sel
uint16_t ss_sel
uint16_t ds_sel
uint16_t es_sel
uint16_t fs_sel
uint16_t gs_sel
uint16_t ldt_sel
uint16_t tr_sel
uint16_t reserved_16[4]
struct acrn_set_vcpu_regs
#include <acrn_common.h>

Info to set vcpu state.

the pamameter for HC_SET_VCPU_STATE

Public Members

uint16_t vcpu_id

the virtual CPU ID for the VCPU to set state

uint16_t reserved0[3]

reserved space to make cpu_state aligned to 8 bytes

struct acrn_vcpu_regs vcpu_regs

the structure to hold vcpu state

struct acrn_set_ioreq_buffer
#include <acrn_common.h>

Info to set ioreq buffer for a created VM.

the parameter for HC_SET_IOREQ_BUFFER hypercall

Public Members

uint64_t req_buf

guest physical address of VM request_buffer

struct acrn_irqline_ops
#include <acrn_common.h>

Info to Set/Clear/Pulse a virtual IRQ line for a VM.

the parameter for HC_SET_IRQLINE hypercall

Public Members

uint32_t gsi
uint32_t op
struct acrn_msi_entry
#include <acrn_common.h>

Info to inject a MSI interrupt to VM.

the parameter for HC_INJECT_MSI hypercall

Public Members

uint64_t msi_addr

MSI addr[19:12] with dest VCPU ID

uint64_t msi_data

MSI data[7:0] with vector

struct acrn_nmi_entry
#include <acrn_common.h>

Info to inject a NMI interrupt for a VM.

Public Members

uint16_t vcpu_id

virtual CPU ID to inject

uint16_t reserved0

Reserved

uint32_t reserved1

Reserved

struct acrn_vm_pci_msix_remap
#include <acrn_common.h>

Info to remap pass-through PCI MSI for a VM.

the parameter for HC_VM_PCI_MSIX_REMAP hypercall

Public Members

uint16_t virt_bdf

pass-through PCI device virtual BDF#

uint16_t phys_bdf

pass-through PCI device physical BDF#

uint16_t msi_ctl

pass-through PCI device MSI/MSI-X cap control data

uint16_t reserved

reserved for alignment padding

uint64_t msi_addr

pass-through PCI device MSI address to remap, which will return the caller after remapping

uint32_t msi_data

pass-through PCI device MSI data to remap, which will return the caller after remapping

int32_t msix

pass-through PCI device is MSI or MSI-X 0 - MSI, 1 - MSI-X

uint32_t msix_entry_index

if the pass-through PCI device is MSI-X, this field contains the MSI-X entry table index

uint32_t vector_ctl

if the pass-through PCI device is MSI-X, this field contains Vector Control for MSI-X Entry, field defined in MSI-X spec

struct acpi_generic_address
#include <acrn_common.h>

Public Members

uint8_t space_id
uint8_t bit_width
uint8_t bit_offset
uint8_t access_size
uint64_t address
struct cpu_cx_data
#include <acrn_common.h>

Public Members

struct acpi_generic_address cx_reg
uint8_t type
uint32_t latency
uint64_t power
struct cpu_px_data
#include <acrn_common.h>

Public Members

uint64_t core_frequency
uint64_t power
uint64_t transition_latency
uint64_t bus_master_latency
uint64_t control
uint64_t status
struct acpi_sx_pkg
#include <acrn_common.h>

Public Members

uint8_t val_pm1a
uint8_t val_pm1b
uint16_t reserved
struct pm_s_state_data
#include <acrn_common.h>

Public Members

struct acpi_generic_address pm1a_evt
struct acpi_generic_address pm1b_evt
struct acpi_generic_address pm1a_cnt
struct acpi_generic_address pm1b_cnt
struct acpi_sx_pkg s3_pkg
struct acpi_sx_pkg s5_pkg
uint32_t *wake_vector_32
uint64_t *wake_vector_64
struct acrn_intr_monitor
#include <acrn_common.h>

Public Members

uint32_t cmd

sub command for intr monitor

uint32_t buf_cnt

the count of this buffer to save

uint64_t buffer[MAX_PTDEV_NUM * 2]

the buffer which save each interrupt count

struct vm_memory_region
#include <acrn_hv_defs.h>

Info to set guest memory region mapping.

the parameter for HC_VM_SET_MEMORY_REGION hypercall

Public Members

uint32_t type

set memory region type: MR_ADD or MAP_DEL

uint32_t prot

memory attributes: memory type + RWX access right

uint64_t gpa

the beginning guest physical address of the memory reion

uint64_t sos_vm_gpa

SOS_VM’s guest physcial address which gpa will be mapped to

uint64_t size

size of the memory region

struct set_regions
#include <acrn_hv_defs.h>

set multi memory regions, used for HC_VM_SET_MEMORY_REGIONS

Public Members

uint16_t vmid

vmid for this hypercall

uint16_t reserved0

Reserved

uint32_t reserved1

Reserved

uint32_t mr_num

memory region numbers

uint64_t regions_gpa

the gpa of regions buffer, point to the regions array: struct vm_memory_region regions[mr_num] the max buffer size is one page.

struct wp_data
#include <acrn_hv_defs.h>

Info to change guest one page write protect permission.

the parameter for HC_VM_WRITE_PROTECT_PAGE hypercall

Public Members

uint8_t set

set page write protect permission. ture: set the wp; flase: clear the wp

uint64_t pad

Reserved

uint64_t gpa

the guest physical address of the page to change

struct sbuf_setup_param
#include <acrn_hv_defs.h>

Setup parameter for share buffer, used for HC_SETUP_SBUF hypercall

Public Members

uint16_t pcpu_id

sbuf physical cpu id

uint16_t reserved

Reserved

uint32_t sbuf_id

sbuf id

uint64_t gpa

sbuf’s guest physical address

struct hv_npk_log_param
#include <acrn_hv_defs.h>

Info to setup the hypervisor NPK log.

the parameter for HC_SETUP_HV_NPK_LOG hypercall

Public Members

uint16_t cmd

the setup command for the hypervisor NPK log

uint16_t res

the setup result for the hypervisor NPK log

uint16_t loglevel

the loglevel for the hypervisor NPK log

uint16_t reserved

Reserved

uint64_t mmio_addr

the MMIO address for the hypervisor NPK log

struct acrn_hw_info
#include <acrn_hv_defs.h>

the parameter for HC_GET_HW_INFO hypercall

Public Members

uint16_t cpu_num
uint16_t reserved[3]
struct vm_gpa2hpa
#include <acrn_hv_defs.h>

Gpa to hpa translation parameter, used for HC_VM_GPA2HPA hypercall

Public Members

uint64_t gpa

gpa to do translation

uint64_t hpa

hpa to return after translation

struct hc_ptdev_irq
#include <acrn_hv_defs.h>

Intr mapping info per ptdev, the parameter for HC_SET_PTDEV_INTR_INFO hypercall

Public Members

uint32_t type

irq mapping type: INTX or MSI

uint16_t virt_bdf

virtual BDF of the ptdev

uint16_t phys_bdf

physical BDF of the ptdev

union hc_ptdev_irq::irq_source is
union irq_source
#include <acrn_hv_defs.h>

Public Members

struct hc_ptdev_irq::irq_source::intx_info intx
struct hc_ptdev_irq::irq_source::msix_info msix
struct intx_info
#include <acrn_hv_defs.h>

INTX remapping info

Public Members

uint32_t virt_pin

virtual IOAPIC/PIC pin

uint32_t phys_pin

physical IOAPIC pin

bool pic_pin

is virtual pin from PIC

uint8_t reserved[3]

Reserved

struct msix_info
#include <acrn_hv_defs.h>

MSIx remapping info

Public Members

uint32_t vector_cnt

vector count of MSI/MSIX

struct hc_api_version
#include <acrn_hv_defs.h>

Hypervisor api version info, return it for HC_GET_API_VERSION hypercall

Public Members

uint32_t major_version

hypervisor api major version

uint32_t minor_version

hypervisor api minor version

struct hc_platform_info
#include <acrn_hv_defs.h>

Hypervisor API, return it for HC_GET_PLATFORM_INFO hypercall

Public Members

uint16_t cpu_num

Hardware Information Physical CPU number

uint8_t reserved0[126]

Align the size of version & hardware info to 128Bytes.

uint16_t max_vcpus_per_vm

Configuration Information Maximum vCPU number for one VM.

uint8_t reserved1[126]

Align the size of Configuration info to 128Bytes.

struct trusty_boot_param
#include <acrn_hv_defs.h>

Trusty boot params, used for HC_INITIALIZE_TRUSTY

Public Members

uint32_t size_of_this_struct

sizeof this structure

uint32_t version

version of this structure

uint32_t base_addr

trusty runtime memory base address

uint32_t entry_point

trusty entry point

uint32_t mem_size

trusty runtime memory size

uint32_t padding

padding

uint32_t base_addr_high

trusty runtime memory base address (high 32bit)

uint32_t entry_point_high

trusty entry point (high 32bit)

uint8_t rpmb_key[64]

rpmb key