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
-
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/HSM.
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¶
-
ACRN_PTDEV_QUIRK_ASSIGN¶
-
ACRN_PCI_NUM_BARS¶
-
MMIODEV_RES_NUM¶
-
ACRN_ASYNCIO_PIO¶
-
ACRN_ASYNCIO_MMIO¶
-
SBUF_MAGIC¶
-
SBUF_MAX_SIZE¶
-
SBUF_HEAD_SIZE¶
-
OVERRUN_CNT_EN¶
-
OVERWRITE_EN¶
-
VM_EVENT_RTC_CHG¶
VM event architecture: +——————————————————+ | Service VM | | +————————-—+ | | | DM +—————–—+ | | | | | [ event source ] | | | | | +-+————+–—+ | | | | | (eventfd) |(sbuf) | | | | v v | | | | +————————+ | (socket) +———+ | | | | [event deliver logic] |-+——-—>| Libvirt | | | | +————————+ | +———+ | | | ^ ^ | | | +—-—|————|—-—+ | | | (eventfd) | (sbuf) | +———|————|—————————-—+ +———|————|—————————-—+ | kernel [HSM] | | | ^ | | +———|————|—————————-—+ |upcall | +———+————+—————————-—+ | HV [ event source ] | +——————————————————+
For event sources in HV
HV puts the event in the shared ring sbuf.
The hypervisor notifies the service VM via upcall.
HSM in the service VM notifies device model via eventfd.
The device model fetches and handles events from the shared ring sbuf. For event sources in DM
DM puts the event in the DM event ring sbuf.
DM notifies event delivery logic via eventfd.
The event delivery logic fetches and handles events from the DM event ring sbuf.
-
VM_EVENT_POWEROFF¶
-
VM_EVENT_TRIPLE_FAULT¶
-
VM_EVENT_COUNT¶
-
VM_EVENT_DATA_LEN¶
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RTC_CHG_RELATIVE_PHYSICAL_RTC¶
-
RTC_CHG_RELATIVE_SERVICE_VM_SYS_TIME¶
-
ACRN_PLATFORM_LAPIC_IDS_MAX¶
Enums
-
enum acrn_cpufreq_policy_type¶
Values:
-
enumerator CPUFREQ_POLICY_PERFORMANCE¶
-
enumerator CPUFREQ_POLICY_NOMINAL¶
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enumerator CPUFREQ_POLICY_PERFORMANCE¶
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enum acrn_pm_cmd_type¶
Values:
-
enumerator ACRN_PMCMD_GET_PX_CNT¶
-
enumerator ACRN_PMCMD_GET_PX_DATA¶
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enumerator ACRN_PMCMD_GET_CX_CNT¶
-
enumerator ACRN_PMCMD_GET_CX_DATA¶
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enumerator ACRN_PMCMD_GET_PX_CNT¶
-
enum acrn_vm_load_order¶
Values:
-
enumerator PRE_LAUNCHED_VM¶
-
enumerator SERVICE_VM¶
-
enumerator POST_LAUNCHED_VM¶
-
enumerator MAX_LOAD_ORDER¶
-
enumerator PRE_LAUNCHED_VM¶
-
enum [anonymous]¶
(sbuf) head + buf (store (ele_num - 1) elements at most) buffer empty: tail == head buffer full: (tail + ele_size) % size == head
| struct | raw data (ele_size)| … | raw data (ele_size) |Base of memory for elements | |
| | struct shared_buf *buf
Values:
-
enumerator ACRN_TRACE¶
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enumerator ACRN_HVLOG¶
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enumerator ACRN_SEP¶
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enumerator ACRN_SOCWATCH¶
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enumerator ACRN_SBUF_PER_PCPU_ID_MAX¶
-
enumerator ACRN_ASYNCIO¶
-
enumerator ACRN_VM_EVENT¶
-
enumerator ACRN_TRACE¶
Functions
-
int32_t hcall_service_vm_offline_cpu(struct acrn_vcpu *vcpu, struct acrn_vm *target_vm, uint64_t param1, uint64_t param2)¶
offline vcpu from Service VM
The function offline specific vcpu from Service VM.
- Preconditions
is_service_vm(vcpu->vm)
- Parameters
vcpu – Pointer to vCPU that initiates the hypercall
target_vm – not used
param1 – lapic id of the vcpu which wants to offline
param2 – not used
- Returns
0 on success, non-zero on error.
-
int32_t hcall_get_api_version(struct acrn_vcpu *vcpu, struct acrn_vm *target_vm, uint64_t param1, uint64_t param2)¶
Get hypervisor api version.
The function only return api version information when VM is Service VM.
- Preconditions
is_service_vm(vcpu->vm)
- Parameters
vcpu – Pointer to vCPU that initiates the hypercall
target_vm – not used
param1 – guest physical memory address. The api version returned will be copied to this gpa
param2 – not used
- Returns
0 on success, non-zero on error.
-
int32_t hcall_create_vm(struct acrn_vcpu *vcpu, struct acrn_vm *target_vm, uint64_t param1, uint64_t param2)¶
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.
- Preconditions
is_service_vm(vcpu->vm)
- Parameters
vcpu – Pointer to vCPU that initiates the hypercall
target_vm – Pointer to target VM data structure
param1 – guest physical memory address. This gpa points to struct acrn_vm_creation
param2 – not used
- Returns
0 on success, non-zero on error.
-
int32_t hcall_destroy_vm(struct acrn_vcpu *vcpu, struct acrn_vm *target_vm, uint64_t param1, uint64_t param2)¶
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.
- Parameters
vcpu – not used
target_vm – Pointer to target VM data structure
param1 – not used
param2 – not used
- Returns
0 on success, non-zero on error.
-
int32_t hcall_reset_vm(struct acrn_vcpu *vcpu, struct acrn_vm *target_vm, uint64_t param1, uint64_t param2)¶
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.
- Parameters
vcpu – not used
target_vm – Pointer to target VM data structure
param1 – not used
param2 – not used
- Returns
0 on success, non-zero on error.
-
int32_t hcall_start_vm(struct acrn_vcpu *vcpu, struct acrn_vm *target_vm, uint64_t param1, uint64_t param2)¶
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.
- Parameters
vcpu – not used
target_vm – Pointer to target VM data structure
param1 – not used
param2 – not used
- Returns
0 on success, non-zero on error.
-
int32_t hcall_pause_vm(struct acrn_vcpu *vcpu, struct acrn_vm *target_vm, uint64_t param1, uint64_t param2)¶
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.
- Parameters
vcpu – not used
target_vm – Pointer to target VM data structure
param1 – not used
param2 – not used
- Returns
0 on success, non-zero on error.
-
int32_t hcall_set_vcpu_regs(struct acrn_vcpu *vcpu, struct acrn_vm *target_vm, uint64_t param1, uint64_t param2)¶
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.
- Parameters
vcpu – Pointer to vCPU that initiates the hypercall
target_vm – Pointer to target VM data structure
param1 – not used
param2 – guest physical address. This gpa points to struct acrn_vcpu_regs
- Returns
0 on success, non-zero on error.
-
int32_t hcall_set_irqline(struct acrn_vcpu *vcpu, struct acrn_vm *target_vm, uint64_t param1, uint64_t param2)¶
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.
- Preconditions
is_service_vm(vcpu->vm)
- Parameters
vcpu – Pointer to vCPU that initiates the hypercall
target_vm – Pointer to target VM data structure
param1 – not used
param2 – info for irqline
- Returns
0 on success, non-zero on error.
-
int32_t hcall_inject_msi(struct acrn_vcpu *vcpu, struct acrn_vm *target_vm, uint64_t param1, uint64_t param2)¶
inject MSI interrupt
Inject a MSI interrupt for a VM. The function will return -1 if the target VM does not exist.
- Preconditions
is_service_vm(vcpu->vm)
- Parameters
vcpu – Pointer to vCPU that initiates the hypercall
target_vm – Pointer to target VM data structure
param1 – not used
param2 – guest physical address. This gpa points to struct acrn_msi_entry
- Returns
0 on success, non-zero on error.
-
int32_t hcall_set_ioreq_buffer(struct acrn_vcpu *vcpu, struct acrn_vm *target_vm, uint64_t param1, uint64_t param2)¶
set ioreq shared buffer
Set the ioreq share buffer for a VM. The function will return -1 if the target VM does not exist.
- Preconditions
is_service_vm(vcpu->vm)
- Parameters
vcpu – Pointer to vCPU that initiates the hypercall
target_vm – Pointer to target VM data structure
param1 – not used
param2 – guest physical address. This gpa points to buffer address
- Returns
0 on success, non-zero on error.
-
int32_t hcall_notify_ioreq_finish(struct acrn_vcpu *vcpu, struct acrn_vm *target_vm, uint64_t param1, uint64_t param2)¶
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.
- Parameters
vcpu – not used
target_vm – Pointer to target VM data structure
param1 – not used
param2 – vcpu ID of the requestor
- Returns
0 on success, non-zero on error.
-
int32_t hcall_set_vm_memory_regions(struct acrn_vcpu *vcpu, struct acrn_vm *target_vm, uint64_t param1, uint64_t param2)¶
setup ept memory mapping for multi regions
- Preconditions
is_service_vm(vcpu->vm)
- Parameters
vcpu – Pointer to vCPU that initiates the hypercall
target_vm – Pointer to target VM data structure
param1 – guest physical address. This gpa points to struct set_memmaps
param2 – not used
- Returns
0 on success, non-zero on error.
-
int32_t hcall_write_protect_page(struct acrn_vcpu *vcpu, struct acrn_vm *target_vm, uint64_t param1, uint64_t param2)¶
change guest memory page write permission
- Preconditions
is_service_vm(vcpu->vm)
- Parameters
vcpu – Pointer to vCPU that initiates the hypercall
target_vm – Pointer to target VM data structure
param1 – not used
param2 – guest physical address. This gpa points to struct wp_data
- Returns
0 on success, non-zero on error.
-
int32_t hcall_gpa_to_hpa(struct acrn_vcpu *vcpu, struct acrn_vm *target_vm, uint64_t param1, uint64_t param2)¶
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.
- Preconditions
is_service_vm(vcpu->vm)
- Parameters
vcpu – Pointer to vCPU that initiates the hypercall
target_vm – Pointer to target VM data structure
param1 – not used
param2 – guest physical address. This gpa points to struct vm_gpa2hpa
- Returns
0 on success, non-zero on error.
-
int32_t hcall_assign_pcidev(struct acrn_vcpu *vcpu, struct acrn_vm *target_vm, uint64_t param1, uint64_t param2)¶
Assign one PCI dev to VM.
- Preconditions
is_service_vm(vcpu->vm)
- Parameters
vcpu – Pointer to vCPU that initiates the hypercall
target_vm – Pointer to target VM data structure
param1 – not used
param2 – guest physical address. This gpa points to data structure of acrn_pcidev including assign PCI device info
- Returns
0 on success, non-zero on error.
-
int32_t hcall_deassign_pcidev(struct acrn_vcpu *vcpu, struct acrn_vm *target_vm, uint64_t param1, uint64_t param2)¶
Deassign one PCI dev to VM.
- Preconditions
is_service_vm(vcpu->vm)
- Parameters
vcpu – Pointer to vCPU that initiates the hypercall
target_vm – Pointer to target VM data structure
param1 – not used
param2 – guest physical address. This gpa points to data structure of acrn_pcidev including deassign PCI device info
- Returns
0 on success, non-zero on error.
-
int32_t hcall_assign_mmiodev(struct acrn_vcpu *vcpu, struct acrn_vm *target_vm, uint64_t param1, uint64_t param2)¶
Assign one MMIO dev to VM.
- Preconditions
is_service_vm(vcpu->vm)
- Parameters
vcpu – Pointer to vCPU that initiates the hypercall
target_vm – Pointer to target VM data structure
param1 – not used
param2 – guest physical address. This gpa points to data structure of acrn_mmiodev including assign MMIO device info
- Returns
0 on success, non-zero on error.
-
int32_t hcall_deassign_mmiodev(struct acrn_vcpu *vcpu, struct acrn_vm *target_vm, uint64_t param1, uint64_t param2)¶
Deassign one MMIO dev to VM.
- Preconditions
is_service_vm(vcpu->vm)
- Parameters
vcpu – Pointer to vCPU that initiates the hypercall
target_vm – Pointer to target VM data structure
param1 – not used
param2 – guest physical address. This gpa points to data structure of acrn_mmiodev including deassign MMIO device info
- Returns
0 on success, non-zero on error.
-
int32_t hcall_add_vdev(struct acrn_vcpu *vcpu, struct acrn_vm *target_vm, uint64_t param1, uint64_t param2)¶
Add an emulated device in hypervisor.
- Preconditions
is_service_vm(vcpu->vm)
- Parameters
vcpu – Pointer to vCPU that initiates the hypercall
target_vm – Pointer to target VM data structure
param1 – not used
param2 – guest physical address. This gpa points to data structure of acrn_vdev including information about PCI or legacy devices
- Returns
0 on success, non-zero on error.
-
int32_t hcall_remove_vdev(struct acrn_vcpu *vcpu, struct acrn_vm *target_vm, uint64_t param1, uint64_t param2)¶
Remove an emulated device in hypervisor.
- Preconditions
is_service_vm(vcpu->vm)
- Parameters
vcpu – Pointer to vCPU that initiates the hypercall
target_vm – Pointer to target VM data structure
param1 – not used
param2 – guest physical address. This gpa points to data structure of acrn_vdev including information about PCI or legacy devices
- Returns
0 on success, non-zero on error.
-
int32_t hcall_set_ptdev_intr_info(struct acrn_vcpu *vcpu, struct acrn_vm *target_vm, uint64_t param1, uint64_t param2)¶
Set interrupt mapping info of ptdev.
- Preconditions
is_service_vm(vcpu->vm)
- Parameters
vcpu – Pointer to vCPU that initiates the hypercall
target_vm – Pointer to target VM data structure
param1 – not used
param2 – guest physical address. This gpa points to data structure of hc_ptdev_irq including intr remapping info
- Returns
0 on success, non-zero on error.
-
int32_t hcall_reset_ptdev_intr_info(struct acrn_vcpu *vcpu, struct acrn_vm *target_vm, uint64_t param1, uint64_t param2)¶
Clear interrupt mapping info of ptdev.
- Preconditions
is_service_vm(vcpu->vm)
- Parameters
vcpu – Pointer to vCPU that initiates the hypercall
target_vm – Pointer to target VM data structure
param1 – not used
param2 – guest physical address. This gpa points to data structure of hc_ptdev_irq including intr remapping info
- Returns
0 on success, non-zero on error.
-
int32_t hcall_get_cpu_pm_state(struct acrn_vcpu *vcpu, struct acrn_vm *target_vm, uint64_t param1, uint64_t param2)¶
Get VCPU Power state.
- Preconditions
is_service_vm(vcpu->vm)
- Parameters
vcpu – Pointer to vCPU that initiates the hypercall
target_vm – Pointer to target VM data structure
param1 – cmd to show get which VCPU power state data
param2 – VCPU power state data
- Returns
0 on success, non-zero on error.
-
int32_t hcall_vm_intr_monitor(struct acrn_vcpu *vcpu, struct acrn_vm *target_vm, uint64_t param1, uint64_t param2)¶
Get VCPU a VM’s interrupt count data.
- Preconditions
is_service_vm(vcpu->vm)
- Parameters
vcpu – Pointer to vCPU that initiates the hypercall
target_vm – Pointer to target VM data structure
param1 – not used
param2 – guest physical address. This gpa points to data structure of acrn_intr_monitor
- Returns
0 on success, non-zero on error.
-
int32_t hcall_set_callback_vector(struct acrn_vcpu *vcpu, struct acrn_vm *target_vm, uint64_t param1, uint64_t param2)¶
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 Service VM OS kernel.
- Preconditions
is_service_vm(vcpu->vm)
- Parameters
vcpu – not used
target_vm – not used
param1 – the expected notifier vector from guest
param2 – not used
- Returns
0 on success, non-zero on error.
-
int32_t hcall_setup_sbuf(struct acrn_vcpu *vcpu, struct acrn_vm *target_vm, uint64_t param1, uint64_t param2)¶
Setup a share buffer for a VM.
- Preconditions
is_service_vm(vcpu->vm)
- Parameters
vcpu – Pointer to vCPU that initiates the hypercall
target_vm – not used
param1 – guest physical address. This gpa points to struct sbuf_setup_param
param2 – not used
- Returns
0 on success, non-zero on error.
-
int32_t hcall_asyncio_assign(struct acrn_vcpu *vcpu, struct acrn_vm *target_vm, uint64_t param1, uint64_t param2)¶
Assign an asyncio to a VM.
- Parameters
vcpu – not used
target_vm – which VM the asyncio belongs.
param1 – guest physical address. This gpa points to struct acrn_asyncio_info
param2 – not used
- Returns
0 on success, non-zero on error.
-
int32_t hcall_asyncio_deassign(struct acrn_vcpu *vcpu, struct acrn_vm *target_vm, uint64_t param1, uint64_t param2)¶
Deassign an asyncio from a VM.
- Parameters
vcpu – not used
target_vm – which VM the asyncio belongs.
param1 – guest physical address. This gpa points to struct acrn_asyncio_info
param2 – not used
- Returns
0 on success, non-zero on error.
-
int32_t hcall_setup_hv_npk_log(struct acrn_vcpu *vcpu, struct acrn_vm *target_vm, uint64_t param1, uint64_t param2)¶
Setup the hypervisor NPK log.
- Preconditions
is_service_vm(vcpu->vm)
- Parameters
vcpu – Pointer to vCPU that initiates the hypercall
target_vm – not used
param1 – guest physical address. This gpa points to struct hv_npk_log_param
param2 – not used
- Returns
0 on success, non-zero on error.
-
int32_t hcall_get_hw_info(struct acrn_vcpu *vcpu, struct acrn_vm *target_vm, uint64_t param1, uint64_t param2)¶
Get hardware related info.
- Preconditions
vm shall point to Service VM
- Preconditions
param1 shall be a valid physical address
- Parameters
vcpu – Pointer to vCPU that initiates the hypercall
target_vm – not used
param1 – Guest physical address pointing to struct acrn_hw_info
param2 – not used
- Return values
0 – on success
-1 – in case of error
-
int32_t hcall_profiling_ops(struct acrn_vcpu *vcpu, struct acrn_vm *target_vm, uint64_t param1, uint64_t param2)¶
Execute profiling operation.
- Preconditions
is_service_vm(vcpu->vm)
- Parameters
vcpu – Pointer to vCPU that initiates the hypercall
target_vm – not used
param1 – profiling command to be executed
param2 – guest physical address. This gpa points to data structure required by each command
- Returns
0 on success, non-zero on error.
-
int32_t hcall_create_vcpu(struct acrn_vcpu *vcpu, struct acrn_vm *target_vm, uint64_t param1, uint64_t param2)¶
-
struct acrn_mmio_request¶
- #include <acrn_common.h>
Representation of a MMIO request.
-
struct acrn_pio_request¶
- #include <acrn_common.h>
Representation of a port I/O request.
-
struct acrn_pci_request¶
- #include <acrn_common.h>
Representation of a PCI configuration space access.
-
struct acrn_io_request¶
- #include <acrn_common.h>
256-byte I/O requests
The state transitions of a I/O request are:
FREE -> PENDING -> PROCESSING -> COMPLETE -> FREE -> …
When a request is in COMPLETE or FREE state, the request is owned by the hypervisor. Service VM (HSM 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 Service VM. The hypervisor shall not read or write the request other than the state.
Based on the rules above, a typical I/O request lifecycle should looks like the following.
Service VM vCPU 0
Service VM vCPU x
User VM vCPU y
Hypervisor:
Fill in type, addr, etc.
Pause User VM vCPU
Set state to PENDING (a)
Fire upcall to Service VM vCPU 0
HSM:
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 User VM vCPU y (e)
Hypervisor:
Post-work (f)
set state to FREE
Note that the following shall hold.
(a) happens before (b)
(c) happens before (d)
(e) happens before (f)
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 acrn_io_request shall be atomic and proper barriers are needed to ensure that:
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.
Due to similar reasons, setting state to COMPLETE is the last operation of request handling in HSM or clients in Service VM.
-
struct acrn_io_request_buffer¶
- #include <acrn_common.h>
-
struct acrn_asyncio_info¶
- #include <acrn_common.h>
-
struct acrn_vm_creation¶
- #include <acrn_common.h>
Info to create a VM, the parameter for HC_CREATE_VM hypercall.
-
struct acrn_gp_regs¶
- #include <acrn_common.h>
-
struct acrn_descriptor_ptr¶
- #include <acrn_common.h>
-
struct acrn_regs¶
- #include <acrn_common.h>
registers info for vcpu.
-
struct acrn_vcpu_regs¶
- #include <acrn_common.h>
Info to set vcpu state.
the parameter for HC_SET_VCPU_STATE
-
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
-
struct acrn_msi_entry¶
- #include <acrn_common.h>
Info to inject a MSI interrupt to VM.
the parameter for HC_INJECT_MSI hypercall
-
struct acrn_acpi_generic_address¶
- #include <acrn_common.h>
-
struct acrn_cstate_data¶
- #include <acrn_common.h>
-
struct acrn_pstate_data¶
- #include <acrn_common.h>
-
struct acrn_cpufreq_limits¶
- #include <acrn_common.h>
-
struct acpi_sx_pkg¶
- #include <acrn_common.h>
-
struct pm_s_state_data¶
- #include <acrn_common.h>
-
struct acrn_intr_monitor¶
- #include <acrn_common.h>
-
struct acrn_vm_config_header¶
- #include <acrn_common.h>
-
struct vrp_config¶
- #include <acrn_common.h>
Info to configure virtual root port.
Configuration passed to hv when adding a virtual root port which is used as PTM root
-
struct acrn_pcidev¶
- #include <acrn_common.h>
Info to assign or deassign PCI for a VM.
-
struct acrn_mmiodev¶
- #include <acrn_common.h>
Info to assign or deassign a MMIO device for a VM.
-
struct acrn_vdev¶
- #include <acrn_common.h>
Info to create or destroy a virtual PCI or legacy device for a VM.
the parameter for HC_CREATE_VDEV or HC_DESTROY_VDEV hypercall
- #include <acrn_common.h>
-
struct vm_event¶
- #include <acrn_common.h>
-
struct rtc_change_event_data¶
- #include <acrn_common.h>
-
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
-
struct set_regions¶
- #include <acrn_hv_defs.h>
set multi memory regions, used for HC_VM_SET_MEMORY_REGIONS
-
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
-
struct acrn_sbuf_param¶
- #include <acrn_hv_defs.h>
Setup parameter for share buffer, used for HC_SETUP_SBUF hypercall
-
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
-
struct acrn_hw_info¶
- #include <acrn_hv_defs.h>
the parameter for HC_GET_HW_INFO hypercall
-
struct vm_gpa2hpa¶
- #include <acrn_hv_defs.h>
Gpa to hpa translation parameter, used for HC_VM_GPA2HPA hypercall
-
struct hc_ptdev_irq¶
- #include <acrn_hv_defs.h>
Intr mapping info per ptdev, the parameter for HC_SET_PTDEV_INTR_INFO hypercall
-
struct hc_api_version¶
- #include <acrn_hv_defs.h>
Hypervisor api version info, return it for HC_GET_API_VERSION hypercall
-
struct trusty_boot_param¶
- #include <acrn_hv_defs.h>
Trusty boot params, used for HC_INITIALIZE_TRUSTY
-
union reqs¶
Details about this request.
Byte offset: 64.
Public Members
-
struct acrn_pio_request pio_request¶
-
struct acrn_pci_request pci_request¶
-
struct acrn_mmio_request mmio_request¶
-
uint64_t data[8]¶
-
struct acrn_pio_request pio_request¶
-
union __unnamed20__¶
-
union id¶
-
struct fields
-
GSI_SET_HIGH¶