acrn-hypervisor/hypervisor/include/common/hypercall.h

578 lines
19 KiB
C

/*
* Copyright (C) 2018 Intel Corporation.
*
* SPDX-License-Identifier: BSD-3-Clause
*/
/**
* @file hypercall.h
*
* @brief public APIs for hypercall
*/
#ifndef HYPERCALL_H
#define HYPERCALL_H
bool is_hypercall_from_ring0(void);
/**
* @brief Hypercall
*
* @addtogroup acrn_hypercall ACRN Hypercall
* @{
*/
/**
* @brief offline vcpu from Service VM
*
* The function offline specific vcpu from Service VM.
*
* @param vcpu Pointer to vCPU that initiates the hypercall
* @param target_vm not used
* @param param1 lapic id of the vcpu which wants to offline
* @param param2 not used
*
* @pre is_service_vm(vcpu->vm)
* @return 0 on success, non-zero on error.
*/
int32_t hcall_service_vm_offline_cpu(struct acrn_vcpu *vcpu, struct acrn_vm *target_vm, uint64_t param1, uint64_t param2);
/**
* @brief Get hypervisor api version
*
* The function only return api version information when VM is Service VM.
*
* @param vcpu Pointer to vCPU that initiates the hypercall
* @param target_vm not used
* @param param1 guest physical memory address. The api version returned
* will be copied to this gpa
* @param param2 not used
*
* @pre is_service_vm(vcpu->vm)
* @return 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);
/**
* @brief 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.
*
* @param vcpu Pointer to vCPU that initiates the hypercall
* @param target_vm Pointer to target VM data structure
* @param param1 guest physical memory address. This gpa points to
* struct acrn_vm_creation
* @param param2 not used
*
* @pre is_service_vm(vcpu->vm)
* @return 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);
/**
* @brief 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.
*
* @param vcpu not used
* @param target_vm Pointer to target VM data structure
* @param param1 not used
* @param param2 not used
*
* @return 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);
/**
* @brief 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.
*
* @param vcpu not used
* @param target_vm Pointer to target VM data structure
* @param param1 not used
* @param param2 not used
*
* @return 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);
/**
* @brief 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.
*
* @param vcpu not used
* @param target_vm Pointer to target VM data structure
* @param param1 not used
* @param param2 not used
*
* @return 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);
/**
* @brief 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.
*
* @param vcpu not used
* @param target_vm Pointer to target VM data structure
* @param param1 not used
* @param param2 not used
*
* @return 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);
/**
* @brief 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.
*
* @param vcpu Pointer to vCPU that initiates the hypercall
* @param target_vm Pointer to target VM data structure
* @param param1 not used
* @param param2 guest physical address. This gpa points to
* struct acrn_vcpu_regs
*
* @return 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);
/**
* @brief 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.
*
* @param vcpu Pointer to vCPU that initiates the hypercall
* @param target_vm Pointer to target VM data structure
* @param param1 not used
* @param param2 info for irqline
*
* @pre is_service_vm(vcpu->vm)
* @return 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);
/**
* @brief inject MSI interrupt
*
* Inject a MSI interrupt for a VM.
* The function will return -1 if the target VM does not exist.
*
* @param vcpu Pointer to vCPU that initiates the hypercall
* @param target_vm Pointer to target VM data structure
* @param param1 not used
* @param param2 guest physical address. This gpa points to struct acrn_msi_entry
*
* @pre is_service_vm(vcpu->vm)
* @return 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);
/**
* @brief set ioreq shared buffer
*
* Set the ioreq share buffer for a VM.
* The function will return -1 if the target VM does not exist.
*
* @param vcpu Pointer to vCPU that initiates the hypercall
* @param target_vm Pointer to target VM data structure
* @param param1 not used
* @param param2 guest physical address. This gpa points to buffer address
*
* @pre is_service_vm(vcpu->vm)
* @return 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);
/**
* @brief 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.
*
* @param vcpu not used
* @param target_vm Pointer to target VM data structure
* @param param1 not used
* @param param2 vcpu ID of the requestor
*
* @return 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);
/**
* @brief setup ept memory mapping for multi regions
*
* @param vcpu Pointer to vCPU that initiates the hypercall
* @param target_vm Pointer to target VM data structure
* @param param1 guest physical address. This gpa points to
* struct set_memmaps
* @param param2 not used
*
* @pre is_service_vm(vcpu->vm)
* @return 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);
/**
* @brief change guest memory page write permission
*
* @param vcpu Pointer to vCPU that initiates the hypercall
* @param target_vm Pointer to target VM data structure
* @param param1 not used
* @param param2 guest physical address. This gpa points to
* struct wp_data
*
* @pre is_service_vm(vcpu->vm)
* @return 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);
/**
* @brief 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.
*
* @param vcpu Pointer to vCPU that initiates the hypercall
* @param target_vm Pointer to target VM data structure
* @param param1 not used
* @param param2 guest physical address. This gpa points to struct vm_gpa2hpa
*
* @pre is_service_vm(vcpu->vm)
* @return 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);
/**
* @brief Assign one PCI dev to VM.
*
* @param vcpu Pointer to vCPU that initiates the hypercall
* @param target_vm Pointer to target VM data structure
* @param param1 not used
* @param param2 guest physical address. This gpa points to data structure of
* acrn_pcidev including assign PCI device info
*
* @pre is_service_vm(vcpu->vm)
* @return 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);
/**
* @brief Deassign one PCI dev to VM.
*
* @param vcpu Pointer to vCPU that initiates the hypercall
* @param target_vm Pointer to target VM data structure
* @param param1 not used
* @param param2 guest physical address. This gpa points to data structure of
* acrn_pcidev including deassign PCI device info
*
* @pre is_service_vm(vcpu->vm)
* @return 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);
/**
* @brief Assign one MMIO dev to VM.
*
* @param vcpu Pointer to vCPU that initiates the hypercall
* @param target_vm Pointer to target VM data structure
* @param param1 not used
* @param param2 guest physical address. This gpa points to data structure of
* acrn_mmiodev including assign MMIO device info
*
* @pre is_service_vm(vcpu->vm)
* @return 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);
/**
* @brief Deassign one MMIO dev to VM.
*
* @param vcpu Pointer to vCPU that initiates the hypercall
* @param target_vm Pointer to target VM data structure
* @param param1 not used
* @param param2 guest physical address. This gpa points to data structure of
* acrn_mmiodev including deassign MMIO device info
*
* @pre is_service_vm(vcpu->vm)
* @return 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);
/**
* @brief Add an emulated device in hypervisor.
*
* @param vcpu Pointer to vCPU that initiates the hypercall
* @param target_vm Pointer to target VM data structure
* @param param1 not used
* @param param2 guest physical address. This gpa points to data structure of
* acrn_vdev including information about PCI or legacy devices
*
* @pre is_service_vm(vcpu->vm)
* @return 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);
/**
* @brief Remove an emulated device in hypervisor.
*
* @param vcpu Pointer to vCPU that initiates the hypercall
* @param target_vm Pointer to target VM data structure
* @param param1 not used
* @param param2 guest physical address. This gpa points to data structure of
* acrn_vdev including information about PCI or legacy devices
*
* @pre is_service_vm(vcpu->vm)
* @return 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);
/**
* @brief Set interrupt mapping info of ptdev.
*
* @param vcpu Pointer to vCPU that initiates the hypercall
* @param target_vm Pointer to target VM data structure
* @param param1 not used
* @param param2 guest physical address. This gpa points to data structure of
* hc_ptdev_irq including intr remapping info
*
* @pre is_service_vm(vcpu->vm)
* @return 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);
/**
* @brief Clear interrupt mapping info of ptdev.
*
* @param vcpu Pointer to vCPU that initiates the hypercall
* @param target_vm Pointer to target VM data structure
* @param param1 not used
* @param param2 guest physical address. This gpa points to data structure of
* hc_ptdev_irq including intr remapping info
*
* @pre is_service_vm(vcpu->vm)
* @return 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);
/**
* @brief Get VCPU Power state.
*
* @param vcpu Pointer to vCPU that initiates the hypercall
* @param target_vm Pointer to target VM data structure
* @param param1 cmd to show get which VCPU power state data
* @param param2 VCPU power state data
*
* @pre is_service_vm(vcpu->vm)
* @return 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);
/**
* @brief Get VCPU a VM's interrupt count data.
*
* @param vcpu Pointer to vCPU that initiates the hypercall
* @param target_vm Pointer to target VM data structure
* @param param1 not used
* @param param2 guest physical address. This gpa points to data structure of
* acrn_intr_monitor
*
* @pre is_service_vm(vcpu->vm)
* @return 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);
/**
* @defgroup trusty_hypercall Trusty Hypercalls
*
* This is a special group that includes all hypercalls
* related to Trusty
*
* @{
*/
/**
* @brief Switch vCPU state between Normal/Secure World.
*
* * The hypervisor uses this hypercall to do the world switch
* * The hypervisor needs to:
* * save current world vCPU contexts, and load the next world
* vCPU contexts
* * update ``rdi``, ``rsi``, ``rdx``, ``rbx`` to next world
* vCPU contexts
*
* @param vcpu Pointer to VCPU data structure
* @param target_vm not used
* @param param1 not used
* @param param2 not used
*
* @return 0 on success, non-zero on error.
*/
int32_t hcall_world_switch(struct acrn_vcpu *vcpu, struct acrn_vm *target_vm, uint64_t param1, uint64_t param2);
/**
* @brief Initialize environment for Trusty-OS on a vCPU.
*
* * It is used by the User VM OS bootloader (``User VM OS Loader``) to request ACRN
* to initialize Trusty
* * The Trusty memory region range, entry point must be specified
* * The hypervisor needs to save current vCPU contexts (Normal World)
*
* @param vcpu Pointer to vCPU data structure
* @param target_vm not used
* @param param1 guest physical address. This gpa points to
* trusty_boot_param structure
* @param param2 not used
*
* @return 0 on success, non-zero on error.
*/
int32_t hcall_initialize_trusty(struct acrn_vcpu *vcpu, struct acrn_vm *target_vm, uint64_t param1, uint64_t param2);
/**
* @brief Save/Restore Context of Secure World.
*
* @param vcpu Pointer to VCPU data structure
* @param target_vm not used
* @param param1 not used
* @param param2 not used
*
* @return 0 on success, non-zero on error.
*/
int32_t hcall_save_restore_sworld_ctx(struct acrn_vcpu *vcpu, struct acrn_vm *target_vm,
uint64_t param1, uint64_t param2);
/**
* @brief Handle the TEE boot done signal.
*
* @param vcpu Pointer to VCPU data structure
* @param target_vm not used
* @param param1 not used
* @param param2 not used
*
* @return 0 on success, non-zero on error.
*/
int32_t hcall_handle_tee_vcpu_boot_done(struct acrn_vcpu *vcpu, struct acrn_vm *target_vm,
uint64_t param1, uint64_t param2);
/**
* @brief Switch the execution environment.
*
* @param vcpu Pointer to VCPU data structure
* @param target_vm not used
* @param param1 not used
* @param param2 not used
*
* @return 0 on success, non-zero on error.
*/
int32_t hcall_switch_ee(struct acrn_vcpu *vcpu, struct acrn_vm *target_vm,
uint64_t param1, uint64_t param2);
/**
* @}
*/
/* End of trusty_hypercall */
/**
* @brief 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.
*
* @param vcpu not used
* @param target_vm not used
* @param param1 the expected notifier vector from guest
* @param param2 not used
*
* @pre is_service_vm(vcpu->vm)
* @return 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);
/**
* @brief Setup a share buffer for a VM.
*
* @param vcpu Pointer to vCPU that initiates the hypercall
* @param target_vm not used
* @param param1 guest physical address. This gpa points to
* struct sbuf_setup_param
* @param param2 not used
*
* @pre is_service_vm(vcpu->vm)
* @return 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);
/**
* @brief Setup the hypervisor NPK log.
*
* @param vcpu Pointer to vCPU that initiates the hypercall
* @param target_vm not used
* @param param1 guest physical address. This gpa points to
* struct hv_npk_log_param
* @param param2 not used
*
* @pre is_service_vm(vcpu->vm)
* @return 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);
/**
* @brief Get hardware related info
*
* @param vcpu Pointer to vCPU that initiates the hypercall
* @param target_vm not used
* @param param1 Guest physical address pointing to struct acrn_hw_info
* @param param2 not used
*
* @pre vm shall point to Service VM
* @pre param1 shall be a valid physical address
*
* @retval 0 on success
* @retval -1 in case of error
*/
int32_t hcall_get_hw_info(struct acrn_vcpu *vcpu, struct acrn_vm *target_vm, uint64_t param1, uint64_t param2);
/**
* @brief Execute profiling operation
*
* @param vcpu Pointer to vCPU that initiates the hypercall
* @param target_vm not used
* @param param1 profiling command to be executed
* @param param2 guest physical address. This gpa points to
* data structure required by each command
*
* @pre is_service_vm(vcpu->vm)
* @return 0 on success, non-zero on error.
*/
int32_t hcall_profiling_ops(struct acrn_vcpu *vcpu, struct acrn_vm *target_vm, uint64_t param1, uint64_t param2);
int32_t hcall_create_vcpu(struct acrn_vcpu *vcpu, struct acrn_vm *target_vm, uint64_t param1, uint64_t param2);
/**
* @}
*/
/* End of acrn_hypercall */
#endif /* HYPERCALL_H*/