blob: b91c4d661a357ef5e74eecf61648dadf70c4ad08 [file]
/*
* QEMU MSHV support
*
* Copyright Microsoft, Corp. 2025
*
* Authors: Ziqiao Zhou <ziqiaozhou@microsoft.com>
* Magnus Kulke <magnuskulke@microsoft.com>
* Jinank Jain <jinankjain@microsoft.com>
*
* SPDX-License-Identifier: GPL-2.0-or-later
*
*/
#ifndef QEMU_MSHV_INT_H
#define QEMU_MSHV_INT_H
#include "hw/hyperv/hvhdk.h"
#define MSHV_MSR_ENTRIES_COUNT 64
/*
* Interruption-type encoding, used by the hypervisor in
* hv_x64_pending_interruption_register.interruption_type
* See TLFS 6.0 section 7.9.2, p55
* https://learn.microsoft.com/en-us/virtualization/hyper-v-on-windows/tlfs/tlfs
*/
#define MSHV_HV_INTERRUPTION_TYPE_EXT_INT 0
#define MSHV_HV_INTERRUPTION_TYPE_NMI 2
#define MSHV_HV_INTERRUPTION_TYPE_HW_EXC 3
#define MSHV_HV_INTERRUPTION_TYPE_SW_INT 4
#define MSHV_HV_INTERRUPTION_TYPE_PRIV_SW_EXC 5
#define MSHV_HV_INTERRUPTION_TYPE_SW_EXC 6
#define MSHV_DIRTY_PAGES_BATCH_SIZE 0x10000
typedef struct hyperv_message hv_message;
typedef struct MshvHvCallArgs {
void *base;
void *input_page;
void *output_page;
} MshvHvCallArgs;
struct AccelCPUState {
int cpufd;
MshvHvCallArgs hvcall_args;
};
typedef struct MshvMemoryListener {
MemoryListener listener;
int as_id;
} MshvMemoryListener;
typedef struct MshvAddressSpace {
MshvMemoryListener *ml;
AddressSpace *as;
} MshvAddressSpace;
struct MshvState {
AccelState parent_obj;
int vm;
MshvMemoryListener memory_listener;
/* number of listeners */
int nr_as;
MshvAddressSpace *as;
int fd;
/* irqchip routing */
struct mshv_user_irq_table *irq_routes;
int nr_allocated_irq_routes;
unsigned long *used_gsi_bitmap;
unsigned int gsi_count;
union hv_partition_processor_features processor_features;
};
typedef struct MshvMsiControl {
bool updated;
GHashTable *gsi_routes;
} MshvMsiControl;
#define mshv_vcpufd(cpu) (cpu->accel->cpufd)
/* cpu */
typedef enum MshvVmExit {
MshvVmExitIgnore = 0,
MshvVmExitShutdown = 1,
MshvVmExitSpecial = 2,
} MshvVmExit;
void mshv_init_mmio_emu(void);
int mshv_create_vcpu(int vm_fd, uint8_t vp_index, int *cpu_fd);
void mshv_remove_vcpu(int vm_fd, int cpu_fd);
int mshv_configure_vcpu(const CPUState *cpu);
int mshv_run_vcpu(int vm_fd, CPUState *cpu, hv_message *msg, MshvVmExit *exit);
int mshv_set_generic_regs(const CPUState *cpu, const hv_register_assoc *assocs,
size_t n_regs);
int mshv_get_generic_regs(CPUState *cpu, hv_register_assoc *assocs,
size_t n_regs);
int mshv_arch_store_vcpu_state(const CPUState *cpu);
int mshv_arch_load_vcpu_state(CPUState *cpu);
void mshv_arch_init_vcpu(CPUState *cpu);
void mshv_arch_destroy_vcpu(CPUState *cpu);
void mshv_arch_amend_proc_features(
union hv_partition_synthetic_processor_features *features);
void mshv_arch_disable_partition_proc_features(
union hv_partition_processor_features *disabled_features);
int mshv_arch_post_init_vm(int vm_fd);
typedef struct mshv_root_hvcall mshv_root_hvcall;
int mshv_hvcall(int fd, const mshv_root_hvcall *args);
/* memory */
typedef struct MshvMemoryRegion {
uint64_t guest_phys_addr;
uint64_t memory_size;
uint64_t userspace_addr;
bool readonly;
} MshvMemoryRegion;
int mshv_guest_mem_read(uint64_t gpa, uint8_t *data, uintptr_t size,
bool is_secure_mode, bool instruction_fetch);
int mshv_guest_mem_write(uint64_t gpa, const uint8_t *data, uintptr_t size,
bool is_secure_mode);
void mshv_set_phys_mem(MshvMemoryListener *mml, MemoryRegionSection *section,
bool add);
void mshv_log_sync(MemoryListener *listener, MemoryRegionSection *section);
bool mshv_log_global_start(MemoryListener *listener, Error **errp);
void mshv_log_global_stop(MemoryListener *listener);
/* msr */
int mshv_init_msrs(const CPUState *cpu);
int mshv_get_msrs(CPUState *cpu);
int mshv_set_msrs(const CPUState *cpu);
#endif