/* SPDX-License-Identifier: GPL-2.0 */
/*
* Type definitions for the Microsoft hypervisor.
*/
#ifndef _HV_HVHDK_H
#define _HV_HVHDK_H
#include <linux/build_bug.h>
#include "hvhdk_mini.h"
#include "hvgdk.h"
/* Bits for dirty mask of hv_vp_register_page */
#define HV_X64_REGISTER_CLASS_GENERAL 0
#define HV_X64_REGISTER_CLASS_IP 1
#define HV_X64_REGISTER_CLASS_XMM 2
#define HV_X64_REGISTER_CLASS_SEGMENT 3
#define HV_X64_REGISTER_CLASS_FLAGS 4
#define HV_VP_REGISTER_PAGE_VERSION_1 1u
#define HV_VP_REGISTER_PAGE_MAX_VECTOR_COUNT 7
union hv_vp_register_page_interrupt_vectors {
u64 as_uint64;
struct {
u8 vector_count;
u8 vector[HV_VP_REGISTER_PAGE_MAX_VECTOR_COUNT];
} __packed;
};
struct hv_vp_register_page {
u16 version;
u8 isvalid;
u8 rsvdz;
u32 dirty;
#if IS_ENABLED(CONFIG_X86)
union {
struct {
/* General purpose registers
* (HV_X64_REGISTER_CLASS_GENERAL)
*/
union {
struct {
u64 rax;
u64 rcx;
u64 rdx;
u64 rbx;
u64 rsp;
u64 rbp;
u64 rsi;
u64 rdi;
u64 r8;
u64 r9;
u64 r10;
u64 r11;
u64 r12;
u64 r13;
u64 r14;
u64 r15;
} __packed;
u64 gp_registers[16];
};
/* Instruction pointer (HV_X64_REGISTER_CLASS_IP) */
u64 rip;
/* Flags (HV_X64_REGISTER_CLASS_FLAGS) */
u64 rflags;
} __packed;
u64 registers[18];
};
/* Volatile XMM registers (HV_X64_REGISTER_CLASS_XMM) */
union {
struct {
struct hv_u128 xmm0;
struct hv_u128 xmm1;
struct hv_u128 xmm2;
struct hv_u128 xmm3;
struct hv_u128 xmm4;
struct hv_u128 xmm5;
} __packed;
struct hv_u128 xmm_registers[6];
};
/* Segment registers (HV_X64_REGISTER_CLASS_SEGMENT) */
union {
struct {
struct hv_x64_segment_register es;
struct hv_x64_segment_register cs;
struct hv_x64_segment_register ss;
struct hv_x64_segment_register ds;
struct hv_x64_segment_register fs;
struct hv_x64_segment_register gs;
} __packed;
struct hv_x64_segment_register segment_registers[6];
};
/* Misc. control registers (cannot be set via this interface) */
u64 cr0;
u64 cr3;
u64 cr4;
u64 cr8;
u64 efer;
u64 dr7;
union hv_x64_pending_interruption_register pending_interruption;
union hv_x64_interrupt_state_register interrupt_state;
u64 instruction_emulation_hints;
u64 xfem;
/*
* Fields from this point are not included in the register page save chunk.
* The reserved field is intended to maintain alignment for unsaved fields.
*/
u8 reserved1[0x100];
/*
* Interrupts injected as part of HvCallDispatchVp.
*/
union hv_vp_register_page_interrupt_vectors interrupt_vectors;
#elif IS_ENABLED(CONFIG_ARM64)
/* Not yet supported in ARM */
#endif
} __packed;
#define HV_PARTITION_PROCESSOR_FEATURES_BANKS 2
union hv_partition_processor_features {
u64 as_uint64[HV_PARTITION_PROCESSOR_FEATURES_BANKS];
struct {
u64 sse3_support : 1;
u64 lahf_sahf_support : 1;
u64 ssse3_support : 1;
u64 sse4_1_support : 1;
u64 sse4_2_support : 1;
u64 sse4a_support : 1;
u64 xop_support : 1;
u64 pop_cnt_support : 1;
u64 cmpxchg16b_support : 1;
u64 altmovcr8_support : 1;
u64 lzcnt_support : 1;
u64 mis_align_sse_support : 1;
u64 mmx_ext_support : 1;
u64 amd3dnow_support : 1;
u64 extended_amd3dnow_support : 1;
u64 page_1gb_support : 1;
u64 aes_support : 1;
u64 pclmulqdq_support : 1;
u64 pcid_support : 1;
u64 fma4_support : 1;
u64 f16c_support : 1;
u64 rd_rand_support : 1;
u64 rd_wr_fs_gs_support : 1;
u64 smep_support : 1;
u64 enhanced_fast_string_support : 1;
u64 bmi1_support : 1;
u64 bmi2_support : 1;
u64 hle_support_deprecated : 1;
u64 rtm_support_deprecated : 1;
u64 movbe_support : 1;
u64 npiep1_support : 1;
u64 dep_x87_fpu_save_support : 1;
u64 rd_seed_support : 1;
u64 adx_support : 1;
u64 intel_prefetch_support : 1;
u64 smap_support : 1;
u64 hle_support : 1;
u64 rtm_support : 1;
u64 rdtscp_support : 1;
u64 clflushopt_support : 1;
u64 clwb_support : 1;
u64 sha_support : 1;
u64 x87_pointers_saved_support : 1;
u64 invpcid_support : 1;
u64 ibrs_support : 1;
u64 stibp_support : 1;
u64 ibpb_support: 1;
u64 unrestricted_guest_support : 1;
u64 mdd_support : 1;
u64 fast_short_rep_mov_support : 1;
u64 l1dcache_flush_support : 1;
u64 rdcl_no_support : 1;
u64 ibrs_all_support : 1;
u64 skip_l1df_support : 1;
u64 ssb_no_support : 1;
u64 rsb_a_no_support : 1;
u64 virt_spec_ctrl_support : 1;
u64 rd_pid_support : 1;
u64 umip_support : 1;
u64 mbs_no_support : 1;
u64 mb_clear_support : 1;
u64 taa_no_support : 1;
u64 tsx_ctrl_support : 1;
/*
* N.B. The final processor feature bit in bank 0 is reserved to
* simplify potential downlevel backports.
*/
u64 reserved_bank0 : 1;
/* N.B. Begin bank 1 processor features. */
u64 acount_mcount_support : 1;
u64 tsc_invariant_support : 1;
u64 cl_zero_support : 1;
u64 rdpru_support : 1;
u64 la57_support : 1;
u64 mbec_support : 1;
u64 nested_virt_support : 1;
u64 psfd_support : 1;
u64 cet_ss_support : 1;
u64 cet_ibt_support : 1;
u64 vmx_exception_inject_support : 1;
u64 enqcmd_support : 1;
u64 umwait_tpause_support : 1;
u64 movdiri_support : 1;
u64 movdir64b_support : 1;
u64 cldemote_support : 1;
u64 serialize_support : 1;
u64 tsc_deadline_tmr_support : 1;
u64 tsc_adjust_support : 1;
u64 fzlrep_movsb : 1;
u64 fsrep_stosb : 1;
u64 fsrep_cmpsb : 1;
u64 reserved_bank1 : 42;
} __packed;
};
union hv_partition_processor_xsave_features {
struct {
u64 xsave_support : 1;
u64 xsaveopt_support : 1;
u64 avx_support : 1;
u64 reserved1 : 61;
} __packed;
u64 as_uint64;
};
struct hv_partition_creation_properties {
union hv_partition_processor_features disabled_processor_features;
union hv_partition_processor_xsave_features
disabled_processor_xsave_features;
} __packed;
#define HV_PARTITION_SYNTHETIC_PROCESSOR_FEATURES_BANKS 1
union hv_partition_synthetic_processor_features {
u64 as_uint64[HV_PARTITION_SYNTHETIC_PROCESSOR_FEATURES_BANKS];
struct {
u64 hypervisor_present : 1;
/* Support for HV#1: (CPUID leaves 0x40000000 - 0x40000006)*/
u64 hv1 : 1;
u64 access_vp_run_time_reg : 1; /* HV_X64_MSR_VP_RUNTIME */
u64 access_partition_reference_counter : 1; /* HV_X64_MSR_TIME_REF_COUNT */
u64 access_synic_regs : 1; /* SINT-related registers */
/*
* Access to HV_X64_MSR_STIMER0_CONFIG through
* HV_X64_MSR_STIMER3_COUNT.
*/
u64 access_synthetic_timer_regs : 1;
u64 access_intr_ctrl_regs : 1; /* APIC MSRs and VP assist page*/
/* HV_X64_MSR_GUEST_OS_ID and HV_X64_MSR_HYPERCALL */
u64 access_hypercall_regs : 1;
u64 access_vp_index : 1;
u64 access_partition_reference_tsc : 1;
u64 access_guest_idle_reg : 1;
u64 access_frequency_regs : 1;
u64 reserved_z12 : 1;
u64 reserved_z13 : 1;
u64 reserved_z14 : 1;
u64 enable_extended_gva_ranges_for_flush_virtual_address_list : 1;
u64 reserved_z16 : 1;
u64 reserved_z17 : 1;
/* Use fast hypercall output. Corresponds to privilege. */
u64 fast_hypercall_output : 1;
u64 reserved_z19 : 1;
u64 start_virtual_processor : 1; /* Can start VPs */
u64 reserved_z21 : 1;
/* Synthetic timers in direct mode. */
u64 direct_synthetic_timers : 1;
u64 reserved_z23 : 1;
u64 extended_processor_masks : 1;
/* Enable various hypercalls */
u64 tb_flush_hypercalls : 1;
u64 synthetic_cluster_ipi : 1;
u64 notify_long_spin_wait : 1;
u64 query_numa_distance : 1;
u64 signal_events : 1;
u64 retarget_device_interrupt : 1;
u64 restore_time : 1;
/* EnlightenedVmcs nested enlightenment is supported. */
u64 enlightened_vmcs : 1;
u64 reserved : 31;
} __packed;
};
#define HV_MAKE_COMPATIBILITY_VERSION(major_, minor_) \
((u32)((major_) << 8 | (minor_)))
#define HV_COMPATIBILITY_21_H2 HV_MAKE_COMPATIBILITY_VERSION(0X6, 0X9)
union hv_partition_isolation_properties {
u64 as_uint64;
struct {
u64 isolation_type: 5;
u64 isolation_host_type : 2;
u64 rsvd_z: 5;
u64 shared_gpa_boundary_page_number: 52;
} __packed;
};
/*
* Various isolation types supported by MSHV.
*/
#define HV_PARTITION_ISOLATION_TYPE_NONE 0
#define HV_PARTITION_ISOLATION_TYPE_SNP 2
#define HV_PARTITION_ISOLATION_TYPE_TDX 3
/*
* Various host isolation types supported by MSHV.
*/
#define HV_PARTITION_ISOLATION_HOST_TYPE_NONE 0x0
#define HV_PARTITION_ISOLATION_HOST_TYPE_HARDWARE 0x1
#define HV_PARTITION_ISOLATION_HOST_TYPE_RESERVED 0x2
/* Note: Exo partition is enabled by default */
#define HV_PARTITION_CREATION_FLAG_GPA_SUPER_PAGES_ENABLED BIT(4)
#define HV_PARTITION_CREATION_FLAG_EXO_PARTITION BIT(8)
#define HV_PARTITION_CREATION_FLAG_LAPIC_ENABLED BIT(13)
#define HV_PARTITION_CREATION_FLAG_INTERCEPT_MESSAGE_PAGE_ENABLED BIT(19)
#define HV_PARTITION_CREATION_FLAG_X2APIC_CAPABLE BIT(22)
struct hv_input_create_partition {
u64 flags;
struct hv_proximity_domain_info proximity_domain_info;
u32 compatibility_version;
u32 padding;
struct hv_partition_creation_properties partition_creation_properties;
union hv_partition_isolation_properties isolation_properties;
} __packed;
struct hv_output_create_partition {
u64 partition_id;
} __packed;
struct hv_input_initialize_partition {
u64 partition_id;
} __packed;
struct hv_input_finalize_partition {
u64 partition_id;
} __packed;
struct hv_input_delete_partition {
u64 partition_id;
} __packed;
struct hv_input_get_partition_property {
u64 partition_id;
u32 property_code; /* enum hv_partition_property_code */
u32 padding;
} __packed;
struct hv_output_get_partition_property {
u64 property_value;
} __packed;
struct hv_input_set_partition_property {
u64 partition_id;
u32 property_code; /* enum hv_partition_property_code */
u32 padding;
u64 property_value;
} __packed;
enum hv_vp_state_page_type {
HV_VP_STATE_PAGE_REGISTERS = 0,
HV_VP_STATE_PAGE_INTERCEPT_MESSAGE = 1,
HV_VP_STATE_PAGE_GHCB = 2,
HV_VP_STATE_PAGE_COUNT
};
struct hv_input_map_vp_state_page {
u64 partition_id;
u32 vp_index;
u16 type; /* enum hv_vp_state_page_type */
union hv_input_vtl input_vtl;
union {
u8 as_uint8;
struct {
u8 map_location_provided : 1;
u8 reserved : 7;
};
} flags;
u64 requested_map_location;
} __packed;
struct hv_output_map_vp_state_page {
u64 map_location; /* GPA page number */
} __packed;
struct hv_input_unmap_vp_state_page {
u64 partition_id;
u32 vp_index;
u16 type; /* enum hv_vp_state_page_type */
union hv_input_vtl input_vtl;
u8 reserved0;
} __packed;
struct hv_x64_apic_eoi_message {
u32 vp_index;
u32 interrupt_vector;
} __packed;
struct hv_opaque_intercept_message {
u32 vp_index;
} __packed;
enum hv_port_type {
HV_PORT_TYPE_MESSAGE = 1,
HV_PORT_TYPE_EVENT = 2,
HV_PORT_TYPE_MONITOR = 3,
HV_PORT_TYPE_DOORBELL = 4 /* Root Partition only */
};
struct hv_port_info {
u32 port_type; /* enum hv_port_type */
u32 padding;
union {
struct {
u32 target_sint;
u32 target_vp;
u64 rsvdz;
} message_port_info;
struct {
u32 target_sint;
u32 target_vp;
u16 base_flag_number;
u16 flag_count;
u32 rsvdz;
} event_port_info;
struct {
u64 monitor_address;
u64 rsvdz;
} monitor_port_info;
struct {
u32 target_sint;
u32 target_vp;
u64 rsvdz;
} doorbell_port_info;
};
} __packed;
struct hv_connection_info {
u32 port_type;
u32 padding;
union {
struct {
u64 rsvdz;
} message_connection_info;
struct {
u64 rsvdz;
} event_connection_info;
struct {
u64 monitor_address;
} monitor_connection_info;
struct {
u64 gpa;
u64 trigger_value;
u64 flags;
} doorbell_connection_info;
};
} __packed;
/* Define synthetic interrupt controller flag constants. */
#define HV_EVENT_FLAGS_COUNT (256 * 8)
#define HV_EVENT_FLAGS_BYTE_COUNT (256)
#define HV_EVENT_FLAGS32_COUNT (256 / sizeof(u32))
/* linux side we create long version of flags to use long bit ops on flags */
#define HV_EVENT_FLAGS_UL_COUNT (256 / sizeof(ulong))
/* Define the synthetic interrupt controller event flags format. */
union hv_synic_event_flags {
unsigned char flags8[HV_EVENT_FLAGS_BYTE_COUNT];
u32 flags32[HV_EVENT_FLAGS32_COUNT];
ulong flags[HV_EVENT_FLAGS_UL_COUNT]; /* linux only */
};
struct hv_synic_event_flags_page {
volatile union hv_synic_event_flags event_flags[HV_SYNIC_SINT_COUNT];
};
#define HV_SYNIC_EVENT_RING_MESSAGE_COUNT 63
struct hv_synic_event_ring {
u8 signal_masked;
u8 ring_full;
u16 reserved_z;
u32 data[HV_SYNIC_EVENT_RING_MESSAGE_COUNT];
} __packed;
struct hv_synic_event_ring_page {
struct hv_synic_event_ring sint_event_ring[HV_SYNIC_SINT_COUNT];
};
/* Define SynIC control register. */
union hv_synic_scontrol {
u64 as_uint64;
struct {
u64 enable : 1;
u64 reserved : 63;
} __packed;
};
/* Define the format of the SIEFP register */
union hv_synic_siefp {
u64 as_uint64;
struct {
u64 siefp_enabled : 1;
u64 preserved : 11;
u64 base_siefp_gpa : 52;
} __packed;
};
union hv_synic_sirbp {
u64 as_uint64;
struct {
u64 sirbp_enabled : 1;
u64 preserved : 11;
u64 base_sirbp_gpa : 52;
} __packed;
};
union hv_interrupt_control {
u64 as_uint64;
struct {
u32 interrupt_type; /* enum hv_interrupt_type */
u32 level_triggered : 1;
u32 logical_dest_mode : 1;
u32 rsvd : 30;
} __packed;
};
struct hv_stimer_state {
struct {
u32 undelivered_msg_pending : 1;
u32 reserved : 31;
} __packed flags;
u32 resvd;
u64 config;
u64 count;
u64 adjustment;
u64 undelivered_exp_time;
} __packed;
struct hv_synthetic_timers_state {
struct hv_stimer_state timers[HV_SYNIC_STIMER_COUNT];
u64 reserved[5];
} __packed;
struct hv_async_completion_message_payload {
u64 partition_id;
u32 status;
u32 completion_count;
u64 sub_status;
} __packed;
union hv_input_delete_vp {
u64 as_uint64[2];
struct {
u64 partition_id;
u32 vp_index;
u8 reserved[4];
} __packed;
} __packed;
struct hv_input_assert_virtual_interrupt {
u64 partition_id;
union hv_interrupt_control control;
u64 dest_addr; /* cpu's apic id */
u32 vector;
u8 target_vtl;
u8 rsvd_z0;
u16 rsvd_z1;
} __packed;
struct hv_input_create_port {
u64 port_partition_id;
union hv_port_id port_id;
u8 port_vtl;
u8 min_connection_vtl;
u16 padding;
u64 connection_partition_id;
struct hv_port_info port_info;
struct hv_proximity_domain_info proximity_domain_info;
} __packed;
union hv_input_delete_port {
u64 as_uint64[2];
struct {
u64 port_partition_id;
union hv_port_id port_id;
u32 reserved;
};
} __packed;
struct hv_input_connect_port {
u64 connection_partition_id;
union hv_connection_id connection_id;
u8 connection_vtl;
u8 rsvdz0;
u16 rsvdz1;
u64 port_partition_id;
union hv_port_id port_id;
u32 reserved2;
struct hv_connection_info connection_info;
struct hv_proximity_domain_info proximity_domain_info;
} __packed;
union hv_input_disconnect_port {
u64 as_uint64[2];
struct {
u64 connection_partition_id;
union hv_connection_id connection_id;
u32 is_doorbell: 1;
u32 reserved: 31;
} __packed;
} __packed;
union hv_input_notify_port_ring_empty {
u64 as_uint64;
struct {
u32 sint_index;
u32 reserved;
};
} __packed;
struct hv_vp_state_data_xsave {
u64 flags;
union hv_x64_xsave_xfem_register states;
} __packed;
/*
* For getting and setting VP state, there are two options based on the state type:
*
* 1.) Data that is accessed by PFNs in the input hypercall page. This is used
* for state which may not fit into the hypercall pages.
* 2.) Data that is accessed directly in the input\output hypercall pages.
* This is used for state that will always fit into the hypercall pages.
*
* In the future this could be dynamic based on the size if needed.
*
* Note these hypercalls have an 8-byte aligned variable header size as per the tlfs
*/
#define HV_GET_SET_VP_STATE_TYPE_PFN BIT(31)
enum hv_get_set_vp_state_type {
/* HvGetSetVpStateLocalInterruptControllerState - APIC/GIC state */
HV_GET_SET_VP_STATE_LAPIC_STATE = 0 | HV_GET_SET_VP_STATE_TYPE_PFN,
HV_GET_SET_VP_STATE_XSAVE = 1 | HV_GET_SET_VP_STATE_TYPE_PFN,
HV_GET_SET_VP_STATE_SIM_PAGE = 2 | HV_GET_SET_VP_STATE_TYPE_PFN,
HV_GET_SET_VP_STATE_SIEF_PAGE = 3 | HV_GET_SET_VP_STATE_TYPE_PFN,
HV_GET_SET_VP_STATE_SYNTHETIC_TIMERS = 4,
};
struct hv_vp_state_data {
u32 type;
u32 rsvd;
struct hv_vp_state_data_xsave xsave;
} __packed;
struct hv_input_get_vp_state {
u64 partition_id;
u32 vp_index;
u8 input_vtl;
u8 rsvd0;
u16 rsvd1;
struct hv_vp_state_data state_data;
u64 output_data_pfns[];
} __packed;
union hv_output_get_vp_state {
struct hv_synthetic_timers_state synthetic_timers_state;
} __packed;
union hv_input_set_vp_state_data {
u64 pfns;
u8 bytes;
} __packed;
struct hv_input_set_vp_state {
u64 partition_id;
u32 vp_index;
u8 input_vtl;
u8 rsvd0;
u16 rsvd1;
struct hv_vp_state_data state_data;
union hv_input_set_vp_state_data data[];
} __packed;
union hv_x64_vp_execution_state {
u16 as_uint16;
struct {
u16 cpl:2;
u16 cr0_pe:1;
u16 cr0_am:1;
u16 efer_lma:1;
u16 debug_active:1;
u16 interruption_pending:1;
u16 vtl:4;
u16 enclave_mode:1;
u16 interrupt_shadow:1;
u16 virtualization_fault_active:1;
u16 reserved:2;
} __packed;
};
struct hv_x64_intercept_message_header {
u32 vp_index;
u8 instruction_length:4;
u8 cr8:4; /* Only set for exo partitions */
u8 intercept_access_type;
union hv_x64_vp_execution_state execution_state;
struct hv_x64_segment_register cs_segment;
u64 rip;
u64 rflags;
} __packed;
union hv_x64_memory_access_info {
u8 as_uint8;
struct {
u8 gva_valid:1;
u8 gva_gpa_valid:1;
u8 hypercall_output_pending:1;
u8 tlb_locked_no_overlay:1;
u8 reserved:4;
} __packed;
};
struct hv_x64_memory_intercept_message {
struct hv_x64_intercept_message_header header;
u32 cache_type; /* enum hv_cache_type */
u8 instruction_byte_count;
union hv_x64_memory_access_info memory_access_info;
u8 tpr_priority;
u8 reserved1;
u64 guest_virtual_address;
u64 guest_physical_address;
u8 instruction_bytes[16];
} __packed;
/*
* Dispatch state for the VP communicated by the hypervisor to the
* VP-dispatching thread in the root on return from HVCALL_DISPATCH_VP.
*/
enum hv_vp_dispatch_state {
HV_VP_DISPATCH_STATE_INVALID = 0,
HV_VP_DISPATCH_STATE_BLOCKED = 1,
HV_VP_DISPATCH_STATE_READY = 2,
};
/*
* Dispatch event that caused the current dispatch state on return from
* HVCALL_DISPATCH_VP.
*/
enum hv_vp_dispatch_event {
HV_VP_DISPATCH_EVENT_INVALID = 0x00000000,
HV_VP_DISPATCH_EVENT_SUSPEND = 0x00000001,
HV_VP_DISPATCH_EVENT_INTERCEPT = 0x00000002,
};
#define HV_ROOT_SCHEDULER_MAX_VPS_PER_CHILD_PARTITION 1024
/* The maximum array size of HV_GENERIC_SET (vp_set) buffer */
#define HV_GENERIC_SET_QWORD_COUNT(max) (((((max) - 1) >> 6) + 1) + 2)
struct hv_vp_signal_bitset_scheduler_message {
u64 partition_id;
u32 overflow_count;
u16 vp_count;
u16 reserved;
#define BITSET_BUFFER_SIZE \
HV_GENERIC_SET_QWORD_COUNT(HV_ROOT_SCHEDULER_MAX_VPS_PER_CHILD_PARTITION)
union {
struct hv_vpset bitset;
u64 bitset_buffer[BITSET_BUFFER_SIZE];
} vp_bitset;
#undef BITSET_BUFFER_SIZE
} __packed;
static_assert(sizeof(struct hv_vp_signal_bitset_scheduler_message) <=
(sizeof(struct hv_message) - sizeof(struct hv_message_header)));
#define HV_MESSAGE_MAX_PARTITION_VP_PAIR_COUNT \
(((sizeof(struct hv_message) - sizeof(struct hv_message_header)) / \
(sizeof(u64 /* partition id */) + sizeof(u32 /* vp index */))) - 1)
struct hv_vp_signal_pair_scheduler_message {
u32 overflow_count;
u8 vp_count;
u8 reserved1[3];
u64 partition_ids[HV_MESSAGE_MAX_PARTITION_VP_PAIR_COUNT];
u32 vp_indexes[HV_MESSAGE_MAX_PARTITION_VP_PAIR_COUNT];
u8 reserved2[4];
} __packed;
static_assert(sizeof(struct hv_vp_signal_pair_scheduler_message) ==
(sizeof(struct hv_message) - sizeof(struct hv_message_header)));
/* Input and output structures for HVCALL_DISPATCH_VP */
#define HV_DISPATCH_VP_FLAG_CLEAR_INTERCEPT_SUSPEND 0x1
#define HV_DISPATCH_VP_FLAG_ENABLE_CALLER_INTERRUPTS 0x2
#define HV_DISPATCH_VP_FLAG_SET_CALLER_SPEC_CTRL 0x4
#define HV_DISPATCH_VP_FLAG_SKIP_VP_SPEC_FLUSH 0x8
#define HV_DISPATCH_VP_FLAG_SKIP_CALLER_SPEC_FLUSH 0x10
#define HV_DISPATCH_VP_FLAG_SKIP_CALLER_USER_SPEC_FLUSH 0x20
#define HV_DISPATCH_VP_FLAG_SCAN_INTERRUPT_INJECTION 0x40
struct hv_input_dispatch_vp {
u64 partition_id;
u32 vp_index;
u32 flags;
u64 time_slice; /* in 100ns */
u64 spec_ctrl;
} __packed;
struct hv_output_dispatch_vp {
u32 dispatch_state; /* enum hv_vp_dispatch_state */
u32 dispatch_event; /* enum hv_vp_dispatch_event */
} __packed;
struct hv_input_modify_sparse_spa_page_host_access {
u32 host_access : 2;
u32 reserved : 30;
u32 flags;
u64 partition_id;
u64 spa_page_list[];
} __packed;
/* hv_input_modify_sparse_spa_page_host_access flags */
#define HV_MODIFY_SPA_PAGE_HOST_ACCESS_MAKE_EXCLUSIVE 0x1
#define HV_MODIFY_SPA_PAGE_HOST_ACCESS_MAKE_SHARED 0x2
#define HV_MODIFY_SPA_PAGE_HOST_ACCESS_LARGE_PAGE 0x4
#define HV_MODIFY_SPA_PAGE_HOST_ACCESS_HUGE_PAGE 0x8
#endif /* _HV_HVHDK_H */