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/* SPDX-License-Identifier: GPL-2.0 */
/*
* This file contains definitions from Hyper-V Hypervisor Top-Level Functional
* Specification (TLFS):
* https://docs.microsoft.com/en-us/virtualization/hyper-v-on-windows/reference/tlfs
*/
#ifndef _ASM_GENERIC_HYPERV_TLFS_H
#define _ASM_GENERIC_HYPERV_TLFS_H
#include <linux/types.h>
#include <linux/bits.h>
#include <linux/time64.h>
/*
* While not explicitly listed in the TLFS, Hyper-V always runs with a page size
* of 4096. These definitions are used when communicating with Hyper-V using
* guest physical pages and guest physical page addresses, since the guest page
* size may not be 4096 on all architectures.
*/
#define HV_HYP_PAGE_SHIFT 12
#define HV_HYP_PAGE_SIZE BIT(HV_HYP_PAGE_SHIFT)
#define HV_HYP_PAGE_MASK (~(HV_HYP_PAGE_SIZE - 1))
/*
* Hyper-V provides two categories of flags relevant to guest VMs. The
* "Features" category indicates specific functionality that is available
* to guests on this particular instance of Hyper-V. The "Features"
* are presented in four groups, each of which is 32 bits. The group A
* and B definitions are common across architectures and are listed here.
* However, not all flags are relevant on all architectures.
*
* Groups C and D vary across architectures and are listed in the
* architecture specific portion of hyperv-tlfs.h. Some of these flags exist
* on multiple architectures, but the bit positions are different so they
* cannot appear in the generic portion of hyperv-tlfs.h.
*
* The "Enlightenments" category provides recommendations on whether to use
* specific enlightenments that are available. The Enlighenments are a single
* group of 32 bits, but they vary across architectures and are listed in
* the architecture specific portion of hyperv-tlfs.h.
*/
/*
* Group A Features.
*/
/* VP Runtime register available */
#define HV_MSR_VP_RUNTIME_AVAILABLE BIT(0)
/* Partition Reference Counter available*/
#define HV_MSR_TIME_REF_COUNT_AVAILABLE BIT(1)
/* Basic SynIC register available */
#define HV_MSR_SYNIC_AVAILABLE BIT(2)
/* Synthetic Timer registers available */
#define HV_MSR_SYNTIMER_AVAILABLE BIT(3)
/* Virtual APIC assist and VP assist page registers available */
#define HV_MSR_APIC_ACCESS_AVAILABLE BIT(4)
/* Hypercall and Guest OS ID registers available*/
#define HV_MSR_HYPERCALL_AVAILABLE BIT(5)
/* Access virtual processor index register available*/
#define HV_MSR_VP_INDEX_AVAILABLE BIT(6)
/* Virtual system reset register available*/
#define HV_MSR_RESET_AVAILABLE BIT(7)
/* Access statistics page registers available */
#define HV_MSR_STAT_PAGES_AVAILABLE BIT(8)
/* Partition reference TSC register is available */
#define HV_MSR_REFERENCE_TSC_AVAILABLE BIT(9)
/* Partition Guest IDLE register is available */
#define HV_MSR_GUEST_IDLE_AVAILABLE BIT(10)
/* Partition local APIC and TSC frequency registers available */
#define HV_ACCESS_FREQUENCY_MSRS BIT(11)
/* AccessReenlightenmentControls privilege */
#define HV_ACCESS_REENLIGHTENMENT BIT(13)
/* AccessTscInvariantControls privilege */
#define HV_ACCESS_TSC_INVARIANT BIT(15)
/*
* Group B features.
*/
#define HV_CREATE_PARTITIONS BIT(0)
#define HV_ACCESS_PARTITION_ID BIT(1)
#define HV_ACCESS_MEMORY_POOL BIT(2)
#define HV_ADJUST_MESSAGE_BUFFERS BIT(3)
#define HV_POST_MESSAGES BIT(4)
#define HV_SIGNAL_EVENTS BIT(5)
#define HV_CREATE_PORT BIT(6)
#define HV_CONNECT_PORT BIT(7)
#define HV_ACCESS_STATS BIT(8)
#define HV_DEBUGGING BIT(11)
#define HV_CPU_MANAGEMENT BIT(12)
#define HV_ENABLE_EXTENDED_HYPERCALLS BIT(20)
#define HV_ISOLATION BIT(22)
/*
* TSC page layout.
*/
struct ms_hyperv_tsc_page {
volatile u32 tsc_sequence;
u32 reserved1;
volatile u64 tsc_scale;
volatile s64 tsc_offset;
} __packed;
union hv_reference_tsc_msr {
u64 as_uint64;
struct {
u64 enable:1;
u64 reserved:11;
u64 pfn:52;
} __packed;
};
/*
* The guest OS needs to register the guest ID with the hypervisor.
* The guest ID is a 64 bit entity and the structure of this ID is
* specified in the Hyper-V specification:
*
* msdn.microsoft.com/en-us/library/windows/hardware/ff542653%28v=vs.85%29.aspx
*
* While the current guideline does not specify how Linux guest ID(s)
* need to be generated, our plan is to publish the guidelines for
* Linux and other guest operating systems that currently are hosted
* on Hyper-V. The implementation here conforms to this yet
* unpublished guidelines.
*
*
* Bit(s)
* 63 - Indicates if the OS is Open Source or not; 1 is Open Source
* 62:56 - Os Type; Linux is 0x100
* 55:48 - Distro specific identification
* 47:16 - Linux kernel version number
* 15:0 - Distro specific identification
*
*
*/
#define HV_LINUX_VENDOR_ID 0x8100
/*
* Crash notification flags.
*/
#define HV_CRASH_CTL_CRASH_NOTIFY_MSG BIT_ULL(62)
#define HV_CRASH_CTL_CRASH_NOTIFY BIT_ULL(63)
/* Declare the various hypercall operations. */
#define HVCALL_FLUSH_VIRTUAL_ADDRESS_SPACE 0x0002
#define HVCALL_FLUSH_VIRTUAL_ADDRESS_LIST 0x0003
#define HVCALL_ENABLE_VP_VTL 0x000f
#define HVCALL_NOTIFY_LONG_SPIN_WAIT 0x0008
#define HVCALL_SEND_IPI 0x000b
#define HVCALL_FLUSH_VIRTUAL_ADDRESS_SPACE_EX 0x0013
#define HVCALL_FLUSH_VIRTUAL_ADDRESS_LIST_EX 0x0014
#define HVCALL_SEND_IPI_EX 0x0015
#define HVCALL_GET_PARTITION_ID 0x0046
#define HVCALL_DEPOSIT_MEMORY 0x0048
#define HVCALL_CREATE_VP 0x004e
#define HVCALL_GET_VP_REGISTERS 0x0050
#define HVCALL_SET_VP_REGISTERS 0x0051
#define HVCALL_POST_MESSAGE 0x005c
#define HVCALL_SIGNAL_EVENT 0x005d
#define HVCALL_POST_DEBUG_DATA 0x0069
#define HVCALL_RETRIEVE_DEBUG_DATA 0x006a
#define HVCALL_RESET_DEBUG_SESSION 0x006b
#define HVCALL_ADD_LOGICAL_PROCESSOR 0x0076
#define HVCALL_MAP_DEVICE_INTERRUPT 0x007c
#define HVCALL_UNMAP_DEVICE_INTERRUPT 0x007d
#define HVCALL_RETARGET_INTERRUPT 0x007e
#define HVCALL_START_VP 0x0099
#define HVCALL_GET_VP_ID_FROM_APIC_ID 0x009a
#define HVCALL_FLUSH_GUEST_PHYSICAL_ADDRESS_SPACE 0x00af
#define HVCALL_FLUSH_GUEST_PHYSICAL_ADDRESS_LIST 0x00b0
#define HVCALL_MODIFY_SPARSE_GPA_PAGE_HOST_VISIBILITY 0x00db
#define HVCALL_MMIO_READ 0x0106
#define HVCALL_MMIO_WRITE 0x0107
/* Extended hypercalls */
#define HV_EXT_CALL_QUERY_CAPABILITIES 0x8001
#define HV_EXT_CALL_MEMORY_HEAT_HINT 0x8003
#define HV_FLUSH_ALL_PROCESSORS BIT(0)
#define HV_FLUSH_ALL_VIRTUAL_ADDRESS_SPACES BIT(1)
#define HV_FLUSH_NON_GLOBAL_MAPPINGS_ONLY BIT(2)
#define HV_FLUSH_USE_EXTENDED_RANGE_FORMAT BIT(3)
/* Extended capability bits */
#define HV_EXT_CAPABILITY_MEMORY_COLD_DISCARD_HINT BIT(8)
enum HV_GENERIC_SET_FORMAT {
HV_GENERIC_SET_SPARSE_4K,
HV_GENERIC_SET_ALL,
};
#define HV_PARTITION_ID_SELF ((u64)-1)
#define HV_VP_INDEX_SELF ((u32)-2)
#define HV_HYPERCALL_RESULT_MASK GENMASK_ULL(15, 0)
#define HV_HYPERCALL_FAST_BIT BIT(16)
#define HV_HYPERCALL_VARHEAD_OFFSET 17
#define HV_HYPERCALL_VARHEAD_MASK GENMASK_ULL(26, 17)
#define HV_HYPERCALL_RSVD0_MASK GENMASK_ULL(31, 27)
#define HV_HYPERCALL_NESTED BIT_ULL(31)
#define HV_HYPERCALL_REP_COMP_OFFSET 32
#define HV_HYPERCALL_REP_COMP_1 BIT_ULL(32)
#define HV_HYPERCALL_REP_COMP_MASK GENMASK_ULL(43, 32)
#define HV_HYPERCALL_RSVD1_MASK GENMASK_ULL(47, 44)
#define HV_HYPERCALL_REP_START_OFFSET 48
#define HV_HYPERCALL_REP_START_MASK GENMASK_ULL(59, 48)
#define HV_HYPERCALL_RSVD2_MASK GENMASK_ULL(63, 60)
#define HV_HYPERCALL_RSVD_MASK (HV_HYPERCALL_RSVD0_MASK | \
HV_HYPERCALL_RSVD1_MASK | \
HV_HYPERCALL_RSVD2_MASK)
/* hypercall status code */
#define HV_STATUS_SUCCESS 0
#define HV_STATUS_INVALID_HYPERCALL_CODE 2
#define HV_STATUS_INVALID_HYPERCALL_INPUT 3
#define HV_STATUS_INVALID_ALIGNMENT 4
#define HV_STATUS_INVALID_PARAMETER 5
#define HV_STATUS_ACCESS_DENIED 6
#define HV_STATUS_OPERATION_DENIED 8
#define HV_STATUS_INSUFFICIENT_MEMORY 11
#define HV_STATUS_INVALID_PORT_ID 17
#define HV_STATUS_INVALID_CONNECTION_ID 18
#define HV_STATUS_INSUFFICIENT_BUFFERS 19
#define HV_STATUS_TIME_OUT 120
#define HV_STATUS_VTL_ALREADY_ENABLED 134
/*
* The Hyper-V TimeRefCount register and the TSC
* page provide a guest VM clock with 100ns tick rate
*/
#define HV_CLOCK_HZ (NSEC_PER_SEC/100)
/* Define the number of synthetic interrupt sources. */
#define HV_SYNIC_SINT_COUNT (16)
/* Define the expected SynIC version. */
#define HV_SYNIC_VERSION_1 (0x1)
/* Valid SynIC vectors are 16-255. */
#define HV_SYNIC_FIRST_VALID_VECTOR (16)
#define HV_SYNIC_CONTROL_ENABLE (1ULL << 0)
#define HV_SYNIC_SIMP_ENABLE (1ULL << 0)
#define HV_SYNIC_SIEFP_ENABLE (1ULL << 0)
#define HV_SYNIC_SINT_MASKED (1ULL << 16)
#define HV_SYNIC_SINT_AUTO_EOI (1ULL << 17)
#define HV_SYNIC_SINT_VECTOR_MASK (0xFF)
#define HV_SYNIC_STIMER_COUNT (4)
/* Define synthetic interrupt controller message constants. */
#define HV_MESSAGE_SIZE (256)
#define HV_MESSAGE_PAYLOAD_BYTE_COUNT (240)
#define HV_MESSAGE_PAYLOAD_QWORD_COUNT (30)
/*
* Define hypervisor message types. Some of the message types
* are x86/x64 specific, but there's no good way to separate
* them out into the arch-specific version of hyperv-tlfs.h
* because C doesn't provide a way to extend enum types.
* Keeping them all in the arch neutral hyperv-tlfs.h seems
* the least messy compromise.
*/
enum hv_message_type {
HVMSG_NONE = 0x00000000,
/* Memory access messages. */
HVMSG_UNMAPPED_GPA = 0x80000000,
HVMSG_GPA_INTERCEPT = 0x80000001,
/* Timer notification messages. */
HVMSG_TIMER_EXPIRED = 0x80000010,
/* Error messages. */
HVMSG_INVALID_VP_REGISTER_VALUE = 0x80000020,
HVMSG_UNRECOVERABLE_EXCEPTION = 0x80000021,
HVMSG_UNSUPPORTED_FEATURE = 0x80000022,
/* Trace buffer complete messages. */
HVMSG_EVENTLOG_BUFFERCOMPLETE = 0x80000040,
/* Platform-specific processor intercept messages. */
HVMSG_X64_IOPORT_INTERCEPT = 0x80010000,
HVMSG_X64_MSR_INTERCEPT = 0x80010001,
HVMSG_X64_CPUID_INTERCEPT = 0x80010002,
HVMSG_X64_EXCEPTION_INTERCEPT = 0x80010003,
HVMSG_X64_APIC_EOI = 0x80010004,
HVMSG_X64_LEGACY_FP_ERROR = 0x80010005
};
/* Define synthetic interrupt controller message flags. */
union hv_message_flags {
__u8 asu8;
struct {
__u8 msg_pending:1;
__u8 reserved:7;
} __packed;
};
/* Define port identifier type. */
union hv_port_id {
__u32 asu32;
struct {
__u32 id:24;
__u32 reserved:8;
} __packed u;
};
/* Define synthetic interrupt controller message header. */
struct hv_message_header {
__u32 message_type;
__u8 payload_size;
union hv_message_flags message_flags;
__u8 reserved[2];
union {
__u64 sender;
union hv_port_id port;
};
} __packed;
/* Define synthetic interrupt controller message format. */
struct hv_message {
struct hv_message_header header;
union {
__u64 payload[HV_MESSAGE_PAYLOAD_QWORD_COUNT];
} u;
} __packed;
/* Define the synthetic interrupt message page layout. */
struct hv_message_page {
struct hv_message sint_message[HV_SYNIC_SINT_COUNT];
} __packed;
/* Define timer message payload structure. */
struct hv_timer_message_payload {
__u32 timer_index;
__u32 reserved;
__u64 expiration_time; /* When the timer expired */
__u64 delivery_time; /* When the message was delivered */
} __packed;
/* Define synthetic interrupt controller flag constants. */
#define HV_EVENT_FLAGS_COUNT (256 * 8)
#define HV_EVENT_FLAGS_LONG_COUNT (256 / sizeof(unsigned long))
/*
* Synthetic timer configuration.
*/
union hv_stimer_config {
u64 as_uint64;
struct {
u64 enable:1;
u64 periodic:1;
u64 lazy:1;
u64 auto_enable:1;
u64 apic_vector:8;
u64 direct_mode:1;
u64 reserved_z0:3;
u64 sintx:4;
u64 reserved_z1:44;
} __packed;
};
/* Define the synthetic interrupt controller event flags format. */
union hv_synic_event_flags {
unsigned long flags[HV_EVENT_FLAGS_LONG_COUNT];
};
/* Define SynIC control register. */
union hv_synic_scontrol {
u64 as_uint64;
struct {
u64 enable:1;
u64 reserved:63;
} __packed;
};
/* Define synthetic interrupt source. */
union hv_synic_sint {
u64 as_uint64;
struct {
u64 vector:8;
u64 reserved1:8;
u64 masked:1;
u64 auto_eoi:1;
u64 polling:1;
u64 reserved2:45;
} __packed;
};
/* Define the format of the SIMP register */
union hv_synic_simp {
u64 as_uint64;
struct {
u64 simp_enabled:1;
u64 preserved:11;
u64 base_simp_gpa:52;
} __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;
};
struct hv_vpset {
u64 format;
u64 valid_bank_mask;
u64 bank_contents[];
} __packed;
/* The maximum number of sparse vCPU banks which can be encoded by 'struct hv_vpset' */
#define HV_MAX_SPARSE_VCPU_BANKS (64)
/* The number of vCPUs in one sparse bank */
#define HV_VCPUS_PER_SPARSE_BANK (64)
/* HvCallSendSyntheticClusterIpi hypercall */
struct hv_send_ipi {
u32 vector;
u32 reserved;
u64 cpu_mask;
} __packed;
/* HvCallSendSyntheticClusterIpiEx hypercall */
struct hv_send_ipi_ex {
u32 vector;
u32 reserved;
struct hv_vpset vp_set;
} __packed;
/* HvFlushGuestPhysicalAddressSpace hypercalls */
struct hv_guest_mapping_flush {
u64 address_space;
u64 flags;
} __packed;
/*
* HV_MAX_FLUSH_PAGES = "additional_pages" + 1. It's limited
* by the bitwidth of "additional_pages" in union hv_gpa_page_range.
*/
#define HV_MAX_FLUSH_PAGES (2048)
#define HV_GPA_PAGE_RANGE_PAGE_SIZE_2MB 0
#define HV_GPA_PAGE_RANGE_PAGE_SIZE_1GB 1
/* HvFlushGuestPhysicalAddressList, HvExtCallMemoryHeatHint hypercall */
union hv_gpa_page_range {
u64 address_space;
struct {
u64 additional_pages:11;
u64 largepage:1;
u64 basepfn:52;
} page;
struct {
u64 reserved:12;
u64 page_size:1;
u64 reserved1:8;
u64 base_large_pfn:43;
};
};
/*
* All input flush parameters should be in single page. The max flush
* count is equal with how many entries of union hv_gpa_page_range can
* be populated into the input parameter page.
*/
#define HV_MAX_FLUSH_REP_COUNT ((HV_HYP_PAGE_SIZE - 2 * sizeof(u64)) / \
sizeof(union hv_gpa_page_range))
struct hv_guest_mapping_flush_list {
u64 address_space;
u64 flags;
union hv_gpa_page_range gpa_list[HV_MAX_FLUSH_REP_COUNT];
};
/* HvFlushVirtualAddressSpace, HvFlushVirtualAddressList hypercalls */
struct hv_tlb_flush {
u64 address_space;
u64 flags;
u64 processor_mask;
u64 gva_list[];
} __packed;
/* HvFlushVirtualAddressSpaceEx, HvFlushVirtualAddressListEx hypercalls */
struct hv_tlb_flush_ex {
u64 address_space;
u64 flags;
struct hv_vpset hv_vp_set;
u64 gva_list[];
} __packed;
/* HvGetPartitionId hypercall (output only) */
struct hv_get_partition_id {
u64 partition_id;
} __packed;
/* HvDepositMemory hypercall */
struct hv_deposit_memory {
u64 partition_id;
u64 gpa_page_list[];
} __packed;
struct hv_proximity_domain_flags {
u32 proximity_preferred : 1;
u32 reserved : 30;
u32 proximity_info_valid : 1;
} __packed;
/* Not a union in windows but useful for zeroing */
union hv_proximity_domain_info {
struct {
u32 domain_id;
struct hv_proximity_domain_flags flags;
};
u64 as_uint64;
} __packed;
struct hv_lp_startup_status {
u64 hv_status;
u64 substatus1;
u64 substatus2;
u64 substatus3;
u64 substatus4;
u64 substatus5;
u64 substatus6;
} __packed;
/* HvAddLogicalProcessor hypercall */
struct hv_add_logical_processor_in {
u32 lp_index;
u32 apic_id;
union hv_proximity_domain_info proximity_domain_info;
u64 flags;
} __packed;
struct hv_add_logical_processor_out {
struct hv_lp_startup_status startup_status;
} __packed;
enum HV_SUBNODE_TYPE
{
HvSubnodeAny = 0,
HvSubnodeSocket = 1,
HvSubnodeAmdNode = 2,
HvSubnodeL3 = 3,
HvSubnodeCount = 4,
HvSubnodeInvalid = -1
};
/* HvCreateVp hypercall */
struct hv_create_vp {
u64 partition_id;
u32 vp_index;
u8 padding[3];
u8 subnode_type;
u64 subnode_id;
union hv_proximity_domain_info proximity_domain_info;
u64 flags;
} __packed;
enum hv_interrupt_source {
HV_INTERRUPT_SOURCE_MSI = 1, /* MSI and MSI-X */
HV_INTERRUPT_SOURCE_IOAPIC,
};
union hv_ioapic_rte {
u64 as_uint64;
struct {
u32 vector:8;
u32 delivery_mode:3;
u32 destination_mode:1;
u32 delivery_status:1;
u32 interrupt_polarity:1;
u32 remote_irr:1;
u32 trigger_mode:1;
u32 interrupt_mask:1;
u32 reserved1:15;
u32 reserved2:24;
u32 destination_id:8;
};
struct {
u32 low_uint32;
u32 high_uint32;
};
} __packed;
struct hv_interrupt_entry {
u32 source;
u32 reserved1;
union {
union hv_msi_entry msi_entry;
union hv_ioapic_rte ioapic_rte;
};
} __packed;
/*
* flags for hv_device_interrupt_target.flags
*/
#define HV_DEVICE_INTERRUPT_TARGET_MULTICAST 1
#define HV_DEVICE_INTERRUPT_TARGET_PROCESSOR_SET 2
struct hv_device_interrupt_target {
u32 vector;
u32 flags;
union {
u64 vp_mask;
struct hv_vpset vp_set;
};
} __packed;
struct hv_retarget_device_interrupt {
u64 partition_id; /* use "self" */
u64 device_id;
struct hv_interrupt_entry int_entry;
u64 reserved2;
struct hv_device_interrupt_target int_target;
} __packed __aligned(8);
/* HvGetVpRegisters hypercall input with variable size reg name list*/
struct hv_get_vp_registers_input {
struct {
u64 partitionid;
u32 vpindex;
u8 inputvtl;
u8 padding[3];
} header;
struct input {
u32 name0;
u32 name1;
} element[];
} __packed;
/* HvGetVpRegisters returns an array of these output elements */
struct hv_get_vp_registers_output {
union {
struct {
u32 a;
u32 b;
u32 c;
u32 d;
} as32 __packed;
struct {
u64 low;
u64 high;
} as64 __packed;
};
};
/* HvSetVpRegisters hypercall with variable size reg name/value list*/
struct hv_set_vp_registers_input {
struct {
u64 partitionid;
u32 vpindex;
u8 inputvtl;
u8 padding[3];
} header;
struct {
u32 name;
u32 padding1;
u64 padding2;
u64 valuelow;
u64 valuehigh;
} element[];
} __packed;
enum hv_device_type {
HV_DEVICE_TYPE_LOGICAL = 0,
HV_DEVICE_TYPE_PCI = 1,
HV_DEVICE_TYPE_IOAPIC = 2,
HV_DEVICE_TYPE_ACPI = 3,
};
typedef u16 hv_pci_rid;
typedef u16 hv_pci_segment;
typedef u64 hv_logical_device_id;
union hv_pci_bdf {
u16 as_uint16;
struct {
u8 function:3;
u8 device:5;
u8 bus;
};
} __packed;
union hv_pci_bus_range {
u16 as_uint16;
struct {
u8 subordinate_bus;
u8 secondary_bus;
};
} __packed;
union hv_device_id {
u64 as_uint64;
struct {
u64 reserved0:62;
u64 device_type:2;
};
/* HV_DEVICE_TYPE_LOGICAL */
struct {
u64 id:62;
u64 device_type:2;
} logical;
/* HV_DEVICE_TYPE_PCI */
struct {
union {
hv_pci_rid rid;
union hv_pci_bdf bdf;
};
hv_pci_segment segment;
union hv_pci_bus_range shadow_bus_range;
u16 phantom_function_bits:2;
u16 source_shadow:1;
u16 rsvdz0:11;
u16 device_type:2;
} pci;
/* HV_DEVICE_TYPE_IOAPIC */
struct {
u8 ioapic_id;
u8 rsvdz0;
u16 rsvdz1;
u16 rsvdz2;
u16 rsvdz3:14;
u16 device_type:2;
} ioapic;
/* HV_DEVICE_TYPE_ACPI */
struct {
u32 input_mapping_base;
u32 input_mapping_count:30;
u32 device_type:2;
} acpi;
} __packed;
enum hv_interrupt_trigger_mode {
HV_INTERRUPT_TRIGGER_MODE_EDGE = 0,
HV_INTERRUPT_TRIGGER_MODE_LEVEL = 1,
};
struct hv_device_interrupt_descriptor {
u32 interrupt_type;
u32 trigger_mode;
u32 vector_count;
u32 reserved;
struct hv_device_interrupt_target target;
} __packed;
struct hv_input_map_device_interrupt {
u64 partition_id;
u64 device_id;
u64 flags;
struct hv_interrupt_entry logical_interrupt_entry;
struct hv_device_interrupt_descriptor interrupt_descriptor;
} __packed;
struct hv_output_map_device_interrupt {
struct hv_interrupt_entry interrupt_entry;
} __packed;
struct hv_input_unmap_device_interrupt {
u64 partition_id;
u64 device_id;
struct hv_interrupt_entry interrupt_entry;
} __packed;
#define HV_SOURCE_SHADOW_NONE 0x0
#define HV_SOURCE_SHADOW_BRIDGE_BUS_RANGE 0x1
/*
* The whole argument should fit in a page to be able to pass to the hypervisor
* in one hypercall.
*/
#define HV_MEMORY_HINT_MAX_GPA_PAGE_RANGES \
((HV_HYP_PAGE_SIZE - sizeof(struct hv_memory_hint)) / \
sizeof(union hv_gpa_page_range))
/* HvExtCallMemoryHeatHint hypercall */
#define HV_EXT_MEMORY_HEAT_HINT_TYPE_COLD_DISCARD 2
struct hv_memory_hint {
u64 type:2;
u64 reserved:62;
union hv_gpa_page_range ranges[];
} __packed;
/* Data structures for HVCALL_MMIO_READ and HVCALL_MMIO_WRITE */
#define HV_HYPERCALL_MMIO_MAX_DATA_LENGTH 64
struct hv_mmio_read_input {
u64 gpa;
u32 size;
u32 reserved;
} __packed;
struct hv_mmio_read_output {
u8 data[HV_HYPERCALL_MMIO_MAX_DATA_LENGTH];
} __packed;
struct hv_mmio_write_input {
u64 gpa;
u32 size;
u32 reserved;
u8 data[HV_HYPERCALL_MMIO_MAX_DATA_LENGTH];
} __packed;
#endif
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