reactos/sdk/include/wdf/kmdf/1.17/wdfwmi.h

647 lines
14 KiB
C

/*++
Copyright (c) Microsoft Corporation. All rights reserved.
_WdfVersionBuild_
Module Name:
WdfWMI.h
Abstract:
This is the C interface for WMI support
Environment:
kernel mode only
Revision History:
--*/
//
// NOTE: This header is generated by stubwork. Please make any
// modifications to the corresponding template files
// (.x or .y) and use stubwork to regenerate the header
//
#ifndef _WDFWMI_H_
#define _WDFWMI_H_
#ifndef WDF_EXTERN_C
#ifdef __cplusplus
#define WDF_EXTERN_C extern "C"
#define WDF_EXTERN_C_START extern "C" {
#define WDF_EXTERN_C_END }
#else
#define WDF_EXTERN_C
#define WDF_EXTERN_C_START
#define WDF_EXTERN_C_END
#endif
#endif
WDF_EXTERN_C_START
#if (NTDDI_VERSION >= NTDDI_WIN2K)
typedef enum _WDF_WMI_PROVIDER_CONTROL {
WdfWmiControlInvalid = 0,
WdfWmiEventControl,
WdfWmiInstanceControl,
} WDF_WMI_PROVIDER_CONTROL;
//
// WdfWmiProviderExpensive:
// The provider's operations are expensive in terms of resources
//
// WdfWmiProviderReadOnly:
// The provider is read only. No set or set data item callbacks will be
// made on all instances of this provider.
//
// WdfWmiProviderEventOnly:
// Data item is being used to fire events only. It will not receive any
// callbacks on it to get / set / execute buffers.
//
typedef enum _WDF_WMI_PROVIDER_FLAGS {
WdfWmiProviderEventOnly = 0x0001,
WdfWmiProviderExpensive = 0x0002,
WdfWmiProviderTracing = 0x0004,
WdfWmiProviderValidFlags = WdfWmiProviderEventOnly | WdfWmiProviderExpensive | WdfWmiProviderTracing,
} WDF_WMI_PROVIDER_FLAGS;
typedef
_Function_class_(EVT_WDF_WMI_INSTANCE_QUERY_INSTANCE)
_IRQL_requires_same_
_IRQL_requires_max_(PASSIVE_LEVEL)
NTSTATUS
STDCALL
EVT_WDF_WMI_INSTANCE_QUERY_INSTANCE(
_In_
WDFWMIINSTANCE WmiInstance,
_In_
ULONG OutBufferSize,
_Out_writes_bytes_to_(OutBufferSize, *BufferUsed)
PVOID OutBuffer,
_Out_
PULONG BufferUsed
);
typedef EVT_WDF_WMI_INSTANCE_QUERY_INSTANCE *PFN_WDF_WMI_INSTANCE_QUERY_INSTANCE;
typedef
_Function_class_(EVT_WDF_WMI_INSTANCE_SET_INSTANCE)
_IRQL_requires_same_
_IRQL_requires_max_(PASSIVE_LEVEL)
NTSTATUS
STDCALL
EVT_WDF_WMI_INSTANCE_SET_INSTANCE(
_In_
WDFWMIINSTANCE WmiInstance,
_In_
ULONG InBufferSize,
_In_reads_bytes_(InBufferSize)
PVOID InBuffer
);
typedef EVT_WDF_WMI_INSTANCE_SET_INSTANCE *PFN_WDF_WMI_INSTANCE_SET_INSTANCE;
typedef
_Function_class_(EVT_WDF_WMI_INSTANCE_SET_ITEM)
_IRQL_requires_same_
_IRQL_requires_max_(PASSIVE_LEVEL)
NTSTATUS
STDCALL
EVT_WDF_WMI_INSTANCE_SET_ITEM(
_In_
WDFWMIINSTANCE WmiInstance,
_In_
ULONG DataItemId,
_In_
ULONG InBufferSize,
_In_reads_bytes_(InBufferSize)
PVOID InBuffer
);
typedef EVT_WDF_WMI_INSTANCE_SET_ITEM *PFN_WDF_WMI_INSTANCE_SET_ITEM;
typedef
_Function_class_(EVT_WDF_WMI_INSTANCE_EXECUTE_METHOD)
_IRQL_requires_same_
_IRQL_requires_max_(PASSIVE_LEVEL)
NTSTATUS
STDCALL
EVT_WDF_WMI_INSTANCE_EXECUTE_METHOD(
_In_
WDFWMIINSTANCE WmiInstance,
_In_
ULONG MethodId,
_In_
ULONG InBufferSize,
_In_
ULONG OutBufferSize,
_When_(InBufferSize >= OutBufferSize, _Inout_updates_bytes_(InBufferSize))
_When_(InBufferSize < OutBufferSize, _Inout_updates_bytes_(OutBufferSize))
PVOID Buffer,
_Out_
PULONG BufferUsed
);
typedef EVT_WDF_WMI_INSTANCE_EXECUTE_METHOD *PFN_WDF_WMI_INSTANCE_EXECUTE_METHOD;
typedef
_Function_class_(EVT_WDF_WMI_PROVIDER_FUNCTION_CONTROL)
_IRQL_requires_same_
_IRQL_requires_max_(PASSIVE_LEVEL)
NTSTATUS
STDCALL
EVT_WDF_WMI_PROVIDER_FUNCTION_CONTROL(
_In_
WDFWMIPROVIDER WmiProvider,
_In_
WDF_WMI_PROVIDER_CONTROL Control,
_In_
BOOLEAN Enable
);
typedef EVT_WDF_WMI_PROVIDER_FUNCTION_CONTROL *PFN_WDF_WMI_PROVIDER_FUNCTION_CONTROL;
typedef struct _WDF_WMI_PROVIDER_CONFIG {
//
// Size of this structure in bytes
//
ULONG Size;
//
// The GUID being registered
//
GUID Guid;
//
// Combination of values from the enum WDF_WMI_PROVIDER_FLAGS
//
ULONG Flags;
//
// Minimum expected buffer size for query and set instance requests.
// Ignored if WdfWmiProviderEventOnly is set in Flags.
//
ULONG MinInstanceBufferSize;
//
// Callback when caller is opening a provider which ha been marked as
// expensive or when a caller is interested in events.
//
PFN_WDF_WMI_PROVIDER_FUNCTION_CONTROL EvtWmiProviderFunctionControl;
} WDF_WMI_PROVIDER_CONFIG, *PWDF_WMI_PROVIDER_CONFIG;
FORCEINLINE
VOID
WDF_WMI_PROVIDER_CONFIG_INIT(
_Out_ PWDF_WMI_PROVIDER_CONFIG Config,
_In_ CONST GUID* Guid
)
{
RtlZeroMemory(Config, sizeof(WDF_WMI_PROVIDER_CONFIG));
Config->Size = sizeof(WDF_WMI_PROVIDER_CONFIG);
RtlCopyMemory(&Config->Guid, Guid, sizeof(GUID));
}
typedef struct _WDF_WMI_INSTANCE_CONFIG {
//
// Size of the structure in bytes
//
ULONG Size;
//
// Optional parameter. If NULL, ProviderConfig must be set to a valid pointer
// value. If specified, indicates the provider to create an instance for.
//
WDFWMIPROVIDER Provider;
//
// Optional parameter. If NULL, Provider must be set to a valid handle
// value. If specifeid, indicates the configuration for a provider to be
// created and for this instance to be associated with.
//
PWDF_WMI_PROVIDER_CONFIG ProviderConfig;
//
// If the Provider is configured as read only and this field is set to TRUE,
// the EvtWmiInstanceQueryInstance is ignored and WDF will blindly copy the
// context associated with this instance (using RtlCopyMemory, with no locks
// held) into the query buffer.
//
BOOLEAN UseContextForQuery;
//
// If TRUE, the instance will be registered as well as created.
//
BOOLEAN Register;
//
// Callback when caller wants to query the entire data item's buffer.
//
PFN_WDF_WMI_INSTANCE_QUERY_INSTANCE EvtWmiInstanceQueryInstance;
//
// Callback when caller wants to set the entire data item's buffer.
//
PFN_WDF_WMI_INSTANCE_SET_INSTANCE EvtWmiInstanceSetInstance;
//
// Callback when caller wants to set a single field in the data item's buffer
//
PFN_WDF_WMI_INSTANCE_SET_ITEM EvtWmiInstanceSetItem;
//
// Callback when caller wants to execute a method on the data item.
//
PFN_WDF_WMI_INSTANCE_EXECUTE_METHOD EvtWmiInstanceExecuteMethod;
} WDF_WMI_INSTANCE_CONFIG, *PWDF_WMI_INSTANCE_CONFIG;
FORCEINLINE
VOID
WDF_WMI_INSTANCE_CONFIG_INIT_PROVIDER(
_Out_ PWDF_WMI_INSTANCE_CONFIG Config,
_In_ WDFWMIPROVIDER Provider
)
{
RtlZeroMemory(Config, sizeof(WDF_WMI_INSTANCE_CONFIG));
Config->Size = sizeof(WDF_WMI_INSTANCE_CONFIG);
Config->Provider = Provider;
}
FORCEINLINE
VOID
WDF_WMI_INSTANCE_CONFIG_INIT_PROVIDER_CONFIG(
_Out_ PWDF_WMI_INSTANCE_CONFIG Config,
_In_ PWDF_WMI_PROVIDER_CONFIG ProviderConfig
)
{
RtlZeroMemory(Config, sizeof(WDF_WMI_INSTANCE_CONFIG));
Config->Size = sizeof(WDF_WMI_INSTANCE_CONFIG);
Config->ProviderConfig = ProviderConfig;
}
FORCEINLINE
NTSTATUS
WDF_WMI_BUFFER_APPEND_STRING(
_Out_writes_bytes_(BufferLength) PVOID Buffer,
_In_ ULONG BufferLength,
_In_ PCUNICODE_STRING String,
_Out_ PULONG RequiredSize
)
{
//
// Compute the length of buffer we need to use. Upon error the caller can
// use this length to report the required length. On success, the caller
// can use this length to know how many bytes were written.
//
*RequiredSize = String->Length + sizeof(USHORT);
//
// UNICODE_STRING.Length is the length of the string in bytes, not characters
//
// First check to see if there is enough space
// 1) to store the length of the string
// 2) to store the string itself
//
if (BufferLength < (String->Length + sizeof(USHORT))) {
//
// Not enough room in the string, report back how big a buffer is
// required.
//
return STATUS_BUFFER_TOO_SMALL;
}
//
// Store the length of the string
//
*(USHORT *) Buffer = String->Length;
//
// Copy the string to the buffer
//
RtlCopyMemory(WDF_PTR_ADD_OFFSET(Buffer, sizeof(USHORT)),
String->Buffer,
String->Length);
return STATUS_SUCCESS;
}
//
// WDF Function: WdfWmiProviderCreate
//
typedef
_Must_inspect_result_
_IRQL_requires_max_(DISPATCH_LEVEL)
WDFAPI
NTSTATUS
(STDCALL *PFN_WDFWMIPROVIDERCREATE)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
WDFDEVICE Device,
_In_
PWDF_WMI_PROVIDER_CONFIG WmiProviderConfig,
_In_opt_
PWDF_OBJECT_ATTRIBUTES ProviderAttributes,
_Out_
WDFWMIPROVIDER* WmiProvider
);
_Must_inspect_result_
_IRQL_requires_max_(DISPATCH_LEVEL)
FORCEINLINE
NTSTATUS
WdfWmiProviderCreate(
_In_
WDFDEVICE Device,
_In_
PWDF_WMI_PROVIDER_CONFIG WmiProviderConfig,
_In_opt_
PWDF_OBJECT_ATTRIBUTES ProviderAttributes,
_Out_
WDFWMIPROVIDER* WmiProvider
)
{
return ((PFN_WDFWMIPROVIDERCREATE) WdfFunctions[WdfWmiProviderCreateTableIndex])(WdfDriverGlobals, Device, WmiProviderConfig, ProviderAttributes, WmiProvider);
}
//
// WDF Function: WdfWmiProviderGetDevice
//
typedef
_IRQL_requires_max_(DISPATCH_LEVEL)
WDFAPI
WDFDEVICE
(STDCALL *PFN_WDFWMIPROVIDERGETDEVICE)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
WDFWMIPROVIDER WmiProvider
);
_IRQL_requires_max_(DISPATCH_LEVEL)
FORCEINLINE
WDFDEVICE
WdfWmiProviderGetDevice(
_In_
WDFWMIPROVIDER WmiProvider
)
{
return ((PFN_WDFWMIPROVIDERGETDEVICE) WdfFunctions[WdfWmiProviderGetDeviceTableIndex])(WdfDriverGlobals, WmiProvider);
}
//
// WDF Function: WdfWmiProviderIsEnabled
//
typedef
_IRQL_requires_max_(DISPATCH_LEVEL)
WDFAPI
BOOLEAN
(STDCALL *PFN_WDFWMIPROVIDERISENABLED)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
WDFWMIPROVIDER WmiProvider,
_In_
WDF_WMI_PROVIDER_CONTROL ProviderControl
);
_IRQL_requires_max_(DISPATCH_LEVEL)
FORCEINLINE
BOOLEAN
WdfWmiProviderIsEnabled(
_In_
WDFWMIPROVIDER WmiProvider,
_In_
WDF_WMI_PROVIDER_CONTROL ProviderControl
)
{
return ((PFN_WDFWMIPROVIDERISENABLED) WdfFunctions[WdfWmiProviderIsEnabledTableIndex])(WdfDriverGlobals, WmiProvider, ProviderControl);
}
//
// WDF Function: WdfWmiProviderGetTracingHandle
//
typedef
_IRQL_requires_max_(DISPATCH_LEVEL)
WDFAPI
ULONGLONG
(STDCALL *PFN_WDFWMIPROVIDERGETTRACINGHANDLE)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
WDFWMIPROVIDER WmiProvider
);
_IRQL_requires_max_(DISPATCH_LEVEL)
FORCEINLINE
ULONGLONG
WdfWmiProviderGetTracingHandle(
_In_
WDFWMIPROVIDER WmiProvider
)
{
return ((PFN_WDFWMIPROVIDERGETTRACINGHANDLE) WdfFunctions[WdfWmiProviderGetTracingHandleTableIndex])(WdfDriverGlobals, WmiProvider);
}
//
// WDF Function: WdfWmiInstanceCreate
//
typedef
_Must_inspect_result_
_IRQL_requires_max_(DISPATCH_LEVEL)
WDFAPI
NTSTATUS
(STDCALL *PFN_WDFWMIINSTANCECREATE)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
WDFDEVICE Device,
_In_
PWDF_WMI_INSTANCE_CONFIG InstanceConfig,
_In_opt_
PWDF_OBJECT_ATTRIBUTES InstanceAttributes,
_Out_opt_
WDFWMIINSTANCE* Instance
);
_Must_inspect_result_
_IRQL_requires_max_(DISPATCH_LEVEL)
FORCEINLINE
NTSTATUS
WdfWmiInstanceCreate(
_In_
WDFDEVICE Device,
_In_
PWDF_WMI_INSTANCE_CONFIG InstanceConfig,
_In_opt_
PWDF_OBJECT_ATTRIBUTES InstanceAttributes,
_Out_opt_
WDFWMIINSTANCE* Instance
)
{
return ((PFN_WDFWMIINSTANCECREATE) WdfFunctions[WdfWmiInstanceCreateTableIndex])(WdfDriverGlobals, Device, InstanceConfig, InstanceAttributes, Instance);
}
//
// WDF Function: WdfWmiInstanceRegister
//
typedef
_Must_inspect_result_
_IRQL_requires_max_(PASSIVE_LEVEL)
WDFAPI
NTSTATUS
(STDCALL *PFN_WDFWMIINSTANCEREGISTER)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
WDFWMIINSTANCE WmiInstance
);
_Must_inspect_result_
_IRQL_requires_max_(PASSIVE_LEVEL)
FORCEINLINE
NTSTATUS
WdfWmiInstanceRegister(
_In_
WDFWMIINSTANCE WmiInstance
)
{
return ((PFN_WDFWMIINSTANCEREGISTER) WdfFunctions[WdfWmiInstanceRegisterTableIndex])(WdfDriverGlobals, WmiInstance);
}
//
// WDF Function: WdfWmiInstanceDeregister
//
typedef
_IRQL_requires_max_(PASSIVE_LEVEL)
WDFAPI
VOID
(STDCALL *PFN_WDFWMIINSTANCEDEREGISTER)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
WDFWMIINSTANCE WmiInstance
);
_IRQL_requires_max_(PASSIVE_LEVEL)
FORCEINLINE
VOID
WdfWmiInstanceDeregister(
_In_
WDFWMIINSTANCE WmiInstance
)
{
((PFN_WDFWMIINSTANCEDEREGISTER) WdfFunctions[WdfWmiInstanceDeregisterTableIndex])(WdfDriverGlobals, WmiInstance);
}
//
// WDF Function: WdfWmiInstanceGetDevice
//
typedef
_IRQL_requires_max_(DISPATCH_LEVEL)
WDFAPI
WDFDEVICE
(STDCALL *PFN_WDFWMIINSTANCEGETDEVICE)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
WDFWMIINSTANCE WmiInstance
);
_IRQL_requires_max_(DISPATCH_LEVEL)
FORCEINLINE
WDFDEVICE
WdfWmiInstanceGetDevice(
_In_
WDFWMIINSTANCE WmiInstance
)
{
return ((PFN_WDFWMIINSTANCEGETDEVICE) WdfFunctions[WdfWmiInstanceGetDeviceTableIndex])(WdfDriverGlobals, WmiInstance);
}
//
// WDF Function: WdfWmiInstanceGetProvider
//
typedef
_IRQL_requires_max_(DISPATCH_LEVEL)
WDFAPI
WDFWMIPROVIDER
(STDCALL *PFN_WDFWMIINSTANCEGETPROVIDER)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
WDFWMIINSTANCE WmiInstance
);
_IRQL_requires_max_(DISPATCH_LEVEL)
FORCEINLINE
WDFWMIPROVIDER
WdfWmiInstanceGetProvider(
_In_
WDFWMIINSTANCE WmiInstance
)
{
return ((PFN_WDFWMIINSTANCEGETPROVIDER) WdfFunctions[WdfWmiInstanceGetProviderTableIndex])(WdfDriverGlobals, WmiInstance);
}
//
// WDF Function: WdfWmiInstanceFireEvent
//
typedef
_Must_inspect_result_
_IRQL_requires_max_(APC_LEVEL)
WDFAPI
NTSTATUS
(STDCALL *PFN_WDFWMIINSTANCEFIREEVENT)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
WDFWMIINSTANCE WmiInstance,
_In_opt_
ULONG EventDataSize,
_In_reads_bytes_opt_(EventDataSize)
PVOID EventData
);
_Must_inspect_result_
_IRQL_requires_max_(APC_LEVEL)
FORCEINLINE
NTSTATUS
WdfWmiInstanceFireEvent(
_In_
WDFWMIINSTANCE WmiInstance,
_In_opt_
ULONG EventDataSize,
_In_reads_bytes_opt_(EventDataSize)
PVOID EventData
)
{
return ((PFN_WDFWMIINSTANCEFIREEVENT) WdfFunctions[WdfWmiInstanceFireEventTableIndex])(WdfDriverGlobals, WmiInstance, EventDataSize, EventData);
}
#endif // (NTDDI_VERSION >= NTDDI_WIN2K)
WDF_EXTERN_C_END
#endif // _WDFWMI_H_