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

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/*++
Copyright (c) Microsoft Corporation. All rights reserved.
_WdfVersionBuild_
Module Name:
WdfUsb.h
Abstract:
Contains prototypes for interfacing with a USB connected device
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 _WDFUSB_H_
#define _WDFUSB_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)
#ifndef BMREQUEST_HOST_TO_DEVICE
#define BMREQUEST_HOST_TO_DEVICE 0
#endif // BMREQUEST_HOST_TO_DEVICE
#ifndef BMREQUEST_DEVICE_TO_HOST
#define BMREQUEST_DEVICE_TO_HOST 1
#endif // BMREQUEST_DEVICE_TO_HOST
#ifndef BMREQUEST_STANDARD
#define BMREQUEST_STANDARD 0
#endif // BMREQUEST_STANDARD
#ifndef BMREQUEST_CLASS
#define BMREQUEST_CLASS 1
#endif // BMREQUEST_CLASS
#ifndef BMREQUEST_VENDOR
#define BMREQUEST_VENDOR 2
#endif // BMREQUEST_VENDOR
#ifndef BMREQUEST_TO_DEVICE
#define BMREQUEST_TO_DEVICE 0
#endif // BMREQUEST_TO_DEVICE
#ifndef BMREQUEST_TO_INTERFACE
#define BMREQUEST_TO_INTERFACE 1
#endif // BMREQUEST_TO_INTERFACE
#ifndef BMREQUEST_TO_ENDPOINT
#define BMREQUEST_TO_ENDPOINT 2
#endif // BMREQUEST_TO_ENDPOINT
#ifndef BMREQUEST_TO_OTHER
#define BMREQUEST_TO_OTHER 3
#endif // BMREQUEST_TO_OTHER
typedef enum _WDF_USB_REQUEST_TYPE {
WdfUsbRequestTypeInvalid = 0,
WdfUsbRequestTypeNoFormat,
WdfUsbRequestTypeDeviceString,
WdfUsbRequestTypeDeviceControlTransfer,
WdfUsbRequestTypeDeviceUrb,
WdfUsbRequestTypePipeWrite,
WdfUsbRequestTypePipeRead,
WdfUsbRequestTypePipeAbort,
WdfUsbRequestTypePipeReset,
WdfUsbRequestTypePipeUrb,
} WDF_USB_REQUEST_TYPE, *PWDF_USB_REQUEST_TYPE;
typedef enum _WDF_USB_BMREQUEST_DIRECTION {
BmRequestHostToDevice = BMREQUEST_HOST_TO_DEVICE,
BmRequestDeviceToHost = BMREQUEST_DEVICE_TO_HOST,
} WDF_USB_BMREQUEST_DIRECTION;
typedef enum _WDF_USB_BMREQUEST_TYPE {
BmRequestStandard = BMREQUEST_STANDARD,
BmRequestClass = BMREQUEST_CLASS,
BmRequestVendor = BMREQUEST_VENDOR,
} WDF_USB_BMREQUEST_TYPE;
typedef enum _WDF_USB_BMREQUEST_RECIPIENT {
BmRequestToDevice = BMREQUEST_TO_DEVICE,
BmRequestToInterface = BMREQUEST_TO_INTERFACE,
BmRequestToEndpoint = BMREQUEST_TO_ENDPOINT,
BmRequestToOther = BMREQUEST_TO_OTHER,
} WDF_USB_BMREQUEST_RECIPIENT;
typedef enum _WDF_USB_PIPE_TYPE {
WdfUsbPipeTypeInvalid = 0,
WdfUsbPipeTypeControl,
WdfUsbPipeTypeIsochronous,
WdfUsbPipeTypeBulk,
WdfUsbPipeTypeInterrupt,
} WDF_USB_PIPE_TYPE;
typedef enum _WdfUsbTargetDeviceSelectConfigType {
WdfUsbTargetDeviceSelectConfigTypeInvalid = 0,
WdfUsbTargetDeviceSelectConfigTypeDeconfig = 1,
WdfUsbTargetDeviceSelectConfigTypeSingleInterface = 2,
WdfUsbTargetDeviceSelectConfigTypeMultiInterface = 3,
WdfUsbTargetDeviceSelectConfigTypeInterfacesPairs = 4,
WdfUsbTargetDeviceSelectConfigTypeInterfacesDescriptor = 5,
WdfUsbTargetDeviceSelectConfigTypeUrb = 6,
} WdfUsbTargetDeviceSelectConfigType;
typedef enum _WdfUsbTargetDeviceSelectSettingType {
WdfUsbInterfaceSelectSettingTypeDescriptor = 0x10,
WdfUsbInterfaceSelectSettingTypeSetting = 0x11,
WdfUsbInterfaceSelectSettingTypeUrb = 0x12,
} WdfUsbTargetDeviceSelectSettingType;
typedef enum _WDF_USB_DEVICE_TRAITS {
WDF_USB_DEVICE_TRAIT_SELF_POWERED = 0x00000001,
WDF_USB_DEVICE_TRAIT_REMOTE_WAKE_CAPABLE = 0x00000002,
WDF_USB_DEVICE_TRAIT_AT_HIGH_SPEED = 0x00000004,
} WDF_USB_DEVICE_TRAITS;
typedef union _WDF_USB_CONTROL_SETUP_PACKET {
struct {
union {
struct {
//
// Valid values are BMREQUEST_TO_DEVICE, BMREQUEST_TO_INTERFACE,
// BMREQUEST_TO_ENDPOINT, BMREQUEST_TO_OTHER
//
BYTE Recipient:2;
BYTE Reserved:3;
//
// Valid values are BMREQUEST_STANDARD, BMREQUEST_CLASS,
// BMREQUEST_VENDOR
//
BYTE Type:2;
//
// Valid values are BMREQUEST_HOST_TO_DEVICE,
// BMREQUEST_DEVICE_TO_HOST
//
BYTE Dir:1;
} Request;
BYTE Byte;
} bm;
BYTE bRequest;
union {
struct {
BYTE LowByte;
BYTE HiByte;
} Bytes;
USHORT Value;
} wValue;
union {
struct {
BYTE LowByte;
BYTE HiByte;
} Bytes;
USHORT Value;
} wIndex;
USHORT wLength;
} Packet;
struct {
BYTE Bytes[8];
} Generic;
} WDF_USB_CONTROL_SETUP_PACKET, *PWDF_USB_CONTROL_SETUP_PACKET;
FORCEINLINE
VOID
WDF_USB_CONTROL_SETUP_PACKET_INIT(
_Out_ PWDF_USB_CONTROL_SETUP_PACKET Packet,
_In_ WDF_USB_BMREQUEST_DIRECTION Direction,
_In_ WDF_USB_BMREQUEST_RECIPIENT Recipient,
_In_ BYTE Request,
_In_ USHORT Value,
_In_ USHORT Index
)
{
RtlZeroMemory(Packet, sizeof(WDF_USB_CONTROL_SETUP_PACKET));
Packet->Packet.bm.Request.Dir = (BYTE) Direction;
Packet->Packet.bm.Request.Type = (BYTE) BmRequestStandard;
Packet->Packet.bm.Request.Recipient = (BYTE) Recipient;
Packet->Packet.bRequest = Request;
Packet->Packet.wValue.Value = Value;
Packet->Packet.wIndex.Value = Index;
// Packet->Packet.wLength will be set by the formatting function
}
FORCEINLINE
VOID
WDF_USB_CONTROL_SETUP_PACKET_INIT_CLASS(
_Out_ PWDF_USB_CONTROL_SETUP_PACKET Packet,
_In_ WDF_USB_BMREQUEST_DIRECTION Direction,
_In_ WDF_USB_BMREQUEST_RECIPIENT Recipient,
_In_ BYTE Request,
_In_ USHORT Value,
_In_ USHORT Index
)
{
RtlZeroMemory(Packet, sizeof(WDF_USB_CONTROL_SETUP_PACKET));
Packet->Packet.bm.Request.Dir = (BYTE) Direction;
Packet->Packet.bm.Request.Type = (BYTE) BmRequestClass;
Packet->Packet.bm.Request.Recipient = (BYTE) Recipient;
Packet->Packet.bRequest = Request;
Packet->Packet.wValue.Value = Value;
Packet->Packet.wIndex.Value = Index;
// Packet->Packet.wLength will be set by the formatting function
}
FORCEINLINE
VOID
WDF_USB_CONTROL_SETUP_PACKET_INIT_VENDOR(
_Out_ PWDF_USB_CONTROL_SETUP_PACKET Packet,
_In_ WDF_USB_BMREQUEST_DIRECTION Direction,
_In_ WDF_USB_BMREQUEST_RECIPIENT Recipient,
_In_ BYTE Request,
_In_ USHORT Value,
_In_ USHORT Index
)
{
RtlZeroMemory(Packet, sizeof(WDF_USB_CONTROL_SETUP_PACKET));
Packet->Packet.bm.Request.Dir = (BYTE) Direction;
Packet->Packet.bm.Request.Type = (BYTE) BmRequestVendor;
Packet->Packet.bm.Request.Recipient = (BYTE) Recipient;
Packet->Packet.bRequest = Request;
Packet->Packet.wValue.Value = Value;
Packet->Packet.wIndex.Value = Index;
// Packet->Packet.wLength will be set by the formatting function
}
FORCEINLINE
VOID
WDF_USB_CONTROL_SETUP_PACKET_INIT_FEATURE(
_Out_ PWDF_USB_CONTROL_SETUP_PACKET Packet,
_In_ WDF_USB_BMREQUEST_RECIPIENT BmRequestRecipient,
_In_ USHORT FeatureSelector,
_In_ USHORT Index,
_In_ BOOLEAN SetFeature
)
{
RtlZeroMemory(Packet, sizeof(WDF_USB_CONTROL_SETUP_PACKET));
Packet->Packet.bm.Request.Dir = (BYTE) BmRequestHostToDevice;
Packet->Packet.bm.Request.Type = (BYTE) BmRequestStandard;
Packet->Packet.bm.Request.Recipient = (BYTE) BmRequestRecipient;
if (SetFeature) {
Packet->Packet.bRequest = USB_REQUEST_SET_FEATURE;
}
else {
Packet->Packet.bRequest = USB_REQUEST_CLEAR_FEATURE;
}
Packet->Packet.wValue.Value = FeatureSelector;
Packet->Packet.wIndex.Value = Index;
// Packet->Packet.wLength will be set by the formatting function
}
FORCEINLINE
VOID
WDF_USB_CONTROL_SETUP_PACKET_INIT_GET_STATUS(
_Out_ PWDF_USB_CONTROL_SETUP_PACKET Packet,
_In_ WDF_USB_BMREQUEST_RECIPIENT BmRequestRecipient,
_In_ USHORT Index
)
{
RtlZeroMemory(Packet, sizeof(WDF_USB_CONTROL_SETUP_PACKET));
Packet->Packet.bm.Request.Dir = (BYTE) BmRequestDeviceToHost;
Packet->Packet.bm.Request.Type = (BYTE) BmRequestStandard;
Packet->Packet.bm.Request.Recipient = (BYTE) BmRequestRecipient;
Packet->Packet.bRequest = USB_REQUEST_GET_STATUS;
Packet->Packet.wIndex.Value = Index;
Packet->Packet.wValue.Value = 0;
// Packet->Packet.wLength will be set by the formatting function
}
typedef struct _WDF_USB_REQUEST_COMPLETION_PARAMS {
USBD_STATUS UsbdStatus;
WDF_USB_REQUEST_TYPE Type;
union {
struct {
WDFMEMORY Buffer;
USHORT LangID;
UCHAR StringIndex;
//
// If STATUS_BUFFER_OVERFLOW is returned, this field will contain the
// number of bytes required to retrieve the entire string.
//
UCHAR RequiredSize;
} DeviceString;
struct {
WDFMEMORY Buffer;
WDF_USB_CONTROL_SETUP_PACKET SetupPacket;
ULONG Length;
} DeviceControlTransfer;
struct {
WDFMEMORY Buffer;
} DeviceUrb;
struct {
WDFMEMORY Buffer;
size_t Length;
size_t Offset;
} PipeWrite;
struct {
WDFMEMORY Buffer;
size_t Length;
size_t Offset;
} PipeRead;
struct {
WDFMEMORY Buffer;
} PipeUrb;
} Parameters;
} WDF_USB_REQUEST_COMPLETION_PARAMS, *PWDF_USB_REQUEST_COMPLETION_PARAMS;
typedef
_Function_class_(EVT_WDF_USB_READER_COMPLETION_ROUTINE)
_IRQL_requires_same_
_IRQL_requires_max_(DISPATCH_LEVEL)
VOID
STDCALL
EVT_WDF_USB_READER_COMPLETION_ROUTINE(
_In_
WDFUSBPIPE Pipe,
_In_
WDFMEMORY Buffer,
_In_
size_t NumBytesTransferred,
_In_
WDFCONTEXT Context
);
typedef EVT_WDF_USB_READER_COMPLETION_ROUTINE *PFN_WDF_USB_READER_COMPLETION_ROUTINE;
typedef
_Function_class_(EVT_WDF_USB_READERS_FAILED)
_IRQL_requires_same_
_IRQL_requires_max_(PASSIVE_LEVEL)
BOOLEAN
STDCALL
EVT_WDF_USB_READERS_FAILED(
_In_
WDFUSBPIPE Pipe,
_In_
NTSTATUS Status,
_In_
USBD_STATUS UsbdStatus
);
typedef EVT_WDF_USB_READERS_FAILED *PFN_WDF_USB_READERS_FAILED;
typedef struct _WDF_USB_CONTINUOUS_READER_CONFIG {
//
// Size of the string in bytes
//
ULONG Size;
//
// Number of bytes to send ask for from the usb device.
//
size_t TransferLength;
//
// Number of bytes to allocate before the requested transfer length
//
size_t HeaderLength;
//
// Number of bytes to allocate after the requested transfer length
//
size_t TrailerLength;
//
// Number of reads to send to the device at once. If zero is specified, the
// default will be used.
//
UCHAR NumPendingReads;
//
// Optional attributes to apply to each WDFMEMORY allocated for each read
//
PWDF_OBJECT_ATTRIBUTES BufferAttributes;
//
// Event callback invoked when a read is completed
//
PFN_WDF_USB_READER_COMPLETION_ROUTINE EvtUsbTargetPipeReadComplete;
//
// Context to be passed to EvtUsbTargetPipeReadComplete
//
WDFCONTEXT EvtUsbTargetPipeReadCompleteContext;
//
// Event callback invoked when a reader fails. If TRUE is returned, the
// readers are restarted.
//
PFN_WDF_USB_READERS_FAILED EvtUsbTargetPipeReadersFailed;
} WDF_USB_CONTINUOUS_READER_CONFIG, *PWDF_USB_CONTINUOUS_READER_CONFIG;
FORCEINLINE
VOID
WDF_USB_CONTINUOUS_READER_CONFIG_INIT(
_Out_ PWDF_USB_CONTINUOUS_READER_CONFIG Config,
_In_ PFN_WDF_USB_READER_COMPLETION_ROUTINE EvtUsbTargetPipeReadComplete,
_In_ WDFCONTEXT EvtUsbTargetPipeReadCompleteContext,
_In_ size_t TransferLength
)
{
RtlZeroMemory(Config, sizeof(WDF_USB_CONTINUOUS_READER_CONFIG));
Config->Size = sizeof(WDF_USB_CONTINUOUS_READER_CONFIG);
Config->EvtUsbTargetPipeReadComplete = EvtUsbTargetPipeReadComplete;
Config->EvtUsbTargetPipeReadCompleteContext = EvtUsbTargetPipeReadCompleteContext;
Config->TransferLength = TransferLength;
}
FORCEINLINE
WDFIOTARGET
WdfUsbTargetDeviceGetIoTarget(
_In_ WDFUSBDEVICE UsbDevice
)
{
return (WDFIOTARGET) UsbDevice;
}
typedef struct _WDF_USB_DEVICE_INFORMATION {
//
// Size of this structure in bytes
//
ULONG Size;
//
// USBD version information
//
USBD_VERSION_INFORMATION UsbdVersionInformation;
//
// Usb controller port capabilities
//
ULONG HcdPortCapabilities;
//
// Bitfield of WDF_USB_DEVICE_TRAITS values
//
ULONG Traits;
} WDF_USB_DEVICE_INFORMATION, *PWDF_USB_DEVICE_INFORMATION;
FORCEINLINE
VOID
WDF_USB_DEVICE_INFORMATION_INIT(
_Out_ PWDF_USB_DEVICE_INFORMATION Udi
)
{
RtlZeroMemory(Udi, sizeof(WDF_USB_DEVICE_INFORMATION));
Udi->Size = sizeof(WDF_USB_DEVICE_INFORMATION);
}
typedef struct _WDF_USB_INTERFACE_SETTING_PAIR {
//
// Interface to select
//
WDFUSBINTERFACE UsbInterface;
//
// Setting to select on UsbInterface
//
UCHAR SettingIndex;
} WDF_USB_INTERFACE_SETTING_PAIR, *PWDF_USB_INTERFACE_SETTING_PAIR;
typedef struct _WDF_USB_DEVICE_SELECT_CONFIG_PARAMS {
//
// Size of the structure in bytes
//
ULONG Size;
//
// Type of select config, one of WdfUsbTargetDeviceSelectConfigType values
//
WdfUsbTargetDeviceSelectConfigType Type;
union {
struct {
//
// Configuration descriptor to use
//
PUSB_CONFIGURATION_DESCRIPTOR ConfigurationDescriptor;
//
// Array of interface descriptors pointers.
//
PUSB_INTERFACE_DESCRIPTOR * InterfaceDescriptors;
//
// Number of elements in the InterfaceDescrtiptors pointer array.
//
ULONG NumInterfaceDescriptors;
} Descriptor;
struct {
//
// Preallocated select config URB formatted by the caller.
// Will be used, as supplied without modification, as the select
// config request.
//
PURB Urb;
} Urb;
struct {
//
// Number of pipes configured on the single after. This value is
// returned to the caller after a succssful call.
//
UCHAR NumberConfiguredPipes;
//
// The interface which was configred. This value is returned to the
// caller after a successful call.
//
WDFUSBINTERFACE ConfiguredUsbInterface;
} SingleInterface;
struct {
//
// Number of interface pairs in the Pairs array
//
UCHAR NumberInterfaces;
//
// Array of interface + settings
//
PWDF_USB_INTERFACE_SETTING_PAIR Pairs;
//
// Number of interfaces which were configured after a successful call
//
UCHAR NumberOfConfiguredInterfaces;
} MultiInterface;
} Types;
} WDF_USB_DEVICE_SELECT_CONFIG_PARAMS, *PWDF_USB_DEVICE_SELECT_CONFIG_PARAMS;
FORCEINLINE
VOID
WDF_USB_DEVICE_SELECT_CONFIG_PARAMS_INIT_SINGLE_INTERFACE(
_Out_ PWDF_USB_DEVICE_SELECT_CONFIG_PARAMS Params
)
{
RtlZeroMemory(Params, sizeof(WDF_USB_DEVICE_SELECT_CONFIG_PARAMS));
Params->Size = sizeof(WDF_USB_DEVICE_SELECT_CONFIG_PARAMS);
Params->Type = WdfUsbTargetDeviceSelectConfigTypeSingleInterface;
}
FORCEINLINE
VOID
WDF_USB_DEVICE_SELECT_CONFIG_PARAMS_INIT_MULTIPLE_INTERFACES(
_Out_ PWDF_USB_DEVICE_SELECT_CONFIG_PARAMS Params,
_In_opt_ UCHAR NumberInterfaces,
_In_opt_ PWDF_USB_INTERFACE_SETTING_PAIR SettingPairs
)
{
RtlZeroMemory(Params, sizeof(WDF_USB_DEVICE_SELECT_CONFIG_PARAMS));
Params->Size = sizeof(WDF_USB_DEVICE_SELECT_CONFIG_PARAMS);
if (SettingPairs != NULL && NumberInterfaces != 0) {
Params->Type = WdfUsbTargetDeviceSelectConfigTypeInterfacesPairs;
Params->Types.MultiInterface.NumberInterfaces = NumberInterfaces;
Params->Types.MultiInterface.Pairs = SettingPairs;
}
else {
Params->Type = WdfUsbTargetDeviceSelectConfigTypeMultiInterface;
}
}
FORCEINLINE
VOID
WDF_USB_DEVICE_SELECT_CONFIG_PARAMS_INIT_INTERFACES_DESCRIPTORS(
_Out_ PWDF_USB_DEVICE_SELECT_CONFIG_PARAMS Params,
_In_ PUSB_CONFIGURATION_DESCRIPTOR ConfigDescriptor,
_In_ PUSB_INTERFACE_DESCRIPTOR* InterfaceDescriptors,
_In_ ULONG NumInterfaceDescriptors
)
{
RtlZeroMemory(Params, sizeof(WDF_USB_DEVICE_SELECT_CONFIG_PARAMS));
Params->Size = sizeof(WDF_USB_DEVICE_SELECT_CONFIG_PARAMS);
Params->Type = WdfUsbTargetDeviceSelectConfigTypeInterfacesDescriptor;
Params->Types.Descriptor.ConfigurationDescriptor = ConfigDescriptor;
Params->Types.Descriptor.InterfaceDescriptors = InterfaceDescriptors;
Params->Types.Descriptor.NumInterfaceDescriptors = NumInterfaceDescriptors;
}
FORCEINLINE
VOID
WDF_USB_DEVICE_SELECT_CONFIG_PARAMS_INIT_URB(
_Out_ PWDF_USB_DEVICE_SELECT_CONFIG_PARAMS Params,
_In_ PURB Urb
)
{
RtlZeroMemory(Params, sizeof(WDF_USB_DEVICE_SELECT_CONFIG_PARAMS));
Params->Size = sizeof(WDF_USB_DEVICE_SELECT_CONFIG_PARAMS);
Params->Type = WdfUsbTargetDeviceSelectConfigTypeUrb;
Params->Types.Urb.Urb = Urb;
}
VOID
FORCEINLINE
WDF_USB_DEVICE_SELECT_CONFIG_PARAMS_INIT_DECONFIG(
_Out_ PWDF_USB_DEVICE_SELECT_CONFIG_PARAMS Params
)
{
RtlZeroMemory(Params, sizeof(WDF_USB_DEVICE_SELECT_CONFIG_PARAMS));
Params->Size = sizeof(WDF_USB_DEVICE_SELECT_CONFIG_PARAMS);
Params->Type = WdfUsbTargetDeviceSelectConfigTypeDeconfig;
}
typedef struct _WDF_USB_INTERFACE_SELECT_SETTING_PARAMS {
//
// Size of this data structure in bytes
//
ULONG Size;
//
// Type of select interface as indicated by one of the
// WdfUsbTargetDeviceSelectSettingType values.
//
WdfUsbTargetDeviceSelectSettingType Type;
union {
struct {
//
// Interface descriptor that will be used in the interface selection
//
PUSB_INTERFACE_DESCRIPTOR InterfaceDescriptor;
} Descriptor;
struct {
//
// The setting index of the WDFUSBINTERFACE to use
//
UCHAR SettingIndex;
} Interface;
struct {
//
// Preformatted select interface URB which will be used in the
// select interface request.
//
PURB Urb;
} Urb;
} Types;
} WDF_USB_INTERFACE_SELECT_SETTING_PARAMS, *PWDF_USB_INTERFACE_SELECT_SETTING_PARAMS;
FORCEINLINE
VOID
WDF_USB_INTERFACE_SELECT_SETTING_PARAMS_INIT_DESCRIPTOR(
_Out_ PWDF_USB_INTERFACE_SELECT_SETTING_PARAMS Params,
_In_ PUSB_INTERFACE_DESCRIPTOR Interface
)
{
RtlZeroMemory(Params, sizeof(WDF_USB_INTERFACE_SELECT_SETTING_PARAMS));
Params->Size = sizeof(WDF_USB_INTERFACE_SELECT_SETTING_PARAMS);
Params->Type = WdfUsbInterfaceSelectSettingTypeDescriptor;
Params->Types.Descriptor.InterfaceDescriptor = Interface;
}
FORCEINLINE
VOID
WDF_USB_INTERFACE_SELECT_SETTING_PARAMS_INIT_URB(
_Out_ PWDF_USB_INTERFACE_SELECT_SETTING_PARAMS Params,
_In_ PURB Urb
)
{
RtlZeroMemory(Params, sizeof(WDF_USB_INTERFACE_SELECT_SETTING_PARAMS));
Params->Size = sizeof(WDF_USB_INTERFACE_SELECT_SETTING_PARAMS);
Params->Type = WdfUsbInterfaceSelectSettingTypeUrb;
Params->Types.Urb.Urb = Urb;
}
FORCEINLINE
VOID
WDF_USB_INTERFACE_SELECT_SETTING_PARAMS_INIT_SETTING(
_Out_ PWDF_USB_INTERFACE_SELECT_SETTING_PARAMS Params,
_In_ UCHAR SettingIndex
)
{
RtlZeroMemory(Params, sizeof(WDF_USB_INTERFACE_SELECT_SETTING_PARAMS));
Params->Size = sizeof(WDF_USB_INTERFACE_SELECT_SETTING_PARAMS);
Params->Type = WdfUsbInterfaceSelectSettingTypeSetting;
Params->Types.Interface.SettingIndex = SettingIndex;
}
FORCEINLINE
WDFIOTARGET
WdfUsbTargetPipeGetIoTarget(
_In_ WDFUSBPIPE Pipe
)
{
return (WDFIOTARGET) Pipe;
}
typedef struct _WDF_USB_PIPE_INFORMATION {
//
// Size of the structure in bytes
//
ULONG Size;
//
// Maximum packet size this device is capable of
//
ULONG MaximumPacketSize;
//
// Raw endpoint address of the device as described by its descriptor
//
UCHAR EndpointAddress;
//
// Polling interval
//
UCHAR Interval;
//
// Which alternate setting this structure is relevant for
//
UCHAR SettingIndex;
//
// The type of the pipe
WDF_USB_PIPE_TYPE PipeType;
//
// Maximum size of one transfer which should be sent to the host controller
//
ULONG MaximumTransferSize;
} WDF_USB_PIPE_INFORMATION, *PWDF_USB_PIPE_INFORMATION;
FORCEINLINE
VOID
WDF_USB_PIPE_INFORMATION_INIT(
_Out_ PWDF_USB_PIPE_INFORMATION Info
)
{
RtlZeroMemory(Info, sizeof(WDF_USB_PIPE_INFORMATION));
Info->Size = sizeof(WDF_USB_PIPE_INFORMATION);
}
FORCEINLINE
BOOLEAN
WDF_USB_PIPE_DIRECTION_IN(
_In_ UCHAR EndpointAddress
)
{
//
// If the high bit is set, we have an IN pipe
//
return (EndpointAddress & USB_ENDPOINT_DIRECTION_MASK) ? TRUE : FALSE;
}
FORCEINLINE
BOOLEAN
WDF_USB_PIPE_DIRECTION_OUT(
_In_ UCHAR EndpointAddress
)
{
//
// If the high bit is clear, we have an OUT pipe
//
return (EndpointAddress & USB_ENDPOINT_DIRECTION_MASK) == 0x00 ? TRUE : FALSE;
}
typedef struct _WDF_USB_DEVICE_CREATE_CONFIG {
//
// Size of this structure in bytes
//
ULONG Size;
//
// USBD Client Contraction of the Wdf Client
//
ULONG USBDClientContractVersion;
} WDF_USB_DEVICE_CREATE_CONFIG, *PWDF_USB_DEVICE_CREATE_CONFIG;
FORCEINLINE
VOID
WDF_USB_DEVICE_CREATE_CONFIG_INIT(
_Out_ PWDF_USB_DEVICE_CREATE_CONFIG Config,
_In_ ULONG USBDClientContractVersion
)
{
RtlZeroMemory(Config, sizeof(WDF_USB_DEVICE_CREATE_CONFIG));
Config->Size = sizeof(WDF_USB_DEVICE_CREATE_CONFIG);
Config->USBDClientContractVersion = USBDClientContractVersion;
}
//
// For WdfUsbTargetDeviceCreateIsochUrb's typedef
//
#ifdef __MSC_VER
#pragma warning(disable:28285)
#endif
//
// WDF Function: WdfUsbTargetDeviceCreate
//
typedef
_Must_inspect_result_
_IRQL_requires_max_(PASSIVE_LEVEL)
WDFAPI
NTSTATUS
(STDCALL *PFN_WDFUSBTARGETDEVICECREATE)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
WDFDEVICE Device,
_In_opt_
PWDF_OBJECT_ATTRIBUTES Attributes,
_Out_
WDFUSBDEVICE* UsbDevice
);
_Must_inspect_result_
_IRQL_requires_max_(PASSIVE_LEVEL)
FORCEINLINE
NTSTATUS
WdfUsbTargetDeviceCreate(
_In_
WDFDEVICE Device,
_In_opt_
PWDF_OBJECT_ATTRIBUTES Attributes,
_Out_
WDFUSBDEVICE* UsbDevice
)
{
return ((PFN_WDFUSBTARGETDEVICECREATE) WdfFunctions[WdfUsbTargetDeviceCreateTableIndex])(WdfDriverGlobals, Device, Attributes, UsbDevice);
}
//
// WDF Function: WdfUsbTargetDeviceCreateWithParameters
//
typedef
_Must_inspect_result_
_IRQL_requires_max_(PASSIVE_LEVEL)
WDFAPI
NTSTATUS
(STDCALL *PFN_WDFUSBTARGETDEVICECREATEWITHPARAMETERS)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
WDFDEVICE Device,
_In_
PWDF_USB_DEVICE_CREATE_CONFIG Config,
_In_opt_
PWDF_OBJECT_ATTRIBUTES Attributes,
_Out_
WDFUSBDEVICE* UsbDevice
);
_Must_inspect_result_
_IRQL_requires_max_(PASSIVE_LEVEL)
FORCEINLINE
NTSTATUS
WdfUsbTargetDeviceCreateWithParameters(
_In_
WDFDEVICE Device,
_In_
PWDF_USB_DEVICE_CREATE_CONFIG Config,
_In_opt_
PWDF_OBJECT_ATTRIBUTES Attributes,
_Out_
WDFUSBDEVICE* UsbDevice
)
{
return ((PFN_WDFUSBTARGETDEVICECREATEWITHPARAMETERS) WdfFunctions[WdfUsbTargetDeviceCreateWithParametersTableIndex])(WdfDriverGlobals, Device, Config, Attributes, UsbDevice);
}
//
// WDF Function: WdfUsbTargetDeviceRetrieveInformation
//
typedef
_Must_inspect_result_
_IRQL_requires_max_(DISPATCH_LEVEL)
WDFAPI
NTSTATUS
(STDCALL *PFN_WDFUSBTARGETDEVICERETRIEVEINFORMATION)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
WDFUSBDEVICE UsbDevice,
_Out_
PWDF_USB_DEVICE_INFORMATION Information
);
_Must_inspect_result_
_IRQL_requires_max_(DISPATCH_LEVEL)
FORCEINLINE
NTSTATUS
WdfUsbTargetDeviceRetrieveInformation(
_In_
WDFUSBDEVICE UsbDevice,
_Out_
PWDF_USB_DEVICE_INFORMATION Information
)
{
return ((PFN_WDFUSBTARGETDEVICERETRIEVEINFORMATION) WdfFunctions[WdfUsbTargetDeviceRetrieveInformationTableIndex])(WdfDriverGlobals, UsbDevice, Information);
}
//
// WDF Function: WdfUsbTargetDeviceGetDeviceDescriptor
//
typedef
_IRQL_requires_max_(PASSIVE_LEVEL)
WDFAPI
VOID
(STDCALL *PFN_WDFUSBTARGETDEVICEGETDEVICEDESCRIPTOR)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
WDFUSBDEVICE UsbDevice,
_Out_
PUSB_DEVICE_DESCRIPTOR UsbDeviceDescriptor
);
_IRQL_requires_max_(PASSIVE_LEVEL)
FORCEINLINE
VOID
WdfUsbTargetDeviceGetDeviceDescriptor(
_In_
WDFUSBDEVICE UsbDevice,
_Out_
PUSB_DEVICE_DESCRIPTOR UsbDeviceDescriptor
)
{
((PFN_WDFUSBTARGETDEVICEGETDEVICEDESCRIPTOR) WdfFunctions[WdfUsbTargetDeviceGetDeviceDescriptorTableIndex])(WdfDriverGlobals, UsbDevice, UsbDeviceDescriptor);
}
//
// WDF Function: WdfUsbTargetDeviceRetrieveConfigDescriptor
//
typedef
_Must_inspect_result_
_IRQL_requires_max_(PASSIVE_LEVEL)
WDFAPI
NTSTATUS
(STDCALL *PFN_WDFUSBTARGETDEVICERETRIEVECONFIGDESCRIPTOR)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
WDFUSBDEVICE UsbDevice,
_Out_writes_bytes_to_opt_(*ConfigDescriptorLength,*ConfigDescriptorLength)
PVOID ConfigDescriptor,
_Inout_
PUSHORT ConfigDescriptorLength
);
_Must_inspect_result_
_IRQL_requires_max_(PASSIVE_LEVEL)
FORCEINLINE
NTSTATUS
WdfUsbTargetDeviceRetrieveConfigDescriptor(
_In_
WDFUSBDEVICE UsbDevice,
_Out_writes_bytes_to_opt_(*ConfigDescriptorLength,*ConfigDescriptorLength)
PVOID ConfigDescriptor,
_Inout_
PUSHORT ConfigDescriptorLength
)
{
return ((PFN_WDFUSBTARGETDEVICERETRIEVECONFIGDESCRIPTOR) WdfFunctions[WdfUsbTargetDeviceRetrieveConfigDescriptorTableIndex])(WdfDriverGlobals, UsbDevice, ConfigDescriptor, ConfigDescriptorLength);
}
//
// WDF Function: WdfUsbTargetDeviceQueryString
//
typedef
_Must_inspect_result_
_IRQL_requires_max_(PASSIVE_LEVEL)
WDFAPI
NTSTATUS
(STDCALL *PFN_WDFUSBTARGETDEVICEQUERYSTRING)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
WDFUSBDEVICE UsbDevice,
_In_opt_
WDFREQUEST Request,
_In_opt_
PWDF_REQUEST_SEND_OPTIONS RequestOptions,
_Out_writes_opt_(*NumCharacters)
PUSHORT String,
_Inout_
PUSHORT NumCharacters,
_In_
UCHAR StringIndex,
_In_opt_
USHORT LangID
);
_Must_inspect_result_
_IRQL_requires_max_(PASSIVE_LEVEL)
FORCEINLINE
NTSTATUS
WdfUsbTargetDeviceQueryString(
_In_
WDFUSBDEVICE UsbDevice,
_In_opt_
WDFREQUEST Request,
_In_opt_
PWDF_REQUEST_SEND_OPTIONS RequestOptions,
_Out_writes_opt_(*NumCharacters)
PUSHORT String,
_Inout_
PUSHORT NumCharacters,
_In_
UCHAR StringIndex,
_In_opt_
USHORT LangID
)
{
return ((PFN_WDFUSBTARGETDEVICEQUERYSTRING) WdfFunctions[WdfUsbTargetDeviceQueryStringTableIndex])(WdfDriverGlobals, UsbDevice, Request, RequestOptions, String, NumCharacters, StringIndex, LangID);
}
//
// WDF Function: WdfUsbTargetDeviceAllocAndQueryString
//
typedef
_Must_inspect_result_
_IRQL_requires_max_(PASSIVE_LEVEL)
WDFAPI
NTSTATUS
(STDCALL *PFN_WDFUSBTARGETDEVICEALLOCANDQUERYSTRING)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
WDFUSBDEVICE UsbDevice,
_In_opt_
PWDF_OBJECT_ATTRIBUTES StringMemoryAttributes,
_Out_
WDFMEMORY* StringMemory,
_Out_opt_
PUSHORT NumCharacters,
_In_
UCHAR StringIndex,
_In_opt_
USHORT LangID
);
_Must_inspect_result_
_IRQL_requires_max_(PASSIVE_LEVEL)
FORCEINLINE
NTSTATUS
WdfUsbTargetDeviceAllocAndQueryString(
_In_
WDFUSBDEVICE UsbDevice,
_In_opt_
PWDF_OBJECT_ATTRIBUTES StringMemoryAttributes,
_Out_
WDFMEMORY* StringMemory,
_Out_opt_
PUSHORT NumCharacters,
_In_
UCHAR StringIndex,
_In_opt_
USHORT LangID
)
{
return ((PFN_WDFUSBTARGETDEVICEALLOCANDQUERYSTRING) WdfFunctions[WdfUsbTargetDeviceAllocAndQueryStringTableIndex])(WdfDriverGlobals, UsbDevice, StringMemoryAttributes, StringMemory, NumCharacters, StringIndex, LangID);
}
//
// WDF Function: WdfUsbTargetDeviceFormatRequestForString
//
typedef
_Must_inspect_result_
_IRQL_requires_max_(DISPATCH_LEVEL)
WDFAPI
NTSTATUS
(STDCALL *PFN_WDFUSBTARGETDEVICEFORMATREQUESTFORSTRING)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
WDFUSBDEVICE UsbDevice,
_In_
WDFREQUEST Request,
_In_
WDFMEMORY Memory,
_In_opt_
PWDFMEMORY_OFFSET Offset,
_In_
UCHAR StringIndex,
_In_opt_
USHORT LangID
);
_Must_inspect_result_
_IRQL_requires_max_(DISPATCH_LEVEL)
FORCEINLINE
NTSTATUS
WdfUsbTargetDeviceFormatRequestForString(
_In_
WDFUSBDEVICE UsbDevice,
_In_
WDFREQUEST Request,
_In_
WDFMEMORY Memory,
_In_opt_
PWDFMEMORY_OFFSET Offset,
_In_
UCHAR StringIndex,
_In_opt_
USHORT LangID
)
{
return ((PFN_WDFUSBTARGETDEVICEFORMATREQUESTFORSTRING) WdfFunctions[WdfUsbTargetDeviceFormatRequestForStringTableIndex])(WdfDriverGlobals, UsbDevice, Request, Memory, Offset, StringIndex, LangID);
}
//
// WDF Function: WdfUsbTargetDeviceGetNumInterfaces
//
typedef
_IRQL_requires_max_(DISPATCH_LEVEL)
WDFAPI
UCHAR
(STDCALL *PFN_WDFUSBTARGETDEVICEGETNUMINTERFACES)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
WDFUSBDEVICE UsbDevice
);
_IRQL_requires_max_(DISPATCH_LEVEL)
FORCEINLINE
UCHAR
WdfUsbTargetDeviceGetNumInterfaces(
_In_
WDFUSBDEVICE UsbDevice
)
{
return ((PFN_WDFUSBTARGETDEVICEGETNUMINTERFACES) WdfFunctions[WdfUsbTargetDeviceGetNumInterfacesTableIndex])(WdfDriverGlobals, UsbDevice);
}
//
// WDF Function: WdfUsbTargetDeviceSelectConfig
//
typedef
_Must_inspect_result_
_IRQL_requires_max_(PASSIVE_LEVEL)
WDFAPI
NTSTATUS
(STDCALL *PFN_WDFUSBTARGETDEVICESELECTCONFIG)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
WDFUSBDEVICE UsbDevice,
_In_opt_
PWDF_OBJECT_ATTRIBUTES PipeAttributes,
_Inout_
PWDF_USB_DEVICE_SELECT_CONFIG_PARAMS Params
);
_Must_inspect_result_
_IRQL_requires_max_(PASSIVE_LEVEL)
FORCEINLINE
NTSTATUS
WdfUsbTargetDeviceSelectConfig(
_In_
WDFUSBDEVICE UsbDevice,
_In_opt_
PWDF_OBJECT_ATTRIBUTES PipeAttributes,
_Inout_
PWDF_USB_DEVICE_SELECT_CONFIG_PARAMS Params
)
{
return ((PFN_WDFUSBTARGETDEVICESELECTCONFIG) WdfFunctions[WdfUsbTargetDeviceSelectConfigTableIndex])(WdfDriverGlobals, UsbDevice, PipeAttributes, Params);
}
//
// WDF Function: WdfUsbTargetDeviceWdmGetConfigurationHandle
//
typedef
_IRQL_requires_max_(DISPATCH_LEVEL)
WDFAPI
USBD_CONFIGURATION_HANDLE
(STDCALL *PFN_WDFUSBTARGETDEVICEWDMGETCONFIGURATIONHANDLE)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
WDFUSBDEVICE UsbDevice
);
_IRQL_requires_max_(DISPATCH_LEVEL)
FORCEINLINE
USBD_CONFIGURATION_HANDLE
WdfUsbTargetDeviceWdmGetConfigurationHandle(
_In_
WDFUSBDEVICE UsbDevice
)
{
return ((PFN_WDFUSBTARGETDEVICEWDMGETCONFIGURATIONHANDLE) WdfFunctions[WdfUsbTargetDeviceWdmGetConfigurationHandleTableIndex])(WdfDriverGlobals, UsbDevice);
}
//
// WDF Function: WdfUsbTargetDeviceRetrieveCurrentFrameNumber
//
typedef
_Must_inspect_result_
_IRQL_requires_max_(DISPATCH_LEVEL)
WDFAPI
NTSTATUS
(STDCALL *PFN_WDFUSBTARGETDEVICERETRIEVECURRENTFRAMENUMBER)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
WDFUSBDEVICE UsbDevice,
_Out_
PULONG CurrentFrameNumber
);
_Must_inspect_result_
_IRQL_requires_max_(DISPATCH_LEVEL)
FORCEINLINE
NTSTATUS
WdfUsbTargetDeviceRetrieveCurrentFrameNumber(
_In_
WDFUSBDEVICE UsbDevice,
_Out_
PULONG CurrentFrameNumber
)
{
return ((PFN_WDFUSBTARGETDEVICERETRIEVECURRENTFRAMENUMBER) WdfFunctions[WdfUsbTargetDeviceRetrieveCurrentFrameNumberTableIndex])(WdfDriverGlobals, UsbDevice, CurrentFrameNumber);
}
//
// WDF Function: WdfUsbTargetDeviceSendControlTransferSynchronously
//
typedef
_Must_inspect_result_
_IRQL_requires_max_(PASSIVE_LEVEL)
WDFAPI
NTSTATUS
(STDCALL *PFN_WDFUSBTARGETDEVICESENDCONTROLTRANSFERSYNCHRONOUSLY)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
WDFUSBDEVICE UsbDevice,
_In_opt_
WDFREQUEST Request,
_In_opt_
PWDF_REQUEST_SEND_OPTIONS RequestOptions,
_In_
PWDF_USB_CONTROL_SETUP_PACKET SetupPacket,
_In_opt_
PWDF_MEMORY_DESCRIPTOR MemoryDescriptor,
_Out_opt_
PULONG BytesTransferred
);
_Must_inspect_result_
_IRQL_requires_max_(PASSIVE_LEVEL)
FORCEINLINE
NTSTATUS
WdfUsbTargetDeviceSendControlTransferSynchronously(
_In_
WDFUSBDEVICE UsbDevice,
_In_opt_
WDFREQUEST Request,
_In_opt_
PWDF_REQUEST_SEND_OPTIONS RequestOptions,
_In_
PWDF_USB_CONTROL_SETUP_PACKET SetupPacket,
_In_opt_
PWDF_MEMORY_DESCRIPTOR MemoryDescriptor,
_Out_opt_
PULONG BytesTransferred
)
{
return ((PFN_WDFUSBTARGETDEVICESENDCONTROLTRANSFERSYNCHRONOUSLY) WdfFunctions[WdfUsbTargetDeviceSendControlTransferSynchronouslyTableIndex])(WdfDriverGlobals, UsbDevice, Request, RequestOptions, SetupPacket, MemoryDescriptor, BytesTransferred);
}
//
// WDF Function: WdfUsbTargetDeviceFormatRequestForControlTransfer
//
typedef
_Must_inspect_result_
_IRQL_requires_max_(DISPATCH_LEVEL)
WDFAPI
NTSTATUS
(STDCALL *PFN_WDFUSBTARGETDEVICEFORMATREQUESTFORCONTROLTRANSFER)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
WDFUSBDEVICE UsbDevice,
_In_
WDFREQUEST Request,
_In_
PWDF_USB_CONTROL_SETUP_PACKET SetupPacket,
_In_opt_
WDFMEMORY TransferMemory,
_In_opt_
PWDFMEMORY_OFFSET TransferOffset
);
_Must_inspect_result_
_IRQL_requires_max_(DISPATCH_LEVEL)
FORCEINLINE
NTSTATUS
WdfUsbTargetDeviceFormatRequestForControlTransfer(
_In_
WDFUSBDEVICE UsbDevice,
_In_
WDFREQUEST Request,
_In_
PWDF_USB_CONTROL_SETUP_PACKET SetupPacket,
_In_opt_
WDFMEMORY TransferMemory,
_In_opt_
PWDFMEMORY_OFFSET TransferOffset
)
{
return ((PFN_WDFUSBTARGETDEVICEFORMATREQUESTFORCONTROLTRANSFER) WdfFunctions[WdfUsbTargetDeviceFormatRequestForControlTransferTableIndex])(WdfDriverGlobals, UsbDevice, Request, SetupPacket, TransferMemory, TransferOffset);
}
//
// WDF Function: WdfUsbTargetDeviceIsConnectedSynchronous
//
typedef
_Must_inspect_result_
_IRQL_requires_max_(PASSIVE_LEVEL)
WDFAPI
NTSTATUS
(STDCALL *PFN_WDFUSBTARGETDEVICEISCONNECTEDSYNCHRONOUS)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
WDFUSBDEVICE UsbDevice
);
_Must_inspect_result_
_IRQL_requires_max_(PASSIVE_LEVEL)
FORCEINLINE
NTSTATUS
WdfUsbTargetDeviceIsConnectedSynchronous(
_In_
WDFUSBDEVICE UsbDevice
)
{
return ((PFN_WDFUSBTARGETDEVICEISCONNECTEDSYNCHRONOUS) WdfFunctions[WdfUsbTargetDeviceIsConnectedSynchronousTableIndex])(WdfDriverGlobals, UsbDevice);
}
//
// WDF Function: WdfUsbTargetDeviceResetPortSynchronously
//
typedef
_Must_inspect_result_
_IRQL_requires_max_(PASSIVE_LEVEL)
WDFAPI
NTSTATUS
(STDCALL *PFN_WDFUSBTARGETDEVICERESETPORTSYNCHRONOUSLY)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
WDFUSBDEVICE UsbDevice
);
_Must_inspect_result_
_IRQL_requires_max_(PASSIVE_LEVEL)
FORCEINLINE
NTSTATUS
WdfUsbTargetDeviceResetPortSynchronously(
_In_
WDFUSBDEVICE UsbDevice
)
{
return ((PFN_WDFUSBTARGETDEVICERESETPORTSYNCHRONOUSLY) WdfFunctions[WdfUsbTargetDeviceResetPortSynchronouslyTableIndex])(WdfDriverGlobals, UsbDevice);
}
//
// WDF Function: WdfUsbTargetDeviceCyclePortSynchronously
//
typedef
_Must_inspect_result_
_IRQL_requires_max_(PASSIVE_LEVEL)
WDFAPI
NTSTATUS
(STDCALL *PFN_WDFUSBTARGETDEVICECYCLEPORTSYNCHRONOUSLY)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
WDFUSBDEVICE UsbDevice
);
_Must_inspect_result_
_IRQL_requires_max_(PASSIVE_LEVEL)
FORCEINLINE
NTSTATUS
WdfUsbTargetDeviceCyclePortSynchronously(
_In_
WDFUSBDEVICE UsbDevice
)
{
return ((PFN_WDFUSBTARGETDEVICECYCLEPORTSYNCHRONOUSLY) WdfFunctions[WdfUsbTargetDeviceCyclePortSynchronouslyTableIndex])(WdfDriverGlobals, UsbDevice);
}
//
// WDF Function: WdfUsbTargetDeviceFormatRequestForCyclePort
//
typedef
_Must_inspect_result_
_IRQL_requires_max_(DISPATCH_LEVEL)
WDFAPI
NTSTATUS
(STDCALL *PFN_WDFUSBTARGETDEVICEFORMATREQUESTFORCYCLEPORT)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
WDFUSBDEVICE UsbDevice,
_In_
WDFREQUEST Request
);
_Must_inspect_result_
_IRQL_requires_max_(DISPATCH_LEVEL)
FORCEINLINE
NTSTATUS
WdfUsbTargetDeviceFormatRequestForCyclePort(
_In_
WDFUSBDEVICE UsbDevice,
_In_
WDFREQUEST Request
)
{
return ((PFN_WDFUSBTARGETDEVICEFORMATREQUESTFORCYCLEPORT) WdfFunctions[WdfUsbTargetDeviceFormatRequestForCyclePortTableIndex])(WdfDriverGlobals, UsbDevice, Request);
}
//
// WDF Function: WdfUsbTargetDeviceSendUrbSynchronously
//
typedef
_Must_inspect_result_
_IRQL_requires_max_(PASSIVE_LEVEL)
WDFAPI
NTSTATUS
(STDCALL *PFN_WDFUSBTARGETDEVICESENDURBSYNCHRONOUSLY)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
WDFUSBDEVICE UsbDevice,
_In_opt_
WDFREQUEST Request,
_In_opt_
PWDF_REQUEST_SEND_OPTIONS RequestOptions,
_In_reads_(_Inexpressible_("union bug in SAL"))
PURB Urb
);
_Must_inspect_result_
_IRQL_requires_max_(PASSIVE_LEVEL)
FORCEINLINE
NTSTATUS
WdfUsbTargetDeviceSendUrbSynchronously(
_In_
WDFUSBDEVICE UsbDevice,
_In_opt_
WDFREQUEST Request,
_In_opt_
PWDF_REQUEST_SEND_OPTIONS RequestOptions,
_In_reads_(_Inexpressible_("union bug in SAL"))
PURB Urb
)
{
return ((PFN_WDFUSBTARGETDEVICESENDURBSYNCHRONOUSLY) WdfFunctions[WdfUsbTargetDeviceSendUrbSynchronouslyTableIndex])(WdfDriverGlobals, UsbDevice, Request, RequestOptions, Urb);
}
//
// WDF Function: WdfUsbTargetDeviceFormatRequestForUrb
//
typedef
_Must_inspect_result_
_IRQL_requires_max_(DISPATCH_LEVEL)
WDFAPI
NTSTATUS
(STDCALL *PFN_WDFUSBTARGETDEVICEFORMATREQUESTFORURB)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
WDFUSBDEVICE UsbDevice,
_In_
WDFREQUEST Request,
_In_
WDFMEMORY UrbMemory,
_In_opt_
PWDFMEMORY_OFFSET UrbMemoryOffset
);
_Must_inspect_result_
_IRQL_requires_max_(DISPATCH_LEVEL)
FORCEINLINE
NTSTATUS
WdfUsbTargetDeviceFormatRequestForUrb(
_In_
WDFUSBDEVICE UsbDevice,
_In_
WDFREQUEST Request,
_In_
WDFMEMORY UrbMemory,
_In_opt_
PWDFMEMORY_OFFSET UrbMemoryOffset
)
{
return ((PFN_WDFUSBTARGETDEVICEFORMATREQUESTFORURB) WdfFunctions[WdfUsbTargetDeviceFormatRequestForUrbTableIndex])(WdfDriverGlobals, UsbDevice, Request, UrbMemory, UrbMemoryOffset);
}
//
// WDF Function: WdfUsbTargetDeviceQueryUsbCapability
//
typedef
_Must_inspect_result_
_IRQL_requires_max_(PASSIVE_LEVEL)
WDFAPI
NTSTATUS
(STDCALL *PFN_WDFUSBTARGETDEVICEQUERYUSBCAPABILITY)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
WDFUSBDEVICE UsbDevice,
_In_
CONST GUID* CapabilityType,
_In_
ULONG CapabilityBufferLength,
_When_(CapabilityBufferLength == 0, _Out_opt_)
_When_(CapabilityBufferLength != 0 && ResultLength == NULL, _Out_writes_bytes_(CapabilityBufferLength))
_When_(CapabilityBufferLength != 0 && ResultLength != NULL, _Out_writes_bytes_to_opt_(CapabilityBufferLength, *ResultLength))
PVOID CapabilityBuffer,
_Out_opt_
_When_(ResultLength != NULL,_Deref_out_range_(<=,CapabilityBufferLength))
PULONG ResultLength
);
_Must_inspect_result_
_IRQL_requires_max_(PASSIVE_LEVEL)
FORCEINLINE
NTSTATUS
WdfUsbTargetDeviceQueryUsbCapability(
_In_
WDFUSBDEVICE UsbDevice,
_In_
CONST GUID* CapabilityType,
_In_
ULONG CapabilityBufferLength,
_When_(CapabilityBufferLength == 0, _Out_opt_)
_When_(CapabilityBufferLength != 0 && ResultLength == NULL, _Out_writes_bytes_(CapabilityBufferLength))
_When_(CapabilityBufferLength != 0 && ResultLength != NULL, _Out_writes_bytes_to_opt_(CapabilityBufferLength, *ResultLength))
PVOID CapabilityBuffer,
_Out_opt_
_When_(ResultLength != NULL,_Deref_out_range_(<=,CapabilityBufferLength))
PULONG ResultLength
)
{
return ((PFN_WDFUSBTARGETDEVICEQUERYUSBCAPABILITY) WdfFunctions[WdfUsbTargetDeviceQueryUsbCapabilityTableIndex])(WdfDriverGlobals, UsbDevice, CapabilityType, CapabilityBufferLength, CapabilityBuffer, ResultLength);
}
//
// WDF Function: WdfUsbTargetDeviceCreateUrb
//
typedef
_Must_inspect_result_
_IRQL_requires_max_(DISPATCH_LEVEL)
WDFAPI
NTSTATUS
(STDCALL *PFN_WDFUSBTARGETDEVICECREATEURB)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
WDFUSBDEVICE UsbDevice,
_In_opt_
PWDF_OBJECT_ATTRIBUTES Attributes,
_Out_
WDFMEMORY* UrbMemory,
_Outptr_opt_result_bytebuffer_(sizeof(URB))
PURB* Urb
);
_Must_inspect_result_
_IRQL_requires_max_(DISPATCH_LEVEL)
FORCEINLINE
NTSTATUS
WdfUsbTargetDeviceCreateUrb(
_In_
WDFUSBDEVICE UsbDevice,
_In_opt_
PWDF_OBJECT_ATTRIBUTES Attributes,
_Out_
WDFMEMORY* UrbMemory,
_Outptr_opt_result_bytebuffer_(sizeof(URB))
PURB* Urb
)
{
return ((PFN_WDFUSBTARGETDEVICECREATEURB) WdfFunctions[WdfUsbTargetDeviceCreateUrbTableIndex])(WdfDriverGlobals, UsbDevice, Attributes, UrbMemory, Urb);
}
//
// WDF Function: WdfUsbTargetDeviceCreateIsochUrb
//
typedef
_Must_inspect_result_
_IRQL_requires_max_(DISPATCH_LEVEL)
WDFAPI
NTSTATUS
(STDCALL *PFN_WDFUSBTARGETDEVICECREATEISOCHURB)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
WDFUSBDEVICE UsbDevice,
_In_opt_
PWDF_OBJECT_ATTRIBUTES Attributes,
_In_
ULONG NumberOfIsochPackets,
_Out_
WDFMEMORY* UrbMemory,
_Outptr_opt_result_bytebuffer_(GET_ISO_URB_SIZE(NumberOfIsochPackets))
PURB* Urb
);
_Must_inspect_result_
_IRQL_requires_max_(DISPATCH_LEVEL)
FORCEINLINE
NTSTATUS
WdfUsbTargetDeviceCreateIsochUrb(
_In_
WDFUSBDEVICE UsbDevice,
_In_opt_
PWDF_OBJECT_ATTRIBUTES Attributes,
_In_
ULONG NumberOfIsochPackets,
_Out_
WDFMEMORY* UrbMemory,
_Outptr_opt_result_bytebuffer_(GET_ISO_URB_SIZE(NumberOfIsochPackets))
PURB* Urb
)
{
return ((PFN_WDFUSBTARGETDEVICECREATEISOCHURB) WdfFunctions[WdfUsbTargetDeviceCreateIsochUrbTableIndex])(WdfDriverGlobals, UsbDevice, Attributes, NumberOfIsochPackets, UrbMemory, Urb);
}
//
// WDF Function: WdfUsbTargetPipeGetInformation
//
typedef
_IRQL_requires_max_(DISPATCH_LEVEL)
WDFAPI
VOID
(STDCALL *PFN_WDFUSBTARGETPIPEGETINFORMATION)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
WDFUSBPIPE Pipe,
_Out_
PWDF_USB_PIPE_INFORMATION PipeInformation
);
_IRQL_requires_max_(DISPATCH_LEVEL)
FORCEINLINE
VOID
WdfUsbTargetPipeGetInformation(
_In_
WDFUSBPIPE Pipe,
_Out_
PWDF_USB_PIPE_INFORMATION PipeInformation
)
{
((PFN_WDFUSBTARGETPIPEGETINFORMATION) WdfFunctions[WdfUsbTargetPipeGetInformationTableIndex])(WdfDriverGlobals, Pipe, PipeInformation);
}
//
// WDF Function: WdfUsbTargetPipeIsInEndpoint
//
typedef
_IRQL_requires_max_(DISPATCH_LEVEL)
WDFAPI
BOOLEAN
(STDCALL *PFN_WDFUSBTARGETPIPEISINENDPOINT)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
WDFUSBPIPE Pipe
);
_IRQL_requires_max_(DISPATCH_LEVEL)
FORCEINLINE
BOOLEAN
WdfUsbTargetPipeIsInEndpoint(
_In_
WDFUSBPIPE Pipe
)
{
return ((PFN_WDFUSBTARGETPIPEISINENDPOINT) WdfFunctions[WdfUsbTargetPipeIsInEndpointTableIndex])(WdfDriverGlobals, Pipe);
}
//
// WDF Function: WdfUsbTargetPipeIsOutEndpoint
//
typedef
_IRQL_requires_max_(DISPATCH_LEVEL)
WDFAPI
BOOLEAN
(STDCALL *PFN_WDFUSBTARGETPIPEISOUTENDPOINT)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
WDFUSBPIPE Pipe
);
_IRQL_requires_max_(DISPATCH_LEVEL)
FORCEINLINE
BOOLEAN
WdfUsbTargetPipeIsOutEndpoint(
_In_
WDFUSBPIPE Pipe
)
{
return ((PFN_WDFUSBTARGETPIPEISOUTENDPOINT) WdfFunctions[WdfUsbTargetPipeIsOutEndpointTableIndex])(WdfDriverGlobals, Pipe);
}
//
// WDF Function: WdfUsbTargetPipeGetType
//
typedef
_IRQL_requires_max_(DISPATCH_LEVEL)
WDFAPI
WDF_USB_PIPE_TYPE
(STDCALL *PFN_WDFUSBTARGETPIPEGETTYPE)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
WDFUSBPIPE Pipe
);
_IRQL_requires_max_(DISPATCH_LEVEL)
FORCEINLINE
WDF_USB_PIPE_TYPE
WdfUsbTargetPipeGetType(
_In_
WDFUSBPIPE Pipe
)
{
return ((PFN_WDFUSBTARGETPIPEGETTYPE) WdfFunctions[WdfUsbTargetPipeGetTypeTableIndex])(WdfDriverGlobals, Pipe);
}
//
// WDF Function: WdfUsbTargetPipeSetNoMaximumPacketSizeCheck
//
typedef
_IRQL_requires_max_(DISPATCH_LEVEL)
WDFAPI
VOID
(STDCALL *PFN_WDFUSBTARGETPIPESETNOMAXIMUMPACKETSIZECHECK)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
WDFUSBPIPE Pipe
);
_IRQL_requires_max_(DISPATCH_LEVEL)
FORCEINLINE
VOID
WdfUsbTargetPipeSetNoMaximumPacketSizeCheck(
_In_
WDFUSBPIPE Pipe
)
{
((PFN_WDFUSBTARGETPIPESETNOMAXIMUMPACKETSIZECHECK) WdfFunctions[WdfUsbTargetPipeSetNoMaximumPacketSizeCheckTableIndex])(WdfDriverGlobals, Pipe);
}
//
// WDF Function: WdfUsbTargetPipeWriteSynchronously
//
typedef
_Must_inspect_result_
_IRQL_requires_max_(PASSIVE_LEVEL)
WDFAPI
NTSTATUS
(STDCALL *PFN_WDFUSBTARGETPIPEWRITESYNCHRONOUSLY)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
WDFUSBPIPE Pipe,
_In_opt_
WDFREQUEST Request,
_In_opt_
PWDF_REQUEST_SEND_OPTIONS RequestOptions,
_In_opt_
PWDF_MEMORY_DESCRIPTOR MemoryDescriptor,
_Out_opt_
PULONG BytesWritten
);
_Must_inspect_result_
_IRQL_requires_max_(PASSIVE_LEVEL)
FORCEINLINE
NTSTATUS
WdfUsbTargetPipeWriteSynchronously(
_In_
WDFUSBPIPE Pipe,
_In_opt_
WDFREQUEST Request,
_In_opt_
PWDF_REQUEST_SEND_OPTIONS RequestOptions,
_In_opt_
PWDF_MEMORY_DESCRIPTOR MemoryDescriptor,
_Out_opt_
PULONG BytesWritten
)
{
return ((PFN_WDFUSBTARGETPIPEWRITESYNCHRONOUSLY) WdfFunctions[WdfUsbTargetPipeWriteSynchronouslyTableIndex])(WdfDriverGlobals, Pipe, Request, RequestOptions, MemoryDescriptor, BytesWritten);
}
//
// WDF Function: WdfUsbTargetPipeFormatRequestForWrite
//
typedef
_Must_inspect_result_
_IRQL_requires_max_(DISPATCH_LEVEL)
WDFAPI
NTSTATUS
(STDCALL *PFN_WDFUSBTARGETPIPEFORMATREQUESTFORWRITE)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
WDFUSBPIPE Pipe,
_In_
WDFREQUEST Request,
_In_opt_
WDFMEMORY WriteMemory,
_In_opt_
PWDFMEMORY_OFFSET WriteOffset
);
_Must_inspect_result_
_IRQL_requires_max_(DISPATCH_LEVEL)
FORCEINLINE
NTSTATUS
WdfUsbTargetPipeFormatRequestForWrite(
_In_
WDFUSBPIPE Pipe,
_In_
WDFREQUEST Request,
_In_opt_
WDFMEMORY WriteMemory,
_In_opt_
PWDFMEMORY_OFFSET WriteOffset
)
{
return ((PFN_WDFUSBTARGETPIPEFORMATREQUESTFORWRITE) WdfFunctions[WdfUsbTargetPipeFormatRequestForWriteTableIndex])(WdfDriverGlobals, Pipe, Request, WriteMemory, WriteOffset);
}
//
// WDF Function: WdfUsbTargetPipeReadSynchronously
//
typedef
_Must_inspect_result_
_IRQL_requires_max_(PASSIVE_LEVEL)
WDFAPI
NTSTATUS
(STDCALL *PFN_WDFUSBTARGETPIPEREADSYNCHRONOUSLY)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
WDFUSBPIPE Pipe,
_In_opt_
WDFREQUEST Request,
_In_opt_
PWDF_REQUEST_SEND_OPTIONS RequestOptions,
_In_opt_
PWDF_MEMORY_DESCRIPTOR MemoryDescriptor,
_Out_opt_
PULONG BytesRead
);
_Must_inspect_result_
_IRQL_requires_max_(PASSIVE_LEVEL)
FORCEINLINE
NTSTATUS
WdfUsbTargetPipeReadSynchronously(
_In_
WDFUSBPIPE Pipe,
_In_opt_
WDFREQUEST Request,
_In_opt_
PWDF_REQUEST_SEND_OPTIONS RequestOptions,
_In_opt_
PWDF_MEMORY_DESCRIPTOR MemoryDescriptor,
_Out_opt_
PULONG BytesRead
)
{
return ((PFN_WDFUSBTARGETPIPEREADSYNCHRONOUSLY) WdfFunctions[WdfUsbTargetPipeReadSynchronouslyTableIndex])(WdfDriverGlobals, Pipe, Request, RequestOptions, MemoryDescriptor, BytesRead);
}
//
// WDF Function: WdfUsbTargetPipeFormatRequestForRead
//
typedef
_Must_inspect_result_
_IRQL_requires_max_(DISPATCH_LEVEL)
WDFAPI
NTSTATUS
(STDCALL *PFN_WDFUSBTARGETPIPEFORMATREQUESTFORREAD)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
WDFUSBPIPE Pipe,
_In_
WDFREQUEST Request,
_In_opt_
WDFMEMORY ReadMemory,
_In_opt_
PWDFMEMORY_OFFSET ReadOffset
);
_Must_inspect_result_
_IRQL_requires_max_(DISPATCH_LEVEL)
FORCEINLINE
NTSTATUS
WdfUsbTargetPipeFormatRequestForRead(
_In_
WDFUSBPIPE Pipe,
_In_
WDFREQUEST Request,
_In_opt_
WDFMEMORY ReadMemory,
_In_opt_
PWDFMEMORY_OFFSET ReadOffset
)
{
return ((PFN_WDFUSBTARGETPIPEFORMATREQUESTFORREAD) WdfFunctions[WdfUsbTargetPipeFormatRequestForReadTableIndex])(WdfDriverGlobals, Pipe, Request, ReadMemory, ReadOffset);
}
//
// WDF Function: WdfUsbTargetPipeConfigContinuousReader
//
typedef
_Must_inspect_result_
_IRQL_requires_max_(DISPATCH_LEVEL)
WDFAPI
NTSTATUS
(STDCALL *PFN_WDFUSBTARGETPIPECONFIGCONTINUOUSREADER)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
WDFUSBPIPE Pipe,
_In_
PWDF_USB_CONTINUOUS_READER_CONFIG Config
);
_Must_inspect_result_
_IRQL_requires_max_(DISPATCH_LEVEL)
FORCEINLINE
NTSTATUS
WdfUsbTargetPipeConfigContinuousReader(
_In_
WDFUSBPIPE Pipe,
_In_
PWDF_USB_CONTINUOUS_READER_CONFIG Config
)
{
return ((PFN_WDFUSBTARGETPIPECONFIGCONTINUOUSREADER) WdfFunctions[WdfUsbTargetPipeConfigContinuousReaderTableIndex])(WdfDriverGlobals, Pipe, Config);
}
//
// WDF Function: WdfUsbTargetPipeAbortSynchronously
//
typedef
_Must_inspect_result_
_IRQL_requires_max_(PASSIVE_LEVEL)
WDFAPI
NTSTATUS
(STDCALL *PFN_WDFUSBTARGETPIPEABORTSYNCHRONOUSLY)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
WDFUSBPIPE Pipe,
_In_opt_
WDFREQUEST Request,
_In_opt_
PWDF_REQUEST_SEND_OPTIONS RequestOptions
);
_Must_inspect_result_
_IRQL_requires_max_(PASSIVE_LEVEL)
FORCEINLINE
NTSTATUS
WdfUsbTargetPipeAbortSynchronously(
_In_
WDFUSBPIPE Pipe,
_In_opt_
WDFREQUEST Request,
_In_opt_
PWDF_REQUEST_SEND_OPTIONS RequestOptions
)
{
return ((PFN_WDFUSBTARGETPIPEABORTSYNCHRONOUSLY) WdfFunctions[WdfUsbTargetPipeAbortSynchronouslyTableIndex])(WdfDriverGlobals, Pipe, Request, RequestOptions);
}
//
// WDF Function: WdfUsbTargetPipeFormatRequestForAbort
//
typedef
_Must_inspect_result_
_IRQL_requires_max_(DISPATCH_LEVEL)
WDFAPI
NTSTATUS
(STDCALL *PFN_WDFUSBTARGETPIPEFORMATREQUESTFORABORT)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
WDFUSBPIPE Pipe,
_In_
WDFREQUEST Request
);
_Must_inspect_result_
_IRQL_requires_max_(DISPATCH_LEVEL)
FORCEINLINE
NTSTATUS
WdfUsbTargetPipeFormatRequestForAbort(
_In_
WDFUSBPIPE Pipe,
_In_
WDFREQUEST Request
)
{
return ((PFN_WDFUSBTARGETPIPEFORMATREQUESTFORABORT) WdfFunctions[WdfUsbTargetPipeFormatRequestForAbortTableIndex])(WdfDriverGlobals, Pipe, Request);
}
//
// WDF Function: WdfUsbTargetPipeResetSynchronously
//
typedef
_Must_inspect_result_
_IRQL_requires_max_(PASSIVE_LEVEL)
WDFAPI
NTSTATUS
(STDCALL *PFN_WDFUSBTARGETPIPERESETSYNCHRONOUSLY)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
WDFUSBPIPE Pipe,
_In_opt_
WDFREQUEST Request,
_In_opt_
PWDF_REQUEST_SEND_OPTIONS RequestOptions
);
_Must_inspect_result_
_IRQL_requires_max_(PASSIVE_LEVEL)
FORCEINLINE
NTSTATUS
WdfUsbTargetPipeResetSynchronously(
_In_
WDFUSBPIPE Pipe,
_In_opt_
WDFREQUEST Request,
_In_opt_
PWDF_REQUEST_SEND_OPTIONS RequestOptions
)
{
return ((PFN_WDFUSBTARGETPIPERESETSYNCHRONOUSLY) WdfFunctions[WdfUsbTargetPipeResetSynchronouslyTableIndex])(WdfDriverGlobals, Pipe, Request, RequestOptions);
}
//
// WDF Function: WdfUsbTargetPipeFormatRequestForReset
//
typedef
_Must_inspect_result_
_IRQL_requires_max_(DISPATCH_LEVEL)
WDFAPI
NTSTATUS
(STDCALL *PFN_WDFUSBTARGETPIPEFORMATREQUESTFORRESET)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
WDFUSBPIPE Pipe,
_In_
WDFREQUEST Request
);
_Must_inspect_result_
_IRQL_requires_max_(DISPATCH_LEVEL)
FORCEINLINE
NTSTATUS
WdfUsbTargetPipeFormatRequestForReset(
_In_
WDFUSBPIPE Pipe,
_In_
WDFREQUEST Request
)
{
return ((PFN_WDFUSBTARGETPIPEFORMATREQUESTFORRESET) WdfFunctions[WdfUsbTargetPipeFormatRequestForResetTableIndex])(WdfDriverGlobals, Pipe, Request);
}
//
// WDF Function: WdfUsbTargetPipeSendUrbSynchronously
//
typedef
_Must_inspect_result_
_IRQL_requires_max_(PASSIVE_LEVEL)
WDFAPI
NTSTATUS
(STDCALL *PFN_WDFUSBTARGETPIPESENDURBSYNCHRONOUSLY)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
WDFUSBPIPE Pipe,
_In_opt_
WDFREQUEST Request,
_In_opt_
PWDF_REQUEST_SEND_OPTIONS RequestOptions,
_In_reads_(_Inexpressible_("union bug in SAL"))
PURB Urb
);
_Must_inspect_result_
_IRQL_requires_max_(PASSIVE_LEVEL)
FORCEINLINE
NTSTATUS
WdfUsbTargetPipeSendUrbSynchronously(
_In_
WDFUSBPIPE Pipe,
_In_opt_
WDFREQUEST Request,
_In_opt_
PWDF_REQUEST_SEND_OPTIONS RequestOptions,
_In_reads_(_Inexpressible_("union bug in SAL"))
PURB Urb
)
{
return ((PFN_WDFUSBTARGETPIPESENDURBSYNCHRONOUSLY) WdfFunctions[WdfUsbTargetPipeSendUrbSynchronouslyTableIndex])(WdfDriverGlobals, Pipe, Request, RequestOptions, Urb);
}
//
// WDF Function: WdfUsbTargetPipeFormatRequestForUrb
//
typedef
_Must_inspect_result_
_IRQL_requires_max_(DISPATCH_LEVEL)
WDFAPI
NTSTATUS
(STDCALL *PFN_WDFUSBTARGETPIPEFORMATREQUESTFORURB)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
WDFUSBPIPE PIPE,
_In_
WDFREQUEST Request,
_In_
WDFMEMORY UrbMemory,
_In_opt_
PWDFMEMORY_OFFSET UrbMemoryOffset
);
_Must_inspect_result_
_IRQL_requires_max_(DISPATCH_LEVEL)
FORCEINLINE
NTSTATUS
WdfUsbTargetPipeFormatRequestForUrb(
_In_
WDFUSBPIPE PIPE,
_In_
WDFREQUEST Request,
_In_
WDFMEMORY UrbMemory,
_In_opt_
PWDFMEMORY_OFFSET UrbMemoryOffset
)
{
return ((PFN_WDFUSBTARGETPIPEFORMATREQUESTFORURB) WdfFunctions[WdfUsbTargetPipeFormatRequestForUrbTableIndex])(WdfDriverGlobals, PIPE, Request, UrbMemory, UrbMemoryOffset);
}
//
// WDF Function: WdfUsbInterfaceGetInterfaceNumber
//
typedef
_IRQL_requires_max_(DISPATCH_LEVEL)
WDFAPI
BYTE
(STDCALL *PFN_WDFUSBINTERFACEGETINTERFACENUMBER)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
WDFUSBINTERFACE UsbInterface
);
_IRQL_requires_max_(DISPATCH_LEVEL)
FORCEINLINE
BYTE
WdfUsbInterfaceGetInterfaceNumber(
_In_
WDFUSBINTERFACE UsbInterface
)
{
return ((PFN_WDFUSBINTERFACEGETINTERFACENUMBER) WdfFunctions[WdfUsbInterfaceGetInterfaceNumberTableIndex])(WdfDriverGlobals, UsbInterface);
}
//
// WDF Function: WdfUsbInterfaceGetNumEndpoints
//
typedef
_IRQL_requires_max_(DISPATCH_LEVEL)
WDFAPI
BYTE
(STDCALL *PFN_WDFUSBINTERFACEGETNUMENDPOINTS)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
WDFUSBINTERFACE UsbInterface,
_In_
UCHAR SettingIndex
);
_IRQL_requires_max_(DISPATCH_LEVEL)
FORCEINLINE
BYTE
WdfUsbInterfaceGetNumEndpoints(
_In_
WDFUSBINTERFACE UsbInterface,
_In_
UCHAR SettingIndex
)
{
return ((PFN_WDFUSBINTERFACEGETNUMENDPOINTS) WdfFunctions[WdfUsbInterfaceGetNumEndpointsTableIndex])(WdfDriverGlobals, UsbInterface, SettingIndex);
}
//
// WDF Function: WdfUsbInterfaceGetDescriptor
//
typedef
_IRQL_requires_max_(DISPATCH_LEVEL)
WDFAPI
VOID
(STDCALL *PFN_WDFUSBINTERFACEGETDESCRIPTOR)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
WDFUSBINTERFACE UsbInterface,
_In_
UCHAR SettingIndex,
_Out_
PUSB_INTERFACE_DESCRIPTOR InterfaceDescriptor
);
_IRQL_requires_max_(DISPATCH_LEVEL)
FORCEINLINE
VOID
WdfUsbInterfaceGetDescriptor(
_In_
WDFUSBINTERFACE UsbInterface,
_In_
UCHAR SettingIndex,
_Out_
PUSB_INTERFACE_DESCRIPTOR InterfaceDescriptor
)
{
((PFN_WDFUSBINTERFACEGETDESCRIPTOR) WdfFunctions[WdfUsbInterfaceGetDescriptorTableIndex])(WdfDriverGlobals, UsbInterface, SettingIndex, InterfaceDescriptor);
}
//
// WDF Function: WdfUsbInterfaceGetNumSettings
//
typedef
_IRQL_requires_max_(DISPATCH_LEVEL)
WDFAPI
BYTE
(STDCALL *PFN_WDFUSBINTERFACEGETNUMSETTINGS)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
WDFUSBINTERFACE UsbInterface
);
_IRQL_requires_max_(DISPATCH_LEVEL)
FORCEINLINE
BYTE
WdfUsbInterfaceGetNumSettings(
_In_
WDFUSBINTERFACE UsbInterface
)
{
return ((PFN_WDFUSBINTERFACEGETNUMSETTINGS) WdfFunctions[WdfUsbInterfaceGetNumSettingsTableIndex])(WdfDriverGlobals, UsbInterface);
}
//
// WDF Function: WdfUsbInterfaceSelectSetting
//
typedef
_Must_inspect_result_
_IRQL_requires_max_(PASSIVE_LEVEL)
WDFAPI
NTSTATUS
(STDCALL *PFN_WDFUSBINTERFACESELECTSETTING)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
WDFUSBINTERFACE UsbInterface,
_In_opt_
PWDF_OBJECT_ATTRIBUTES PipesAttributes,
_In_
PWDF_USB_INTERFACE_SELECT_SETTING_PARAMS Params
);
_Must_inspect_result_
_IRQL_requires_max_(PASSIVE_LEVEL)
FORCEINLINE
NTSTATUS
WdfUsbInterfaceSelectSetting(
_In_
WDFUSBINTERFACE UsbInterface,
_In_opt_
PWDF_OBJECT_ATTRIBUTES PipesAttributes,
_In_
PWDF_USB_INTERFACE_SELECT_SETTING_PARAMS Params
)
{
return ((PFN_WDFUSBINTERFACESELECTSETTING) WdfFunctions[WdfUsbInterfaceSelectSettingTableIndex])(WdfDriverGlobals, UsbInterface, PipesAttributes, Params);
}
//
// WDF Function: WdfUsbInterfaceGetEndpointInformation
//
typedef
_IRQL_requires_max_(DISPATCH_LEVEL)
WDFAPI
VOID
(STDCALL *PFN_WDFUSBINTERFACEGETENDPOINTINFORMATION)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
WDFUSBINTERFACE UsbInterface,
_In_
UCHAR SettingIndex,
_In_
UCHAR EndpointIndex,
_Out_
PWDF_USB_PIPE_INFORMATION EndpointInfo
);
_IRQL_requires_max_(DISPATCH_LEVEL)
FORCEINLINE
VOID
WdfUsbInterfaceGetEndpointInformation(
_In_
WDFUSBINTERFACE UsbInterface,
_In_
UCHAR SettingIndex,
_In_
UCHAR EndpointIndex,
_Out_
PWDF_USB_PIPE_INFORMATION EndpointInfo
)
{
((PFN_WDFUSBINTERFACEGETENDPOINTINFORMATION) WdfFunctions[WdfUsbInterfaceGetEndpointInformationTableIndex])(WdfDriverGlobals, UsbInterface, SettingIndex, EndpointIndex, EndpointInfo);
}
//
// WDF Function: WdfUsbTargetDeviceGetInterface
//
typedef
_IRQL_requires_max_(DISPATCH_LEVEL)
WDFAPI
WDFUSBINTERFACE
(STDCALL *PFN_WDFUSBTARGETDEVICEGETINTERFACE)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
WDFUSBDEVICE UsbDevice,
_In_
UCHAR InterfaceIndex
);
_IRQL_requires_max_(DISPATCH_LEVEL)
FORCEINLINE
WDFUSBINTERFACE
WdfUsbTargetDeviceGetInterface(
_In_
WDFUSBDEVICE UsbDevice,
_In_
UCHAR InterfaceIndex
)
{
return ((PFN_WDFUSBTARGETDEVICEGETINTERFACE) WdfFunctions[WdfUsbTargetDeviceGetInterfaceTableIndex])(WdfDriverGlobals, UsbDevice, InterfaceIndex);
}
//
// WDF Function: WdfUsbInterfaceGetConfiguredSettingIndex
//
typedef
_IRQL_requires_max_(DISPATCH_LEVEL)
WDFAPI
BYTE
(STDCALL *PFN_WDFUSBINTERFACEGETCONFIGUREDSETTINGINDEX)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
WDFUSBINTERFACE Interface
);
_IRQL_requires_max_(DISPATCH_LEVEL)
FORCEINLINE
BYTE
WdfUsbInterfaceGetConfiguredSettingIndex(
_In_
WDFUSBINTERFACE Interface
)
{
return ((PFN_WDFUSBINTERFACEGETCONFIGUREDSETTINGINDEX) WdfFunctions[WdfUsbInterfaceGetConfiguredSettingIndexTableIndex])(WdfDriverGlobals, Interface);
}
//
// WDF Function: WdfUsbInterfaceGetNumConfiguredPipes
//
typedef
_IRQL_requires_max_(DISPATCH_LEVEL)
WDFAPI
BYTE
(STDCALL *PFN_WDFUSBINTERFACEGETNUMCONFIGUREDPIPES)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
WDFUSBINTERFACE UsbInterface
);
_IRQL_requires_max_(DISPATCH_LEVEL)
FORCEINLINE
BYTE
WdfUsbInterfaceGetNumConfiguredPipes(
_In_
WDFUSBINTERFACE UsbInterface
)
{
return ((PFN_WDFUSBINTERFACEGETNUMCONFIGUREDPIPES) WdfFunctions[WdfUsbInterfaceGetNumConfiguredPipesTableIndex])(WdfDriverGlobals, UsbInterface);
}
//
// WDF Function: WdfUsbInterfaceGetConfiguredPipe
//
typedef
_IRQL_requires_max_(DISPATCH_LEVEL)
WDFAPI
WDFUSBPIPE
(STDCALL *PFN_WDFUSBINTERFACEGETCONFIGUREDPIPE)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
WDFUSBINTERFACE UsbInterface,
_In_
UCHAR PipeIndex,
_Out_opt_
PWDF_USB_PIPE_INFORMATION PipeInfo
);
_IRQL_requires_max_(DISPATCH_LEVEL)
FORCEINLINE
WDFUSBPIPE
WdfUsbInterfaceGetConfiguredPipe(
_In_
WDFUSBINTERFACE UsbInterface,
_In_
UCHAR PipeIndex,
_Out_opt_
PWDF_USB_PIPE_INFORMATION PipeInfo
)
{
return ((PFN_WDFUSBINTERFACEGETCONFIGUREDPIPE) WdfFunctions[WdfUsbInterfaceGetConfiguredPipeTableIndex])(WdfDriverGlobals, UsbInterface, PipeIndex, PipeInfo);
}
//
// WDF Function: WdfUsbTargetPipeWdmGetPipeHandle
//
typedef
_IRQL_requires_max_(DISPATCH_LEVEL)
WDFAPI
USBD_PIPE_HANDLE
(STDCALL *PFN_WDFUSBTARGETPIPEWDMGETPIPEHANDLE)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
WDFUSBPIPE UsbPipe
);
_IRQL_requires_max_(DISPATCH_LEVEL)
FORCEINLINE
USBD_PIPE_HANDLE
WdfUsbTargetPipeWdmGetPipeHandle(
_In_
WDFUSBPIPE UsbPipe
)
{
return ((PFN_WDFUSBTARGETPIPEWDMGETPIPEHANDLE) WdfFunctions[WdfUsbTargetPipeWdmGetPipeHandleTableIndex])(WdfDriverGlobals, UsbPipe);
}
#endif // (NTDDI_VERSION >= NTDDI_WIN2K)
WDF_EXTERN_C_END
#endif // _WDFUSB_H_