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

4568 lines
116 KiB
C

/*++
Copyright (c) Microsoft Corporation. All rights reserved.
_WdfVersionBuild_
Module Name:
wdfdevice.h
Abstract:
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 _WDFDEVICE_H_
#define _WDFDEVICE_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
#include <devpropdef.h>
#if (NTDDI_VERSION >= NTDDI_WIN2K)
// begin_wpp enum
typedef enum _WDF_DEVICE_STATE_FLAGS {
WdfDevStateNP = 0x8000,
} WDF_DEVICE_STATE_FLAGS;
// end_wpp
// begin_wpp enum
typedef enum _WDF_DEVICE_PNP_STATE {
WdfDevStatePnpInvalid = 0x00,
WdfDevStatePnpObjectCreated = 0x100,
WdfDevStatePnpCheckForDevicePresence = 0x101,
WdfDevStatePnpEjectFailed = 0x102,
WdfDevStatePnpEjectHardware = 0x103,
WdfDevStatePnpEjectedWaitingForRemove = 0x104,
WdfDevStatePnpInit = 0x105,
WdfDevStatePnpInitStarting = 0x106,
WdfDevStatePnpInitSurpriseRemoved = 0x107,
WdfDevStatePnpHardwareAvailable = 0x108,
WdfDevStatePnpEnableInterfaces = 0x109,
WdfDevStatePnpHardwareAvailablePowerPolicyFailed = 0x10A,
WdfDevStatePnpQueryRemoveAskDriver = 0x10B,
WdfDevStatePnpQueryRemovePending = 0x10C,
WdfDevStatePnpQueryRemoveStaticCheck = 0x10D,
WdfDevStatePnpQueriedRemoving = 0x10E,
WdfDevStatePnpQueryStopAskDriver = 0x10F,
WdfDevStatePnpQueryStopPending = 0x110,
WdfDevStatePnpQueryStopStaticCheck = 0x111,
WdfDevStatePnpQueryCanceled = 0x112,
WdfDevStatePnpRemoved = 0x113,
WdfDevStatePnpPdoRemoved = 0x114,
WdfDevStatePnpRemovedPdoWait = 0x115,
WdfDevStatePnpRemovedPdoSurpriseRemoved = 0x116,
WdfDevStatePnpRemovingDisableInterfaces = 0x117,
WdfDevStatePnpRestarting = 0x118,
WdfDevStatePnpStarted = 0x119,
WdfDevStatePnpStartedCancelStop = 0x11A,
WdfDevStatePnpStartedCancelRemove = 0x11B,
WdfDevStatePnpStartedRemoving = 0x11C,
WdfDevStatePnpStartingFromStopped = 0x11D,
WdfDevStatePnpStopped = 0x11E,
WdfDevStatePnpStoppedWaitForStartCompletion = 0x11F,
WdfDevStatePnpStartedStopping = 0x120,
WdfDevStatePnpSurpriseRemove = 0x121,
WdfDevStatePnpInitQueryRemove = 0x122,
WdfDevStatePnpInitQueryRemoveCanceled = 0x123,
WdfDevStatePnpFdoRemoved = 0x124,
WdfDevStatePnpRemovedWaitForChildren = 0x125,
WdfDevStatePnpQueriedSurpriseRemove = 0x126,
WdfDevStatePnpSurpriseRemoveIoStarted = 0x127,
WdfDevStatePnpFailedPowerDown = 0x128,
WdfDevStatePnpFailedIoStarting = 0x129,
WdfDevStatePnpFailedOwnHardware = 0x12A,
WdfDevStatePnpFailed = 0x12B,
WdfDevStatePnpFailedSurpriseRemoved = 0x12C,
WdfDevStatePnpFailedStarted = 0x12D,
WdfDevStatePnpFailedWaitForRemove = 0x12E,
WdfDevStatePnpFailedInit = 0x12F,
WdfDevStatePnpPdoInitFailed = 0x130,
WdfDevStatePnpRestart = 0x131,
WdfDevStatePnpRestartReleaseHardware = 0x132,
WdfDevStatePnpRestartHardwareAvailable = 0x133,
WdfDevStatePnpPdoRestart = 0x134,
WdfDevStatePnpFinal = 0x135,
WdfDevStatePnpRemovedChildrenRemoved = 0x136,
WdfDevStatePnpQueryRemoveEnsureDeviceAwake = 0x137,
WdfDevStatePnpQueryStopEnsureDeviceAwake = 0x138,
WdfDevStatePnpFailedPowerPolicyRemoved = 0x139,
WdfDevStatePnpNull = 0x13A,
} WDF_DEVICE_PNP_STATE, *PWDF_DEVICE_PNP_STATE;
// end_wpp
// begin_wpp enum
typedef enum _WDF_DEVICE_POWER_STATE {
WdfDevStatePowerInvalid = 0x00,
WdfDevStatePowerObjectCreated = 0x300,
WdfDevStatePowerCheckDeviceType = 0x301,
WdfDevStatePowerCheckDeviceTypeNP = 0x302 | WdfDevStateNP,
WdfDevStatePowerCheckParentState = 0x303,
WdfDevStatePowerCheckParentStateNP = 0x304 | WdfDevStateNP,
WdfDevStatePowerEnablingWakeAtBus = 0x305,
WdfDevStatePowerEnablingWakeAtBusNP = 0x306 | WdfDevStateNP,
WdfDevStatePowerD0 = 0x307,
WdfDevStatePowerD0NP = 0x308 | WdfDevStateNP,
WdfDevStatePowerD0BusWakeOwner = 0x309,
WdfDevStatePowerD0BusWakeOwnerNP = 0x30A | WdfDevStateNP,
WdfDevStatePowerD0ArmedForWake = 0x30B,
WdfDevStatePowerD0ArmedForWakeNP = 0x30C | WdfDevStateNP,
WdfDevStatePowerD0DisarmingWakeAtBus = 0x30D,
WdfDevStatePowerD0DisarmingWakeAtBusNP = 0x30E | WdfDevStateNP,
WdfDevStatePowerD0Starting = 0x30F,
WdfDevStatePowerD0StartingConnectInterrupt = 0x310,
WdfDevStatePowerD0StartingDmaEnable = 0x311,
WdfDevStatePowerD0StartingStartSelfManagedIo = 0x312,
WdfDevStatePowerDecideD0State = 0x313,
WdfDevStatePowerGotoD3Stopped = 0x314,
WdfDevStatePowerStopped = 0x315,
WdfDevStatePowerStartingCheckDeviceType = 0x316,
WdfDevStatePowerStartingChild = 0x317,
WdfDevStatePowerDxDisablingWakeAtBus = 0x318,
WdfDevStatePowerDxDisablingWakeAtBusNP = 0x319 | WdfDevStateNP,
WdfDevStatePowerGotoDx = 0x31A,
WdfDevStatePowerGotoDxNP = 0x31B | WdfDevStateNP,
WdfDevStatePowerGotoDxIoStopped = 0x31C,
WdfDevStatePowerGotoDxIoStoppedNP = 0x31D | WdfDevStateNP,
WdfDevStatePowerGotoDxNPFailed = 0x31E | WdfDevStateNP,
WdfDevStatePowerDx = 0x31F,
WdfDevStatePowerDxNP = 0x320 | WdfDevStateNP,
WdfDevStatePowerGotoDxArmedForWake = 0x321,
WdfDevStatePowerGotoDxArmedForWakeNP = 0x322 | WdfDevStateNP,
WdfDevStatePowerGotoDxIoStoppedArmedForWake = 0x323,
WdfDevStatePowerGotoDxIoStoppedArmedForWakeNP = 0x324 | WdfDevStateNP,
WdfDevStatePowerDxArmedForWake = 0x325,
WdfDevStatePowerDxArmedForWakeNP = 0x326 | WdfDevStateNP,
WdfDevStatePowerCheckParentStateArmedForWake = 0x327,
WdfDevStatePowerCheckParentStateArmedForWakeNP = 0x328 | WdfDevStateNP,
WdfDevStatePowerWaitForParentArmedForWake = 0x329,
WdfDevStatePowerWaitForParentArmedForWakeNP = 0x32A | WdfDevStateNP,
WdfDevStatePowerStartSelfManagedIo = 0x32B,
WdfDevStatePowerStartSelfManagedIoNP = 0x32C | WdfDevStateNP,
WdfDevStatePowerStartSelfManagedIoFailed = 0x32D,
WdfDevStatePowerStartSelfManagedIoFailedNP = 0x32E | WdfDevStateNP,
WdfDevStatePowerWaitForParent = 0x32F,
WdfDevStatePowerWaitForParentNP = 0x330 | WdfDevStateNP,
WdfDevStatePowerWakePending = 0x331,
WdfDevStatePowerWakePendingNP = 0x332 | WdfDevStateNP,
WdfDevStatePowerWaking = 0x333,
WdfDevStatePowerWakingNP = 0x334 | WdfDevStateNP,
WdfDevStatePowerWakingConnectInterrupt = 0x335,
WdfDevStatePowerWakingConnectInterruptNP = 0x336 | WdfDevStateNP,
WdfDevStatePowerWakingConnectInterruptFailed = 0x337,
WdfDevStatePowerWakingConnectInterruptFailedNP = 0x338 | WdfDevStateNP,
WdfDevStatePowerWakingDmaEnable = 0x339,
WdfDevStatePowerWakingDmaEnableNP = 0x33A | WdfDevStateNP,
WdfDevStatePowerWakingDmaEnableFailed = 0x33B,
WdfDevStatePowerWakingDmaEnableFailedNP = 0x33C | WdfDevStateNP,
WdfDevStatePowerReportPowerUpFailedDerefParent = 0x33D,
WdfDevStatePowerReportPowerUpFailed = 0x33E,
WdfDevStatePowerPowerFailedPowerDown = 0x33F,
WdfDevStatePowerReportPowerDownFailed = 0x340,
WdfDevStatePowerInitialConnectInterruptFailed = 0x341,
WdfDevStatePowerInitialDmaEnableFailed = 0x342,
WdfDevStatePowerInitialSelfManagedIoFailed = 0x343,
WdfDevStatePowerInitialPowerUpFailedDerefParent = 0x344,
WdfDevStatePowerInitialPowerUpFailed = 0x345,
WdfDevStatePowerDxStoppedDisarmWake = 0x346,
WdfDevStatePowerDxStoppedDisarmWakeNP = 0x347 | WdfDevStateNP,
WdfDevStatePowerGotoDxStoppedDisableInterruptNP = 0x348 | WdfDevStateNP,
WdfDevStatePowerGotoDxStopped = 0x349,
WdfDevStatePowerDxStopped = 0x34A,
WdfDevStatePowerGotoStopped = 0x34B,
WdfDevStatePowerStoppedCompleteDx = 0x34C,
WdfDevStatePowerDxStoppedDecideDxState = 0x34D,
WdfDevStatePowerDxStoppedArmForWake = 0x34E,
WdfDevStatePowerDxStoppedArmForWakeNP = 0x34F | WdfDevStateNP,
WdfDevStatePowerFinalPowerDownFailed = 0x350,
WdfDevStatePowerFinal = 0x351,
WdfDevStatePowerGotoImplicitD3DisarmWakeAtBus = 0x352,
WdfDevStatePowerUpFailed = 0x353,
WdfDevStatePowerUpFailedDerefParent = 0x354,
WdfDevStatePowerGotoDxFailed = 0x355,
WdfDevStatePowerGotoDxStoppedDisableInterrupt = 0x356,
WdfDevStatePowerUpFailedNP = 0x357 | WdfDevStateNP,
WdfDevStatePowerUpFailedDerefParentNP = 0x358 | WdfDevStateNP,
WdfDevStatePowerNotifyingD0ExitToWakeInterrupts = 0x359,
WdfDevStatePowerNotifyingD0EntryToWakeInterrupts = 0x35A,
WdfDevStatePowerNotifyingD0ExitToWakeInterruptsNP = 0x35B | WdfDevStateNP,
WdfDevStatePowerNotifyingD0EntryToWakeInterruptsNP = 0x35C | WdfDevStateNP,
WdfDevStatePowerNull = 0x35D,
} WDF_DEVICE_POWER_STATE, *PWDF_DEVICE_POWER_STATE;
// end_wpp
// begin_wpp enum
typedef enum _WDF_DEVICE_POWER_POLICY_STATE {
WdfDevStatePwrPolInvalid = 0x00,
WdfDevStatePwrPolObjectCreated = 0x500,
WdfDevStatePwrPolStarting = 0x501,
WdfDevStatePwrPolStartingSucceeded = 0x502,
WdfDevStatePwrPolStartingFailed = 0x503,
WdfDevStatePwrPolStartingDecideS0Wake = 0x504,
WdfDevStatePwrPolStartedIdleCapable = 0x505,
WdfDevStatePwrPolTimerExpiredNoWake = 0x506,
WdfDevStatePwrPolTimerExpiredNoWakeCompletePowerDown = 0x507,
WdfDevStatePwrPolWaitingUnarmed = 0x508,
WdfDevStatePwrPolWaitingUnarmedQueryIdle = 0x509,
WdfDevStatePwrPolS0NoWakePowerUp = 0x50A,
WdfDevStatePwrPolS0NoWakeCompletePowerUp = 0x50B,
WdfDevStatePwrPolSystemSleepFromDeviceWaitingUnarmed = 0x50C,
WdfDevStatePwrPolSystemSleepNeedWake = 0x50D,
WdfDevStatePwrPolSystemSleepNeedWakeCompletePowerUp = 0x50E,
WdfDevStatePwrPolSystemSleepPowerRequestFailed = 0x50F,
WdfDevStatePwrPolCheckPowerPageable = 0x510,
WdfDevStatePwrPolSleepingWakeWakeArrived = 0x511,
WdfDevStatePwrPolSleepingWakeRevertArmWake = 0x512,
WdfDevStatePwrPolSystemAsleepWakeArmed = 0x513,
WdfDevStatePwrPolSystemWakeDeviceWakeEnabled = 0x514,
WdfDevStatePwrPolSystemWakeDeviceWakeEnabledWakeCanceled = 0x515,
WdfDevStatePwrPolSystemWakeDeviceWakeDisarm = 0x516,
WdfDevStatePwrPolSystemWakeDeviceWakeTriggered = 0x517,
WdfDevStatePwrPolSystemWakeDeviceWakeTriggeredS0 = 0x518,
WdfDevStatePwrPolSystemWakeDeviceWokeDisarm = 0x519,
WdfDevStatePwrPolSleepingWakeWakeArrivedNP = 0x51A | WdfDevStateNP,
WdfDevStatePwrPolSleepingWakeRevertArmWakeNP = 0x51B | WdfDevStateNP,
WdfDevStatePwrPolSleepingWakePowerDownFailed = 0x51C,
WdfDevStatePwrPolSleepingWakePowerDownFailedWakeCanceled = 0x51D,
WdfDevStatePwrPolSystemAsleepWakeArmedNP = 0x51E | WdfDevStateNP,
WdfDevStatePwrPolSystemWakeDeviceWakeEnabledNP = 0x51F | WdfDevStateNP,
WdfDevStatePwrPolSystemWakeDeviceWakeEnabledWakeCanceledNP = 0x520 | WdfDevStateNP,
WdfDevStatePwrPolSystemWakeDeviceWakeDisarmNP = 0x521 | WdfDevStateNP,
WdfDevStatePwrPolSystemWakeDeviceWakeTriggeredNP = 0x522 | WdfDevStateNP,
WdfDevStatePwrPolSystemWakeDeviceWakeTriggeredS0NP = 0x523 | WdfDevStateNP,
WdfDevStatePwrPolSystemWakeDeviceWokeDisarmNP = 0x524 | WdfDevStateNP,
WdfDevStatePwrPolSystemWakeDeviceWakeCompletePowerUp = 0x525,
WdfDevStatePwrPolSleeping = 0x526,
WdfDevStatePwrPolSleepingNoWakePowerDown = 0x527,
WdfDevStatePwrPolSleepingNoWakeCompletePowerDown = 0x528,
WdfDevStatePwrPolSleepingNoWakeDxRequestFailed = 0x529,
WdfDevStatePwrPolSleepingWakePowerDown = 0x52A,
WdfDevStatePwrPolSleepingSendWake = 0x52B,
WdfDevStatePwrPolSystemAsleepNoWake = 0x52C,
WdfDevStatePwrPolSystemWakeDeviceWakeDisabled = 0x52D,
WdfDevStatePwrPolSystemWakeDeviceToD0 = 0x52E,
WdfDevStatePwrPolSystemWakeDeviceToD0CompletePowerUp = 0x52F,
WdfDevStatePwrPolSystemWakeQueryIdle = 0x530,
WdfDevStatePwrPolStartedWakeCapable = 0x531,
WdfDevStatePwrPolTimerExpiredDecideUsbSS = 0x532,
WdfDevStatePwrPolTimerExpiredWakeCapablePowerDown = 0x533,
WdfDevStatePwrPolTimerExpiredWakeCapableSendWake = 0x534,
WdfDevStatePwrPolTimerExpiredWakeCapableUsbSS = 0x535,
WdfDevStatePwrPolTimerExpiredWakeCapableWakeArrived = 0x536,
WdfDevStatePwrPolTimerExpiredWakeCapableCancelWake = 0x537,
WdfDevStatePwrPolTimerExpiredWakeCapableWakeCanceled = 0x538,
WdfDevStatePwrPolTimerExpiredWakeCapableCleanup = 0x539,
WdfDevStatePwrPolTimerExpiredWakeCapableDxAllocFailed = 0x53A,
WdfDevStatePwrPolTimerExpiredWakeCompletedPowerDown = 0x53B,
WdfDevStatePwrPolTimerExpiredWakeCompletedPowerUp = 0x53C,
WdfDevStatePwrPolWaitingArmedUsbSS = 0x53D,
WdfDevStatePwrPolWaitingArmed = 0x53E,
WdfDevStatePwrPolWaitingArmedQueryIdle = 0x53F,
WdfDevStatePwrPolIoPresentArmed = 0x540,
WdfDevStatePwrPolIoPresentArmedWakeCanceled = 0x541,
WdfDevStatePwrPolS0WakeDisarm = 0x542,
WdfDevStatePwrPolS0WakeCompletePowerUp = 0x543,
WdfDevStatePwrPolTimerExpiredWakeSucceeded = 0x544,
WdfDevStatePwrPolTimerExpiredWakeCompletedDisarm = 0x545,
WdfDevStatePwrPolTimerExpiredWakeCapableWakeSucceeded = 0x546,
WdfDevStatePwrPolTimerExpiredWakeCapableWakeFailed = 0x547,
WdfDevStatePwrPolWakeFailedUsbSS = 0x548,
WdfDevStatePwrPolTimerExpiredWakeCapablePowerDownFailedCancelWake = 0x549,
WdfDevStatePwrPolTimerExpiredWakeCapablePowerDownFailedWakeCanceled = 0x54A,
WdfDevStatePwrPolTimerExpiredWakeCapablePowerDownFailedUsbSS = 0x54B,
WdfDevStatePwrPolCancelingWakeForSystemSleep = 0x54C,
WdfDevStatePwrPolCancelingWakeForSystemSleepWakeCanceled = 0x54D,
WdfDevStatePwrPolDisarmingWakeForSystemSleepCompletePowerUp = 0x54E,
WdfDevStatePwrPolPowerUpForSystemSleepFailed = 0x54F,
WdfDevStatePwrPolWokeFromS0UsbSS = 0x550,
WdfDevStatePwrPolWokeFromS0 = 0x551,
WdfDevStatePwrPolWokeFromS0NotifyDriver = 0x552,
WdfDevStatePwrPolStoppingResetDevice = 0x553,
WdfDevStatePwrPolStoppingResetDeviceCompletePowerUp = 0x554,
WdfDevStatePwrPolStoppingResetDeviceFailed = 0x555,
WdfDevStatePwrPolStoppingD0 = 0x556,
WdfDevStatePwrPolStoppingD0Failed = 0x557,
WdfDevStatePwrPolStoppingDisarmWake = 0x558,
WdfDevStatePwrPolStoppingDisarmWakeCancelWake = 0x559,
WdfDevStatePwrPolStoppingDisarmWakeWakeCanceled = 0x55A,
WdfDevStatePwrPolStopping = 0x55B,
WdfDevStatePwrPolStoppingFailed = 0x55C,
WdfDevStatePwrPolStoppingSendStatus = 0x55D,
WdfDevStatePwrPolStoppingCancelTimer = 0x55E,
WdfDevStatePwrPolStoppingWaitForIdleTimeout = 0x55F,
WdfDevStatePwrPolStoppingCancelUsbSS = 0x560,
WdfDevStatePwrPolStoppingWaitForUsbSSCompletion = 0x561,
WdfDevStatePwrPolStoppingCancelWake = 0x562,
WdfDevStatePwrPolStopped = 0x563,
WdfDevStatePwrPolCancelUsbSS = 0x564,
WdfDevStatePwrPolStarted = 0x565,
WdfDevStatePwrPolStartedCancelTimer = 0x566,
WdfDevStatePwrPolStartedWaitForIdleTimeout = 0x567,
WdfDevStatePwrPolStartedWakeCapableCancelTimerForSleep = 0x568,
WdfDevStatePwrPolStartedWakeCapableWaitForIdleTimeout = 0x569,
WdfDevStatePwrPolStartedWakeCapableSleepingUsbSS = 0x56A,
WdfDevStatePwrPolStartedIdleCapableCancelTimerForSleep = 0x56B,
WdfDevStatePwrPolStartedIdleCapableWaitForIdleTimeout = 0x56C,
WdfDevStatePwrPolDeviceD0PowerRequestFailed = 0x56D,
WdfDevStatePwrPolDevicePowerRequestFailed = 0x56E,
WdfDevStatePwrPolGotoDx = 0x56F,
WdfDevStatePwrPolGotoDxInDx = 0x570,
WdfDevStatePwrPolDx = 0x571,
WdfDevStatePwrPolGotoD0 = 0x572,
WdfDevStatePwrPolGotoD0InD0 = 0x573,
WdfDevStatePwrPolFinal = 0x574,
WdfDevStatePwrPolSleepingPowerDownNotProcessed = 0x575,
WdfDevStatePwrPolTimerExpiredWakeCapablePowerDownNotProcessed = 0x576,
WdfDevStatePwrPolTimerExpiredNoWakePowerDownNotProcessed = 0x577,
WdfDevStatePwrPolTimerExpiredNoWakePoweredDownDisableIdleTimer = 0x578,
WdfDevStatePwrPolStoppingWaitingForImplicitPowerDown = 0x579,
WdfDevStatePwrPolStoppingPoweringUp = 0x57A,
WdfDevStatePwrPolStoppingPoweringDown = 0x57B,
WdfDevStatePwrPolPowerUpForSystemSleepNotSeen = 0x57C,
WdfDevStatePwrPolWaitingArmedStoppingCancelUsbSS = 0x57D,
WdfDevStatePwrPolWaitingArmedWakeFailedCancelUsbSS = 0x57E,
WdfDevStatePwrPolWaitingArmedIoPresentCancelUsbSS = 0x57F,
WdfDevStatePwrPolWaitingArmedWakeSucceededCancelUsbSS = 0x580,
WdfDevStatePwrPolCancelingUsbSSForSystemSleep = 0x581,
WdfDevStatePwrPolStoppingD0CancelUsbSS = 0x582,
WdfDevStatePwrPolStartingPoweredUp = 0x583,
WdfDevStatePwrPolIdleCapableDeviceIdle = 0x584,
WdfDevStatePwrPolDeviceIdleReturnToActive = 0x585,
WdfDevStatePwrPolDeviceIdleSleeping = 0x586,
WdfDevStatePwrPolDeviceIdleStopping = 0x587,
WdfDevStatePwrPolTimerExpiredNoWakeUndoPowerDown = 0x588,
WdfDevStatePwrPolWakeCapableDeviceIdle = 0x589,
WdfDevStatePwrPolWakeCapableUsbSSCompleted = 0x58A,
WdfDevStatePwrPolTimerExpiredWakeCapableUndoPowerDown = 0x58B,
WdfDevStatePwrPolTimerExpiredWakeCompletedHardwareStarted = 0x58C,
WdfDevStatePwrPolStoppedRemoving = 0x58D,
WdfDevStatePwrPolRemoved = 0x58E,
WdfDevStatePwrPolRestarting = 0x58F,
WdfDevStatePwrPolRestartingFailed = 0x590,
WdfDevStatePwrPolStartingPoweredUpFailed = 0x591,
WdfDevStatePwrPolTimerExpiredNoWakeReturnToActive = 0x592,
WdfDevStatePwrPolWaitingArmedWakeInterruptFired = 0x593,
WdfDevStatePwrPolSystemWakeDeviceWakeInterruptFired = 0x594,
WdfDevStatePwrPolSystemWakeDeviceWakeInterruptFiredNP = 0x595 | WdfDevStateNP,
WdfDevStatePwrPolTimerExpiredWakeCapableWakeInterruptArrived = 0x596,
WdfDevStatePwrPolTimerExpiredWakeCapablePowerDownFailedWakeInterruptArrived = 0x597,
WdfDevStatePwrPolWaitingArmedWakeInterruptFiredDuringPowerDown = 0x598,
WdfDevStatePwrPolNull = 0x599,
} WDF_DEVICE_POWER_POLICY_STATE, *PWDF_DEVICE_POWER_POLICY_STATE;
// end_wpp
typedef enum _WDF_STATE_NOTIFICATION_TYPE {
StateNotificationInvalid = 0x0000,
StateNotificationEnterState = 0x0001,
StateNotificationPostProcessState = 0x0002,
StateNotificationLeaveState = 0x0004,
StateNotificationAllStates = StateNotificationEnterState | StateNotificationPostProcessState | StateNotificationLeaveState,
} WDF_STATE_NOTIFICATION_TYPE;
typedef enum _WDF_POWER_POLICY_S0_IDLE_CAPABILITIES {
IdleCapsInvalid = 0,
IdleCannotWakeFromS0,
IdleCanWakeFromS0,
IdleUsbSelectiveSuspend,
} WDF_POWER_POLICY_S0_IDLE_CAPABILITIES;
typedef enum _WDF_POWER_POLICY_S0_IDLE_USER_CONTROL {
IdleUserControlInvalid = 0,
IdleDoNotAllowUserControl,
IdleAllowUserControl,
} WDF_POWER_POLICY_S0_IDLE_USER_CONTROL;
typedef enum _WDF_POWER_POLICY_IDLE_TIMEOUT_CONSTANTS {
IdleTimeoutDefaultConstant = 0,
} WDF_POWER_POLICY_IDLE_TIMEOUT_CONSTANTS;
typedef enum _WDF_POWER_POLICY_SX_WAKE_USER_CONTROL {
WakeUserControlInvalid = 0,
WakeDoNotAllowUserControl,
WakeAllowUserControl,
} WDF_POWER_POLICY_SX_WAKE_USER_CONTROL;
typedef enum _WDF_POWER_DEVICE_STATE {
WdfPowerDeviceInvalid = 0,
WdfPowerDeviceD0,
WdfPowerDeviceD1,
WdfPowerDeviceD2,
WdfPowerDeviceD3,
WdfPowerDeviceD3Final,
WdfPowerDevicePrepareForHibernation,
WdfPowerDeviceMaximum,
} WDF_POWER_DEVICE_STATE, *PWDF_POWER_DEVICE_STATE;
typedef enum _WDF_DISPATCH_IRP_TO_IO_QUEUE_FLAGS {
WDF_DISPATCH_IRP_TO_IO_QUEUE_NO_FLAGS = 0x00000000,
WDF_DISPATCH_IRP_TO_IO_QUEUE_INVOKE_INCALLERCTX_CALLBACK = 0x00000001,
WDF_DISPATCH_IRP_TO_IO_QUEUE_PREPROCESSED_IRP = 0x00000002,
} WDF_DISPATCH_IRP_TO_IO_QUEUE_FLAGS;
typedef enum _WDF_SPECIAL_FILE_TYPE {
WdfSpecialFileUndefined = 0,
WdfSpecialFilePaging = 1,
WdfSpecialFileHibernation,
WdfSpecialFileDump,
WdfSpecialFileBoot,
WdfSpecialFileMax,
} WDF_SPECIAL_FILE_TYPE, *PWDF_SPECIAL_FILE_TYPE;
typedef enum _WDF_DEVICE_IO_TYPE {
WdfDeviceIoUndefined = 0,
WdfDeviceIoNeither,
WdfDeviceIoBuffered,
WdfDeviceIoDirect,
WdfDeviceIoBufferedOrDirect = 4,
WdfDeviceIoMaximum,
} WDF_DEVICE_IO_TYPE, *PWDF_DEVICE_IO_TYPE;
typedef enum _WDF_FILEOBJECT_CLASS {
WdfFileObjectInvalid = 0,
WdfFileObjectNotRequired = 1,
WdfFileObjectWdfCanUseFsContext = 2,
WdfFileObjectWdfCanUseFsContext2 = 3,
WdfFileObjectWdfCannotUseFsContexts = 4,
WdfFileObjectCanBeOptional = 0x80000000,
} WDF_FILEOBJECT_CLASS, *PWDF_FILEOBJECT_CLASS;
typedef enum _WDF_DEVICE_FAILED_ACTION {
WdfDeviceFailedUndefined = 0,
WdfDeviceFailedAttemptRestart,
WdfDeviceFailedNoRestart,
} WDF_DEVICE_FAILED_ACTION;
typedef enum _WDF_RELEASE_HARDWARE_ORDER_ON_FAILURE {
WdfReleaseHardwareOrderOnFailureInvalid = 0,
WdfReleaseHardwareOrderOnFailureEarly,
WdfReleaseHardwareOrderOnFailureAfterDescendants,
} WDF_RELEASE_HARDWARE_ORDER_ON_FAILURE, *PWDF_RELEASE_HARDWARE_ORDER_ON_FAILURE;
//
// If you do not want the auto inclusion of wdmsec.h, define
// WDF_DEVICE_NO_WDMSEC_H before including this file (or wdf.h)
//
#ifndef WDF_DEVICE_NO_WDMSEC_H
#include <wdmsec.h>
#endif // WDF_DEVICE_NO_WDMSEC_H
#define WDF_S0_IDLE_ENABLED_VALUE_NAME L"IdleInWorkingState"
#define WDF_SX_WAKE_ENABLED_VALUE_NAME L"WakeFromSleepState"
#define WDF_S0_IDLE_DEFAULT_VALUE_NAME L"WdfDefaultIdleInWorkingState"
#define WDF_SX_WAKE_DEFAULT_VALUE_NAME L"WdfDefaultWakeFromSleepState"
//
// Declare empty definitions so that they may be referenced by
// routines before they are defined.
//
// enum _WDF_REQUEST_TYPE;
// typedef enum _WDF_REQUEST_TYPE WDF_REQUEST_TYPE;
typedef enum _WDF_REQUEST_TYPE { // taken from wdfrequest.h
WdfRequestTypeCreate = 0x0,
WdfRequestTypeCreateNamedPipe = 0x1,
WdfRequestTypeClose = 0x2,
WdfRequestTypeRead = 0x3,
WdfRequestTypeWrite = 0x4,
WdfRequestTypeQueryInformation = 0x5,
WdfRequestTypeSetInformation = 0x6,
WdfRequestTypeQueryEA = 0x7,
WdfRequestTypeSetEA = 0x8,
WdfRequestTypeFlushBuffers = 0x9,
WdfRequestTypeQueryVolumeInformation = 0xa,
WdfRequestTypeSetVolumeInformation = 0xb,
WdfRequestTypeDirectoryControl = 0xc,
WdfRequestTypeFileSystemControl = 0xd,
WdfRequestTypeDeviceControl = 0xe,
WdfRequestTypeDeviceControlInternal = 0xf,
WdfRequestTypeShutdown = 0x10,
WdfRequestTypeLockControl = 0x11,
WdfRequestTypeCleanup = 0x12,
WdfRequestTypeCreateMailSlot = 0x13,
WdfRequestTypeQuerySecurity = 0x14,
WdfRequestTypeSetSecurity = 0x15,
WdfRequestTypePower = 0x16,
WdfRequestTypeSystemControl = 0x17,
WdfRequestTypeDeviceChange = 0x18,
WdfRequestTypeQueryQuota = 0x19,
WdfRequestTypeSetQuota = 0x1A,
WdfRequestTypePnp = 0x1B,
WdfRequestTypeOther =0x1C,
WdfRequestTypeUsb = 0x40,
WdfRequestTypeNoFormat = 0xFF,
WdfRequestTypeMax,
} WDF_REQUEST_TYPE;
typedef
_Function_class_(EVT_WDF_DEVICE_FILE_CREATE)
_IRQL_requires_same_
_IRQL_requires_max_(PASSIVE_LEVEL)
VOID
STDCALL
EVT_WDF_DEVICE_FILE_CREATE(
_In_
WDFDEVICE Device,
_In_
WDFREQUEST Request,
_In_
WDFFILEOBJECT FileObject
);
typedef EVT_WDF_DEVICE_FILE_CREATE *PFN_WDF_DEVICE_FILE_CREATE;
typedef
_Function_class_(EVT_WDF_FILE_CLOSE)
_IRQL_requires_same_
_IRQL_requires_max_(PASSIVE_LEVEL)
VOID
STDCALL
EVT_WDF_FILE_CLOSE(
_In_
WDFFILEOBJECT FileObject
);
typedef EVT_WDF_FILE_CLOSE *PFN_WDF_FILE_CLOSE;
typedef
_Function_class_(EVT_WDF_FILE_CLEANUP)
_IRQL_requires_same_
_IRQL_requires_max_(PASSIVE_LEVEL)
VOID
STDCALL
EVT_WDF_FILE_CLEANUP(
_In_
WDFFILEOBJECT FileObject
);
typedef EVT_WDF_FILE_CLEANUP *PFN_WDF_FILE_CLEANUP;
typedef struct _WDF_FILEOBJECT_CONFIG {
//
// Size of this structure in bytes
//
ULONG Size;
//
// Event callback for create requests
//
PFN_WDF_DEVICE_FILE_CREATE EvtDeviceFileCreate;
//
// Event callback for close requests
//
PFN_WDF_FILE_CLOSE EvtFileClose;
//
// Event callback for cleanup requests
//
PFN_WDF_FILE_CLEANUP EvtFileCleanup;
//
// If WdfTrue, create/cleanup/close file object related requests will be
// sent down the stack.
//
// If WdfFalse, create/cleanup/close will be completed at this location in
// the device stack.
//
// If WdfDefault, behavior depends on device type
// FDO, PDO, Control: use the WdfFalse behavior
// Filter: use the WdfTrue behavior
//
WDF_TRI_STATE AutoForwardCleanupClose;
//
// Specify whether framework should create WDFFILEOBJECT and also
// whether it can FsContexts fields in the WDM fileobject to store
// WDFFILEOBJECT so that it can avoid table look up and improve perf.
//
WDF_FILEOBJECT_CLASS FileObjectClass;
} WDF_FILEOBJECT_CONFIG, *PWDF_FILEOBJECT_CONFIG;
FORCEINLINE
VOID
WDF_FILEOBJECT_CONFIG_INIT(
_Out_ PWDF_FILEOBJECT_CONFIG FileEventCallbacks,
_In_opt_ PFN_WDF_DEVICE_FILE_CREATE EvtDeviceFileCreate,
_In_opt_ PFN_WDF_FILE_CLOSE EvtFileClose,
_In_opt_ PFN_WDF_FILE_CLEANUP EvtFileCleanup
)
{
FileEventCallbacks->Size = sizeof(WDF_FILEOBJECT_CONFIG);
FileEventCallbacks->EvtDeviceFileCreate = EvtDeviceFileCreate;
FileEventCallbacks->EvtFileClose = EvtFileClose;
FileEventCallbacks->EvtFileCleanup = EvtFileCleanup;
FileEventCallbacks->FileObjectClass = WdfFileObjectWdfCannotUseFsContexts;
FileEventCallbacks->AutoForwardCleanupClose = WdfUseDefault;
}
typedef struct _WDF_DEVICE_PNP_NOTIFICATION_DATA {
//
// Type of data
//
WDF_STATE_NOTIFICATION_TYPE Type;
union {
struct {
//
// The current state that is about to be exited
//
WDF_DEVICE_PNP_STATE CurrentState;
//
// The new state that is about to be entered
//
WDF_DEVICE_PNP_STATE NewState;
} EnterState;
struct {
//
// The current state
//
WDF_DEVICE_PNP_STATE CurrentState;
} PostProcessState;
struct {
//
// The current state that is about to be exitted
//
WDF_DEVICE_PNP_STATE CurrentState;
//
// The state that is about to be entered
//
WDF_DEVICE_PNP_STATE NewState;
} LeaveState;
} Data;
} WDF_DEVICE_PNP_NOTIFICATION_DATA;
typedef const WDF_DEVICE_PNP_NOTIFICATION_DATA* PCWDF_DEVICE_PNP_NOTIFICATION_DATA;
typedef struct _WDF_DEVICE_POWER_NOTIFICATION_DATA {
//
// Type of data
//
WDF_STATE_NOTIFICATION_TYPE Type;
union {
struct {
//
// The current state that is about to be exitted
//
WDF_DEVICE_POWER_STATE CurrentState;
//
// The new state that is about to be entered
//
WDF_DEVICE_POWER_STATE NewState;
} EnterState;
struct {
//
// The current state
//
WDF_DEVICE_POWER_STATE CurrentState;
} PostProcessState;
struct {
//
// The current state that is about to be exitted
//
WDF_DEVICE_POWER_STATE CurrentState;
//
// The state that is about to be entered
//
WDF_DEVICE_POWER_STATE NewState;
} LeaveState;
} Data;
} WDF_DEVICE_POWER_NOTIFICATION_DATA;
typedef const WDF_DEVICE_POWER_NOTIFICATION_DATA* PCWDF_DEVICE_POWER_NOTIFICATION_DATA;
typedef struct _WDF_DEVICE_POWER_POLICY_NOTIFICATION_DATA {
//
// Type of data
//
WDF_STATE_NOTIFICATION_TYPE Type;
union {
struct {
//
// The current state that is about to be exitted
//
WDF_DEVICE_POWER_POLICY_STATE CurrentState;
//
// The new state that is about to be entered
//
WDF_DEVICE_POWER_POLICY_STATE NewState;
} EnterState;
struct {
//
// The current state
//
WDF_DEVICE_POWER_POLICY_STATE CurrentState;
} PostProcessState;
struct {
//
// The current state that is about to be exitted
//
WDF_DEVICE_POWER_POLICY_STATE CurrentState;
//
// The state that is about to be entered
//
WDF_DEVICE_POWER_POLICY_STATE NewState;
} LeaveState;
} Data;
} WDF_DEVICE_POWER_POLICY_NOTIFICATION_DATA;
typedef const WDF_DEVICE_POWER_POLICY_NOTIFICATION_DATA* PCWDF_DEVICE_POWER_POLICY_NOTIFICATION_DATA;
typedef
_Function_class_(EVT_WDF_DEVICE_PNP_STATE_CHANGE_NOTIFICATION)
_IRQL_requires_same_
_IRQL_requires_max_(PASSIVE_LEVEL)
VOID
STDCALL
EVT_WDF_DEVICE_PNP_STATE_CHANGE_NOTIFICATION(
_In_
WDFDEVICE Device,
_In_
PCWDF_DEVICE_PNP_NOTIFICATION_DATA NotificationData
);
typedef EVT_WDF_DEVICE_PNP_STATE_CHANGE_NOTIFICATION *PFN_WDF_DEVICE_PNP_STATE_CHANGE_NOTIFICATION;
typedef
_Function_class_(EVT_WDF_DEVICE_POWER_STATE_CHANGE_NOTIFICATION)
_IRQL_requires_same_
_IRQL_requires_max_(PASSIVE_LEVEL)
VOID
STDCALL
EVT_WDF_DEVICE_POWER_STATE_CHANGE_NOTIFICATION(
_In_
WDFDEVICE Device,
_In_
PCWDF_DEVICE_POWER_NOTIFICATION_DATA NotificationData
);
typedef EVT_WDF_DEVICE_POWER_STATE_CHANGE_NOTIFICATION *PFN_WDF_DEVICE_POWER_STATE_CHANGE_NOTIFICATION;
typedef
_Function_class_(EVT_WDF_DEVICE_POWER_POLICY_STATE_CHANGE_NOTIFICATION)
_IRQL_requires_same_
_IRQL_requires_max_(PASSIVE_LEVEL)
VOID
STDCALL
EVT_WDF_DEVICE_POWER_POLICY_STATE_CHANGE_NOTIFICATION(
_In_
WDFDEVICE Device,
_In_
PCWDF_DEVICE_POWER_POLICY_NOTIFICATION_DATA NotificationData
);
typedef EVT_WDF_DEVICE_POWER_POLICY_STATE_CHANGE_NOTIFICATION *PFN_WDF_DEVICE_POWER_POLICY_STATE_CHANGE_NOTIFICATION;
#define IdleTimeoutDefaultValue ((ULONG) IdleTimeoutDefaultConstant)
typedef
_Function_class_(EVT_WDF_DEVICE_D0_ENTRY)
_IRQL_requires_same_
_IRQL_requires_max_(PASSIVE_LEVEL)
NTSTATUS
STDCALL
EVT_WDF_DEVICE_D0_ENTRY(
_In_
WDFDEVICE Device,
_In_
WDF_POWER_DEVICE_STATE PreviousState
);
typedef EVT_WDF_DEVICE_D0_ENTRY *PFN_WDF_DEVICE_D0_ENTRY;
typedef
_Function_class_(EVT_WDF_DEVICE_D0_ENTRY_POST_INTERRUPTS_ENABLED)
_IRQL_requires_same_
_IRQL_requires_max_(PASSIVE_LEVEL)
NTSTATUS
STDCALL
EVT_WDF_DEVICE_D0_ENTRY_POST_INTERRUPTS_ENABLED(
_In_
WDFDEVICE Device,
_In_
WDF_POWER_DEVICE_STATE PreviousState
);
typedef EVT_WDF_DEVICE_D0_ENTRY_POST_INTERRUPTS_ENABLED *PFN_WDF_DEVICE_D0_ENTRY_POST_INTERRUPTS_ENABLED;
typedef
_Function_class_(EVT_WDF_DEVICE_D0_EXIT)
_IRQL_requires_same_
_IRQL_requires_max_(PASSIVE_LEVEL)
NTSTATUS
STDCALL
EVT_WDF_DEVICE_D0_EXIT(
_In_
WDFDEVICE Device,
_In_
WDF_POWER_DEVICE_STATE TargetState
);
typedef EVT_WDF_DEVICE_D0_EXIT *PFN_WDF_DEVICE_D0_EXIT;
typedef
_Function_class_(EVT_WDF_DEVICE_D0_EXIT_PRE_INTERRUPTS_DISABLED)
_IRQL_requires_same_
_IRQL_requires_max_(PASSIVE_LEVEL)
NTSTATUS
STDCALL
EVT_WDF_DEVICE_D0_EXIT_PRE_INTERRUPTS_DISABLED(
_In_
WDFDEVICE Device,
_In_
WDF_POWER_DEVICE_STATE TargetState
);
typedef EVT_WDF_DEVICE_D0_EXIT_PRE_INTERRUPTS_DISABLED *PFN_WDF_DEVICE_D0_EXIT_PRE_INTERRUPTS_DISABLED;
typedef
_Function_class_(EVT_WDF_DEVICE_PREPARE_HARDWARE)
_IRQL_requires_same_
_IRQL_requires_max_(PASSIVE_LEVEL)
NTSTATUS
STDCALL
EVT_WDF_DEVICE_PREPARE_HARDWARE(
_In_
WDFDEVICE Device,
_In_
WDFCMRESLIST ResourcesRaw,
_In_
WDFCMRESLIST ResourcesTranslated
);
typedef EVT_WDF_DEVICE_PREPARE_HARDWARE *PFN_WDF_DEVICE_PREPARE_HARDWARE;
typedef
_Function_class_(EVT_WDF_DEVICE_RELEASE_HARDWARE)
_IRQL_requires_same_
_IRQL_requires_max_(PASSIVE_LEVEL)
NTSTATUS
STDCALL
EVT_WDF_DEVICE_RELEASE_HARDWARE(
_In_
WDFDEVICE Device,
_In_
WDFCMRESLIST ResourcesTranslated
);
typedef EVT_WDF_DEVICE_RELEASE_HARDWARE *PFN_WDF_DEVICE_RELEASE_HARDWARE;
typedef
_Function_class_(EVT_WDF_DEVICE_SELF_MANAGED_IO_CLEANUP)
_IRQL_requires_same_
_IRQL_requires_max_(PASSIVE_LEVEL)
VOID
STDCALL
EVT_WDF_DEVICE_SELF_MANAGED_IO_CLEANUP(
_In_
WDFDEVICE Device
);
typedef EVT_WDF_DEVICE_SELF_MANAGED_IO_CLEANUP *PFN_WDF_DEVICE_SELF_MANAGED_IO_CLEANUP;
typedef
_Function_class_(EVT_WDF_DEVICE_SELF_MANAGED_IO_FLUSH)
_IRQL_requires_same_
_IRQL_requires_max_(PASSIVE_LEVEL)
VOID
STDCALL
EVT_WDF_DEVICE_SELF_MANAGED_IO_FLUSH(
_In_
WDFDEVICE Device
);
typedef EVT_WDF_DEVICE_SELF_MANAGED_IO_FLUSH *PFN_WDF_DEVICE_SELF_MANAGED_IO_FLUSH;
typedef
_Function_class_(EVT_WDF_DEVICE_SELF_MANAGED_IO_INIT)
_IRQL_requires_same_
_IRQL_requires_max_(PASSIVE_LEVEL)
NTSTATUS
STDCALL
EVT_WDF_DEVICE_SELF_MANAGED_IO_INIT(
_In_
WDFDEVICE Device
);
typedef EVT_WDF_DEVICE_SELF_MANAGED_IO_INIT *PFN_WDF_DEVICE_SELF_MANAGED_IO_INIT;
typedef
_Function_class_(EVT_WDF_DEVICE_SELF_MANAGED_IO_SUSPEND)
_IRQL_requires_same_
_IRQL_requires_max_(PASSIVE_LEVEL)
NTSTATUS
STDCALL
EVT_WDF_DEVICE_SELF_MANAGED_IO_SUSPEND(
_In_
WDFDEVICE Device
);
typedef EVT_WDF_DEVICE_SELF_MANAGED_IO_SUSPEND *PFN_WDF_DEVICE_SELF_MANAGED_IO_SUSPEND;
typedef
_Function_class_(EVT_WDF_DEVICE_SELF_MANAGED_IO_RESTART)
_IRQL_requires_same_
_IRQL_requires_max_(PASSIVE_LEVEL)
NTSTATUS
STDCALL
EVT_WDF_DEVICE_SELF_MANAGED_IO_RESTART(
_In_
WDFDEVICE Device
);
typedef EVT_WDF_DEVICE_SELF_MANAGED_IO_RESTART *PFN_WDF_DEVICE_SELF_MANAGED_IO_RESTART;
typedef
_Function_class_(EVT_WDF_DEVICE_QUERY_STOP)
_IRQL_requires_same_
_IRQL_requires_max_(PASSIVE_LEVEL)
NTSTATUS
STDCALL
EVT_WDF_DEVICE_QUERY_STOP(
_In_
WDFDEVICE Device
);
typedef EVT_WDF_DEVICE_QUERY_STOP *PFN_WDF_DEVICE_QUERY_STOP;
typedef
_Function_class_(EVT_WDF_DEVICE_QUERY_REMOVE)
_IRQL_requires_same_
_IRQL_requires_max_(PASSIVE_LEVEL)
NTSTATUS
STDCALL
EVT_WDF_DEVICE_QUERY_REMOVE(
_In_
WDFDEVICE Device
);
typedef EVT_WDF_DEVICE_QUERY_REMOVE *PFN_WDF_DEVICE_QUERY_REMOVE;
typedef
_Function_class_(EVT_WDF_DEVICE_SURPRISE_REMOVAL)
_IRQL_requires_same_
_IRQL_requires_max_(PASSIVE_LEVEL)
VOID
STDCALL
EVT_WDF_DEVICE_SURPRISE_REMOVAL(
_In_
WDFDEVICE Device
);
typedef EVT_WDF_DEVICE_SURPRISE_REMOVAL *PFN_WDF_DEVICE_SURPRISE_REMOVAL;
typedef
_Function_class_(EVT_WDF_DEVICE_USAGE_NOTIFICATION)
_IRQL_requires_same_
_IRQL_requires_max_(PASSIVE_LEVEL)
VOID
STDCALL
EVT_WDF_DEVICE_USAGE_NOTIFICATION(
_In_
WDFDEVICE Device,
_In_
WDF_SPECIAL_FILE_TYPE NotificationType,
_In_
BOOLEAN IsInNotificationPath
);
typedef EVT_WDF_DEVICE_USAGE_NOTIFICATION *PFN_WDF_DEVICE_USAGE_NOTIFICATION;
typedef
_Function_class_(EVT_WDF_DEVICE_USAGE_NOTIFICATION_EX)
_IRQL_requires_same_
_IRQL_requires_max_(PASSIVE_LEVEL)
NTSTATUS
STDCALL
EVT_WDF_DEVICE_USAGE_NOTIFICATION_EX(
_In_
WDFDEVICE Device,
_In_
WDF_SPECIAL_FILE_TYPE NotificationType,
_In_
BOOLEAN IsInNotificationPath
);
typedef EVT_WDF_DEVICE_USAGE_NOTIFICATION_EX *PFN_WDF_DEVICE_USAGE_NOTIFICATION_EX;
typedef
_Function_class_(EVT_WDF_DEVICE_RELATIONS_QUERY)
_IRQL_requires_same_
_IRQL_requires_max_(PASSIVE_LEVEL)
VOID
STDCALL
EVT_WDF_DEVICE_RELATIONS_QUERY(
_In_
WDFDEVICE Device,
_In_
DEVICE_RELATION_TYPE RelationType
);
typedef EVT_WDF_DEVICE_RELATIONS_QUERY *PFN_WDF_DEVICE_RELATIONS_QUERY;
typedef
_Function_class_(EVT_WDF_DEVICE_ARM_WAKE_FROM_S0)
_IRQL_requires_same_
_IRQL_requires_max_(PASSIVE_LEVEL)
NTSTATUS
STDCALL
EVT_WDF_DEVICE_ARM_WAKE_FROM_S0(
_In_
WDFDEVICE Device
);
typedef EVT_WDF_DEVICE_ARM_WAKE_FROM_S0 *PFN_WDF_DEVICE_ARM_WAKE_FROM_S0;
typedef
_Function_class_(EVT_WDF_DEVICE_ARM_WAKE_FROM_SX)
_IRQL_requires_same_
_IRQL_requires_max_(PASSIVE_LEVEL)
NTSTATUS
STDCALL
EVT_WDF_DEVICE_ARM_WAKE_FROM_SX(
_In_
WDFDEVICE Device
);
typedef EVT_WDF_DEVICE_ARM_WAKE_FROM_SX *PFN_WDF_DEVICE_ARM_WAKE_FROM_SX;
typedef
_Function_class_(EVT_WDF_DEVICE_ARM_WAKE_FROM_SX_WITH_REASON)
_IRQL_requires_same_
_IRQL_requires_max_(PASSIVE_LEVEL)
NTSTATUS
STDCALL
EVT_WDF_DEVICE_ARM_WAKE_FROM_SX_WITH_REASON(
_In_
WDFDEVICE Device,
_In_
BOOLEAN DeviceWakeEnabled,
_In_
BOOLEAN ChildrenArmedForWake
);
typedef EVT_WDF_DEVICE_ARM_WAKE_FROM_SX_WITH_REASON *PFN_WDF_DEVICE_ARM_WAKE_FROM_SX_WITH_REASON;
typedef
_Function_class_(EVT_WDF_DEVICE_DISARM_WAKE_FROM_S0)
_IRQL_requires_same_
_IRQL_requires_max_(PASSIVE_LEVEL)
VOID
STDCALL
EVT_WDF_DEVICE_DISARM_WAKE_FROM_S0(
_In_
WDFDEVICE Device
);
typedef EVT_WDF_DEVICE_DISARM_WAKE_FROM_S0 *PFN_WDF_DEVICE_DISARM_WAKE_FROM_S0;
typedef
_Function_class_(EVT_WDF_DEVICE_DISARM_WAKE_FROM_SX)
_IRQL_requires_same_
_IRQL_requires_max_(PASSIVE_LEVEL)
VOID
STDCALL
EVT_WDF_DEVICE_DISARM_WAKE_FROM_SX(
_In_
WDFDEVICE Device
);
typedef EVT_WDF_DEVICE_DISARM_WAKE_FROM_SX *PFN_WDF_DEVICE_DISARM_WAKE_FROM_SX;
typedef
_Function_class_(EVT_WDF_DEVICE_WAKE_FROM_S0_TRIGGERED)
_IRQL_requires_same_
_IRQL_requires_max_(PASSIVE_LEVEL)
VOID
STDCALL
EVT_WDF_DEVICE_WAKE_FROM_S0_TRIGGERED(
_In_
WDFDEVICE Device
);
typedef EVT_WDF_DEVICE_WAKE_FROM_S0_TRIGGERED *PFN_WDF_DEVICE_WAKE_FROM_S0_TRIGGERED;
typedef
_Function_class_(EVT_WDF_DEVICE_WAKE_FROM_SX_TRIGGERED)
_IRQL_requires_same_
_IRQL_requires_max_(PASSIVE_LEVEL)
VOID
STDCALL
EVT_WDF_DEVICE_WAKE_FROM_SX_TRIGGERED(
_In_
WDFDEVICE Device
);
typedef EVT_WDF_DEVICE_WAKE_FROM_SX_TRIGGERED *PFN_WDF_DEVICE_WAKE_FROM_SX_TRIGGERED;
typedef struct _WDF_PNPPOWER_EVENT_CALLBACKS {
//
// Size of this structure in bytes
//
ULONG Size;
PFN_WDF_DEVICE_D0_ENTRY EvtDeviceD0Entry;
PFN_WDF_DEVICE_D0_ENTRY_POST_INTERRUPTS_ENABLED EvtDeviceD0EntryPostInterruptsEnabled;
PFN_WDF_DEVICE_D0_EXIT EvtDeviceD0Exit;
PFN_WDF_DEVICE_D0_EXIT_PRE_INTERRUPTS_DISABLED EvtDeviceD0ExitPreInterruptsDisabled;
PFN_WDF_DEVICE_PREPARE_HARDWARE EvtDevicePrepareHardware;
PFN_WDF_DEVICE_RELEASE_HARDWARE EvtDeviceReleaseHardware;
PFN_WDF_DEVICE_SELF_MANAGED_IO_CLEANUP EvtDeviceSelfManagedIoCleanup;
PFN_WDF_DEVICE_SELF_MANAGED_IO_FLUSH EvtDeviceSelfManagedIoFlush;
PFN_WDF_DEVICE_SELF_MANAGED_IO_INIT EvtDeviceSelfManagedIoInit;
PFN_WDF_DEVICE_SELF_MANAGED_IO_SUSPEND EvtDeviceSelfManagedIoSuspend;
PFN_WDF_DEVICE_SELF_MANAGED_IO_RESTART EvtDeviceSelfManagedIoRestart;
PFN_WDF_DEVICE_SURPRISE_REMOVAL EvtDeviceSurpriseRemoval;
PFN_WDF_DEVICE_QUERY_REMOVE EvtDeviceQueryRemove;
PFN_WDF_DEVICE_QUERY_STOP EvtDeviceQueryStop;
PFN_WDF_DEVICE_USAGE_NOTIFICATION EvtDeviceUsageNotification;
PFN_WDF_DEVICE_RELATIONS_QUERY EvtDeviceRelationsQuery;
PFN_WDF_DEVICE_USAGE_NOTIFICATION_EX EvtDeviceUsageNotificationEx;
} WDF_PNPPOWER_EVENT_CALLBACKS, *PWDF_PNPPOWER_EVENT_CALLBACKS;
typedef struct _WDF_POWER_POLICY_EVENT_CALLBACKS {
//
// Size of this structure in bytes
//
ULONG Size;
PFN_WDF_DEVICE_ARM_WAKE_FROM_S0 EvtDeviceArmWakeFromS0;
PFN_WDF_DEVICE_DISARM_WAKE_FROM_S0 EvtDeviceDisarmWakeFromS0;
PFN_WDF_DEVICE_WAKE_FROM_S0_TRIGGERED EvtDeviceWakeFromS0Triggered;
PFN_WDF_DEVICE_ARM_WAKE_FROM_SX EvtDeviceArmWakeFromSx;
PFN_WDF_DEVICE_DISARM_WAKE_FROM_SX EvtDeviceDisarmWakeFromSx;
PFN_WDF_DEVICE_WAKE_FROM_SX_TRIGGERED EvtDeviceWakeFromSxTriggered;
PFN_WDF_DEVICE_ARM_WAKE_FROM_SX_WITH_REASON EvtDeviceArmWakeFromSxWithReason;
} WDF_POWER_POLICY_EVENT_CALLBACKS, *PWDF_POWER_POLICY_EVENT_CALLBACKS;
FORCEINLINE
VOID
WDF_POWER_POLICY_EVENT_CALLBACKS_INIT(
_Out_ PWDF_POWER_POLICY_EVENT_CALLBACKS Callbacks
)
{
RtlZeroMemory(Callbacks, sizeof(WDF_POWER_POLICY_EVENT_CALLBACKS));
Callbacks->Size = sizeof(WDF_POWER_POLICY_EVENT_CALLBACKS);
}
FORCEINLINE
VOID
WDF_PNPPOWER_EVENT_CALLBACKS_INIT(
_Out_ PWDF_PNPPOWER_EVENT_CALLBACKS Callbacks
)
{
RtlZeroMemory(Callbacks, sizeof(WDF_PNPPOWER_EVENT_CALLBACKS));
Callbacks->Size = sizeof(WDF_PNPPOWER_EVENT_CALLBACKS);
}
FORCEINLINE
ULONG
WdfDevStateNormalize(
_In_ ULONG State
)
{
return State & ~WdfDevStateNP;
}
FORCEINLINE
BOOLEAN
WdfDevStateIsNP(
_In_ ULONG State
)
{
return (State & WdfDevStateNP) ? TRUE : FALSE;
}
typedef enum _WDF_POWER_POLICY_IDLE_TIMEOUT_TYPE {
DriverManagedIdleTimeout = 0,
SystemManagedIdleTimeout = 1,
SystemManagedIdleTimeoutWithHint = 2
} WDF_POWER_POLICY_IDLE_TIMEOUT_TYPE, *PWDF_POWER_POLICY_IDLE_TIMEOUT_TYPE;
typedef struct _WDF_DEVICE_POWER_POLICY_IDLE_SETTINGS {
//
// Size of this structure in bytes
//
ULONG Size;
//
// Indicates whether the device can wake itself up while the machine is in
// S0.
//
WDF_POWER_POLICY_S0_IDLE_CAPABILITIES IdleCaps;
//
// The low power state in which the device will be placed when it is idled
// out while the machine is in S0.
//
DEVICE_POWER_STATE DxState;
//
// Amount of time the device must be idle before idling out. Timeout is in
// milliseconds.
//
ULONG IdleTimeout;
//
// Inidcates whether a user can control the idle policy of the device.
// By default, a user is allowed to change the policy.
//
WDF_POWER_POLICY_S0_IDLE_USER_CONTROL UserControlOfIdleSettings;
//
// If WdfTrue, idling out while the machine is in S0 will be enabled.
//
// If WdfFalse, idling out will be disabled.
//
// If WdfUseDefault, the idling out will be enabled. If
// UserControlOfIdleSettings is set to IdleAllowUserControl, the user's
// settings will override the default.
//
WDF_TRI_STATE Enabled;
//
// This field is applicable only when IdleCaps == IdleCannotWakeFromS0
// If WdfTrue,device is powered up on System Wake even if device is idle
// If WdfFalse, device is not powered up on system wake if it is idle
// If WdfUseDefault, the behavior is same as WdfFalse
//
WDF_TRI_STATE PowerUpIdleDeviceOnSystemWake;
//
// This field determines how the IdleTimeout field is used.
//
// If the value is DriverManagedIdleTimeout, then the idle timeout value
// is determined by the IdleTimeout field of this structure.
//
// If the value is SystemManagedIdleTimeout, then the timeout value is
// determined by the power framework (PoFx) on operating systems where
// the PoFx is available (i.e. Windows 8 and later). The IdleTimeout field
// is ignored on these operating systems. On operating systems where the
// PoFx is not available, the behavior is same as DriverManagedIdleTimeout.
//
// If the value is SystemManagedIdleTimeoutWithHint, then the timeout value
// is determined by the power framework (PoFx) on operating systems where
// the PoFx is available (i.e. Windows 8 and later). In addition, the value
// specified in the IdleTimeout field is provided as a hint to the PoFx in
// determining when the device should be allowed to enter a low-power state.
// Since it is only a hint, the actual duration after which the PoFx allows
// the device to enter a low-power state might be greater than or less than
// the IdleTimeout value. On operating systems where the PoFx is not
// available, the behavior is same as DriverManagedIdleTimeout.
//
WDF_POWER_POLICY_IDLE_TIMEOUT_TYPE IdleTimeoutType;
//
// This field forces the device to avoid idling in the D3cold power state.
// WDF will ensure, with help from the bus drivers, that the device will
// idle in a D-state that can successfully generate a wake signal, if
// necessary. If the client specifies that DxState == PowerDeviceD3, this
// setting allows the client to distinguish betwen D3hot and D3cold. If
// the client sets DxState == PowerDeviceMaximum, then WDF will pick the
// deepest idle state identified by the bus driver. If that deepest state
// is D3cold, this field allows the client to override that and choose
// D3hot.
//
// If WdfTrue, device will not use D3cold in S0.
// If WdfFalse, device will use D3cold in S0 if the ACPI firmware indicates
// that the device can enter that state, if DxState above does not
// specify some other D-state and, if the device is armed for
// wake, that it can generate its wake signal from D3cold.
// If WdfUseDefault, this setting will be derived from the driver's INF,
// specifically the presence or absence of the following two lines in
// the DDInstall.HW section:
// Include=machine.inf
// Needs=PciD3ColdSupported
//
WDF_TRI_STATE ExcludeD3Cold;
} WDF_DEVICE_POWER_POLICY_IDLE_SETTINGS, *PWDF_DEVICE_POWER_POLICY_IDLE_SETTINGS;
FORCEINLINE
VOID
WDF_DEVICE_POWER_POLICY_IDLE_SETTINGS_INIT(
_Out_ PWDF_DEVICE_POWER_POLICY_IDLE_SETTINGS Settings,
_In_ WDF_POWER_POLICY_S0_IDLE_CAPABILITIES IdleCaps
)
{
RtlZeroMemory(Settings, sizeof(WDF_DEVICE_POWER_POLICY_IDLE_SETTINGS));
Settings->Size = sizeof(WDF_DEVICE_POWER_POLICY_IDLE_SETTINGS);
Settings->IdleTimeout = IdleTimeoutDefaultValue;
Settings->UserControlOfIdleSettings = IdleAllowUserControl;
Settings->Enabled = WdfUseDefault;
Settings->PowerUpIdleDeviceOnSystemWake = WdfUseDefault;
Settings->IdleTimeoutType = DriverManagedIdleTimeout;
Settings->ExcludeD3Cold = WdfUseDefault;
Settings->IdleCaps = IdleCaps;
switch (IdleCaps) {
case IdleUsbSelectiveSuspend:
case IdleCanWakeFromS0:
Settings->DxState = PowerDeviceMaximum;
break;
case IdleCannotWakeFromS0:
Settings->DxState = PowerDeviceD3;
break;
}
}
typedef struct _WDF_DEVICE_POWER_POLICY_WAKE_SETTINGS {
//
// Size of this structure in bytes
//
ULONG Size;
//
// The low power state in which the device will be placed when it is armed
// for wake from Sx.
//
DEVICE_POWER_STATE DxState;
//
// Inidcates whether a user can control the idle policy of the device.
// By default, a user is allowed to change the policy.
//
WDF_POWER_POLICY_SX_WAKE_USER_CONTROL UserControlOfWakeSettings;
//
// If WdfTrue, arming the device for wake while the machine is in Sx is
// enabled.
//
// If WdfFalse, arming the device for wake while the machine is in Sx is
// disabled.
//
// If WdfUseDefault, arming will be enabled. If UserControlOfWakeSettings
// is set to WakeAllowUserControl, the user's settings will override the
// default.
//
WDF_TRI_STATE Enabled;
//
// If set to TRUE, arming the parent device can depend on whether there
// is atleast one child device armed for wake.
//
// If set to FALSE, arming of the parent device will be independent of
// whether any of the child devices are armed for wake.
//
BOOLEAN ArmForWakeIfChildrenAreArmedForWake;
//
// Indicates that whenever the parent device completes the wake irp
// successfully, the status needs to be also propagated to the child
// devices. This helps in tracking which devices were responsible for
// waking the system.
//
BOOLEAN IndicateChildWakeOnParentWake;
} WDF_DEVICE_POWER_POLICY_WAKE_SETTINGS, *PWDF_DEVICE_POWER_POLICY_WAKE_SETTINGS;
FORCEINLINE
VOID
WDF_DEVICE_POWER_POLICY_WAKE_SETTINGS_INIT(
_Out_ PWDF_DEVICE_POWER_POLICY_WAKE_SETTINGS Settings
)
{
RtlZeroMemory(Settings, sizeof(WDF_DEVICE_POWER_POLICY_WAKE_SETTINGS));
Settings->Size = sizeof(WDF_DEVICE_POWER_POLICY_WAKE_SETTINGS);
Settings->Enabled = WdfUseDefault;
Settings->DxState = PowerDeviceMaximum;
Settings->UserControlOfWakeSettings = WakeAllowUserControl;
}
typedef struct _WDF_DEVICE_STATE {
//
// Size of this structure in bytes
//
ULONG Size;
//
// If set to WdfTrue, the device will be disabled
//
WDF_TRI_STATE Disabled;
//
// If set to WdfTrue, the device will not be displayed in device manager.
// Once hidden, the device cannot be unhidden.
//
WDF_TRI_STATE DontDisplayInUI;
//
// If set to WdfTrue, the device is reporting itself as failed. If set
// in conjuction with ResourcesChanged to WdfTrue, the device will receive
// a PnP stop and then a new PnP start device.
//
WDF_TRI_STATE Failed;
//
// If set to WdfTrue, the device cannot be subsequently disabled.
//
WDF_TRI_STATE NotDisableable;
//
// If set to WdfTrue, the device stack will be torn down.
//
WDF_TRI_STATE Removed;
//
// If set to WdfTrue, the device will be sent another PnP start. If the
// Failed field is set to WdfTrue as well, a PnP stop will be sent before
// the start.
//
WDF_TRI_STATE ResourcesChanged;
} WDF_DEVICE_STATE, *PWDF_DEVICE_STATE;
FORCEINLINE
VOID
WDF_DEVICE_STATE_INIT(
_Out_ PWDF_DEVICE_STATE PnpDeviceState
)
{
RtlZeroMemory(PnpDeviceState, sizeof(WDF_DEVICE_STATE));
PnpDeviceState->Size = sizeof(WDF_DEVICE_STATE);
//
// Initializes all of the fields to the WdfUseDefault enum value
//
PnpDeviceState->Disabled = WdfUseDefault;
PnpDeviceState->DontDisplayInUI = WdfUseDefault;
PnpDeviceState->Failed = WdfUseDefault;
PnpDeviceState->NotDisableable = WdfUseDefault;
PnpDeviceState->Removed = WdfUseDefault;
PnpDeviceState->ResourcesChanged = WdfUseDefault;
}
typedef struct _WDF_DEVICE_PNP_CAPABILITIES {
//
// Size of the structure in bytes
//
ULONG Size;
//
// NOTE: To mark a PDO as raw, call WdfPdoInitAssignRawDevice
//
WDF_TRI_STATE LockSupported;
WDF_TRI_STATE EjectSupported;
WDF_TRI_STATE Removable;
WDF_TRI_STATE DockDevice;
WDF_TRI_STATE UniqueID;
WDF_TRI_STATE SilentInstall;
WDF_TRI_STATE SurpriseRemovalOK;
WDF_TRI_STATE HardwareDisabled;
WDF_TRI_STATE NoDisplayInUI;
//
// Default values of -1 indicate not to set this value
//
ULONG Address;
ULONG UINumber;
} WDF_DEVICE_PNP_CAPABILITIES, *PWDF_DEVICE_PNP_CAPABILITIES;
FORCEINLINE
VOID
WDF_DEVICE_PNP_CAPABILITIES_INIT(
_Out_ PWDF_DEVICE_PNP_CAPABILITIES Caps
)
{
RtlZeroMemory(Caps, sizeof(WDF_DEVICE_PNP_CAPABILITIES));
Caps->Size = sizeof(WDF_DEVICE_PNP_CAPABILITIES);
Caps->LockSupported = WdfUseDefault;
Caps->EjectSupported = WdfUseDefault;
Caps->Removable = WdfUseDefault;
Caps->DockDevice = WdfUseDefault;
Caps->UniqueID = WdfUseDefault;
Caps->SilentInstall = WdfUseDefault;
Caps->SurpriseRemovalOK = WdfUseDefault;
Caps->HardwareDisabled = WdfUseDefault;
Caps->NoDisplayInUI = WdfUseDefault;
Caps->Address = (ULONG) -1;
Caps->UINumber = (ULONG) -1;
}
typedef struct _WDF_DEVICE_POWER_CAPABILITIES {
//
// Size of the structure in bytes
//
ULONG Size;
WDF_TRI_STATE DeviceD1;
WDF_TRI_STATE DeviceD2;
WDF_TRI_STATE WakeFromD0;
WDF_TRI_STATE WakeFromD1;
WDF_TRI_STATE WakeFromD2;
WDF_TRI_STATE WakeFromD3;
//
// Default value PowerDeviceMaximum indicates not to set this value
//
DEVICE_POWER_STATE DeviceState[PowerSystemMaximum];
//
// Default value PowerDeviceMaximum, PowerSystemMaximum indicates not to
// set this value.
//
DEVICE_POWER_STATE DeviceWake;
SYSTEM_POWER_STATE SystemWake;
//
// Default values of -1 indicate not to set this value
//
ULONG D1Latency;
ULONG D2Latency;
ULONG D3Latency;
//
// Ideal Dx state for the device to be put into when the machine moves into
// Sx and the device is not armed for wake. By default, the default will be
// placed into D3. If IdealDxStateForSx is lighter then
// DeviceState[Sx], then DeviceState[Sx] will be used as the Dx state.
//
DEVICE_POWER_STATE IdealDxStateForSx;
} WDF_DEVICE_POWER_CAPABILITIES, *PWDF_DEVICE_POWER_CAPABILITIES;
FORCEINLINE
VOID
WDF_DEVICE_POWER_CAPABILITIES_INIT(
_Out_ PWDF_DEVICE_POWER_CAPABILITIES Caps
)
{
ULONG i;
RtlZeroMemory(Caps, sizeof(WDF_DEVICE_POWER_CAPABILITIES));
Caps->Size = sizeof(WDF_DEVICE_POWER_CAPABILITIES);
Caps->DeviceD1 = WdfUseDefault;
Caps->DeviceD2 = WdfUseDefault;
Caps->WakeFromD0 = WdfUseDefault;
Caps->WakeFromD1 = WdfUseDefault;
Caps->WakeFromD2 = WdfUseDefault;
Caps->WakeFromD3 = WdfUseDefault;
for (i = 0; i < sizeof(Caps->DeviceState)/sizeof(Caps->DeviceState[1]); i++) {
Caps->DeviceState[i] = PowerDeviceMaximum;
}
Caps->DeviceWake = PowerDeviceMaximum;
Caps->SystemWake = PowerSystemMaximum;
Caps->D1Latency = (ULONG) -1;
Caps->D2Latency = (ULONG) -1;
Caps->D3Latency = (ULONG) -1;
Caps->IdealDxStateForSx = PowerDeviceMaximum;
}
typedef enum _WDF_REMOVE_LOCK_OPTIONS_FLAGS {
WDF_REMOVE_LOCK_OPTION_ACQUIRE_FOR_IO = 0x00000001
} WDF_REMOVE_LOCK_OPTIONS_FLAGS;
typedef struct _WDF_REMOVE_LOCK_OPTIONS {
//
// Size of the structure in bytes
//
ULONG Size;
//
// Bit field combination of values from the WDF_REMOVE_LOCK_OPTIONS_FLAGS
// enumeration
//
ULONG Flags;
} WDF_REMOVE_LOCK_OPTIONS, *PWDF_REMOVE_LOCK_OPTIONS;
//
// Default remove lock options initialization macro
//
FORCEINLINE
VOID
WDF_REMOVE_LOCK_OPTIONS_INIT(
_Out_ PWDF_REMOVE_LOCK_OPTIONS RemoveLockOptions,
_In_ ULONG Flags
)
{
RtlZeroMemory(RemoveLockOptions, sizeof(WDF_REMOVE_LOCK_OPTIONS));
RemoveLockOptions->Size = sizeof(WDF_REMOVE_LOCK_OPTIONS);
RemoveLockOptions->Flags = Flags;
}
typedef
_Function_class_(EVT_WDFDEVICE_WDM_IRP_PREPROCESS)
_IRQL_requires_same_
_IRQL_requires_max_(DISPATCH_LEVEL)
NTSTATUS
STDCALL
EVT_WDFDEVICE_WDM_IRP_PREPROCESS(
_In_
WDFDEVICE Device,
_Inout_
PIRP Irp
);
typedef EVT_WDFDEVICE_WDM_IRP_PREPROCESS *PFN_WDFDEVICE_WDM_IRP_PREPROCESS;
typedef
_Function_class_(EVT_WDFDEVICE_WDM_IRP_DISPATCH)
_IRQL_requires_same_
_IRQL_requires_max_(DISPATCH_LEVEL)
NTSTATUS
STDCALL
EVT_WDFDEVICE_WDM_IRP_DISPATCH(
_In_
WDFDEVICE Device,
_In_
UCHAR MajorFunction,
_In_
UCHAR MinorFunction,
_In_
ULONG Code,
_In_
WDFCONTEXT DriverContext,
_Inout_
PIRP Irp,
_In_
WDFCONTEXT DispatchContext
);
typedef EVT_WDFDEVICE_WDM_IRP_DISPATCH *PFN_WDFDEVICE_WDM_IRP_DISPATCH;
//
// This is called to pre-process a request using METHOD_NEITHER
//
typedef
_Function_class_(EVT_WDF_IO_IN_CALLER_CONTEXT)
_IRQL_requires_same_
_IRQL_requires_max_(DISPATCH_LEVEL)
VOID
STDCALL
EVT_WDF_IO_IN_CALLER_CONTEXT(
_In_
WDFDEVICE Device,
_In_
WDFREQUEST Request
);
typedef EVT_WDF_IO_IN_CALLER_CONTEXT *PFN_WDF_IO_IN_CALLER_CONTEXT;
typedef
_Function_class_(EVT_WDFDEVICE_WDM_POST_PO_FX_REGISTER_DEVICE)
_IRQL_requires_same_
_IRQL_requires_max_(PASSIVE_LEVEL)
NTSTATUS
STDCALL
EVT_WDFDEVICE_WDM_POST_PO_FX_REGISTER_DEVICE(
_In_
WDFDEVICE Device,
_In_
POHANDLE PoHandle
);
typedef EVT_WDFDEVICE_WDM_POST_PO_FX_REGISTER_DEVICE *PFN_WDFDEVICE_WDM_POST_PO_FX_REGISTER_DEVICE;
typedef
_Function_class_(EVT_WDFDEVICE_WDM_PRE_PO_FX_UNREGISTER_DEVICE)
_IRQL_requires_same_
_IRQL_requires_max_(PASSIVE_LEVEL)
VOID
STDCALL
EVT_WDFDEVICE_WDM_PRE_PO_FX_UNREGISTER_DEVICE(
_In_
WDFDEVICE Device,
_In_
POHANDLE PoHandle
);
typedef EVT_WDFDEVICE_WDM_PRE_PO_FX_UNREGISTER_DEVICE *PFN_WDFDEVICE_WDM_PRE_PO_FX_UNREGISTER_DEVICE;
typedef struct _WDF_POWER_FRAMEWORK_SETTINGS {
//
// Size of the structure, in bytes.
//
ULONG Size;
//
// Client driver's callback function that is invoked after KMDF has
// registered with the power framework. This field can be NULL if the
// client driver does not wish to specify this callback.
//
PFN_WDFDEVICE_WDM_POST_PO_FX_REGISTER_DEVICE EvtDeviceWdmPostPoFxRegisterDevice;
//
// Client driver's callback function that is invoked before KMDF
// unregisters with the power framework. This field can be NULL if the
// client driver does not wish to specify this callback.
//
PFN_WDFDEVICE_WDM_PRE_PO_FX_UNREGISTER_DEVICE EvtDeviceWdmPrePoFxUnregisterDevice;
//
// Pointer to a PO_FX_COMPONENT structure that describes the only component
// in the single-component device. This field can be NULL if the client
// driver wants KMDF to use the default specification for this component
// (i.e. support for F0 only).
//
PPO_FX_COMPONENT Component;
//
// Client driver's PO_FX_COMPONENT_ACTIVE_CONDITION_CALLBACK callback
// function. This field can be NULL if the client driver does not wish to
// specify this callback.
//
PPO_FX_COMPONENT_ACTIVE_CONDITION_CALLBACK ComponentActiveConditionCallback;
//
// Client driver's PO_FX_COMPONENT_IDLE_CONDITION_CALLBACK callback
// function. This field can be NULL if the client driver does not wish to
// specify this callback.
//
PPO_FX_COMPONENT_IDLE_CONDITION_CALLBACK ComponentIdleConditionCallback;
//
// Client driver's PO_FX_COMPONENT_IDLE_STATE_CALLBACK callback function.
// This field can be NULL if the client driver does not wish to specify
// this callback.
//
PPO_FX_COMPONENT_IDLE_STATE_CALLBACK ComponentIdleStateCallback;
//
// Client driver's PO_FX_POWER_CONTROL_CALLBACK callback function. This
// field can be NULL if the client driver does not wish to specify this
// callback.
//
PPO_FX_POWER_CONTROL_CALLBACK PowerControlCallback;
//
// Context value that is passed in to the ComponentIdleStateCallback and
// PowerControlCallback callback functions.
//
PVOID PoFxDeviceContext;
} WDF_POWER_FRAMEWORK_SETTINGS, *PWDF_POWER_FRAMEWORK_SETTINGS;
FORCEINLINE
VOID
WDF_POWER_FRAMEWORK_SETTINGS_INIT(
_Out_ PWDF_POWER_FRAMEWORK_SETTINGS PowerFrameworkSettings
)
{
RtlZeroMemory(PowerFrameworkSettings,
sizeof(WDF_POWER_FRAMEWORK_SETTINGS));
PowerFrameworkSettings->Size = sizeof(WDF_POWER_FRAMEWORK_SETTINGS);
}
typedef struct _WDF_IO_TYPE_CONFIG {
//
// Size of this structure in bytes
//
ULONG Size;
//
// <KMDF_DOC/>
// Identifies the method that the driver will use to access data buffers
// that it receives for read and write requests.
//
// <UMDF_DOC/>
// Identifies the method that the driver will "prefer" to use to access data
// buffers that it receives for read and write requests. Note that UMDF
// driver provides just a preference, and not a guarantee.Therefore,
// even if a driver specified direct access method, UMDF might use the
// buffered access method for one or more of the device's requests to
// improve performance. For example, UMDF uses buffered access for small
// buffers, if it can copy the data to the driver's buffer faster than it
// can map the buffers for direct access.
//
WDF_DEVICE_IO_TYPE ReadWriteIoType;
//
// <UMDF_ONLY/>
// Identifies the method that the driver will "prefer" to use to access data
// buffers that it receives for IOCTL requests. Note that UMDF
// driver provides just a preference, and not a guarantee. Therefore,
// even if a driver specified direct access method, UMDF might use the
// buffered access method for one or more of the device's requests to
// improve performance. For example, UMDF uses buffered access for small
// buffers, if it can copy the data to the driver's buffer faster than it
// can map the buffers for direct access.
//
WDF_DEVICE_IO_TYPE DeviceControlIoType;
//
// <UMDF_ONLY/>
// Optional, Provides the smallest buffer size (in bytes) for which
// UMDF will use direct access for the buffers. For example, set
// DirectTransferThreshold to "12288" to indicate that UMDF should use buffered
// access for all buffers that are smaller than 12 kilobytes, and direct
// access for buffers equal to or greater than that. Typically, you
// do not need to provide this value because UMDF uses a value that provides
// the best performance. Note that there are other requirements that must be
// met in order to get direct access of buffers. See Docs for details.
//
ULONG DirectTransferThreshold;
} WDF_IO_TYPE_CONFIG, *PWDF_IO_TYPE_CONFIG;
FORCEINLINE
VOID
WDF_IO_TYPE_CONFIG_INIT(
_Out_ PWDF_IO_TYPE_CONFIG IoTypeConfig
)
{
RtlZeroMemory(IoTypeConfig, sizeof(WDF_IO_TYPE_CONFIG));
IoTypeConfig->Size = sizeof(WDF_IO_TYPE_CONFIG);
IoTypeConfig->ReadWriteIoType = WdfDeviceIoBuffered;
IoTypeConfig->DeviceControlIoType = WdfDeviceIoBuffered;
}
typedef struct _WDF_DEVICE_PROPERTY_DATA {
//
// Size of this structure
//
_In_ ULONG Size;
//
// A pointer to a DEVPROPKEY structure that specifies the device
// property key.
//
_In_ const DEVPROPKEY * PropertyKey;
//
// A locale identifier. Set this parameter either to a language-specific
// LCID value or to LOCALE_NEUTRAL. The LOCALE_NEUTRAL LCID specifies
// that the property is language-neutral (that is, not specific to any
// language). Do not set this parameter to LOCALE_SYSTEM_DEFAULT or
// LOCALE_USER_DEFAULT. For more information about language-specific
// LCID values, see LCID Structure.
//
_In_ LCID Lcid;
//
// Set this parameter to PLUGPLAY_PROPERTY_PERSISTENT if the property
// value set by this routine should persist across computer restarts.
// Otherwise, set Flags to zero. Ignored for Query DDIs.
//
_In_ ULONG Flags;
} WDF_DEVICE_PROPERTY_DATA, *PWDF_DEVICE_PROPERTY_DATA;
FORCEINLINE
VOID
WDF_DEVICE_PROPERTY_DATA_INIT (
_Out_ PWDF_DEVICE_PROPERTY_DATA PropertyData,
_In_ const DEVPROPKEY* PropertyKey
)
{
RtlZeroMemory(PropertyData, sizeof(* PropertyData));
PropertyData->Size = sizeof(*PropertyData);
PropertyData->PropertyKey = PropertyKey;
}
//
// VOID
// WdfDeviceStopIdle(
// _In_ WDFDEVICE Device,
// _In_ BOOLEAN WaitForD0
// );
//
// VOID
// WdfDeviceStopIdleWithTag(
// _In_ WDFDEVICE Device,
// _In_ BOOLEAN WaitForD0,
// _In_ PVOID Tag
// );
//
// VOID
// WdfDeviceResumeIdle(
// _In_ WDFDEVICE Device
// );
//
// VOID
// WdfDeviceResumeIdleWithTag(
// _In_ WDFDEVICE Device
// _In_ PVOID Tag
// );
//
#define WdfDeviceStopIdle(Device, WaitForD0) \
WdfDeviceStopIdleWithTag(Device, WaitForD0, NULL)
#define WdfDeviceStopIdleWithTag(Device, WaitForD0, Tag) \
WdfDeviceStopIdleActual(Device, WaitForD0, Tag, __LINE__, __FILE__)
#define WdfDeviceResumeIdle(Device) \
WdfDeviceResumeIdleWithTag(Device, NULL)
#define WdfDeviceResumeIdleWithTag(Device, Tag) \
WdfDeviceResumeIdleActual(Device, Tag, __LINE__, __FILE__)
//
// WDF Function: WdfDeviceGetDeviceState
//
typedef
_IRQL_requires_max_(DISPATCH_LEVEL)
WDFAPI
VOID
(STDCALL *PFN_WDFDEVICEGETDEVICESTATE)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
WDFDEVICE Device,
_Out_
PWDF_DEVICE_STATE DeviceState
);
_IRQL_requires_max_(DISPATCH_LEVEL)
FORCEINLINE
VOID
WdfDeviceGetDeviceState(
_In_
WDFDEVICE Device,
_Out_
PWDF_DEVICE_STATE DeviceState
)
{
((PFN_WDFDEVICEGETDEVICESTATE) WdfFunctions[WdfDeviceGetDeviceStateTableIndex])(WdfDriverGlobals, Device, DeviceState);
}
//
// WDF Function: WdfDeviceSetDeviceState
//
typedef
_IRQL_requires_max_(DISPATCH_LEVEL)
WDFAPI
VOID
(STDCALL *PFN_WDFDEVICESETDEVICESTATE)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
WDFDEVICE Device,
_In_
PWDF_DEVICE_STATE DeviceState
);
_IRQL_requires_max_(DISPATCH_LEVEL)
FORCEINLINE
VOID
WdfDeviceSetDeviceState(
_In_
WDFDEVICE Device,
_In_
PWDF_DEVICE_STATE DeviceState
)
{
((PFN_WDFDEVICESETDEVICESTATE) WdfFunctions[WdfDeviceSetDeviceStateTableIndex])(WdfDriverGlobals, Device, DeviceState);
}
//
// WDF Function: WdfWdmDeviceGetWdfDeviceHandle
//
typedef
_IRQL_requires_max_(DISPATCH_LEVEL)
WDFAPI
WDFDEVICE
(STDCALL *PFN_WDFWDMDEVICEGETWDFDEVICEHANDLE)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
PDEVICE_OBJECT DeviceObject
);
_IRQL_requires_max_(DISPATCH_LEVEL)
FORCEINLINE
WDFDEVICE
WdfWdmDeviceGetWdfDeviceHandle(
_In_
PDEVICE_OBJECT DeviceObject
)
{
return ((PFN_WDFWDMDEVICEGETWDFDEVICEHANDLE) WdfFunctions[WdfWdmDeviceGetWdfDeviceHandleTableIndex])(WdfDriverGlobals, DeviceObject);
}
//
// WDF Function: WdfDeviceWdmGetDeviceObject
//
typedef
_IRQL_requires_max_(DISPATCH_LEVEL)
WDFAPI
PDEVICE_OBJECT
(STDCALL *PFN_WDFDEVICEWDMGETDEVICEOBJECT)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
WDFDEVICE Device
);
_IRQL_requires_max_(DISPATCH_LEVEL)
FORCEINLINE
PDEVICE_OBJECT
WdfDeviceWdmGetDeviceObject(
_In_
WDFDEVICE Device
)
{
return ((PFN_WDFDEVICEWDMGETDEVICEOBJECT) WdfFunctions[WdfDeviceWdmGetDeviceObjectTableIndex])(WdfDriverGlobals, Device);
}
//
// WDF Function: WdfDeviceWdmGetAttachedDevice
//
typedef
_IRQL_requires_max_(DISPATCH_LEVEL)
WDFAPI
PDEVICE_OBJECT
(STDCALL *PFN_WDFDEVICEWDMGETATTACHEDDEVICE)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
WDFDEVICE Device
);
_IRQL_requires_max_(DISPATCH_LEVEL)
FORCEINLINE
PDEVICE_OBJECT
WdfDeviceWdmGetAttachedDevice(
_In_
WDFDEVICE Device
)
{
return ((PFN_WDFDEVICEWDMGETATTACHEDDEVICE) WdfFunctions[WdfDeviceWdmGetAttachedDeviceTableIndex])(WdfDriverGlobals, Device);
}
//
// WDF Function: WdfDeviceWdmGetPhysicalDevice
//
typedef
_IRQL_requires_max_(DISPATCH_LEVEL)
WDFAPI
PDEVICE_OBJECT
(STDCALL *PFN_WDFDEVICEWDMGETPHYSICALDEVICE)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
WDFDEVICE Device
);
_IRQL_requires_max_(DISPATCH_LEVEL)
FORCEINLINE
PDEVICE_OBJECT
WdfDeviceWdmGetPhysicalDevice(
_In_
WDFDEVICE Device
)
{
return ((PFN_WDFDEVICEWDMGETPHYSICALDEVICE) WdfFunctions[WdfDeviceWdmGetPhysicalDeviceTableIndex])(WdfDriverGlobals, Device);
}
//
// WDF Function: WdfDeviceWdmDispatchPreprocessedIrp
//
typedef
_Must_inspect_result_
_IRQL_requires_max_(DISPATCH_LEVEL)
WDFAPI
NTSTATUS
(STDCALL *PFN_WDFDEVICEWDMDISPATCHPREPROCESSEDIRP)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
WDFDEVICE Device,
_In_
PIRP Irp
);
_Must_inspect_result_
_IRQL_requires_max_(DISPATCH_LEVEL)
FORCEINLINE
NTSTATUS
WdfDeviceWdmDispatchPreprocessedIrp(
_In_
WDFDEVICE Device,
_In_
PIRP Irp
)
{
return ((PFN_WDFDEVICEWDMDISPATCHPREPROCESSEDIRP) WdfFunctions[WdfDeviceWdmDispatchPreprocessedIrpTableIndex])(WdfDriverGlobals, Device, Irp);
}
//
// WDF Function: WdfDeviceWdmDispatchIrp
//
typedef
_Must_inspect_result_
_IRQL_requires_max_(DISPATCH_LEVEL)
WDFAPI
NTSTATUS
(STDCALL *PFN_WDFDEVICEWDMDISPATCHIRP)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
WDFDEVICE Device,
_In_
PIRP Irp,
_In_
WDFCONTEXT DispatchContext
);
_Must_inspect_result_
_IRQL_requires_max_(DISPATCH_LEVEL)
FORCEINLINE
NTSTATUS
WdfDeviceWdmDispatchIrp(
_In_
WDFDEVICE Device,
_In_
PIRP Irp,
_In_
WDFCONTEXT DispatchContext
)
{
return ((PFN_WDFDEVICEWDMDISPATCHIRP) WdfFunctions[WdfDeviceWdmDispatchIrpTableIndex])(WdfDriverGlobals, Device, Irp, DispatchContext);
}
//
// WDF Function: WdfDeviceWdmDispatchIrpToIoQueue
//
typedef
_Must_inspect_result_
_IRQL_requires_max_(DISPATCH_LEVEL)
WDFAPI
NTSTATUS
(STDCALL *PFN_WDFDEVICEWDMDISPATCHIRPTOIOQUEUE)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
WDFDEVICE Device,
_In_
PIRP Irp,
_In_
WDFQUEUE Queue,
_In_
ULONG Flags
);
_Must_inspect_result_
_IRQL_requires_max_(DISPATCH_LEVEL)
FORCEINLINE
NTSTATUS
WdfDeviceWdmDispatchIrpToIoQueue(
_In_
WDFDEVICE Device,
_In_
PIRP Irp,
_In_
WDFQUEUE Queue,
_In_
ULONG Flags
)
{
return ((PFN_WDFDEVICEWDMDISPATCHIRPTOIOQUEUE) WdfFunctions[WdfDeviceWdmDispatchIrpToIoQueueTableIndex])(WdfDriverGlobals, Device, Irp, Queue, Flags);
}
//
// WDF Function: WdfDeviceAddDependentUsageDeviceObject
//
typedef
_Must_inspect_result_
_IRQL_requires_max_(DISPATCH_LEVEL)
WDFAPI
NTSTATUS
(STDCALL *PFN_WDFDEVICEADDDEPENDENTUSAGEDEVICEOBJECT)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
WDFDEVICE Device,
_In_
PDEVICE_OBJECT DependentDevice
);
_Must_inspect_result_
_IRQL_requires_max_(DISPATCH_LEVEL)
FORCEINLINE
NTSTATUS
WdfDeviceAddDependentUsageDeviceObject(
_In_
WDFDEVICE Device,
_In_
PDEVICE_OBJECT DependentDevice
)
{
return ((PFN_WDFDEVICEADDDEPENDENTUSAGEDEVICEOBJECT) WdfFunctions[WdfDeviceAddDependentUsageDeviceObjectTableIndex])(WdfDriverGlobals, Device, DependentDevice);
}
//
// WDF Function: WdfDeviceRemoveDependentUsageDeviceObject
//
typedef
_IRQL_requires_max_(DISPATCH_LEVEL)
WDFAPI
VOID
(STDCALL *PFN_WDFDEVICEREMOVEDEPENDENTUSAGEDEVICEOBJECT)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
WDFDEVICE Device,
_In_
PDEVICE_OBJECT DependentDevice
);
_IRQL_requires_max_(DISPATCH_LEVEL)
FORCEINLINE
VOID
WdfDeviceRemoveDependentUsageDeviceObject(
_In_
WDFDEVICE Device,
_In_
PDEVICE_OBJECT DependentDevice
)
{
((PFN_WDFDEVICEREMOVEDEPENDENTUSAGEDEVICEOBJECT) WdfFunctions[WdfDeviceRemoveDependentUsageDeviceObjectTableIndex])(WdfDriverGlobals, Device, DependentDevice);
}
//
// WDF Function: WdfDeviceAddRemovalRelationsPhysicalDevice
//
typedef
_Must_inspect_result_
_IRQL_requires_max_(DISPATCH_LEVEL)
WDFAPI
NTSTATUS
(STDCALL *PFN_WDFDEVICEADDREMOVALRELATIONSPHYSICALDEVICE)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
WDFDEVICE Device,
_In_
PDEVICE_OBJECT PhysicalDevice
);
_Must_inspect_result_
_IRQL_requires_max_(DISPATCH_LEVEL)
FORCEINLINE
NTSTATUS
WdfDeviceAddRemovalRelationsPhysicalDevice(
_In_
WDFDEVICE Device,
_In_
PDEVICE_OBJECT PhysicalDevice
)
{
return ((PFN_WDFDEVICEADDREMOVALRELATIONSPHYSICALDEVICE) WdfFunctions[WdfDeviceAddRemovalRelationsPhysicalDeviceTableIndex])(WdfDriverGlobals, Device, PhysicalDevice);
}
//
// WDF Function: WdfDeviceRemoveRemovalRelationsPhysicalDevice
//
typedef
_IRQL_requires_max_(DISPATCH_LEVEL)
WDFAPI
VOID
(STDCALL *PFN_WDFDEVICEREMOVEREMOVALRELATIONSPHYSICALDEVICE)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
WDFDEVICE Device,
_In_
PDEVICE_OBJECT PhysicalDevice
);
_IRQL_requires_max_(DISPATCH_LEVEL)
FORCEINLINE
VOID
WdfDeviceRemoveRemovalRelationsPhysicalDevice(
_In_
WDFDEVICE Device,
_In_
PDEVICE_OBJECT PhysicalDevice
)
{
((PFN_WDFDEVICEREMOVEREMOVALRELATIONSPHYSICALDEVICE) WdfFunctions[WdfDeviceRemoveRemovalRelationsPhysicalDeviceTableIndex])(WdfDriverGlobals, Device, PhysicalDevice);
}
//
// WDF Function: WdfDeviceClearRemovalRelationsDevices
//
typedef
_IRQL_requires_max_(DISPATCH_LEVEL)
WDFAPI
VOID
(STDCALL *PFN_WDFDEVICECLEARREMOVALRELATIONSDEVICES)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
WDFDEVICE Device
);
_IRQL_requires_max_(DISPATCH_LEVEL)
FORCEINLINE
VOID
WdfDeviceClearRemovalRelationsDevices(
_In_
WDFDEVICE Device
)
{
((PFN_WDFDEVICECLEARREMOVALRELATIONSDEVICES) WdfFunctions[WdfDeviceClearRemovalRelationsDevicesTableIndex])(WdfDriverGlobals, Device);
}
//
// WDF Function: WdfDeviceGetDriver
//
typedef
_IRQL_requires_max_(DISPATCH_LEVEL)
WDFAPI
WDFDRIVER
(STDCALL *PFN_WDFDEVICEGETDRIVER)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
WDFDEVICE Device
);
_IRQL_requires_max_(DISPATCH_LEVEL)
FORCEINLINE
WDFDRIVER
WdfDeviceGetDriver(
_In_
WDFDEVICE Device
)
{
return ((PFN_WDFDEVICEGETDRIVER) WdfFunctions[WdfDeviceGetDriverTableIndex])(WdfDriverGlobals, Device);
}
//
// WDF Function: WdfDeviceRetrieveDeviceName
//
typedef
_Must_inspect_result_
_IRQL_requires_max_(PASSIVE_LEVEL)
WDFAPI
NTSTATUS
(STDCALL *PFN_WDFDEVICERETRIEVEDEVICENAME)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
WDFDEVICE Device,
_In_
WDFSTRING String
);
_Must_inspect_result_
_IRQL_requires_max_(PASSIVE_LEVEL)
FORCEINLINE
NTSTATUS
WdfDeviceRetrieveDeviceName(
_In_
WDFDEVICE Device,
_In_
WDFSTRING String
)
{
return ((PFN_WDFDEVICERETRIEVEDEVICENAME) WdfFunctions[WdfDeviceRetrieveDeviceNameTableIndex])(WdfDriverGlobals, Device, String);
}
//
// WDF Function: WdfDeviceAssignMofResourceName
//
typedef
_Must_inspect_result_
_IRQL_requires_max_(PASSIVE_LEVEL)
WDFAPI
NTSTATUS
(STDCALL *PFN_WDFDEVICEASSIGNMOFRESOURCENAME)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
WDFDEVICE Device,
_In_
PCUNICODE_STRING MofResourceName
);
_Must_inspect_result_
_IRQL_requires_max_(PASSIVE_LEVEL)
FORCEINLINE
NTSTATUS
WdfDeviceAssignMofResourceName(
_In_
WDFDEVICE Device,
_In_
PCUNICODE_STRING MofResourceName
)
{
return ((PFN_WDFDEVICEASSIGNMOFRESOURCENAME) WdfFunctions[WdfDeviceAssignMofResourceNameTableIndex])(WdfDriverGlobals, Device, MofResourceName);
}
//
// WDF Function: WdfDeviceGetIoTarget
//
typedef
_IRQL_requires_max_(DISPATCH_LEVEL)
WDFAPI
WDFIOTARGET
(STDCALL *PFN_WDFDEVICEGETIOTARGET)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
WDFDEVICE Device
);
_IRQL_requires_max_(DISPATCH_LEVEL)
FORCEINLINE
WDFIOTARGET
WdfDeviceGetIoTarget(
_In_
WDFDEVICE Device
)
{
return ((PFN_WDFDEVICEGETIOTARGET) WdfFunctions[WdfDeviceGetIoTargetTableIndex])(WdfDriverGlobals, Device);
}
//
// WDF Function: WdfDeviceGetDevicePnpState
//
typedef
_IRQL_requires_max_(DISPATCH_LEVEL)
WDFAPI
WDF_DEVICE_PNP_STATE
(STDCALL *PFN_WDFDEVICEGETDEVICEPNPSTATE)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
WDFDEVICE Device
);
_IRQL_requires_max_(DISPATCH_LEVEL)
FORCEINLINE
WDF_DEVICE_PNP_STATE
WdfDeviceGetDevicePnpState(
_In_
WDFDEVICE Device
)
{
return ((PFN_WDFDEVICEGETDEVICEPNPSTATE) WdfFunctions[WdfDeviceGetDevicePnpStateTableIndex])(WdfDriverGlobals, Device);
}
//
// WDF Function: WdfDeviceGetDevicePowerState
//
typedef
_IRQL_requires_max_(DISPATCH_LEVEL)
WDFAPI
WDF_DEVICE_POWER_STATE
(STDCALL *PFN_WDFDEVICEGETDEVICEPOWERSTATE)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
WDFDEVICE Device
);
_IRQL_requires_max_(DISPATCH_LEVEL)
FORCEINLINE
WDF_DEVICE_POWER_STATE
WdfDeviceGetDevicePowerState(
_In_
WDFDEVICE Device
)
{
return ((PFN_WDFDEVICEGETDEVICEPOWERSTATE) WdfFunctions[WdfDeviceGetDevicePowerStateTableIndex])(WdfDriverGlobals, Device);
}
//
// WDF Function: WdfDeviceGetDevicePowerPolicyState
//
typedef
_IRQL_requires_max_(DISPATCH_LEVEL)
WDFAPI
WDF_DEVICE_POWER_POLICY_STATE
(STDCALL *PFN_WDFDEVICEGETDEVICEPOWERPOLICYSTATE)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
WDFDEVICE Device
);
_IRQL_requires_max_(DISPATCH_LEVEL)
FORCEINLINE
WDF_DEVICE_POWER_POLICY_STATE
WdfDeviceGetDevicePowerPolicyState(
_In_
WDFDEVICE Device
)
{
return ((PFN_WDFDEVICEGETDEVICEPOWERPOLICYSTATE) WdfFunctions[WdfDeviceGetDevicePowerPolicyStateTableIndex])(WdfDriverGlobals, Device);
}
//
// WDF Function: WdfDeviceAssignS0IdleSettings
//
typedef
_Must_inspect_result_
_IRQL_requires_max_(DISPATCH_LEVEL)
WDFAPI
NTSTATUS
(STDCALL *PFN_WDFDEVICEASSIGNS0IDLESETTINGS)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
WDFDEVICE Device,
_In_
PWDF_DEVICE_POWER_POLICY_IDLE_SETTINGS Settings
);
_Must_inspect_result_
_IRQL_requires_max_(DISPATCH_LEVEL)
FORCEINLINE
NTSTATUS
WdfDeviceAssignS0IdleSettings(
_In_
WDFDEVICE Device,
_In_
PWDF_DEVICE_POWER_POLICY_IDLE_SETTINGS Settings
)
{
return ((PFN_WDFDEVICEASSIGNS0IDLESETTINGS) WdfFunctions[WdfDeviceAssignS0IdleSettingsTableIndex])(WdfDriverGlobals, Device, Settings);
}
//
// WDF Function: WdfDeviceAssignSxWakeSettings
//
typedef
_Must_inspect_result_
_IRQL_requires_max_(DISPATCH_LEVEL)
WDFAPI
NTSTATUS
(STDCALL *PFN_WDFDEVICEASSIGNSXWAKESETTINGS)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
WDFDEVICE Device,
_In_
PWDF_DEVICE_POWER_POLICY_WAKE_SETTINGS Settings
);
_Must_inspect_result_
_IRQL_requires_max_(DISPATCH_LEVEL)
FORCEINLINE
NTSTATUS
WdfDeviceAssignSxWakeSettings(
_In_
WDFDEVICE Device,
_In_
PWDF_DEVICE_POWER_POLICY_WAKE_SETTINGS Settings
)
{
return ((PFN_WDFDEVICEASSIGNSXWAKESETTINGS) WdfFunctions[WdfDeviceAssignSxWakeSettingsTableIndex])(WdfDriverGlobals, Device, Settings);
}
//
// WDF Function: WdfDeviceOpenRegistryKey
//
typedef
_Must_inspect_result_
_IRQL_requires_max_(PASSIVE_LEVEL)
WDFAPI
NTSTATUS
(STDCALL *PFN_WDFDEVICEOPENREGISTRYKEY)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
WDFDEVICE Device,
_In_
ULONG DeviceInstanceKeyType,
_In_
ACCESS_MASK DesiredAccess,
_In_opt_
PWDF_OBJECT_ATTRIBUTES KeyAttributes,
_Out_
WDFKEY* Key
);
_Must_inspect_result_
_IRQL_requires_max_(PASSIVE_LEVEL)
FORCEINLINE
NTSTATUS
WdfDeviceOpenRegistryKey(
_In_
WDFDEVICE Device,
_In_
ULONG DeviceInstanceKeyType,
_In_
ACCESS_MASK DesiredAccess,
_In_opt_
PWDF_OBJECT_ATTRIBUTES KeyAttributes,
_Out_
WDFKEY* Key
)
{
return ((PFN_WDFDEVICEOPENREGISTRYKEY) WdfFunctions[WdfDeviceOpenRegistryKeyTableIndex])(WdfDriverGlobals, Device, DeviceInstanceKeyType, DesiredAccess, KeyAttributes, Key);
}
//
// WDF Function: WdfDeviceOpenDevicemapKey
//
typedef
_Must_inspect_result_
_IRQL_requires_max_(PASSIVE_LEVEL)
WDFAPI
NTSTATUS
(STDCALL *PFN_WDFDEVICEOPENDEVICEMAPKEY)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
WDFDEVICE Device,
_In_
PCUNICODE_STRING KeyName,
_In_
ACCESS_MASK DesiredAccess,
_In_opt_
PWDF_OBJECT_ATTRIBUTES KeyAttributes,
_Out_
WDFKEY* Key
);
_Must_inspect_result_
_IRQL_requires_max_(PASSIVE_LEVEL)
FORCEINLINE
NTSTATUS
WdfDeviceOpenDevicemapKey(
_In_
WDFDEVICE Device,
_In_
PCUNICODE_STRING KeyName,
_In_
ACCESS_MASK DesiredAccess,
_In_opt_
PWDF_OBJECT_ATTRIBUTES KeyAttributes,
_Out_
WDFKEY* Key
)
{
return ((PFN_WDFDEVICEOPENDEVICEMAPKEY) WdfFunctions[WdfDeviceOpenDevicemapKeyTableIndex])(WdfDriverGlobals, Device, KeyName, DesiredAccess, KeyAttributes, Key);
}
//
// WDF Function: WdfDeviceSetSpecialFileSupport
//
typedef
_IRQL_requires_max_(DISPATCH_LEVEL)
WDFAPI
VOID
(STDCALL *PFN_WDFDEVICESETSPECIALFILESUPPORT)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
WDFDEVICE Device,
_In_
WDF_SPECIAL_FILE_TYPE FileType,
_In_
BOOLEAN FileTypeIsSupported
);
_IRQL_requires_max_(DISPATCH_LEVEL)
FORCEINLINE
VOID
WdfDeviceSetSpecialFileSupport(
_In_
WDFDEVICE Device,
_In_
WDF_SPECIAL_FILE_TYPE FileType,
_In_
BOOLEAN FileTypeIsSupported
)
{
((PFN_WDFDEVICESETSPECIALFILESUPPORT) WdfFunctions[WdfDeviceSetSpecialFileSupportTableIndex])(WdfDriverGlobals, Device, FileType, FileTypeIsSupported);
}
//
// WDF Function: WdfDeviceSetCharacteristics
//
typedef
_IRQL_requires_max_(DISPATCH_LEVEL)
WDFAPI
VOID
(STDCALL *PFN_WDFDEVICESETCHARACTERISTICS)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
WDFDEVICE Device,
_In_
ULONG DeviceCharacteristics
);
_IRQL_requires_max_(DISPATCH_LEVEL)
FORCEINLINE
VOID
WdfDeviceSetCharacteristics(
_In_
WDFDEVICE Device,
_In_
ULONG DeviceCharacteristics
)
{
((PFN_WDFDEVICESETCHARACTERISTICS) WdfFunctions[WdfDeviceSetCharacteristicsTableIndex])(WdfDriverGlobals, Device, DeviceCharacteristics);
}
//
// WDF Function: WdfDeviceGetCharacteristics
//
typedef
_IRQL_requires_max_(DISPATCH_LEVEL)
WDFAPI
ULONG
(STDCALL *PFN_WDFDEVICEGETCHARACTERISTICS)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
WDFDEVICE Device
);
_IRQL_requires_max_(DISPATCH_LEVEL)
FORCEINLINE
ULONG
WdfDeviceGetCharacteristics(
_In_
WDFDEVICE Device
)
{
return ((PFN_WDFDEVICEGETCHARACTERISTICS) WdfFunctions[WdfDeviceGetCharacteristicsTableIndex])(WdfDriverGlobals, Device);
}
//
// WDF Function: WdfDeviceGetAlignmentRequirement
//
typedef
_IRQL_requires_max_(DISPATCH_LEVEL)
WDFAPI
ULONG
(STDCALL *PFN_WDFDEVICEGETALIGNMENTREQUIREMENT)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
WDFDEVICE Device
);
_IRQL_requires_max_(DISPATCH_LEVEL)
FORCEINLINE
ULONG
WdfDeviceGetAlignmentRequirement(
_In_
WDFDEVICE Device
)
{
return ((PFN_WDFDEVICEGETALIGNMENTREQUIREMENT) WdfFunctions[WdfDeviceGetAlignmentRequirementTableIndex])(WdfDriverGlobals, Device);
}
//
// WDF Function: WdfDeviceSetAlignmentRequirement
//
typedef
_IRQL_requires_max_(DISPATCH_LEVEL)
WDFAPI
VOID
(STDCALL *PFN_WDFDEVICESETALIGNMENTREQUIREMENT)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
WDFDEVICE Device,
_In_
ULONG AlignmentRequirement
);
_IRQL_requires_max_(DISPATCH_LEVEL)
FORCEINLINE
VOID
WdfDeviceSetAlignmentRequirement(
_In_
WDFDEVICE Device,
_In_
ULONG AlignmentRequirement
)
{
((PFN_WDFDEVICESETALIGNMENTREQUIREMENT) WdfFunctions[WdfDeviceSetAlignmentRequirementTableIndex])(WdfDriverGlobals, Device, AlignmentRequirement);
}
//
// WDF Function: WdfDeviceInitFree
//
typedef
_IRQL_requires_max_(DISPATCH_LEVEL)
WDFAPI
VOID
(STDCALL *PFN_WDFDEVICEINITFREE)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
PWDFDEVICE_INIT DeviceInit
);
_IRQL_requires_max_(DISPATCH_LEVEL)
FORCEINLINE
VOID
WdfDeviceInitFree(
_In_
PWDFDEVICE_INIT DeviceInit
)
{
((PFN_WDFDEVICEINITFREE) WdfFunctions[WdfDeviceInitFreeTableIndex])(WdfDriverGlobals, DeviceInit);
}
//
// WDF Function: WdfDeviceInitSetPnpPowerEventCallbacks
//
typedef
_IRQL_requires_max_(DISPATCH_LEVEL)
WDFAPI
VOID
(STDCALL *PFN_WDFDEVICEINITSETPNPPOWEREVENTCALLBACKS)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
PWDFDEVICE_INIT DeviceInit,
_In_
PWDF_PNPPOWER_EVENT_CALLBACKS PnpPowerEventCallbacks
);
_IRQL_requires_max_(DISPATCH_LEVEL)
FORCEINLINE
VOID
WdfDeviceInitSetPnpPowerEventCallbacks(
_In_
PWDFDEVICE_INIT DeviceInit,
_In_
PWDF_PNPPOWER_EVENT_CALLBACKS PnpPowerEventCallbacks
)
{
((PFN_WDFDEVICEINITSETPNPPOWEREVENTCALLBACKS) WdfFunctions[WdfDeviceInitSetPnpPowerEventCallbacksTableIndex])(WdfDriverGlobals, DeviceInit, PnpPowerEventCallbacks);
}
//
// WDF Function: WdfDeviceInitSetPowerPolicyEventCallbacks
//
typedef
_IRQL_requires_max_(DISPATCH_LEVEL)
WDFAPI
VOID
(STDCALL *PFN_WDFDEVICEINITSETPOWERPOLICYEVENTCALLBACKS)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
PWDFDEVICE_INIT DeviceInit,
_In_
PWDF_POWER_POLICY_EVENT_CALLBACKS PowerPolicyEventCallbacks
);
_IRQL_requires_max_(DISPATCH_LEVEL)
FORCEINLINE
VOID
WdfDeviceInitSetPowerPolicyEventCallbacks(
_In_
PWDFDEVICE_INIT DeviceInit,
_In_
PWDF_POWER_POLICY_EVENT_CALLBACKS PowerPolicyEventCallbacks
)
{
((PFN_WDFDEVICEINITSETPOWERPOLICYEVENTCALLBACKS) WdfFunctions[WdfDeviceInitSetPowerPolicyEventCallbacksTableIndex])(WdfDriverGlobals, DeviceInit, PowerPolicyEventCallbacks);
}
//
// WDF Function: WdfDeviceInitSetPowerPolicyOwnership
//
typedef
_IRQL_requires_max_(DISPATCH_LEVEL)
WDFAPI
VOID
(STDCALL *PFN_WDFDEVICEINITSETPOWERPOLICYOWNERSHIP)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
PWDFDEVICE_INIT DeviceInit,
_In_
BOOLEAN IsPowerPolicyOwner
);
_IRQL_requires_max_(DISPATCH_LEVEL)
FORCEINLINE
VOID
WdfDeviceInitSetPowerPolicyOwnership(
_In_
PWDFDEVICE_INIT DeviceInit,
_In_
BOOLEAN IsPowerPolicyOwner
)
{
((PFN_WDFDEVICEINITSETPOWERPOLICYOWNERSHIP) WdfFunctions[WdfDeviceInitSetPowerPolicyOwnershipTableIndex])(WdfDriverGlobals, DeviceInit, IsPowerPolicyOwner);
}
//
// WDF Function: WdfDeviceInitRegisterPnpStateChangeCallback
//
typedef
_Must_inspect_result_
_IRQL_requires_max_(PASSIVE_LEVEL)
WDFAPI
NTSTATUS
(STDCALL *PFN_WDFDEVICEINITREGISTERPNPSTATECHANGECALLBACK)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
PWDFDEVICE_INIT DeviceInit,
_In_
WDF_DEVICE_PNP_STATE PnpState,
_In_
PFN_WDF_DEVICE_PNP_STATE_CHANGE_NOTIFICATION EvtDevicePnpStateChange,
_In_
ULONG CallbackTypes
);
_Must_inspect_result_
_IRQL_requires_max_(PASSIVE_LEVEL)
FORCEINLINE
NTSTATUS
WdfDeviceInitRegisterPnpStateChangeCallback(
_In_
PWDFDEVICE_INIT DeviceInit,
_In_
WDF_DEVICE_PNP_STATE PnpState,
_In_
PFN_WDF_DEVICE_PNP_STATE_CHANGE_NOTIFICATION EvtDevicePnpStateChange,
_In_
ULONG CallbackTypes
)
{
return ((PFN_WDFDEVICEINITREGISTERPNPSTATECHANGECALLBACK) WdfFunctions[WdfDeviceInitRegisterPnpStateChangeCallbackTableIndex])(WdfDriverGlobals, DeviceInit, PnpState, EvtDevicePnpStateChange, CallbackTypes);
}
//
// WDF Function: WdfDeviceInitRegisterPowerStateChangeCallback
//
typedef
_Must_inspect_result_
_IRQL_requires_max_(PASSIVE_LEVEL)
WDFAPI
NTSTATUS
(STDCALL *PFN_WDFDEVICEINITREGISTERPOWERSTATECHANGECALLBACK)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
PWDFDEVICE_INIT DeviceInit,
_In_
WDF_DEVICE_POWER_STATE PowerState,
_In_
PFN_WDF_DEVICE_POWER_STATE_CHANGE_NOTIFICATION EvtDevicePowerStateChange,
_In_
ULONG CallbackTypes
);
_Must_inspect_result_
_IRQL_requires_max_(PASSIVE_LEVEL)
FORCEINLINE
NTSTATUS
WdfDeviceInitRegisterPowerStateChangeCallback(
_In_
PWDFDEVICE_INIT DeviceInit,
_In_
WDF_DEVICE_POWER_STATE PowerState,
_In_
PFN_WDF_DEVICE_POWER_STATE_CHANGE_NOTIFICATION EvtDevicePowerStateChange,
_In_
ULONG CallbackTypes
)
{
return ((PFN_WDFDEVICEINITREGISTERPOWERSTATECHANGECALLBACK) WdfFunctions[WdfDeviceInitRegisterPowerStateChangeCallbackTableIndex])(WdfDriverGlobals, DeviceInit, PowerState, EvtDevicePowerStateChange, CallbackTypes);
}
//
// WDF Function: WdfDeviceInitRegisterPowerPolicyStateChangeCallback
//
typedef
_Must_inspect_result_
_IRQL_requires_max_(PASSIVE_LEVEL)
WDFAPI
NTSTATUS
(STDCALL *PFN_WDFDEVICEINITREGISTERPOWERPOLICYSTATECHANGECALLBACK)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
PWDFDEVICE_INIT DeviceInit,
_In_
WDF_DEVICE_POWER_POLICY_STATE PowerPolicyState,
_In_
PFN_WDF_DEVICE_POWER_POLICY_STATE_CHANGE_NOTIFICATION EvtDevicePowerPolicyStateChange,
_In_
ULONG CallbackTypes
);
_Must_inspect_result_
_IRQL_requires_max_(PASSIVE_LEVEL)
FORCEINLINE
NTSTATUS
WdfDeviceInitRegisterPowerPolicyStateChangeCallback(
_In_
PWDFDEVICE_INIT DeviceInit,
_In_
WDF_DEVICE_POWER_POLICY_STATE PowerPolicyState,
_In_
PFN_WDF_DEVICE_POWER_POLICY_STATE_CHANGE_NOTIFICATION EvtDevicePowerPolicyStateChange,
_In_
ULONG CallbackTypes
)
{
return ((PFN_WDFDEVICEINITREGISTERPOWERPOLICYSTATECHANGECALLBACK) WdfFunctions[WdfDeviceInitRegisterPowerPolicyStateChangeCallbackTableIndex])(WdfDriverGlobals, DeviceInit, PowerPolicyState, EvtDevicePowerPolicyStateChange, CallbackTypes);
}
//
// WDF Function: WdfDeviceInitSetExclusive
//
typedef
_IRQL_requires_max_(DISPATCH_LEVEL)
WDFAPI
VOID
(STDCALL *PFN_WDFDEVICEINITSETEXCLUSIVE)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
PWDFDEVICE_INIT DeviceInit,
_In_
BOOLEAN IsExclusive
);
_IRQL_requires_max_(DISPATCH_LEVEL)
FORCEINLINE
VOID
WdfDeviceInitSetExclusive(
_In_
PWDFDEVICE_INIT DeviceInit,
_In_
BOOLEAN IsExclusive
)
{
((PFN_WDFDEVICEINITSETEXCLUSIVE) WdfFunctions[WdfDeviceInitSetExclusiveTableIndex])(WdfDriverGlobals, DeviceInit, IsExclusive);
}
//
// WDF Function: WdfDeviceInitSetIoType
//
typedef
_IRQL_requires_max_(DISPATCH_LEVEL)
WDFAPI
VOID
(STDCALL *PFN_WDFDEVICEINITSETIOTYPE)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
PWDFDEVICE_INIT DeviceInit,
_In_
WDF_DEVICE_IO_TYPE IoType
);
_IRQL_requires_max_(DISPATCH_LEVEL)
FORCEINLINE
VOID
WdfDeviceInitSetIoType(
_In_
PWDFDEVICE_INIT DeviceInit,
_In_
WDF_DEVICE_IO_TYPE IoType
)
{
((PFN_WDFDEVICEINITSETIOTYPE) WdfFunctions[WdfDeviceInitSetIoTypeTableIndex])(WdfDriverGlobals, DeviceInit, IoType);
}
//
// WDF Function: WdfDeviceInitSetPowerNotPageable
//
typedef
_IRQL_requires_max_(DISPATCH_LEVEL)
WDFAPI
VOID
(STDCALL *PFN_WDFDEVICEINITSETPOWERNOTPAGEABLE)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
PWDFDEVICE_INIT DeviceInit
);
_IRQL_requires_max_(DISPATCH_LEVEL)
FORCEINLINE
VOID
WdfDeviceInitSetPowerNotPageable(
_In_
PWDFDEVICE_INIT DeviceInit
)
{
((PFN_WDFDEVICEINITSETPOWERNOTPAGEABLE) WdfFunctions[WdfDeviceInitSetPowerNotPageableTableIndex])(WdfDriverGlobals, DeviceInit);
}
//
// WDF Function: WdfDeviceInitSetPowerPageable
//
typedef
_IRQL_requires_max_(DISPATCH_LEVEL)
WDFAPI
VOID
(STDCALL *PFN_WDFDEVICEINITSETPOWERPAGEABLE)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
PWDFDEVICE_INIT DeviceInit
);
_IRQL_requires_max_(DISPATCH_LEVEL)
FORCEINLINE
VOID
WdfDeviceInitSetPowerPageable(
_In_
PWDFDEVICE_INIT DeviceInit
)
{
((PFN_WDFDEVICEINITSETPOWERPAGEABLE) WdfFunctions[WdfDeviceInitSetPowerPageableTableIndex])(WdfDriverGlobals, DeviceInit);
}
//
// WDF Function: WdfDeviceInitSetPowerInrush
//
typedef
_IRQL_requires_max_(DISPATCH_LEVEL)
WDFAPI
VOID
(STDCALL *PFN_WDFDEVICEINITSETPOWERINRUSH)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
PWDFDEVICE_INIT DeviceInit
);
_IRQL_requires_max_(DISPATCH_LEVEL)
FORCEINLINE
VOID
WdfDeviceInitSetPowerInrush(
_In_
PWDFDEVICE_INIT DeviceInit
)
{
((PFN_WDFDEVICEINITSETPOWERINRUSH) WdfFunctions[WdfDeviceInitSetPowerInrushTableIndex])(WdfDriverGlobals, DeviceInit);
}
//
// WDF Function: WdfDeviceInitSetDeviceType
//
typedef
_IRQL_requires_max_(DISPATCH_LEVEL)
WDFAPI
VOID
(STDCALL *PFN_WDFDEVICEINITSETDEVICETYPE)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
PWDFDEVICE_INIT DeviceInit,
_In_
DEVICE_TYPE DeviceType
);
_IRQL_requires_max_(DISPATCH_LEVEL)
FORCEINLINE
VOID
WdfDeviceInitSetDeviceType(
_In_
PWDFDEVICE_INIT DeviceInit,
_In_
DEVICE_TYPE DeviceType
)
{
((PFN_WDFDEVICEINITSETDEVICETYPE) WdfFunctions[WdfDeviceInitSetDeviceTypeTableIndex])(WdfDriverGlobals, DeviceInit, DeviceType);
}
//
// WDF Function: WdfDeviceInitAssignName
//
typedef
_Must_inspect_result_
_IRQL_requires_max_(PASSIVE_LEVEL)
WDFAPI
NTSTATUS
(STDCALL *PFN_WDFDEVICEINITASSIGNNAME)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
PWDFDEVICE_INIT DeviceInit,
_In_opt_
PCUNICODE_STRING DeviceName
);
_Must_inspect_result_
_IRQL_requires_max_(PASSIVE_LEVEL)
FORCEINLINE
NTSTATUS
WdfDeviceInitAssignName(
_In_
PWDFDEVICE_INIT DeviceInit,
_In_opt_
PCUNICODE_STRING DeviceName
)
{
return ((PFN_WDFDEVICEINITASSIGNNAME) WdfFunctions[WdfDeviceInitAssignNameTableIndex])(WdfDriverGlobals, DeviceInit, DeviceName);
}
//
// WDF Function: WdfDeviceInitAssignSDDLString
//
typedef
_Must_inspect_result_
_IRQL_requires_max_(PASSIVE_LEVEL)
WDFAPI
NTSTATUS
(STDCALL *PFN_WDFDEVICEINITASSIGNSDDLSTRING)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
PWDFDEVICE_INIT DeviceInit,
_In_opt_
PCUNICODE_STRING SDDLString
);
_Must_inspect_result_
_IRQL_requires_max_(PASSIVE_LEVEL)
FORCEINLINE
NTSTATUS
WdfDeviceInitAssignSDDLString(
_In_
PWDFDEVICE_INIT DeviceInit,
_In_opt_
PCUNICODE_STRING SDDLString
)
{
return ((PFN_WDFDEVICEINITASSIGNSDDLSTRING) WdfFunctions[WdfDeviceInitAssignSDDLStringTableIndex])(WdfDriverGlobals, DeviceInit, SDDLString);
}
//
// WDF Function: WdfDeviceInitSetDeviceClass
//
typedef
_IRQL_requires_max_(DISPATCH_LEVEL)
WDFAPI
VOID
(STDCALL *PFN_WDFDEVICEINITSETDEVICECLASS)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
PWDFDEVICE_INIT DeviceInit,
_In_
CONST GUID* DeviceClassGuid
);
_IRQL_requires_max_(DISPATCH_LEVEL)
FORCEINLINE
VOID
WdfDeviceInitSetDeviceClass(
_In_
PWDFDEVICE_INIT DeviceInit,
_In_
CONST GUID* DeviceClassGuid
)
{
((PFN_WDFDEVICEINITSETDEVICECLASS) WdfFunctions[WdfDeviceInitSetDeviceClassTableIndex])(WdfDriverGlobals, DeviceInit, DeviceClassGuid);
}
//
// WDF Function: WdfDeviceInitSetCharacteristics
//
typedef
_IRQL_requires_max_(DISPATCH_LEVEL)
WDFAPI
VOID
(STDCALL *PFN_WDFDEVICEINITSETCHARACTERISTICS)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
PWDFDEVICE_INIT DeviceInit,
_In_
ULONG DeviceCharacteristics,
_In_
BOOLEAN OrInValues
);
_IRQL_requires_max_(DISPATCH_LEVEL)
FORCEINLINE
VOID
WdfDeviceInitSetCharacteristics(
_In_
PWDFDEVICE_INIT DeviceInit,
_In_
ULONG DeviceCharacteristics,
_In_
BOOLEAN OrInValues
)
{
((PFN_WDFDEVICEINITSETCHARACTERISTICS) WdfFunctions[WdfDeviceInitSetCharacteristicsTableIndex])(WdfDriverGlobals, DeviceInit, DeviceCharacteristics, OrInValues);
}
//
// WDF Function: WdfDeviceInitSetFileObjectConfig
//
typedef
_IRQL_requires_max_(DISPATCH_LEVEL)
WDFAPI
VOID
(STDCALL *PFN_WDFDEVICEINITSETFILEOBJECTCONFIG)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
PWDFDEVICE_INIT DeviceInit,
_In_
PWDF_FILEOBJECT_CONFIG FileObjectConfig,
_In_opt_
PWDF_OBJECT_ATTRIBUTES FileObjectAttributes
);
_IRQL_requires_max_(DISPATCH_LEVEL)
FORCEINLINE
VOID
WdfDeviceInitSetFileObjectConfig(
_In_
PWDFDEVICE_INIT DeviceInit,
_In_
PWDF_FILEOBJECT_CONFIG FileObjectConfig,
_In_opt_
PWDF_OBJECT_ATTRIBUTES FileObjectAttributes
)
{
((PFN_WDFDEVICEINITSETFILEOBJECTCONFIG) WdfFunctions[WdfDeviceInitSetFileObjectConfigTableIndex])(WdfDriverGlobals, DeviceInit, FileObjectConfig, FileObjectAttributes);
}
//
// WDF Function: WdfDeviceInitSetRequestAttributes
//
typedef
_IRQL_requires_max_(DISPATCH_LEVEL)
WDFAPI
VOID
(STDCALL *PFN_WDFDEVICEINITSETREQUESTATTRIBUTES)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
PWDFDEVICE_INIT DeviceInit,
_In_
PWDF_OBJECT_ATTRIBUTES RequestAttributes
);
_IRQL_requires_max_(DISPATCH_LEVEL)
FORCEINLINE
VOID
WdfDeviceInitSetRequestAttributes(
_In_
PWDFDEVICE_INIT DeviceInit,
_In_
PWDF_OBJECT_ATTRIBUTES RequestAttributes
)
{
((PFN_WDFDEVICEINITSETREQUESTATTRIBUTES) WdfFunctions[WdfDeviceInitSetRequestAttributesTableIndex])(WdfDriverGlobals, DeviceInit, RequestAttributes);
}
//
// WDF Function: WdfDeviceInitAssignWdmIrpPreprocessCallback
//
typedef
_Must_inspect_result_
_IRQL_requires_max_(DISPATCH_LEVEL)
WDFAPI
NTSTATUS
(STDCALL *PFN_WDFDEVICEINITASSIGNWDMIRPPREPROCESSCALLBACK)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
PWDFDEVICE_INIT DeviceInit,
_In_
PFN_WDFDEVICE_WDM_IRP_PREPROCESS EvtDeviceWdmIrpPreprocess,
_In_
UCHAR MajorFunction,
_When_(NumMinorFunctions > 0, _In_reads_bytes_(NumMinorFunctions))
_When_(NumMinorFunctions == 0, _In_opt_)
PUCHAR MinorFunctions,
_In_
ULONG NumMinorFunctions
);
_Must_inspect_result_
_IRQL_requires_max_(DISPATCH_LEVEL)
FORCEINLINE
NTSTATUS
WdfDeviceInitAssignWdmIrpPreprocessCallback(
_In_
PWDFDEVICE_INIT DeviceInit,
_In_
PFN_WDFDEVICE_WDM_IRP_PREPROCESS EvtDeviceWdmIrpPreprocess,
_In_
UCHAR MajorFunction,
_When_(NumMinorFunctions > 0, _In_reads_bytes_(NumMinorFunctions))
_When_(NumMinorFunctions == 0, _In_opt_)
PUCHAR MinorFunctions,
_In_
ULONG NumMinorFunctions
)
{
return ((PFN_WDFDEVICEINITASSIGNWDMIRPPREPROCESSCALLBACK) WdfFunctions[WdfDeviceInitAssignWdmIrpPreprocessCallbackTableIndex])(WdfDriverGlobals, DeviceInit, EvtDeviceWdmIrpPreprocess, MajorFunction, MinorFunctions, NumMinorFunctions);
}
//
// WDF Function: WdfDeviceInitSetIoInCallerContextCallback
//
typedef
_IRQL_requires_max_(DISPATCH_LEVEL)
WDFAPI
VOID
(STDCALL *PFN_WDFDEVICEINITSETIOINCALLERCONTEXTCALLBACK)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
PWDFDEVICE_INIT DeviceInit,
_In_
PFN_WDF_IO_IN_CALLER_CONTEXT EvtIoInCallerContext
);
_IRQL_requires_max_(DISPATCH_LEVEL)
FORCEINLINE
VOID
WdfDeviceInitSetIoInCallerContextCallback(
_In_
PWDFDEVICE_INIT DeviceInit,
_In_
PFN_WDF_IO_IN_CALLER_CONTEXT EvtIoInCallerContext
)
{
((PFN_WDFDEVICEINITSETIOINCALLERCONTEXTCALLBACK) WdfFunctions[WdfDeviceInitSetIoInCallerContextCallbackTableIndex])(WdfDriverGlobals, DeviceInit, EvtIoInCallerContext);
}
//
// WDF Function: WdfDeviceInitSetRemoveLockOptions
//
typedef
_IRQL_requires_max_(DISPATCH_LEVEL)
WDFAPI
VOID
(STDCALL *PFN_WDFDEVICEINITSETREMOVELOCKOPTIONS)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
PWDFDEVICE_INIT DeviceInit,
_In_
PWDF_REMOVE_LOCK_OPTIONS Options
);
_IRQL_requires_max_(DISPATCH_LEVEL)
FORCEINLINE
VOID
WdfDeviceInitSetRemoveLockOptions(
_In_
PWDFDEVICE_INIT DeviceInit,
_In_
PWDF_REMOVE_LOCK_OPTIONS Options
)
{
((PFN_WDFDEVICEINITSETREMOVELOCKOPTIONS) WdfFunctions[WdfDeviceInitSetRemoveLockOptionsTableIndex])(WdfDriverGlobals, DeviceInit, Options);
}
//
// WDF Function: WdfDeviceCreate
//
typedef
_Must_inspect_result_
_IRQL_requires_max_(PASSIVE_LEVEL)
WDFAPI
NTSTATUS
(STDCALL *PFN_WDFDEVICECREATE)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_Inout_
PWDFDEVICE_INIT* DeviceInit,
_In_opt_
PWDF_OBJECT_ATTRIBUTES DeviceAttributes,
_Out_
WDFDEVICE* Device
);
_Must_inspect_result_
_IRQL_requires_max_(PASSIVE_LEVEL)
FORCEINLINE
NTSTATUS
WdfDeviceCreate(
_Inout_
PWDFDEVICE_INIT* DeviceInit,
_In_opt_
PWDF_OBJECT_ATTRIBUTES DeviceAttributes,
_Out_
WDFDEVICE* Device
)
{
return ((PFN_WDFDEVICECREATE) WdfFunctions[WdfDeviceCreateTableIndex])(WdfDriverGlobals, DeviceInit, DeviceAttributes, Device);
}
//
// WDF Function: WdfDeviceSetStaticStopRemove
//
typedef
_IRQL_requires_max_(DISPATCH_LEVEL)
WDFAPI
VOID
(STDCALL *PFN_WDFDEVICESETSTATICSTOPREMOVE)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
WDFDEVICE Device,
_In_
BOOLEAN Stoppable
);
_IRQL_requires_max_(DISPATCH_LEVEL)
FORCEINLINE
VOID
WdfDeviceSetStaticStopRemove(
_In_
WDFDEVICE Device,
_In_
BOOLEAN Stoppable
)
{
((PFN_WDFDEVICESETSTATICSTOPREMOVE) WdfFunctions[WdfDeviceSetStaticStopRemoveTableIndex])(WdfDriverGlobals, Device, Stoppable);
}
//
// WDF Function: WdfDeviceCreateDeviceInterface
//
typedef
_Must_inspect_result_
_IRQL_requires_max_(PASSIVE_LEVEL)
WDFAPI
NTSTATUS
(STDCALL *PFN_WDFDEVICECREATEDEVICEINTERFACE)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
WDFDEVICE Device,
_In_
CONST GUID* InterfaceClassGUID,
_In_opt_
PCUNICODE_STRING ReferenceString
);
_Must_inspect_result_
_IRQL_requires_max_(PASSIVE_LEVEL)
FORCEINLINE
NTSTATUS
WdfDeviceCreateDeviceInterface(
_In_
WDFDEVICE Device,
_In_
CONST GUID* InterfaceClassGUID,
_In_opt_
PCUNICODE_STRING ReferenceString
)
{
return ((PFN_WDFDEVICECREATEDEVICEINTERFACE) WdfFunctions[WdfDeviceCreateDeviceInterfaceTableIndex])(WdfDriverGlobals, Device, InterfaceClassGUID, ReferenceString);
}
//
// WDF Function: WdfDeviceSetDeviceInterfaceState
//
typedef
_IRQL_requires_max_(PASSIVE_LEVEL)
WDFAPI
VOID
(STDCALL *PFN_WDFDEVICESETDEVICEINTERFACESTATE)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
WDFDEVICE Device,
_In_
CONST GUID* InterfaceClassGUID,
_In_opt_
PCUNICODE_STRING ReferenceString,
_In_
BOOLEAN IsInterfaceEnabled
);
_IRQL_requires_max_(PASSIVE_LEVEL)
FORCEINLINE
VOID
WdfDeviceSetDeviceInterfaceState(
_In_
WDFDEVICE Device,
_In_
CONST GUID* InterfaceClassGUID,
_In_opt_
PCUNICODE_STRING ReferenceString,
_In_
BOOLEAN IsInterfaceEnabled
)
{
((PFN_WDFDEVICESETDEVICEINTERFACESTATE) WdfFunctions[WdfDeviceSetDeviceInterfaceStateTableIndex])(WdfDriverGlobals, Device, InterfaceClassGUID, ReferenceString, IsInterfaceEnabled);
}
//
// WDF Function: WdfDeviceRetrieveDeviceInterfaceString
//
typedef
_Must_inspect_result_
_IRQL_requires_max_(PASSIVE_LEVEL)
WDFAPI
NTSTATUS
(STDCALL *PFN_WDFDEVICERETRIEVEDEVICEINTERFACESTRING)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
WDFDEVICE Device,
_In_
CONST GUID* InterfaceClassGUID,
_In_opt_
PCUNICODE_STRING ReferenceString,
_In_
WDFSTRING String
);
_Must_inspect_result_
_IRQL_requires_max_(PASSIVE_LEVEL)
FORCEINLINE
NTSTATUS
WdfDeviceRetrieveDeviceInterfaceString(
_In_
WDFDEVICE Device,
_In_
CONST GUID* InterfaceClassGUID,
_In_opt_
PCUNICODE_STRING ReferenceString,
_In_
WDFSTRING String
)
{
return ((PFN_WDFDEVICERETRIEVEDEVICEINTERFACESTRING) WdfFunctions[WdfDeviceRetrieveDeviceInterfaceStringTableIndex])(WdfDriverGlobals, Device, InterfaceClassGUID, ReferenceString, String);
}
//
// WDF Function: WdfDeviceCreateSymbolicLink
//
typedef
_Must_inspect_result_
_IRQL_requires_max_(PASSIVE_LEVEL)
WDFAPI
NTSTATUS
(STDCALL *PFN_WDFDEVICECREATESYMBOLICLINK)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
WDFDEVICE Device,
_In_
PCUNICODE_STRING SymbolicLinkName
);
_Must_inspect_result_
_IRQL_requires_max_(PASSIVE_LEVEL)
FORCEINLINE
NTSTATUS
WdfDeviceCreateSymbolicLink(
_In_
WDFDEVICE Device,
_In_
PCUNICODE_STRING SymbolicLinkName
)
{
return ((PFN_WDFDEVICECREATESYMBOLICLINK) WdfFunctions[WdfDeviceCreateSymbolicLinkTableIndex])(WdfDriverGlobals, Device, SymbolicLinkName);
}
//
// WDF Function: WdfDeviceQueryProperty
//
typedef
_Must_inspect_result_
_IRQL_requires_max_(PASSIVE_LEVEL)
WDFAPI
NTSTATUS
(STDCALL *PFN_WDFDEVICEQUERYPROPERTY)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
WDFDEVICE Device,
_In_
DEVICE_REGISTRY_PROPERTY DeviceProperty,
_In_
ULONG BufferLength,
_Out_writes_bytes_all_(BufferLength)
PVOID PropertyBuffer,
_Out_
PULONG ResultLength
);
_Must_inspect_result_
_IRQL_requires_max_(PASSIVE_LEVEL)
FORCEINLINE
NTSTATUS
WdfDeviceQueryProperty(
_In_
WDFDEVICE Device,
_In_
DEVICE_REGISTRY_PROPERTY DeviceProperty,
_In_
ULONG BufferLength,
_Out_writes_bytes_all_(BufferLength)
PVOID PropertyBuffer,
_Out_
PULONG ResultLength
)
{
return ((PFN_WDFDEVICEQUERYPROPERTY) WdfFunctions[WdfDeviceQueryPropertyTableIndex])(WdfDriverGlobals, Device, DeviceProperty, BufferLength, PropertyBuffer, ResultLength);
}
//
// WDF Function: WdfDeviceAllocAndQueryProperty
//
typedef
_Must_inspect_result_
_IRQL_requires_max_(PASSIVE_LEVEL)
WDFAPI
NTSTATUS
(STDCALL *PFN_WDFDEVICEALLOCANDQUERYPROPERTY)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
WDFDEVICE Device,
_In_
DEVICE_REGISTRY_PROPERTY DeviceProperty,
_In_
_Strict_type_match_
POOL_TYPE PoolType,
_In_opt_
PWDF_OBJECT_ATTRIBUTES PropertyMemoryAttributes,
_Out_
WDFMEMORY* PropertyMemory
);
_Must_inspect_result_
_IRQL_requires_max_(PASSIVE_LEVEL)
FORCEINLINE
NTSTATUS
WdfDeviceAllocAndQueryProperty(
_In_
WDFDEVICE Device,
_In_
DEVICE_REGISTRY_PROPERTY DeviceProperty,
_In_
_Strict_type_match_
POOL_TYPE PoolType,
_In_opt_
PWDF_OBJECT_ATTRIBUTES PropertyMemoryAttributes,
_Out_
WDFMEMORY* PropertyMemory
)
{
return ((PFN_WDFDEVICEALLOCANDQUERYPROPERTY) WdfFunctions[WdfDeviceAllocAndQueryPropertyTableIndex])(WdfDriverGlobals, Device, DeviceProperty, PoolType, PropertyMemoryAttributes, PropertyMemory);
}
//
// WDF Function: WdfDeviceSetPnpCapabilities
//
typedef
_IRQL_requires_max_(DISPATCH_LEVEL)
WDFAPI
VOID
(STDCALL *PFN_WDFDEVICESETPNPCAPABILITIES)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
WDFDEVICE Device,
_In_
PWDF_DEVICE_PNP_CAPABILITIES PnpCapabilities
);
_IRQL_requires_max_(DISPATCH_LEVEL)
FORCEINLINE
VOID
WdfDeviceSetPnpCapabilities(
_In_
WDFDEVICE Device,
_In_
PWDF_DEVICE_PNP_CAPABILITIES PnpCapabilities
)
{
((PFN_WDFDEVICESETPNPCAPABILITIES) WdfFunctions[WdfDeviceSetPnpCapabilitiesTableIndex])(WdfDriverGlobals, Device, PnpCapabilities);
}
//
// WDF Function: WdfDeviceSetPowerCapabilities
//
typedef
_IRQL_requires_max_(DISPATCH_LEVEL)
WDFAPI
VOID
(STDCALL *PFN_WDFDEVICESETPOWERCAPABILITIES)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
WDFDEVICE Device,
_In_
PWDF_DEVICE_POWER_CAPABILITIES PowerCapabilities
);
_IRQL_requires_max_(DISPATCH_LEVEL)
FORCEINLINE
VOID
WdfDeviceSetPowerCapabilities(
_In_
WDFDEVICE Device,
_In_
PWDF_DEVICE_POWER_CAPABILITIES PowerCapabilities
)
{
((PFN_WDFDEVICESETPOWERCAPABILITIES) WdfFunctions[WdfDeviceSetPowerCapabilitiesTableIndex])(WdfDriverGlobals, Device, PowerCapabilities);
}
//
// WDF Function: WdfDeviceSetBusInformationForChildren
//
typedef
_IRQL_requires_max_(DISPATCH_LEVEL)
WDFAPI
VOID
(STDCALL *PFN_WDFDEVICESETBUSINFORMATIONFORCHILDREN)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
WDFDEVICE Device,
_In_
PPNP_BUS_INFORMATION BusInformation
);
_IRQL_requires_max_(DISPATCH_LEVEL)
FORCEINLINE
VOID
WdfDeviceSetBusInformationForChildren(
_In_
WDFDEVICE Device,
_In_
PPNP_BUS_INFORMATION BusInformation
)
{
((PFN_WDFDEVICESETBUSINFORMATIONFORCHILDREN) WdfFunctions[WdfDeviceSetBusInformationForChildrenTableIndex])(WdfDriverGlobals, Device, BusInformation);
}
//
// WDF Function: WdfDeviceIndicateWakeStatus
//
typedef
_Must_inspect_result_
_IRQL_requires_max_(DISPATCH_LEVEL)
WDFAPI
NTSTATUS
(STDCALL *PFN_WDFDEVICEINDICATEWAKESTATUS)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
WDFDEVICE Device,
_In_
NTSTATUS WaitWakeStatus
);
_Must_inspect_result_
_IRQL_requires_max_(DISPATCH_LEVEL)
FORCEINLINE
NTSTATUS
WdfDeviceIndicateWakeStatus(
_In_
WDFDEVICE Device,
_In_
NTSTATUS WaitWakeStatus
)
{
return ((PFN_WDFDEVICEINDICATEWAKESTATUS) WdfFunctions[WdfDeviceIndicateWakeStatusTableIndex])(WdfDriverGlobals, Device, WaitWakeStatus);
}
//
// WDF Function: WdfDeviceSetFailed
//
typedef
_IRQL_requires_max_(DISPATCH_LEVEL)
WDFAPI
VOID
(STDCALL *PFN_WDFDEVICESETFAILED)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
WDFDEVICE Device,
_In_
WDF_DEVICE_FAILED_ACTION FailedAction
);
_IRQL_requires_max_(DISPATCH_LEVEL)
FORCEINLINE
VOID
WdfDeviceSetFailed(
_In_
WDFDEVICE Device,
_In_
WDF_DEVICE_FAILED_ACTION FailedAction
)
{
((PFN_WDFDEVICESETFAILED) WdfFunctions[WdfDeviceSetFailedTableIndex])(WdfDriverGlobals, Device, FailedAction);
}
//
// WDF Function: WdfDeviceStopIdleNoTrack
//
typedef
_Must_inspect_result_
_When_(WaitForD0 == 0, _IRQL_requires_max_(DISPATCH_LEVEL))
_When_(WaitForD0 != 0, _IRQL_requires_max_(PASSIVE_LEVEL))
WDFAPI
NTSTATUS
(STDCALL *PFN_WDFDEVICESTOPIDLENOTRACK)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
WDFDEVICE Device,
_In_
BOOLEAN WaitForD0
);
_Must_inspect_result_
_When_(WaitForD0 == 0, _IRQL_requires_max_(DISPATCH_LEVEL))
_When_(WaitForD0 != 0, _IRQL_requires_max_(PASSIVE_LEVEL))
FORCEINLINE
NTSTATUS
WdfDeviceStopIdleNoTrack(
_In_
WDFDEVICE Device,
_In_
BOOLEAN WaitForD0
)
{
return ((PFN_WDFDEVICESTOPIDLENOTRACK) WdfFunctions[WdfDeviceStopIdleNoTrackTableIndex])(WdfDriverGlobals, Device, WaitForD0);
}
//
// WDF Function: WdfDeviceResumeIdleNoTrack
//
typedef
_IRQL_requires_max_(DISPATCH_LEVEL)
WDFAPI
VOID
(STDCALL *PFN_WDFDEVICERESUMEIDLENOTRACK)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
WDFDEVICE Device
);
_IRQL_requires_max_(DISPATCH_LEVEL)
FORCEINLINE
VOID
WdfDeviceResumeIdleNoTrack(
_In_
WDFDEVICE Device
)
{
((PFN_WDFDEVICERESUMEIDLENOTRACK) WdfFunctions[WdfDeviceResumeIdleNoTrackTableIndex])(WdfDriverGlobals, Device);
}
//
// WDF Function: WdfDeviceStopIdleActual
//
typedef
_Must_inspect_result_
_When_(WaitForD0 == 0, _IRQL_requires_max_(DISPATCH_LEVEL))
_When_(WaitForD0 != 0, _IRQL_requires_max_(PASSIVE_LEVEL))
WDFAPI
NTSTATUS
(STDCALL *PFN_WDFDEVICESTOPIDLEACTUAL)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
WDFDEVICE Device,
_In_
BOOLEAN WaitForD0,
_In_opt_
PVOID Tag,
_In_
LONG Line,
_In_z_
PCHAR File
);
_Must_inspect_result_
_When_(WaitForD0 == 0, _IRQL_requires_max_(DISPATCH_LEVEL))
_When_(WaitForD0 != 0, _IRQL_requires_max_(PASSIVE_LEVEL))
FORCEINLINE
NTSTATUS
WdfDeviceStopIdleActual(
_In_
WDFDEVICE Device,
_In_
BOOLEAN WaitForD0,
_In_opt_
PVOID Tag,
_In_
LONG Line,
_In_z_
PCHAR File
)
{
return ((PFN_WDFDEVICESTOPIDLEACTUAL) WdfFunctions[WdfDeviceStopIdleActualTableIndex])(WdfDriverGlobals, Device, WaitForD0, Tag, Line, File);
}
//
// WDF Function: WdfDeviceResumeIdleActual
//
typedef
_IRQL_requires_max_(DISPATCH_LEVEL)
WDFAPI
VOID
(STDCALL *PFN_WDFDEVICERESUMEIDLEACTUAL)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
WDFDEVICE Device,
_In_opt_
PVOID Tag,
_In_
LONG Line,
_In_z_
PCHAR File
);
_IRQL_requires_max_(DISPATCH_LEVEL)
FORCEINLINE
VOID
WdfDeviceResumeIdleActual(
_In_
WDFDEVICE Device,
_In_opt_
PVOID Tag,
_In_
LONG Line,
_In_z_
PCHAR File
)
{
((PFN_WDFDEVICERESUMEIDLEACTUAL) WdfFunctions[WdfDeviceResumeIdleActualTableIndex])(WdfDriverGlobals, Device, Tag, Line, File);
}
//
// WDF Function: WdfDeviceGetFileObject
//
typedef
_IRQL_requires_max_(DISPATCH_LEVEL)
WDFAPI
WDFFILEOBJECT
(STDCALL *PFN_WDFDEVICEGETFILEOBJECT)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
WDFDEVICE Device,
_In_
PFILE_OBJECT FileObject
);
_IRQL_requires_max_(DISPATCH_LEVEL)
FORCEINLINE
WDFFILEOBJECT
WdfDeviceGetFileObject(
_In_
WDFDEVICE Device,
_In_
PFILE_OBJECT FileObject
)
{
return ((PFN_WDFDEVICEGETFILEOBJECT) WdfFunctions[WdfDeviceGetFileObjectTableIndex])(WdfDriverGlobals, Device, FileObject);
}
//
// WDF Function: WdfDeviceEnqueueRequest
//
typedef
_Must_inspect_result_
_IRQL_requires_max_(DISPATCH_LEVEL)
WDFAPI
NTSTATUS
(STDCALL *PFN_WDFDEVICEENQUEUEREQUEST)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
WDFDEVICE Device,
_In_
WDFREQUEST Request
);
_Must_inspect_result_
_IRQL_requires_max_(DISPATCH_LEVEL)
FORCEINLINE
NTSTATUS
WdfDeviceEnqueueRequest(
_In_
WDFDEVICE Device,
_In_
WDFREQUEST Request
)
{
return ((PFN_WDFDEVICEENQUEUEREQUEST) WdfFunctions[WdfDeviceEnqueueRequestTableIndex])(WdfDriverGlobals, Device, Request);
}
//
// WDF Function: WdfDeviceGetDefaultQueue
//
typedef
_IRQL_requires_max_(DISPATCH_LEVEL)
WDFAPI
WDFQUEUE
(STDCALL *PFN_WDFDEVICEGETDEFAULTQUEUE)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
WDFDEVICE Device
);
_IRQL_requires_max_(DISPATCH_LEVEL)
FORCEINLINE
WDFQUEUE
WdfDeviceGetDefaultQueue(
_In_
WDFDEVICE Device
)
{
return ((PFN_WDFDEVICEGETDEFAULTQUEUE) WdfFunctions[WdfDeviceGetDefaultQueueTableIndex])(WdfDriverGlobals, Device);
}
//
// WDF Function: WdfDeviceConfigureRequestDispatching
//
typedef
_Must_inspect_result_
_IRQL_requires_max_(DISPATCH_LEVEL)
WDFAPI
NTSTATUS
(STDCALL *PFN_WDFDEVICECONFIGUREREQUESTDISPATCHING)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
WDFDEVICE Device,
_In_
WDFQUEUE Queue,
_In_
_Strict_type_match_
WDF_REQUEST_TYPE RequestType
);
_Must_inspect_result_
_IRQL_requires_max_(DISPATCH_LEVEL)
FORCEINLINE
NTSTATUS
WdfDeviceConfigureRequestDispatching(
_In_
WDFDEVICE Device,
_In_
WDFQUEUE Queue,
_In_
_Strict_type_match_
WDF_REQUEST_TYPE RequestType
)
{
return ((PFN_WDFDEVICECONFIGUREREQUESTDISPATCHING) WdfFunctions[WdfDeviceConfigureRequestDispatchingTableIndex])(WdfDriverGlobals, Device, Queue, RequestType);
}
//
// WDF Function: WdfDeviceConfigureWdmIrpDispatchCallback
//
typedef
_Must_inspect_result_
_IRQL_requires_max_(DISPATCH_LEVEL)
WDFAPI
NTSTATUS
(STDCALL *PFN_WDFDEVICECONFIGUREWDMIRPDISPATCHCALLBACK)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
WDFDEVICE Device,
_In_opt_
WDFDRIVER Driver,
_In_
UCHAR MajorFunction,
_In_
PFN_WDFDEVICE_WDM_IRP_DISPATCH EvtDeviceWdmIrpDisptach,
_In_opt_
WDFCONTEXT DriverContext
);
_Must_inspect_result_
_IRQL_requires_max_(DISPATCH_LEVEL)
FORCEINLINE
NTSTATUS
WdfDeviceConfigureWdmIrpDispatchCallback(
_In_
WDFDEVICE Device,
_In_opt_
WDFDRIVER Driver,
_In_
UCHAR MajorFunction,
_In_
PFN_WDFDEVICE_WDM_IRP_DISPATCH EvtDeviceWdmIrpDisptach,
_In_opt_
WDFCONTEXT DriverContext
)
{
return ((PFN_WDFDEVICECONFIGUREWDMIRPDISPATCHCALLBACK) WdfFunctions[WdfDeviceConfigureWdmIrpDispatchCallbackTableIndex])(WdfDriverGlobals, Device, Driver, MajorFunction, EvtDeviceWdmIrpDisptach, DriverContext);
}
//
// WDF Function: WdfDeviceGetSystemPowerAction
//
typedef
_IRQL_requires_max_(DISPATCH_LEVEL)
WDFAPI
POWER_ACTION
(STDCALL *PFN_WDFDEVICEGETSYSTEMPOWERACTION)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
WDFDEVICE Device
);
_IRQL_requires_max_(DISPATCH_LEVEL)
FORCEINLINE
POWER_ACTION
WdfDeviceGetSystemPowerAction(
_In_
WDFDEVICE Device
)
{
return ((PFN_WDFDEVICEGETSYSTEMPOWERACTION) WdfFunctions[WdfDeviceGetSystemPowerActionTableIndex])(WdfDriverGlobals, Device);
}
//
// WDF Function: WdfDeviceWdmAssignPowerFrameworkSettings
//
typedef
_Must_inspect_result_
_IRQL_requires_max_(PASSIVE_LEVEL)
WDFAPI
NTSTATUS
(STDCALL *PFN_WDFDEVICEWDMASSIGNPOWERFRAMEWORKSETTINGS)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
WDFDEVICE Device,
_In_
PWDF_POWER_FRAMEWORK_SETTINGS PowerFrameworkSettings
);
_Must_inspect_result_
_IRQL_requires_max_(PASSIVE_LEVEL)
FORCEINLINE
NTSTATUS
WdfDeviceWdmAssignPowerFrameworkSettings(
_In_
WDFDEVICE Device,
_In_
PWDF_POWER_FRAMEWORK_SETTINGS PowerFrameworkSettings
)
{
return ((PFN_WDFDEVICEWDMASSIGNPOWERFRAMEWORKSETTINGS) WdfFunctions[WdfDeviceWdmAssignPowerFrameworkSettingsTableIndex])(WdfDriverGlobals, Device, PowerFrameworkSettings);
}
//
// WDF Function: WdfDeviceInitSetReleaseHardwareOrderOnFailure
//
typedef
_IRQL_requires_max_(DISPATCH_LEVEL)
WDFAPI
VOID
(STDCALL *PFN_WDFDEVICEINITSETRELEASEHARDWAREORDERONFAILURE)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
PWDFDEVICE_INIT DeviceInit,
_In_
WDF_RELEASE_HARDWARE_ORDER_ON_FAILURE ReleaseHardwareOrderOnFailure
);
_IRQL_requires_max_(DISPATCH_LEVEL)
FORCEINLINE
VOID
WdfDeviceInitSetReleaseHardwareOrderOnFailure(
_In_
PWDFDEVICE_INIT DeviceInit,
_In_
WDF_RELEASE_HARDWARE_ORDER_ON_FAILURE ReleaseHardwareOrderOnFailure
)
{
((PFN_WDFDEVICEINITSETRELEASEHARDWAREORDERONFAILURE) WdfFunctions[WdfDeviceInitSetReleaseHardwareOrderOnFailureTableIndex])(WdfDriverGlobals, DeviceInit, ReleaseHardwareOrderOnFailure);
}
//
// WDF Function: WdfDeviceInitSetIoTypeEx
//
typedef
_IRQL_requires_max_(PASSIVE_LEVEL)
WDFAPI
VOID
(STDCALL *PFN_WDFDEVICEINITSETIOTYPEEX)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
PWDFDEVICE_INIT DeviceInit,
_In_
PWDF_IO_TYPE_CONFIG IoTypeConfig
);
_IRQL_requires_max_(PASSIVE_LEVEL)
FORCEINLINE
VOID
WdfDeviceInitSetIoTypeEx(
_In_
PWDFDEVICE_INIT DeviceInit,
_In_
PWDF_IO_TYPE_CONFIG IoTypeConfig
)
{
((PFN_WDFDEVICEINITSETIOTYPEEX) WdfFunctions[WdfDeviceInitSetIoTypeExTableIndex])(WdfDriverGlobals, DeviceInit, IoTypeConfig);
}
//
// WDF Function: WdfDeviceQueryPropertyEx
//
typedef
_Must_inspect_result_
_IRQL_requires_max_(APC_LEVEL)
WDFAPI
NTSTATUS
(STDCALL *PFN_WDFDEVICEQUERYPROPERTYEX)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
WDFDEVICE Device,
_In_
PWDF_DEVICE_PROPERTY_DATA DeviceProperty,
_In_
ULONG BufferLength,
_Out_
PVOID PropertyBuffer,
_Out_
PULONG RequiredSize,
_Out_
PDEVPROPTYPE Type
);
_Must_inspect_result_
_IRQL_requires_max_(APC_LEVEL)
FORCEINLINE
NTSTATUS
WdfDeviceQueryPropertyEx(
_In_
WDFDEVICE Device,
_In_
PWDF_DEVICE_PROPERTY_DATA DeviceProperty,
_In_
ULONG BufferLength,
_Out_
PVOID PropertyBuffer,
_Out_
PULONG RequiredSize,
_Out_
PDEVPROPTYPE Type
)
{
return ((PFN_WDFDEVICEQUERYPROPERTYEX) WdfFunctions[WdfDeviceQueryPropertyExTableIndex])(WdfDriverGlobals, Device, DeviceProperty, BufferLength, PropertyBuffer, RequiredSize, Type);
}
//
// WDF Function: WdfDeviceAllocAndQueryPropertyEx
//
typedef
_Must_inspect_result_
_IRQL_requires_max_(APC_LEVEL)
WDFAPI
NTSTATUS
(STDCALL *PFN_WDFDEVICEALLOCANDQUERYPROPERTYEX)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
WDFDEVICE Device,
_In_
PWDF_DEVICE_PROPERTY_DATA DeviceProperty,
_In_
_Strict_type_match_
POOL_TYPE PoolType,
_In_opt_
PWDF_OBJECT_ATTRIBUTES PropertyMemoryAttributes,
_Out_
WDFMEMORY* PropertyMemory,
_Out_
PDEVPROPTYPE Type
);
_Must_inspect_result_
_IRQL_requires_max_(APC_LEVEL)
FORCEINLINE
NTSTATUS
WdfDeviceAllocAndQueryPropertyEx(
_In_
WDFDEVICE Device,
_In_
PWDF_DEVICE_PROPERTY_DATA DeviceProperty,
_In_
_Strict_type_match_
POOL_TYPE PoolType,
_In_opt_
PWDF_OBJECT_ATTRIBUTES PropertyMemoryAttributes,
_Out_
WDFMEMORY* PropertyMemory,
_Out_
PDEVPROPTYPE Type
)
{
return ((PFN_WDFDEVICEALLOCANDQUERYPROPERTYEX) WdfFunctions[WdfDeviceAllocAndQueryPropertyExTableIndex])(WdfDriverGlobals, Device, DeviceProperty, PoolType, PropertyMemoryAttributes, PropertyMemory, Type);
}
//
// WDF Function: WdfDeviceAssignProperty
//
typedef
_Must_inspect_result_
_IRQL_requires_max_(APC_LEVEL)
WDFAPI
NTSTATUS
(STDCALL *PFN_WDFDEVICEASSIGNPROPERTY)(
_In_
PWDF_DRIVER_GLOBALS DriverGlobals,
_In_
WDFDEVICE Device,
_In_
PWDF_DEVICE_PROPERTY_DATA DeviceProperty,
_In_
DEVPROPTYPE Type,
_In_
ULONG Size,
_In_opt_
PVOID Data
);
_Must_inspect_result_
_IRQL_requires_max_(APC_LEVEL)
FORCEINLINE
NTSTATUS
WdfDeviceAssignProperty(
_In_
WDFDEVICE Device,
_In_
PWDF_DEVICE_PROPERTY_DATA DeviceProperty,
_In_
DEVPROPTYPE Type,
_In_
ULONG Size,
_In_opt_
PVOID Data
)
{
return ((PFN_WDFDEVICEASSIGNPROPERTY) WdfFunctions[WdfDeviceAssignPropertyTableIndex])(WdfDriverGlobals, Device, DeviceProperty, Type, Size, Data);
}
#endif // (NTDDI_VERSION >= NTDDI_WIN2K)
WDF_EXTERN_C_END
#endif // _WDFDEVICE_H_