/** @file * Virtualization Infrastructure Driver (VID) API. */ /* * Copyright (C) 2018-2019 Oracle Corporation * * This file is part of VirtualBox Open Source Edition (OSE), as * available from http://www.virtualbox.org. This file is free software; * you can redistribute it and/or modify it under the terms of the GNU * General Public License (GPL) as published by the Free Software * Foundation, in version 2 as it comes in the "COPYING" file of the * VirtualBox OSE distribution. VirtualBox OSE is distributed in the * hope that it will be useful, but WITHOUT ANY WARRANTY of any kind. * * The contents of this file may alternatively be used under the terms * of the Common Development and Distribution License Version 1.0 * (CDDL) only, as it comes in the "COPYING.CDDL" file of the * VirtualBox OSE distribution, in which case the provisions of the * CDDL are applicable instead of those of the GPL. * * You may elect to license modified versions of this file under the * terms and conditions of either the GPL or the CDDL or both. */ #ifndef IPRT_INCLUDED_nt_vid_h #define IPRT_INCLUDED_nt_vid_h #ifndef RT_WITHOUT_PRAGMA_ONCE # pragma once #endif #include "hyperv.h" /** * Output from VidMessageSlotMap. */ typedef struct VID_MAPPED_MESSAGE_SLOT { /** The message block mapping. */ struct _HV_MESSAGE *pMsgBlock; /** Copy of input iCpu. */ uint32_t iCpu; /** Explicit padding. */ uint32_t uParentAdvisory; } VID_MAPPED_MESSAGE_SLOT; /** Pointer to VidMessageSlotMap output structure. */ typedef VID_MAPPED_MESSAGE_SLOT *PVID_MAPPED_MESSAGE_SLOT; /** @name VID_MESSAGE_MAPPING_HEADER::enmVidMsgType values (wild guess). * @{ */ /** Type mask, strips flags. */ #define VID_MESSAGE_TYPE_MASK UINT32_C(0x00ffffff) /** No return message necessary. */ #define VID_MESSAGE_TYPE_FLAG_NO_RETURN UINT32_C(0x01000000) /** Observed message values. */ typedef enum { /** Invalid zero value. */ VidMessageInvalid = 0, /** Guessing this means a message from the hypervisor. */ VidMessageHypervisorMessage = 0x00000c | VID_MESSAGE_TYPE_FLAG_NO_RETURN, /** Guessing this means stop request completed. Message length is 1 byte. */ VidMessageStopRequestComplete = 0x00000d | VID_MESSAGE_TYPE_FLAG_NO_RETURN, } VID_MESSAGE_TYPE; AssertCompileSize(VID_MESSAGE_TYPE, 4); /** @} */ /** * Header of the message mapping returned by VidMessageSlotMap. */ typedef struct VID_MESSAGE_MAPPING_HEADER { /** Current guess is that this is VID_MESSAGE_TYPE. */ VID_MESSAGE_TYPE enmVidMsgType; /** The message size or so it seems (0x100). */ uint32_t cbMessage; /** So far these have been zero. */ uint32_t aZeroPPadding[2+4]; } VID_MESSAGE_MAPPING_HEADER; AssertCompileSize(VID_MESSAGE_MAPPING_HEADER, 32); /** * VID processor status (VidGetVirtualProcessorRunningStatus). * * @note This is used internally in VID.SYS, in 17101 it's at offset 8 in their * 'pVCpu' structure. */ typedef enum { VidProcessorStatusStopped = 0, VidProcessorStatusRunning, VidProcessorStatusSuspended, VidProcessorStatusUndefined = 0xffff } VID_PROCESSOR_STATUS; AssertCompileSize(VID_PROCESSOR_STATUS, 4); /** I/O control input for VidMessageSlotHandleAndGetNext. */ typedef struct VID_IOCTL_INPUT_MESSAGE_SLOT_HANDLE_AND_GET_NEXT { HV_VP_INDEX iCpu; uint32_t fFlags; /**< VID_MSHAGN_F_GET_XXX*/ uint32_t cMillies; /**< Not present in build 17758 as the API changed to always to infinite waits. */ } VID_IOCTL_INPUT_MESSAGE_SLOT_HANDLE_AND_GET_NEXT; /** Pointer to input for VidMessageSlotHandleAndGetNext. */ typedef VID_IOCTL_INPUT_MESSAGE_SLOT_HANDLE_AND_GET_NEXT *PVID_IOCTL_INPUT_MESSAGE_SLOT_HANDLE_AND_GET_NEXT; /** Pointer to const input for VidMessageSlotHandleAndGetNext. */ typedef VID_IOCTL_INPUT_MESSAGE_SLOT_HANDLE_AND_GET_NEXT const *PCVID_IOCTL_INPUT_MESSAGE_SLOT_HANDLE_AND_GET_NEXT; /** @name VID_MSHAGN_F_GET_XXX - Flags for VidMessageSlotHandleAndGetNext * @{ */ /** This will try get the next message, waiting if necessary. * It is subject to NtAlertThread processing when it starts waiting. */ #define VID_MSHAGN_F_GET_NEXT_MESSAGE RT_BIT_32(0) /** ACK the message as handled and resume execution/whatever. * This is executed before VID_MSHAGN_F_GET_NEXT_MESSAGE and should not be * subject to NtAlertThread side effects. */ #define VID_MSHAGN_F_HANDLE_MESSAGE RT_BIT_32(1) /** Cancel VP execution (no other bit set). * @since about build 17758. */ #define VID_MSHAGN_F_CANCEL RT_BIT_32(2) /** @} */ #ifdef IN_RING3 RT_C_DECLS_BEGIN /** Calling convention. */ #ifndef WINAPI # define VIDAPI __stdcall #else # define VIDAPI WINAPI #endif /** Partition handle. */ #ifndef WINAPI typedef void *VID_PARTITION_HANDLE; #else typedef HANDLE VID_PARTITION_HANDLE; #endif /** * Gets the partition ID. * * The partition ID is the numeric identifier used when making hypercalls to the * hypervisor. */ DECLIMPORT(BOOL) VIDAPI VidGetHvPartitionId(VID_PARTITION_HANDLE hPartition, HV_PARTITION_ID *pidPartition); /** * Starts asynchronous execution of a virtual CPU. */ DECLIMPORT(BOOL) VIDAPI VidStartVirtualProcessor(VID_PARTITION_HANDLE hPartition, HV_VP_INDEX iCpu); /** * Stops the asynchronous execution of a virtual CPU. * * @retval ERROR_VID_STOP_PENDING if busy with intercept, check messages. */ DECLIMPORT(BOOL) VIDAPI VidStopVirtualProcessor(VID_PARTITION_HANDLE hPartition, HV_VP_INDEX iCpu); /** * WHvCreateVirtualProcessor boils down to a call to VidMessageSlotMap and * some internal WinHvPlatform state fiddling. * * Looks like it maps memory and returns the pointer to it. * VidMessageSlotHandleAndGetNext is later used to wait for the next message and * put (??) it into that memory mapping. * * @returns Success indicator (details in LastErrorValue). * * @param hPartition The partition handle. * @param pOutput Where to return the pointer to the message memory * mapping. The CPU index is also returned here. * @param iCpu The CPU to wait-and-get messages for. */ DECLIMPORT(BOOL) VIDAPI VidMessageSlotMap(VID_PARTITION_HANDLE hPartition, PVID_MAPPED_MESSAGE_SLOT pOutput, HV_VP_INDEX iCpu); /** * This is used by WHvRunVirtualProcessor to wait for the next exit msg. * * The message appears in the memory mapping returned by VidMessageSlotMap. * * @returns Success indicator (details only in LastErrorValue - LastStatusValue * is not set). * @retval STATUS_TIMEOUT for STATUS_TIMEOUT as well as STATUS_USER_APC and * STATUS_ALERTED. * * @param hPartition The partition handle. * @param iCpu The CPU to wait-and-get messages for. * @param fFlags Flags, VID_MSHAGN_F_XXX. * * When starting or resuming execution, at least one of * VID_MSHAGN_F_GET_NEXT_MESSAGE (bit 0) and * VID_MSHAGN_F_HANDLE_MESSAGE (bit 1) must be set. * * When cancelling execution only VID_MSHAGN_F_CANCEL (big 2) * must be set. * * @param cMillies The timeout, presumably in milliseconds. This parameter * was dropped about build 17758. * * @todo Would be awfully nice if someone at Microsoft could hit at the * flags here. */ DECLIMPORT(BOOL) VIDAPI VidMessageSlotHandleAndGetNext(VID_PARTITION_HANDLE hPartition, HV_VP_INDEX iCpu, uint32_t fFlags, uint32_t cMillies); /** * Gets the processor running status. * * This is probably only available in special builds, as one of the early I/O * control dispatching routines will not let it thru. Lower down routines does * implement it, so it's possible to patch it into working. This works for * build 17101: eb vid+12180 0f 84 98 00 00 00 * * @retval ERROR_NOT_IMPLEMENTED * * @remarks VidExoFastIoControlPartition probably disapproves of this too. It * could be very handy for debugging upon occation. */ DECLIMPORT(BOOL) VIDAPI VidGetVirtualProcessorRunningStatus(VID_PARTITION_HANDLE hPartition, HV_VP_INDEX iCpu, VID_PROCESSOR_STATUS *penmStatus); /** * For query virtual processor registers and other state information. * * @returns Success indicator (details in LastErrorValue). */ DECLIMPORT(BOOL) VIDAPI VidGetVirtualProcessorState(VID_PARTITION_HANDLE hPartition, HV_VP_INDEX iCpu, HV_REGISTER_NAME const *paRegNames, uint32_t cRegisters, HV_REGISTER_VALUE *paRegValues); /** * For setting virtual processor registers and other state information. * * @returns Success indicator (details in LastErrorValue). */ DECLIMPORT(BOOL) VIDAPI VidSetVirtualProcessorState(VID_PARTITION_HANDLE hPartition, HV_VP_INDEX iCpu, HV_REGISTER_NAME const *paRegNames, uint32_t cRegisters, HV_REGISTER_VALUE const *paRegValues); /** * Wrapper around the HvCallGetMemoryBalance hypercall. * * When VID.SYS processes the request, it will also query * HvPartitionPropertyVirtualTlbPageCount, so we're passing a 3rd return * parameter in case the API is ever extended to match the I/O control. * * @returns Success indicator (details in LastErrorValue). * @retval ERROR_NOT_IMPLEMENTED for exo partitions. * * @param hPartition The partition handle. * @param pcPagesAvailable Where to return the number of unused pages * still available to the partition. * @param pcPagesInUse Where to return the number of pages currently * in use by the partition. * @param pReserved Pointer to dummy value, just in case they * modify the API to include the nested TLB size. * * @note Not available for exo partitions, unfortunately. The * VidExoFastIoControlPartition function deflects it, failing it with * STATUS_NOT_IMPLEMENTED / ERROR_NOT_IMPLEMENTED. */ DECLIMPORT(BOOL) VIDAPI VidGetHvMemoryBalance(VID_PARTITION_HANDLE hPartition, uint64_t *pcPagesAvailable, uint64_t *pcPagesInUse, uint64_t *pReserved); RT_C_DECLS_END #endif /* IN_RING3 */ #endif /* !IPRT_INCLUDED_nt_vid_h */