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|
/* $Id: DevVGA_VBVA.cpp $ */
/** @file
* VirtualBox Video Acceleration (VBVA).
*/
/*
* Copyright (C) 2006-2023 Oracle and/or its affiliates.
*
* This file is part of VirtualBox base platform packages, as
* available from https://www.virtualbox.org.
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License
* as published by the Free Software Foundation, in version 3 of the
* License.
*
* This program is distributed in the hope that it will be useful, but
* WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, see <https://www.gnu.org/licenses>.
*
* SPDX-License-Identifier: GPL-3.0-only
*/
/*********************************************************************************************************************************
* Header Files *
*********************************************************************************************************************************/
#define LOG_GROUP LOG_GROUP_DEV_VGA
#include <VBox/vmm/pdmifs.h>
#include <VBox/vmm/pdmdev.h>
#include <VBox/vmm/pgm.h>
#include <VBox/vmm/ssm.h>
#include <VBox/VMMDev.h>
#include <VBox/AssertGuest.h>
#include <VBoxVideo.h>
#include <iprt/alloc.h>
#include <iprt/assert.h>
#include <iprt/asm.h>
#include <iprt/string.h>
#include <iprt/param.h>
#ifdef VBOX_WITH_VIDEOHWACCEL
#include <iprt/semaphore.h>
#endif
#include "DevVGA.h"
/* A very detailed logging. */
#if 0 // def DEBUG_sunlover
#define LOGVBVABUFFER(a) LogFlow(a)
#else
#define LOGVBVABUFFER(a) do {} while (0)
#endif
/*********************************************************************************************************************************
* Structures and Typedefs *
*********************************************************************************************************************************/
typedef struct VBVAPARTIALRECORD
{
uint8_t *pu8;
uint32_t cb;
} VBVAPARTIALRECORD;
typedef struct VBVADATA
{
struct
{
VBVABUFFER RT_UNTRUSTED_VOLATILE_GUEST *pVBVA; /**< Pointer to the guest memory with the VBVABUFFER. */
uint8_t RT_UNTRUSTED_VOLATILE_GUEST *pu8Data; /**< For convenience, pointer to the guest ring buffer (VBVABUFFER::au8Data). */
} guest;
uint32_t u32VBVAOffset; /**< VBVABUFFER offset in the guest VRAM. */
VBVAPARTIALRECORD partialRecord; /**< Partial record temporary storage. */
uint32_t off32Data; /**< The offset where the data starts in the VBVABUFFER.
* The host code uses it instead of VBVABUFFER::off32Data. */
uint32_t indexRecordFirst; /**< Index of the first filled record in VBVABUFFER::aRecords. */
uint32_t cbPartialWriteThreshold; /**< Copy of VBVABUFFER::cbPartialWriteThreshold used by host code. */
uint32_t cbData; /**< Copy of VBVABUFFER::cbData used by host code. */
} VBVADATA;
typedef struct VBVAVIEW
{
VBVAINFOVIEW view;
VBVAINFOSCREEN screen;
VBVADATA vbva;
} VBVAVIEW;
typedef struct VBVAMOUSESHAPEINFO
{
bool fSet;
bool fVisible;
bool fAlpha;
uint32_t u32HotX;
uint32_t u32HotY;
uint32_t u32Width;
uint32_t u32Height;
uint32_t cbShape;
uint32_t cbAllocated;
uint8_t *pu8Shape;
} VBVAMOUSESHAPEINFO;
/** @todo saved state: save and restore VBVACONTEXT */
typedef struct VBVACONTEXT
{
uint32_t cViews;
VBVAVIEW aViews[VBOX_VIDEO_MAX_SCREENS];
VBVAMOUSESHAPEINFO mouseShapeInfo;
bool fPaused;
VBVAMODEHINT aModeHints[VBOX_VIDEO_MAX_SCREENS];
} VBVACONTEXT;
static void vbvaDataCleanup(VBVADATA *pVBVAData)
{
if (pVBVAData->guest.pVBVA)
{
pVBVAData->guest.pVBVA->hostFlags.u32HostEvents = 0;
pVBVAData->guest.pVBVA->hostFlags.u32SupportedOrders = 0;
}
RTMemFreeZ(pVBVAData->partialRecord.pu8, pVBVAData->partialRecord.cb);
RT_ZERO(*pVBVAData);
pVBVAData->u32VBVAOffset = HGSMIOFFSET_VOID;
}
/** Copies @a cb bytes from the VBVA ring buffer to the @a pbDst.
* Used for partial records or for records which cross the ring boundary.
*/
static bool vbvaFetchBytes(VBVADATA *pVBVAData, uint8_t *pbDst, uint32_t cb)
{
if (cb >= pVBVAData->cbData)
{
AssertMsgFailed(("cb = 0x%08X, ring buffer size 0x%08X", cb, pVBVAData->cbData));
return false;
}
const uint8_t RT_UNTRUSTED_VOLATILE_GUEST *pbSrc = &pVBVAData->guest.pu8Data[pVBVAData->off32Data];
const uint32_t u32BytesTillBoundary = pVBVAData->cbData - pVBVAData->off32Data;
const int32_t i32Diff = cb - u32BytesTillBoundary;
if (i32Diff <= 0)
{
/* Chunk will not cross buffer boundary. */
RT_BCOPY_VOLATILE(pbDst, pbSrc, cb);
}
else
{
/* Chunk crosses buffer boundary. */
RT_BCOPY_VOLATILE(pbDst, pbSrc, u32BytesTillBoundary);
RT_BCOPY_VOLATILE(pbDst + u32BytesTillBoundary, &pVBVAData->guest.pu8Data[0], i32Diff);
}
/* Advance data offset and sync with guest. */
pVBVAData->off32Data = (pVBVAData->off32Data + cb) % pVBVAData->cbData;
pVBVAData->guest.pVBVA->off32Data = pVBVAData->off32Data;
return true;
}
static bool vbvaPartialRead(uint32_t cbRecord, VBVADATA *pVBVAData)
{
VBVAPARTIALRECORD *pPartialRecord = &pVBVAData->partialRecord;
uint8_t *pu8New;
LOGVBVABUFFER(("vbvaPartialRead: p = %p, cb = %d, cbRecord 0x%08X\n",
pPartialRecord->pu8, pPartialRecord->cb, cbRecord));
Assert(cbRecord > pPartialRecord->cb); /* Caller ensures this. */
const uint32_t cbChunk = cbRecord - pPartialRecord->cb;
if (cbChunk >= pVBVAData->cbData)
{
return false;
}
if (pPartialRecord->pu8)
{
Assert(pPartialRecord->cb);
pu8New = (uint8_t *)RTMemRealloc(pPartialRecord->pu8, cbRecord);
}
else
{
Assert(!pPartialRecord->cb);
pu8New = (uint8_t *)RTMemAlloc(cbRecord);
}
if (!pu8New)
{
/* Memory allocation failed, fail the function. */
Log(("vbvaPartialRead: failed to (re)alocate memory for partial record!!! cbRecord 0x%08X\n",
cbRecord));
return false;
}
/* Fetch data from the ring buffer. */
if (!vbvaFetchBytes(pVBVAData, pu8New + pPartialRecord->cb, cbChunk))
{
return false;
}
pPartialRecord->pu8 = pu8New;
pPartialRecord->cb = cbRecord;
return true;
}
/**
* For contiguous chunks just return the address in the buffer. For crossing
* boundary - allocate a buffer from heap.
*/
static bool vbvaFetchCmd(VBVADATA *pVBVAData, VBVACMDHDR RT_UNTRUSTED_VOLATILE_GUEST **ppHdr, uint32_t *pcbCmd)
{
VBVAPARTIALRECORD *pPartialRecord = &pVBVAData->partialRecord;
uint32_t indexRecordFirst = pVBVAData->indexRecordFirst;
const uint32_t indexRecordFree = ASMAtomicReadU32(&pVBVAData->guest.pVBVA->indexRecordFree);
LOGVBVABUFFER(("first = %d, free = %d\n",
indexRecordFirst, indexRecordFree));
if (indexRecordFree >= RT_ELEMENTS(pVBVAData->guest.pVBVA->aRecords))
{
return false;
}
if (indexRecordFirst == indexRecordFree)
{
/* No records to process. Return without assigning output variables. */
return true;
}
uint32_t cbRecordCurrent = ASMAtomicReadU32(&pVBVAData->guest.pVBVA->aRecords[indexRecordFirst].cbRecord);
LOGVBVABUFFER(("cbRecord = 0x%08X, pPartialRecord->cb = 0x%08X\n", cbRecordCurrent, pPartialRecord->cb));
uint32_t cbRecord = cbRecordCurrent & ~VBVA_F_RECORD_PARTIAL;
if (cbRecord > VBVA_MAX_RECORD_SIZE)
{
return false;
}
if (pPartialRecord->cb)
{
/* There is a partial read in process. Continue with it. */
Assert (pPartialRecord->pu8);
LOGVBVABUFFER(("continue partial record cb = %d cbRecord 0x%08X, first = %d, free = %d\n",
pPartialRecord->cb, cbRecordCurrent, indexRecordFirst, indexRecordFree));
if (cbRecord > pPartialRecord->cb)
{
/* New data has been added to the record. */
if (!vbvaPartialRead(cbRecord, pVBVAData))
{
return false;
}
}
if (!(cbRecordCurrent & VBVA_F_RECORD_PARTIAL))
{
/* The record is completed by guest. Return it to the caller. */
*ppHdr = (VBVACMDHDR *)pPartialRecord->pu8;
*pcbCmd = pPartialRecord->cb;
pPartialRecord->pu8 = NULL;
pPartialRecord->cb = 0;
/* Advance the record index and sync with guest. */
pVBVAData->indexRecordFirst = (indexRecordFirst + 1) % RT_ELEMENTS(pVBVAData->guest.pVBVA->aRecords);
pVBVAData->guest.pVBVA->indexRecordFirst = pVBVAData->indexRecordFirst;
LOGVBVABUFFER(("partial done ok, data = %d, free = %d\n",
pVBVAData->off32Data, pVBVAData->guest.pVBVA->off32Free));
}
return true;
}
/* A new record need to be processed. */
if (cbRecordCurrent & VBVA_F_RECORD_PARTIAL)
{
/* Current record is being written by guest. '=' is important here,
* because the guest will do a FLUSH at this condition.
* This partial record is too large for the ring buffer and must
* be accumulated in an allocated buffer.
*/
if (cbRecord >= pVBVAData->cbData - pVBVAData->cbPartialWriteThreshold)
{
/* Partial read must be started. */
if (!vbvaPartialRead(cbRecord, pVBVAData))
{
return false;
}
LOGVBVABUFFER(("started partial record cb = 0x%08X cbRecord 0x%08X, first = %d, free = %d\n",
pPartialRecord->cb, cbRecordCurrent, indexRecordFirst, indexRecordFree));
}
return true;
}
/* Current record is complete. If it is not empty, process it. */
if (cbRecord >= pVBVAData->cbData)
{
return false;
}
if (cbRecord)
{
/* The size of largest contiguous chunk in the ring buffer. */
uint32_t u32BytesTillBoundary = pVBVAData->cbData - pVBVAData->off32Data;
/* The pointer to data in the ring buffer. */
uint8_t RT_UNTRUSTED_VOLATILE_GUEST *pbSrc = &pVBVAData->guest.pu8Data[pVBVAData->off32Data];
/* Fetch or point the data. */
if (u32BytesTillBoundary >= cbRecord)
{
/* The command does not cross buffer boundary. Return address in the buffer. */
*ppHdr = (VBVACMDHDR RT_UNTRUSTED_VOLATILE_GUEST *)pbSrc;
/* The data offset will be updated in vbvaReleaseCmd. */
}
else
{
/* The command crosses buffer boundary. Rare case, so not optimized. */
uint8_t *pbDst = (uint8_t *)RTMemAlloc(cbRecord);
if (!pbDst)
{
LogFlowFunc (("could not allocate %d bytes from heap!!!\n", cbRecord));
return false;
}
vbvaFetchBytes(pVBVAData, pbDst, cbRecord);
*ppHdr = (VBVACMDHDR *)pbDst;
LOGVBVABUFFER(("Allocated from heap %p\n", pbDst));
}
}
*pcbCmd = cbRecord;
/* Advance the record index and sync with guest. */
pVBVAData->indexRecordFirst = (indexRecordFirst + 1) % RT_ELEMENTS(pVBVAData->guest.pVBVA->aRecords);
pVBVAData->guest.pVBVA->indexRecordFirst = pVBVAData->indexRecordFirst;
LOGVBVABUFFER(("done ok, data = %d, free = %d\n",
pVBVAData->off32Data, pVBVAData->guest.pVBVA->off32Free));
return true;
}
static void vbvaReleaseCmd(VBVADATA *pVBVAData, VBVACMDHDR RT_UNTRUSTED_VOLATILE_GUEST *pHdr, uint32_t cbCmd)
{
VBVAPARTIALRECORD *pPartialRecord = &pVBVAData->partialRecord;
const uint8_t RT_UNTRUSTED_VOLATILE_GUEST *pbRingBuffer = pVBVAData->guest.pu8Data;
if ( (uintptr_t)pHdr >= (uintptr_t)pbRingBuffer
&& (uintptr_t)pHdr < (uintptr_t)&pbRingBuffer[pVBVAData->cbData])
{
/* The pointer is inside ring buffer. Must be continuous chunk. */
Assert(pVBVAData->cbData - (uint32_t)((uint8_t *)pHdr - pbRingBuffer) >= cbCmd);
/* Advance data offset and sync with guest. */
pVBVAData->off32Data = (pVBVAData->off32Data + cbCmd) % pVBVAData->cbData;
pVBVAData->guest.pVBVA->off32Data = pVBVAData->off32Data;
Assert(!pPartialRecord->pu8 && pPartialRecord->cb == 0);
}
else
{
/* The pointer is outside. It is then an allocated copy. */
LOGVBVABUFFER(("Free heap %p\n", pHdr));
if ((uint8_t *)pHdr == pPartialRecord->pu8)
{
pPartialRecord->pu8 = NULL;
pPartialRecord->cb = 0;
}
else
{
Assert(!pPartialRecord->pu8 && pPartialRecord->cb == 0);
}
RTMemFree((void *)pHdr);
}
}
static int vbvaFlushProcess(PVGASTATECC pThisCC, VBVADATA *pVBVAData, unsigned uScreenId)
{
LOGVBVABUFFER(("uScreenId %d, indexRecordFirst = %d, indexRecordFree = %d, off32Data = %d, off32Free = %d\n",
uScreenId, pVBVAData->indexRecordFirst, pVBVAData->guest.pVBVA->indexRecordFree,
pVBVAData->off32Data, pVBVAData->guest.pVBVA->off32Free));
struct
{
/* The rectangle that includes all dirty rectangles. */
int32_t xLeft;
int32_t xRight;
int32_t yTop;
int32_t yBottom;
} dirtyRect;
RT_ZERO(dirtyRect);
bool fUpdate = false; /* Whether there were any updates. */
bool fDirtyEmpty = true;
for (;;)
{
/* Fetch the command data. */
VBVACMDHDR RT_UNTRUSTED_VOLATILE_GUEST *pHdr = NULL;
uint32_t cbCmd = UINT32_MAX;
if (!vbvaFetchCmd(pVBVAData, &pHdr, &cbCmd))
{
LogFunc(("unable to fetch command. off32Data = %d, off32Free = %d!!!\n",
pVBVAData->off32Data, pVBVAData->guest.pVBVA->off32Free));
return VERR_NOT_SUPPORTED;
}
if (cbCmd == UINT32_MAX)
{
/* No more commands yet in the queue. */
break;
}
if (cbCmd < sizeof(VBVACMDHDR))
{
LogFunc(("short command. off32Data = %d, off32Free = %d, cbCmd %d!!!\n",
pVBVAData->off32Data, pVBVAData->guest.pVBVA->off32Free, cbCmd));
return VERR_NOT_SUPPORTED;
}
if (cbCmd != 0)
{
if (!fUpdate)
{
pThisCC->pDrv->pfnVBVAUpdateBegin(pThisCC->pDrv, uScreenId);
fUpdate = true;
}
/* Updates the rectangle and sends the command to the VRDP server. */
pThisCC->pDrv->pfnVBVAUpdateProcess(pThisCC->pDrv, uScreenId, pHdr, cbCmd);
int32_t xRight = pHdr->x + pHdr->w;
int32_t yBottom = pHdr->y + pHdr->h;
/* These are global coords, relative to the primary screen. */
LOGVBVABUFFER(("cbCmd = %d, x=%d, y=%d, w=%d, h=%d\n", cbCmd, pHdr->x, pHdr->y, pHdr->w, pHdr->h));
LogRel3(("%s: update command cbCmd = %d, x=%d, y=%d, w=%d, h=%d\n",
__FUNCTION__, cbCmd, pHdr->x, pHdr->y, pHdr->w, pHdr->h));
/* Collect all rects into one. */
if (fDirtyEmpty)
{
/* This is the first rectangle to be added. */
dirtyRect.xLeft = pHdr->x;
dirtyRect.yTop = pHdr->y;
dirtyRect.xRight = xRight;
dirtyRect.yBottom = yBottom;
fDirtyEmpty = false;
}
else
{
/* Adjust region coordinates. */
if (dirtyRect.xLeft > pHdr->x)
{
dirtyRect.xLeft = pHdr->x;
}
if (dirtyRect.yTop > pHdr->y)
{
dirtyRect.yTop = pHdr->y;
}
if (dirtyRect.xRight < xRight)
{
dirtyRect.xRight = xRight;
}
if (dirtyRect.yBottom < yBottom)
{
dirtyRect.yBottom = yBottom;
}
}
}
vbvaReleaseCmd(pVBVAData, pHdr, cbCmd);
}
if (fUpdate)
{
if (dirtyRect.xRight - dirtyRect.xLeft)
{
LogRel3(("%s: sending update screen=%d, x=%d, y=%d, w=%d, h=%d\n",
__FUNCTION__, uScreenId, dirtyRect.xLeft,
dirtyRect.yTop, dirtyRect.xRight - dirtyRect.xLeft,
dirtyRect.yBottom - dirtyRect.yTop));
pThisCC->pDrv->pfnVBVAUpdateEnd(pThisCC->pDrv, uScreenId, dirtyRect.xLeft, dirtyRect.yTop,
dirtyRect.xRight - dirtyRect.xLeft, dirtyRect.yBottom - dirtyRect.yTop);
}
else
{
pThisCC->pDrv->pfnVBVAUpdateEnd(pThisCC->pDrv, uScreenId, 0, 0, 0, 0);
}
}
return VINF_SUCCESS;
}
static int vbvaFlush(PVGASTATE pThis, PVGASTATECC pThisCC, VBVACONTEXT *pCtx)
{
int rc = VINF_SUCCESS;
unsigned uScreenId;
for (uScreenId = 0; uScreenId < pCtx->cViews; uScreenId++)
{
VBVADATA *pVBVAData = &pCtx->aViews[uScreenId].vbva;
if (pVBVAData->guest.pVBVA)
{
rc = vbvaFlushProcess(pThisCC, pVBVAData, uScreenId);
if (RT_FAILURE(rc))
break;
}
}
if (RT_FAILURE(rc))
{
/* Turn off VBVA processing. */
LogRel(("VBVA: Disabling (%Rrc)\n", rc));
pThis->fGuestCaps = 0;
pThisCC->pDrv->pfnVBVAGuestCapabilityUpdate(pThisCC->pDrv, pThis->fGuestCaps);
for (uScreenId = 0; uScreenId < pCtx->cViews; uScreenId++)
{
VBVADATA *pVBVAData = &pCtx->aViews[uScreenId].vbva;
if (pVBVAData->guest.pVBVA)
{
vbvaDataCleanup(pVBVAData);
pThisCC->pDrv->pfnVBVADisable(pThisCC->pDrv, uScreenId);
}
}
}
return rc;
}
static int vbvaResize(PVGASTATECC pThisCC, VBVAVIEW *pView, const VBVAINFOSCREEN *pNewScreen, bool fResetInputMapping)
{
/* Callers ensure that pNewScreen contains valid data. */
/* Apply these changes. */
pView->screen = *pNewScreen;
uint8_t *pbVRam = pThisCC->pbVRam + pView->view.u32ViewOffset;
return pThisCC->pDrv->pfnVBVAResize(pThisCC->pDrv, &pView->view, &pView->screen, pbVRam, fResetInputMapping);
}
static int vbvaEnable(PVGASTATE pThis, PVGASTATECC pThisCC, VBVACONTEXT *pCtx, unsigned uScreenId,
VBVABUFFER RT_UNTRUSTED_VOLATILE_GUEST *pVBVA, uint32_t u32Offset, bool fRestored)
{
/*
* Copy into non-volatile memory and validate its content.
*/
VBVABUFFER VbgaSafe;
RT_COPY_VOLATILE(VbgaSafe, *pVBVA);
RT_UNTRUSTED_NONVOLATILE_COPY_FENCE();
uint32_t const cbVBVABuffer = RT_UOFFSETOF(VBVABUFFER, au8Data) + VbgaSafe.cbData;
ASSERT_GUEST_RETURN( VbgaSafe.cbData <= UINT32_MAX - RT_UOFFSETOF(VBVABUFFER, au8Data)
&& cbVBVABuffer <= pThis->vram_size
&& u32Offset <= pThis->vram_size - cbVBVABuffer,
VERR_INVALID_PARAMETER);
if (!fRestored)
{
ASSERT_GUEST_RETURN(VbgaSafe.off32Data == 0, VERR_INVALID_PARAMETER);
ASSERT_GUEST_RETURN(VbgaSafe.off32Free == 0, VERR_INVALID_PARAMETER);
ASSERT_GUEST_RETURN(VbgaSafe.indexRecordFirst == 0, VERR_INVALID_PARAMETER);
ASSERT_GUEST_RETURN(VbgaSafe.indexRecordFree == 0, VERR_INVALID_PARAMETER);
}
ASSERT_GUEST_RETURN( VbgaSafe.cbPartialWriteThreshold < VbgaSafe.cbData
&& VbgaSafe.cbPartialWriteThreshold != 0,
VERR_INVALID_PARAMETER);
RT_UNTRUSTED_VALIDATED_FENCE();
/*
* Okay, try do the job.
*/
int rc;
if (pThisCC->pDrv->pfnVBVAEnable)
{
pVBVA->hostFlags.u32HostEvents = 0;
pVBVA->hostFlags.u32SupportedOrders = 0;
rc = pThisCC->pDrv->pfnVBVAEnable(pThisCC->pDrv, uScreenId, &pVBVA->hostFlags);
if (RT_SUCCESS(rc))
{
/* pVBVA->hostFlags has been set up by pfnVBVAEnable. */
LogFlowFunc(("u32HostEvents=0x%08x u32SupportedOrders=0x%08x\n",
pVBVA->hostFlags.u32HostEvents, pVBVA->hostFlags.u32SupportedOrders));
VBVADATA *pVBVAData = &pCtx->aViews[uScreenId].vbva;
pVBVAData->guest.pVBVA = pVBVA;
pVBVAData->guest.pu8Data = &pVBVA->au8Data[0];
pVBVAData->u32VBVAOffset = u32Offset;
pVBVAData->off32Data = VbgaSafe.off32Data;
pVBVAData->indexRecordFirst = VbgaSafe.indexRecordFirst;
pVBVAData->cbPartialWriteThreshold = VbgaSafe.cbPartialWriteThreshold;
pVBVAData->cbData = VbgaSafe.cbData;
if (!fRestored)
{
/** @todo Actually this function must not touch the partialRecord structure at all,
* because initially it is a zero and when VBVA is disabled this should be set to zero.
* But I'm not sure that no code depends on zeroing partialRecord here.
* So for now (a quick fix for 4.1) just do not do this if the VM was restored,
* when partialRecord might be loaded already from the saved state.
*/
pVBVAData->partialRecord.pu8 = NULL;
pVBVAData->partialRecord.cb = 0;
}
/* VBVA is working so disable the pause. */
pCtx->fPaused = false;
}
}
else
rc = VERR_NOT_SUPPORTED;
return rc;
}
static int vbvaDisable(PVGASTATE pThis, PVGASTATECC pThisCC, VBVACONTEXT *pCtx, unsigned idScreen)
{
/* Process any pending orders and empty the VBVA ring buffer. */
vbvaFlush(pThis, pThisCC, pCtx);
AssertReturn(idScreen < RT_ELEMENTS(pCtx->aViews), VERR_OUT_OF_RANGE);
VBVADATA *pVBVAData = &pCtx->aViews[idScreen].vbva;
vbvaDataCleanup(pVBVAData);
if (idScreen == 0)
{
pThis->fGuestCaps = 0;
pThisCC->pDrv->pfnVBVAGuestCapabilityUpdate(pThisCC->pDrv, pThis->fGuestCaps);
}
pThisCC->pDrv->pfnVBVADisable(pThisCC->pDrv, idScreen);
return VINF_SUCCESS;
}
#ifdef UNUSED_FUNCTION
bool VBVAIsEnabled(PVGASTATECC pThisCC)
{
PHGSMIINSTANCE pHGSMI = pThisCC->pHGSMI;
if (pHGSMI)
{
VBVACONTEXT *pCtx = (VBVACONTEXT *)HGSMIContext(pHGSMI);
if (pCtx)
{
if (pCtx->cViews)
{
VBVAVIEW * pView = &pCtx->aViews[0];
if (pView->vbva.guest.pVBVA)
return true;
}
}
}
return false;
}
#endif
#ifdef DEBUG_sunlover
void dumpMouseShapeInfo(const VBVAMOUSESHAPEINFO *pMouseShapeInfo)
{
LogFlow(("fSet = %d, fVisible %d, fAlpha %d, @%d,%d %dx%d (%p, %d/%d)\n",
pMouseShapeInfo->fSet,
pMouseShapeInfo->fVisible,
pMouseShapeInfo->fAlpha,
pMouseShapeInfo->u32HotX,
pMouseShapeInfo->u32HotY,
pMouseShapeInfo->u32Width,
pMouseShapeInfo->u32Height,
pMouseShapeInfo->pu8Shape,
pMouseShapeInfo->cbShape,
pMouseShapeInfo->cbAllocated
));
}
#endif
static int vbvaUpdateMousePointerShape(PVGASTATECC pThisCC, VBVAMOUSESHAPEINFO *pMouseShapeInfo, bool fShape)
{
LogFlowFunc(("pThisCC %p, pMouseShapeInfo %p, fShape %d\n", pThisCC, pMouseShapeInfo, fShape));
#ifdef DEBUG_sunlover
dumpMouseShapeInfo(pMouseShapeInfo);
#endif
if (pThisCC->pDrv->pfnVBVAMousePointerShape == NULL)
return VERR_NOT_SUPPORTED;
int rc;
if (fShape && pMouseShapeInfo->pu8Shape != NULL)
rc = pThisCC->pDrv->pfnVBVAMousePointerShape(pThisCC->pDrv,
pMouseShapeInfo->fVisible,
pMouseShapeInfo->fAlpha,
pMouseShapeInfo->u32HotX,
pMouseShapeInfo->u32HotY,
pMouseShapeInfo->u32Width,
pMouseShapeInfo->u32Height,
pMouseShapeInfo->pu8Shape);
else
rc = pThisCC->pDrv->pfnVBVAMousePointerShape(pThisCC->pDrv,
pMouseShapeInfo->fVisible,
false,
0, 0,
0, 0,
NULL);
return rc;
}
static int vbvaMousePointerShape(PVGASTATECC pThisCC, VBVACONTEXT *pCtx,
const VBVAMOUSEPOINTERSHAPE RT_UNTRUSTED_VOLATILE_GUEST *pShape, HGSMISIZE cbShape)
{
/*
* Make non-volatile copy of the shape header and validate it.
*/
VBVAMOUSEPOINTERSHAPE SafeShape;
RT_COPY_VOLATILE(SafeShape, *pShape);
RT_UNTRUSTED_NONVOLATILE_COPY_FENCE();
LogFlowFunc(("VBVA_MOUSE_POINTER_SHAPE: i32Result 0x%x, fu32Flags 0x%x, hot spot %d,%d, size %dx%d\n",
SafeShape.i32Result, SafeShape.fu32Flags, SafeShape.u32HotX, SafeShape.u32HotY, SafeShape.u32Width, SafeShape.u32Height));
const bool fVisible = RT_BOOL(SafeShape.fu32Flags & VBOX_MOUSE_POINTER_VISIBLE);
const bool fAlpha = RT_BOOL(SafeShape.fu32Flags & VBOX_MOUSE_POINTER_ALPHA);
const bool fShape = RT_BOOL(SafeShape.fu32Flags & VBOX_MOUSE_POINTER_SHAPE);
HGSMISIZE cbPointerData = 0;
if (fShape)
{
static const uint32_t s_cxMax = 2048; //used to be: 8192;
static const uint32_t s_cyMax = 2048; //used to be: 8192;
ASSERT_GUEST_MSG_RETURN( SafeShape.u32Width <= s_cxMax
|| SafeShape.u32Height <= s_cyMax,
("Too large: %ux%u, max %ux%x\n", SafeShape.u32Width, SafeShape.u32Height, s_cxMax, s_cyMax),
VERR_INVALID_PARAMETER);
cbPointerData = ((((SafeShape.u32Width + 7) / 8) * SafeShape.u32Height + 3) & ~3)
+ SafeShape.u32Width * 4 * SafeShape.u32Height;
ASSERT_GUEST_MSG_RETURN(cbPointerData <= cbShape - RT_UOFFSETOF(VBVAMOUSEPOINTERSHAPE, au8Data),
("Insufficent pointer data: Expected %#x, got %#x\n",
cbPointerData, cbShape - RT_UOFFSETOF(VBVAMOUSEPOINTERSHAPE, au8Data) ),
VERR_INVALID_PARAMETER);
}
RT_UNTRUSTED_VALIDATED_FENCE();
/*
* Do the job.
*/
/* Save mouse info it will be used to restore mouse pointer after restoring saved state. */
pCtx->mouseShapeInfo.fSet = true;
pCtx->mouseShapeInfo.fVisible = fVisible;
if (fShape)
{
/* Data related to shape. */
pCtx->mouseShapeInfo.u32HotX = SafeShape.u32HotX;
pCtx->mouseShapeInfo.u32HotY = SafeShape.u32HotY;
pCtx->mouseShapeInfo.u32Width = SafeShape.u32Width;
pCtx->mouseShapeInfo.u32Height = SafeShape.u32Height;
pCtx->mouseShapeInfo.fAlpha = fAlpha;
/* Reallocate memory buffer if necessary. */
if (cbPointerData > pCtx->mouseShapeInfo.cbAllocated)
{
RTMemFreeZ(pCtx->mouseShapeInfo.pu8Shape, pCtx->mouseShapeInfo.cbAllocated);
pCtx->mouseShapeInfo.pu8Shape = NULL;
pCtx->mouseShapeInfo.cbShape = 0;
uint8_t *pu8Shape = (uint8_t *)RTMemAlloc(cbPointerData);
if (pu8Shape)
{
pCtx->mouseShapeInfo.pu8Shape = pu8Shape;
pCtx->mouseShapeInfo.cbAllocated = cbPointerData;
}
}
/* Copy shape bitmaps. */
if (pCtx->mouseShapeInfo.pu8Shape)
{
RT_BCOPY_VOLATILE(pCtx->mouseShapeInfo.pu8Shape, &pShape->au8Data[0], cbPointerData);
pCtx->mouseShapeInfo.cbShape = cbPointerData;
}
}
return vbvaUpdateMousePointerShape(pThisCC, &pCtx->mouseShapeInfo, fShape);
}
static uint32_t vbvaViewFromBufferPtr(PHGSMIINSTANCE pIns, const VBVACONTEXT *pCtx,
const void RT_UNTRUSTED_VOLATILE_GUEST *pvBuffer)
{
/* Check which view contains the buffer. */
HGSMIOFFSET offBuffer = HGSMIPointerToOffsetHost(pIns, pvBuffer);
if (offBuffer != HGSMIOFFSET_VOID)
{
unsigned uScreenId;
for (uScreenId = 0; uScreenId < pCtx->cViews; uScreenId++)
{
const VBVAINFOVIEW *pView = &pCtx->aViews[uScreenId].view;
if ((uint32_t)(offBuffer - pView->u32ViewOffset) < pView->u32ViewSize)
return pView->u32ViewIndex;
}
}
return UINT32_MAX;
}
#ifdef DEBUG_sunlover
static void dumpctx(const VBVACONTEXT *pCtx)
{
Log(("VBVACONTEXT dump: cViews %d\n", pCtx->cViews));
uint32_t iView;
for (iView = 0; iView < pCtx->cViews; iView++)
{
const VBVAVIEW *pView = &pCtx->aViews[iView];
Log((" view %d o 0x%x s 0x%x m 0x%x\n",
pView->view.u32ViewIndex,
pView->view.u32ViewOffset,
pView->view.u32ViewSize,
pView->view.u32MaxScreenSize));
Log((" screen %d @%d,%d s 0x%x l 0x%x %dx%d bpp %d f 0x%x\n",
pView->screen.u32ViewIndex,
pView->screen.i32OriginX,
pView->screen.i32OriginY,
pView->screen.u32StartOffset,
pView->screen.u32LineSize,
pView->screen.u32Width,
pView->screen.u32Height,
pView->screen.u16BitsPerPixel,
pView->screen.u16Flags));
Log((" VBVA o 0x%x p %p\n",
pView->vbva.u32VBVAOffset,
pView->vbva.guest.pVBVA));
Log((" PR cb 0x%x p %p\n",
pView->vbva.partialRecord.cb,
pView->vbva.partialRecord.pu8));
}
dumpMouseShapeInfo(&pCtx->mouseShapeInfo);
}
#endif /* DEBUG_sunlover */
#define VBOXVBVASAVEDSTATE_VHWAAVAILABLE_MAGIC 0x12345678
#define VBOXVBVASAVEDSTATE_VHWAUNAVAILABLE_MAGIC 0x9abcdef0
#ifdef VBOX_WITH_VIDEOHWACCEL
static void vbvaVHWAHHCommandReinit(VBOXVHWACMD* pHdr, VBOXVHWACMD_TYPE enmCmd, int32_t iDisplay)
{
memset(pHdr, 0, VBOXVHWACMD_HEADSIZE());
pHdr->cRefs = 1;
pHdr->iDisplay = iDisplay;
pHdr->rc = VERR_NOT_IMPLEMENTED;
pHdr->enmCmd = enmCmd;
pHdr->Flags = VBOXVHWACMD_FLAG_HH_CMD;
}
static VBOXVHWACMD *vbvaVHWAHHCommandCreate(VBOXVHWACMD_TYPE enmCmd, int32_t iDisplay, VBOXVHWACMD_LENGTH cbCmd)
{
VBOXVHWACMD *pHdr = (VBOXVHWACMD *)RTMemAllocZ(cbCmd + VBOXVHWACMD_HEADSIZE());
Assert(pHdr);
if (pHdr)
vbvaVHWAHHCommandReinit(pHdr, enmCmd, iDisplay);
return pHdr;
}
DECLINLINE(void) vbvaVHWAHHCommandRelease(VBOXVHWACMD *pCmd)
{
uint32_t cRefs = ASMAtomicDecU32(&pCmd->cRefs);
if (!cRefs)
RTMemFree(pCmd);
}
DECLINLINE(void) vbvaVHWAHHCommandRetain(VBOXVHWACMD *pCmd)
{
ASMAtomicIncU32(&pCmd->cRefs);
}
static void vbvaVHWACommandComplete(PVGASTATECC pThisCC, VBOXVHWACMD RT_UNTRUSTED_VOLATILE_GUEST *pCommand, bool fAsyncCommand)
{
if (fAsyncCommand)
{
Assert(pCommand->Flags & VBOXVHWACMD_FLAG_HG_ASYNCH);
vbvaR3VHWACommandCompleteAsync(&pThisCC->IVBVACallbacks, pCommand);
}
else
{
Log(("VGA Command <<< Sync rc %d %#p, %d\n", pCommand->rc, pCommand, pCommand->enmCmd));
pCommand->Flags &= ~VBOXVHWACMD_FLAG_HG_ASYNCH;
}
}
static void vbvaVHWACommandCompleteAllPending(PPDMDEVINS pDevIns, PVGASTATE pThis, PVGASTATECC pThisCC, int rc)
{
if (!ASMAtomicUoReadU32(&pThis->pendingVhwaCommands.cPending))
return;
int const rcLock = PDMDevHlpCritSectEnter(pDevIns, &pThis->CritSect, VERR_SEM_BUSY);
PDM_CRITSECT_RELEASE_ASSERT_RC_DEV(pDevIns, &pThis->CritSect, rcLock);
VBOX_VHWA_PENDINGCMD *pIter, *pNext;
RTListForEachSafe(&pThis->pendingVhwaCommands.PendingList, pIter, pNext, VBOX_VHWA_PENDINGCMD, Node)
{
pIter->pCommand->rc = rc;
vbvaVHWACommandComplete(pThisCC, pIter->pCommand, true);
/* the command is submitted/processed, remove from the pend list */
RTListNodeRemove(&pIter->Node);
ASMAtomicDecU32(&pThis->pendingVhwaCommands.cPending);
RTMemFree(pIter);
}
PDMDevHlpCritSectLeave(pDevIns, &pThis->CritSect);
}
static void vbvaVHWACommandClearAllPending(PPDMDEVINS pDevIns, PVGASTATE pThis)
{
if (!ASMAtomicUoReadU32(&pThis->pendingVhwaCommands.cPending))
return;
int const rcLock = PDMDevHlpCritSectEnter(pDevIns, &pThis->CritSect, VERR_SEM_BUSY);
PDM_CRITSECT_RELEASE_ASSERT_RC_DEV(pDevIns, &pThis->CritSect, rcLock);
VBOX_VHWA_PENDINGCMD *pIter, *pNext;
RTListForEachSafe(&pThis->pendingVhwaCommands.PendingList, pIter, pNext, VBOX_VHWA_PENDINGCMD, Node)
{
RTListNodeRemove(&pIter->Node);
ASMAtomicDecU32(&pThis->pendingVhwaCommands.cPending);
RTMemFree(pIter);
}
PDMDevHlpCritSectLeave(pDevIns, &pThis->CritSect);
}
static void vbvaVHWACommandPend(PPDMDEVINS pDevIns, PVGASTATE pThis, PVGASTATECC pThisCC,
VBOXVHWACMD RT_UNTRUSTED_VOLATILE_GUEST *pCommand)
{
int rc = VERR_BUFFER_OVERFLOW;
if (ASMAtomicUoReadU32(&pThis->pendingVhwaCommands.cPending) < VBOX_VHWA_MAX_PENDING_COMMANDS)
{
VBOX_VHWA_PENDINGCMD *pPend = (VBOX_VHWA_PENDINGCMD *)RTMemAlloc(sizeof(*pPend));
if (pPend)
{
pCommand->Flags |= VBOXVHWACMD_FLAG_HG_ASYNCH;
pPend->pCommand = pCommand;
int const rcLock = PDMDevHlpCritSectEnter(pDevIns, &pThis->CritSect, VERR_SEM_BUSY);
PDM_CRITSECT_RELEASE_ASSERT_RC_DEV(pDevIns, &pThis->CritSect, rcLock);
if (ASMAtomicUoReadU32(&pThis->pendingVhwaCommands.cPending) < VBOX_VHWA_MAX_PENDING_COMMANDS)
{
RTListAppend(&pThis->pendingVhwaCommands.PendingList, &pPend->Node);
ASMAtomicIncU32(&pThis->pendingVhwaCommands.cPending);
PDMDevHlpCritSectLeave(pDevIns, &pThis->CritSect);
return;
}
PDMDevHlpCritSectLeave(pDevIns, &pThis->CritSect);
LogRel(("VBVA: Pending command count has reached its threshold.. completing them all.."));
RTMemFree(pPend);
}
else
rc = VERR_NO_MEMORY;
}
else
LogRel(("VBVA: Pending command count has reached its threshold, completing them all.."));
vbvaVHWACommandCompleteAllPending(pDevIns, pThis, pThisCC, rc);
pCommand->rc = rc;
vbvaVHWACommandComplete(pThisCC, pCommand, false);
}
static bool vbvaVHWACommandCanPend(VBOXVHWACMD_TYPE enmCmd)
{
switch (enmCmd)
{
case VBOXVHWACMD_TYPE_HH_CONSTRUCT:
case VBOXVHWACMD_TYPE_HH_SAVESTATE_SAVEBEGIN:
case VBOXVHWACMD_TYPE_HH_SAVESTATE_SAVEEND:
case VBOXVHWACMD_TYPE_HH_SAVESTATE_SAVEPERFORM:
case VBOXVHWACMD_TYPE_HH_SAVESTATE_LOADPERFORM:
return false;
default:
return true;
}
}
static int vbvaVHWACommandSavePending(PCPDMDEVHLPR3 pHlp, PVGASTATE pThis, PVGASTATECC pThisCC, PSSMHANDLE pSSM)
{
int rc = pHlp->pfnSSMPutU32(pSSM, pThis->pendingVhwaCommands.cPending);
AssertRCReturn(rc, rc);
VBOX_VHWA_PENDINGCMD *pIter;
RTListForEach(&pThis->pendingVhwaCommands.PendingList, pIter, VBOX_VHWA_PENDINGCMD, Node)
{
AssertContinue((uintptr_t)pIter->pCommand - (uintptr_t)pThisCC->pbVRam < pThis->vram_size);
rc = pHlp->pfnSSMPutU32(pSSM, (uint32_t)(((uint8_t *)pIter->pCommand) - ((uint8_t *)pThisCC->pbVRam)));
AssertRCReturn(rc, rc);
}
return rc;
}
static int vbvaVHWACommandLoadPending(PPDMDEVINS pDevIns, PCPDMDEVHLPR3 pHlp, PVGASTATE pThis, PVGASTATECC pThisCC,
PSSMHANDLE pSSM, uint32_t u32Version)
{
if (u32Version < VGA_SAVEDSTATE_VERSION_WITH_PENDVHWA)
return VINF_SUCCESS;
uint32_t u32;
int rc = pHlp->pfnSSMGetU32(pSSM, &u32);
AssertRCReturn(rc, rc);
for (uint32_t i = 0; i < u32; ++i)
{
uint32_t off32;
rc = pHlp->pfnSSMGetU32(pSSM, &off32);
AssertRCReturn(rc, rc);
VBOXVHWACMD RT_UNTRUSTED_VOLATILE_GUEST *pCommand
= (VBOXVHWACMD RT_UNTRUSTED_VOLATILE_GUEST *)((uint8_t volatile *)pThisCC->pbVRam + off32);
vbvaVHWACommandPend(pDevIns, pThis, pThisCC, pCommand);
}
return rc;
}
/** Worker for vbvaVHWACommandSubmit. */
static bool vbvaVHWACommandSubmitInner(PVGASTATE pThis, PVGASTATECC pThisCC,
VBOXVHWACMD RT_UNTRUSTED_VOLATILE_GUEST *pCommand, bool *pfPending)
{
*pfPending = false;
/*
* Read the command type and validate it and our driver state.
*/
VBOXVHWACMD_TYPE enmCmd = pCommand->enmCmd;
RT_UNTRUSTED_NONVOLATILE_COPY_FENCE();
bool fGuestCmd = (uintptr_t)pCommand - (uintptr_t)pThisCC->pbVRam < pThis->vram_size;
ASSERT_GUEST_LOGREL_MSG_STMT_RETURN( !fGuestCmd
|| ( enmCmd != VBOXVHWACMD_TYPE_HH_CONSTRUCT
&& enmCmd != VBOXVHWACMD_TYPE_HH_RESET
&& enmCmd != VBOXVHWACMD_TYPE_HH_DISABLE
&& enmCmd != VBOXVHWACMD_TYPE_HH_ENABLE
&& enmCmd != VBOXVHWACMD_TYPE_HH_SAVESTATE_SAVEBEGIN
&& enmCmd != VBOXVHWACMD_TYPE_HH_SAVESTATE_SAVEEND
&& enmCmd != VBOXVHWACMD_TYPE_HH_SAVESTATE_SAVEPERFORM
&& enmCmd != VBOXVHWACMD_TYPE_HH_SAVESTATE_LOADPERFORM),
("enmCmd=%d\n", enmCmd),
pCommand->rc = VERR_INVALID_PARAMETER,
true);
ASSERT_GUEST_STMT_RETURN(pThisCC->pDrv->pfnVHWACommandProcess, pCommand->rc = VERR_INVALID_STATE, true);
RT_UNTRUSTED_VALIDATED_FENCE();
/*
* Call the driver to process the command.
*/
Log(("VGA Command >>> %#p, %d\n", pCommand, enmCmd));
int rc = pThisCC->pDrv->pfnVHWACommandProcess(pThisCC->pDrv, enmCmd, fGuestCmd, pCommand);
if (rc == VINF_CALLBACK_RETURN)
{
Log(("VGA Command --- Going Async %#p, %d\n", pCommand, enmCmd));
*pfPending = true;
return true; /* Command will be completed asynchronously by the driver and need not be put in the pending list. */
}
if (rc == VERR_INVALID_STATE)
{
Log(("VGA Command --- Trying Pend %#p, %d\n", pCommand, enmCmd));
if (vbvaVHWACommandCanPend(enmCmd))
{
Log(("VGA Command --- Can Pend %#p, %d\n", pCommand, enmCmd));
*pfPending = true;
return false; /* put on pending list so it can be retried?? */
}
Log(("VGA Command --- Can NOT Pend %#p, %d\n", pCommand, enmCmd));
}
else
Log(("VGA Command --- Going Complete Sync rc %d %#p, %d\n", rc, pCommand, enmCmd));
/* the command was completed, take a special care about it (see caller) */
pCommand->rc = rc;
return true;
}
static bool vbvaVHWACommandSubmit(PVGASTATE pThis, PVGASTATECC pThisCC,
VBOXVHWACMD RT_UNTRUSTED_VOLATILE_GUEST *pCommand, bool fAsyncCommand)
{
bool fPending = false;
bool fRet = vbvaVHWACommandSubmitInner(pThis, pThisCC, pCommand, &fPending);
if (!fPending)
vbvaVHWACommandComplete(pThisCC, pCommand, fAsyncCommand);
return fRet;
}
/**
* @returns false if commands are pending, otherwise true.
*/
static bool vbvaVHWACheckPendingCommands(PPDMDEVINS pDevIns, PVGASTATE pThis, PVGASTATECC pThisCC)
{
if (!ASMAtomicUoReadU32(&pThis->pendingVhwaCommands.cPending))
return true;
int const rcLock = PDMDevHlpCritSectEnter(pDevIns, &pThis->CritSect, VERR_SEM_BUSY);
PDM_CRITSECT_RELEASE_ASSERT_RC_DEV(pDevIns, &pThis->CritSect, rcLock);
VBOX_VHWA_PENDINGCMD *pIter, *pNext;
RTListForEachSafe(&pThis->pendingVhwaCommands.PendingList, pIter, pNext, VBOX_VHWA_PENDINGCMD, Node)
{
if (!vbvaVHWACommandSubmit(pThis, pThisCC, pIter->pCommand, true))
{
PDMDevHlpCritSectLeave(pDevIns, &pThis->CritSect);
return false; /* the command should be still pending */
}
/* the command is submitted/processed, remove from the pend list */
RTListNodeRemove(&pIter->Node);
ASMAtomicDecU32(&pThis->pendingVhwaCommands.cPending);
RTMemFree(pIter);
}
PDMDevHlpCritSectLeave(pDevIns, &pThis->CritSect);
return true;
}
void vbvaTimerCb(PPDMDEVINS pDevIns, PVGASTATE pThis, PVGASTATECC pThisCC)
{
vbvaVHWACheckPendingCommands(pDevIns, pThis, pThisCC);
}
static void vbvaVHWAHandleCommand(PPDMDEVINS pDevIns, PVGASTATE pThis, PVGASTATECC pThisCC,
VBOXVHWACMD RT_UNTRUSTED_VOLATILE_GUEST *pCmd)
{
if (vbvaVHWACheckPendingCommands(pDevIns, pThis, pThisCC))
{
if (vbvaVHWACommandSubmit(pThis, pThisCC, pCmd, false))
return;
}
vbvaVHWACommandPend(pDevIns, pThis, pThisCC, pCmd);
}
static DECLCALLBACK(void) vbvaVHWAHHCommandSetEventCallback(void * pContext)
{
RTSemEventSignal((RTSEMEVENT)pContext);
}
static int vbvaVHWAHHCommandPost(PPDMDEVINS pDevIns, PVGASTATE pThis, PVGASTATECC pThisCC, VBOXVHWACMD *pCmd)
{
RTSEMEVENT hComplEvent;
int rc = RTSemEventCreate(&hComplEvent);
AssertRC(rc);
if (RT_SUCCESS(rc))
{
/* ensure the cmd is not deleted until we process it */
vbvaVHWAHHCommandRetain(pCmd);
VBOXVHWA_HH_CALLBACK_SET(pCmd, vbvaVHWAHHCommandSetEventCallback, (void *)hComplEvent);
vbvaVHWAHandleCommand(pDevIns, pThis, pThisCC, pCmd);
if ((ASMAtomicReadU32((volatile uint32_t *)&pCmd->Flags) & VBOXVHWACMD_FLAG_HG_ASYNCH) != 0)
rc = RTSemEventWaitNoResume(hComplEvent, RT_INDEFINITE_WAIT); /** @todo Why the NoResume and event leaking here? */
/* else: the command is completed */
AssertRC(rc);
if (RT_SUCCESS(rc))
RTSemEventDestroy(hComplEvent);
vbvaVHWAHHCommandRelease(pCmd);
}
return rc;
}
int vbvaVHWAConstruct(PPDMDEVINS pDevIns, PVGASTATE pThis, PVGASTATECC pThisCC)
{
pThis->pendingVhwaCommands.cPending = 0;
RTListInit(&pThis->pendingVhwaCommands.PendingList);
VBOXVHWACMD *pCmd = vbvaVHWAHHCommandCreate(VBOXVHWACMD_TYPE_HH_CONSTRUCT, 0, sizeof(VBOXVHWACMD_HH_CONSTRUCT));
Assert(pCmd);
if(pCmd)
{
uint32_t iDisplay = 0;
int rc = VINF_SUCCESS;
VBOXVHWACMD_HH_CONSTRUCT *pBody = VBOXVHWACMD_BODY_HOST_HEAP(pCmd, VBOXVHWACMD_HH_CONSTRUCT);
for (;;)
{
memset(pBody, 0, sizeof(VBOXVHWACMD_HH_CONSTRUCT));
PVM pVM = PDMDevHlpGetVM(pDevIns);
pBody->pVM = pVM;
pBody->pvVRAM = pThisCC->pbVRam;
pBody->cbVRAM = pThis->vram_size;
rc = vbvaVHWAHHCommandPost(pDevIns, pThis, pThisCC, pCmd);
ASMCompilerBarrier();
AssertRC(rc);
if (RT_SUCCESS(rc))
{
rc = pCmd->rc;
AssertMsg(RT_SUCCESS(rc) || rc == VERR_NOT_IMPLEMENTED, ("%Rrc\n", rc));
if(rc == VERR_NOT_IMPLEMENTED)
{
/** @todo set some flag in pThis indicating VHWA is not supported */
/* VERR_NOT_IMPLEMENTED is not a failure, we just do not support it */
rc = VINF_SUCCESS;
}
if (!RT_SUCCESS(rc))
break;
}
else
break;
++iDisplay;
if (iDisplay >= pThis->cMonitors)
break;
vbvaVHWAHHCommandReinit(pCmd, VBOXVHWACMD_TYPE_HH_CONSTRUCT, (int32_t)iDisplay);
}
vbvaVHWAHHCommandRelease(pCmd);
return rc;
}
return VERR_OUT_OF_RESOURCES;
}
static int vbvaVHWAReset(PPDMDEVINS pDevIns, PVGASTATE pThis, PVGASTATECC pThisCC)
{
vbvaVHWACommandClearAllPending(pDevIns, pThis);
/* ensure we have all pending cmds processed and h->g cmds disabled */
VBOXVHWACMD *pCmd = vbvaVHWAHHCommandCreate(VBOXVHWACMD_TYPE_HH_RESET, 0, 0);
Assert(pCmd);
if (pCmd)
{
int rc = VINF_SUCCESS;
uint32_t iDisplay = 0;
do
{
rc = vbvaVHWAHHCommandPost(pDevIns, pThis, pThisCC, pCmd);
AssertRC(rc);
if(RT_SUCCESS(rc))
{
rc = pCmd->rc;
AssertMsg(RT_SUCCESS(rc) || rc == VERR_NOT_IMPLEMENTED, ("%Rrc\n", rc));
if (rc == VERR_NOT_IMPLEMENTED)
rc = VINF_SUCCESS;
}
if (!RT_SUCCESS(rc))
break;
++iDisplay;
if (iDisplay >= pThis->cMonitors)
break;
vbvaVHWAHHCommandReinit(pCmd, VBOXVHWACMD_TYPE_HH_RESET, (int32_t)iDisplay);
} while (true);
vbvaVHWAHHCommandRelease(pCmd);
return rc;
}
return VERR_OUT_OF_RESOURCES;
}
typedef DECLCALLBACKTYPE(bool, FNVBOXVHWAHHCMDPRECB,(PPDMDEVINS pDevIns, PVGASTATE pThis, PVGASTATECC pThisCC, VBOXVHWACMD *pCmd,
uint32_t iDisplay, void *pvContext));
typedef FNVBOXVHWAHHCMDPRECB *PFNVBOXVHWAHHCMDPRECB;
typedef DECLCALLBACKTYPE(bool, FNVBOXVHWAHHCMDPOSTCB,(PPDMDEVINS pDevIns, PVGASTATE pThis, PVGASTATECC pThisCC, VBOXVHWACMD *pCmd,
uint32_t iDisplay, int rc, void *pvContext));
typedef FNVBOXVHWAHHCMDPOSTCB *PFNVBOXVHWAHHCMDPOSTCB;
static int vbvaVHWAHHPost(PPDMDEVINS pDevIns, PVGASTATE pThis, PVGASTATECC pThisCC, VBOXVHWACMD *pCmd,
PFNVBOXVHWAHHCMDPRECB pfnPre, PFNVBOXVHWAHHCMDPOSTCB pfnPost, void *pvContext)
{
const VBOXVHWACMD_TYPE enmType = pCmd->enmCmd;
int rc = VINF_SUCCESS;
uint32_t iDisplay = 0;
do
{
if (!pfnPre || pfnPre(pDevIns, pThis, pThisCC, pCmd, iDisplay, pvContext))
{
rc = vbvaVHWAHHCommandPost(pDevIns, pThis, pThisCC, pCmd);
AssertRC(rc);
if (pfnPost)
{
if (!pfnPost(pDevIns, pThis, pThisCC, pCmd, iDisplay, rc, pvContext))
{
rc = VINF_SUCCESS;
break;
}
rc = VINF_SUCCESS;
}
else if(RT_SUCCESS(rc))
{
rc = pCmd->rc;
AssertMsg(RT_SUCCESS(rc) || rc == VERR_NOT_IMPLEMENTED, ("%Rrc\n", rc));
if(rc == VERR_NOT_IMPLEMENTED)
{
rc = VINF_SUCCESS;
}
}
if (!RT_SUCCESS(rc))
break;
}
++iDisplay;
if (iDisplay >= pThis->cMonitors)
break;
vbvaVHWAHHCommandReinit(pCmd, enmType, (int32_t)iDisplay);
} while (true);
return rc;
}
/** @todo call this also on reset? */
static int vbvaVHWAEnable(PPDMDEVINS pDevIns, PVGASTATE pThis, PVGASTATECC pThisCC, bool bEnable)
{
const VBOXVHWACMD_TYPE enmType = bEnable ? VBOXVHWACMD_TYPE_HH_ENABLE : VBOXVHWACMD_TYPE_HH_DISABLE;
VBOXVHWACMD *pCmd = vbvaVHWAHHCommandCreate(enmType, 0, 0);
Assert(pCmd);
if(pCmd)
{
int rc = vbvaVHWAHHPost(pDevIns, pThis, pThisCC, pCmd, NULL, NULL, NULL);
vbvaVHWAHHCommandRelease(pCmd);
return rc;
}
return VERR_OUT_OF_RESOURCES;
}
int vboxVBVASaveStatePrep(PPDMDEVINS pDevIns)
{
/* ensure we have no pending commands */
return vbvaVHWAEnable(pDevIns, PDMDEVINS_2_DATA(pDevIns, PVGASTATE), PDMDEVINS_2_DATA_CC(pDevIns, PVGASTATECC), false);
}
int vboxVBVASaveStateDone(PPDMDEVINS pDevIns)
{
/* ensure we have no pending commands */
return vbvaVHWAEnable(pDevIns, PDMDEVINS_2_DATA(pDevIns, PVGASTATE), PDMDEVINS_2_DATA_CC(pDevIns, PVGASTATECC), true);
}
/**
* @interface_method_impl{PDMIDISPLAYVBVACALLBACKS,pfnVHWACommandCompleteAsync}
*/
DECLCALLBACK(int) vbvaR3VHWACommandCompleteAsync(PPDMIDISPLAYVBVACALLBACKS pInterface,
VBOXVHWACMD RT_UNTRUSTED_VOLATILE_GUEST *pCmd)
{
PVGASTATECC pThisCC = RT_FROM_MEMBER(pInterface, VGASTATECC, IVBVACallbacks);
PPDMDEVINS pDevIns = pThisCC->pDevIns;
PVGASTATE pThis = PDMDEVINS_2_DATA(pDevIns, PVGASTATE);
int rc;
Log(("VGA Command <<< Async rc %d %#p, %d\n", pCmd->rc, pCmd, pCmd->enmCmd));
if ((uintptr_t)pCmd - (uintptr_t)pThisCC->pbVRam < pThis->vram_size)
{
PHGSMIINSTANCE pIns = pThisCC->pHGSMI;
Assert(!(pCmd->Flags & VBOXVHWACMD_FLAG_HH_CMD));
Assert(pCmd->Flags & VBOXVHWACMD_FLAG_HG_ASYNCH);
#ifdef VBOX_WITH_WDDM
if (pThis->fGuestCaps & VBVACAPS_COMPLETEGCMD_BY_IOREAD)
{
rc = HGSMICompleteGuestCommand(pIns, pCmd, !!(pCmd->Flags & VBOXVHWACMD_FLAG_GH_ASYNCH_IRQ));
AssertRC(rc);
}
else
#endif
{
VBVAHOSTCMD RT_UNTRUSTED_VOLATILE_GUEST *pHostCmd = NULL; /* Shut up MSC. */
if (pCmd->Flags & VBOXVHWACMD_FLAG_GH_ASYNCH_EVENT)
{
rc = HGSMIHostCommandAlloc(pIns,
(void RT_UNTRUSTED_VOLATILE_GUEST **)&pHostCmd,
VBVAHOSTCMD_SIZE(sizeof(VBVAHOSTCMDEVENT)),
HGSMI_CH_VBVA,
VBVAHG_EVENT);
AssertRC(rc);
if (RT_SUCCESS(rc))
{
memset((void *)pHostCmd, 0 , VBVAHOSTCMD_SIZE(sizeof(VBVAHOSTCMDEVENT)));
pHostCmd->iDstID = pCmd->iDisplay;
pHostCmd->customOpCode = 0;
VBVAHOSTCMDEVENT RT_UNTRUSTED_VOLATILE_GUEST *pBody = VBVAHOSTCMD_BODY(pHostCmd, VBVAHOSTCMDEVENT);
pBody->pEvent = pCmd->GuestVBVAReserved1;
}
}
else
{
HGSMIOFFSET offCmd = HGSMIPointerToOffsetHost(pIns, pCmd);
Assert(offCmd != HGSMIOFFSET_VOID);
if (offCmd != HGSMIOFFSET_VOID)
{
rc = HGSMIHostCommandAlloc(pIns,
(void RT_UNTRUSTED_VOLATILE_GUEST **)&pHostCmd,
VBVAHOSTCMD_SIZE(sizeof(VBVAHOSTCMDVHWACMDCOMPLETE)),
HGSMI_CH_VBVA,
VBVAHG_DISPLAY_CUSTOM);
AssertRC(rc);
if (RT_SUCCESS(rc))
{
memset((void *)pHostCmd, 0 , VBVAHOSTCMD_SIZE(sizeof(VBVAHOSTCMDVHWACMDCOMPLETE)));
pHostCmd->iDstID = pCmd->iDisplay;
pHostCmd->customOpCode = VBVAHG_DCUSTOM_VHWA_CMDCOMPLETE;
VBVAHOSTCMDVHWACMDCOMPLETE RT_UNTRUSTED_VOLATILE_GUEST *pBody
= VBVAHOSTCMD_BODY(pHostCmd, VBVAHOSTCMDVHWACMDCOMPLETE);
pBody->offCmd = offCmd;
}
}
else
rc = VERR_INVALID_PARAMETER;
}
if (RT_SUCCESS(rc))
{
rc = HGSMIHostCommandSubmitAndFreeAsynch(pIns, pHostCmd, RT_BOOL(pCmd->Flags & VBOXVHWACMD_FLAG_GH_ASYNCH_IRQ));
AssertRC(rc);
if (RT_SUCCESS(rc))
return rc;
HGSMIHostCommandFree (pIns, pHostCmd);
}
}
}
else
{
Assert(pCmd->Flags & VBOXVHWACMD_FLAG_HH_CMD);
PFNVBOXVHWA_HH_CALLBACK pfn = VBOXVHWA_HH_CALLBACK_GET(pCmd);
if (pfn)
pfn(VBOXVHWA_HH_CALLBACK_GET_ARG(pCmd));
rc = VINF_SUCCESS;
}
return rc;
}
typedef struct VBOXVBVASAVEDSTATECBDATA
{
PSSMHANDLE pSSM;
int rc;
bool ab2DOn[VBOX_VIDEO_MAX_SCREENS];
} VBOXVBVASAVEDSTATECBDATA, *PVBOXVBVASAVEDSTATECBDATA;
/**
* @callback_method_impl{FNVBOXVHWAHHCMDPOSTCB}
*/
static DECLCALLBACK(bool) vboxVBVASaveStateBeginPostCb(PPDMDEVINS pDevIns, PVGASTATE pThis, PVGASTATECC pThisCC,
VBOXVHWACMD *pCmd, uint32_t iDisplay, int rc, void *pvContext)
{
RT_NOREF(pDevIns, pThis, pThisCC, pCmd);
PVBOXVBVASAVEDSTATECBDATA pData = (PVBOXVBVASAVEDSTATECBDATA)pvContext;
if (RT_FAILURE(pData->rc))
return false;
if (RT_FAILURE(rc))
{
pData->rc = rc;
return false;
}
Assert(iDisplay < RT_ELEMENTS(pData->ab2DOn));
if (iDisplay >= RT_ELEMENTS(pData->ab2DOn))
{
pData->rc = VERR_INVALID_PARAMETER;
return false;
}
Assert(RT_SUCCESS(pCmd->rc) || pCmd->rc == VERR_NOT_IMPLEMENTED);
if (RT_SUCCESS(pCmd->rc))
{
pData->ab2DOn[iDisplay] = true;
}
else if (pCmd->rc != VERR_NOT_IMPLEMENTED)
{
pData->rc = pCmd->rc;
return false;
}
return true;
}
/**
* @callback_method_impl{FNVBOXVHWAHHCMDPRECB}
*/
static DECLCALLBACK(bool) vboxVBVASaveStatePerformPreCb(PPDMDEVINS pDevIns, PVGASTATE pThis, PVGASTATECC pThisCC,
VBOXVHWACMD *pCmd, uint32_t iDisplay, void *pvContext)
{
RT_NOREF(pThis, pThisCC, pCmd);
PVBOXVBVASAVEDSTATECBDATA pData = (PVBOXVBVASAVEDSTATECBDATA)pvContext;
if (RT_FAILURE(pData->rc))
return false;
Assert(iDisplay < RT_ELEMENTS(pData->ab2DOn));
if (iDisplay >= RT_ELEMENTS(pData->ab2DOn))
{
pData->rc = VERR_INVALID_PARAMETER;
return false;
}
int rc;
PCPDMDEVHLPR3 pHlp = pDevIns->pHlpR3;
if (pData->ab2DOn[iDisplay])
{
rc = pHlp->pfnSSMPutU32(pData->pSSM, VBOXVBVASAVEDSTATE_VHWAAVAILABLE_MAGIC); AssertRC(rc);
if (RT_FAILURE(rc))
{
pData->rc = rc;
return false;
}
return true;
}
rc = pHlp->pfnSSMPutU32(pData->pSSM, VBOXVBVASAVEDSTATE_VHWAUNAVAILABLE_MAGIC); AssertRC(rc);
if (RT_FAILURE(rc))
{
pData->rc = rc;
return false;
}
return false;
}
/**
* @callback_method_impl{FNVBOXVHWAHHCMDPOSTCB}
*/
static DECLCALLBACK(bool) vboxVBVASaveStateEndPreCb(PPDMDEVINS pDevIns, PVGASTATE pThis, PVGASTATECC pThisCC,
VBOXVHWACMD *pCmd, uint32_t iDisplay, void *pvContext)
{
RT_NOREF(pDevIns, pThis, pThisCC, pCmd);
PVBOXVBVASAVEDSTATECBDATA pData = (PVBOXVBVASAVEDSTATECBDATA)pvContext;
Assert(iDisplay < RT_ELEMENTS(pData->ab2DOn));
if (pData->ab2DOn[iDisplay])
return true;
return false;
}
/**
* @callback_method_impl{FNVBOXVHWAHHCMDPOSTCB}
*/
static DECLCALLBACK(bool) vboxVBVALoadStatePerformPostCb(PPDMDEVINS pDevIns, PVGASTATE pThis, PVGASTATECC pThisCC,
VBOXVHWACMD *pCmd, uint32_t iDisplay, int rc, void *pvContext)
{
RT_NOREF(pThis, pThisCC, pCmd);
PVBOXVBVASAVEDSTATECBDATA pData = (PVBOXVBVASAVEDSTATECBDATA)pvContext;
if (RT_FAILURE(pData->rc))
return false;
if (RT_FAILURE(rc))
{
pData->rc = rc;
return false;
}
Assert(iDisplay < RT_ELEMENTS(pData->ab2DOn));
if (iDisplay >= RT_ELEMENTS(pData->ab2DOn))
{
pData->rc = VERR_INVALID_PARAMETER;
return false;
}
PCPDMDEVHLPR3 pHlp = pDevIns->pHlpR3;
Assert(RT_SUCCESS(pCmd->rc) || pCmd->rc == VERR_NOT_IMPLEMENTED);
if (pCmd->rc == VERR_NOT_IMPLEMENTED)
{
pData->rc = pHlp->pfnSSMSkipToEndOfUnit(pData->pSSM);
AssertRC(pData->rc);
return false;
}
if (RT_FAILURE(pCmd->rc))
{
pData->rc = pCmd->rc;
return false;
}
return true;
}
/**
* @callback_method_impl{FNVBOXVHWAHHCMDPOSTCB}
*/
static DECLCALLBACK(bool) vboxVBVALoadStatePerformPreCb(PPDMDEVINS pDevIns, PVGASTATE pThis, PVGASTATECC pThisCC,
VBOXVHWACMD *pCmd, uint32_t iDisplay, void *pvContext)
{
RT_NOREF(pThis, pThisCC, pCmd);
PVBOXVBVASAVEDSTATECBDATA pData = (PVBOXVBVASAVEDSTATECBDATA)pvContext;
if (RT_FAILURE(pData->rc))
return false;
Assert(iDisplay < RT_ELEMENTS(pData->ab2DOn));
if (iDisplay >= RT_ELEMENTS(pData->ab2DOn))
{
pData->rc = VERR_INVALID_PARAMETER;
return false;
}
PCPDMDEVHLPR3 pHlp = pDevIns->pHlpR3;
int rc;
uint32_t u32;
rc = pHlp->pfnSSMGetU32(pData->pSSM, &u32); AssertRC(rc);
if (RT_FAILURE(rc))
{
pData->rc = rc;
return false;
}
switch (u32)
{
case VBOXVBVASAVEDSTATE_VHWAAVAILABLE_MAGIC:
pData->ab2DOn[iDisplay] = true;
return true;
case VBOXVBVASAVEDSTATE_VHWAUNAVAILABLE_MAGIC:
pData->ab2DOn[iDisplay] = false;
return false;
default:
pData->rc = VERR_INVALID_STATE;
return false;
}
}
#endif /* VBOX_WITH_VIDEOHWACCEL */
static int vboxVBVASaveDevStateExec(PCPDMDEVHLPR3 pHlp, PVGASTATE pThis, PVGASTATECC pThisCC, PSSMHANDLE pSSM)
{
PHGSMIINSTANCE pIns = pThisCC->pHGSMI;
int rc = HGSMIHostSaveStateExec(pHlp, pIns, pSSM);
if (RT_SUCCESS(rc))
{
VGA_SAVED_STATE_PUT_MARKER(pSSM, 2);
/* Save VBVACONTEXT. */
VBVACONTEXT *pCtx = (VBVACONTEXT *)HGSMIContext (pIns);
if (!pCtx)
{
AssertFailed();
/* Still write a valid value to the SSM. */
rc = pHlp->pfnSSMPutU32 (pSSM, 0);
AssertRCReturn(rc, rc);
}
else
{
#ifdef DEBUG_sunlover
dumpctx(pCtx);
#endif
rc = pHlp->pfnSSMPutU32 (pSSM, pCtx->cViews);
AssertRCReturn(rc, rc);
uint32_t iView;
for (iView = 0; iView < pCtx->cViews; iView++)
{
VBVAVIEW *pView = &pCtx->aViews[iView];
rc = pHlp->pfnSSMPutU32(pSSM, pView->view.u32ViewIndex);
AssertRCReturn(rc, rc);
rc = pHlp->pfnSSMPutU32(pSSM, pView->view.u32ViewOffset);
AssertRCReturn(rc, rc);
rc = pHlp->pfnSSMPutU32(pSSM, pView->view.u32ViewSize);
AssertRCReturn(rc, rc);
rc = pHlp->pfnSSMPutU32(pSSM, pView->view.u32MaxScreenSize);
AssertRCReturn(rc, rc);
rc = pHlp->pfnSSMPutU32(pSSM, pView->screen.u32ViewIndex);
AssertRCReturn(rc, rc);
rc = pHlp->pfnSSMPutS32(pSSM, pView->screen.i32OriginX);
AssertRCReturn(rc, rc);
rc = pHlp->pfnSSMPutS32(pSSM, pView->screen.i32OriginY);
AssertRCReturn(rc, rc);
rc = pHlp->pfnSSMPutU32(pSSM, pView->screen.u32StartOffset);
AssertRCReturn(rc, rc);
rc = pHlp->pfnSSMPutU32(pSSM, pView->screen.u32LineSize);
AssertRCReturn(rc, rc);
rc = pHlp->pfnSSMPutU32(pSSM, pView->screen.u32Width);
AssertRCReturn(rc, rc);
rc = pHlp->pfnSSMPutU32(pSSM, pView->screen.u32Height);
AssertRCReturn(rc, rc);
rc = pHlp->pfnSSMPutU16(pSSM, pView->screen.u16BitsPerPixel);
AssertRCReturn(rc, rc);
rc = pHlp->pfnSSMPutU16(pSSM, pView->screen.u16Flags);
AssertRCReturn(rc, rc);
rc = pHlp->pfnSSMPutU32(pSSM, pView->vbva.guest.pVBVA? pView->vbva.u32VBVAOffset: HGSMIOFFSET_VOID);
AssertRCReturn(rc, rc);
rc = pHlp->pfnSSMPutU32(pSSM, pView->vbva.partialRecord.cb);
AssertRCReturn(rc, rc);
if (pView->vbva.partialRecord.cb > 0)
{
rc = pHlp->pfnSSMPutMem(pSSM, pView->vbva.partialRecord.pu8, pView->vbva.partialRecord.cb);
AssertRCReturn(rc, rc);
}
}
/* Save mouse pointer shape information. */
rc = pHlp->pfnSSMPutBool(pSSM, pCtx->mouseShapeInfo.fSet);
AssertRCReturn(rc, rc);
rc = pHlp->pfnSSMPutBool(pSSM, pCtx->mouseShapeInfo.fVisible);
AssertRCReturn(rc, rc);
rc = pHlp->pfnSSMPutBool(pSSM, pCtx->mouseShapeInfo.fAlpha);
AssertRCReturn(rc, rc);
rc = pHlp->pfnSSMPutU32(pSSM, pCtx->mouseShapeInfo.u32HotX);
AssertRCReturn(rc, rc);
rc = pHlp->pfnSSMPutU32(pSSM, pCtx->mouseShapeInfo.u32HotY);
AssertRCReturn(rc, rc);
rc = pHlp->pfnSSMPutU32(pSSM, pCtx->mouseShapeInfo.u32Width);
AssertRCReturn(rc, rc);
rc = pHlp->pfnSSMPutU32(pSSM, pCtx->mouseShapeInfo.u32Height);
AssertRCReturn(rc, rc);
rc = pHlp->pfnSSMPutU32(pSSM, pCtx->mouseShapeInfo.cbShape);
AssertRCReturn(rc, rc);
if (pCtx->mouseShapeInfo.cbShape)
{
rc = pHlp->pfnSSMPutMem(pSSM, pCtx->mouseShapeInfo.pu8Shape, pCtx->mouseShapeInfo.cbShape);
AssertRCReturn(rc, rc);
}
#ifdef VBOX_WITH_WDDM
/* Size of some additional data. For future extensions. */
rc = pHlp->pfnSSMPutU32(pSSM, 4);
AssertRCReturn(rc, rc);
rc = pHlp->pfnSSMPutU32(pSSM, pThis->fGuestCaps);
AssertRCReturn(rc, rc);
#else
/* Size of some additional data. For future extensions. */
rc = pHlp->pfnSSMPutU32(pSSM, 0);
AssertRCReturn(rc, rc);
#endif
rc = pHlp->pfnSSMPutU32(pSSM, RT_ELEMENTS(pCtx->aModeHints));
AssertRCReturn(rc, rc);
rc = pHlp->pfnSSMPutU32(pSSM, sizeof(VBVAMODEHINT));
AssertRCReturn(rc, rc);
for (unsigned i = 0; i < RT_ELEMENTS(pCtx->aModeHints); ++i)
{
rc = pHlp->pfnSSMPutMem(pSSM, &pCtx->aModeHints[i], sizeof(VBVAMODEHINT));
AssertRCReturn(rc, rc);
}
}
}
return rc;
}
int vboxVBVASaveStateExec(PPDMDEVINS pDevIns, PSSMHANDLE pSSM)
{
PVGASTATE pThis = PDMDEVINS_2_DATA(pDevIns, PVGASTATE);
PVGASTATECC pThisCC = PDMDEVINS_2_DATA_CC(pDevIns, PVGASTATECC);
PCPDMDEVHLPR3 pHlp = pDevIns->pHlpR3;
int rc;
#ifdef VBOX_WITH_VIDEOHWACCEL
VBOXVBVASAVEDSTATECBDATA VhwaData = {0};
VhwaData.pSSM = pSSM;
uint32_t cbCmd = sizeof (VBOXVHWACMD_HH_SAVESTATE_SAVEPERFORM); /* maximum cmd size */
VBOXVHWACMD *pCmd = vbvaVHWAHHCommandCreate(VBOXVHWACMD_TYPE_HH_SAVESTATE_SAVEBEGIN, 0, cbCmd);
Assert(pCmd);
if (pCmd)
{
vbvaVHWAHHPost(pDevIns, pThis, pThisCC, pCmd, NULL, vboxVBVASaveStateBeginPostCb, &VhwaData);
rc = VhwaData.rc;
AssertRC(rc);
if (RT_SUCCESS(rc))
{
#endif
rc = vboxVBVASaveDevStateExec(pHlp, pThis, pThisCC, pSSM);
AssertRC(rc);
#ifdef VBOX_WITH_VIDEOHWACCEL
if (RT_SUCCESS(rc))
{
vbvaVHWAHHCommandReinit(pCmd, VBOXVHWACMD_TYPE_HH_SAVESTATE_SAVEPERFORM, 0);
VBOXVHWACMD_HH_SAVESTATE_SAVEPERFORM *pSave = VBOXVHWACMD_BODY_HOST_HEAP(pCmd, VBOXVHWACMD_HH_SAVESTATE_SAVEPERFORM);
pSave->pSSM = pSSM;
vbvaVHWAHHPost(pDevIns, pThis, pThisCC, pCmd, vboxVBVASaveStatePerformPreCb, NULL, &VhwaData);
rc = VhwaData.rc;
AssertRC(rc);
if (RT_SUCCESS(rc))
{
rc = vbvaVHWACommandSavePending(pHlp, pThis, pThisCC, pSSM);
AssertRCReturn(rc, rc);
vbvaVHWAHHCommandReinit(pCmd, VBOXVHWACMD_TYPE_HH_SAVESTATE_SAVEEND, 0);
vbvaVHWAHHPost(pDevIns, pThis, pThisCC, pCmd, vboxVBVASaveStateEndPreCb, NULL, &VhwaData);
rc = VhwaData.rc;
AssertRC(rc);
}
}
}
vbvaVHWAHHCommandRelease(pCmd);
}
else
rc = VERR_OUT_OF_RESOURCES;
#else
if (RT_SUCCESS(rc))
{
for (uint32_t i = 0; i < pThis->cMonitors; ++i)
{
rc = pHlp->pfnSSMPutU32(pSSM, VBOXVBVASAVEDSTATE_VHWAUNAVAILABLE_MAGIC);
AssertRCReturn(rc, rc);
}
}
/* no pending commands */
pHlp->pfnSSMPutU32(pSSM, 0);
#endif
return rc;
}
int vboxVBVALoadStateExec(PPDMDEVINS pDevIns, PSSMHANDLE pSSM, uint32_t uVersion)
{
if (uVersion < VGA_SAVEDSTATE_VERSION_HGSMI)
{
/* Nothing was saved. */
return VINF_SUCCESS;
}
PVGASTATE pThis = PDMDEVINS_2_DATA(pDevIns, PVGASTATE);
PVGASTATECC pThisCC = PDMDEVINS_2_DATA_CC(pDevIns, PVGASTATECC);
PHGSMIINSTANCE pIns = pThisCC->pHGSMI;
PCPDMDEVHLPR3 pHlp = pDevIns->pHlpR3;
int rc = HGSMIHostLoadStateExec(pHlp, pIns, pSSM, uVersion);
if (RT_SUCCESS(rc))
{
VGA_SAVED_STATE_GET_MARKER_RETURN_ON_MISMATCH(pSSM, uVersion, 2);
/* Load VBVACONTEXT. */
VBVACONTEXT *pCtx = (VBVACONTEXT *)HGSMIContext (pIns);
if (!pCtx)
{
/* This should not happen. */
AssertFailed();
rc = VERR_INVALID_PARAMETER;
}
else
{
uint32_t cViews = 0;
rc = pHlp->pfnSSMGetU32 (pSSM, &cViews);
AssertRCReturn(rc, rc);
uint32_t iView;
for (iView = 0; iView < cViews; iView++)
{
VBVAVIEW *pView = &pCtx->aViews[iView];
rc = pHlp->pfnSSMGetU32 (pSSM, &pView->view.u32ViewIndex);
AssertRCReturn(rc, rc);
rc = pHlp->pfnSSMGetU32 (pSSM, &pView->view.u32ViewOffset);
AssertRCReturn(rc, rc);
rc = pHlp->pfnSSMGetU32 (pSSM, &pView->view.u32ViewSize);
AssertRCReturn(rc, rc);
rc = pHlp->pfnSSMGetU32 (pSSM, &pView->view.u32MaxScreenSize);
AssertRCReturn(rc, rc);
rc = pHlp->pfnSSMGetU32 (pSSM, &pView->screen.u32ViewIndex);
AssertRCReturn(rc, rc);
rc = pHlp->pfnSSMGetS32 (pSSM, &pView->screen.i32OriginX);
AssertRCReturn(rc, rc);
rc = pHlp->pfnSSMGetS32 (pSSM, &pView->screen.i32OriginY);
AssertRCReturn(rc, rc);
rc = pHlp->pfnSSMGetU32 (pSSM, &pView->screen.u32StartOffset);
AssertRCReturn(rc, rc);
rc = pHlp->pfnSSMGetU32 (pSSM, &pView->screen.u32LineSize);
AssertRCReturn(rc, rc);
rc = pHlp->pfnSSMGetU32 (pSSM, &pView->screen.u32Width);
AssertRCReturn(rc, rc);
rc = pHlp->pfnSSMGetU32 (pSSM, &pView->screen.u32Height);
AssertRCReturn(rc, rc);
rc = pHlp->pfnSSMGetU16 (pSSM, &pView->screen.u16BitsPerPixel);
AssertRCReturn(rc, rc);
rc = pHlp->pfnSSMGetU16 (pSSM, &pView->screen.u16Flags);
AssertRCReturn(rc, rc);
rc = pHlp->pfnSSMGetU32 (pSSM, &pView->vbva.u32VBVAOffset);
AssertRCReturn(rc, rc);
rc = pHlp->pfnSSMGetU32 (pSSM, &pView->vbva.partialRecord.cb);
AssertRCReturn(rc, rc);
if (pView->vbva.partialRecord.cb == 0)
{
pView->vbva.partialRecord.pu8 = NULL;
}
else
{
Assert(pView->vbva.partialRecord.pu8 == NULL); /* Should be it. */
uint8_t *pu8 = (uint8_t *)RTMemAlloc(pView->vbva.partialRecord.cb);
if (!pu8)
{
return VERR_NO_MEMORY;
}
pView->vbva.partialRecord.pu8 = pu8;
rc = pHlp->pfnSSMGetMem (pSSM, pView->vbva.partialRecord.pu8, pView->vbva.partialRecord.cb);
AssertRCReturn(rc, rc);
}
if (pView->vbva.u32VBVAOffset == HGSMIOFFSET_VOID)
{
pView->vbva.guest.pVBVA = NULL;
}
else
{
pView->vbva.guest.pVBVA = (VBVABUFFER *)HGSMIOffsetToPointerHost(pIns, pView->vbva.u32VBVAOffset);
}
}
if (uVersion > VGA_SAVEDSTATE_VERSION_WITH_CONFIG)
{
/* Read mouse pointer shape information. */
rc = pHlp->pfnSSMGetBool (pSSM, &pCtx->mouseShapeInfo.fSet);
AssertRCReturn(rc, rc);
rc = pHlp->pfnSSMGetBool (pSSM, &pCtx->mouseShapeInfo.fVisible);
AssertRCReturn(rc, rc);
rc = pHlp->pfnSSMGetBool (pSSM, &pCtx->mouseShapeInfo.fAlpha);
AssertRCReturn(rc, rc);
rc = pHlp->pfnSSMGetU32 (pSSM, &pCtx->mouseShapeInfo.u32HotX);
AssertRCReturn(rc, rc);
rc = pHlp->pfnSSMGetU32 (pSSM, &pCtx->mouseShapeInfo.u32HotY);
AssertRCReturn(rc, rc);
rc = pHlp->pfnSSMGetU32 (pSSM, &pCtx->mouseShapeInfo.u32Width);
AssertRCReturn(rc, rc);
rc = pHlp->pfnSSMGetU32 (pSSM, &pCtx->mouseShapeInfo.u32Height);
AssertRCReturn(rc, rc);
rc = pHlp->pfnSSMGetU32 (pSSM, &pCtx->mouseShapeInfo.cbShape);
AssertRCReturn(rc, rc);
if (pCtx->mouseShapeInfo.cbShape)
{
pCtx->mouseShapeInfo.pu8Shape = (uint8_t *)RTMemAlloc(pCtx->mouseShapeInfo.cbShape);
if (pCtx->mouseShapeInfo.pu8Shape == NULL)
{
return VERR_NO_MEMORY;
}
pCtx->mouseShapeInfo.cbAllocated = pCtx->mouseShapeInfo.cbShape;
rc = pHlp->pfnSSMGetMem (pSSM, pCtx->mouseShapeInfo.pu8Shape, pCtx->mouseShapeInfo.cbShape);
AssertRCReturn(rc, rc);
}
else
{
pCtx->mouseShapeInfo.pu8Shape = NULL;
}
/* Size of some additional data. For future extensions. */
uint32_t cbExtra = 0;
rc = pHlp->pfnSSMGetU32 (pSSM, &cbExtra);
AssertRCReturn(rc, rc);
#ifdef VBOX_WITH_WDDM
if (cbExtra >= 4)
{
rc = pHlp->pfnSSMGetU32 (pSSM, &pThis->fGuestCaps);
AssertRCReturn(rc, rc);
pThisCC->pDrv->pfnVBVAGuestCapabilityUpdate(pThisCC->pDrv, pThis->fGuestCaps);
cbExtra -= 4;
}
#endif
if (cbExtra > 0)
{
rc = pHlp->pfnSSMSkip(pSSM, cbExtra);
AssertRCReturn(rc, rc);
}
if (uVersion >= VGA_SAVEDSTATE_VERSION_MODE_HINTS)
{
uint32_t cModeHints, cbModeHints;
rc = pHlp->pfnSSMGetU32 (pSSM, &cModeHints);
AssertRCReturn(rc, rc);
rc = pHlp->pfnSSMGetU32 (pSSM, &cbModeHints);
AssertRCReturn(rc, rc);
memset(&pCtx->aModeHints, ~0, sizeof(pCtx->aModeHints));
unsigned iHint;
for (iHint = 0; iHint < cModeHints; ++iHint)
{
if ( cbModeHints <= sizeof(VBVAMODEHINT)
&& iHint < RT_ELEMENTS(pCtx->aModeHints))
rc = pHlp->pfnSSMGetMem(pSSM, &pCtx->aModeHints[iHint],
cbModeHints);
else
rc = pHlp->pfnSSMSkip(pSSM, cbModeHints);
AssertRCReturn(rc, rc);
}
}
}
pCtx->cViews = iView;
LogFlowFunc(("%d views loaded\n", pCtx->cViews));
if (uVersion > VGA_SAVEDSTATE_VERSION_WDDM)
{
bool fLoadCommands;
if (uVersion < VGA_SAVEDSTATE_VERSION_FIXED_PENDVHWA)
{
const char *pcszOsArch = pHlp->pfnSSMHandleHostOSAndArch(pSSM);
Assert(pcszOsArch);
fLoadCommands = !pcszOsArch || RTStrNCmp(pcszOsArch, RT_STR_TUPLE("solaris"));
}
else
fLoadCommands = true;
#ifdef VBOX_WITH_VIDEOHWACCEL
uint32_t cbCmd = sizeof (VBOXVHWACMD_HH_SAVESTATE_LOADPERFORM); /* maximum cmd size */
VBOXVHWACMD *pCmd = vbvaVHWAHHCommandCreate(VBOXVHWACMD_TYPE_HH_SAVESTATE_LOADPERFORM, 0, cbCmd);
Assert(pCmd);
if(pCmd)
{
VBOXVBVASAVEDSTATECBDATA VhwaData = {0};
VhwaData.pSSM = pSSM;
VBOXVHWACMD_HH_SAVESTATE_LOADPERFORM *pLoad = VBOXVHWACMD_BODY_HOST_HEAP(pCmd, VBOXVHWACMD_HH_SAVESTATE_LOADPERFORM);
pLoad->pSSM = pSSM;
vbvaVHWAHHPost(pDevIns, pThis, pThisCC, pCmd, vboxVBVALoadStatePerformPreCb,
vboxVBVALoadStatePerformPostCb, &VhwaData);
rc = VhwaData.rc;
vbvaVHWAHHCommandRelease(pCmd);
AssertRCReturn(rc, rc);
if (fLoadCommands)
{
rc = vbvaVHWACommandLoadPending(pDevIns, pHlp, pThis, pThisCC, pSSM, uVersion);
AssertRCReturn(rc, rc);
}
}
else
{
rc = VERR_OUT_OF_RESOURCES;
}
#else
uint32_t u32;
for (uint32_t i = 0; i < pThis->cMonitors; ++i)
{
rc = pHlp->pfnSSMGetU32(pSSM, &u32);
AssertRCReturn(rc, rc);
if (u32 != VBOXVBVASAVEDSTATE_VHWAUNAVAILABLE_MAGIC)
{
LogRel(("VBVA: 2D data while 2D is not supported\n"));
return VERR_NOT_SUPPORTED;
}
}
if (fLoadCommands)
{
rc = pHlp->pfnSSMGetU32(pSSM, &u32);
AssertRCReturn(rc, rc);
if (u32)
{
LogRel(("VBVA: 2D pending command while 2D is not supported\n"));
return VERR_NOT_SUPPORTED;
}
}
#endif
}
#ifdef DEBUG_sunlover
dumpctx(pCtx);
#endif
}
}
return rc;
}
int vboxVBVALoadStateDone(PPDMDEVINS pDevIns)
{
PVGASTATE pThis = PDMDEVINS_2_DATA(pDevIns, PVGASTATE);
PVGASTATECC pThisCC = PDMDEVINS_2_DATA_CC(pDevIns, PVGASTATECC);
VBVACONTEXT *pCtx = (VBVACONTEXT *)HGSMIContext(pThisCC->pHGSMI);
if (pCtx)
{
uint32_t iView;
for (iView = 0; iView < pCtx->cViews; iView++)
{
VBVAVIEW *pView = &pCtx->aViews[iView];
if (pView->vbva.guest.pVBVA)
{
int rc = vbvaEnable(pThis, pThisCC, pCtx, iView, pView->vbva.guest.pVBVA,
pView->vbva.u32VBVAOffset, true /* fRestored */);
if (RT_SUCCESS(rc))
vbvaResize(pThisCC, pView, &pView->screen, false);
else
LogRel(("VBVA: can not restore: %Rrc\n", rc));
}
}
if (pCtx->mouseShapeInfo.fSet)
vbvaUpdateMousePointerShape(pThisCC, &pCtx->mouseShapeInfo, true);
}
return VINF_SUCCESS;
}
void VBVARaiseIrq(PPDMDEVINS pDevIns, PVGASTATE pThis, PVGASTATECC pThisCC, uint32_t fFlags)
{
int const rcLock = PDMDevHlpCritSectEnter(pDevIns, &pThis->CritSectIRQ, VERR_SEM_BUSY);
PDM_CRITSECT_RELEASE_ASSERT_RC_DEV(pDevIns, &pThis->CritSectIRQ, rcLock);
const uint32_t fu32CurrentGuestFlags = HGSMIGetHostGuestFlags(pThisCC->pHGSMI);
if ((fu32CurrentGuestFlags & HGSMIHOSTFLAGS_IRQ) == 0)
{
/* No IRQ set yet. */
Assert(pThis->fu32PendingGuestFlags == 0);
HGSMISetHostGuestFlags(pThisCC->pHGSMI, HGSMIHOSTFLAGS_IRQ | fFlags);
/* If VM is not running, the IRQ will be set in VBVAOnResume. */
const VMSTATE enmVMState = PDMDevHlpVMState(pDevIns);
if ( enmVMState == VMSTATE_RUNNING
|| enmVMState == VMSTATE_RUNNING_LS)
PDMDevHlpPCISetIrqNoWait(pDevIns, 0, PDM_IRQ_LEVEL_HIGH);
}
else
{
/* IRQ already set, remember the new flags. */
pThis->fu32PendingGuestFlags |= HGSMIHOSTFLAGS_IRQ | fFlags;
}
PDMDevHlpCritSectLeave(pDevIns, &pThis->CritSectIRQ);
}
void VBVAOnResume(PPDMDEVINS pDevIns, PVGASTATE pThis, PVGASTATECC pThisCC)
{
int const rcLock = PDMDevHlpCritSectEnter(pDevIns, &pThis->CritSectIRQ, VERR_SEM_BUSY);
PDM_CRITSECT_RELEASE_ASSERT_RC_DEV(pDevIns, &pThis->CritSectIRQ, rcLock);
if (HGSMIGetHostGuestFlags(pThisCC->pHGSMI) & HGSMIHOSTFLAGS_IRQ)
PDMDevHlpPCISetIrqNoWait(pDevIns, 0, PDM_IRQ_LEVEL_HIGH);
PDMDevHlpCritSectLeave(pDevIns, &pThis->CritSectIRQ);
}
static int vbvaHandleQueryConf32(PVGASTATECC pThisCC, VBVACONF32 RT_UNTRUSTED_VOLATILE_GUEST *pConf32)
{
uint32_t const idxQuery = pConf32->u32Index;
RT_UNTRUSTED_NONVOLATILE_COPY_FENCE();
LogFlowFunc(("VBVA_QUERY_CONF32: u32Index %d, u32Value 0x%x\n", idxQuery, pConf32->u32Value));
VBVACONTEXT *pCtx = (VBVACONTEXT *)HGSMIContext(pThisCC->pHGSMI);
uint32_t uValue;
if (idxQuery == VBOX_VBVA_CONF32_MONITOR_COUNT)
uValue = pCtx->cViews;
else if (idxQuery == VBOX_VBVA_CONF32_HOST_HEAP_SIZE)
uValue = _64K; /** @todo a value calculated from the vram size */
else if ( idxQuery == VBOX_VBVA_CONF32_MODE_HINT_REPORTING
|| idxQuery == VBOX_VBVA_CONF32_GUEST_CURSOR_REPORTING)
uValue = VINF_SUCCESS;
else if (idxQuery == VBOX_VBVA_CONF32_CURSOR_CAPABILITIES)
uValue = VBOX_VBVA_CURSOR_CAPABILITY_HARDWARE;
else if (idxQuery == VBOX_VBVA_CONF32_SCREEN_FLAGS)
uValue = VBVA_SCREEN_F_ACTIVE
| VBVA_SCREEN_F_DISABLED
| VBVA_SCREEN_F_BLANK
| VBVA_SCREEN_F_BLANK2;
else if (idxQuery == VBOX_VBVA_CONF32_MAX_RECORD_SIZE)
uValue = VBVA_MAX_RECORD_SIZE;
else if (idxQuery == UINT32_MAX)
uValue = UINT32_MAX; /* Older GA uses this for sanity checking. See testQueryConf in HGSMIBase.cpp on branches. */
else
ASSERT_GUEST_MSG_FAILED_RETURN(("Invalid index %#x\n", idxQuery), VERR_INVALID_PARAMETER);
pConf32->u32Value = uValue;
return VINF_SUCCESS;
}
static int vbvaHandleSetConf32(VBVACONF32 RT_UNTRUSTED_VOLATILE_GUEST *pConf32)
{
uint32_t const idxQuery = pConf32->u32Index;
uint32_t const uValue = pConf32->u32Value;
RT_UNTRUSTED_NONVOLATILE_COPY_FENCE();
LogFlowFunc(("VBVA_SET_CONF32: u32Index %d, u32Value 0x%x\n", idxQuery, uValue));
if (idxQuery == VBOX_VBVA_CONF32_MONITOR_COUNT)
{ /* do nothing. this is a const. */ }
else if (idxQuery == VBOX_VBVA_CONF32_HOST_HEAP_SIZE)
{ /* do nothing. this is a const. */ }
else
ASSERT_GUEST_MSG_FAILED_RETURN(("Invalid index %#x (value=%u)\n", idxQuery, uValue), VERR_INVALID_PARAMETER);
RT_NOREF_PV(uValue);
return VINF_SUCCESS;
}
static int vbvaHandleInfoHeap(PVGASTATECC pThisCC, const VBVAINFOHEAP RT_UNTRUSTED_VOLATILE_GUEST *pInfoHeap)
{
uint32_t const offHeap = pInfoHeap->u32HeapOffset;
uint32_t const cbHeap = pInfoHeap->u32HeapSize;
RT_UNTRUSTED_NONVOLATILE_COPY_FENCE();
LogFlowFunc(("VBVA_INFO_HEAP: offset 0x%x, size 0x%x\n", offHeap, cbHeap));
return HGSMIHostHeapSetup(pThisCC->pHGSMI, offHeap, cbHeap);
}
static int vbvaInfoView(PVGASTATE pThis, PVGASTATER3 pThisCC, const VBVAINFOVIEW RT_UNTRUSTED_VOLATILE_GUEST *pView)
{
VBVAINFOVIEW view;
RT_COPY_VOLATILE(view, *pView);
RT_UNTRUSTED_NONVOLATILE_COPY_FENCE();
LogFlowFunc(("VBVA_INFO_VIEW: u32ViewIndex %d, u32ViewOffset 0x%x, u32ViewSize 0x%x, u32MaxScreenSize 0x%x\n",
view.u32ViewIndex, view.u32ViewOffset, view.u32ViewSize, view.u32MaxScreenSize));
VBVACONTEXT *pCtx = (VBVACONTEXT *)HGSMIContext(pThisCC->pHGSMI);
ASSERT_GUEST_LOGREL_MSG_RETURN( view.u32ViewIndex < pCtx->cViews
&& view.u32ViewOffset <= pThis->vram_size
&& view.u32ViewSize <= pThis->vram_size
&& view.u32ViewOffset <= pThis->vram_size - view.u32ViewSize
&& view.u32MaxScreenSize <= view.u32ViewSize,
("index %d(%d), offset 0x%x, size 0x%x, max 0x%x, vram size 0x%x\n",
view.u32ViewIndex, pCtx->cViews, view.u32ViewOffset, view.u32ViewSize,
view.u32MaxScreenSize, pThis->vram_size),
VERR_INVALID_PARAMETER);
RT_UNTRUSTED_VALIDATED_FENCE();
pCtx->aViews[view.u32ViewIndex].view = view;
return VINF_SUCCESS;
}
static int vbvaInfoScreen(PVGASTATECC pThisCC, const VBVAINFOSCREEN RT_UNTRUSTED_VOLATILE_GUEST *pScreen)
{
/*
* Copy input into non-volatile buffer.
*/
VBVAINFOSCREEN screen;
RT_COPY_VOLATILE(screen, *pScreen);
RT_UNTRUSTED_NONVOLATILE_COPY_FENCE();
LogRel2(("VBVA: InfoScreen: [%d] @%d,%d %dx%d, line 0x%x, BPP %d, flags 0x%x\n",
screen.u32ViewIndex, screen.i32OriginX, screen.i32OriginY,
screen.u32Width, screen.u32Height,
screen.u32LineSize, screen.u16BitsPerPixel, screen.u16Flags));
/*
* Validate input.
*/
/* Allow screen.u16BitsPerPixel == 0 because legacy guest code used it for screen blanking. */
VBVACONTEXT *pCtx = (VBVACONTEXT *)HGSMIContext(pThisCC->pHGSMI);
ASSERT_GUEST_LOGREL_MSG_RETURN(screen.u32ViewIndex < pCtx->cViews,
("Screen index %#x is out of bound (cViews=%#x)\n", screen.u32ViewIndex, pCtx->cViews),
VERR_INVALID_PARAMETER);
ASSERT_GUEST_LOGREL_MSG_RETURN( screen.u16BitsPerPixel <= 32
&& screen.u32Width <= UINT16_MAX
&& screen.u32Height <= UINT16_MAX
&& screen.u32LineSize <= UINT16_MAX * UINT32_C(4),
("One or more values out of range: u16BitsPerPixel=%#x u32Width=%#x u32Height=%#x u32LineSize=%#x\n",
screen.u16BitsPerPixel, screen.u32Width, screen.u32Height, screen.u32LineSize),
VERR_INVALID_PARAMETER);
RT_UNTRUSTED_VALIDATED_FENCE();
const VBVAINFOVIEW *pView = &pCtx->aViews[screen.u32ViewIndex].view;
const uint32_t cbPerPixel = (screen.u16BitsPerPixel + 7) / 8;
ASSERT_GUEST_LOGREL_MSG_RETURN(screen.u32Width <= screen.u32LineSize / (cbPerPixel ? cbPerPixel : 1),
("u32Width=%#x u32LineSize=%3x cbPerPixel=%#x\n",
screen.u32Width, screen.u32LineSize, cbPerPixel),
VERR_INVALID_PARAMETER);
const uint64_t u64ScreenSize = (uint64_t)screen.u32LineSize * screen.u32Height;
ASSERT_GUEST_LOGREL_MSG_RETURN( screen.u32StartOffset <= pView->u32ViewSize
&& u64ScreenSize <= pView->u32MaxScreenSize
&& screen.u32StartOffset <= pView->u32ViewSize - (uint32_t)u64ScreenSize,
("u32StartOffset=%#x u32ViewSize=%#x u64ScreenSize=%#RX64 u32MaxScreenSize=%#x\n",
screen.u32StartOffset, pView->u32ViewSize, u64ScreenSize, pView->u32MaxScreenSize),
VERR_INVALID_PARAMETER);
RT_UNTRUSTED_VALIDATED_FENCE();
/*
* Do the job.
*/
vbvaResize(pThisCC, &pCtx->aViews[screen.u32ViewIndex], &screen, true);
return VINF_SUCCESS;
}
#ifdef UNUSED_FUNCTION
int VBVAGetInfoViewAndScreen(PVGASTATE pThis, PVGASTATECC pThisCC, uint32_t u32ViewIndex, VBVAINFOVIEW *pView, VBVAINFOSCREEN *pScreen)
{
if (u32ViewIndex >= pThis->cMonitors)
return VERR_INVALID_PARAMETER;
PHGSMIINSTANCE pIns = pThisCC->pHGSMI;
VBVACONTEXT *pCtx = (VBVACONTEXT *)HGSMIContext (pIns);
if (pView)
*pView = pCtx->aViews[u32ViewIndex].view;
if (pScreen)
*pScreen = pCtx->aViews[u32ViewIndex].screen;
return VINF_SUCCESS;
}
#endif
static int vbvaHandleEnable(PVGASTATE pThis, PVGASTATER3 pThisCC, uint32_t fEnableFlags, uint32_t offEnable, uint32_t idScreen)
{
LogFlowFunc(("VBVA_ENABLE[%u]: fEnableFlags=0x%x offEnable=%#x\n", idScreen, fEnableFlags, offEnable));
PHGSMIINSTANCE pIns = pThisCC->pHGSMI;
VBVACONTEXT *pCtx = (VBVACONTEXT *)HGSMIContext(pIns);
/*
* Validate input.
*/
ASSERT_GUEST_LOGREL_MSG_RETURN(idScreen < pCtx->cViews, ("idScreen=%#x cViews=%#x\n", idScreen, pCtx->cViews), VERR_INVALID_PARAMETER);
ASSERT_GUEST_LOGREL_MSG_RETURN( (fEnableFlags & (VBVA_F_ENABLE | VBVA_F_DISABLE)) == VBVA_F_ENABLE
|| (fEnableFlags & (VBVA_F_ENABLE | VBVA_F_DISABLE)) == VBVA_F_DISABLE,
("fEnableFlags=%#x\n", fEnableFlags),
VERR_INVALID_PARAMETER);
if (fEnableFlags & VBVA_F_ENABLE)
{
ASSERT_GUEST_LOGREL_MSG_RETURN(offEnable < pThis->vram_size,
("offEnable=%#x vram_size=%#x\n", offEnable, pThis->vram_size),
VERR_INVALID_PARAMETER);
if (fEnableFlags & VBVA_F_ABSOFFSET)
/* Offset from VRAM start. */
ASSERT_GUEST_LOGREL_MSG_RETURN( pThis->vram_size >= RT_UOFFSETOF(VBVABUFFER, au8Data)
&& offEnable <= pThis->vram_size - RT_UOFFSETOF(VBVABUFFER, au8Data),
("offEnable=%#x vram_size=%#x\n", offEnable, pThis->vram_size),
VERR_INVALID_PARAMETER);
else
{
/* Offset from the view start. We'd be using idScreen here to fence required. */
RT_UNTRUSTED_VALIDATED_FENCE();
const VBVAINFOVIEW *pView = &pCtx->aViews[idScreen].view;
ASSERT_GUEST_LOGREL_MSG_RETURN( pThis->vram_size - offEnable >= pView->u32ViewOffset
&& pView->u32ViewSize >= RT_UOFFSETOF(VBVABUFFER, au8Data)
&& offEnable <= pView->u32ViewSize - RT_UOFFSETOF(VBVABUFFER, au8Data),
("offEnable=%#x vram_size=%#x view: %#x LB %#x\n",
offEnable, pThis->vram_size, pView->u32ViewOffset, pView->u32ViewSize),
VERR_INVALID_PARAMETER);
offEnable += pView->u32ViewOffset;
}
ASSERT_GUEST_LOGREL_MSG_RETURN(HGSMIIsOffsetValid(pIns, offEnable),
("offEnable=%#x area %#x LB %#x\n",
offEnable, HGSMIGetAreaOffset(pIns), HGSMIGetAreaSize(pIns)),
VERR_INVALID_PARAMETER);
}
RT_UNTRUSTED_VALIDATED_FENCE();
/*
* Execute.
*/
int rc = VINF_SUCCESS;
if (fEnableFlags & VBVA_F_ENABLE)
{
VBVABUFFER RT_UNTRUSTED_VOLATILE_GUEST *pVBVA
= (VBVABUFFER RT_UNTRUSTED_VOLATILE_GUEST *)HGSMIOffsetToPointerHost(pIns, offEnable);
ASSERT_GUEST_LOGREL_RETURN(pVBVA, VERR_INVALID_PARAMETER); /* already check above, but let's be careful. */
/* Process any pending orders and empty the VBVA ring buffer. */
vbvaFlush(pThis, pThisCC, pCtx);
rc = vbvaEnable(pThis, pThisCC, pCtx, idScreen, pVBVA, offEnable, false /* fRestored */);
if (RT_FAILURE(rc))
LogRelMax(8, ("VBVA: can not enable: %Rrc\n", rc));
}
else
rc = vbvaDisable(pThis, pThisCC, pCtx, idScreen);
return rc;
}
static int vbvaHandleQueryModeHints(PVGASTATECC pThisCC, VBVAQUERYMODEHINTS volatile *pQueryModeHints, HGSMISIZE cbBuffer)
{
PHGSMIINSTANCE pIns = pThisCC->pHGSMI;
VBVACONTEXT *pCtx = (VBVACONTEXT *)HGSMIContext(pIns);
/*
* Copy and validate the request.
*/
uint16_t const cHintsQueried = pQueryModeHints->cHintsQueried;
uint16_t const cbHintStructureGuest = pQueryModeHints->cbHintStructureGuest;
RT_UNTRUSTED_NONVOLATILE_COPY_FENCE();
LogRelFlowFunc(("VBVA: HandleQueryModeHints: cHintsQueried=%RU16, cbHintStructureGuest=%RU16\n",
cHintsQueried, cbHintStructureGuest));
ASSERT_GUEST_RETURN(cbBuffer >= sizeof(VBVAQUERYMODEHINTS) + (uint32_t)cHintsQueried * cbHintStructureGuest,
VERR_INVALID_PARAMETER);
RT_UNTRUSTED_VALIDATED_FENCE();
/*
* Produce the requested data.
*/
uint8_t *pbHint = (uint8_t *)(pQueryModeHints + 1);
memset(pbHint, ~0, cbBuffer - sizeof(VBVAQUERYMODEHINTS));
for (unsigned iHint = 0; iHint < cHintsQueried && iHint < VBOX_VIDEO_MAX_SCREENS; ++iHint)
{
memcpy(pbHint, &pCtx->aModeHints[iHint], RT_MIN(cbHintStructureGuest, sizeof(VBVAMODEHINT)));
pbHint += cbHintStructureGuest;
Assert((uintptr_t)(pbHint - (uint8_t *)pQueryModeHints) <= cbBuffer);
}
return VINF_SUCCESS;
}
/*
*
* New VBVA uses a new interface id: #define VBE_DISPI_ID_VBOX_VIDEO 0xBE01
*
* VBVA uses two 32 bits IO ports to write VRAM offsets of shared memory blocks for commands.
* Read Write
* Host port 0x3b0 to process completed
* Guest port 0x3d0 control value? to process
*
*/
static DECLCALLBACK(void) vbvaNotifyGuest(void *pvCallback)
{
#if defined(VBOX_WITH_HGSMI) && (defined(VBOX_WITH_VIDEOHWACCEL) || defined(VBOX_WITH_VDMA) || defined(VBOX_WITH_WDDM))
PPDMDEVINS pDevIns = (PPDMDEVINS)pvCallback;
PVGASTATE pThis = PDMDEVINS_2_DATA(pDevIns, PVGASTATE);
PVGASTATECC pThisCC = PDMDEVINS_2_DATA_CC(pDevIns, PVGASTATECC);
VBVARaiseIrq(pDevIns, pThis, pThisCC, 0);
#else
NOREF(pvCallback);
/* Do nothing. Later the VMMDev/VGA IRQ can be used for the notification. */
#endif
}
/**
* The guest submitted a command buffer (hit VGA_PORT_HGSMI_GUEST).
*
* Verify the buffer size and invoke corresponding handler.
*
* @return VBox status code.
* @param pvHandler The VBVA channel context.
* @param u16ChannelInfo Command code.
* @param pvBuffer HGSMI buffer with command data. Considered volatile!
* @param cbBuffer Size of command data.
*
* @thread EMT
*/
static DECLCALLBACK(int) vbvaChannelHandler(void *pvHandler, uint16_t u16ChannelInfo,
void RT_UNTRUSTED_VOLATILE_GUEST *pvBuffer, HGSMISIZE cbBuffer)
{
int rc = VINF_SUCCESS;
LogFlowFunc(("pvHandler %p, u16ChannelInfo %d, pvBuffer %p, cbBuffer %u\n", pvHandler, u16ChannelInfo, pvBuffer, cbBuffer));
PPDMDEVINS pDevIns = (PPDMDEVINS)pvHandler;
PVGASTATE pThis = PDMDEVINS_2_DATA(pDevIns, PVGASTATE);
PVGASTATECC pThisCC = PDMDEVINS_2_DATA_CC(pDevIns, PVGASTATECC);
PHGSMIINSTANCE pIns = pThisCC->pHGSMI;
VBVACONTEXT *pCtx = (VBVACONTEXT *)HGSMIContext(pIns);
switch (u16ChannelInfo)
{
#ifdef VBOX_WITH_VDMA
case VBVA_VDMA_CMD:
if (cbBuffer >= VBoxSHGSMIBufferHeaderSize() + sizeof(VBOXVDMACBUF_DR))
{
VBOXVDMACBUF_DR RT_UNTRUSTED_VOLATILE_GUEST *pCmd
= (VBOXVDMACBUF_DR RT_UNTRUSTED_VOLATILE_GUEST *)VBoxSHGSMIBufferData((VBOXSHGSMIHEADER RT_UNTRUSTED_VOLATILE_GUEST *)pvBuffer);
vboxVDMACommand(pThisCC->pVdma, pCmd, cbBuffer - VBoxSHGSMIBufferHeaderSize());
rc = VINF_SUCCESS;
}
else
rc = VERR_INVALID_PARAMETER;
break;
case VBVA_VDMA_CTL:
if (cbBuffer >= VBoxSHGSMIBufferHeaderSize() + sizeof(VBOXVDMA_CTL))
{
VBOXVDMA_CTL RT_UNTRUSTED_VOLATILE_GUEST *pCmd
= (VBOXVDMA_CTL RT_UNTRUSTED_VOLATILE_GUEST *)VBoxSHGSMIBufferData((VBOXSHGSMIHEADER RT_UNTRUSTED_VOLATILE_GUEST *)pvBuffer);
vboxVDMAControl(pThisCC->pVdma, pCmd, cbBuffer - VBoxSHGSMIBufferHeaderSize());
}
else
rc = VERR_INVALID_PARAMETER;
break;
#endif /* VBOX_WITH_VDMA */
case VBVA_QUERY_CONF32:
if (cbBuffer >= sizeof(VBVACONF32))
rc = vbvaHandleQueryConf32(pThisCC, (VBVACONF32 RT_UNTRUSTED_VOLATILE_GUEST *)pvBuffer);
else
rc = VERR_INVALID_PARAMETER;
break;
case VBVA_SET_CONF32:
if (cbBuffer >= sizeof(VBVACONF32))
rc = vbvaHandleSetConf32((VBVACONF32 RT_UNTRUSTED_VOLATILE_GUEST *)pvBuffer);
else
rc = VERR_INVALID_PARAMETER;
break;
case VBVA_INFO_VIEW:
/* Expect at least one VBVAINFOVIEW structure. */
rc = VERR_INVALID_PARAMETER;
if (cbBuffer >= sizeof(VBVAINFOVIEW))
{
/* Guest submits an array of VBVAINFOVIEW structures. */
const VBVAINFOVIEW RT_UNTRUSTED_VOLATILE_GUEST *pView = (VBVAINFOVIEW RT_UNTRUSTED_VOLATILE_GUEST *)pvBuffer;
for (;
cbBuffer >= sizeof(VBVAINFOVIEW);
++pView, cbBuffer -= sizeof(VBVAINFOVIEW))
{
rc = vbvaInfoView(pThis, pThisCC, pView);
if (RT_FAILURE(rc))
break;
}
}
break;
case VBVA_INFO_HEAP:
if (cbBuffer >= sizeof(VBVAINFOHEAP))
rc = vbvaHandleInfoHeap(pThisCC, (VBVAINFOHEAP RT_UNTRUSTED_VOLATILE_GUEST *)pvBuffer);
else
rc = VERR_INVALID_PARAMETER;
break;
case VBVA_FLUSH:
if (cbBuffer >= sizeof(VBVAFLUSH))
rc = vbvaFlush(pThis, pThisCC, pCtx);
else
rc = VERR_INVALID_PARAMETER;
break;
case VBVA_INFO_SCREEN:
rc = VERR_INVALID_PARAMETER;
if (cbBuffer >= sizeof(VBVAINFOSCREEN))
rc = vbvaInfoScreen(pThisCC, (VBVAINFOSCREEN RT_UNTRUSTED_VOLATILE_GUEST *)pvBuffer);
break;
case VBVA_ENABLE:
rc = VERR_INVALID_PARAMETER;
if (cbBuffer >= sizeof(VBVAENABLE))
{
VBVAENABLE RT_UNTRUSTED_VOLATILE_GUEST *pVbvaEnable = (VBVAENABLE RT_UNTRUSTED_VOLATILE_GUEST *)pvBuffer;
uint32_t const fEnableFlags = pVbvaEnable->u32Flags;
uint32_t const offEnable = pVbvaEnable->u32Offset;
RT_UNTRUSTED_NONVOLATILE_COPY_FENCE();
uint32_t idScreen;
if (fEnableFlags & VBVA_F_EXTENDED)
{
ASSERT_GUEST_STMT_BREAK(cbBuffer >= sizeof(VBVAENABLE_EX), rc = VERR_INVALID_PARAMETER);
idScreen = ((VBVAENABLE_EX RT_UNTRUSTED_VOLATILE_GUEST *)pvBuffer)->u32ScreenId;
RT_UNTRUSTED_NONVOLATILE_COPY_FENCE();
}
else
idScreen = vbvaViewFromBufferPtr(pIns, pCtx, pvBuffer);
rc = vbvaHandleEnable(pThis, pThisCC, fEnableFlags, offEnable, idScreen);
pVbvaEnable->i32Result = rc;
}
break;
case VBVA_MOUSE_POINTER_SHAPE:
if (cbBuffer >= sizeof(VBVAMOUSEPOINTERSHAPE))
{
VBVAMOUSEPOINTERSHAPE RT_UNTRUSTED_VOLATILE_GUEST *pShape
= (VBVAMOUSEPOINTERSHAPE RT_UNTRUSTED_VOLATILE_GUEST *)pvBuffer;
rc = vbvaMousePointerShape(pThisCC, pCtx, pShape, cbBuffer);
pShape->i32Result = rc;
}
else
rc = VERR_INVALID_PARAMETER;
break;
#ifdef VBOX_WITH_VIDEOHWACCEL
case VBVA_VHWA_CMD:
if (cbBuffer >= VBOXVHWACMD_HEADSIZE())
{
vbvaVHWAHandleCommand(pDevIns, pThis, pThisCC, (VBOXVHWACMD RT_UNTRUSTED_VOLATILE_GUEST *)pvBuffer);
rc = VINF_SUCCESS;
}
else
rc = VERR_INVALID_PARAMETER;
break;
#endif
#ifdef VBOX_WITH_WDDM
case VBVA_INFO_CAPS:
if (cbBuffer >= sizeof(VBVACAPS))
{
VBVACAPS RT_UNTRUSTED_VOLATILE_GUEST *pCaps = (VBVACAPS RT_UNTRUSTED_VOLATILE_GUEST *)pvBuffer;
pThis->fGuestCaps = pCaps->fCaps;
RT_UNTRUSTED_NONVOLATILE_COPY_FENCE();
pThisCC->pDrv->pfnVBVAGuestCapabilityUpdate(pThisCC->pDrv, pThis->fGuestCaps);
pCaps->rc = rc = VINF_SUCCESS;
}
else
rc = VERR_INVALID_PARAMETER;
break;
#endif
case VBVA_SCANLINE_CFG:
if (cbBuffer >= sizeof(VBVASCANLINECFG))
{
VBVASCANLINECFG RT_UNTRUSTED_VOLATILE_GUEST *pCfg = (VBVASCANLINECFG RT_UNTRUSTED_VOLATILE_GUEST *)pvBuffer;
pThis->fScanLineCfg = pCfg->fFlags;
RT_UNTRUSTED_NONVOLATILE_COPY_FENCE();
pCfg->rc = rc = VINF_SUCCESS;
}
else
rc = VERR_INVALID_PARAMETER;
break;
case VBVA_QUERY_MODE_HINTS:
if (cbBuffer >= sizeof(VBVAQUERYMODEHINTS))
{
VBVAQUERYMODEHINTS RT_UNTRUSTED_VOLATILE_GUEST *pQueryModeHints
= (VBVAQUERYMODEHINTS RT_UNTRUSTED_VOLATILE_GUEST *)pvBuffer;
rc = vbvaHandleQueryModeHints(pThisCC, pQueryModeHints, cbBuffer);
pQueryModeHints->rc = rc;
}
else
rc = VERR_INVALID_PARAMETER;
break;
case VBVA_REPORT_INPUT_MAPPING:
if (cbBuffer >= sizeof(VBVAREPORTINPUTMAPPING))
{
VBVAREPORTINPUTMAPPING inputMapping;
{
VBVAREPORTINPUTMAPPING RT_UNTRUSTED_VOLATILE_GUEST *pInputMapping
= (VBVAREPORTINPUTMAPPING RT_UNTRUSTED_VOLATILE_GUEST *)pvBuffer;
inputMapping.x = pInputMapping->x;
inputMapping.y = pInputMapping->y;
inputMapping.cx = pInputMapping->cx;
inputMapping.cy = pInputMapping->cy;
}
RT_UNTRUSTED_NONVOLATILE_COPY_FENCE();
LogRelFlowFunc(("VBVA: ChannelHandler: VBVA_REPORT_INPUT_MAPPING: x=%RI32, y=%RI32, cx=%RU32, cy=%RU32\n",
inputMapping.x, inputMapping.y, inputMapping.cx, inputMapping.cy));
pThisCC->pDrv->pfnVBVAInputMappingUpdate(pThisCC->pDrv,
inputMapping.x, inputMapping.y,
inputMapping.cx, inputMapping.cy);
rc = VINF_SUCCESS;
}
else
rc = VERR_INVALID_PARAMETER;
break;
case VBVA_CURSOR_POSITION:
if (cbBuffer >= sizeof(VBVACURSORPOSITION))
{
VBVACURSORPOSITION RT_UNTRUSTED_VOLATILE_GUEST *pReport = (VBVACURSORPOSITION RT_UNTRUSTED_VOLATILE_GUEST *)pvBuffer;
VBVACURSORPOSITION Report;
Report.fReportPosition = pReport->fReportPosition;
Report.x = pReport->x;
Report.y = pReport->y;
RT_UNTRUSTED_NONVOLATILE_COPY_FENCE();
LogRelFlowFunc(("VBVA: ChannelHandler: VBVA_CURSOR_POSITION: fReportPosition=%RTbool, Id=%RU32, x=%RU32, y=%RU32\n",
RT_BOOL(Report.fReportPosition), vbvaViewFromBufferPtr(pIns, pCtx, pvBuffer), Report.x, Report.y));
pThisCC->pDrv->pfnVBVAReportCursorPosition(pThisCC->pDrv, RT_BOOL(Report.fReportPosition), vbvaViewFromBufferPtr(pIns, pCtx, pvBuffer), Report.x, Report.y);
/* This was only ever briefly used by the guest, and a value
* of zero in both was taken to mean "ignore". */
pReport->x = 0;
pReport->y = 0;
rc = VINF_SUCCESS;
}
else
rc = VERR_INVALID_PARAMETER;
break;
default:
Log(("Unsupported VBVA guest command %d (%#x)!!!\n", u16ChannelInfo, u16ChannelInfo));
break;
}
return rc;
}
/** When VBVA is paused, the VGA device is allowed to work but
* no HGSMI etc state is changed.
*/
static void vbvaPause(PVGASTATECC pThisCC, bool fPause)
{
if (!pThisCC || !pThisCC->pHGSMI)
return;
VBVACONTEXT *pCtx = (VBVACONTEXT *)HGSMIContext(pThisCC->pHGSMI);
if (pCtx)
pCtx->fPaused = fPause;
}
bool VBVAIsPaused(PVGASTATECC pThisCC)
{
if (pThisCC && pThisCC->pHGSMI)
{
const VBVACONTEXT *pCtx = (VBVACONTEXT *)HGSMIContext(pThisCC->pHGSMI);
if (pCtx && pCtx->cViews)
{
/* If VBVA is enabled at all. */
const VBVAVIEW *pView = &pCtx->aViews[0];
if (pView->vbva.guest.pVBVA)
return pCtx->fPaused;
}
}
/* VBVA is disabled. */
return true;
}
void VBVAOnVBEChanged(PVGASTATE pThis, PVGASTATECC pThisCC)
{
/* The guest does not depend on host handling the VBE registers. */
if (pThis->fGuestCaps & VBVACAPS_USE_VBVA_ONLY)
return;
vbvaPause(pThisCC, (pThis->vbe_regs[VBE_DISPI_INDEX_ENABLE] & VBE_DISPI_ENABLED) == 0);
}
void VBVAReset(PPDMDEVINS pDevIns, PVGASTATE pThis, PVGASTATECC pThisCC)
{
if (!pThis || !pThisCC->pHGSMI)
return;
VBVACONTEXT *pCtx = (VBVACONTEXT *)HGSMIContext(pThisCC->pHGSMI);
#ifdef VBOX_WITH_VIDEOHWACCEL
vbvaVHWAReset(pDevIns, pThis, pThisCC);
#endif
HGSMIReset(pThisCC->pHGSMI);
/* Make sure the IRQ is reset. */
PDMDevHlpPCISetIrq(pDevIns, 0, PDM_IRQ_LEVEL_LOW);
pThis->fu32PendingGuestFlags = 0;
if (pCtx)
{
vbvaFlush(pThis, pThisCC, pCtx);
for (unsigned idScreen = 0; idScreen < pCtx->cViews; idScreen++)
vbvaDisable(pThis, pThisCC, pCtx, idScreen);
pCtx->mouseShapeInfo.fSet = false;
RTMemFreeZ(pCtx->mouseShapeInfo.pu8Shape, pCtx->mouseShapeInfo.cbAllocated);
pCtx->mouseShapeInfo.pu8Shape = NULL;
pCtx->mouseShapeInfo.cbAllocated = 0;
pCtx->mouseShapeInfo.cbShape = 0;
}
}
int VBVAUpdateDisplay(PVGASTATE pThis, PVGASTATECC pThisCC)
{
int rc = VERR_NOT_SUPPORTED; /* Assuming that the VGA device will have to do updates. */
VBVACONTEXT *pCtx = (VBVACONTEXT *)HGSMIContext(pThisCC->pHGSMI);
if (pCtx)
{
if (!pCtx->fPaused)
{
rc = vbvaFlush(pThis, pThisCC, pCtx);
if (RT_SUCCESS(rc))
{
if (!pCtx->aViews[0].vbva.guest.pVBVA)
{
/* VBVA is not enabled for the first view, so VGA device must do updates. */
rc = VERR_NOT_SUPPORTED;
}
}
}
}
return rc;
}
static int vbvaSendModeHintWorker(PPDMDEVINS pDevIns, PVGASTATE pThis, PVGASTATECC pThisCC,
uint32_t cx, uint32_t cy, uint32_t cBPP, uint32_t iDisplay, uint32_t dx,
uint32_t dy, uint32_t fEnabled,
uint32_t fNotifyGuest)
{
VBVACONTEXT *pCtx = (VBVACONTEXT *)HGSMIContext(pThisCC->pHGSMI);
/** @note See Display::setVideoModeHint: "It is up to the guest to decide
* whether the hint is valid. Therefore don't do any VRAM sanity checks
* here! */
if (iDisplay >= RT_MIN(pThis->cMonitors, RT_ELEMENTS(pCtx->aModeHints)))
return VERR_OUT_OF_RANGE;
pCtx->aModeHints[iDisplay].magic = VBVAMODEHINT_MAGIC;
pCtx->aModeHints[iDisplay].cx = cx;
pCtx->aModeHints[iDisplay].cy = cy;
pCtx->aModeHints[iDisplay].cBPP = cBPP;
pCtx->aModeHints[iDisplay].dx = dx;
pCtx->aModeHints[iDisplay].dy = dy;
pCtx->aModeHints[iDisplay].fEnabled = fEnabled;
if (fNotifyGuest && pThis->fGuestCaps & VBVACAPS_IRQ && pThis->fGuestCaps & VBVACAPS_VIDEO_MODE_HINTS)
VBVARaiseIrq(pDevIns, pThis, pThisCC, HGSMIHOSTFLAGS_HOTPLUG);
return VINF_SUCCESS;
}
/**
* @interface_method_impl{PDMIDISPLAYPORT,pfnSendModeHint}
*/
DECLCALLBACK(int) vbvaR3PortSendModeHint(PPDMIDISPLAYPORT pInterface, uint32_t cx, uint32_t cy, uint32_t cBPP,
uint32_t iDisplay, uint32_t dx, uint32_t dy, uint32_t fEnabled, uint32_t fNotifyGuest)
{
PVGASTATECC pThisCC = RT_FROM_MEMBER(pInterface, VGASTATECC, IPort);
PPDMDEVINS pDevIns = pThisCC->pDevIns;
PVGASTATE pThis = PDMDEVINS_2_DATA(pDevIns, PVGASTATE);
int rc = PDMDevHlpCritSectEnter(pDevIns, &pThis->CritSect, VERR_SEM_BUSY);
AssertRCReturn(rc, rc);
rc = vbvaSendModeHintWorker(pDevIns, pThis, pThisCC, cx, cy, cBPP, iDisplay, dx, dy, fEnabled, fNotifyGuest);
PDMDevHlpCritSectLeave(pDevIns, &pThis->CritSect);
return rc;
}
int VBVAInit(PPDMDEVINS pDevIns, PVGASTATE pThis, PVGASTATECC pThisCC)
{
int rc = HGSMICreate(&pThisCC->pHGSMI,
pDevIns,
"VBVA",
0,
pThisCC->pbVRam,
pThis->vram_size,
vbvaNotifyGuest,
pDevIns,
sizeof(VBVACONTEXT));
if (RT_SUCCESS(rc))
{
rc = HGSMIHostChannelRegister(pThisCC->pHGSMI,
HGSMI_CH_VBVA,
vbvaChannelHandler,
pDevIns);
if (RT_SUCCESS(rc))
{
VBVACONTEXT *pCtx = (VBVACONTEXT *)HGSMIContext(pThisCC->pHGSMI);
pCtx->cViews = pThis->cMonitors;
pCtx->fPaused = true;
memset(pCtx->aModeHints, ~0, sizeof(pCtx->aModeHints));
}
}
return rc;
}
void VBVADestroy(PVGASTATECC pThisCC)
{
PHGSMIINSTANCE pHgsmi = pThisCC->pHGSMI;
if (pHgsmi)
{
VBVACONTEXT *pCtx = (VBVACONTEXT *)HGSMIContext(pHgsmi);
pCtx->mouseShapeInfo.fSet = false;
RTMemFreeZ(pCtx->mouseShapeInfo.pu8Shape, pCtx->mouseShapeInfo.cbAllocated);
pCtx->mouseShapeInfo.pu8Shape = NULL;
pCtx->mouseShapeInfo.cbAllocated = 0;
pCtx->mouseShapeInfo.cbShape = 0;
HGSMIDestroy(pHgsmi);
pThisCC->pHGSMI = NULL;
}
}
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