/* $Id: DisplayImpl.cpp 42479 2012-07-31 13:32:00Z vboxsync $ */ /** @file * VirtualBox COM class implementation */ /* * Copyright (C) 2006-2012 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. */ #include "DisplayImpl.h" #include "DisplayUtils.h" #include "ConsoleImpl.h" #include "ConsoleVRDPServer.h" #include "VMMDev.h" #include "AutoCaller.h" #include "Logging.h" /* generated header */ #include "VBoxEvents.h" #include #include #include #include #include #ifdef DEBUG /* for VM_ASSERT_EMT(). */ # include #endif #ifdef VBOX_WITH_VIDEOHWACCEL # include #endif #if defined(VBOX_WITH_CROGL) || defined(VBOX_WITH_CRHGSMI) # include #endif #include #ifdef VBOX_WITH_VPX_MAIN # include "EncodeAndWrite.h" PVIDEORECCONTEXT pVideoRecContext; #endif /** * Display driver instance data. * * @implements PDMIDISPLAYCONNECTOR */ typedef struct DRVMAINDISPLAY { /** Pointer to the display object. */ Display *pDisplay; /** Pointer to the driver instance structure. */ PPDMDRVINS pDrvIns; /** Pointer to the keyboard port interface of the driver/device above us. */ PPDMIDISPLAYPORT pUpPort; /** Our display connector interface. */ PDMIDISPLAYCONNECTOR IConnector; #if defined(VBOX_WITH_VIDEOHWACCEL) || defined(VBOX_WITH_CRHGSMI) /** VBVA callbacks */ PPDMIDISPLAYVBVACALLBACKS pVBVACallbacks; #endif } DRVMAINDISPLAY, *PDRVMAINDISPLAY; /** Converts PDMIDISPLAYCONNECTOR pointer to a DRVMAINDISPLAY pointer. */ #define PDMIDISPLAYCONNECTOR_2_MAINDISPLAY(pInterface) RT_FROM_MEMBER(pInterface, DRVMAINDISPLAY, IConnector) #ifdef DEBUG_sunlover static STAMPROFILE StatDisplayRefresh; static int stam = 0; #endif /* DEBUG_sunlover */ // constructor / destructor ///////////////////////////////////////////////////////////////////////////// Display::Display() : mParent(NULL) { } Display::~Display() { } HRESULT Display::FinalConstruct() { mpVbvaMemory = NULL; mfVideoAccelEnabled = false; mfVideoAccelVRDP = false; mfu32SupportedOrders = 0; mcVideoAccelVRDPRefs = 0; mpPendingVbvaMemory = NULL; mfPendingVideoAccelEnable = false; mfMachineRunning = false; mpu8VbvaPartial = NULL; mcbVbvaPartial = 0; mpDrv = NULL; mpVMMDev = NULL; mfVMMDevInited = false; mLastAddress = NULL; mLastBytesPerLine = 0; mLastBitsPerPixel = 0, mLastWidth = 0; mLastHeight = 0; int rc = RTCritSectInit(&mVBVALock); AssertRC(rc); mfu32PendingVideoAccelDisable = false; #ifdef VBOX_WITH_HGSMI mu32UpdateVBVAFlags = 0; #endif return BaseFinalConstruct(); } void Display::FinalRelease() { uninit(); if (RTCritSectIsInitialized (&mVBVALock)) { RTCritSectDelete (&mVBVALock); memset (&mVBVALock, 0, sizeof (mVBVALock)); } BaseFinalRelease(); } // public initializer/uninitializer for internal purposes only ///////////////////////////////////////////////////////////////////////////// #define kMaxSizeThumbnail 64 /** * Save thumbnail and screenshot of the guest screen. */ static int displayMakeThumbnail(uint8_t *pu8Data, uint32_t cx, uint32_t cy, uint8_t **ppu8Thumbnail, uint32_t *pcbThumbnail, uint32_t *pcxThumbnail, uint32_t *pcyThumbnail) { int rc = VINF_SUCCESS; uint8_t *pu8Thumbnail = NULL; uint32_t cbThumbnail = 0; uint32_t cxThumbnail = 0; uint32_t cyThumbnail = 0; if (cx > cy) { cxThumbnail = kMaxSizeThumbnail; cyThumbnail = (kMaxSizeThumbnail * cy) / cx; } else { cyThumbnail = kMaxSizeThumbnail; cxThumbnail = (kMaxSizeThumbnail * cx) / cy; } LogRelFlowFunc(("%dx%d -> %dx%d\n", cx, cy, cxThumbnail, cyThumbnail)); cbThumbnail = cxThumbnail * 4 * cyThumbnail; pu8Thumbnail = (uint8_t *)RTMemAlloc(cbThumbnail); if (pu8Thumbnail) { uint8_t *dst = pu8Thumbnail; uint8_t *src = pu8Data; int dstW = cxThumbnail; int dstH = cyThumbnail; int srcW = cx; int srcH = cy; int iDeltaLine = cx * 4; BitmapScale32 (dst, dstW, dstH, src, iDeltaLine, srcW, srcH); *ppu8Thumbnail = pu8Thumbnail; *pcbThumbnail = cbThumbnail; *pcxThumbnail = cxThumbnail; *pcyThumbnail = cyThumbnail; } else { rc = VERR_NO_MEMORY; } return rc; } DECLCALLBACK(void) Display::displaySSMSaveScreenshot(PSSMHANDLE pSSM, void *pvUser) { Display *that = static_cast(pvUser); /* 32bpp small RGB image. */ uint8_t *pu8Thumbnail = NULL; uint32_t cbThumbnail = 0; uint32_t cxThumbnail = 0; uint32_t cyThumbnail = 0; /* PNG screenshot. */ uint8_t *pu8PNG = NULL; uint32_t cbPNG = 0; uint32_t cxPNG = 0; uint32_t cyPNG = 0; Console::SafeVMPtr pVM (that->mParent); if (SUCCEEDED(pVM.rc())) { /* Query RGB bitmap. */ uint8_t *pu8Data = NULL; size_t cbData = 0; uint32_t cx = 0; uint32_t cy = 0; /* SSM code is executed on EMT(0), therefore no need to use VMR3ReqCallWait. */ int rc = Display::displayTakeScreenshotEMT(that, VBOX_VIDEO_PRIMARY_SCREEN, &pu8Data, &cbData, &cx, &cy); /* * It is possible that success is returned but everything is 0 or NULL. * (no display attached if a VM is running with VBoxHeadless on OSE for example) */ if (RT_SUCCESS(rc) && pu8Data) { Assert(cx && cy); /* Prepare a small thumbnail and a PNG screenshot. */ displayMakeThumbnail(pu8Data, cx, cy, &pu8Thumbnail, &cbThumbnail, &cxThumbnail, &cyThumbnail); rc = DisplayMakePNG(pu8Data, cx, cy, &pu8PNG, &cbPNG, &cxPNG, &cyPNG, 1); if (RT_FAILURE(rc)) { if (pu8PNG) { RTMemFree(pu8PNG); pu8PNG = NULL; } cbPNG = 0; cxPNG = 0; cyPNG = 0; } /* This can be called from any thread. */ that->mpDrv->pUpPort->pfnFreeScreenshot(that->mpDrv->pUpPort, pu8Data); } } else { LogFunc(("Failed to get VM pointer 0x%x\n", pVM.rc())); } /* Regardless of rc, save what is available: * Data format: * uint32_t cBlocks; * [blocks] * * Each block is: * uint32_t cbBlock; if 0 - no 'block data'. * uint32_t typeOfBlock; 0 - 32bpp RGB bitmap, 1 - PNG, ignored if 'cbBlock' is 0. * [block data] * * Block data for bitmap and PNG: * uint32_t cx; * uint32_t cy; * [image data] */ SSMR3PutU32(pSSM, 2); /* Write thumbnail and PNG screenshot. */ /* First block. */ SSMR3PutU32(pSSM, cbThumbnail + 2 * sizeof (uint32_t)); SSMR3PutU32(pSSM, 0); /* Block type: thumbnail. */ if (cbThumbnail) { SSMR3PutU32(pSSM, cxThumbnail); SSMR3PutU32(pSSM, cyThumbnail); SSMR3PutMem(pSSM, pu8Thumbnail, cbThumbnail); } /* Second block. */ SSMR3PutU32(pSSM, cbPNG + 2 * sizeof (uint32_t)); SSMR3PutU32(pSSM, 1); /* Block type: png. */ if (cbPNG) { SSMR3PutU32(pSSM, cxPNG); SSMR3PutU32(pSSM, cyPNG); SSMR3PutMem(pSSM, pu8PNG, cbPNG); } RTMemFree(pu8PNG); RTMemFree(pu8Thumbnail); } DECLCALLBACK(int) Display::displaySSMLoadScreenshot(PSSMHANDLE pSSM, void *pvUser, uint32_t uVersion, uint32_t uPass) { Display *that = static_cast(pvUser); if (uVersion != sSSMDisplayScreenshotVer) return VERR_SSM_UNSUPPORTED_DATA_UNIT_VERSION; Assert(uPass == SSM_PASS_FINAL); NOREF(uPass); /* Skip data. */ uint32_t cBlocks; int rc = SSMR3GetU32(pSSM, &cBlocks); AssertRCReturn(rc, rc); for (uint32_t i = 0; i < cBlocks; i++) { uint32_t cbBlock; rc = SSMR3GetU32(pSSM, &cbBlock); AssertRCBreak(rc); uint32_t typeOfBlock; rc = SSMR3GetU32(pSSM, &typeOfBlock); AssertRCBreak(rc); LogRelFlowFunc(("[%d] type %d, size %d bytes\n", i, typeOfBlock, cbBlock)); /* Note: displaySSMSaveScreenshot writes size of a block = 8 and * do not write any data if the image size was 0. * @todo Fix and increase saved state version. */ if (cbBlock > 2 * sizeof (uint32_t)) { rc = SSMR3Skip(pSSM, cbBlock); AssertRCBreak(rc); } } return rc; } /** * Save/Load some important guest state */ DECLCALLBACK(void) Display::displaySSMSave(PSSMHANDLE pSSM, void *pvUser) { Display *that = static_cast(pvUser); SSMR3PutU32(pSSM, that->mcMonitors); for (unsigned i = 0; i < that->mcMonitors; i++) { SSMR3PutU32(pSSM, that->maFramebuffers[i].u32Offset); SSMR3PutU32(pSSM, that->maFramebuffers[i].u32MaxFramebufferSize); SSMR3PutU32(pSSM, that->maFramebuffers[i].u32InformationSize); SSMR3PutU32(pSSM, that->maFramebuffers[i].w); SSMR3PutU32(pSSM, that->maFramebuffers[i].h); SSMR3PutS32(pSSM, that->maFramebuffers[i].xOrigin); SSMR3PutS32(pSSM, that->maFramebuffers[i].yOrigin); SSMR3PutU32(pSSM, that->maFramebuffers[i].flags); } } DECLCALLBACK(int) Display::displaySSMLoad(PSSMHANDLE pSSM, void *pvUser, uint32_t uVersion, uint32_t uPass) { Display *that = static_cast(pvUser); if (!( uVersion == sSSMDisplayVer || uVersion == sSSMDisplayVer2 || uVersion == sSSMDisplayVer3)) return VERR_SSM_UNSUPPORTED_DATA_UNIT_VERSION; Assert(uPass == SSM_PASS_FINAL); NOREF(uPass); uint32_t cMonitors; int rc = SSMR3GetU32(pSSM, &cMonitors); if (cMonitors != that->mcMonitors) return SSMR3SetCfgError(pSSM, RT_SRC_POS, N_("Number of monitors changed (%d->%d)!"), cMonitors, that->mcMonitors); for (uint32_t i = 0; i < cMonitors; i++) { SSMR3GetU32(pSSM, &that->maFramebuffers[i].u32Offset); SSMR3GetU32(pSSM, &that->maFramebuffers[i].u32MaxFramebufferSize); SSMR3GetU32(pSSM, &that->maFramebuffers[i].u32InformationSize); if ( uVersion == sSSMDisplayVer2 || uVersion == sSSMDisplayVer3) { uint32_t w; uint32_t h; SSMR3GetU32(pSSM, &w); SSMR3GetU32(pSSM, &h); that->maFramebuffers[i].w = w; that->maFramebuffers[i].h = h; } if (uVersion == sSSMDisplayVer3) { int32_t xOrigin; int32_t yOrigin; uint32_t flags; SSMR3GetS32(pSSM, &xOrigin); SSMR3GetS32(pSSM, &yOrigin); SSMR3GetU32(pSSM, &flags); that->maFramebuffers[i].xOrigin = xOrigin; that->maFramebuffers[i].yOrigin = yOrigin; that->maFramebuffers[i].flags = (uint16_t)flags; that->maFramebuffers[i].fDisabled = (that->maFramebuffers[i].flags & VBVA_SCREEN_F_DISABLED) != 0; } } return VINF_SUCCESS; } /** * Initializes the display object. * * @returns COM result indicator * @param parent handle of our parent object * @param qemuConsoleData address of common console data structure */ HRESULT Display::init (Console *aParent) { LogRelFlowFunc(("this=%p: aParent=%p\n", this, aParent)); ComAssertRet(aParent, E_INVALIDARG); /* Enclose the state transition NotReady->InInit->Ready */ AutoInitSpan autoInitSpan(this); AssertReturn(autoInitSpan.isOk(), E_FAIL); unconst(mParent) = aParent; // by default, we have an internal framebuffer which is // NULL, i.e. a black hole for no display output mFramebufferOpened = false; ULONG ul; mParent->machine()->COMGETTER(MonitorCount)(&ul); mcMonitors = ul; for (ul = 0; ul < mcMonitors; ul++) { maFramebuffers[ul].u32Offset = 0; maFramebuffers[ul].u32MaxFramebufferSize = 0; maFramebuffers[ul].u32InformationSize = 0; maFramebuffers[ul].pFramebuffer = NULL; /* All secondary monitors are disabled at startup. */ maFramebuffers[ul].fDisabled = ul > 0; maFramebuffers[ul].xOrigin = 0; maFramebuffers[ul].yOrigin = 0; maFramebuffers[ul].w = 0; maFramebuffers[ul].h = 0; maFramebuffers[ul].flags = maFramebuffers[ul].fDisabled? VBVA_SCREEN_F_DISABLED: 0; maFramebuffers[ul].u16BitsPerPixel = 0; maFramebuffers[ul].pu8FramebufferVRAM = NULL; maFramebuffers[ul].u32LineSize = 0; maFramebuffers[ul].pHostEvents = NULL; maFramebuffers[ul].u32ResizeStatus = ResizeStatus_Void; maFramebuffers[ul].fDefaultFormat = false; memset (&maFramebuffers[ul].dirtyRect, 0 , sizeof (maFramebuffers[ul].dirtyRect)); memset (&maFramebuffers[ul].pendingResize, 0 , sizeof (maFramebuffers[ul].pendingResize)); #ifdef VBOX_WITH_HGSMI maFramebuffers[ul].fVBVAEnabled = false; maFramebuffers[ul].cVBVASkipUpdate = 0; memset (&maFramebuffers[ul].vbvaSkippedRect, 0, sizeof (maFramebuffers[ul].vbvaSkippedRect)); maFramebuffers[ul].pVBVAHostFlags = NULL; #endif /* VBOX_WITH_HGSMI */ } { // register listener for state change events ComPtr es; mParent->COMGETTER(EventSource)(es.asOutParam()); com::SafeArray eventTypes; eventTypes.push_back(VBoxEventType_OnStateChanged); es->RegisterListener(this, ComSafeArrayAsInParam(eventTypes), true); } /* Confirm a successful initialization */ autoInitSpan.setSucceeded(); return S_OK; } /** * Uninitializes the instance and sets the ready flag to FALSE. * Called either from FinalRelease() or by the parent when it gets destroyed. */ void Display::uninit() { LogRelFlowFunc(("this=%p\n", this)); /* Enclose the state transition Ready->InUninit->NotReady */ AutoUninitSpan autoUninitSpan(this); if (autoUninitSpan.uninitDone()) return; ULONG ul; for (ul = 0; ul < mcMonitors; ul++) maFramebuffers[ul].pFramebuffer = NULL; if (mParent) { ComPtr es; mParent->COMGETTER(EventSource)(es.asOutParam()); es->UnregisterListener(this); } unconst(mParent) = NULL; if (mpDrv) mpDrv->pDisplay = NULL; mpDrv = NULL; mpVMMDev = NULL; mfVMMDevInited = true; } /** * Register the SSM methods. Called by the power up thread to be able to * pass pVM */ int Display::registerSSM(PVM pVM) { /* Version 2 adds width and height of the framebuffer; version 3 adds * the framebuffer offset in the virtual desktop and the framebuffer flags. */ int rc = SSMR3RegisterExternal(pVM, "DisplayData", 0, sSSMDisplayVer3, mcMonitors * sizeof(uint32_t) * 8 + sizeof(uint32_t), NULL, NULL, NULL, NULL, displaySSMSave, NULL, NULL, displaySSMLoad, NULL, this); AssertRCReturn(rc, rc); /* * Register loaders for old saved states where iInstance was * 3 * sizeof(uint32_t *) due to a code mistake. */ rc = SSMR3RegisterExternal(pVM, "DisplayData", 12 /*uInstance*/, sSSMDisplayVer, 0 /*cbGuess*/, NULL, NULL, NULL, NULL, NULL, NULL, NULL, displaySSMLoad, NULL, this); AssertRCReturn(rc, rc); rc = SSMR3RegisterExternal(pVM, "DisplayData", 24 /*uInstance*/, sSSMDisplayVer, 0 /*cbGuess*/, NULL, NULL, NULL, NULL, NULL, NULL, NULL, displaySSMLoad, NULL, this); AssertRCReturn(rc, rc); /* uInstance is an arbitrary value greater than 1024. Such a value will ensure a quick seek in saved state file. */ rc = SSMR3RegisterExternal(pVM, "DisplayScreenshot", 1100 /*uInstance*/, sSSMDisplayScreenshotVer, 0 /*cbGuess*/, NULL, NULL, NULL, NULL, displaySSMSaveScreenshot, NULL, NULL, displaySSMLoadScreenshot, NULL, this); AssertRCReturn(rc, rc); return VINF_SUCCESS; } // IEventListener method STDMETHODIMP Display::HandleEvent(IEvent * aEvent) { VBoxEventType_T aType = VBoxEventType_Invalid; aEvent->COMGETTER(Type)(&aType); switch (aType) { case VBoxEventType_OnStateChanged: { ComPtr scev = aEvent; Assert(scev); MachineState_T machineState; scev->COMGETTER(State)(&machineState); if ( machineState == MachineState_Running || machineState == MachineState_Teleporting || machineState == MachineState_LiveSnapshotting ) { LogRelFlowFunc(("Machine is running.\n")); mfMachineRunning = true; } else mfMachineRunning = false; break; } default: AssertFailed(); } return S_OK; } // public methods only for internal purposes ///////////////////////////////////////////////////////////////////////////// /** * @thread EMT */ static int callFramebufferResize (IFramebuffer *pFramebuffer, unsigned uScreenId, ULONG pixelFormat, void *pvVRAM, uint32_t bpp, uint32_t cbLine, int w, int h) { Assert (pFramebuffer); /* Call the framebuffer to try and set required pixelFormat. */ BOOL finished = TRUE; pFramebuffer->RequestResize (uScreenId, pixelFormat, (BYTE *) pvVRAM, bpp, cbLine, w, h, &finished); if (!finished) { LogRelFlowFunc (("External framebuffer wants us to wait!\n")); return VINF_VGA_RESIZE_IN_PROGRESS; } return VINF_SUCCESS; } /** * Handles display resize event. * Disables access to VGA device; * calls the framebuffer RequestResize method; * if framebuffer resizes synchronously, * updates the display connector data and enables access to the VGA device. * * @param w New display width * @param h New display height * * @thread EMT */ int Display::handleDisplayResize (unsigned uScreenId, uint32_t bpp, void *pvVRAM, uint32_t cbLine, int w, int h, uint16_t flags) { LogRel (("Display::handleDisplayResize(): uScreenId = %d, pvVRAM=%p " "w=%d h=%d bpp=%d cbLine=0x%X, flags=0x%X\n", uScreenId, pvVRAM, w, h, bpp, cbLine, flags)); /* If there is no framebuffer, this call is not interesting. */ if ( uScreenId >= mcMonitors || maFramebuffers[uScreenId].pFramebuffer.isNull()) { return VINF_SUCCESS; } mLastAddress = pvVRAM; mLastBytesPerLine = cbLine; mLastBitsPerPixel = bpp, mLastWidth = w; mLastHeight = h; mLastFlags = flags; ULONG pixelFormat; switch (bpp) { case 32: case 24: case 16: pixelFormat = FramebufferPixelFormat_FOURCC_RGB; break; default: pixelFormat = FramebufferPixelFormat_Opaque; bpp = cbLine = 0; break; } /* Atomically set the resize status before calling the framebuffer. The new InProgress status will * disable access to the VGA device by the EMT thread. */ bool f = ASMAtomicCmpXchgU32 (&maFramebuffers[uScreenId].u32ResizeStatus, ResizeStatus_InProgress, ResizeStatus_Void); if (!f) { /* This could be a result of the screenshot taking call Display::TakeScreenShot: * if the framebuffer is processing the resize request and GUI calls the TakeScreenShot * and the guest has reprogrammed the virtual VGA devices again so a new resize is required. * * Save the resize information and return the pending status code. * * Note: the resize information is only accessed on EMT so no serialization is required. */ LogRel (("Display::handleDisplayResize(): Warning: resize postponed.\n")); maFramebuffers[uScreenId].pendingResize.fPending = true; maFramebuffers[uScreenId].pendingResize.pixelFormat = pixelFormat; maFramebuffers[uScreenId].pendingResize.pvVRAM = pvVRAM; maFramebuffers[uScreenId].pendingResize.bpp = bpp; maFramebuffers[uScreenId].pendingResize.cbLine = cbLine; maFramebuffers[uScreenId].pendingResize.w = w; maFramebuffers[uScreenId].pendingResize.h = h; maFramebuffers[uScreenId].pendingResize.flags = flags; return VINF_VGA_RESIZE_IN_PROGRESS; } int rc = callFramebufferResize (maFramebuffers[uScreenId].pFramebuffer, uScreenId, pixelFormat, pvVRAM, bpp, cbLine, w, h); if (rc == VINF_VGA_RESIZE_IN_PROGRESS) { /* Immediately return to the caller. ResizeCompleted will be called back by the * GUI thread. The ResizeCompleted callback will change the resize status from * InProgress to UpdateDisplayData. The latter status will be checked by the * display timer callback on EMT and all required adjustments will be done there. */ return rc; } /* Set the status so the 'handleResizeCompleted' would work. */ f = ASMAtomicCmpXchgU32 (&maFramebuffers[uScreenId].u32ResizeStatus, ResizeStatus_UpdateDisplayData, ResizeStatus_InProgress); AssertRelease(f);NOREF(f); AssertRelease(!maFramebuffers[uScreenId].pendingResize.fPending); /* The method also unlocks the framebuffer. */ handleResizeCompletedEMT(); return VINF_SUCCESS; } /** * Framebuffer has been resized. * Read the new display data and unlock the framebuffer. * * @thread EMT */ void Display::handleResizeCompletedEMT (void) { LogRelFlowFunc(("\n")); unsigned uScreenId; for (uScreenId = 0; uScreenId < mcMonitors; uScreenId++) { DISPLAYFBINFO *pFBInfo = &maFramebuffers[uScreenId]; /* Try to into non resizing state. */ bool f = ASMAtomicCmpXchgU32 (&pFBInfo->u32ResizeStatus, ResizeStatus_Void, ResizeStatus_UpdateDisplayData); if (f == false) { /* This is not the display that has completed resizing. */ continue; } /* Check whether a resize is pending for this framebuffer. */ if (pFBInfo->pendingResize.fPending) { /* Reset the condition, call the display resize with saved data and continue. * * Note: handleDisplayResize can call handleResizeCompletedEMT back, * but infinite recursion is not possible, because when the handleResizeCompletedEMT * is called, the pFBInfo->pendingResize.fPending is equal to false. */ pFBInfo->pendingResize.fPending = false; handleDisplayResize (uScreenId, pFBInfo->pendingResize.bpp, pFBInfo->pendingResize.pvVRAM, pFBInfo->pendingResize.cbLine, pFBInfo->pendingResize.w, pFBInfo->pendingResize.h, pFBInfo->pendingResize.flags); continue; } /* @todo Merge these two 'if's within one 'if (!pFBInfo->pFramebuffer.isNull())' */ if (uScreenId == VBOX_VIDEO_PRIMARY_SCREEN && !pFBInfo->pFramebuffer.isNull()) { /* Primary framebuffer has completed the resize. Update the connector data for VGA device. */ updateDisplayData(); /* Check the framebuffer pixel format to setup the rendering in VGA device. */ BOOL usesGuestVRAM = FALSE; pFBInfo->pFramebuffer->COMGETTER(UsesGuestVRAM) (&usesGuestVRAM); pFBInfo->fDefaultFormat = (usesGuestVRAM == FALSE); /* If the primary framebuffer is disabled, tell the VGA device to not to copy * pixels from VRAM to the framebuffer. */ if (pFBInfo->fDisabled) mpDrv->pUpPort->pfnSetRenderVRAM (mpDrv->pUpPort, false); else mpDrv->pUpPort->pfnSetRenderVRAM (mpDrv->pUpPort, pFBInfo->fDefaultFormat); /* If the screen resize was because of disabling, tell framebuffer to repaint. * The framebuffer if now in default format so it will not use guest VRAM * and will show usually black image which is there after framebuffer resize. */ if (pFBInfo->fDisabled) pFBInfo->pFramebuffer->NotifyUpdate(0, 0, mpDrv->IConnector.cx, mpDrv->IConnector.cy); } else if (!pFBInfo->pFramebuffer.isNull()) { BOOL usesGuestVRAM = FALSE; pFBInfo->pFramebuffer->COMGETTER(UsesGuestVRAM) (&usesGuestVRAM); pFBInfo->fDefaultFormat = (usesGuestVRAM == FALSE); /* If the screen resize was because of disabling, tell framebuffer to repaint. * The framebuffer if now in default format so it will not use guest VRAM * and will show usually black image which is there after framebuffer resize. */ if (pFBInfo->fDisabled) pFBInfo->pFramebuffer->NotifyUpdate(0, 0, pFBInfo->w, pFBInfo->h); } LogRelFlow(("[%d]: default format %d\n", uScreenId, pFBInfo->fDefaultFormat)); #ifdef DEBUG_sunlover if (!stam) { /* protect mpVM */ Console::SafeVMPtr pVM (mParent); AssertComRC (pVM.rc()); STAM_REG(pVM, &StatDisplayRefresh, STAMTYPE_PROFILE, "/PROF/Display/Refresh", STAMUNIT_TICKS_PER_CALL, "Time spent in EMT for display updates."); stam = 1; } #endif /* DEBUG_sunlover */ /* Inform VRDP server about the change of display parameters. */ LogRelFlowFunc (("Calling VRDP\n")); mParent->consoleVRDPServer()->SendResize(); #if defined(VBOX_WITH_HGCM) && defined(VBOX_WITH_CROGL) { BOOL is3denabled; mParent->machine()->COMGETTER(Accelerate3DEnabled)(&is3denabled); if (is3denabled) { VBOXHGCMSVCPARM parm; parm.type = VBOX_HGCM_SVC_PARM_32BIT; parm.u.uint32 = uScreenId; VMMDev *pVMMDev = mParent->getVMMDev(); if (pVMMDev) pVMMDev->hgcmHostCall("VBoxSharedCrOpenGL", SHCRGL_HOST_FN_SCREEN_CHANGED, SHCRGL_CPARMS_SCREEN_CHANGED, &parm); } } #endif /* VBOX_WITH_CROGL */ } } static void checkCoordBounds (int *px, int *py, int *pw, int *ph, int cx, int cy) { /* Correct negative x and y coordinates. */ if (*px < 0) { *px += *pw; /* Compute xRight which is also the new width. */ *pw = (*px < 0)? 0: *px; *px = 0; } if (*py < 0) { *py += *ph; /* Compute xBottom, which is also the new height. */ *ph = (*py < 0)? 0: *py; *py = 0; } /* Also check if coords are greater than the display resolution. */ if (*px + *pw > cx) { *pw = cx > *px? cx - *px: 0; } if (*py + *ph > cy) { *ph = cy > *py? cy - *py: 0; } } unsigned mapCoordsToScreen(DISPLAYFBINFO *pInfos, unsigned cInfos, int *px, int *py, int *pw, int *ph) { DISPLAYFBINFO *pInfo = pInfos; unsigned uScreenId; LogSunlover (("mapCoordsToScreen: %d,%d %dx%d\n", *px, *py, *pw, *ph)); for (uScreenId = 0; uScreenId < cInfos; uScreenId++, pInfo++) { LogSunlover ((" [%d] %d,%d %dx%d\n", uScreenId, pInfo->xOrigin, pInfo->yOrigin, pInfo->w, pInfo->h)); if ( (pInfo->xOrigin <= *px && *px < pInfo->xOrigin + (int)pInfo->w) && (pInfo->yOrigin <= *py && *py < pInfo->yOrigin + (int)pInfo->h)) { /* The rectangle belongs to the screen. Correct coordinates. */ *px -= pInfo->xOrigin; *py -= pInfo->yOrigin; LogSunlover ((" -> %d,%d", *px, *py)); break; } } if (uScreenId == cInfos) { /* Map to primary screen. */ uScreenId = 0; } LogSunlover ((" scr %d\n", uScreenId)); return uScreenId; } /** * Handles display update event. * * @param x Update area x coordinate * @param y Update area y coordinate * @param w Update area width * @param h Update area height * * @thread EMT */ void Display::handleDisplayUpdateLegacy (int x, int y, int w, int h) { unsigned uScreenId = mapCoordsToScreen(maFramebuffers, mcMonitors, &x, &y, &w, &h); #ifdef DEBUG_sunlover LogFlowFunc (("%d,%d %dx%d (checked)\n", x, y, w, h)); #endif /* DEBUG_sunlover */ handleDisplayUpdate (uScreenId, x, y, w, h); } void Display::handleDisplayUpdate (unsigned uScreenId, int x, int y, int w, int h) { /* * Always runs under either VBVA lock or, for HGSMI, DevVGA lock. * Safe to use VBVA vars and take the framebuffer lock. */ #ifdef DEBUG_sunlover LogFlowFunc (("[%d] %d,%d %dx%d (%d,%d)\n", uScreenId, x, y, w, h, mpDrv->IConnector.cx, mpDrv->IConnector.cy)); #endif /* DEBUG_sunlover */ IFramebuffer *pFramebuffer = maFramebuffers[uScreenId].pFramebuffer; // if there is no framebuffer, this call is not interesting if ( pFramebuffer == NULL || maFramebuffers[uScreenId].fDisabled) return; pFramebuffer->Lock(); if (uScreenId == VBOX_VIDEO_PRIMARY_SCREEN) checkCoordBounds (&x, &y, &w, &h, mpDrv->IConnector.cx, mpDrv->IConnector.cy); else checkCoordBounds (&x, &y, &w, &h, maFramebuffers[uScreenId].w, maFramebuffers[uScreenId].h); if (w != 0 && h != 0) pFramebuffer->NotifyUpdate(x, y, w, h); pFramebuffer->Unlock(); #ifndef VBOX_WITH_HGSMI if (!mfVideoAccelEnabled) { #else if (!mfVideoAccelEnabled && !maFramebuffers[uScreenId].fVBVAEnabled) { #endif /* VBOX_WITH_HGSMI */ /* When VBVA is enabled, the VRDP server is informed in the VideoAccelFlush. * Inform the server here only if VBVA is disabled. */ if (maFramebuffers[uScreenId].u32ResizeStatus == ResizeStatus_Void) mParent->consoleVRDPServer()->SendUpdateBitmap(uScreenId, x, y, w, h); } } /** * Returns the upper left and lower right corners of the virtual framebuffer. * The lower right is "exclusive" (i.e. first pixel beyond the framebuffer), * and the origin is (0, 0), not (1, 1) like the GUI returns. */ void Display::getFramebufferDimensions(int32_t *px1, int32_t *py1, int32_t *px2, int32_t *py2) { int32_t x1 = 0, y1 = 0, x2 = 0, y2 = 0; AutoReadLock alock(this COMMA_LOCKVAL_SRC_POS); AssertPtrReturnVoid(px1); AssertPtrReturnVoid(py1); AssertPtrReturnVoid(px2); AssertPtrReturnVoid(py2); LogRelFlowFunc(("\n")); if (!mpDrv) return; /* If VBVA is not in use then this flag will not be set and this * will still work as it should. */ if (!(maFramebuffers[0].fDisabled)) { x1 = (int32_t)maFramebuffers[0].xOrigin; y1 = (int32_t)maFramebuffers[0].yOrigin; x2 = mpDrv->IConnector.cx + (int32_t)maFramebuffers[0].xOrigin; y2 = mpDrv->IConnector.cy + (int32_t)maFramebuffers[0].yOrigin; } for (unsigned i = 1; i < mcMonitors; ++i) { if (!(maFramebuffers[i].fDisabled)) { x1 = RT_MIN(x1, maFramebuffers[i].xOrigin); y1 = RT_MIN(y1, maFramebuffers[i].yOrigin); x2 = RT_MAX(x2, maFramebuffers[i].xOrigin + (int32_t)maFramebuffers[i].w); y2 = RT_MAX(y2, maFramebuffers[i].yOrigin + (int32_t)maFramebuffers[i].h); } } *px1 = x1; *py1 = y1; *px2 = x2; *py2 = y2; } static bool displayIntersectRect(RTRECT *prectResult, const RTRECT *prect1, const RTRECT *prect2) { /* Initialize result to an empty record. */ memset (prectResult, 0, sizeof (RTRECT)); int xLeftResult = RT_MAX(prect1->xLeft, prect2->xLeft); int xRightResult = RT_MIN(prect1->xRight, prect2->xRight); if (xLeftResult < xRightResult) { /* There is intersection by X. */ int yTopResult = RT_MAX(prect1->yTop, prect2->yTop); int yBottomResult = RT_MIN(prect1->yBottom, prect2->yBottom); if (yTopResult < yBottomResult) { /* There is intersection by Y. */ prectResult->xLeft = xLeftResult; prectResult->yTop = yTopResult; prectResult->xRight = xRightResult; prectResult->yBottom = yBottomResult; return true; } } return false; } int Display::handleSetVisibleRegion(uint32_t cRect, PRTRECT pRect) { RTRECT *pVisibleRegion = (RTRECT *)RTMemTmpAlloc( RT_MAX(cRect, 1) * sizeof (RTRECT)); if (!pVisibleRegion) { return VERR_NO_TMP_MEMORY; } unsigned uScreenId; for (uScreenId = 0; uScreenId < mcMonitors; uScreenId++) { DISPLAYFBINFO *pFBInfo = &maFramebuffers[uScreenId]; if (!pFBInfo->pFramebuffer.isNull()) { /* Prepare a new array of rectangles which intersect with the framebuffer. */ RTRECT rectFramebuffer; if (uScreenId == VBOX_VIDEO_PRIMARY_SCREEN) { rectFramebuffer.xLeft = 0; rectFramebuffer.yTop = 0; if (mpDrv) { rectFramebuffer.xRight = mpDrv->IConnector.cx; rectFramebuffer.yBottom = mpDrv->IConnector.cy; } else { rectFramebuffer.xRight = 0; rectFramebuffer.yBottom = 0; } } else { rectFramebuffer.xLeft = pFBInfo->xOrigin; rectFramebuffer.yTop = pFBInfo->yOrigin; rectFramebuffer.xRight = pFBInfo->xOrigin + pFBInfo->w; rectFramebuffer.yBottom = pFBInfo->yOrigin + pFBInfo->h; } uint32_t cRectVisibleRegion = 0; uint32_t i; for (i = 0; i < cRect; i++) { if (displayIntersectRect(&pVisibleRegion[cRectVisibleRegion], &pRect[i], &rectFramebuffer)) { pVisibleRegion[cRectVisibleRegion].xLeft -= pFBInfo->xOrigin; pVisibleRegion[cRectVisibleRegion].yTop -= pFBInfo->yOrigin; pVisibleRegion[cRectVisibleRegion].xRight -= pFBInfo->xOrigin; pVisibleRegion[cRectVisibleRegion].yBottom -= pFBInfo->yOrigin; cRectVisibleRegion++; } } pFBInfo->pFramebuffer->SetVisibleRegion((BYTE *)pVisibleRegion, cRectVisibleRegion); } } #if defined(RT_OS_DARWIN) && defined(VBOX_WITH_HGCM) && defined(VBOX_WITH_CROGL) // @todo fix for multimonitor BOOL is3denabled = FALSE; mParent->machine()->COMGETTER(Accelerate3DEnabled)(&is3denabled); VMMDev *vmmDev = mParent->getVMMDev(); if (is3denabled && vmmDev) { VBOXHGCMSVCPARM parms[2]; parms[0].type = VBOX_HGCM_SVC_PARM_PTR; parms[0].u.pointer.addr = pRect; parms[0].u.pointer.size = 0; /* We don't actually care. */ parms[1].type = VBOX_HGCM_SVC_PARM_32BIT; parms[1].u.uint32 = cRect; vmmDev->hgcmHostCall("VBoxSharedCrOpenGL", SHCRGL_HOST_FN_SET_VISIBLE_REGION, 2, &parms[0]); } #endif RTMemTmpFree(pVisibleRegion); return VINF_SUCCESS; } int Display::handleQueryVisibleRegion(uint32_t *pcRect, PRTRECT pRect) { // @todo Currently not used by the guest and is not implemented in framebuffers. Remove? return VERR_NOT_SUPPORTED; } typedef struct _VBVADIRTYREGION { /* Copies of object's pointers used by vbvaRgn functions. */ DISPLAYFBINFO *paFramebuffers; unsigned cMonitors; Display *pDisplay; PPDMIDISPLAYPORT pPort; } VBVADIRTYREGION; static void vbvaRgnInit (VBVADIRTYREGION *prgn, DISPLAYFBINFO *paFramebuffers, unsigned cMonitors, Display *pd, PPDMIDISPLAYPORT pp) { prgn->paFramebuffers = paFramebuffers; prgn->cMonitors = cMonitors; prgn->pDisplay = pd; prgn->pPort = pp; unsigned uScreenId; for (uScreenId = 0; uScreenId < cMonitors; uScreenId++) { DISPLAYFBINFO *pFBInfo = &prgn->paFramebuffers[uScreenId]; memset (&pFBInfo->dirtyRect, 0, sizeof (pFBInfo->dirtyRect)); } } static void vbvaRgnDirtyRect (VBVADIRTYREGION *prgn, unsigned uScreenId, VBVACMDHDR *phdr) { LogSunlover (("x = %d, y = %d, w = %d, h = %d\n", phdr->x, phdr->y, phdr->w, phdr->h)); /* * Here update rectangles are accumulated to form an update area. * @todo * Now the simplest method is used which builds one rectangle that * includes all update areas. A bit more advanced method can be * employed here. The method should be fast however. */ if (phdr->w == 0 || phdr->h == 0) { /* Empty rectangle. */ return; } int32_t xRight = phdr->x + phdr->w; int32_t yBottom = phdr->y + phdr->h; DISPLAYFBINFO *pFBInfo = &prgn->paFramebuffers[uScreenId]; if (pFBInfo->dirtyRect.xRight == 0) { /* This is the first rectangle to be added. */ pFBInfo->dirtyRect.xLeft = phdr->x; pFBInfo->dirtyRect.yTop = phdr->y; pFBInfo->dirtyRect.xRight = xRight; pFBInfo->dirtyRect.yBottom = yBottom; } else { /* Adjust region coordinates. */ if (pFBInfo->dirtyRect.xLeft > phdr->x) { pFBInfo->dirtyRect.xLeft = phdr->x; } if (pFBInfo->dirtyRect.yTop > phdr->y) { pFBInfo->dirtyRect.yTop = phdr->y; } if (pFBInfo->dirtyRect.xRight < xRight) { pFBInfo->dirtyRect.xRight = xRight; } if (pFBInfo->dirtyRect.yBottom < yBottom) { pFBInfo->dirtyRect.yBottom = yBottom; } } if (pFBInfo->fDefaultFormat) { //@todo pfnUpdateDisplayRect must take the vram offset parameter for the framebuffer prgn->pPort->pfnUpdateDisplayRect (prgn->pPort, phdr->x, phdr->y, phdr->w, phdr->h); prgn->pDisplay->handleDisplayUpdateLegacy (phdr->x + pFBInfo->xOrigin, phdr->y + pFBInfo->yOrigin, phdr->w, phdr->h); } return; } static void vbvaRgnUpdateFramebuffer (VBVADIRTYREGION *prgn, unsigned uScreenId) { DISPLAYFBINFO *pFBInfo = &prgn->paFramebuffers[uScreenId]; uint32_t w = pFBInfo->dirtyRect.xRight - pFBInfo->dirtyRect.xLeft; uint32_t h = pFBInfo->dirtyRect.yBottom - pFBInfo->dirtyRect.yTop; if (!pFBInfo->fDefaultFormat && pFBInfo->pFramebuffer && w != 0 && h != 0) { //@todo pfnUpdateDisplayRect must take the vram offset parameter for the framebuffer prgn->pPort->pfnUpdateDisplayRect (prgn->pPort, pFBInfo->dirtyRect.xLeft, pFBInfo->dirtyRect.yTop, w, h); prgn->pDisplay->handleDisplayUpdateLegacy (pFBInfo->dirtyRect.xLeft + pFBInfo->xOrigin, pFBInfo->dirtyRect.yTop + pFBInfo->yOrigin, w, h); } } static void vbvaSetMemoryFlags (VBVAMEMORY *pVbvaMemory, bool fVideoAccelEnabled, bool fVideoAccelVRDP, uint32_t fu32SupportedOrders, DISPLAYFBINFO *paFBInfos, unsigned cFBInfos) { if (pVbvaMemory) { /* This called only on changes in mode. So reset VRDP always. */ uint32_t fu32Flags = VBVA_F_MODE_VRDP_RESET; if (fVideoAccelEnabled) { fu32Flags |= VBVA_F_MODE_ENABLED; if (fVideoAccelVRDP) { fu32Flags |= VBVA_F_MODE_VRDP | VBVA_F_MODE_VRDP_ORDER_MASK; pVbvaMemory->fu32SupportedOrders = fu32SupportedOrders; } } pVbvaMemory->fu32ModeFlags = fu32Flags; } unsigned uScreenId; for (uScreenId = 0; uScreenId < cFBInfos; uScreenId++) { if (paFBInfos[uScreenId].pHostEvents) { paFBInfos[uScreenId].pHostEvents->fu32Events |= VBOX_VIDEO_INFO_HOST_EVENTS_F_VRDP_RESET; } } } #ifdef VBOX_WITH_HGSMI static void vbvaSetMemoryFlagsHGSMI (unsigned uScreenId, uint32_t fu32SupportedOrders, bool fVideoAccelVRDP, DISPLAYFBINFO *pFBInfo) { LogRelFlowFunc(("HGSMI[%d]: %p\n", uScreenId, pFBInfo->pVBVAHostFlags)); if (pFBInfo->pVBVAHostFlags) { uint32_t fu32HostEvents = VBOX_VIDEO_INFO_HOST_EVENTS_F_VRDP_RESET; if (pFBInfo->fVBVAEnabled) { fu32HostEvents |= VBVA_F_MODE_ENABLED; if (fVideoAccelVRDP) { fu32HostEvents |= VBVA_F_MODE_VRDP; } } ASMAtomicWriteU32(&pFBInfo->pVBVAHostFlags->u32HostEvents, fu32HostEvents); ASMAtomicWriteU32(&pFBInfo->pVBVAHostFlags->u32SupportedOrders, fu32SupportedOrders); LogRelFlowFunc((" fu32HostEvents = 0x%08X, fu32SupportedOrders = 0x%08X\n", fu32HostEvents, fu32SupportedOrders)); } } static void vbvaSetMemoryFlagsAllHGSMI (uint32_t fu32SupportedOrders, bool fVideoAccelVRDP, DISPLAYFBINFO *paFBInfos, unsigned cFBInfos) { unsigned uScreenId; for (uScreenId = 0; uScreenId < cFBInfos; uScreenId++) { vbvaSetMemoryFlagsHGSMI(uScreenId, fu32SupportedOrders, fVideoAccelVRDP, &paFBInfos[uScreenId]); } } #endif /* VBOX_WITH_HGSMI */ bool Display::VideoAccelAllowed (void) { return true; } int Display::vbvaLock(void) { return RTCritSectEnter(&mVBVALock); } void Display::vbvaUnlock(void) { RTCritSectLeave(&mVBVALock); } /** * @thread EMT */ int Display::VideoAccelEnable (bool fEnable, VBVAMEMORY *pVbvaMemory) { int rc; vbvaLock(); rc = videoAccelEnable (fEnable, pVbvaMemory); vbvaUnlock(); return rc; } int Display::videoAccelEnable (bool fEnable, VBVAMEMORY *pVbvaMemory) { int rc = VINF_SUCCESS; /* Called each time the guest wants to use acceleration, * or when the VGA device disables acceleration, * or when restoring the saved state with accel enabled. * * VGA device disables acceleration on each video mode change * and on reset. * * Guest enabled acceleration at will. And it has to enable * acceleration after a mode change. */ LogRelFlowFunc (("mfVideoAccelEnabled = %d, fEnable = %d, pVbvaMemory = %p\n", mfVideoAccelEnabled, fEnable, pVbvaMemory)); /* Strictly check parameters. Callers must not pass anything in the case. */ Assert((fEnable && pVbvaMemory) || (!fEnable && pVbvaMemory == NULL)); if (!VideoAccelAllowed ()) return VERR_NOT_SUPPORTED; /* * Verify that the VM is in running state. If it is not, * then this must be postponed until it goes to running. */ if (!mfMachineRunning) { Assert (!mfVideoAccelEnabled); LogRelFlowFunc (("Machine is not yet running.\n")); if (fEnable) { mfPendingVideoAccelEnable = fEnable; mpPendingVbvaMemory = pVbvaMemory; } return rc; } /* Check that current status is not being changed */ if (mfVideoAccelEnabled == fEnable) return rc; if (mfVideoAccelEnabled) { /* Process any pending orders and empty the VBVA ring buffer. */ videoAccelFlush (); } if (!fEnable && mpVbvaMemory) mpVbvaMemory->fu32ModeFlags &= ~VBVA_F_MODE_ENABLED; /* Safety precaution. There is no more VBVA until everything is setup! */ mpVbvaMemory = NULL; mfVideoAccelEnabled = false; /* Update entire display. */ if (maFramebuffers[VBOX_VIDEO_PRIMARY_SCREEN].u32ResizeStatus == ResizeStatus_Void) mpDrv->pUpPort->pfnUpdateDisplayAll(mpDrv->pUpPort); /* Everything OK. VBVA status can be changed. */ /* Notify the VMMDev, which saves VBVA status in the saved state, * and needs to know current status. */ VMMDev *pVMMDev = mParent->getVMMDev(); if (pVMMDev) { PPDMIVMMDEVPORT pVMMDevPort = pVMMDev->getVMMDevPort(); if (pVMMDevPort) pVMMDevPort->pfnVBVAChange(pVMMDevPort, fEnable); } if (fEnable) { mpVbvaMemory = pVbvaMemory; mfVideoAccelEnabled = true; /* Initialize the hardware memory. */ vbvaSetMemoryFlags(mpVbvaMemory, mfVideoAccelEnabled, mfVideoAccelVRDP, mfu32SupportedOrders, maFramebuffers, mcMonitors); mpVbvaMemory->off32Data = 0; mpVbvaMemory->off32Free = 0; memset(mpVbvaMemory->aRecords, 0, sizeof (mpVbvaMemory->aRecords)); mpVbvaMemory->indexRecordFirst = 0; mpVbvaMemory->indexRecordFree = 0; mfu32PendingVideoAccelDisable = false; LogRel(("VBVA: Enabled.\n")); } else { LogRel(("VBVA: Disabled.\n")); } LogRelFlowFunc (("VideoAccelEnable: rc = %Rrc.\n", rc)); return rc; } /* Called always by one VRDP server thread. Can be thread-unsafe. */ void Display::VideoAccelVRDP (bool fEnable) { LogRelFlowFunc(("fEnable = %d\n", fEnable)); vbvaLock(); int c = fEnable? ASMAtomicIncS32 (&mcVideoAccelVRDPRefs): ASMAtomicDecS32 (&mcVideoAccelVRDPRefs); Assert (c >= 0); if (c == 0) { /* The last client has disconnected, and the accel can be * disabled. */ Assert (fEnable == false); mfVideoAccelVRDP = false; mfu32SupportedOrders = 0; vbvaSetMemoryFlags (mpVbvaMemory, mfVideoAccelEnabled, mfVideoAccelVRDP, mfu32SupportedOrders, maFramebuffers, mcMonitors); #ifdef VBOX_WITH_HGSMI /* Here is VRDP-IN thread. Process the request in vbvaUpdateBegin under DevVGA lock on an EMT. */ ASMAtomicIncU32(&mu32UpdateVBVAFlags); #endif /* VBOX_WITH_HGSMI */ LogRel(("VBVA: VRDP acceleration has been disabled.\n")); } else if ( c == 1 && !mfVideoAccelVRDP) { /* The first client has connected. Enable the accel. */ Assert (fEnable == true); mfVideoAccelVRDP = true; /* Supporting all orders. */ mfu32SupportedOrders = ~0; vbvaSetMemoryFlags (mpVbvaMemory, mfVideoAccelEnabled, mfVideoAccelVRDP, mfu32SupportedOrders, maFramebuffers, mcMonitors); #ifdef VBOX_WITH_HGSMI /* Here is VRDP-IN thread. Process the request in vbvaUpdateBegin under DevVGA lock on an EMT. */ ASMAtomicIncU32(&mu32UpdateVBVAFlags); #endif /* VBOX_WITH_HGSMI */ LogRel(("VBVA: VRDP acceleration has been requested.\n")); } else { /* A client is connected or disconnected but there is no change in the * accel state. It remains enabled. */ Assert (mfVideoAccelVRDP == true); } vbvaUnlock(); } static bool vbvaVerifyRingBuffer (VBVAMEMORY *pVbvaMemory) { return true; } static void vbvaFetchBytes (VBVAMEMORY *pVbvaMemory, uint8_t *pu8Dst, uint32_t cbDst) { if (cbDst >= VBVA_RING_BUFFER_SIZE) { AssertMsgFailed (("cbDst = 0x%08X, ring buffer size 0x%08X", cbDst, VBVA_RING_BUFFER_SIZE)); return; } uint32_t u32BytesTillBoundary = VBVA_RING_BUFFER_SIZE - pVbvaMemory->off32Data; uint8_t *src = &pVbvaMemory->au8RingBuffer[pVbvaMemory->off32Data]; int32_t i32Diff = cbDst - u32BytesTillBoundary; if (i32Diff <= 0) { /* Chunk will not cross buffer boundary. */ memcpy (pu8Dst, src, cbDst); } else { /* Chunk crosses buffer boundary. */ memcpy (pu8Dst, src, u32BytesTillBoundary); memcpy (pu8Dst + u32BytesTillBoundary, &pVbvaMemory->au8RingBuffer[0], i32Diff); } /* Advance data offset. */ pVbvaMemory->off32Data = (pVbvaMemory->off32Data + cbDst) % VBVA_RING_BUFFER_SIZE; return; } static bool vbvaPartialRead (uint8_t **ppu8, uint32_t *pcb, uint32_t cbRecord, VBVAMEMORY *pVbvaMemory) { uint8_t *pu8New; LogFlow(("MAIN::DisplayImpl::vbvaPartialRead: p = %p, cb = %d, cbRecord 0x%08X\n", *ppu8, *pcb, cbRecord)); if (*ppu8) { Assert (*pcb); pu8New = (uint8_t *)RTMemRealloc (*ppu8, cbRecord); } else { Assert (!*pcb); pu8New = (uint8_t *)RTMemAlloc (cbRecord); } if (!pu8New) { /* Memory allocation failed, fail the function. */ Log(("MAIN::vbvaPartialRead: failed to (re)alocate memory for partial record!!! cbRecord 0x%08X\n", cbRecord)); if (*ppu8) { RTMemFree (*ppu8); } *ppu8 = NULL; *pcb = 0; return false; } /* Fetch data from the ring buffer. */ vbvaFetchBytes (pVbvaMemory, pu8New + *pcb, cbRecord - *pcb); *ppu8 = pu8New; *pcb = cbRecord; return true; } /* For contiguous chunks just return the address in the buffer. * For crossing boundary - allocate a buffer from heap. */ bool Display::vbvaFetchCmd (VBVACMDHDR **ppHdr, uint32_t *pcbCmd) { uint32_t indexRecordFirst = mpVbvaMemory->indexRecordFirst; uint32_t indexRecordFree = mpVbvaMemory->indexRecordFree; #ifdef DEBUG_sunlover LogFlowFunc (("first = %d, free = %d\n", indexRecordFirst, indexRecordFree)); #endif /* DEBUG_sunlover */ if (!vbvaVerifyRingBuffer (mpVbvaMemory)) { return false; } if (indexRecordFirst == indexRecordFree) { /* No records to process. Return without assigning output variables. */ return true; } VBVARECORD *pRecord = &mpVbvaMemory->aRecords[indexRecordFirst]; #ifdef DEBUG_sunlover LogFlowFunc (("cbRecord = 0x%08X\n", pRecord->cbRecord)); #endif /* DEBUG_sunlover */ uint32_t cbRecord = pRecord->cbRecord & ~VBVA_F_RECORD_PARTIAL; if (mcbVbvaPartial) { /* There is a partial read in process. Continue with it. */ Assert (mpu8VbvaPartial); LogFlowFunc (("continue partial record mcbVbvaPartial = %d cbRecord 0x%08X, first = %d, free = %d\n", mcbVbvaPartial, pRecord->cbRecord, indexRecordFirst, indexRecordFree)); if (cbRecord > mcbVbvaPartial) { /* New data has been added to the record. */ if (!vbvaPartialRead (&mpu8VbvaPartial, &mcbVbvaPartial, cbRecord, mpVbvaMemory)) { return false; } } if (!(pRecord->cbRecord & VBVA_F_RECORD_PARTIAL)) { /* The record is completed by guest. Return it to the caller. */ *ppHdr = (VBVACMDHDR *)mpu8VbvaPartial; *pcbCmd = mcbVbvaPartial; mpu8VbvaPartial = NULL; mcbVbvaPartial = 0; /* Advance the record index. */ mpVbvaMemory->indexRecordFirst = (indexRecordFirst + 1) % VBVA_MAX_RECORDS; #ifdef DEBUG_sunlover LogFlowFunc (("partial done ok, data = %d, free = %d\n", mpVbvaMemory->off32Data, mpVbvaMemory->off32Free)); #endif /* DEBUG_sunlover */ } return true; } /* A new record need to be processed. */ if (pRecord->cbRecord & VBVA_F_RECORD_PARTIAL) { /* Current record is being written by guest. '=' is important here. */ if (cbRecord >= VBVA_RING_BUFFER_SIZE - VBVA_RING_BUFFER_THRESHOLD) { /* Partial read must be started. */ if (!vbvaPartialRead (&mpu8VbvaPartial, &mcbVbvaPartial, cbRecord, mpVbvaMemory)) { return false; } LogFlowFunc (("started partial record mcbVbvaPartial = 0x%08X cbRecord 0x%08X, first = %d, free = %d\n", mcbVbvaPartial, pRecord->cbRecord, indexRecordFirst, indexRecordFree)); } return true; } /* Current record is complete. If it is not empty, process it. */ if (cbRecord) { /* The size of largest contiguous chunk in the ring biffer. */ uint32_t u32BytesTillBoundary = VBVA_RING_BUFFER_SIZE - mpVbvaMemory->off32Data; /* The ring buffer pointer. */ uint8_t *au8RingBuffer = &mpVbvaMemory->au8RingBuffer[0]; /* The pointer to data in the ring buffer. */ uint8_t *src = &au8RingBuffer[mpVbvaMemory->off32Data]; /* Fetch or point the data. */ if (u32BytesTillBoundary >= cbRecord) { /* The command does not cross buffer boundary. Return address in the buffer. */ *ppHdr = (VBVACMDHDR *)src; /* Advance data offset. */ mpVbvaMemory->off32Data = (mpVbvaMemory->off32Data + cbRecord) % VBVA_RING_BUFFER_SIZE; } else { /* The command crosses buffer boundary. Rare case, so not optimized. */ uint8_t *dst = (uint8_t *)RTMemAlloc (cbRecord); if (!dst) { LogRelFlowFunc (("could not allocate %d bytes from heap!!!\n", cbRecord)); mpVbvaMemory->off32Data = (mpVbvaMemory->off32Data + cbRecord) % VBVA_RING_BUFFER_SIZE; return false; } vbvaFetchBytes (mpVbvaMemory, dst, cbRecord); *ppHdr = (VBVACMDHDR *)dst; #ifdef DEBUG_sunlover LogFlowFunc (("Allocated from heap %p\n", dst)); #endif /* DEBUG_sunlover */ } } *pcbCmd = cbRecord; /* Advance the record index. */ mpVbvaMemory->indexRecordFirst = (indexRecordFirst + 1) % VBVA_MAX_RECORDS; #ifdef DEBUG_sunlover LogFlowFunc (("done ok, data = %d, free = %d\n", mpVbvaMemory->off32Data, mpVbvaMemory->off32Free)); #endif /* DEBUG_sunlover */ return true; } void Display::vbvaReleaseCmd (VBVACMDHDR *pHdr, int32_t cbCmd) { uint8_t *au8RingBuffer = mpVbvaMemory->au8RingBuffer; if ( (uint8_t *)pHdr >= au8RingBuffer && (uint8_t *)pHdr < &au8RingBuffer[VBVA_RING_BUFFER_SIZE]) { /* The pointer is inside ring buffer. Must be continuous chunk. */ Assert (VBVA_RING_BUFFER_SIZE - ((uint8_t *)pHdr - au8RingBuffer) >= cbCmd); /* Do nothing. */ Assert (!mpu8VbvaPartial && mcbVbvaPartial == 0); } else { /* The pointer is outside. It is then an allocated copy. */ #ifdef DEBUG_sunlover LogFlowFunc (("Free heap %p\n", pHdr)); #endif /* DEBUG_sunlover */ if ((uint8_t *)pHdr == mpu8VbvaPartial) { mpu8VbvaPartial = NULL; mcbVbvaPartial = 0; } else { Assert (!mpu8VbvaPartial && mcbVbvaPartial == 0); } RTMemFree (pHdr); } return; } /** * Called regularly on the DisplayRefresh timer. * Also on behalf of guest, when the ring buffer is full. * * @thread EMT */ void Display::VideoAccelFlush (void) { vbvaLock(); videoAccelFlush(); vbvaUnlock(); } /* Under VBVA lock. DevVGA is not taken. */ void Display::videoAccelFlush (void) { #ifdef DEBUG_sunlover_2 LogFlowFunc (("mfVideoAccelEnabled = %d\n", mfVideoAccelEnabled)); #endif /* DEBUG_sunlover_2 */ if (!mfVideoAccelEnabled) { Log(("Display::VideoAccelFlush: called with disabled VBVA!!! Ignoring.\n")); return; } /* Here VBVA is enabled and we have the accelerator memory pointer. */ Assert(mpVbvaMemory); #ifdef DEBUG_sunlover_2 LogFlowFunc (("indexRecordFirst = %d, indexRecordFree = %d, off32Data = %d, off32Free = %d\n", mpVbvaMemory->indexRecordFirst, mpVbvaMemory->indexRecordFree, mpVbvaMemory->off32Data, mpVbvaMemory->off32Free)); #endif /* DEBUG_sunlover_2 */ /* Quick check for "nothing to update" case. */ if (mpVbvaMemory->indexRecordFirst == mpVbvaMemory->indexRecordFree) { return; } /* Process the ring buffer */ unsigned uScreenId; /* Initialize dirty rectangles accumulator. */ VBVADIRTYREGION rgn; vbvaRgnInit (&rgn, maFramebuffers, mcMonitors, this, mpDrv->pUpPort); for (;;) { VBVACMDHDR *phdr = NULL; uint32_t cbCmd = ~0; /* Fetch the command data. */ if (!vbvaFetchCmd (&phdr, &cbCmd)) { Log(("Display::VideoAccelFlush: unable to fetch command. off32Data = %d, off32Free = %d. Disabling VBVA!!!\n", mpVbvaMemory->off32Data, mpVbvaMemory->off32Free)); /* Disable VBVA on those processing errors. */ videoAccelEnable (false, NULL); break; } if (cbCmd == uint32_t(~0)) { /* No more commands yet in the queue. */ break; } if (cbCmd != 0) { #ifdef DEBUG_sunlover LogFlowFunc (("hdr: cbCmd = %d, x=%d, y=%d, w=%d, h=%d\n", cbCmd, phdr->x, phdr->y, phdr->w, phdr->h)); #endif /* DEBUG_sunlover */ VBVACMDHDR hdrSaved = *phdr; int x = phdr->x; int y = phdr->y; int w = phdr->w; int h = phdr->h; uScreenId = mapCoordsToScreen(maFramebuffers, mcMonitors, &x, &y, &w, &h); phdr->x = (int16_t)x; phdr->y = (int16_t)y; phdr->w = (uint16_t)w; phdr->h = (uint16_t)h; DISPLAYFBINFO *pFBInfo = &maFramebuffers[uScreenId]; if (pFBInfo->u32ResizeStatus == ResizeStatus_Void) { /* Handle the command. * * Guest is responsible for updating the guest video memory. * The Windows guest does all drawing using Eng*. * * For local output, only dirty rectangle information is used * to update changed areas. * * Dirty rectangles are accumulated to exclude overlapping updates and * group small updates to a larger one. */ /* Accumulate the update. */ vbvaRgnDirtyRect (&rgn, uScreenId, phdr); /* Forward the command to VRDP server. */ mParent->consoleVRDPServer()->SendUpdate (uScreenId, phdr, cbCmd); *phdr = hdrSaved; } } vbvaReleaseCmd (phdr, cbCmd); } for (uScreenId = 0; uScreenId < mcMonitors; uScreenId++) { if (maFramebuffers[uScreenId].u32ResizeStatus == ResizeStatus_Void) { /* Draw the framebuffer. */ vbvaRgnUpdateFramebuffer (&rgn, uScreenId); } } } int Display::videoAccelRefreshProcess(void) { int rc = VWRN_INVALID_STATE; /* Default is to do a display update in VGA device. */ vbvaLock(); if (ASMAtomicCmpXchgU32(&mfu32PendingVideoAccelDisable, false, true)) { videoAccelEnable (false, NULL); } else if (mfPendingVideoAccelEnable) { /* Acceleration was enabled while machine was not yet running * due to restoring from saved state. Update entire display and * actually enable acceleration. */ Assert(mpPendingVbvaMemory); /* Acceleration can not be yet enabled.*/ Assert(mpVbvaMemory == NULL); Assert(!mfVideoAccelEnabled); if (mfMachineRunning) { videoAccelEnable (mfPendingVideoAccelEnable, mpPendingVbvaMemory); /* Reset the pending state. */ mfPendingVideoAccelEnable = false; mpPendingVbvaMemory = NULL; } rc = VINF_TRY_AGAIN; } else { Assert(mpPendingVbvaMemory == NULL); if (mfVideoAccelEnabled) { Assert(mpVbvaMemory); videoAccelFlush (); rc = VINF_SUCCESS; /* VBVA processed, no need to a display update. */ } } vbvaUnlock(); return rc; } // IDisplay methods ///////////////////////////////////////////////////////////////////////////// STDMETHODIMP Display::GetScreenResolution (ULONG aScreenId, ULONG *aWidth, ULONG *aHeight, ULONG *aBitsPerPixel) { LogRelFlowFunc (("aScreenId = %d\n", aScreenId)); AutoCaller autoCaller(this); if (FAILED(autoCaller.rc())) return autoCaller.rc(); AutoReadLock alock(this COMMA_LOCKVAL_SRC_POS); uint32_t u32Width = 0; uint32_t u32Height = 0; uint32_t u32BitsPerPixel = 0; if (aScreenId == VBOX_VIDEO_PRIMARY_SCREEN) { CHECK_CONSOLE_DRV (mpDrv); u32Width = mpDrv->IConnector.cx; u32Height = mpDrv->IConnector.cy; int rc = mpDrv->pUpPort->pfnQueryColorDepth(mpDrv->pUpPort, &u32BitsPerPixel); AssertRC(rc); } else if (aScreenId < mcMonitors) { DISPLAYFBINFO *pFBInfo = &maFramebuffers[aScreenId]; u32Width = pFBInfo->w; u32Height = pFBInfo->h; u32BitsPerPixel = pFBInfo->u16BitsPerPixel; } else { return E_INVALIDARG; } if (aWidth) *aWidth = u32Width; if (aHeight) *aHeight = u32Height; if (aBitsPerPixel) *aBitsPerPixel = u32BitsPerPixel; return S_OK; } STDMETHODIMP Display::SetFramebuffer (ULONG aScreenId, IFramebuffer *aFramebuffer) { LogRelFlowFunc (("\n")); if (aFramebuffer != NULL) CheckComArgOutPointerValid(aFramebuffer); AutoCaller autoCaller(this); if (FAILED(autoCaller.rc())) return autoCaller.rc(); AutoWriteLock alock(this COMMA_LOCKVAL_SRC_POS); Console::SafeVMPtrQuiet pVM (mParent); if (pVM.isOk()) { /* Must release the lock here because the changeFramebuffer will * also obtain it. */ alock.release(); /* send request to the EMT thread */ int vrc = VMR3ReqCallWait (pVM, VMCPUID_ANY, (PFNRT) changeFramebuffer, 3, this, aFramebuffer, aScreenId); alock.acquire(); ComAssertRCRet (vrc, E_FAIL); #if defined(VBOX_WITH_HGCM) && defined(VBOX_WITH_CROGL) { BOOL is3denabled; mParent->machine()->COMGETTER(Accelerate3DEnabled)(&is3denabled); if (is3denabled) { VBOXHGCMSVCPARM parm; parm.type = VBOX_HGCM_SVC_PARM_32BIT; parm.u.uint32 = aScreenId; VMMDev *pVMMDev = mParent->getVMMDev(); alock.release(); if (pVMMDev) vrc = pVMMDev->hgcmHostCall("VBoxSharedCrOpenGL", SHCRGL_HOST_FN_SCREEN_CHANGED, SHCRGL_CPARMS_SCREEN_CHANGED, &parm); /*ComAssertRCRet (vrc, E_FAIL);*/ alock.acquire(); } } #endif /* VBOX_WITH_CROGL */ } else { /* No VM is created (VM is powered off), do a direct call */ int vrc = changeFramebuffer (this, aFramebuffer, aScreenId); ComAssertRCRet (vrc, E_FAIL); } return S_OK; } STDMETHODIMP Display::GetFramebuffer (ULONG aScreenId, IFramebuffer **aFramebuffer, LONG *aXOrigin, LONG *aYOrigin) { LogRelFlowFunc (("aScreenId = %d\n", aScreenId)); CheckComArgOutPointerValid(aFramebuffer); AutoCaller autoCaller(this); if (FAILED(autoCaller.rc())) return autoCaller.rc(); AutoWriteLock alock(this COMMA_LOCKVAL_SRC_POS); if (aScreenId != 0 && aScreenId >= mcMonitors) return E_INVALIDARG; /* @todo this should be actually done on EMT. */ DISPLAYFBINFO *pFBInfo = &maFramebuffers[aScreenId]; *aFramebuffer = pFBInfo->pFramebuffer; if (*aFramebuffer) (*aFramebuffer)->AddRef (); if (aXOrigin) *aXOrigin = pFBInfo->xOrigin; if (aYOrigin) *aYOrigin = pFBInfo->yOrigin; return S_OK; } STDMETHODIMP Display::SetVideoModeHint(ULONG aDisplay, BOOL aEnabled, BOOL aChangeOrigin, LONG aOriginX, LONG aOriginY, ULONG aWidth, ULONG aHeight, ULONG aBitsPerPixel) { AutoCaller autoCaller(this); if (FAILED(autoCaller.rc())) return autoCaller.rc(); AutoWriteLock alock(this COMMA_LOCKVAL_SRC_POS); CHECK_CONSOLE_DRV (mpDrv); /* XXX Ignore these parameters for now: */ NOREF(aChangeOrigin); NOREF(aOriginX); NOREF(aOriginY); NOREF(aEnabled); /* * Do some rough checks for valid input */ ULONG width = aWidth; if (!width) width = mpDrv->IConnector.cx; ULONG height = aHeight; if (!height) height = mpDrv->IConnector.cy; ULONG bpp = aBitsPerPixel; if (!bpp) { uint32_t cBits = 0; int rc = mpDrv->pUpPort->pfnQueryColorDepth(mpDrv->pUpPort, &cBits); AssertRC(rc); bpp = cBits; } ULONG cMonitors; mParent->machine()->COMGETTER(MonitorCount)(&cMonitors); if (cMonitors == 0 && aDisplay > 0) return E_INVALIDARG; if (aDisplay >= cMonitors) return E_INVALIDARG; /* * sunlover 20070614: It is up to the guest to decide whether the hint is * valid. Therefore don't do any VRAM sanity checks here! */ /* Have to release the lock because the pfnRequestDisplayChange * will call EMT. */ alock.release(); VMMDev *pVMMDev = mParent->getVMMDev(); if (pVMMDev) { PPDMIVMMDEVPORT pVMMDevPort = pVMMDev->getVMMDevPort(); if (pVMMDevPort) pVMMDevPort->pfnRequestDisplayChange(pVMMDevPort, aWidth, aHeight, aBitsPerPixel, aDisplay); } return S_OK; } STDMETHODIMP Display::SetSeamlessMode (BOOL enabled) { AutoCaller autoCaller(this); if (FAILED(autoCaller.rc())) return autoCaller.rc(); AutoWriteLock alock(this COMMA_LOCKVAL_SRC_POS); /* Have to release the lock because the pfnRequestSeamlessChange will call EMT. */ alock.release(); VMMDev *pVMMDev = mParent->getVMMDev(); if (pVMMDev) { PPDMIVMMDEVPORT pVMMDevPort = pVMMDev->getVMMDevPort(); if (pVMMDevPort) pVMMDevPort->pfnRequestSeamlessChange(pVMMDevPort, !!enabled); } return S_OK; } int Display::displayTakeScreenshotEMT(Display *pDisplay, ULONG aScreenId, uint8_t **ppu8Data, size_t *pcbData, uint32_t *pu32Width, uint32_t *pu32Height) { int rc; pDisplay->vbvaLock(); if ( aScreenId == VBOX_VIDEO_PRIMARY_SCREEN && pDisplay->maFramebuffers[aScreenId].fVBVAEnabled == false) /* A non-VBVA mode. */ { rc = pDisplay->mpDrv->pUpPort->pfnTakeScreenshot(pDisplay->mpDrv->pUpPort, ppu8Data, pcbData, pu32Width, pu32Height); } else if (aScreenId < pDisplay->mcMonitors) { DISPLAYFBINFO *pFBInfo = &pDisplay->maFramebuffers[aScreenId]; uint32_t width = pFBInfo->w; uint32_t height = pFBInfo->h; /* Allocate 32 bit per pixel bitmap. */ size_t cbRequired = width * 4 * height; if (cbRequired) { uint8_t *pu8Data = (uint8_t *)RTMemAlloc(cbRequired); if (pu8Data == NULL) { rc = VERR_NO_MEMORY; } else { /* Copy guest VRAM to the allocated 32bpp buffer. */ const uint8_t *pu8Src = pFBInfo->pu8FramebufferVRAM; int32_t xSrc = 0; int32_t ySrc = 0; uint32_t u32SrcWidth = width; uint32_t u32SrcHeight = height; uint32_t u32SrcLineSize = pFBInfo->u32LineSize; uint32_t u32SrcBitsPerPixel = pFBInfo->u16BitsPerPixel; uint8_t *pu8Dst = pu8Data; int32_t xDst = 0; int32_t yDst = 0; uint32_t u32DstWidth = u32SrcWidth; uint32_t u32DstHeight = u32SrcHeight; uint32_t u32DstLineSize = u32DstWidth * 4; uint32_t u32DstBitsPerPixel = 32; rc = pDisplay->mpDrv->pUpPort->pfnCopyRect(pDisplay->mpDrv->pUpPort, width, height, pu8Src, xSrc, ySrc, u32SrcWidth, u32SrcHeight, u32SrcLineSize, u32SrcBitsPerPixel, pu8Dst, xDst, yDst, u32DstWidth, u32DstHeight, u32DstLineSize, u32DstBitsPerPixel); if (RT_SUCCESS(rc)) { *ppu8Data = pu8Data; *pcbData = cbRequired; *pu32Width = width; *pu32Height = height; } else { RTMemFree(pu8Data); } } } else { /* No image. */ *ppu8Data = NULL; *pcbData = 0; *pu32Width = 0; *pu32Height = 0; rc = VINF_SUCCESS; } } else { rc = VERR_INVALID_PARAMETER; } pDisplay->vbvaUnlock(); return rc; } static int displayTakeScreenshot(PVM pVM, Display *pDisplay, struct DRVMAINDISPLAY *pDrv, ULONG aScreenId, BYTE *address, ULONG width, ULONG height) { uint8_t *pu8Data = NULL; size_t cbData = 0; uint32_t cx = 0; uint32_t cy = 0; int vrc = VINF_SUCCESS; int cRetries = 5; while (cRetries-- > 0) { /* Note! Not sure if the priority call is such a good idea here, but it would be nice to have an accurate screenshot for the bug report if the VM deadlocks. */ vrc = VMR3ReqPriorityCallWait(pVM, VMCPUID_ANY, (PFNRT)Display::displayTakeScreenshotEMT, 6, pDisplay, aScreenId, &pu8Data, &cbData, &cx, &cy); if (vrc != VERR_TRY_AGAIN) { break; } RTThreadSleep(10); } if (RT_SUCCESS(vrc) && pu8Data) { if (cx == width && cy == height) { /* No scaling required. */ memcpy(address, pu8Data, cbData); } else { /* Scale. */ LogRelFlowFunc(("SCALE: %dx%d -> %dx%d\n", cx, cy, width, height)); uint8_t *dst = address; uint8_t *src = pu8Data; int dstW = width; int dstH = height; int srcW = cx; int srcH = cy; int iDeltaLine = cx * 4; BitmapScale32(dst, dstW, dstH, src, iDeltaLine, srcW, srcH); } if (aScreenId == VBOX_VIDEO_PRIMARY_SCREEN) { /* This can be called from any thread. */ pDrv->pUpPort->pfnFreeScreenshot(pDrv->pUpPort, pu8Data); } else { RTMemFree(pu8Data); } } return vrc; } STDMETHODIMP Display::TakeScreenShot(ULONG aScreenId, BYTE *address, ULONG width, ULONG height) { /// @todo (r=dmik) this function may take too long to complete if the VM // is doing something like saving state right now. Which, in case if it // is called on the GUI thread, will make it unresponsive. We should // check the machine state here (by enclosing the check and VMRequCall // within the Console lock to make it atomic). LogRelFlowFunc(("address=%p, width=%d, height=%d\n", address, width, height)); CheckComArgNotNull(address); CheckComArgExpr(width, width != 0); CheckComArgExpr(height, height != 0); /* Do not allow too large screenshots. This also filters out negative * values passed as either 'width' or 'height'. */ CheckComArgExpr(width, width <= 32767); CheckComArgExpr(height, height <= 32767); AutoCaller autoCaller(this); if (FAILED(autoCaller.rc())) return autoCaller.rc(); AutoWriteLock alock(this COMMA_LOCKVAL_SRC_POS); CHECK_CONSOLE_DRV(mpDrv); Console::SafeVMPtr pVM(mParent); if (FAILED(pVM.rc())) return pVM.rc(); HRESULT rc = S_OK; LogRelFlowFunc(("Sending SCREENSHOT request\n")); /* Release lock because other thread (EMT) is called and it may initiate a resize * which also needs lock. * * This method does not need the lock anymore. */ alock.release(); int vrc = displayTakeScreenshot(pVM, this, mpDrv, aScreenId, address, width, height); if (vrc == VERR_NOT_IMPLEMENTED) rc = setError(E_NOTIMPL, tr("This feature is not implemented")); else if (vrc == VERR_TRY_AGAIN) rc = setError(E_UNEXPECTED, tr("This feature is not available at this time")); else if (RT_FAILURE(vrc)) rc = setError(VBOX_E_IPRT_ERROR, tr("Could not take a screenshot (%Rrc)"), vrc); LogRelFlowFunc(("rc=%08X\n", rc)); return rc; } STDMETHODIMP Display::TakeScreenShotToArray(ULONG aScreenId, ULONG width, ULONG height, ComSafeArrayOut(BYTE, aScreenData)) { LogRelFlowFunc(("width=%d, height=%d\n", width, height)); CheckComArgOutSafeArrayPointerValid(aScreenData); CheckComArgExpr(width, width != 0); CheckComArgExpr(height, height != 0); /* Do not allow too large screenshots. This also filters out negative * values passed as either 'width' or 'height'. */ CheckComArgExpr(width, width <= 32767); CheckComArgExpr(height, height <= 32767); AutoCaller autoCaller(this); if (FAILED(autoCaller.rc())) return autoCaller.rc(); AutoWriteLock alock(this COMMA_LOCKVAL_SRC_POS); CHECK_CONSOLE_DRV(mpDrv); Console::SafeVMPtr pVM(mParent); if (FAILED(pVM.rc())) return pVM.rc(); HRESULT rc = S_OK; LogRelFlowFunc(("Sending SCREENSHOT request\n")); /* Release lock because other thread (EMT) is called and it may initiate a resize * which also needs lock. * * This method does not need the lock anymore. */ alock.release(); size_t cbData = width * 4 * height; uint8_t *pu8Data = (uint8_t *)RTMemAlloc(cbData); if (!pu8Data) return E_OUTOFMEMORY; int vrc = displayTakeScreenshot(pVM, this, mpDrv, aScreenId, pu8Data, width, height); if (RT_SUCCESS(vrc)) { /* Convert pixels to format expected by the API caller: [0] R, [1] G, [2] B, [3] A. */ uint8_t *pu8 = pu8Data; unsigned cPixels = width * height; while (cPixels) { uint8_t u8 = pu8[0]; pu8[0] = pu8[2]; pu8[2] = u8; pu8[3] = 0xff; cPixels--; pu8 += 4; } com::SafeArray screenData(cbData); screenData.initFrom(pu8Data, cbData); screenData.detachTo(ComSafeArrayOutArg(aScreenData)); } else if (vrc == VERR_NOT_IMPLEMENTED) rc = setError(E_NOTIMPL, tr("This feature is not implemented")); else rc = setError(VBOX_E_IPRT_ERROR, tr("Could not take a screenshot (%Rrc)"), vrc); RTMemFree(pu8Data); LogRelFlowFunc(("rc=%08X\n", rc)); return rc; } STDMETHODIMP Display::TakeScreenShotPNGToArray(ULONG aScreenId, ULONG width, ULONG height, ComSafeArrayOut(BYTE, aScreenData)) { LogRelFlowFunc(("width=%d, height=%d\n", width, height)); CheckComArgOutSafeArrayPointerValid(aScreenData); CheckComArgExpr(width, width != 0); CheckComArgExpr(height, height != 0); /* Do not allow too large screenshots. This also filters out negative * values passed as either 'width' or 'height'. */ CheckComArgExpr(width, width <= 32767); CheckComArgExpr(height, height <= 32767); AutoCaller autoCaller(this); if (FAILED(autoCaller.rc())) return autoCaller.rc(); AutoWriteLock alock(this COMMA_LOCKVAL_SRC_POS); CHECK_CONSOLE_DRV(mpDrv); Console::SafeVMPtr pVM(mParent); if (FAILED(pVM.rc())) return pVM.rc(); HRESULT rc = S_OK; LogRelFlowFunc(("Sending SCREENSHOT request\n")); /* Release lock because other thread (EMT) is called and it may initiate a resize * which also needs lock. * * This method does not need the lock anymore. */ alock.release(); size_t cbData = width * 4 * height; uint8_t *pu8Data = (uint8_t *)RTMemAlloc(cbData); if (!pu8Data) return E_OUTOFMEMORY; int vrc = displayTakeScreenshot(pVM, this, mpDrv, aScreenId, pu8Data, width, height); if (RT_SUCCESS(vrc)) { uint8_t *pu8PNG = NULL; uint32_t cbPNG = 0; uint32_t cxPNG = 0; uint32_t cyPNG = 0; vrc = DisplayMakePNG(pu8Data, width, height, &pu8PNG, &cbPNG, &cxPNG, &cyPNG, 0); if (RT_SUCCESS(vrc)) { com::SafeArray screenData(cbPNG); screenData.initFrom(pu8PNG, cbPNG); if (pu8PNG) RTMemFree(pu8PNG); screenData.detachTo(ComSafeArrayOutArg(aScreenData)); } else { if (pu8PNG) RTMemFree(pu8PNG); rc = setError(VBOX_E_IPRT_ERROR, tr("Could not convert screenshot to PNG (%Rrc)"), vrc); } } else if (vrc == VERR_NOT_IMPLEMENTED) rc = setError(E_NOTIMPL, tr("This feature is not implemented")); else rc = setError(VBOX_E_IPRT_ERROR, tr("Could not take a screenshot (%Rrc)"), vrc); RTMemFree(pu8Data); LogRelFlowFunc(("rc=%08X\n", rc)); return rc; } int Display::drawToScreenEMT(Display *pDisplay, ULONG aScreenId, BYTE *address, ULONG x, ULONG y, ULONG width, ULONG height) { int rc = VINF_SUCCESS; pDisplay->vbvaLock(); DISPLAYFBINFO *pFBInfo = &pDisplay->maFramebuffers[aScreenId]; if (aScreenId == VBOX_VIDEO_PRIMARY_SCREEN) { if (pFBInfo->u32ResizeStatus == ResizeStatus_Void) { rc = pDisplay->mpDrv->pUpPort->pfnDisplayBlt(pDisplay->mpDrv->pUpPort, address, x, y, width, height); } } else if (aScreenId < pDisplay->mcMonitors) { /* Copy the bitmap to the guest VRAM. */ const uint8_t *pu8Src = address; int32_t xSrc = 0; int32_t ySrc = 0; uint32_t u32SrcWidth = width; uint32_t u32SrcHeight = height; uint32_t u32SrcLineSize = width * 4; uint32_t u32SrcBitsPerPixel = 32; uint8_t *pu8Dst = pFBInfo->pu8FramebufferVRAM; int32_t xDst = x; int32_t yDst = y; uint32_t u32DstWidth = pFBInfo->w; uint32_t u32DstHeight = pFBInfo->h; uint32_t u32DstLineSize = pFBInfo->u32LineSize; uint32_t u32DstBitsPerPixel = pFBInfo->u16BitsPerPixel; rc = pDisplay->mpDrv->pUpPort->pfnCopyRect(pDisplay->mpDrv->pUpPort, width, height, pu8Src, xSrc, ySrc, u32SrcWidth, u32SrcHeight, u32SrcLineSize, u32SrcBitsPerPixel, pu8Dst, xDst, yDst, u32DstWidth, u32DstHeight, u32DstLineSize, u32DstBitsPerPixel); if (RT_SUCCESS(rc)) { if (!pFBInfo->pFramebuffer.isNull()) { /* Update the changed screen area. When framebuffer uses VRAM directly, just notify * it to update. And for default format, render the guest VRAM to framebuffer. */ if ( pFBInfo->fDefaultFormat && !(pFBInfo->fDisabled)) { address = NULL; HRESULT hrc = pFBInfo->pFramebuffer->COMGETTER(Address) (&address); if (SUCCEEDED(hrc) && address != NULL) { pu8Src = pFBInfo->pu8FramebufferVRAM; xSrc = x; ySrc = y; u32SrcWidth = pFBInfo->w; u32SrcHeight = pFBInfo->h; u32SrcLineSize = pFBInfo->u32LineSize; u32SrcBitsPerPixel = pFBInfo->u16BitsPerPixel; /* Default format is 32 bpp. */ pu8Dst = address; xDst = xSrc; yDst = ySrc; u32DstWidth = u32SrcWidth; u32DstHeight = u32SrcHeight; u32DstLineSize = u32DstWidth * 4; u32DstBitsPerPixel = 32; pDisplay->mpDrv->pUpPort->pfnCopyRect(pDisplay->mpDrv->pUpPort, width, height, pu8Src, xSrc, ySrc, u32SrcWidth, u32SrcHeight, u32SrcLineSize, u32SrcBitsPerPixel, pu8Dst, xDst, yDst, u32DstWidth, u32DstHeight, u32DstLineSize, u32DstBitsPerPixel); } } pDisplay->handleDisplayUpdate(aScreenId, x, y, width, height); } } } else { rc = VERR_INVALID_PARAMETER; } if (RT_SUCCESS(rc) && pDisplay->maFramebuffers[aScreenId].u32ResizeStatus == ResizeStatus_Void) pDisplay->mParent->consoleVRDPServer()->SendUpdateBitmap(aScreenId, x, y, width, height); pDisplay->vbvaUnlock(); return rc; } STDMETHODIMP Display::DrawToScreen (ULONG aScreenId, BYTE *address, ULONG x, ULONG y, ULONG width, ULONG height) { /// @todo (r=dmik) this function may take too long to complete if the VM // is doing something like saving state right now. Which, in case if it // is called on the GUI thread, will make it unresponsive. We should // check the machine state here (by enclosing the check and VMRequCall // within the Console lock to make it atomic). LogRelFlowFunc (("address=%p, x=%d, y=%d, width=%d, height=%d\n", (void *)address, x, y, width, height)); CheckComArgNotNull(address); CheckComArgExpr(width, width != 0); CheckComArgExpr(height, height != 0); AutoCaller autoCaller(this); if (FAILED(autoCaller.rc())) return autoCaller.rc(); AutoWriteLock alock(this COMMA_LOCKVAL_SRC_POS); CHECK_CONSOLE_DRV (mpDrv); Console::SafeVMPtr pVM(mParent); if (FAILED(pVM.rc())) return pVM.rc(); /* Release lock because the call scheduled on EMT may also try to take it. */ alock.release(); /* * Again we're lazy and make the graphics device do all the * dirty conversion work. */ int rcVBox = VMR3ReqCallWait(pVM, VMCPUID_ANY, (PFNRT)Display::drawToScreenEMT, 7, this, aScreenId, address, x, y, width, height); /* * If the function returns not supported, we'll have to do all the * work ourselves using the framebuffer. */ HRESULT rc = S_OK; if (rcVBox == VERR_NOT_SUPPORTED || rcVBox == VERR_NOT_IMPLEMENTED) { /** @todo implement generic fallback for screen blitting. */ rc = E_NOTIMPL; } else if (RT_FAILURE(rcVBox)) rc = setError(VBOX_E_IPRT_ERROR, tr("Could not draw to the screen (%Rrc)"), rcVBox); //@todo // else // { // /* All ok. Redraw the screen. */ // handleDisplayUpdate (x, y, width, height); // } LogRelFlowFunc (("rc=%08X\n", rc)); return rc; } void Display::InvalidateAndUpdateEMT(Display *pDisplay) { pDisplay->vbvaLock(); unsigned uScreenId; for (uScreenId = 0; uScreenId < pDisplay->mcMonitors; uScreenId++) { DISPLAYFBINFO *pFBInfo = &pDisplay->maFramebuffers[uScreenId]; if (uScreenId == VBOX_VIDEO_PRIMARY_SCREEN && !pFBInfo->pFramebuffer.isNull()) { pDisplay->mpDrv->pUpPort->pfnUpdateDisplayAll(pDisplay->mpDrv->pUpPort); } else { if ( !pFBInfo->pFramebuffer.isNull() && !(pFBInfo->fDisabled)) { /* Render complete VRAM screen to the framebuffer. * When framebuffer uses VRAM directly, just notify it to update. */ if (pFBInfo->fDefaultFormat) { BYTE *address = NULL; HRESULT hrc = pFBInfo->pFramebuffer->COMGETTER(Address) (&address); if (SUCCEEDED(hrc) && address != NULL) { uint32_t width = pFBInfo->w; uint32_t height = pFBInfo->h; const uint8_t *pu8Src = pFBInfo->pu8FramebufferVRAM; int32_t xSrc = 0; int32_t ySrc = 0; uint32_t u32SrcWidth = pFBInfo->w; uint32_t u32SrcHeight = pFBInfo->h; uint32_t u32SrcLineSize = pFBInfo->u32LineSize; uint32_t u32SrcBitsPerPixel = pFBInfo->u16BitsPerPixel; /* Default format is 32 bpp. */ uint8_t *pu8Dst = address; int32_t xDst = xSrc; int32_t yDst = ySrc; uint32_t u32DstWidth = u32SrcWidth; uint32_t u32DstHeight = u32SrcHeight; uint32_t u32DstLineSize = u32DstWidth * 4; uint32_t u32DstBitsPerPixel = 32; pDisplay->mpDrv->pUpPort->pfnCopyRect(pDisplay->mpDrv->pUpPort, width, height, pu8Src, xSrc, ySrc, u32SrcWidth, u32SrcHeight, u32SrcLineSize, u32SrcBitsPerPixel, pu8Dst, xDst, yDst, u32DstWidth, u32DstHeight, u32DstLineSize, u32DstBitsPerPixel); } } pDisplay->handleDisplayUpdate (uScreenId, 0, 0, pFBInfo->w, pFBInfo->h); } } } pDisplay->vbvaUnlock(); } /** * Does a full invalidation of the VM display and instructs the VM * to update it immediately. * * @returns COM status code */ STDMETHODIMP Display::InvalidateAndUpdate() { LogRelFlowFunc(("\n")); AutoCaller autoCaller(this); if (FAILED(autoCaller.rc())) return autoCaller.rc(); AutoWriteLock alock(this COMMA_LOCKVAL_SRC_POS); CHECK_CONSOLE_DRV (mpDrv); Console::SafeVMPtr pVM(mParent); if (FAILED(pVM.rc())) return pVM.rc(); HRESULT rc = S_OK; LogRelFlowFunc (("Sending DPYUPDATE request\n")); /* Have to release the lock when calling EMT. */ alock.release(); /* pdm.h says that this has to be called from the EMT thread */ int rcVBox = VMR3ReqCallVoidWait(pVM, VMCPUID_ANY, (PFNRT)Display::InvalidateAndUpdateEMT, 1, this); alock.acquire(); if (RT_FAILURE(rcVBox)) rc = setError(VBOX_E_IPRT_ERROR, tr("Could not invalidate and update the screen (%Rrc)"), rcVBox); LogRelFlowFunc (("rc=%08X\n", rc)); return rc; } /** * Notification that the framebuffer has completed the * asynchronous resize processing * * @returns COM status code */ STDMETHODIMP Display::ResizeCompleted(ULONG aScreenId) { LogRelFlowFunc (("\n")); /// @todo (dmik) can we AutoWriteLock alock(this COMMA_LOCKVAL_SRC_POS); here? // This will require general code review and may add some details. // In particular, we may want to check whether EMT is really waiting for // this notification, etc. It might be also good to obey the caller to make // sure this method is not called from more than one thread at a time // (and therefore don't use Display lock at all here to save some // milliseconds). AutoCaller autoCaller(this); if (FAILED(autoCaller.rc())) return autoCaller.rc(); /* this is only valid for external framebuffers */ if (maFramebuffers[aScreenId].pFramebuffer == NULL) return setError(VBOX_E_NOT_SUPPORTED, tr("Resize completed notification is valid only for external framebuffers")); /* Set the flag indicating that the resize has completed and display * data need to be updated. */ bool f = ASMAtomicCmpXchgU32 (&maFramebuffers[aScreenId].u32ResizeStatus, ResizeStatus_UpdateDisplayData, ResizeStatus_InProgress); AssertRelease(f);NOREF(f); return S_OK; } STDMETHODIMP Display::CompleteVHWACommand(BYTE *pCommand) { #ifdef VBOX_WITH_VIDEOHWACCEL mpDrv->pVBVACallbacks->pfnVHWACommandCompleteAsynch(mpDrv->pVBVACallbacks, (PVBOXVHWACMD)pCommand); return S_OK; #else return E_NOTIMPL; #endif } STDMETHODIMP Display::ViewportChanged(ULONG aScreenId, ULONG x, ULONG y, ULONG width, ULONG height) { #if defined(VBOX_WITH_HGCM) && defined(VBOX_WITH_CROGL) BOOL is3denabled; mParent->machine()->COMGETTER(Accelerate3DEnabled)(&is3denabled); if (is3denabled) { VBOXHGCMSVCPARM aParms[5]; aParms[0].type = VBOX_HGCM_SVC_PARM_32BIT; aParms[0].u.uint32 = aScreenId; aParms[1].type = VBOX_HGCM_SVC_PARM_32BIT; aParms[1].u.uint32 = x; aParms[2].type = VBOX_HGCM_SVC_PARM_32BIT; aParms[2].u.uint32 = y; aParms[3].type = VBOX_HGCM_SVC_PARM_32BIT; aParms[3].u.uint32 = width; aParms[4].type = VBOX_HGCM_SVC_PARM_32BIT; aParms[4].u.uint32 = height; VMMDev *pVMMDev = mParent->getVMMDev(); if (pVMMDev) pVMMDev->hgcmHostCall("VBoxSharedCrOpenGL", SHCRGL_HOST_FN_VIEWPORT_CHANGED, SHCRGL_CPARMS_VIEWPORT_CHANGED, aParms); } #endif /* VBOX_WITH_CROGL && VBOX_WITH_HGCM */ return S_OK; } // private methods ///////////////////////////////////////////////////////////////////////////// /** * Helper to update the display information from the framebuffer. * * @thread EMT */ void Display::updateDisplayData(void) { LogRelFlowFunc (("\n")); /* the driver might not have been constructed yet */ if (!mpDrv) return; #if DEBUG /* * Sanity check. Note that this method may be called on EMT after Console * has started the power down procedure (but before our #drvDestruct() is * called, in which case pVM will already be NULL but mpDrv will not). Since * we don't really need pVM to proceed, we avoid this check in the release * build to save some ms (necessary to construct SafeVMPtrQuiet) in this * time-critical method. */ Console::SafeVMPtrQuiet pVM (mParent); if (pVM.isOk()) VM_ASSERT_EMT (pVM.raw()); #endif /* The method is only relevant to the primary framebuffer. */ IFramebuffer *pFramebuffer = maFramebuffers[VBOX_VIDEO_PRIMARY_SCREEN].pFramebuffer; if (pFramebuffer) { HRESULT rc; BYTE *address = 0; rc = pFramebuffer->COMGETTER(Address) (&address); AssertComRC (rc); ULONG bytesPerLine = 0; rc = pFramebuffer->COMGETTER(BytesPerLine) (&bytesPerLine); AssertComRC (rc); ULONG bitsPerPixel = 0; rc = pFramebuffer->COMGETTER(BitsPerPixel) (&bitsPerPixel); AssertComRC (rc); ULONG width = 0; rc = pFramebuffer->COMGETTER(Width) (&width); AssertComRC (rc); ULONG height = 0; rc = pFramebuffer->COMGETTER(Height) (&height); AssertComRC (rc); mpDrv->IConnector.pu8Data = (uint8_t *) address; mpDrv->IConnector.cbScanline = bytesPerLine; mpDrv->IConnector.cBits = bitsPerPixel; mpDrv->IConnector.cx = width; mpDrv->IConnector.cy = height; } else { /* black hole */ mpDrv->IConnector.pu8Data = NULL; mpDrv->IConnector.cbScanline = 0; mpDrv->IConnector.cBits = 0; mpDrv->IConnector.cx = 0; mpDrv->IConnector.cy = 0; } LogRelFlowFunc (("leave\n")); } #ifdef VBOX_WITH_CRHGSMI void Display::setupCrHgsmiData(void) { VMMDev *pVMMDev = mParent->getVMMDev(); Assert(pVMMDev); int rc = VERR_GENERAL_FAILURE; if (pVMMDev) rc = pVMMDev->hgcmHostSvcHandleCreate("VBoxSharedCrOpenGL", &mhCrOglSvc); if (RT_SUCCESS(rc)) { Assert(mhCrOglSvc); /* setup command completion callback */ VBOXVDMACMD_CHROMIUM_CTL_CRHGSMI_SETUP_COMPLETION Completion; Completion.Hdr.enmType = VBOXVDMACMD_CHROMIUM_CTL_TYPE_CRHGSMI_SETUP_COMPLETION; Completion.Hdr.cbCmd = sizeof (Completion); Completion.hCompletion = mpDrv->pVBVACallbacks; Completion.pfnCompletion = mpDrv->pVBVACallbacks->pfnCrHgsmiCommandCompleteAsync; VBOXHGCMSVCPARM parm; parm.type = VBOX_HGCM_SVC_PARM_PTR; parm.u.pointer.addr = &Completion; parm.u.pointer.size = 0; rc = pVMMDev->hgcmHostCall("VBoxSharedCrOpenGL", SHCRGL_HOST_FN_CRHGSMI_CTL, 1, &parm); if (RT_SUCCESS(rc)) return; AssertMsgFailed(("VBOXVDMACMD_CHROMIUM_CTL_TYPE_CRHGSMI_SETUP_COMPLETION failed rc %d", rc)); } mhCrOglSvc = NULL; } void Display::destructCrHgsmiData(void) { mhCrOglSvc = NULL; } #endif /** * Changes the current frame buffer. Called on EMT to avoid both * race conditions and excessive locking. * * @note locks this object for writing * @thread EMT */ /* static */ DECLCALLBACK(int) Display::changeFramebuffer (Display *that, IFramebuffer *aFB, unsigned uScreenId) { LogRelFlowFunc (("uScreenId = %d\n", uScreenId)); AssertReturn(that, VERR_INVALID_PARAMETER); AssertReturn(uScreenId < that->mcMonitors, VERR_INVALID_PARAMETER); AutoCaller autoCaller(that); if (FAILED(autoCaller.rc())) return autoCaller.rc(); AutoWriteLock alock(that COMMA_LOCKVAL_SRC_POS); DISPLAYFBINFO *pDisplayFBInfo = &that->maFramebuffers[uScreenId]; pDisplayFBInfo->pFramebuffer = aFB; that->mParent->consoleVRDPServer()->SendResize (); /* The driver might not have been constructed yet */ if (that->mpDrv) { /* Setup the new framebuffer, the resize will lead to an updateDisplayData call. */ DISPLAYFBINFO *pFBInfo = &that->maFramebuffers[uScreenId]; #if defined(VBOX_WITH_CROGL) /* Release the lock, because SHCRGL_HOST_FN_SCREEN_CHANGED will read current framebuffer */ { BOOL is3denabled; that->mParent->machine()->COMGETTER(Accelerate3DEnabled)(&is3denabled); if (is3denabled) { alock.release(); } } #endif if (pFBInfo->fVBVAEnabled && pFBInfo->pu8FramebufferVRAM) { /* This display in VBVA mode. Resize it to the last guest resolution, * if it has been reported. */ that->handleDisplayResize(uScreenId, pFBInfo->u16BitsPerPixel, pFBInfo->pu8FramebufferVRAM, pFBInfo->u32LineSize, pFBInfo->w, pFBInfo->h, pFBInfo->flags); } else if (uScreenId == VBOX_VIDEO_PRIMARY_SCREEN) { /* VGA device mode, only for the primary screen. */ that->handleDisplayResize(VBOX_VIDEO_PRIMARY_SCREEN, that->mLastBitsPerPixel, that->mLastAddress, that->mLastBytesPerLine, that->mLastWidth, that->mLastHeight, that->mLastFlags); } } LogRelFlowFunc (("leave\n")); return VINF_SUCCESS; } /** * Handle display resize event issued by the VGA device for the primary screen. * * @see PDMIDISPLAYCONNECTOR::pfnResize */ DECLCALLBACK(int) Display::displayResizeCallback(PPDMIDISPLAYCONNECTOR pInterface, uint32_t bpp, void *pvVRAM, uint32_t cbLine, uint32_t cx, uint32_t cy) { PDRVMAINDISPLAY pDrv = PDMIDISPLAYCONNECTOR_2_MAINDISPLAY(pInterface); LogRelFlowFunc (("bpp %d, pvVRAM %p, cbLine %d, cx %d, cy %d\n", bpp, pvVRAM, cbLine, cx, cy)); return pDrv->pDisplay->handleDisplayResize(VBOX_VIDEO_PRIMARY_SCREEN, bpp, pvVRAM, cbLine, cx, cy, VBVA_SCREEN_F_ACTIVE); } /** * Handle display update. * * @see PDMIDISPLAYCONNECTOR::pfnUpdateRect */ DECLCALLBACK(void) Display::displayUpdateCallback(PPDMIDISPLAYCONNECTOR pInterface, uint32_t x, uint32_t y, uint32_t cx, uint32_t cy) { PDRVMAINDISPLAY pDrv = PDMIDISPLAYCONNECTOR_2_MAINDISPLAY(pInterface); #ifdef DEBUG_sunlover LogFlowFunc (("mfVideoAccelEnabled = %d, %d,%d %dx%d\n", pDrv->pDisplay->mfVideoAccelEnabled, x, y, cx, cy)); #endif /* DEBUG_sunlover */ /* This call does update regardless of VBVA status. * But in VBVA mode this is called only as result of * pfnUpdateDisplayAll in the VGA device. */ pDrv->pDisplay->handleDisplayUpdate(VBOX_VIDEO_PRIMARY_SCREEN, x, y, cx, cy); } /** * Periodic display refresh callback. * * @see PDMIDISPLAYCONNECTOR::pfnRefresh */ DECLCALLBACK(void) Display::displayRefreshCallback(PPDMIDISPLAYCONNECTOR pInterface) { PDRVMAINDISPLAY pDrv = PDMIDISPLAYCONNECTOR_2_MAINDISPLAY(pInterface); #ifdef DEBUG_sunlover STAM_PROFILE_START(&StatDisplayRefresh, a); #endif /* DEBUG_sunlover */ #ifdef DEBUG_sunlover_2 LogFlowFunc (("pDrv->pDisplay->mfVideoAccelEnabled = %d\n", pDrv->pDisplay->mfVideoAccelEnabled)); #endif /* DEBUG_sunlover_2 */ Display *pDisplay = pDrv->pDisplay; bool fNoUpdate = false; /* Do not update the display if any of the framebuffers is being resized. */ unsigned uScreenId; for (uScreenId = 0; uScreenId < pDisplay->mcMonitors; uScreenId++) { DISPLAYFBINFO *pFBInfo = &pDisplay->maFramebuffers[uScreenId]; /* Check the resize status. The status can be checked normally because * the status affects only the EMT. */ uint32_t u32ResizeStatus = pFBInfo->u32ResizeStatus; if (u32ResizeStatus == ResizeStatus_UpdateDisplayData) { LogRelFlowFunc (("ResizeStatus_UpdateDisplayData %d\n", uScreenId)); fNoUpdate = true; /* Always set it here, because pfnUpdateDisplayAll can cause a new resize. */ /* The framebuffer was resized and display data need to be updated. */ pDisplay->handleResizeCompletedEMT (); if (pFBInfo->u32ResizeStatus != ResizeStatus_Void) { /* The resize status could be not Void here because a pending resize is issued. */ continue; } /* Continue with normal processing because the status here is ResizeStatus_Void. * Repaint all displays because VM continued to run during the framebuffer resize. */ pDisplay->InvalidateAndUpdateEMT(pDisplay); } else if (u32ResizeStatus == ResizeStatus_InProgress) { /* The framebuffer is being resized. Do not call the VGA device back. Immediately return. */ LogRelFlowFunc (("ResizeStatus_InProcess\n")); fNoUpdate = true; continue; } } if (!fNoUpdate) { int rc = pDisplay->videoAccelRefreshProcess(); if (rc != VINF_TRY_AGAIN) /* Means 'do nothing' here. */ { if (rc == VWRN_INVALID_STATE) { /* No VBVA do a display update. */ DISPLAYFBINFO *pFBInfo = &pDisplay->maFramebuffers[VBOX_VIDEO_PRIMARY_SCREEN]; if (!pFBInfo->pFramebuffer.isNull() && pFBInfo->u32ResizeStatus == ResizeStatus_Void) { Assert(pDrv->IConnector.pu8Data); pDisplay->vbvaLock(); pDrv->pUpPort->pfnUpdateDisplay(pDrv->pUpPort); pDisplay->vbvaUnlock(); } } /* Inform the VRDP server that the current display update sequence is * completed. At this moment the framebuffer memory contains a definite * image, that is synchronized with the orders already sent to VRDP client. * The server can now process redraw requests from clients or initial * fullscreen updates for new clients. */ for (uScreenId = 0; uScreenId < pDisplay->mcMonitors; uScreenId++) { DISPLAYFBINFO *pFBInfo = &pDisplay->maFramebuffers[uScreenId]; if (!pFBInfo->pFramebuffer.isNull() && pFBInfo->u32ResizeStatus == ResizeStatus_Void) { Assert (pDisplay->mParent && pDisplay->mParent->consoleVRDPServer()); pDisplay->mParent->consoleVRDPServer()->SendUpdate (uScreenId, NULL, 0); } } } } #ifdef VBOX_WITH_VPX_MAIN VideoRecCopyToIntBuffer(pVideoRecContext, pDisplay->xOrigin, pDisplay->yOrigin, pDisplay->w, pDisplay->h, mPixelFormat, pDisplay->u16BitsPerPixel, mBytesPerLine, pDisplay->w, pDisplay->h, pDisplay->h, pDisplay->w, pu8Framebuffer, mTempRGBBuffer); #endif #ifdef DEBUG_sunlover STAM_PROFILE_STOP(&StatDisplayRefresh, a); #endif /* DEBUG_sunlover */ #ifdef DEBUG_sunlover_2 LogFlowFunc (("leave\n")); #endif /* DEBUG_sunlover_2 */ } /** * Reset notification * * @see PDMIDISPLAYCONNECTOR::pfnReset */ DECLCALLBACK(void) Display::displayResetCallback(PPDMIDISPLAYCONNECTOR pInterface) { PDRVMAINDISPLAY pDrv = PDMIDISPLAYCONNECTOR_2_MAINDISPLAY(pInterface); LogRelFlowFunc (("\n")); /* Disable VBVA mode. */ pDrv->pDisplay->VideoAccelEnable (false, NULL); } /** * LFBModeChange notification * * @see PDMIDISPLAYCONNECTOR::pfnLFBModeChange */ DECLCALLBACK(void) Display::displayLFBModeChangeCallback(PPDMIDISPLAYCONNECTOR pInterface, bool fEnabled) { PDRVMAINDISPLAY pDrv = PDMIDISPLAYCONNECTOR_2_MAINDISPLAY(pInterface); LogRelFlowFunc (("fEnabled=%d\n", fEnabled)); NOREF(fEnabled); /* Disable VBVA mode in any case. The guest driver reenables VBVA mode if necessary. */ /* The LFBModeChange function is called under DevVGA lock. Postpone disabling VBVA, do it in the refresh timer. */ ASMAtomicWriteU32(&pDrv->pDisplay->mfu32PendingVideoAccelDisable, true); } /** * Adapter information change notification. * * @see PDMIDISPLAYCONNECTOR::pfnProcessAdapterData */ DECLCALLBACK(void) Display::displayProcessAdapterDataCallback(PPDMIDISPLAYCONNECTOR pInterface, void *pvVRAM, uint32_t u32VRAMSize) { PDRVMAINDISPLAY pDrv = PDMIDISPLAYCONNECTOR_2_MAINDISPLAY(pInterface); if (pvVRAM == NULL) { unsigned i; for (i = 0; i < pDrv->pDisplay->mcMonitors; i++) { DISPLAYFBINFO *pFBInfo = &pDrv->pDisplay->maFramebuffers[i]; pFBInfo->u32Offset = 0; pFBInfo->u32MaxFramebufferSize = 0; pFBInfo->u32InformationSize = 0; } } #ifndef VBOX_WITH_HGSMI else { uint8_t *pu8 = (uint8_t *)pvVRAM; pu8 += u32VRAMSize - VBOX_VIDEO_ADAPTER_INFORMATION_SIZE; // @todo uint8_t *pu8End = pu8 + VBOX_VIDEO_ADAPTER_INFORMATION_SIZE; VBOXVIDEOINFOHDR *pHdr; for (;;) { pHdr = (VBOXVIDEOINFOHDR *)pu8; pu8 += sizeof (VBOXVIDEOINFOHDR); if (pu8 >= pu8End) { LogRel(("VBoxVideo: Guest adapter information overflow!!!\n")); break; } if (pHdr->u8Type == VBOX_VIDEO_INFO_TYPE_DISPLAY) { if (pHdr->u16Length != sizeof (VBOXVIDEOINFODISPLAY)) { LogRel(("VBoxVideo: Guest adapter information %s invalid length %d!!!\n", "DISPLAY", pHdr->u16Length)); break; } VBOXVIDEOINFODISPLAY *pDisplay = (VBOXVIDEOINFODISPLAY *)pu8; if (pDisplay->u32Index >= pDrv->pDisplay->mcMonitors) { LogRel(("VBoxVideo: Guest adapter information invalid display index %d!!!\n", pDisplay->u32Index)); break; } DISPLAYFBINFO *pFBInfo = &pDrv->pDisplay->maFramebuffers[pDisplay->u32Index]; pFBInfo->u32Offset = pDisplay->u32Offset; pFBInfo->u32MaxFramebufferSize = pDisplay->u32FramebufferSize; pFBInfo->u32InformationSize = pDisplay->u32InformationSize; LogRelFlow(("VBOX_VIDEO_INFO_TYPE_DISPLAY: %d: at 0x%08X, size 0x%08X, info 0x%08X\n", pDisplay->u32Index, pDisplay->u32Offset, pDisplay->u32FramebufferSize, pDisplay->u32InformationSize)); } else if (pHdr->u8Type == VBOX_VIDEO_INFO_TYPE_QUERY_CONF32) { if (pHdr->u16Length != sizeof (VBOXVIDEOINFOQUERYCONF32)) { LogRel(("VBoxVideo: Guest adapter information %s invalid length %d!!!\n", "CONF32", pHdr->u16Length)); break; } VBOXVIDEOINFOQUERYCONF32 *pConf32 = (VBOXVIDEOINFOQUERYCONF32 *)pu8; switch (pConf32->u32Index) { case VBOX_VIDEO_QCI32_MONITOR_COUNT: { pConf32->u32Value = pDrv->pDisplay->mcMonitors; } break; case VBOX_VIDEO_QCI32_OFFSCREEN_HEAP_SIZE: { /* @todo make configurable. */ pConf32->u32Value = _1M; } break; default: LogRel(("VBoxVideo: CONF32 %d not supported!!! Skipping.\n", pConf32->u32Index)); } } else if (pHdr->u8Type == VBOX_VIDEO_INFO_TYPE_END) { if (pHdr->u16Length != 0) { LogRel(("VBoxVideo: Guest adapter information %s invalid length %d!!!\n", "END", pHdr->u16Length)); break; } break; } else if (pHdr->u8Type != VBOX_VIDEO_INFO_TYPE_NV_HEAP) /** @todo why is Additions/WINNT/Graphics/Miniport/VBoxVideo.cpp pushing this to us? */ { LogRel(("Guest adapter information contains unsupported type %d. The block has been skipped.\n", pHdr->u8Type)); } pu8 += pHdr->u16Length; } } #endif /* !VBOX_WITH_HGSMI */ } /** * Display information change notification. * * @see PDMIDISPLAYCONNECTOR::pfnProcessDisplayData */ DECLCALLBACK(void) Display::displayProcessDisplayDataCallback(PPDMIDISPLAYCONNECTOR pInterface, void *pvVRAM, unsigned uScreenId) { PDRVMAINDISPLAY pDrv = PDMIDISPLAYCONNECTOR_2_MAINDISPLAY(pInterface); if (uScreenId >= pDrv->pDisplay->mcMonitors) { LogRel(("VBoxVideo: Guest display information invalid display index %d!!!\n", uScreenId)); return; } /* Get the display information structure. */ DISPLAYFBINFO *pFBInfo = &pDrv->pDisplay->maFramebuffers[uScreenId]; uint8_t *pu8 = (uint8_t *)pvVRAM; pu8 += pFBInfo->u32Offset + pFBInfo->u32MaxFramebufferSize; // @todo uint8_t *pu8End = pu8 + pFBInfo->u32InformationSize; VBOXVIDEOINFOHDR *pHdr; for (;;) { pHdr = (VBOXVIDEOINFOHDR *)pu8; pu8 += sizeof (VBOXVIDEOINFOHDR); if (pu8 >= pu8End) { LogRel(("VBoxVideo: Guest display information overflow!!!\n")); break; } if (pHdr->u8Type == VBOX_VIDEO_INFO_TYPE_SCREEN) { if (pHdr->u16Length != sizeof (VBOXVIDEOINFOSCREEN)) { LogRel(("VBoxVideo: Guest display information %s invalid length %d!!!\n", "SCREEN", pHdr->u16Length)); break; } VBOXVIDEOINFOSCREEN *pScreen = (VBOXVIDEOINFOSCREEN *)pu8; pFBInfo->xOrigin = pScreen->xOrigin; pFBInfo->yOrigin = pScreen->yOrigin; pFBInfo->w = pScreen->u16Width; pFBInfo->h = pScreen->u16Height; LogRelFlow(("VBOX_VIDEO_INFO_TYPE_SCREEN: (%p) %d: at %d,%d, linesize 0x%X, size %dx%d, bpp %d, flags 0x%02X\n", pHdr, uScreenId, pScreen->xOrigin, pScreen->yOrigin, pScreen->u32LineSize, pScreen->u16Width, pScreen->u16Height, pScreen->bitsPerPixel, pScreen->u8Flags)); if (uScreenId != VBOX_VIDEO_PRIMARY_SCREEN) { /* Primary screen resize is initiated by the VGA device. */ if (pFBInfo->fDisabled) { pFBInfo->fDisabled = false; fireGuestMonitorChangedEvent(pDrv->pDisplay->mParent->getEventSource(), GuestMonitorChangedEventType_Enabled, uScreenId, pFBInfo->xOrigin, pFBInfo->yOrigin, pFBInfo->w, pFBInfo->h); } pDrv->pDisplay->handleDisplayResize(uScreenId, pScreen->bitsPerPixel, (uint8_t *)pvVRAM + pFBInfo->u32Offset, pScreen->u32LineSize, pScreen->u16Width, pScreen->u16Height, VBVA_SCREEN_F_ACTIVE); } } else if (pHdr->u8Type == VBOX_VIDEO_INFO_TYPE_END) { if (pHdr->u16Length != 0) { LogRel(("VBoxVideo: Guest adapter information %s invalid length %d!!!\n", "END", pHdr->u16Length)); break; } break; } else if (pHdr->u8Type == VBOX_VIDEO_INFO_TYPE_HOST_EVENTS) { if (pHdr->u16Length != sizeof (VBOXVIDEOINFOHOSTEVENTS)) { LogRel(("VBoxVideo: Guest display information %s invalid length %d!!!\n", "HOST_EVENTS", pHdr->u16Length)); break; } VBOXVIDEOINFOHOSTEVENTS *pHostEvents = (VBOXVIDEOINFOHOSTEVENTS *)pu8; pFBInfo->pHostEvents = pHostEvents; LogFlow(("VBOX_VIDEO_INFO_TYPE_HOSTEVENTS: (%p)\n", pHostEvents)); } else if (pHdr->u8Type == VBOX_VIDEO_INFO_TYPE_LINK) { if (pHdr->u16Length != sizeof (VBOXVIDEOINFOLINK)) { LogRel(("VBoxVideo: Guest adapter information %s invalid length %d!!!\n", "LINK", pHdr->u16Length)); break; } VBOXVIDEOINFOLINK *pLink = (VBOXVIDEOINFOLINK *)pu8; pu8 += pLink->i32Offset; } else { LogRel(("Guest display information contains unsupported type %d\n", pHdr->u8Type)); } pu8 += pHdr->u16Length; } } #ifdef VBOX_WITH_VIDEOHWACCEL void Display::handleVHWACommandProcess(PPDMIDISPLAYCONNECTOR pInterface, PVBOXVHWACMD pCommand) { unsigned id = (unsigned)pCommand->iDisplay; int rc = VINF_SUCCESS; if (id < mcMonitors) { IFramebuffer *pFramebuffer = maFramebuffers[id].pFramebuffer; #ifdef DEBUG_misha Assert (pFramebuffer); #endif if (pFramebuffer != NULL) { HRESULT hr = pFramebuffer->ProcessVHWACommand((BYTE*)pCommand); if (FAILED(hr)) { rc = (hr == E_NOTIMPL) ? VERR_NOT_IMPLEMENTED : VERR_GENERAL_FAILURE; } } else { rc = VERR_NOT_IMPLEMENTED; } } else { rc = VERR_INVALID_PARAMETER; } if (RT_FAILURE(rc)) { /* tell the guest the command is complete */ pCommand->Flags &= (~VBOXVHWACMD_FLAG_HG_ASYNCH); pCommand->rc = rc; } } DECLCALLBACK(void) Display::displayVHWACommandProcess(PPDMIDISPLAYCONNECTOR pInterface, PVBOXVHWACMD pCommand) { PDRVMAINDISPLAY pDrv = PDMIDISPLAYCONNECTOR_2_MAINDISPLAY(pInterface); pDrv->pDisplay->handleVHWACommandProcess(pInterface, pCommand); } #endif #ifdef VBOX_WITH_CRHGSMI void Display::handleCrHgsmiCommandCompletion(int32_t result, uint32_t u32Function, PVBOXHGCMSVCPARM pParam) { mpDrv->pVBVACallbacks->pfnCrHgsmiCommandCompleteAsync(mpDrv->pVBVACallbacks, (PVBOXVDMACMD_CHROMIUM_CMD)pParam->u.pointer.addr, result); } void Display::handleCrHgsmiControlCompletion(int32_t result, uint32_t u32Function, PVBOXHGCMSVCPARM pParam) { mpDrv->pVBVACallbacks->pfnCrHgsmiControlCompleteAsync(mpDrv->pVBVACallbacks, (PVBOXVDMACMD_CHROMIUM_CTL)pParam->u.pointer.addr, result); } void Display::handleCrHgsmiCommandProcess(PPDMIDISPLAYCONNECTOR pInterface, PVBOXVDMACMD_CHROMIUM_CMD pCmd, uint32_t cbCmd) { int rc = VERR_INVALID_FUNCTION; VBOXHGCMSVCPARM parm; parm.type = VBOX_HGCM_SVC_PARM_PTR; parm.u.pointer.addr = pCmd; parm.u.pointer.size = cbCmd; if (mhCrOglSvc) { VMMDev *pVMMDev = mParent->getVMMDev(); if (pVMMDev) { /* no completion callback is specified with this call, * the CrOgl code will complete the CrHgsmi command once it processes it */ rc = pVMMDev->hgcmHostFastCallAsync(mhCrOglSvc, SHCRGL_HOST_FN_CRHGSMI_CMD, &parm, NULL, NULL); AssertRC(rc); if (RT_SUCCESS(rc)) return; } else rc = VERR_INVALID_STATE; } /* we are here because something went wrong with command processing, complete it */ handleCrHgsmiCommandCompletion(rc, SHCRGL_HOST_FN_CRHGSMI_CMD, &parm); } void Display::handleCrHgsmiControlProcess(PPDMIDISPLAYCONNECTOR pInterface, PVBOXVDMACMD_CHROMIUM_CTL pCtl, uint32_t cbCtl) { int rc = VERR_INVALID_FUNCTION; VBOXHGCMSVCPARM parm; parm.type = VBOX_HGCM_SVC_PARM_PTR; parm.u.pointer.addr = pCtl; parm.u.pointer.size = cbCtl; if (mhCrOglSvc) { VMMDev *pVMMDev = mParent->getVMMDev(); if (pVMMDev) { rc = pVMMDev->hgcmHostFastCallAsync(mhCrOglSvc, SHCRGL_HOST_FN_CRHGSMI_CTL, &parm, Display::displayCrHgsmiControlCompletion, this); AssertRC(rc); if (RT_SUCCESS(rc)) return; } else rc = VERR_INVALID_STATE; } /* we are here because something went wrong with command processing, complete it */ handleCrHgsmiControlCompletion(rc, SHCRGL_HOST_FN_CRHGSMI_CTL, &parm); } DECLCALLBACK(void) Display::displayCrHgsmiCommandProcess(PPDMIDISPLAYCONNECTOR pInterface, PVBOXVDMACMD_CHROMIUM_CMD pCmd, uint32_t cbCmd) { PDRVMAINDISPLAY pDrv = PDMIDISPLAYCONNECTOR_2_MAINDISPLAY(pInterface); pDrv->pDisplay->handleCrHgsmiCommandProcess(pInterface, pCmd, cbCmd); } DECLCALLBACK(void) Display::displayCrHgsmiControlProcess(PPDMIDISPLAYCONNECTOR pInterface, PVBOXVDMACMD_CHROMIUM_CTL pCmd, uint32_t cbCmd) { PDRVMAINDISPLAY pDrv = PDMIDISPLAYCONNECTOR_2_MAINDISPLAY(pInterface); pDrv->pDisplay->handleCrHgsmiControlProcess(pInterface, pCmd, cbCmd); } DECLCALLBACK(void) Display::displayCrHgsmiCommandCompletion(int32_t result, uint32_t u32Function, PVBOXHGCMSVCPARM pParam, void *pvContext) { AssertMsgFailed(("not expected!")); Display *pDisplay = (Display *)pvContext; pDisplay->handleCrHgsmiCommandCompletion(result, u32Function, pParam); } DECLCALLBACK(void) Display::displayCrHgsmiControlCompletion(int32_t result, uint32_t u32Function, PVBOXHGCMSVCPARM pParam, void *pvContext) { Display *pDisplay = (Display *)pvContext; pDisplay->handleCrHgsmiControlCompletion(result, u32Function, pParam); } #endif #ifdef VBOX_WITH_HGSMI DECLCALLBACK(int) Display::displayVBVAEnable(PPDMIDISPLAYCONNECTOR pInterface, unsigned uScreenId, PVBVAHOSTFLAGS pHostFlags) { LogRelFlowFunc(("uScreenId %d\n", uScreenId)); PDRVMAINDISPLAY pDrv = PDMIDISPLAYCONNECTOR_2_MAINDISPLAY(pInterface); Display *pThis = pDrv->pDisplay; pThis->maFramebuffers[uScreenId].fVBVAEnabled = true; pThis->maFramebuffers[uScreenId].pVBVAHostFlags = pHostFlags; vbvaSetMemoryFlagsHGSMI(uScreenId, pThis->mfu32SupportedOrders, pThis->mfVideoAccelVRDP, &pThis->maFramebuffers[uScreenId]); return VINF_SUCCESS; } DECLCALLBACK(void) Display::displayVBVADisable(PPDMIDISPLAYCONNECTOR pInterface, unsigned uScreenId) { LogRelFlowFunc(("uScreenId %d\n", uScreenId)); PDRVMAINDISPLAY pDrv = PDMIDISPLAYCONNECTOR_2_MAINDISPLAY(pInterface); Display *pThis = pDrv->pDisplay; DISPLAYFBINFO *pFBInfo = &pThis->maFramebuffers[uScreenId]; if (uScreenId == VBOX_VIDEO_PRIMARY_SCREEN) { /* Make sure that the primary screen is visible now. * The guest can't use VBVA anymore, so only only the VGA device output works. */ if (pFBInfo->fDisabled) { pFBInfo->fDisabled = false; fireGuestMonitorChangedEvent(pThis->mParent->getEventSource(), GuestMonitorChangedEventType_Enabled, uScreenId, pFBInfo->xOrigin, pFBInfo->yOrigin, pFBInfo->w, pFBInfo->h); } } pFBInfo->fVBVAEnabled = false; vbvaSetMemoryFlagsHGSMI(uScreenId, 0, false, pFBInfo); pFBInfo->pVBVAHostFlags = NULL; pFBInfo->u32Offset = 0; /* Not used in HGSMI. */ pFBInfo->u32MaxFramebufferSize = 0; /* Not used in HGSMI. */ pFBInfo->u32InformationSize = 0; /* Not used in HGSMI. */ pFBInfo->xOrigin = 0; pFBInfo->yOrigin = 0; pFBInfo->w = 0; pFBInfo->h = 0; pFBInfo->u16BitsPerPixel = 0; pFBInfo->pu8FramebufferVRAM = NULL; pFBInfo->u32LineSize = 0; } DECLCALLBACK(void) Display::displayVBVAUpdateBegin(PPDMIDISPLAYCONNECTOR pInterface, unsigned uScreenId) { LogFlowFunc(("uScreenId %d\n", uScreenId)); PDRVMAINDISPLAY pDrv = PDMIDISPLAYCONNECTOR_2_MAINDISPLAY(pInterface); Display *pThis = pDrv->pDisplay; DISPLAYFBINFO *pFBInfo = &pThis->maFramebuffers[uScreenId]; if (ASMAtomicReadU32(&pThis->mu32UpdateVBVAFlags) > 0) { vbvaSetMemoryFlagsAllHGSMI(pThis->mfu32SupportedOrders, pThis->mfVideoAccelVRDP, pThis->maFramebuffers, pThis->mcMonitors); ASMAtomicDecU32(&pThis->mu32UpdateVBVAFlags); } if (RT_LIKELY(pFBInfo->u32ResizeStatus == ResizeStatus_Void)) { if (RT_UNLIKELY(pFBInfo->cVBVASkipUpdate != 0)) { /* Some updates were skipped. Note: displayVBVAUpdate* callbacks are called * under display device lock, so thread safe. */ pFBInfo->cVBVASkipUpdate = 0; pThis->handleDisplayUpdate(uScreenId, pFBInfo->vbvaSkippedRect.xLeft - pFBInfo->xOrigin, pFBInfo->vbvaSkippedRect.yTop - pFBInfo->yOrigin, pFBInfo->vbvaSkippedRect.xRight - pFBInfo->vbvaSkippedRect.xLeft, pFBInfo->vbvaSkippedRect.yBottom - pFBInfo->vbvaSkippedRect.yTop); } } else { /* The framebuffer is being resized. */ pFBInfo->cVBVASkipUpdate++; } } DECLCALLBACK(void) Display::displayVBVAUpdateProcess(PPDMIDISPLAYCONNECTOR pInterface, unsigned uScreenId, const PVBVACMDHDR pCmd, size_t cbCmd) { LogFlowFunc(("uScreenId %d pCmd %p cbCmd %d, @%d,%d %dx%d\n", uScreenId, pCmd, cbCmd, pCmd->x, pCmd->y, pCmd->w, pCmd->h)); PDRVMAINDISPLAY pDrv = PDMIDISPLAYCONNECTOR_2_MAINDISPLAY(pInterface); Display *pThis = pDrv->pDisplay; DISPLAYFBINFO *pFBInfo = &pThis->maFramebuffers[uScreenId]; if (RT_LIKELY(pFBInfo->cVBVASkipUpdate == 0)) { if (pFBInfo->fDefaultFormat) { /* Make sure that framebuffer contains the same image as the guest VRAM. */ if ( uScreenId == VBOX_VIDEO_PRIMARY_SCREEN && !pFBInfo->pFramebuffer.isNull() && !pFBInfo->fDisabled) { pDrv->pUpPort->pfnUpdateDisplayRect (pDrv->pUpPort, pCmd->x, pCmd->y, pCmd->w, pCmd->h); } else if ( !pFBInfo->pFramebuffer.isNull() && !(pFBInfo->fDisabled)) { /* Render VRAM content to the framebuffer. */ BYTE *address = NULL; HRESULT hrc = pFBInfo->pFramebuffer->COMGETTER(Address) (&address); if (SUCCEEDED(hrc) && address != NULL) { uint32_t width = pCmd->w; uint32_t height = pCmd->h; const uint8_t *pu8Src = pFBInfo->pu8FramebufferVRAM; int32_t xSrc = pCmd->x - pFBInfo->xOrigin; int32_t ySrc = pCmd->y - pFBInfo->yOrigin; uint32_t u32SrcWidth = pFBInfo->w; uint32_t u32SrcHeight = pFBInfo->h; uint32_t u32SrcLineSize = pFBInfo->u32LineSize; uint32_t u32SrcBitsPerPixel = pFBInfo->u16BitsPerPixel; uint8_t *pu8Dst = address; int32_t xDst = xSrc; int32_t yDst = ySrc; uint32_t u32DstWidth = u32SrcWidth; uint32_t u32DstHeight = u32SrcHeight; uint32_t u32DstLineSize = u32DstWidth * 4; uint32_t u32DstBitsPerPixel = 32; pDrv->pUpPort->pfnCopyRect(pDrv->pUpPort, width, height, pu8Src, xSrc, ySrc, u32SrcWidth, u32SrcHeight, u32SrcLineSize, u32SrcBitsPerPixel, pu8Dst, xDst, yDst, u32DstWidth, u32DstHeight, u32DstLineSize, u32DstBitsPerPixel); } } } VBVACMDHDR hdrSaved = *pCmd; VBVACMDHDR *pHdrUnconst = (VBVACMDHDR *)pCmd; pHdrUnconst->x -= (int16_t)pFBInfo->xOrigin; pHdrUnconst->y -= (int16_t)pFBInfo->yOrigin; /* @todo new SendUpdate entry which can get a separate cmd header or coords. */ pThis->mParent->consoleVRDPServer()->SendUpdate (uScreenId, pCmd, cbCmd); *pHdrUnconst = hdrSaved; } } DECLCALLBACK(void) Display::displayVBVAUpdateEnd(PPDMIDISPLAYCONNECTOR pInterface, unsigned uScreenId, int32_t x, int32_t y, uint32_t cx, uint32_t cy) { LogFlowFunc(("uScreenId %d %d,%d %dx%d\n", uScreenId, x, y, cx, cy)); PDRVMAINDISPLAY pDrv = PDMIDISPLAYCONNECTOR_2_MAINDISPLAY(pInterface); Display *pThis = pDrv->pDisplay; DISPLAYFBINFO *pFBInfo = &pThis->maFramebuffers[uScreenId]; /* @todo handleFramebufferUpdate (uScreenId, * x - pThis->maFramebuffers[uScreenId].xOrigin, * y - pThis->maFramebuffers[uScreenId].yOrigin, * cx, cy); */ if (RT_LIKELY(pFBInfo->cVBVASkipUpdate == 0)) { pThis->handleDisplayUpdate(uScreenId, x - pFBInfo->xOrigin, y - pFBInfo->yOrigin, cx, cy); } else { /* Save the updated rectangle. */ int32_t xRight = x + cx; int32_t yBottom = y + cy; if (pFBInfo->cVBVASkipUpdate == 1) { pFBInfo->vbvaSkippedRect.xLeft = x; pFBInfo->vbvaSkippedRect.yTop = y; pFBInfo->vbvaSkippedRect.xRight = xRight; pFBInfo->vbvaSkippedRect.yBottom = yBottom; } else { if (pFBInfo->vbvaSkippedRect.xLeft > x) { pFBInfo->vbvaSkippedRect.xLeft = x; } if (pFBInfo->vbvaSkippedRect.yTop > y) { pFBInfo->vbvaSkippedRect.yTop = y; } if (pFBInfo->vbvaSkippedRect.xRight < xRight) { pFBInfo->vbvaSkippedRect.xRight = xRight; } if (pFBInfo->vbvaSkippedRect.yBottom < yBottom) { pFBInfo->vbvaSkippedRect.yBottom = yBottom; } } } } #ifdef DEBUG_sunlover static void logVBVAResize(const PVBVAINFOVIEW pView, const PVBVAINFOSCREEN pScreen, const DISPLAYFBINFO *pFBInfo) { LogRel(("displayVBVAResize: [%d] %s\n" " pView->u32ViewIndex %d\n" " pView->u32ViewOffset 0x%08X\n" " pView->u32ViewSize 0x%08X\n" " pView->u32MaxScreenSize 0x%08X\n" " pScreen->i32OriginX %d\n" " pScreen->i32OriginY %d\n" " pScreen->u32StartOffset 0x%08X\n" " pScreen->u32LineSize 0x%08X\n" " pScreen->u32Width %d\n" " pScreen->u32Height %d\n" " pScreen->u16BitsPerPixel %d\n" " pScreen->u16Flags 0x%04X\n" " pFBInfo->u32Offset 0x%08X\n" " pFBInfo->u32MaxFramebufferSize 0x%08X\n" " pFBInfo->u32InformationSize 0x%08X\n" " pFBInfo->fDisabled %d\n" " xOrigin, yOrigin, w, h: %d,%d %dx%d\n" " pFBInfo->u16BitsPerPixel %d\n" " pFBInfo->pu8FramebufferVRAM %p\n" " pFBInfo->u32LineSize 0x%08X\n" " pFBInfo->flags 0x%04X\n" " pFBInfo->pHostEvents %p\n" " pFBInfo->u32ResizeStatus %d\n" " pFBInfo->fDefaultFormat %d\n" " dirtyRect %d-%d %d-%d\n" " pFBInfo->pendingResize.fPending %d\n" " pFBInfo->pendingResize.pixelFormat %d\n" " pFBInfo->pendingResize.pvVRAM %p\n" " pFBInfo->pendingResize.bpp %d\n" " pFBInfo->pendingResize.cbLine 0x%08X\n" " pFBInfo->pendingResize.w,h %dx%d\n" " pFBInfo->pendingResize.flags 0x%04X\n" " pFBInfo->fVBVAEnabled %d\n" " pFBInfo->cVBVASkipUpdate %d\n" " pFBInfo->vbvaSkippedRect %d-%d %d-%d\n" " pFBInfo->pVBVAHostFlags %p\n" "", pScreen->u32ViewIndex, (pScreen->u16Flags & VBVA_SCREEN_F_DISABLED)? "DISABLED": "ENABLED", pView->u32ViewIndex, pView->u32ViewOffset, pView->u32ViewSize, pView->u32MaxScreenSize, pScreen->i32OriginX, pScreen->i32OriginY, pScreen->u32StartOffset, pScreen->u32LineSize, pScreen->u32Width, pScreen->u32Height, pScreen->u16BitsPerPixel, pScreen->u16Flags, pFBInfo->u32Offset, pFBInfo->u32MaxFramebufferSize, pFBInfo->u32InformationSize, pFBInfo->fDisabled, pFBInfo->xOrigin, pFBInfo->yOrigin, pFBInfo->w, pFBInfo->h, pFBInfo->u16BitsPerPixel, pFBInfo->pu8FramebufferVRAM, pFBInfo->u32LineSize, pFBInfo->flags, pFBInfo->pHostEvents, pFBInfo->u32ResizeStatus, pFBInfo->fDefaultFormat, pFBInfo->dirtyRect.xLeft, pFBInfo->dirtyRect.xRight, pFBInfo->dirtyRect.yTop, pFBInfo->dirtyRect.yBottom, pFBInfo->pendingResize.fPending, pFBInfo->pendingResize.pixelFormat, pFBInfo->pendingResize.pvVRAM, pFBInfo->pendingResize.bpp, pFBInfo->pendingResize.cbLine, pFBInfo->pendingResize.w, pFBInfo->pendingResize.h, pFBInfo->pendingResize.flags, pFBInfo->fVBVAEnabled, pFBInfo->cVBVASkipUpdate, pFBInfo->vbvaSkippedRect.xLeft, pFBInfo->vbvaSkippedRect.yTop, pFBInfo->vbvaSkippedRect.xRight, pFBInfo->vbvaSkippedRect.yBottom, pFBInfo->pVBVAHostFlags )); } #endif /* DEBUG_sunlover */ DECLCALLBACK(int) Display::displayVBVAResize(PPDMIDISPLAYCONNECTOR pInterface, const PVBVAINFOVIEW pView, const PVBVAINFOSCREEN pScreen, void *pvVRAM) { LogRelFlowFunc(("pScreen %p, pvVRAM %p\n", pScreen, pvVRAM)); PDRVMAINDISPLAY pDrv = PDMIDISPLAYCONNECTOR_2_MAINDISPLAY(pInterface); Display *pThis = pDrv->pDisplay; DISPLAYFBINFO *pFBInfo = &pThis->maFramebuffers[pScreen->u32ViewIndex]; if (pScreen->u16Flags & VBVA_SCREEN_F_DISABLED) { pFBInfo->fDisabled = true; pFBInfo->flags = pScreen->u16Flags; /* Temporary: ask framebuffer to resize using a default format. The framebuffer will be black. */ pThis->handleDisplayResize(pScreen->u32ViewIndex, 0, (uint8_t *)NULL, pScreen->u32LineSize, pScreen->u32Width, pScreen->u32Height, pScreen->u16Flags); fireGuestMonitorChangedEvent(pThis->mParent->getEventSource(), GuestMonitorChangedEventType_Disabled, pScreen->u32ViewIndex, 0, 0, 0, 0); return VINF_SUCCESS; } /* If display was disabled or there is no framebuffer, a resize will be required, * because the framebuffer was/will be changed. */ bool fResize = pFBInfo->fDisabled || pFBInfo->pFramebuffer.isNull(); if (pFBInfo->fDisabled) { pFBInfo->fDisabled = false; fireGuestMonitorChangedEvent(pThis->mParent->getEventSource(), GuestMonitorChangedEventType_Enabled, pScreen->u32ViewIndex, pScreen->i32OriginX, pScreen->i32OriginY, pScreen->u32Width, pScreen->u32Height); /* Continue to update pFBInfo. */ } /* Check if this is a real resize or a notification about the screen origin. * The guest uses this VBVAResize call for both. */ fResize = fResize || pFBInfo->u16BitsPerPixel != pScreen->u16BitsPerPixel || pFBInfo->pu8FramebufferVRAM != (uint8_t *)pvVRAM + pScreen->u32StartOffset || pFBInfo->u32LineSize != pScreen->u32LineSize || pFBInfo->w != pScreen->u32Width || pFBInfo->h != pScreen->u32Height; bool fNewOrigin = pFBInfo->xOrigin != pScreen->i32OriginX || pFBInfo->yOrigin != pScreen->i32OriginY; pFBInfo->u32Offset = pView->u32ViewOffset; /* Not used in HGSMI. */ pFBInfo->u32MaxFramebufferSize = pView->u32MaxScreenSize; /* Not used in HGSMI. */ pFBInfo->u32InformationSize = 0; /* Not used in HGSMI. */ pFBInfo->xOrigin = pScreen->i32OriginX; pFBInfo->yOrigin = pScreen->i32OriginY; pFBInfo->w = pScreen->u32Width; pFBInfo->h = pScreen->u32Height; pFBInfo->u16BitsPerPixel = pScreen->u16BitsPerPixel; pFBInfo->pu8FramebufferVRAM = (uint8_t *)pvVRAM + pScreen->u32StartOffset; pFBInfo->u32LineSize = pScreen->u32LineSize; pFBInfo->flags = pScreen->u16Flags; if (fNewOrigin) { fireGuestMonitorChangedEvent(pThis->mParent->getEventSource(), GuestMonitorChangedEventType_NewOrigin, pScreen->u32ViewIndex, pScreen->i32OriginX, pScreen->i32OriginY, 0, 0); } #if defined(VBOX_WITH_HGCM) && defined(VBOX_WITH_CROGL) if (fNewOrigin && !fResize) { BOOL is3denabled; pThis->mParent->machine()->COMGETTER(Accelerate3DEnabled)(&is3denabled); if (is3denabled) { VBOXHGCMSVCPARM parm; parm.type = VBOX_HGCM_SVC_PARM_32BIT; parm.u.uint32 = pScreen->u32ViewIndex; VMMDev *pVMMDev = pThis->mParent->getVMMDev(); if (pVMMDev) pVMMDev->hgcmHostCall("VBoxSharedCrOpenGL", SHCRGL_HOST_FN_SCREEN_CHANGED, SHCRGL_CPARMS_SCREEN_CHANGED, &parm); } } #endif /* VBOX_WITH_CROGL */ if (!fResize) { /* No parameters of the framebuffer have actually changed. */ if (fNewOrigin) { /* VRDP server still need this notification. */ LogRelFlowFunc (("Calling VRDP\n")); pThis->mParent->consoleVRDPServer()->SendResize(); } return VINF_SUCCESS; } if (pFBInfo->pFramebuffer.isNull()) { /* If no framebuffer, the resize will be done later when a new framebuffer will be set in changeFramebuffer. */ return VINF_SUCCESS; } /* If the framebuffer already set for the screen, do a regular resize. */ return pThis->handleDisplayResize(pScreen->u32ViewIndex, pScreen->u16BitsPerPixel, (uint8_t *)pvVRAM + pScreen->u32StartOffset, pScreen->u32LineSize, pScreen->u32Width, pScreen->u32Height, pScreen->u16Flags); } DECLCALLBACK(int) Display::displayVBVAMousePointerShape(PPDMIDISPLAYCONNECTOR pInterface, bool fVisible, bool fAlpha, uint32_t xHot, uint32_t yHot, uint32_t cx, uint32_t cy, const void *pvShape) { LogFlowFunc(("\n")); PDRVMAINDISPLAY pDrv = PDMIDISPLAYCONNECTOR_2_MAINDISPLAY(pInterface); Display *pThis = pDrv->pDisplay; size_t cbShapeSize = 0; if (pvShape) { cbShapeSize = (cx + 7) / 8 * cy; /* size of the AND mask */ cbShapeSize = ((cbShapeSize + 3) & ~3) + cx * 4 * cy; /* + gap + size of the XOR mask */ } com::SafeArray shapeData(cbShapeSize); if (pvShape) ::memcpy(shapeData.raw(), pvShape, cbShapeSize); /* Tell the console about it */ pDrv->pDisplay->mParent->onMousePointerShapeChange(fVisible, fAlpha, xHot, yHot, cx, cy, ComSafeArrayAsInParam(shapeData)); return VINF_SUCCESS; } #endif /* VBOX_WITH_HGSMI */ /** * @interface_method_impl{PDMIBASE,pfnQueryInterface} */ DECLCALLBACK(void *) Display::drvQueryInterface(PPDMIBASE pInterface, const char *pszIID) { PPDMDRVINS pDrvIns = PDMIBASE_2_PDMDRV(pInterface); PDRVMAINDISPLAY pDrv = PDMINS_2_DATA(pDrvIns, PDRVMAINDISPLAY); PDMIBASE_RETURN_INTERFACE(pszIID, PDMIBASE, &pDrvIns->IBase); PDMIBASE_RETURN_INTERFACE(pszIID, PDMIDISPLAYCONNECTOR, &pDrv->IConnector); return NULL; } /** * Destruct a display driver instance. * * @returns VBox status. * @param pDrvIns The driver instance data. */ DECLCALLBACK(void) Display::drvDestruct(PPDMDRVINS pDrvIns) { PDRVMAINDISPLAY pData = PDMINS_2_DATA(pDrvIns, PDRVMAINDISPLAY); LogRelFlowFunc (("iInstance=%d\n", pDrvIns->iInstance)); PDMDRV_CHECK_VERSIONS_RETURN_VOID(pDrvIns); if (pData->pDisplay) { AutoWriteLock displayLock(pData->pDisplay COMMA_LOCKVAL_SRC_POS); #ifdef VBOX_WITH_CRHGSMI pData->pDisplay->destructCrHgsmiData(); #endif pData->pDisplay->mpDrv = NULL; pData->pDisplay->mpVMMDev = NULL; pData->pDisplay->mLastAddress = NULL; pData->pDisplay->mLastBytesPerLine = 0; pData->pDisplay->mLastBitsPerPixel = 0, pData->pDisplay->mLastWidth = 0; pData->pDisplay->mLastHeight = 0; } } /** * Construct a display driver instance. * * @copydoc FNPDMDRVCONSTRUCT */ DECLCALLBACK(int) Display::drvConstruct(PPDMDRVINS pDrvIns, PCFGMNODE pCfg, uint32_t fFlags) { PDRVMAINDISPLAY pData = PDMINS_2_DATA(pDrvIns, PDRVMAINDISPLAY); LogRelFlowFunc (("iInstance=%d\n", pDrvIns->iInstance)); PDMDRV_CHECK_VERSIONS_RETURN(pDrvIns); /* * Validate configuration. */ if (!CFGMR3AreValuesValid(pCfg, "Object\0")) return VERR_PDM_DRVINS_UNKNOWN_CFG_VALUES; AssertMsgReturn(PDMDrvHlpNoAttach(pDrvIns) == VERR_PDM_NO_ATTACHED_DRIVER, ("Configuration error: Not possible to attach anything to this driver!\n"), VERR_PDM_DRVINS_NO_ATTACH); /* * Init Interfaces. */ pDrvIns->IBase.pfnQueryInterface = Display::drvQueryInterface; pData->IConnector.pfnResize = Display::displayResizeCallback; pData->IConnector.pfnUpdateRect = Display::displayUpdateCallback; pData->IConnector.pfnRefresh = Display::displayRefreshCallback; pData->IConnector.pfnReset = Display::displayResetCallback; pData->IConnector.pfnLFBModeChange = Display::displayLFBModeChangeCallback; pData->IConnector.pfnProcessAdapterData = Display::displayProcessAdapterDataCallback; pData->IConnector.pfnProcessDisplayData = Display::displayProcessDisplayDataCallback; #ifdef VBOX_WITH_VIDEOHWACCEL pData->IConnector.pfnVHWACommandProcess = Display::displayVHWACommandProcess; #endif #ifdef VBOX_WITH_CRHGSMI pData->IConnector.pfnCrHgsmiCommandProcess = Display::displayCrHgsmiCommandProcess; pData->IConnector.pfnCrHgsmiControlProcess = Display::displayCrHgsmiControlProcess; #endif #ifdef VBOX_WITH_HGSMI pData->IConnector.pfnVBVAEnable = Display::displayVBVAEnable; pData->IConnector.pfnVBVADisable = Display::displayVBVADisable; pData->IConnector.pfnVBVAUpdateBegin = Display::displayVBVAUpdateBegin; pData->IConnector.pfnVBVAUpdateProcess = Display::displayVBVAUpdateProcess; pData->IConnector.pfnVBVAUpdateEnd = Display::displayVBVAUpdateEnd; pData->IConnector.pfnVBVAResize = Display::displayVBVAResize; pData->IConnector.pfnVBVAMousePointerShape = Display::displayVBVAMousePointerShape; #endif #ifdef VBOX_WITH_VPX_MAIN rc = VideoRecContextCreate(&pVideoRecContext); rc = RTCritSectInit(&mCritSect); AssertReturn(rc == VINF_SUCCESS, E_UNEXPECTED); if(rc == VINF_SUCCESS) rc = VideoRecContextInit(pVideoRecContext, "test.webm", 800, 720); #endif /* * Get the IDisplayPort interface of the above driver/device. */ pData->pUpPort = PDMIBASE_QUERY_INTERFACE(pDrvIns->pUpBase, PDMIDISPLAYPORT); if (!pData->pUpPort) { AssertMsgFailed(("Configuration error: No display port interface above!\n")); return VERR_PDM_MISSING_INTERFACE_ABOVE; } #if defined(VBOX_WITH_VIDEOHWACCEL) || defined(VBOX_WITH_CRHGSMI) pData->pVBVACallbacks = PDMIBASE_QUERY_INTERFACE(pDrvIns->pUpBase, PDMIDISPLAYVBVACALLBACKS); if (!pData->pVBVACallbacks) { AssertMsgFailed(("Configuration error: No VBVA callback interface above!\n")); return VERR_PDM_MISSING_INTERFACE_ABOVE; } #endif /* * Get the Display object pointer and update the mpDrv member. */ void *pv; int rc = CFGMR3QueryPtr(pCfg, "Object", &pv); if (RT_FAILURE(rc)) { AssertMsgFailed(("Configuration error: No/bad \"Object\" value! rc=%Rrc\n", rc)); return rc; } pData->pDisplay = (Display *)pv; /** @todo Check this cast! */ pData->pDisplay->mpDrv = pData; /* * Update our display information according to the framebuffer */ pData->pDisplay->updateDisplayData(); /* * Start periodic screen refreshes */ pData->pUpPort->pfnSetRefreshRate(pData->pUpPort, 20); #ifdef VBOX_WITH_CRHGSMI pData->pDisplay->setupCrHgsmiData(); #endif return VINF_SUCCESS; } /** * Display driver registration record. */ const PDMDRVREG Display::DrvReg = { /* u32Version */ PDM_DRVREG_VERSION, /* szName */ "MainDisplay", /* szRCMod */ "", /* szR0Mod */ "", /* pszDescription */ "Main display driver (Main as in the API).", /* fFlags */ PDM_DRVREG_FLAGS_HOST_BITS_DEFAULT, /* fClass. */ PDM_DRVREG_CLASS_DISPLAY, /* cMaxInstances */ ~0U, /* cbInstance */ sizeof(DRVMAINDISPLAY), /* pfnConstruct */ Display::drvConstruct, /* pfnDestruct */ Display::drvDestruct, /* pfnRelocate */ NULL, /* pfnIOCtl */ NULL, /* pfnPowerOn */ NULL, /* pfnReset */ NULL, /* pfnSuspend */ NULL, /* pfnResume */ NULL, /* pfnAttach */ NULL, /* pfnDetach */ NULL, /* pfnPowerOff */ NULL, /* pfnSoftReset */ NULL, /* u32EndVersion */ PDM_DRVREG_VERSION }; /* vi: set tabstop=4 shiftwidth=4 expandtab: */