/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- * vim: sw=4 ts=4 et : * This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ #if defined(MOZ_WIDGET_QT) && (MOZ_PLATFORM_MAEMO == 6) #include #include #include #include #include "nsQtKeyUtils.h" #endif #include "PluginBackgroundDestroyer.h" #include "PluginInstanceChild.h" #include "PluginModuleChild.h" #include "BrowserStreamChild.h" #include "PluginStreamChild.h" #include "StreamNotifyChild.h" #include "PluginProcessChild.h" #include "gfxASurface.h" #include "gfxContext.h" #include "nsNPAPIPluginInstance.h" #ifdef MOZ_X11 #include "gfxXlibSurface.h" #endif #ifdef XP_WIN #include "mozilla/gfx/SharedDIBSurface.h" #include "nsCrashOnException.h" extern const PRUnichar* kFlashFullscreenClass; using mozilla::gfx::SharedDIBSurface; #endif #include "gfxSharedImageSurface.h" #include "gfxUtils.h" #include "gfxAlphaRecovery.h" #include "mozilla/Util.h" #include "mozilla/ipc/SyncChannel.h" #include "mozilla/AutoRestore.h" using namespace mozilla; using mozilla::ipc::ProcessChild; using namespace mozilla::plugins; using namespace std; #ifdef MOZ_WIDGET_GTK2 #include #include #include #include "gtk2xtbin.h" #elif defined(MOZ_WIDGET_QT) #undef KeyPress #undef KeyRelease #elif defined(OS_WIN) #ifndef WM_MOUSEHWHEEL #define WM_MOUSEHWHEEL 0x020E #endif #include "nsWindowsDllInterceptor.h" typedef BOOL (WINAPI *User32TrackPopupMenu)(HMENU hMenu, UINT uFlags, int x, int y, int nReserved, HWND hWnd, CONST RECT *prcRect); static WindowsDllInterceptor sUser32Intercept; static HWND sWinlessPopupSurrogateHWND = NULL; static User32TrackPopupMenu sUser32TrackPopupMenuStub = NULL; using mozilla::gfx::SharedDIB; #include #include // Flash WM_USER message delay time for PostDelayedTask. Borrowed // from Chromium's web plugin delegate src. See 'flash msg throttling // helpers' section for details. const int kFlashWMUSERMessageThrottleDelayMs = 5; static const TCHAR kPluginIgnoreSubclassProperty[] = TEXT("PluginIgnoreSubclassProperty"); #elif defined(XP_MACOSX) #include #include "nsCocoaFeatures.h" #include "PluginUtilsOSX.h" #endif // defined(XP_MACOSX) template<> struct RunnableMethodTraits { static void RetainCallee(PluginInstanceChild* obj) { } static void ReleaseCallee(PluginInstanceChild* obj) { } }; PluginInstanceChild::PluginInstanceChild(const NPPluginFuncs* aPluginIface) : mPluginIface(aPluginIface) , mDrawingModel(kDefaultDrawingModel) , mCurrentAsyncSurface(0) , mAsyncInvalidateMutex("PluginInstanceChild::mAsyncInvalidateMutex") , mAsyncInvalidateTask(0) , mCachedWindowActor(nsnull) , mCachedElementActor(nsnull) #if defined(OS_WIN) , mPluginWindowHWND(0) , mPluginWndProc(0) , mPluginParentHWND(0) , mCachedWinlessPluginHWND(0) , mWinlessPopupSurrogateHWND(0) , mWinlessThrottleOldWndProc(0) , mWinlessHiddenMsgHWND(0) #endif // OS_WIN , mAsyncCallMutex("PluginInstanceChild::mAsyncCallMutex") #if defined(MOZ_WIDGET_COCOA) #if defined(__i386__) , mEventModel(NPEventModelCarbon) #endif , mShColorSpace(nsnull) , mShContext(nsnull) , mCGLayer(nsnull) , mCurrentEvent(nsnull) #endif , mLayersRendering(false) #ifdef XP_WIN , mCurrentSurfaceActor(NULL) , mBackSurfaceActor(NULL) #endif , mAccumulatedInvalidRect(0,0,0,0) , mIsTransparent(false) , mSurfaceType(gfxASurface::SurfaceTypeMax) , mCurrentInvalidateTask(nsnull) , mCurrentAsyncSetWindowTask(nsnull) , mPendingPluginCall(false) , mDoAlphaExtraction(false) , mHasPainted(false) , mSurfaceDifferenceRect(0,0,0,0) #if (MOZ_PLATFORM_MAEMO == 5) || (MOZ_PLATFORM_MAEMO == 6) , mMaemoImageRendering(true) #endif { memset(&mWindow, 0, sizeof(mWindow)); mData.ndata = (void*) this; mData.pdata = nsnull; mAsyncBitmaps.Init(); #if defined(MOZ_X11) && defined(XP_UNIX) && !defined(XP_MACOSX) mWindow.ws_info = &mWsInfo; memset(&mWsInfo, 0, sizeof(mWsInfo)); mWsInfo.display = DefaultXDisplay(); #endif // MOZ_X11 && XP_UNIX && !XP_MACOSX #if defined(OS_WIN) memset(&mAlphaExtract, 0, sizeof(mAlphaExtract)); #endif // OS_WIN #if defined(OS_WIN) InitPopupMenuHook(); #endif // OS_WIN } PluginInstanceChild::~PluginInstanceChild() { #if defined(OS_WIN) NS_ASSERTION(!mPluginWindowHWND, "Destroying PluginInstanceChild without NPP_Destroy?"); #endif #if defined(MOZ_WIDGET_COCOA) if (mShColorSpace) { ::CGColorSpaceRelease(mShColorSpace); } if (mShContext) { ::CGContextRelease(mShContext); } if (mCGLayer) { PluginUtilsOSX::ReleaseCGLayer(mCGLayer); } if (mDrawingModel == NPDrawingModelCoreAnimation) { UnscheduleTimer(mCARefreshTimer); } #endif } int PluginInstanceChild::GetQuirks() { return PluginModuleChild::current()->GetQuirks(); } NPError PluginInstanceChild::InternalGetNPObjectForValue(NPNVariable aValue, NPObject** aObject) { PluginScriptableObjectChild* actor = NULL; NPError result = NPERR_NO_ERROR; switch (aValue) { case NPNVWindowNPObject: if (!(actor = mCachedWindowActor)) { PPluginScriptableObjectChild* actorProtocol; CallNPN_GetValue_NPNVWindowNPObject(&actorProtocol, &result); if (result == NPERR_NO_ERROR) { actor = mCachedWindowActor = static_cast(actorProtocol); NS_ASSERTION(actor, "Null actor!"); PluginModuleChild::sBrowserFuncs.retainobject( actor->GetObject(false)); } } break; case NPNVPluginElementNPObject: if (!(actor = mCachedElementActor)) { PPluginScriptableObjectChild* actorProtocol; CallNPN_GetValue_NPNVPluginElementNPObject(&actorProtocol, &result); if (result == NPERR_NO_ERROR) { actor = mCachedElementActor = static_cast(actorProtocol); NS_ASSERTION(actor, "Null actor!"); PluginModuleChild::sBrowserFuncs.retainobject( actor->GetObject(false)); } } break; default: NS_NOTREACHED("Don't know what to do with this value type!"); } #ifdef DEBUG { NPError currentResult; PPluginScriptableObjectChild* currentActor; switch (aValue) { case NPNVWindowNPObject: CallNPN_GetValue_NPNVWindowNPObject(¤tActor, ¤tResult); break; case NPNVPluginElementNPObject: CallNPN_GetValue_NPNVPluginElementNPObject(¤tActor, ¤tResult); break; default: NS_NOTREACHED("Don't know what to do with this value type!"); } // Make sure that the current actor returned by the parent matches our // cached actor! NS_ASSERTION(static_cast(currentActor) == actor, "Cached actor is out of date!"); NS_ASSERTION(currentResult == result, "Results don't match?!"); } #endif if (result != NPERR_NO_ERROR) { return result; } NPObject* object = actor->GetObject(false); NS_ASSERTION(object, "Null object?!"); *aObject = PluginModuleChild::sBrowserFuncs.retainobject(object); return NPERR_NO_ERROR; } NPError PluginInstanceChild::NPN_GetValue(NPNVariable aVar, void* aValue) { PLUGIN_LOG_DEBUG(("%s (aVar=%i)", FULLFUNCTION, (int) aVar)); AssertPluginThread(); switch(aVar) { case NPNVSupportsWindowless: #if defined(OS_LINUX) || defined(MOZ_X11) || defined(OS_WIN) *((NPBool*)aValue) = true; #else *((NPBool*)aValue) = false; #endif return NPERR_NO_ERROR; #if (MOZ_PLATFORM_MAEMO == 5) || (MOZ_PLATFORM_MAEMO == 6) case NPNVSupportsWindowlessLocal: { #ifdef MOZ_WIDGET_QT const char *graphicsSystem = PR_GetEnv("MOZ_QT_GRAPHICSSYSTEM"); // we should set local rendering to false in order to render X-Plugin // there is no possibility to change it later on maemo5 platform mMaemoImageRendering = (!(graphicsSystem && !strcmp(graphicsSystem, "native"))); #endif *((NPBool*)aValue) = mMaemoImageRendering; return NPERR_NO_ERROR; } #endif #if defined(MOZ_X11) case NPNVSupportsXEmbedBool: *((NPBool*)aValue) = true; return NPERR_NO_ERROR; case NPNVToolkit: *((NPNToolkitType*)aValue) = NPNVGtk2; return NPERR_NO_ERROR; #elif defined(OS_WIN) case NPNVToolkit: return NPERR_GENERIC_ERROR; #endif case NPNVjavascriptEnabledBool: { bool v = false; NPError result; if (!CallNPN_GetValue_NPNVjavascriptEnabledBool(&v, &result)) { return NPERR_GENERIC_ERROR; } *static_cast(aValue) = v; return result; } case NPNVisOfflineBool: { bool v = false; NPError result; if (!CallNPN_GetValue_NPNVisOfflineBool(&v, &result)) { return NPERR_GENERIC_ERROR; } *static_cast(aValue) = v; return result; } case NPNVprivateModeBool: { bool v = false; NPError result; if (!CallNPN_GetValue_NPNVprivateModeBool(&v, &result)) { return NPERR_GENERIC_ERROR; } *static_cast(aValue) = v; return result; } case NPNVdocumentOrigin: { nsCString v; NPError result; if (!CallNPN_GetValue_NPNVdocumentOrigin(&v, &result)) { return NPERR_GENERIC_ERROR; } if (result == NPERR_NO_ERROR) { *static_cast(aValue) = ToNewCString(v); } return result; } case NPNVWindowNPObject: // Intentional fall-through case NPNVPluginElementNPObject: { NPObject* object; NPError result = InternalGetNPObjectForValue(aVar, &object); if (result == NPERR_NO_ERROR) { *((NPObject**)aValue) = object; } return result; } case NPNVnetscapeWindow: { #ifdef XP_WIN if (mWindow.type == NPWindowTypeDrawable) { if (mCachedWinlessPluginHWND) { *static_cast(aValue) = mCachedWinlessPluginHWND; return NPERR_NO_ERROR; } NPError result; if (!CallNPN_GetValue_NPNVnetscapeWindow(&mCachedWinlessPluginHWND, &result)) { return NPERR_GENERIC_ERROR; } *static_cast(aValue) = mCachedWinlessPluginHWND; return result; } else { *static_cast(aValue) = mPluginWindowHWND; return NPERR_NO_ERROR; } #elif defined(MOZ_X11) NPError result; CallNPN_GetValue_NPNVnetscapeWindow(static_cast(aValue), &result); return result; #else return NPERR_GENERIC_ERROR; #endif } case NPNVsupportsAsyncBitmapSurfaceBool: { #ifdef XP_WIN *((NPBool*)aValue) = PluginModuleChild::current()->AsyncDrawingAllowed(); #else // We do not support non-windows yet. *((NPBool*)aValue) = false; #endif return NPERR_NO_ERROR; } #ifdef XP_WIN case NPNVsupportsAsyncWindowsDXGISurfaceBool: { bool val; CallNPN_GetValue_DrawingModelSupport(NPNVsupportsAsyncWindowsDXGISurfaceBool, &val); *((NPBool*)aValue) = val; return NPERR_NO_ERROR; } #endif #ifdef XP_MACOSX case NPNVsupportsCoreGraphicsBool: { *((NPBool*)aValue) = true; return NPERR_NO_ERROR; } case NPNVsupportsCoreAnimationBool: { *((NPBool*)aValue) = nsCocoaFeatures::SupportCoreAnimationPlugins(); return NPERR_NO_ERROR; } case NPNVsupportsInvalidatingCoreAnimationBool: { *((NPBool*)aValue) = nsCocoaFeatures::SupportCoreAnimationPlugins(); return NPERR_NO_ERROR; } case NPNVsupportsCocoaBool: { *((NPBool*)aValue) = true; return NPERR_NO_ERROR; } #ifndef NP_NO_CARBON case NPNVsupportsCarbonBool: { *((NPBool*)aValue) = false; return NPERR_NO_ERROR; } #endif case NPNVsupportsUpdatedCocoaTextInputBool: { *static_cast(aValue) = true; return NPERR_NO_ERROR; } #ifndef NP_NO_QUICKDRAW case NPNVsupportsQuickDrawBool: { *((NPBool*)aValue) = false; return NPERR_NO_ERROR; } #endif /* NP_NO_QUICKDRAW */ #endif /* XP_MACOSX */ default: PR_LOG(gPluginLog, PR_LOG_WARNING, ("In PluginInstanceChild::NPN_GetValue: Unhandled NPNVariable %i (%s)", (int) aVar, NPNVariableToString(aVar))); return NPERR_GENERIC_ERROR; } } #ifdef MOZ_WIDGET_COCOA #define DEFAULT_REFRESH_MS 20 // CoreAnimation: 50 FPS void CAUpdate(NPP npp, uint32_t timerID) { static_cast(npp->ndata)->Invalidate(); } void PluginInstanceChild::Invalidate() { NPRect windowRect = {0, 0, uint16_t(mWindow.height), uint16_t(mWindow.width)}; InvalidateRect(&windowRect); } #endif NPError PluginInstanceChild::NPN_SetValue(NPPVariable aVar, void* aValue) { PR_LOG(gPluginLog, PR_LOG_DEBUG, ("%s (aVar=%i, aValue=%p)", FULLFUNCTION, (int) aVar, aValue)); AssertPluginThread(); switch (aVar) { case NPPVpluginWindowBool: { NPError rv; bool windowed = (NPBool) (intptr_t) aValue; if (!CallNPN_SetValue_NPPVpluginWindow(windowed, &rv)) return NPERR_GENERIC_ERROR; return rv; } case NPPVpluginTransparentBool: { NPError rv; mIsTransparent = (!!aValue); if (!CallNPN_SetValue_NPPVpluginTransparent(mIsTransparent, &rv)) return NPERR_GENERIC_ERROR; return rv; } case NPPVpluginUsesDOMForCursorBool: { NPError rv = NPERR_GENERIC_ERROR; if (!CallNPN_SetValue_NPPVpluginUsesDOMForCursor((NPBool)(intptr_t)aValue, &rv)) { return NPERR_GENERIC_ERROR; } return rv; } case NPPVpluginDrawingModel: { NPError rv; int drawingModel = (int16) (intptr_t) aValue; if (!PluginModuleChild::current()->AsyncDrawingAllowed() && IsDrawingModelAsync(drawingModel)) { return NPERR_GENERIC_ERROR; } CrossProcessMutexHandle handle; OptionalShmem optionalShmem; if (!CallNPN_SetValue_NPPVpluginDrawingModel(drawingModel, &optionalShmem, &handle, &rv)) return NPERR_GENERIC_ERROR; if (IsDrawingModelAsync(drawingModel)) { if (optionalShmem.type() != OptionalShmem::TShmem) { return NPERR_GENERIC_ERROR; } mRemoteImageDataShmem = optionalShmem.get_Shmem(); mRemoteImageData = mRemoteImageDataShmem.get(); mRemoteImageDataMutex = new CrossProcessMutex(handle); } mDrawingModel = drawingModel; #ifdef XP_MACOSX if (drawingModel == NPDrawingModelCoreAnimation) { mCARefreshTimer = ScheduleTimer(DEFAULT_REFRESH_MS, true, CAUpdate); } #endif PLUGIN_LOG_DEBUG((" Plugin requested drawing model id #%i\n", mDrawingModel)); return rv; } #ifdef XP_MACOSX case NPPVpluginEventModel: { NPError rv; int eventModel = (int16) (intptr_t) aValue; if (!CallNPN_SetValue_NPPVpluginEventModel(eventModel, &rv)) return NPERR_GENERIC_ERROR; #if defined(__i386__) mEventModel = static_cast(eventModel); #endif PLUGIN_LOG_DEBUG((" Plugin requested event model id # %i\n", eventModel)); return rv; } #endif default: PR_LOG(gPluginLog, PR_LOG_WARNING, ("In PluginInstanceChild::NPN_SetValue: Unhandled NPPVariable %i (%s)", (int) aVar, NPPVariableToString(aVar))); return NPERR_GENERIC_ERROR; } } bool PluginInstanceChild::AnswerNPP_GetValue_NPPVpluginWantsAllNetworkStreams( bool* wantsAllStreams, NPError* rv) { AssertPluginThread(); PRUint32 value = 0; if (!mPluginIface->getvalue) { *rv = NPERR_GENERIC_ERROR; } else { *rv = mPluginIface->getvalue(GetNPP(), NPPVpluginWantsAllNetworkStreams, &value); } *wantsAllStreams = value; return true; } bool PluginInstanceChild::AnswerNPP_GetValue_NPPVpluginNeedsXEmbed( bool* needs, NPError* rv) { AssertPluginThread(); #ifdef MOZ_X11 // The documentation on the types for many variables in NP(N|P)_GetValue // is vague. Often boolean values are NPBool (1 byte), but // https://developer.mozilla.org/en/XEmbed_Extension_for_Mozilla_Plugins // treats NPPVpluginNeedsXEmbed as PRBool (int), and // on x86/32-bit, flash stores to this using |movl 0x1,&needsXEmbed|. // thus we can't use NPBool for needsXEmbed, or the three bytes above // it on the stack would get clobbered. so protect with the larger bool. int needsXEmbed = 0; if (!mPluginIface->getvalue) { *rv = NPERR_GENERIC_ERROR; } else { *rv = mPluginIface->getvalue(GetNPP(), NPPVpluginNeedsXEmbed, &needsXEmbed); } *needs = needsXEmbed; return true; #else NS_RUNTIMEABORT("shouldn't be called on non-X11 platforms"); return false; // not reached #endif } bool PluginInstanceChild::AnswerNPP_GetValue_NPPVpluginScriptableNPObject( PPluginScriptableObjectChild** aValue, NPError* aResult) { AssertPluginThread(); NPObject* object = nsnull; NPError result = NPERR_GENERIC_ERROR; if (mPluginIface->getvalue) { result = mPluginIface->getvalue(GetNPP(), NPPVpluginScriptableNPObject, &object); } if (result == NPERR_NO_ERROR && object) { PluginScriptableObjectChild* actor = GetActorForNPObject(object); // If we get an actor then it has retained. Otherwise we don't need it // any longer. PluginModuleChild::sBrowserFuncs.releaseobject(object); if (actor) { *aValue = actor; *aResult = NPERR_NO_ERROR; return true; } NS_ERROR("Failed to get actor!"); result = NPERR_GENERIC_ERROR; } else { result = NPERR_GENERIC_ERROR; } *aValue = nsnull; *aResult = result; return true; } bool PluginInstanceChild::AnswerNPP_GetValue_NPPVpluginNativeAccessibleAtkPlugId( nsCString* aPlugId, NPError* aResult) { AssertPluginThread(); #if MOZ_ACCESSIBILITY_ATK char* plugId = NULL; NPError result = NPERR_GENERIC_ERROR; if (mPluginIface->getvalue) { result = mPluginIface->getvalue(GetNPP(), NPPVpluginNativeAccessibleAtkPlugId, &plugId); } *aPlugId = nsCString(plugId); *aResult = result; return true; #else NS_RUNTIMEABORT("shouldn't be called on non-ATK platforms"); return false; #endif } bool PluginInstanceChild::AnswerNPP_SetValue_NPNVprivateModeBool(const bool& value, NPError* result) { if (!mPluginIface->setvalue) { *result = NPERR_GENERIC_ERROR; return true; } NPBool v = value; *result = mPluginIface->setvalue(GetNPP(), NPNVprivateModeBool, &v); return true; } bool PluginInstanceChild::AnswerNPP_HandleEvent(const NPRemoteEvent& event, int16_t* handled) { PLUGIN_LOG_DEBUG_FUNCTION; AssertPluginThread(); #if defined(MOZ_X11) && defined(DEBUG) if (GraphicsExpose == event.event.type) PLUGIN_LOG_DEBUG((" received drawable 0x%lx\n", event.event.xgraphicsexpose.drawable)); #endif #ifdef XP_MACOSX // Mac OS X does not define an NPEvent structure. It defines more specific types. NPCocoaEvent evcopy = event.event; // Make sure we reset mCurrentEvent in case of an exception AutoRestore savePreviousEvent(mCurrentEvent); // Track the current event for NPN_PopUpContextMenu. mCurrentEvent = &event.event; #else // Make a copy since we may modify values. NPEvent evcopy = event.event; #endif #ifdef OS_WIN // FIXME/bug 567645: temporarily drop the "dummy event" on the floor if (WM_NULL == evcopy.event) return true; // Painting for win32. SharedSurfacePaint handles everything. if (mWindow.type == NPWindowTypeDrawable) { if (evcopy.event == WM_PAINT) { *handled = SharedSurfacePaint(evcopy); return true; } else if (DoublePassRenderingEvent() == evcopy.event) { // We'll render to mSharedSurfaceDib first, then render to a cached bitmap // we store locally. The two passes are for alpha extraction, so the second // pass must be to a flat white surface in order for things to work. mAlphaExtract.doublePass = RENDER_BACK_ONE; *handled = true; return true; } } *handled = WinlessHandleEvent(evcopy); return true; #endif // XXX A previous call to mPluginIface->event might block, e.g. right click // for context menu. Still, we might get here again, calling into the plugin // a second time while it's in the previous call. if (!mPluginIface->event) *handled = false; else *handled = mPluginIface->event(&mData, reinterpret_cast(&evcopy)); #ifdef XP_MACOSX // Release any reference counted objects created in the child process. if (evcopy.type == NPCocoaEventKeyDown || evcopy.type == NPCocoaEventKeyUp) { ::CFRelease((CFStringRef)evcopy.data.key.characters); ::CFRelease((CFStringRef)evcopy.data.key.charactersIgnoringModifiers); } else if (evcopy.type == NPCocoaEventTextInput) { ::CFRelease((CFStringRef)evcopy.data.text.text); } #endif #ifdef MOZ_X11 if (GraphicsExpose == event.event.type) { // Make sure the X server completes the drawing before the parent // draws on top and destroys the Drawable. // // XSync() waits for the X server to complete. Really this child // process does not need to wait; the parent is the process that needs // to wait. A possibly-slightly-better alternative would be to send // an X event to the parent that the parent would wait for. XSync(mWsInfo.display, False); } #endif return true; } #ifdef XP_MACOSX bool PluginInstanceChild::AnswerNPP_HandleEvent_Shmem(const NPRemoteEvent& event, Shmem& mem, int16_t* handled, Shmem* rtnmem) { PLUGIN_LOG_DEBUG_FUNCTION; AssertPluginThread(); PaintTracker pt; NPCocoaEvent evcopy = event.event; if (evcopy.type == NPCocoaEventDrawRect) { if (!mShColorSpace) { mShColorSpace = CreateSystemColorSpace(); if (!mShColorSpace) { PLUGIN_LOG_DEBUG(("Could not allocate ColorSpace.")); *handled = false; *rtnmem = mem; return true; } } if (!mShContext) { void* cgContextByte = mem.get(); mShContext = ::CGBitmapContextCreate(cgContextByte, mWindow.width, mWindow.height, 8, mWindow.width * 4, mShColorSpace, kCGImageAlphaPremultipliedFirst | kCGBitmapByteOrder32Host); if (!mShContext) { PLUGIN_LOG_DEBUG(("Could not allocate CGBitmapContext.")); *handled = false; *rtnmem = mem; return true; } } CGRect clearRect = ::CGRectMake(0, 0, mWindow.width, mWindow.height); ::CGContextClearRect(mShContext, clearRect); evcopy.data.draw.context = mShContext; } else { PLUGIN_LOG_DEBUG(("Invalid event type for AnswerNNP_HandleEvent_Shmem.")); *handled = false; *rtnmem = mem; return true; } if (!mPluginIface->event) { *handled = false; } else { ::CGContextSaveGState(evcopy.data.draw.context); *handled = mPluginIface->event(&mData, reinterpret_cast(&evcopy)); ::CGContextRestoreGState(evcopy.data.draw.context); } *rtnmem = mem; return true; } #else bool PluginInstanceChild::AnswerNPP_HandleEvent_Shmem(const NPRemoteEvent& event, Shmem& mem, int16_t* handled, Shmem* rtnmem) { NS_RUNTIMEABORT("not reached."); *rtnmem = mem; return true; } #endif #ifdef XP_MACOSX void CallCGDraw(CGContextRef ref, void* aPluginInstance, nsIntRect aUpdateRect) { PluginInstanceChild* pluginInstance = (PluginInstanceChild*)aPluginInstance; pluginInstance->CGDraw(ref, aUpdateRect); } bool PluginInstanceChild::CGDraw(CGContextRef ref, nsIntRect aUpdateRect) { NPCocoaEvent drawEvent; drawEvent.type = NPCocoaEventDrawRect; drawEvent.version = 0; drawEvent.data.draw.x = aUpdateRect.x; drawEvent.data.draw.y = aUpdateRect.y; drawEvent.data.draw.width = aUpdateRect.width; drawEvent.data.draw.height = aUpdateRect.height; drawEvent.data.draw.context = ref; NPRemoteEvent remoteDrawEvent = {drawEvent}; int16_t handled; AnswerNPP_HandleEvent(remoteDrawEvent, &handled); return handled == true; } bool PluginInstanceChild::AnswerNPP_HandleEvent_IOSurface(const NPRemoteEvent& event, const uint32_t &surfaceid, int16_t* handled) { PLUGIN_LOG_DEBUG_FUNCTION; AssertPluginThread(); PaintTracker pt; NPCocoaEvent evcopy = event.event; nsRefPtr surf = nsIOSurface::LookupSurface(surfaceid); if (!surf) { NS_ERROR("Invalid IOSurface."); *handled = false; return false; } if (evcopy.type == NPCocoaEventDrawRect) { mCARenderer.AttachIOSurface(surf); if (!mCARenderer.isInit()) { void *caLayer = nsnull; NPError result = mPluginIface->getvalue(GetNPP(), NPPVpluginCoreAnimationLayer, &caLayer); if (result != NPERR_NO_ERROR || !caLayer) { PLUGIN_LOG_DEBUG(("Plugin requested CoreAnimation but did not " "provide CALayer.")); *handled = false; return false; } mCARenderer.SetupRenderer(caLayer, mWindow.width, mWindow.height, GetQuirks() & PluginModuleChild::QUIRK_ALLOW_OFFLINE_RENDERER ? ALLOW_OFFLINE_RENDERER : DISALLOW_OFFLINE_RENDERER); // Flash needs to have the window set again after this step if (mPluginIface->setwindow) (void) mPluginIface->setwindow(&mData, &mWindow); } } else { PLUGIN_LOG_DEBUG(("Invalid event type for " "AnswerNNP_HandleEvent_IOSurface.")); *handled = false; return false; } mCARenderer.Render(mWindow.width, mWindow.height, nsnull); return true; } #else bool PluginInstanceChild::AnswerNPP_HandleEvent_IOSurface(const NPRemoteEvent& event, const uint32_t &surfaceid, int16_t* handled) { NS_RUNTIMEABORT("NPP_HandleEvent_IOSurface is a OSX-only message"); return false; } #endif bool PluginInstanceChild::RecvWindowPosChanged(const NPRemoteEvent& event) { NS_ASSERTION(!mLayersRendering && !mPendingPluginCall, "Shouldn't be receiving WindowPosChanged with layer rendering"); #ifdef OS_WIN int16_t dontcare; return AnswerNPP_HandleEvent(event, &dontcare); #else NS_RUNTIMEABORT("WindowPosChanged is a windows-only message"); return false; #endif } bool PluginInstanceChild::AnswerNPP_SetWindow(const NPRemoteWindow& aWindow) { PLUGIN_LOG_DEBUG(("%s (aWindow=)", FULLFUNCTION, aWindow.window, aWindow.x, aWindow.y, aWindow.width, aWindow.height)); NS_ASSERTION(!mLayersRendering && !mPendingPluginCall, "Shouldn't be receiving NPP_SetWindow with layer rendering"); AssertPluginThread(); #if defined(MOZ_X11) && defined(XP_UNIX) && !defined(XP_MACOSX) // The minimum info is sent over IPC to allow this // code to determine the rest. mWindow.window = reinterpret_cast(aWindow.window); mWindow.x = aWindow.x; mWindow.y = aWindow.y; mWindow.width = aWindow.width; mWindow.height = aWindow.height; mWindow.clipRect = aWindow.clipRect; mWindow.type = aWindow.type; mWsInfo.colormap = aWindow.colormap; if (!XVisualIDToInfo(mWsInfo.display, aWindow.visualID, &mWsInfo.visual, &mWsInfo.depth)) return false; #ifdef MOZ_WIDGET_GTK2 if (gtk_check_version(2,18,7) != NULL) { // older if (aWindow.type == NPWindowTypeWindow) { GdkWindow* socket_window = gdk_window_lookup(static_cast(aWindow.window)); if (socket_window) { // A GdkWindow for the socket already exists. Need to // workaround https://bugzilla.gnome.org/show_bug.cgi?id=607061 // See wrap_gtk_plug_embedded in PluginModuleChild.cpp. g_object_set_data(G_OBJECT(socket_window), "moz-existed-before-set-window", GUINT_TO_POINTER(1)); } } if (aWindow.visualID != None && gtk_check_version(2, 12, 10) != NULL) { // older // Workaround for a bug in Gtk+ (prior to 2.12.10) where deleting // a foreign GdkColormap will also free the XColormap. // http://git.gnome.org/browse/gtk+/log/gdk/x11/gdkcolor-x11.c?id=GTK_2_12_10 GdkVisual *gdkvisual = gdkx_visual_get(aWindow.visualID); GdkColormap *gdkcolor = gdk_x11_colormap_foreign_new(gdkvisual, aWindow.colormap); if (g_object_get_data(G_OBJECT(gdkcolor), "moz-have-extra-ref")) { // We already have a ref to keep the object alive. g_object_unref(gdkcolor); } else { // leak and mark as already leaked g_object_set_data(G_OBJECT(gdkcolor), "moz-have-extra-ref", GUINT_TO_POINTER(1)); } } } #endif PLUGIN_LOG_DEBUG( ("[InstanceChild][%p] Answer_SetWindow w=, clip=", this, mWindow.x, mWindow.y, mWindow.width, mWindow.height, mWindow.clipRect.left, mWindow.clipRect.top, mWindow.clipRect.right, mWindow.clipRect.bottom)); if (mPluginIface->setwindow) (void) mPluginIface->setwindow(&mData, &mWindow); #elif defined(OS_WIN) switch (aWindow.type) { case NPWindowTypeWindow: { if ((GetQuirks() & PluginModuleChild::QUIRK_QUICKTIME_AVOID_SETWINDOW) && aWindow.width == 0 && aWindow.height == 0) { // Skip SetWindow call for hidden QuickTime plugins return true; } if (!CreatePluginWindow()) return false; ReparentPluginWindow(reinterpret_cast(aWindow.window)); SizePluginWindow(aWindow.width, aWindow.height); mWindow.window = (void*)mPluginWindowHWND; mWindow.x = aWindow.x; mWindow.y = aWindow.y; mWindow.width = aWindow.width; mWindow.height = aWindow.height; mWindow.type = aWindow.type; if (mPluginIface->setwindow) { SetProp(mPluginWindowHWND, kPluginIgnoreSubclassProperty, (HANDLE)1); (void) mPluginIface->setwindow(&mData, &mWindow); WNDPROC wndProc = reinterpret_cast( GetWindowLongPtr(mPluginWindowHWND, GWLP_WNDPROC)); if (wndProc != PluginWindowProc) { mPluginWndProc = reinterpret_cast( SetWindowLongPtr(mPluginWindowHWND, GWLP_WNDPROC, reinterpret_cast(PluginWindowProc))); NS_ASSERTION(mPluginWndProc != PluginWindowProc, "WTF?"); } RemoveProp(mPluginWindowHWND, kPluginIgnoreSubclassProperty); HookSetWindowLongPtr(); } } break; case NPWindowTypeDrawable: mWindow.type = aWindow.type; if (GetQuirks() & PluginModuleChild::QUIRK_WINLESS_TRACKPOPUP_HOOK) CreateWinlessPopupSurrogate(); if (GetQuirks() & PluginModuleChild::QUIRK_FLASH_THROTTLE_WMUSER_EVENTS) SetupFlashMsgThrottle(); return SharedSurfaceSetWindow(aWindow); break; default: NS_NOTREACHED("Bad plugin window type."); return false; break; } #elif defined(XP_MACOSX) mWindow.x = aWindow.x; mWindow.y = aWindow.y; mWindow.width = aWindow.width; mWindow.height = aWindow.height; mWindow.clipRect = aWindow.clipRect; mWindow.type = aWindow.type; if (mShContext) { // Release the shared context so that it is reallocated // with the new size. ::CGContextRelease(mShContext); mShContext = nsnull; } if (mPluginIface->setwindow) (void) mPluginIface->setwindow(&mData, &mWindow); #elif defined(ANDROID) # warning Need Android impl #elif defined(MOZ_WIDGET_QT) # warning Need QT-nonX impl #else # error Implement me for your OS #endif return true; } bool PluginInstanceChild::Initialize() { return true; } #if defined(OS_WIN) static const TCHAR kWindowClassName[] = TEXT("GeckoPluginWindow"); static const TCHAR kPluginInstanceChildProperty[] = TEXT("PluginInstanceChildProperty"); static const TCHAR kFlashThrottleProperty[] = TEXT("MozillaFlashThrottleProperty"); // static bool PluginInstanceChild::RegisterWindowClass() { static bool alreadyRegistered = false; if (alreadyRegistered) return true; alreadyRegistered = true; WNDCLASSEX wcex; wcex.cbSize = sizeof(WNDCLASSEX); wcex.style = CS_DBLCLKS; wcex.lpfnWndProc = DummyWindowProc; wcex.cbClsExtra = 0; wcex.cbWndExtra = 0; wcex.hInstance = GetModuleHandle(NULL); wcex.hIcon = 0; wcex.hCursor = 0; wcex.hbrBackground = reinterpret_cast(COLOR_WINDOW + 1); wcex.lpszMenuName = 0; wcex.lpszClassName = kWindowClassName; wcex.hIconSm = 0; return RegisterClassEx(&wcex) ? true : false; } bool PluginInstanceChild::CreatePluginWindow() { // already initialized if (mPluginWindowHWND) return true; if (!RegisterWindowClass()) return false; mPluginWindowHWND = CreateWindowEx(WS_EX_LEFT | WS_EX_LTRREADING | WS_EX_NOPARENTNOTIFY | // XXXbent Get rid of this! WS_EX_RIGHTSCROLLBAR, kWindowClassName, 0, WS_POPUP | WS_CLIPCHILDREN | WS_CLIPSIBLINGS, 0, 0, 0, 0, NULL, 0, GetModuleHandle(NULL), 0); if (!mPluginWindowHWND) return false; if (!SetProp(mPluginWindowHWND, kPluginInstanceChildProperty, this)) return false; // Apparently some plugins require an ASCII WndProc. SetWindowLongPtrA(mPluginWindowHWND, GWLP_WNDPROC, reinterpret_cast(DefWindowProcA)); return true; } void PluginInstanceChild::DestroyPluginWindow() { if (mPluginWindowHWND) { // Unsubclass the window. WNDPROC wndProc = reinterpret_cast( GetWindowLongPtr(mPluginWindowHWND, GWLP_WNDPROC)); // Removed prior to SetWindowLongPtr, see HookSetWindowLongPtr. RemoveProp(mPluginWindowHWND, kPluginInstanceChildProperty); if (wndProc == PluginWindowProc) { NS_ASSERTION(mPluginWndProc, "Should have old proc here!"); SetWindowLongPtr(mPluginWindowHWND, GWLP_WNDPROC, reinterpret_cast(mPluginWndProc)); mPluginWndProc = 0; } DestroyWindow(mPluginWindowHWND); mPluginWindowHWND = 0; } } void PluginInstanceChild::ReparentPluginWindow(HWND hWndParent) { if (hWndParent != mPluginParentHWND && IsWindow(hWndParent)) { // Fix the child window's style to be a child window. LONG_PTR style = GetWindowLongPtr(mPluginWindowHWND, GWL_STYLE); style |= WS_CHILD | WS_CLIPCHILDREN | WS_CLIPSIBLINGS; style &= ~WS_POPUP; SetWindowLongPtr(mPluginWindowHWND, GWL_STYLE, style); // Do the reparenting. SetParent(mPluginWindowHWND, hWndParent); // Make sure we're visible. ShowWindow(mPluginWindowHWND, SW_SHOWNA); } mPluginParentHWND = hWndParent; } void PluginInstanceChild::SizePluginWindow(int width, int height) { if (mPluginWindowHWND) { mPluginSize.x = width; mPluginSize.y = height; SetWindowPos(mPluginWindowHWND, NULL, 0, 0, width, height, SWP_NOZORDER | SWP_NOREPOSITION); } } // See chromium's webplugin_delegate_impl.cc for explanation of this function. // static LRESULT CALLBACK PluginInstanceChild::DummyWindowProc(HWND hWnd, UINT message, WPARAM wParam, LPARAM lParam) { return CallWindowProc(DefWindowProc, hWnd, message, wParam, lParam); } // static LRESULT CALLBACK PluginInstanceChild::PluginWindowProc(HWND hWnd, UINT message, WPARAM wParam, LPARAM lParam) { return mozilla::CallWindowProcCrashProtected(PluginWindowProcInternal, hWnd, message, wParam, lParam); } // static LRESULT CALLBACK PluginInstanceChild::PluginWindowProcInternal(HWND hWnd, UINT message, WPARAM wParam, LPARAM lParam) { NS_ASSERTION(!mozilla::ipc::SyncChannel::IsPumpingMessages(), "Failed to prevent a nonqueued message from running!"); PluginInstanceChild* self = reinterpret_cast( GetProp(hWnd, kPluginInstanceChildProperty)); if (!self) { NS_NOTREACHED("Badness!"); return 0; } NS_ASSERTION(self->mPluginWindowHWND == hWnd, "Wrong window!"); NS_ASSERTION(self->mPluginWndProc != PluginWindowProc, "Self-referential windowproc. Infinite recursion will happen soon."); // Adobe's shockwave positions the plugin window relative to the browser // frame when it initializes. With oopp disabled, this wouldn't have an // effect. With oopp, GeckoPluginWindow is a child of the parent plugin // window, so the move offsets the child within the parent. Generally // we don't want plugins moving or sizing our window, so we prevent these // changes here. if (message == WM_WINDOWPOSCHANGING) { WINDOWPOS* pos = reinterpret_cast(lParam); if (pos && (!(pos->flags & SWP_NOMOVE) || !(pos->flags & SWP_NOSIZE))) { pos->x = pos->y = 0; pos->cx = self->mPluginSize.x; pos->cy = self->mPluginSize.y; LRESULT res = CallWindowProc(self->mPluginWndProc, hWnd, message, wParam, lParam); pos->x = pos->y = 0; pos->cx = self->mPluginSize.x; pos->cy = self->mPluginSize.y; return res; } } // The plugin received keyboard focus, let the parent know so the dom is up to date. if (message == WM_MOUSEACTIVATE) self->CallPluginFocusChange(true); // Prevent lockups due to plugins making rpc calls when the parent // is making a synchronous SendMessage call to the child window. Add // more messages as needed. if ((InSendMessageEx(NULL)&(ISMEX_REPLIED|ISMEX_SEND)) == ISMEX_SEND) { switch(message) { case WM_KILLFOCUS: ReplyMessage(0); break; } } if (message == WM_KILLFOCUS) self->CallPluginFocusChange(false); if (message == WM_USER+1 && (self->GetQuirks() & PluginModuleChild::QUIRK_FLASH_THROTTLE_WMUSER_EVENTS)) { self->FlashThrottleMessage(hWnd, message, wParam, lParam, true); return 0; } NS_ASSERTION(self->mPluginWndProc != PluginWindowProc, "Self-referential windowproc happened inside our hook proc. " "Infinite recursion will happen soon."); LRESULT res = CallWindowProc(self->mPluginWndProc, hWnd, message, wParam, lParam); // Make sure capture is released by the child on mouse events. Fixes a // problem with flash full screen mode mouse input. Appears to be // caused by a bug in flash, since we are not setting the capture // on the window. if (message == WM_LBUTTONDOWN && self->GetQuirks() & PluginModuleChild::QUIRK_FLASH_FIXUP_MOUSE_CAPTURE) { PRUnichar szClass[26]; HWND hwnd = GetForegroundWindow(); if (hwnd && GetClassNameW(hwnd, szClass, sizeof(szClass)/sizeof(PRUnichar)) && !wcscmp(szClass, kFlashFullscreenClass)) { ReleaseCapture(); SetFocus(hwnd); } } if (message == WM_CLOSE) self->DestroyPluginWindow(); if (message == WM_NCDESTROY) RemoveProp(hWnd, kPluginInstanceChildProperty); return res; } /* set window long ptr hook for flash */ /* * Flash will reset the subclass of our widget at various times. * (Notably when entering and exiting full screen mode.) This * occurs independent of the main plugin window event procedure. * We trap these subclass calls to prevent our subclass hook from * getting dropped. * Note, ascii versions can be nixed once flash versions < 10.1 * are considered obsolete. */ #ifdef _WIN64 typedef LONG_PTR (WINAPI *User32SetWindowLongPtrA)(HWND hWnd, int nIndex, LONG_PTR dwNewLong); typedef LONG_PTR (WINAPI *User32SetWindowLongPtrW)(HWND hWnd, int nIndex, LONG_PTR dwNewLong); static User32SetWindowLongPtrA sUser32SetWindowLongAHookStub = NULL; static User32SetWindowLongPtrW sUser32SetWindowLongWHookStub = NULL; #else typedef LONG (WINAPI *User32SetWindowLongA)(HWND hWnd, int nIndex, LONG dwNewLong); typedef LONG (WINAPI *User32SetWindowLongW)(HWND hWnd, int nIndex, LONG dwNewLong); static User32SetWindowLongA sUser32SetWindowLongAHookStub = NULL; static User32SetWindowLongW sUser32SetWindowLongWHookStub = NULL; #endif extern LRESULT CALLBACK NeuteredWindowProc(HWND hwnd, UINT uMsg, WPARAM wParam, LPARAM lParam); const wchar_t kOldWndProcProp[] = L"MozillaIPCOldWndProc"; // static bool PluginInstanceChild::SetWindowLongHookCheck(HWND hWnd, int nIndex, LONG_PTR newLong) { // Let this go through if it's not a subclass if (nIndex != GWLP_WNDPROC || // if it's not a subclassed plugin window !GetProp(hWnd, kPluginInstanceChildProperty) || // if we're not disabled GetProp(hWnd, kPluginIgnoreSubclassProperty) || // if the subclass is set to a known procedure newLong == reinterpret_cast(PluginWindowProc) || newLong == reinterpret_cast(NeuteredWindowProc) || newLong == reinterpret_cast(DefWindowProcA) || newLong == reinterpret_cast(DefWindowProcW) || // if the subclass is a WindowsMessageLoop subclass restore GetProp(hWnd, kOldWndProcProp)) return true; // prevent the subclass return false; } #ifdef _WIN64 LONG_PTR WINAPI PluginInstanceChild::SetWindowLongPtrAHook(HWND hWnd, int nIndex, LONG_PTR newLong) #else LONG WINAPI PluginInstanceChild::SetWindowLongAHook(HWND hWnd, int nIndex, LONG newLong) #endif { if (SetWindowLongHookCheck(hWnd, nIndex, newLong)) return sUser32SetWindowLongAHookStub(hWnd, nIndex, newLong); // Set flash's new subclass to get the result. LONG_PTR proc = sUser32SetWindowLongAHookStub(hWnd, nIndex, newLong); // We already checked this in SetWindowLongHookCheck PluginInstanceChild* self = reinterpret_cast( GetProp(hWnd, kPluginInstanceChildProperty)); // Hook our subclass back up, just like we do on setwindow. WNDPROC currentProc = reinterpret_cast(GetWindowLongPtr(hWnd, GWLP_WNDPROC)); if (currentProc != PluginWindowProc) { self->mPluginWndProc = reinterpret_cast(sUser32SetWindowLongWHookStub(hWnd, nIndex, reinterpret_cast(PluginWindowProc))); NS_ASSERTION(self->mPluginWndProc != PluginWindowProc, "Infinite recursion coming up!"); } return proc; } #ifdef _WIN64 LONG_PTR WINAPI PluginInstanceChild::SetWindowLongPtrWHook(HWND hWnd, int nIndex, LONG_PTR newLong) #else LONG WINAPI PluginInstanceChild::SetWindowLongWHook(HWND hWnd, int nIndex, LONG newLong) #endif { if (SetWindowLongHookCheck(hWnd, nIndex, newLong)) return sUser32SetWindowLongWHookStub(hWnd, nIndex, newLong); // Set flash's new subclass to get the result. LONG_PTR proc = sUser32SetWindowLongWHookStub(hWnd, nIndex, newLong); // We already checked this in SetWindowLongHookCheck PluginInstanceChild* self = reinterpret_cast( GetProp(hWnd, kPluginInstanceChildProperty)); // Hook our subclass back up, just like we do on setwindow. WNDPROC currentProc = reinterpret_cast(GetWindowLongPtr(hWnd, GWLP_WNDPROC)); if (currentProc != PluginWindowProc) { self->mPluginWndProc = reinterpret_cast(sUser32SetWindowLongWHookStub(hWnd, nIndex, reinterpret_cast(PluginWindowProc))); NS_ASSERTION(self->mPluginWndProc != PluginWindowProc, "Infinite recursion coming up!"); } return proc; } void PluginInstanceChild::HookSetWindowLongPtr() { if (!(GetQuirks() & PluginModuleChild::QUIRK_FLASH_HOOK_SETLONGPTR)) return; sUser32Intercept.Init("user32.dll"); #ifdef _WIN64 if (!sUser32SetWindowLongAHookStub) sUser32Intercept.AddHook("SetWindowLongPtrA", reinterpret_cast(SetWindowLongPtrAHook), (void**) &sUser32SetWindowLongAHookStub); if (!sUser32SetWindowLongWHookStub) sUser32Intercept.AddHook("SetWindowLongPtrW", reinterpret_cast(SetWindowLongPtrWHook), (void**) &sUser32SetWindowLongWHookStub); #else if (!sUser32SetWindowLongAHookStub) sUser32Intercept.AddHook("SetWindowLongA", reinterpret_cast(SetWindowLongAHook), (void**) &sUser32SetWindowLongAHookStub); if (!sUser32SetWindowLongWHookStub) sUser32Intercept.AddHook("SetWindowLongW", reinterpret_cast(SetWindowLongWHook), (void**) &sUser32SetWindowLongWHookStub); #endif } /* windowless track popup menu helpers */ BOOL WINAPI PluginInstanceChild::TrackPopupHookProc(HMENU hMenu, UINT uFlags, int x, int y, int nReserved, HWND hWnd, CONST RECT *prcRect) { if (!sUser32TrackPopupMenuStub) { NS_ERROR("TrackPopupMenu stub isn't set! Badness!"); return 0; } // Only change the parent when we know this is a context on the plugin // surface within the browser. Prevents resetting the parent on child ui // displayed by plugins that have working parent-child relationships. PRUnichar szClass[21]; bool haveClass = GetClassNameW(hWnd, szClass, ArrayLength(szClass)); if (!haveClass || (wcscmp(szClass, L"MozillaWindowClass") && wcscmp(szClass, L"SWFlash_Placeholder"))) { // Unrecognized parent return sUser32TrackPopupMenuStub(hMenu, uFlags, x, y, nReserved, hWnd, prcRect); } // Called on an unexpected event, warn. if (!sWinlessPopupSurrogateHWND) { NS_WARNING( "Untraced TrackPopupHookProc call! Menu might not work right!"); return sUser32TrackPopupMenuStub(hMenu, uFlags, x, y, nReserved, hWnd, prcRect); } HWND surrogateHwnd = sWinlessPopupSurrogateHWND; sWinlessPopupSurrogateHWND = NULL; // Popups that don't use TPM_RETURNCMD expect a final command message // when an item is selected and the context closes. Since we replace // the parent, we need to forward this back to the real parent so it // can act on the menu item selected. bool isRetCmdCall = (uFlags & TPM_RETURNCMD); DWORD res = sUser32TrackPopupMenuStub(hMenu, uFlags|TPM_RETURNCMD, x, y, nReserved, surrogateHwnd, prcRect); if (!isRetCmdCall && res) { SendMessage(hWnd, WM_COMMAND, MAKEWPARAM(res, 0), 0); } return res; } void PluginInstanceChild::InitPopupMenuHook() { if (!(GetQuirks() & PluginModuleChild::QUIRK_WINLESS_TRACKPOPUP_HOOK) || sUser32TrackPopupMenuStub) return; // Note, once WindowsDllInterceptor is initialized for a module, // it remains initialized for that particular module for it's // lifetime. Additional instances are needed if other modules need // to be hooked. if (!sUser32TrackPopupMenuStub) { sUser32Intercept.Init("user32.dll"); sUser32Intercept.AddHook("TrackPopupMenu", reinterpret_cast(TrackPopupHookProc), (void**) &sUser32TrackPopupMenuStub); } } void PluginInstanceChild::CreateWinlessPopupSurrogate() { // already initialized if (mWinlessPopupSurrogateHWND) return; HWND hwnd = NULL; NPError result; if (!CallNPN_GetValue_NPNVnetscapeWindow(&hwnd, &result)) { NS_ERROR("CallNPN_GetValue_NPNVnetscapeWindow failed."); return; } mWinlessPopupSurrogateHWND = CreateWindowEx(WS_EX_NOPARENTNOTIFY, L"Static", NULL, WS_CHILD, 0, 0, 0, 0, hwnd, 0, GetModuleHandle(NULL), 0); if (!mWinlessPopupSurrogateHWND) { NS_ERROR("CreateWindowEx failed for winless placeholder!"); return; } return; } void PluginInstanceChild::DestroyWinlessPopupSurrogate() { if (mWinlessPopupSurrogateHWND) DestroyWindow(mWinlessPopupSurrogateHWND); mWinlessPopupSurrogateHWND = NULL; } int16_t PluginInstanceChild::WinlessHandleEvent(NPEvent& event) { if (!mPluginIface->event) return false; // Events that might generate nested event dispatch loops need // special handling during delivery. int16_t handled; HWND focusHwnd = NULL; // TrackPopupMenu will fail if the parent window is not associated with // our ui thread. So we hook TrackPopupMenu so we can hand in a surrogate // parent created in the child process. if ((GetQuirks() & PluginModuleChild::QUIRK_WINLESS_TRACKPOPUP_HOOK) && // XXX turn on by default? (event.event == WM_RBUTTONDOWN || // flash event.event == WM_RBUTTONUP)) { // silverlight sWinlessPopupSurrogateHWND = mWinlessPopupSurrogateHWND; // A little trick scrounged from chromium's code - set the focus // to our surrogate parent so keyboard nav events go to the menu. focusHwnd = SetFocus(mWinlessPopupSurrogateHWND); } MessageLoop* loop = MessageLoop::current(); AutoRestore modalLoop(loop->os_modal_loop()); handled = mPluginIface->event(&mData, reinterpret_cast(&event)); sWinlessPopupSurrogateHWND = NULL; if (IsWindow(focusHwnd)) { SetFocus(focusHwnd); } return handled; } /* windowless drawing helpers */ bool PluginInstanceChild::SharedSurfaceSetWindow(const NPRemoteWindow& aWindow) { // If the surfaceHandle is empty, parent is telling us we can reuse our cached // memory surface and hdc. Otherwise, we need to reset, usually due to a // expanding plugin port size. if (!aWindow.surfaceHandle) { if (!mSharedSurfaceDib.IsValid()) { return false; } } else { // Attach to the new shared surface parent handed us. if (NS_FAILED(mSharedSurfaceDib.Attach((SharedDIB::Handle)aWindow.surfaceHandle, aWindow.width, aWindow.height, false))) return false; // Free any alpha extraction resources if needed. This will be reset // the next time it's used. AlphaExtractCacheRelease(); } // NPRemoteWindow's origin is the origin of our shared dib. mWindow.x = aWindow.x; mWindow.y = aWindow.y; mWindow.width = aWindow.width; mWindow.height = aWindow.height; mWindow.type = aWindow.type; mWindow.window = reinterpret_cast(mSharedSurfaceDib.GetHDC()); ::SetViewportOrgEx(mSharedSurfaceDib.GetHDC(), -aWindow.x, -aWindow.y, NULL); if (mPluginIface->setwindow) mPluginIface->setwindow(&mData, &mWindow); return true; } void PluginInstanceChild::SharedSurfaceRelease() { mSharedSurfaceDib.Close(); AlphaExtractCacheRelease(); } /* double pass cache buffer - (rarely) used in cases where alpha extraction * occurs for windowless plugins. */ bool PluginInstanceChild::AlphaExtractCacheSetup() { AlphaExtractCacheRelease(); mAlphaExtract.hdc = ::CreateCompatibleDC(NULL); if (!mAlphaExtract.hdc) return false; BITMAPINFOHEADER bmih; memset((void*)&bmih, 0, sizeof(BITMAPINFOHEADER)); bmih.biSize = sizeof(BITMAPINFOHEADER); bmih.biWidth = mWindow.width; bmih.biHeight = mWindow.height; bmih.biPlanes = 1; bmih.biBitCount = 32; bmih.biCompression = BI_RGB; void* ppvBits = nsnull; mAlphaExtract.bmp = ::CreateDIBSection(mAlphaExtract.hdc, (BITMAPINFO*)&bmih, DIB_RGB_COLORS, (void**)&ppvBits, NULL, (unsigned long)sizeof(BITMAPINFOHEADER)); if (!mAlphaExtract.bmp) return false; DeleteObject(::SelectObject(mAlphaExtract.hdc, mAlphaExtract.bmp)); return true; } void PluginInstanceChild::AlphaExtractCacheRelease() { if (mAlphaExtract.bmp) ::DeleteObject(mAlphaExtract.bmp); if (mAlphaExtract.hdc) ::DeleteObject(mAlphaExtract.hdc); mAlphaExtract.bmp = NULL; mAlphaExtract.hdc = NULL; } void PluginInstanceChild::UpdatePaintClipRect(RECT* aRect) { if (aRect) { // Update the clip rect on our internal hdc HRGN clip = ::CreateRectRgnIndirect(aRect); ::SelectClipRgn(mSharedSurfaceDib.GetHDC(), clip); ::DeleteObject(clip); } } int16_t PluginInstanceChild::SharedSurfacePaint(NPEvent& evcopy) { if (!mPluginIface->event) return false; RECT* pRect = reinterpret_cast(evcopy.lParam); switch(mAlphaExtract.doublePass) { case RENDER_NATIVE: // pass the internal hdc to the plugin UpdatePaintClipRect(pRect); evcopy.wParam = WPARAM(mSharedSurfaceDib.GetHDC()); return mPluginIface->event(&mData, reinterpret_cast(&evcopy)); break; case RENDER_BACK_ONE: // Handle a double pass render used in alpha extraction for transparent // plugins. (See nsObjectFrame and gfxWindowsNativeDrawing for details.) // We render twice, once to the shared dib, and once to a cache which // we copy back on a second paint. These paints can't be spread across // multiple rpc messages as delays cause animation frame changes. if (!mAlphaExtract.bmp && !AlphaExtractCacheSetup()) { mAlphaExtract.doublePass = RENDER_NATIVE; return false; } // See gfxWindowsNativeDrawing, color order doesn't have to match. UpdatePaintClipRect(pRect); ::FillRect(mSharedSurfaceDib.GetHDC(), pRect, (HBRUSH)GetStockObject(WHITE_BRUSH)); evcopy.wParam = WPARAM(mSharedSurfaceDib.GetHDC()); if (!mPluginIface->event(&mData, reinterpret_cast(&evcopy))) { mAlphaExtract.doublePass = RENDER_NATIVE; return false; } // Copy to cache. We render to shared dib so we don't have to call // setwindow between calls (flash issue). ::BitBlt(mAlphaExtract.hdc, pRect->left, pRect->top, pRect->right - pRect->left, pRect->bottom - pRect->top, mSharedSurfaceDib.GetHDC(), pRect->left, pRect->top, SRCCOPY); ::FillRect(mSharedSurfaceDib.GetHDC(), pRect, (HBRUSH)GetStockObject(BLACK_BRUSH)); if (!mPluginIface->event(&mData, reinterpret_cast(&evcopy))) { mAlphaExtract.doublePass = RENDER_NATIVE; return false; } mAlphaExtract.doublePass = RENDER_BACK_TWO; return true; break; case RENDER_BACK_TWO: // copy our cached surface back UpdatePaintClipRect(pRect); ::BitBlt(mSharedSurfaceDib.GetHDC(), pRect->left, pRect->top, pRect->right - pRect->left, pRect->bottom - pRect->top, mAlphaExtract.hdc, pRect->left, pRect->top, SRCCOPY); mAlphaExtract.doublePass = RENDER_NATIVE; return true; break; } return false; } /* flash msg throttling helpers */ // Flash has the unfortunate habit of flooding dispatch loops with custom // windowing events they use for timing. We throttle these by dropping the // delivery priority below any other event, including pending ipc io // notifications. We do this for both windowed and windowless controls. // Note flash's windowless msg window can last longer than our instance, // so we try to unhook when the window is destroyed and in NPP_Destroy. void PluginInstanceChild::UnhookWinlessFlashThrottle() { // We may have already unhooked if (!mWinlessThrottleOldWndProc) return; WNDPROC tmpProc = mWinlessThrottleOldWndProc; mWinlessThrottleOldWndProc = nsnull; NS_ASSERTION(mWinlessHiddenMsgHWND, "Missing mWinlessHiddenMsgHWND w/subclass set??"); // reset the subclass SetWindowLongPtr(mWinlessHiddenMsgHWND, GWLP_WNDPROC, reinterpret_cast(tmpProc)); // Remove our instance prop RemoveProp(mWinlessHiddenMsgHWND, kFlashThrottleProperty); mWinlessHiddenMsgHWND = nsnull; } // static LRESULT CALLBACK PluginInstanceChild::WinlessHiddenFlashWndProc(HWND hWnd, UINT message, WPARAM wParam, LPARAM lParam) { PluginInstanceChild* self = reinterpret_cast( GetProp(hWnd, kFlashThrottleProperty)); if (!self) { NS_NOTREACHED("Badness!"); return 0; } NS_ASSERTION(self->mWinlessThrottleOldWndProc, "Missing subclass procedure!!"); // Throttle if (message == WM_USER+1) { self->FlashThrottleMessage(hWnd, message, wParam, lParam, false); return 0; } // Unhook if (message == WM_CLOSE || message == WM_NCDESTROY) { WNDPROC tmpProc = self->mWinlessThrottleOldWndProc; self->UnhookWinlessFlashThrottle(); LRESULT res = CallWindowProc(tmpProc, hWnd, message, wParam, lParam); return res; } return CallWindowProc(self->mWinlessThrottleOldWndProc, hWnd, message, wParam, lParam); } // Enumerate all thread windows looking for flash's hidden message window. // Once we find it, sub class it so we can throttle user msgs. // static BOOL CALLBACK PluginInstanceChild::EnumThreadWindowsCallback(HWND hWnd, LPARAM aParam) { PluginInstanceChild* self = reinterpret_cast(aParam); if (!self) { NS_NOTREACHED("Enum befuddled!"); return FALSE; } PRUnichar className[64]; if (!GetClassNameW(hWnd, className, sizeof(className)/sizeof(PRUnichar))) return TRUE; if (!wcscmp(className, L"SWFlash_PlaceholderX")) { WNDPROC oldWndProc = reinterpret_cast(GetWindowLongPtr(hWnd, GWLP_WNDPROC)); // Only set this if we haven't already. if (oldWndProc != WinlessHiddenFlashWndProc) { if (self->mWinlessThrottleOldWndProc) { NS_WARNING("mWinlessThrottleWndProc already set???"); return FALSE; } // Subsclass and store self as a property self->mWinlessHiddenMsgHWND = hWnd; self->mWinlessThrottleOldWndProc = reinterpret_cast(SetWindowLongPtr(hWnd, GWLP_WNDPROC, reinterpret_cast(WinlessHiddenFlashWndProc))); SetProp(hWnd, kFlashThrottleProperty, self); NS_ASSERTION(self->mWinlessThrottleOldWndProc, "SetWindowLongPtr failed?!"); } // Return no matter what once we find the right window. return FALSE; } return TRUE; } void PluginInstanceChild::SetupFlashMsgThrottle() { if (mWindow.type == NPWindowTypeDrawable) { // Search for the flash hidden message window and subclass it. Only // search for flash windows belonging to our ui thread! if (mWinlessThrottleOldWndProc) return; EnumThreadWindows(GetCurrentThreadId(), EnumThreadWindowsCallback, reinterpret_cast(this)); } else { // Already setup through quirks and the subclass. return; } } WNDPROC PluginInstanceChild::FlashThrottleAsyncMsg::GetProc() { if (mInstance) { return mWindowed ? mInstance->mPluginWndProc : mInstance->mWinlessThrottleOldWndProc; } return nsnull; } void PluginInstanceChild::FlashThrottleAsyncMsg::Run() { RemoveFromAsyncList(); // GetProc() checks mInstance, and pulls the procedure from // PluginInstanceChild. We don't transport sub-class procedure // ptrs around in FlashThrottleAsyncMsg msgs. if (!GetProc()) return; // deliver the event to flash CallWindowProc(GetProc(), GetWnd(), GetMsg(), GetWParam(), GetLParam()); } void PluginInstanceChild::FlashThrottleMessage(HWND aWnd, UINT aMsg, WPARAM aWParam, LPARAM aLParam, bool isWindowed) { // We reuse ChildAsyncCall so we get the cancelation work // that's done in Destroy. FlashThrottleAsyncMsg* task = new FlashThrottleAsyncMsg(this, aWnd, aMsg, aWParam, aLParam, isWindowed); if (!task) return; { MutexAutoLock lock(mAsyncCallMutex); mPendingAsyncCalls.AppendElement(task); } MessageLoop::current()->PostDelayedTask(FROM_HERE, task, kFlashWMUSERMessageThrottleDelayMs); } #endif // OS_WIN bool PluginInstanceChild::AnswerSetPluginFocus() { PR_LOG(gPluginLog, PR_LOG_DEBUG, ("%s", FULLFUNCTION)); #if defined(OS_WIN) // Parent is letting us know the dom set focus to the plugin. Note, // focus can change during transit in certain edge cases, for example // when a button click brings up a full screen window. Since we send // this in response to a WM_SETFOCUS event on our parent, the parent // should have focus when we receive this. If not, ignore the call. if (::GetFocus() == mPluginWindowHWND || ((GetQuirks() & PluginModuleChild::QUIRK_SILVERLIGHT_FOCUS_CHECK_PARENT) && (::GetFocus() != mPluginParentHWND))) return true; ::SetFocus(mPluginWindowHWND); return true; #else NS_NOTREACHED("PluginInstanceChild::AnswerSetPluginFocus not implemented!"); return false; #endif } bool PluginInstanceChild::AnswerUpdateWindow() { PR_LOG(gPluginLog, PR_LOG_DEBUG, ("%s", FULLFUNCTION)); #if defined(OS_WIN) if (mPluginWindowHWND) { RECT rect; if (GetUpdateRect(GetParent(mPluginWindowHWND), &rect, FALSE)) { ::InvalidateRect(mPluginWindowHWND, &rect, FALSE); } UpdateWindow(mPluginWindowHWND); } return true; #else NS_NOTREACHED("PluginInstanceChild::AnswerUpdateWindow not implemented!"); return false; #endif } bool PluginInstanceChild::RecvNPP_DidComposite() { if (mPluginIface->didComposite) { mPluginIface->didComposite(GetNPP()); } return true; } PPluginScriptableObjectChild* PluginInstanceChild::AllocPPluginScriptableObject() { AssertPluginThread(); return new PluginScriptableObjectChild(Proxy); } bool PluginInstanceChild::DeallocPPluginScriptableObject( PPluginScriptableObjectChild* aObject) { AssertPluginThread(); delete aObject; return true; } bool PluginInstanceChild::RecvPPluginScriptableObjectConstructor( PPluginScriptableObjectChild* aActor) { AssertPluginThread(); // This is only called in response to the parent process requesting the // creation of an actor. This actor will represent an NPObject that is // created by the browser and returned to the plugin. PluginScriptableObjectChild* actor = static_cast(aActor); NS_ASSERTION(!actor->GetObject(false), "Actor already has an object?!"); actor->InitializeProxy(); NS_ASSERTION(actor->GetObject(false), "Actor should have an object!"); return true; } bool PluginInstanceChild::AnswerPBrowserStreamConstructor( PBrowserStreamChild* aActor, const nsCString& url, const uint32_t& length, const uint32_t& lastmodified, PStreamNotifyChild* notifyData, const nsCString& headers, const nsCString& mimeType, const bool& seekable, NPError* rv, uint16_t* stype) { AssertPluginThread(); *rv = static_cast(aActor) ->StreamConstructed(mimeType, seekable, stype); return true; } PBrowserStreamChild* PluginInstanceChild::AllocPBrowserStream(const nsCString& url, const uint32_t& length, const uint32_t& lastmodified, PStreamNotifyChild* notifyData, const nsCString& headers, const nsCString& mimeType, const bool& seekable, NPError* rv, uint16_t *stype) { AssertPluginThread(); return new BrowserStreamChild(this, url, length, lastmodified, static_cast(notifyData), headers, mimeType, seekable, rv, stype); } bool PluginInstanceChild::DeallocPBrowserStream(PBrowserStreamChild* stream) { AssertPluginThread(); delete stream; return true; } PPluginStreamChild* PluginInstanceChild::AllocPPluginStream(const nsCString& mimeType, const nsCString& target, NPError* result) { NS_RUNTIMEABORT("not callable"); return NULL; } bool PluginInstanceChild::DeallocPPluginStream(PPluginStreamChild* stream) { AssertPluginThread(); delete stream; return true; } PStreamNotifyChild* PluginInstanceChild::AllocPStreamNotify(const nsCString& url, const nsCString& target, const bool& post, const nsCString& buffer, const bool& file, NPError* result) { AssertPluginThread(); NS_RUNTIMEABORT("not reached"); return NULL; } void StreamNotifyChild::ActorDestroy(ActorDestroyReason why) { if (AncestorDeletion == why && mBrowserStream) { NS_ERROR("Pending NPP_URLNotify not called when closing an instance."); // reclaim responsibility for deleting ourself mBrowserStream->mStreamNotify = NULL; mBrowserStream = NULL; } } void StreamNotifyChild::SetAssociatedStream(BrowserStreamChild* bs) { NS_ASSERTION(bs, "Shouldn't be null"); NS_ASSERTION(!mBrowserStream, "Two streams for one streamnotify?"); mBrowserStream = bs; } bool StreamNotifyChild::Recv__delete__(const NPReason& reason) { AssertPluginThread(); if (mBrowserStream) mBrowserStream->NotifyPending(); else NPP_URLNotify(reason); return true; } bool StreamNotifyChild::RecvRedirectNotify(const nsCString& url, const int32_t& status) { // NPP_URLRedirectNotify requires a non-null closure. Since core logic // assumes that all out-of-process notify streams have non-null closure // data it will assume that the plugin was notified at this point and // expect a response otherwise the redirect will hang indefinitely. if (!mClosure) { SendRedirectNotifyResponse(false); } PluginInstanceChild* instance = static_cast(Manager()); if (instance->mPluginIface->urlredirectnotify) instance->mPluginIface->urlredirectnotify(instance->GetNPP(), url.get(), status, mClosure); return true; } void StreamNotifyChild::NPP_URLNotify(NPReason reason) { PluginInstanceChild* instance = static_cast(Manager()); if (mClosure) instance->mPluginIface->urlnotify(instance->GetNPP(), mURL.get(), reason, mClosure); } bool PluginInstanceChild::DeallocPStreamNotify(PStreamNotifyChild* notifyData) { AssertPluginThread(); if (!static_cast(notifyData)->mBrowserStream) delete notifyData; return true; } PluginScriptableObjectChild* PluginInstanceChild::GetActorForNPObject(NPObject* aObject) { AssertPluginThread(); NS_ASSERTION(aObject, "Null pointer!"); if (aObject->_class == PluginScriptableObjectChild::GetClass()) { // One of ours! It's a browser-provided object. ChildNPObject* object = static_cast(aObject); NS_ASSERTION(object->parent, "Null actor!"); return object->parent; } PluginScriptableObjectChild* actor = PluginModuleChild::current()->GetActorForNPObject(aObject); if (actor) { // Plugin-provided object that we've previously wrapped. return actor; } actor = new PluginScriptableObjectChild(LocalObject); if (!SendPPluginScriptableObjectConstructor(actor)) { NS_ERROR("Failed to send constructor message!"); return nsnull; } actor->InitializeLocal(aObject); return actor; } NPError PluginInstanceChild::NPN_NewStream(NPMIMEType aMIMEType, const char* aWindow, NPStream** aStream) { AssertPluginThread(); PluginStreamChild* ps = new PluginStreamChild(); NPError result; CallPPluginStreamConstructor(ps, nsDependentCString(aMIMEType), NullableString(aWindow), &result); if (NPERR_NO_ERROR != result) { *aStream = NULL; PPluginStreamChild::Call__delete__(ps, NPERR_GENERIC_ERROR, true); return result; } *aStream = &ps->mStream; return NPERR_NO_ERROR; } void PluginInstanceChild::NPN_URLRedirectResponse(void* notifyData, NPBool allow) { if (!notifyData) { return; } InfallibleTArray notifyStreams; ManagedPStreamNotifyChild(notifyStreams); PRUint32 notifyStreamCount = notifyStreams.Length(); for (PRUint32 i = 0; i < notifyStreamCount; i++) { StreamNotifyChild* sn = static_cast(notifyStreams[i]); if (sn->mClosure == notifyData) { sn->SendRedirectNotifyResponse(static_cast(allow)); return; } } NS_ASSERTION(false, "Couldn't find stream for redirect response!"); } NPError PluginInstanceChild::DeallocateAsyncBitmapSurface(NPAsyncSurface *aSurface) { AsyncBitmapData* data; if (!mAsyncBitmaps.Get(aSurface, &data)) { return NPERR_INVALID_PARAM; } DeallocShmem(data->mShmem); aSurface->bitmap.data = nsnull; mAsyncBitmaps.Remove(aSurface); return NPERR_NO_ERROR; } bool PluginInstanceChild::IsAsyncDrawing() { return IsDrawingModelAsync(mDrawingModel); } NPError PluginInstanceChild::NPN_InitAsyncSurface(NPSize *size, NPImageFormat format, void *initData, NPAsyncSurface *surface) { AssertPluginThread(); surface->bitmap.data = NULL; if (!IsAsyncDrawing()) { return NPERR_GENERIC_ERROR; } switch (mDrawingModel) { case NPDrawingModelAsyncBitmapSurface: { if (mAsyncBitmaps.Get(surface, nsnull)) { return NPERR_INVALID_PARAM; } if (size->width < 0 || size->height < 0) { return NPERR_INVALID_PARAM; } bool result; NPRemoteAsyncSurface remote; if (!CallNPN_InitAsyncSurface(gfxIntSize(size->width, size->height), format, &remote, &result) || !result) { return NPERR_OUT_OF_MEMORY_ERROR; } NS_ABORT_IF_FALSE(remote.data().get_Shmem().IsWritable(), "Failed to create writable shared memory."); AsyncBitmapData *data = new AsyncBitmapData; mAsyncBitmaps.Put(surface, data); data->mRemotePtr = (void*)remote.hostPtr(); data->mShmem = remote.data().get_Shmem(); surface->bitmap.data = data->mShmem.get(); surface->bitmap.stride = remote.stride(); surface->format = remote.format(); surface->size.width = remote.size().width; surface->size.height = remote.size().height; return NPERR_NO_ERROR; } #ifdef XP_WIN case NPDrawingModelAsyncWindowsDXGISurface: { if (size->width < 0 || size->height < 0) { return NPERR_INVALID_PARAM; } bool result; NPRemoteAsyncSurface remote; if (!CallNPN_InitAsyncSurface(gfxIntSize(size->width, size->height), format, &remote, &result) || !result) { return NPERR_OUT_OF_MEMORY_ERROR; } surface->format = remote.format(); surface->size.width = remote.size().width; surface->size.height = remote.size().height; surface->sharedHandle = remote.data().get_DXGISharedSurfaceHandle(); return NPERR_NO_ERROR; } #endif } return NPERR_GENERIC_ERROR; } NPError PluginInstanceChild::NPN_FinalizeAsyncSurface(NPAsyncSurface *surface) { AssertPluginThread(); if (!IsAsyncDrawing()) { return NPERR_GENERIC_ERROR; } switch (mDrawingModel) { case NPDrawingModelAsyncBitmapSurface: { AsyncBitmapData *bitmapData; if (!mAsyncBitmaps.Get(surface, &bitmapData)) { return NPERR_GENERIC_ERROR; } { CrossProcessMutexAutoLock autoLock(*mRemoteImageDataMutex); RemoteImageData *data = mRemoteImageData; if (data->mBitmap.mData == bitmapData->mRemotePtr) { data->mBitmap.mData = NULL; data->mSize = gfxIntSize(0, 0); data->mWasUpdated = true; } } return DeallocateAsyncBitmapSurface(surface); } #ifdef XP_WIN case NPDrawingModelAsyncWindowsDXGISurface: { { CrossProcessMutexAutoLock autoLock(*mRemoteImageDataMutex); RemoteImageData *data = mRemoteImageData; if (data->mTextureHandle == surface->sharedHandle) { data->mTextureHandle = NULL; data->mSize = gfxIntSize(0, 0); data->mWasUpdated = true; } } SendReleaseDXGISharedSurface(surface->sharedHandle); return NPERR_NO_ERROR; } #endif } return NPERR_GENERIC_ERROR; } void PluginInstanceChild::NPN_SetCurrentAsyncSurface(NPAsyncSurface *surface, NPRect *changed) { if (!IsAsyncDrawing()) { return; } RemoteImageData *data = mRemoteImageData; if (!surface) { CrossProcessMutexAutoLock autoLock(*mRemoteImageDataMutex); data->mBitmap.mData = NULL; data->mSize = gfxIntSize(0, 0); data->mWasUpdated = true; } else { switch (mDrawingModel) { case NPDrawingModelAsyncBitmapSurface: { AsyncBitmapData *bitmapData; if (!mAsyncBitmaps.Get(surface, &bitmapData)) { return; } CrossProcessMutexAutoLock autoLock(*mRemoteImageDataMutex); data->mBitmap.mData = (unsigned char*)bitmapData->mRemotePtr; data->mSize = gfxIntSize(surface->size.width, surface->size.height); data->mFormat = surface->format == NPImageFormatBGRX32 ? RemoteImageData::BGRX32 : RemoteImageData::BGRA32; data->mBitmap.mStride = surface->bitmap.stride; data->mWasUpdated = true; break; } #ifdef XP_WIN case NPDrawingModelAsyncWindowsDXGISurface: { AsyncBitmapData *bitmapData; CrossProcessMutexAutoLock autoLock(*mRemoteImageDataMutex); data->mType = RemoteImageData::DXGI_TEXTURE_HANDLE; data->mSize = gfxIntSize(surface->size.width, surface->size.height); data->mFormat = surface->format == NPImageFormatBGRX32 ? RemoteImageData::BGRX32 : RemoteImageData::BGRA32; data->mTextureHandle = surface->sharedHandle; data->mWasUpdated = true; break; } #endif } } { MutexAutoLock autoLock(mAsyncInvalidateMutex); if (!mAsyncInvalidateTask) { mAsyncInvalidateTask = NewRunnableMethod (this, &PluginInstanceChild::DoAsyncRedraw); ProcessChild::message_loop()->PostTask(FROM_HERE, mAsyncInvalidateTask); } } } void PluginInstanceChild::DoAsyncRedraw() { { MutexAutoLock autoLock(mAsyncInvalidateMutex); mAsyncInvalidateTask = NULL; } SendRedrawPlugin(); } bool PluginInstanceChild::RecvAsyncSetWindow(const gfxSurfaceType& aSurfaceType, const NPRemoteWindow& aWindow) { AssertPluginThread(); NS_ASSERTION(!aWindow.window, "Remote window should be null."); if (mCurrentAsyncSetWindowTask) { mCurrentAsyncSetWindowTask->Cancel(); mCurrentAsyncSetWindowTask = nsnull; } if (mPendingPluginCall) { // We shouldn't process this now. Run it later. mCurrentAsyncSetWindowTask = NewRunnableMethod (this, &PluginInstanceChild::DoAsyncSetWindow, aSurfaceType, aWindow, true); MessageLoop::current()->PostTask(FROM_HERE, mCurrentAsyncSetWindowTask); } else { DoAsyncSetWindow(aSurfaceType, aWindow, false); } return true; } bool PluginInstanceChild::AnswerHandleKeyEvent(const nsKeyEvent& aKeyEvent, bool* handled) { AssertPluginThread(); #if defined(MOZ_WIDGET_QT) && (MOZ_PLATFORM_MAEMO == 6) Qt::KeyboardModifiers modifier; if (aKeyEvent.IsShift()) modifier |= Qt::ShiftModifier; if (aKeyEvent.IsControl()) modifier |= Qt::ControlModifier; if (aKeyEvent.IsAlt()) modifier |= Qt::AltModifier; if (aKeyEvent.IsMeta()) modifier |= Qt::MetaModifier; QEvent::Type type; if (aKeyEvent.message == NS_KEY_DOWN) { type = QEvent::KeyPress; } else if (aKeyEvent.message == NS_KEY_UP) { type = QEvent::KeyRelease; } else { *handled = false; return true; } QKeyEvent keyEv(type, DOMKeyCodeToQtKeyCode(aKeyEvent.keyCode), modifier); *handled = QApplication::sendEvent(qApp, &keyEv); #else NS_ERROR("Not implemented"); #endif return true; } bool PluginInstanceChild::AnswerHandleTextEvent(const nsTextEvent& aEvent, bool* handled) { AssertPluginThread(); #if defined(MOZ_WIDGET_QT) && (MOZ_PLATFORM_MAEMO == 6) QInputMethodEvent event; event.setCommitString(QString((const QChar*)aEvent.theText.get(), aEvent.theText.Length())); *handled = QApplication::sendEvent(qApp, &event); #else NS_ERROR("Not implemented"); #endif return true; } void PluginInstanceChild::DoAsyncSetWindow(const gfxSurfaceType& aSurfaceType, const NPRemoteWindow& aWindow, bool aIsAsync) { PLUGIN_LOG_DEBUG( ("[InstanceChild][%p] AsyncSetWindow to ", this, aWindow.x, aWindow.y, aWindow.width, aWindow.height)); AssertPluginThread(); NS_ASSERTION(!aWindow.window, "Remote window should be null."); NS_ASSERTION(!mPendingPluginCall, "Can't do SetWindow during plugin call!"); if (aIsAsync) { if (!mCurrentAsyncSetWindowTask) { return; } mCurrentAsyncSetWindowTask = nsnull; } mWindow.window = NULL; if (mWindow.width != aWindow.width || mWindow.height != aWindow.height || mWindow.clipRect.top != aWindow.clipRect.top || mWindow.clipRect.left != aWindow.clipRect.left || mWindow.clipRect.bottom != aWindow.clipRect.bottom || mWindow.clipRect.right != aWindow.clipRect.right) mAccumulatedInvalidRect = nsIntRect(0, 0, aWindow.width, aWindow.height); mWindow.x = aWindow.x; mWindow.y = aWindow.y; mWindow.width = aWindow.width; mWindow.height = aWindow.height; mWindow.clipRect = aWindow.clipRect; mWindow.type = aWindow.type; if (GetQuirks() & PluginModuleChild::QUIRK_SILVERLIGHT_DEFAULT_TRANSPARENT) mIsTransparent = true; mLayersRendering = true; mSurfaceType = aSurfaceType; UpdateWindowAttributes(true); #ifdef XP_WIN if (GetQuirks() & PluginModuleChild::QUIRK_WINLESS_TRACKPOPUP_HOOK) CreateWinlessPopupSurrogate(); if (GetQuirks() & PluginModuleChild::QUIRK_FLASH_THROTTLE_WMUSER_EVENTS) SetupFlashMsgThrottle(); #endif if (!mAccumulatedInvalidRect.IsEmpty()) { AsyncShowPluginFrame(); } } static inline gfxRect GfxFromNsRect(const nsIntRect& aRect) { return gfxRect(aRect.x, aRect.y, aRect.width, aRect.height); } bool PluginInstanceChild::CreateOptSurface(void) { NS_ABORT_IF_FALSE(mSurfaceType != gfxASurface::SurfaceTypeMax, "Need a valid surface type here"); NS_ASSERTION(!mCurrentSurface, "mCurrentSurfaceActor can get out of sync."); nsRefPtr retsurf; // Use an opaque surface unless we're transparent and *don't* have // a background to source from. gfxASurface::gfxImageFormat format = (mIsTransparent && !mBackground) ? gfxASurface::ImageFormatARGB32 : gfxASurface::ImageFormatRGB24; #ifdef MOZ_X11 #if (MOZ_PLATFORM_MAEMO == 5) || (MOZ_PLATFORM_MAEMO == 6) // On Maemo 5, we must send the Visibility event to activate the plugin if (mMaemoImageRendering) { NPEvent pluginEvent; XVisibilityEvent& visibilityEvent = pluginEvent.xvisibility; visibilityEvent.type = VisibilityNotify; visibilityEvent.display = 0; visibilityEvent.state = VisibilityUnobscured; mPluginIface->event(&mData, reinterpret_cast(&pluginEvent)); } #endif Display* dpy = mWsInfo.display; Screen* screen = DefaultScreenOfDisplay(dpy); if (format == gfxASurface::ImageFormatRGB24 && DefaultDepth(dpy, DefaultScreen(dpy)) == 16) { format = gfxASurface::ImageFormatRGB16_565; } if (mSurfaceType == gfxASurface::SurfaceTypeXlib) { if (!mIsTransparent || mBackground) { Visual* defaultVisual = DefaultVisualOfScreen(screen); mCurrentSurface = gfxXlibSurface::Create(screen, defaultVisual, gfxIntSize(mWindow.width, mWindow.height)); return mCurrentSurface != nsnull; } XRenderPictFormat* xfmt = XRenderFindStandardFormat(dpy, PictStandardARGB32); if (!xfmt) { NS_ERROR("Need X falback surface, but FindRenderFormat failed"); return false; } mCurrentSurface = gfxXlibSurface::Create(screen, xfmt, gfxIntSize(mWindow.width, mWindow.height)); return mCurrentSurface != nsnull; } #endif #ifdef XP_WIN if (mSurfaceType == gfxASurface::SurfaceTypeWin32 || mSurfaceType == gfxASurface::SurfaceTypeD2D) { bool willHaveTransparentPixels = mIsTransparent && !mBackground; SharedDIBSurface* s = new SharedDIBSurface(); if (!s->Create(reinterpret_cast(mWindow.window), mWindow.width, mWindow.height, willHaveTransparentPixels)) return false; mCurrentSurface = s; return true; } NS_RUNTIMEABORT("Shared-memory drawing not expected on Windows."); #endif // Make common shmem implementation working for any platform mCurrentSurface = gfxSharedImageSurface::CreateUnsafe(this, gfxIntSize(mWindow.width, mWindow.height), format); return !!mCurrentSurface; } bool PluginInstanceChild::MaybeCreatePlatformHelperSurface(void) { if (!mCurrentSurface) { NS_ERROR("Cannot create helper surface without mCurrentSurface"); return false; } #ifdef MOZ_X11 #ifdef MOZ_PLATFORM_MAEMO // On maemo plugins support non-default visual rendering bool supportNonDefaultVisual = true; #else bool supportNonDefaultVisual = false; #endif Screen* screen = DefaultScreenOfDisplay(mWsInfo.display); Visual* defaultVisual = DefaultVisualOfScreen(screen); Visual* visual = nsnull; Colormap colormap = 0; mDoAlphaExtraction = false; bool createHelperSurface = false; if (mCurrentSurface->GetType() == gfxASurface::SurfaceTypeXlib) { static_cast(mCurrentSurface.get())-> GetColormapAndVisual(&colormap, &visual); // Create helper surface if layer surface visual not same as default // and we don't support non-default visual rendering if (!visual || (defaultVisual != visual && !supportNonDefaultVisual)) { createHelperSurface = true; visual = defaultVisual; mDoAlphaExtraction = mIsTransparent; } } else if (mCurrentSurface->GetType() == gfxASurface::SurfaceTypeImage) { #if (MOZ_PLATFORM_MAEMO == 5) || (MOZ_PLATFORM_MAEMO == 6) if (mMaemoImageRendering) { // No helper surface needed, when mMaemoImageRendering is TRUE. // we can rendering directly into image memory // with NPImageExpose Maemo5 NPAPI return true; } #endif // For image layer surface we should always create helper surface createHelperSurface = true; // Check if we can create helper surface with non-default visual visual = gfxXlibSurface::FindVisual(screen, static_cast(mCurrentSurface.get())->Format()); if (!visual || (defaultVisual != visual && !supportNonDefaultVisual)) { visual = defaultVisual; mDoAlphaExtraction = mIsTransparent; } } if (createHelperSurface) { if (!visual) { NS_ERROR("Need X falback surface, but visual failed"); return false; } mHelperSurface = gfxXlibSurface::Create(screen, visual, mCurrentSurface->GetSize()); if (!mHelperSurface) { NS_WARNING("Fail to create create helper surface"); return false; } } #elif defined(XP_WIN) mDoAlphaExtraction = mIsTransparent && !mBackground; #endif return true; } bool PluginInstanceChild::EnsureCurrentBuffer(void) { #ifndef XP_MACOSX nsIntRect toInvalidate(0, 0, 0, 0); gfxIntSize winSize = gfxIntSize(mWindow.width, mWindow.height); if (mBackground && mBackground->GetSize() != winSize) { // It would be nice to keep the old background here, but doing // so can lead to cases in which we permanently keep the old // background size. mBackground = nsnull; toInvalidate.UnionRect(toInvalidate, nsIntRect(0, 0, winSize.width, winSize.height)); } if (mCurrentSurface) { gfxIntSize surfSize = mCurrentSurface->GetSize(); if (winSize != surfSize || (mBackground && !CanPaintOnBackground()) || (mBackground && gfxASurface::CONTENT_COLOR != mCurrentSurface->GetContentType()) || (!mBackground && mIsTransparent && gfxASurface::CONTENT_COLOR == mCurrentSurface->GetContentType())) { // Don't try to use an old, invalid DC. mWindow.window = nsnull; ClearCurrentSurface(); toInvalidate.UnionRect(toInvalidate, nsIntRect(0, 0, winSize.width, winSize.height)); } } mAccumulatedInvalidRect.UnionRect(mAccumulatedInvalidRect, toInvalidate); if (mCurrentSurface) { return true; } if (!CreateOptSurface()) { NS_ERROR("Cannot create optimized surface"); return false; } if (!MaybeCreatePlatformHelperSurface()) { NS_ERROR("Cannot create helper surface"); return false; } return true; #else // XP_MACOSX if (!mDoubleBufferCARenderer.HasCALayer()) { void *caLayer = nsnull; if (mDrawingModel == NPDrawingModelCoreGraphics) { if (!mCGLayer) { caLayer = mozilla::plugins::PluginUtilsOSX::GetCGLayer(CallCGDraw, this); if (!caLayer) { PLUGIN_LOG_DEBUG(("GetCGLayer failed.")); return false; } } mCGLayer = caLayer; } else { NPError result = mPluginIface->getvalue(GetNPP(), NPPVpluginCoreAnimationLayer, &caLayer); if (result != NPERR_NO_ERROR || !caLayer) { PLUGIN_LOG_DEBUG(("Plugin requested CoreAnimation but did not " "provide CALayer.")); return false; } } mDoubleBufferCARenderer.SetCALayer(caLayer); } if (mDoubleBufferCARenderer.HasFrontSurface() && (mDoubleBufferCARenderer.GetFrontSurfaceWidth() != mWindow.width || mDoubleBufferCARenderer.GetFrontSurfaceHeight() != mWindow.height) ) { mDoubleBufferCARenderer.ClearFrontSurface(); } if (!mDoubleBufferCARenderer.HasFrontSurface()) { bool allocSurface = mDoubleBufferCARenderer.InitFrontSurface( mWindow.width, mWindow.height, GetQuirks() & PluginModuleChild::QUIRK_ALLOW_OFFLINE_RENDERER ? ALLOW_OFFLINE_RENDERER : DISALLOW_OFFLINE_RENDERER); if (!allocSurface) { PLUGIN_LOG_DEBUG(("Fail to allocate front IOSurface")); return false; } if (mPluginIface->setwindow) (void) mPluginIface->setwindow(&mData, &mWindow); nsIntRect toInvalidate(0, 0, mWindow.width, mWindow.height); mAccumulatedInvalidRect.UnionRect(mAccumulatedInvalidRect, toInvalidate); } return true; #endif } void PluginInstanceChild::UpdateWindowAttributes(bool aForceSetWindow) { nsRefPtr curSurface = mHelperSurface ? mHelperSurface : mCurrentSurface; bool needWindowUpdate = aForceSetWindow; #ifdef MOZ_X11 Visual* visual = nsnull; Colormap colormap = 0; if (curSurface && curSurface->GetType() == gfxASurface::SurfaceTypeXlib) { static_cast(curSurface.get())-> GetColormapAndVisual(&colormap, &visual); if (visual != mWsInfo.visual || colormap != mWsInfo.colormap) { mWsInfo.visual = visual; mWsInfo.colormap = colormap; needWindowUpdate = true; } } #if (MOZ_PLATFORM_MAEMO == 5) || (MOZ_PLATFORM_MAEMO == 6) else if (curSurface && curSurface->GetType() == gfxASurface::SurfaceTypeImage && mMaemoImageRendering) { // For maemo5 we need to setup window/colormap to 0 // and specify depth of image surface gfxImageSurface* img = static_cast(curSurface.get()); if (mWindow.window || mWsInfo.depth != gfxUtils::ImageFormatToDepth(img->Format()) || mWsInfo.colormap) { mWindow.window = nsnull; mWsInfo.depth = gfxUtils::ImageFormatToDepth(img->Format()); mWsInfo.colormap = 0; needWindowUpdate = true; } } #endif // MAEMO #endif // MOZ_X11 #ifdef XP_WIN HDC dc = NULL; if (curSurface) { if (!SharedDIBSurface::IsSharedDIBSurface(curSurface)) NS_RUNTIMEABORT("Expected SharedDIBSurface!"); SharedDIBSurface* dibsurf = static_cast(curSurface.get()); dc = dibsurf->GetHDC(); } if (mWindow.window != dc) { mWindow.window = dc; needWindowUpdate = true; } #endif // XP_WIN if (!needWindowUpdate) { return; } #ifndef XP_MACOSX // Adjusting the window isn't needed for OSX #ifndef XP_WIN // On Windows, we translate the device context, in order for the window // origin to be correct. mWindow.x = mWindow.y = 0; #endif if (IsVisible()) { // The clip rect is relative to drawable top-left. nsIntRect clipRect; // Don't ask the plugin to draw outside the drawable. The clip rect // is in plugin coordinates, not window coordinates. // This also ensures that the unsigned clip rectangle offsets won't be -ve. clipRect.SetRect(0, 0, mWindow.width, mWindow.height); mWindow.clipRect.left = 0; mWindow.clipRect.top = 0; mWindow.clipRect.right = clipRect.XMost(); mWindow.clipRect.bottom = clipRect.YMost(); } #endif // XP_MACOSX #ifdef XP_WIN // Windowless plugins on Windows need a WM_WINDOWPOSCHANGED event to update // their location... or at least Flash does: Silverlight uses the // window.x/y passed to NPP_SetWindow if (mPluginIface->event) { WINDOWPOS winpos = { 0, 0, mWindow.x, mWindow.y, mWindow.width, mWindow.height, 0 }; NPEvent pluginEvent = { WM_WINDOWPOSCHANGED, 0, (LPARAM) &winpos }; mPluginIface->event(&mData, &pluginEvent); } #endif PLUGIN_LOG_DEBUG( ("[InstanceChild][%p] UpdateWindow w=, clip=", this, mWindow.x, mWindow.y, mWindow.width, mWindow.height, mWindow.clipRect.left, mWindow.clipRect.top, mWindow.clipRect.right, mWindow.clipRect.bottom)); if (mPluginIface->setwindow) { mPluginIface->setwindow(&mData, &mWindow); } } void PluginInstanceChild::PaintRectToPlatformSurface(const nsIntRect& aRect, gfxASurface* aSurface) { UpdateWindowAttributes(); #ifdef MOZ_X11 #if (MOZ_PLATFORM_MAEMO == 5) || (MOZ_PLATFORM_MAEMO == 6) // On maemo5 we do support Image rendering NPAPI if (mMaemoImageRendering && aSurface->GetType() == gfxASurface::SurfaceTypeImage) { aSurface->Flush(); gfxImageSurface* image = static_cast(aSurface); NPImageExpose imgExp; imgExp.depth = gfxUtils::ImageFormatToDepth(image->Format()); imgExp.x = aRect.x; imgExp.y = aRect.y; imgExp.width = aRect.width; imgExp.height = aRect.height; imgExp.stride = image->Stride(); imgExp.data = (char *)image->Data(); imgExp.dataSize.width = image->Width(); imgExp.dataSize.height = image->Height(); imgExp.translateX = 0; imgExp.translateY = 0; imgExp.scaleX = 1; imgExp.scaleY = 1; NPEvent pluginEvent; XGraphicsExposeEvent& exposeEvent = pluginEvent.xgraphicsexpose; exposeEvent.type = GraphicsExpose; exposeEvent.display = 0; // Store imageExpose structure pointer as drawable member exposeEvent.drawable = (Drawable)&imgExp; exposeEvent.x = imgExp.x; exposeEvent.y = imgExp.y; exposeEvent.width = imgExp.width; exposeEvent.height = imgExp.height; exposeEvent.count = 0; // information not set: exposeEvent.serial = 0; exposeEvent.send_event = False; exposeEvent.major_code = 0; exposeEvent.minor_code = 0; mPluginIface->event(&mData, reinterpret_cast(&exposeEvent)); aSurface->MarkDirty(gfxRect(aRect.x, aRect.y, aRect.width, aRect.height)); } else #endif { NS_ASSERTION(aSurface->GetType() == gfxASurface::SurfaceTypeXlib, "Non supported platform surface type"); NPEvent pluginEvent; XGraphicsExposeEvent& exposeEvent = pluginEvent.xgraphicsexpose; exposeEvent.type = GraphicsExpose; exposeEvent.display = mWsInfo.display; exposeEvent.drawable = static_cast(aSurface)->XDrawable(); exposeEvent.x = aRect.x; exposeEvent.y = aRect.y; exposeEvent.width = aRect.width; exposeEvent.height = aRect.height; exposeEvent.count = 0; // information not set: exposeEvent.serial = 0; exposeEvent.send_event = False; exposeEvent.major_code = 0; exposeEvent.minor_code = 0; mPluginIface->event(&mData, reinterpret_cast(&exposeEvent)); } #elif defined(XP_WIN) NS_ASSERTION(SharedDIBSurface::IsSharedDIBSurface(aSurface), "Expected (SharedDIB) image surface."); // This rect is in the window coordinate space. aRect is in the plugin // coordinate space. RECT rect = { mWindow.x + aRect.x, mWindow.y + aRect.y, mWindow.x + aRect.XMost(), mWindow.y + aRect.YMost() }; NPEvent paintEvent = { WM_PAINT, uintptr_t(mWindow.window), uintptr_t(&rect) }; ::SetViewportOrgEx((HDC) mWindow.window, -mWindow.x, -mWindow.y, NULL); ::SelectClipRgn((HDC) mWindow.window, NULL); ::IntersectClipRect((HDC) mWindow.window, rect.left, rect.top, rect.right, rect.bottom); mPluginIface->event(&mData, reinterpret_cast(&paintEvent)); #else NS_RUNTIMEABORT("Surface type not implemented."); #endif } void PluginInstanceChild::PaintRectToSurface(const nsIntRect& aRect, gfxASurface* aSurface, const gfxRGBA& aColor) { // Render using temporary X surface, with copy to image surface nsIntRect plPaintRect(aRect); nsRefPtr renderSurface = aSurface; #ifdef MOZ_X11 if (mIsTransparent && (GetQuirks() & PluginModuleChild::QUIRK_FLASH_EXPOSE_COORD_TRANSLATION)) { // Work around a bug in Flash up to 10.1 d51 at least, where expose event // top left coordinates within the plugin-rect and not at the drawable // origin are misinterpreted. (We can move the top left coordinate // provided it is within the clipRect.), see bug 574583 plPaintRect.SetRect(0, 0, aRect.XMost(), aRect.YMost()); } if (mHelperSurface) { // On X11 we can paint to non Xlib surface only with HelperSurface #if (MOZ_PLATFORM_MAEMO == 5) || (MOZ_PLATFORM_MAEMO == 6) // Don't use mHelperSurface if surface is image and mMaemoImageRendering is TRUE if (!mMaemoImageRendering || renderSurface->GetType() != gfxASurface::SurfaceTypeImage) #endif renderSurface = mHelperSurface; } #endif if (mIsTransparent && !CanPaintOnBackground()) { // Clear surface content for transparent rendering nsRefPtr ctx = new gfxContext(renderSurface); ctx->SetColor(aColor); ctx->SetOperator(gfxContext::OPERATOR_SOURCE); ctx->Rectangle(GfxFromNsRect(plPaintRect)); ctx->Fill(); } PaintRectToPlatformSurface(plPaintRect, renderSurface); if (renderSurface != aSurface) { // Copy helper surface content to target nsRefPtr ctx = new gfxContext(aSurface); ctx->SetSource(renderSurface); ctx->SetOperator(gfxContext::OPERATOR_SOURCE); ctx->Rectangle(GfxFromNsRect(aRect)); ctx->Fill(); } } void PluginInstanceChild::PaintRectWithAlphaExtraction(const nsIntRect& aRect, gfxASurface* aSurface) { NS_ABORT_IF_FALSE(aSurface->GetContentType() == gfxASurface::CONTENT_COLOR_ALPHA, "Refusing to pointlessly recover alpha"); nsIntRect rect(aRect); // If |aSurface| can be used to paint and can have alpha values // recovered directly to it, do that to save a tmp surface and // copy. bool useSurfaceSubimageForBlack = false; if (gfxASurface::SurfaceTypeImage == aSurface->GetType()) { gfxImageSurface* surfaceAsImage = static_cast(aSurface); useSurfaceSubimageForBlack = (surfaceAsImage->Format() == gfxASurface::ImageFormatARGB32); // If we're going to use a subimage, nudge the rect so that we // can use optimal alpha recovery. If we're not using a // subimage, the temporaries should automatically get // fast-path alpha recovery so we don't need to do anything. if (useSurfaceSubimageForBlack) { rect = gfxAlphaRecovery::AlignRectForSubimageRecovery(aRect, surfaceAsImage); } } nsRefPtr whiteImage; nsRefPtr blackImage; gfxRect targetRect(rect.x, rect.y, rect.width, rect.height); gfxIntSize targetSize(rect.width, rect.height); gfxPoint deviceOffset = -targetRect.TopLeft(); // We always use a temporary "white image" whiteImage = new gfxImageSurface(targetSize, gfxASurface::ImageFormatRGB24); if (whiteImage->CairoStatus()) { return; } #ifdef XP_WIN // On windows, we need an HDC and so can't paint directly to // vanilla image surfaces. Bifurcate this painting code so that // we don't accidentally attempt that. if (!SharedDIBSurface::IsSharedDIBSurface(aSurface)) NS_RUNTIMEABORT("Expected SharedDIBSurface!"); // Paint the plugin directly onto the target, with a white // background and copy the result PaintRectToSurface(rect, aSurface, gfxRGBA(1.0, 1.0, 1.0)); { gfxRect copyRect(gfxPoint(0, 0), targetRect.Size()); nsRefPtr ctx = new gfxContext(whiteImage); ctx->SetOperator(gfxContext::OPERATOR_SOURCE); ctx->SetSource(aSurface, deviceOffset); ctx->Rectangle(copyRect); ctx->Fill(); } // Paint the plugin directly onto the target, with a black // background PaintRectToSurface(rect, aSurface, gfxRGBA(0.0, 0.0, 0.0)); // Don't copy the result, just extract a subimage so that we can // recover alpha directly into the target gfxImageSurface *image = static_cast(aSurface); blackImage = image->GetSubimage(targetRect); #else // Paint onto white background whiteImage->SetDeviceOffset(deviceOffset); PaintRectToSurface(rect, whiteImage, gfxRGBA(1.0, 1.0, 1.0)); if (useSurfaceSubimageForBlack) { gfxImageSurface *surface = static_cast(aSurface); blackImage = surface->GetSubimage(targetRect); } else { blackImage = new gfxImageSurface(targetSize, gfxASurface::ImageFormatARGB32); } // Paint onto black background blackImage->SetDeviceOffset(deviceOffset); PaintRectToSurface(rect, blackImage, gfxRGBA(0.0, 0.0, 0.0)); #endif NS_ABORT_IF_FALSE(whiteImage && blackImage, "Didn't paint enough!"); // Extract alpha from black and white image and store to black // image if (!gfxAlphaRecovery::RecoverAlpha(blackImage, whiteImage)) { return; } // If we had to use a temporary black surface, copy the pixels // with alpha back to the target if (!useSurfaceSubimageForBlack) { nsRefPtr ctx = new gfxContext(aSurface); ctx->SetOperator(gfxContext::OPERATOR_SOURCE); ctx->SetSource(blackImage); ctx->Rectangle(targetRect); ctx->Fill(); } } bool PluginInstanceChild::CanPaintOnBackground() { return (mBackground && mCurrentSurface && mCurrentSurface->GetSize() == mBackground->GetSize()); } bool PluginInstanceChild::ShowPluginFrame() { // mLayersRendering can be false if we somehow get here without // receiving AsyncSetWindow() first. mPendingPluginCall is our // re-entrancy guard; we can't paint while nested inside another // paint. if (!mLayersRendering || mPendingPluginCall) { return false; } AutoRestore pending(mPendingPluginCall); mPendingPluginCall = true; bool temporarilyMakeVisible = !IsVisible() && !mHasPainted; if (temporarilyMakeVisible && mWindow.width && mWindow.height) { mWindow.clipRect.right = mWindow.width; mWindow.clipRect.bottom = mWindow.height; } else if (!IsVisible()) { // If we're not visible, don't bother painting a <0,0,0,0> // rect. If we're eventually made visible, the visibility // change will invalidate our window. ClearCurrentSurface(); return true; } if (!EnsureCurrentBuffer()) { return false; } #ifdef MOZ_WIDGET_COCOA // We can't use the thebes code with CoreAnimation so we will // take a different code path. if (mDrawingModel == NPDrawingModelCoreAnimation || mDrawingModel == NPDrawingModelInvalidatingCoreAnimation || mDrawingModel == NPDrawingModelCoreGraphics) { if (!IsVisible()) { return true; } if (!mDoubleBufferCARenderer.HasFrontSurface()) { NS_ERROR("CARenderer not initialized for rendering"); return false; } // Clear accRect here to be able to pass // test_invalidate_during_plugin_paint test nsIntRect rect = mAccumulatedInvalidRect; mAccumulatedInvalidRect.SetEmpty(); // Fix up old invalidations that might have been made when our // surface was a different size rect.IntersectRect(rect, nsIntRect(0, 0, mDoubleBufferCARenderer.GetFrontSurfaceWidth(), mDoubleBufferCARenderer.GetFrontSurfaceHeight())); if (mDrawingModel == NPDrawingModelCoreGraphics) { mozilla::plugins::PluginUtilsOSX::Repaint(mCGLayer, rect); } mDoubleBufferCARenderer.Render(); NPRect r = { (uint16_t)rect.y, (uint16_t)rect.x, (uint16_t)rect.YMost(), (uint16_t)rect.XMost() }; SurfaceDescriptor currSurf; currSurf = IOSurfaceDescriptor(mDoubleBufferCARenderer.GetFrontSurfaceID()); mHasPainted = true; SurfaceDescriptor returnSurf; if (!SendShow(r, currSurf, &returnSurf)) { return false; } SwapSurfaces(); return true; } else { NS_ERROR("Unsupported drawing model for async layer rendering"); return false; } #endif NS_ASSERTION(mWindow.width == (mWindow.clipRect.right - mWindow.clipRect.left) && mWindow.height == (mWindow.clipRect.bottom - mWindow.clipRect.top), "Clip rect should be same size as window when using layers"); // Clear accRect here to be able to pass // test_invalidate_during_plugin_paint test nsIntRect rect = mAccumulatedInvalidRect; mAccumulatedInvalidRect.SetEmpty(); // Fix up old invalidations that might have been made when our // surface was a different size gfxIntSize surfaceSize = mCurrentSurface->GetSize(); rect.IntersectRect(rect, nsIntRect(0, 0, surfaceSize.width, surfaceSize.height)); if (!ReadbackDifferenceRect(rect)) { // We couldn't read back the pixels that differ between the // current surface and last, so we have to invalidate the // entire window. rect.SetRect(0, 0, mWindow.width, mWindow.height); } bool haveTransparentPixels = gfxASurface::CONTENT_COLOR_ALPHA == mCurrentSurface->GetContentType(); PLUGIN_LOG_DEBUG( ("[InstanceChild][%p] Painting%s on surface ", this, haveTransparentPixels ? " with alpha" : "", rect.x, rect.y, rect.width, rect.height, mCurrentSurface->GetSize().width, mCurrentSurface->GetSize().height)); if (CanPaintOnBackground()) { PLUGIN_LOG_DEBUG((" (on background)")); // Source the background pixels ... { nsRefPtr ctx = new gfxContext(mHelperSurface ? mHelperSurface : mCurrentSurface); ctx->SetSource(mBackground); ctx->SetOperator(gfxContext::OPERATOR_SOURCE); ctx->Rectangle(gfxRect(rect.x, rect.y, rect.width, rect.height)); ctx->Fill(); } // ... and hand off to the plugin // BEWARE: mBackground may die during this call PaintRectToSurface(rect, mCurrentSurface, gfxRGBA(0.0, 0.0, 0.0, 0.0)); } else if (!temporarilyMakeVisible && mDoAlphaExtraction) { // We don't want to pay the expense of alpha extraction for // phony paints. PLUGIN_LOG_DEBUG((" (with alpha recovery)")); PaintRectWithAlphaExtraction(rect, mCurrentSurface); } else { PLUGIN_LOG_DEBUG((" (onto opaque surface)")); // If we're on a platform that needs helper surfaces for // plugins, and we're forcing a throwaway paint of a // wmode=transparent plugin, then make sure to use the helper // surface here. nsRefPtr target = (temporarilyMakeVisible && mHelperSurface) ? mHelperSurface : mCurrentSurface; PaintRectToSurface(rect, target, gfxRGBA(0.0, 0.0, 0.0, 0.0)); } mHasPainted = true; if (temporarilyMakeVisible) { mWindow.clipRect.right = mWindow.clipRect.bottom = 0; PLUGIN_LOG_DEBUG( ("[InstanceChild][%p] Undoing temporary clipping w=, clip=", this, mWindow.x, mWindow.y, mWindow.width, mWindow.height, mWindow.clipRect.left, mWindow.clipRect.top, mWindow.clipRect.right, mWindow.clipRect.bottom)); if (mPluginIface->setwindow) { mPluginIface->setwindow(&mData, &mWindow); } // Skip forwarding the results of the phony paint to the // browser. We may have painted a transparent plugin using // the opaque-plugin path, which can result in wrong pixels. // We also don't want to pay the expense of forwarding the // surface for plugins that might really be invisible. mAccumulatedInvalidRect.SetRect(0, 0, mWindow.width, mWindow.height); return true; } NPRect r = { (uint16_t)rect.y, (uint16_t)rect.x, (uint16_t)rect.YMost(), (uint16_t)rect.XMost() }; SurfaceDescriptor currSurf; #ifdef MOZ_X11 if (mCurrentSurface->GetType() == gfxASurface::SurfaceTypeXlib) { gfxXlibSurface *xsurf = static_cast(mCurrentSurface.get()); currSurf = SurfaceDescriptorX11(xsurf); // Need to sync all pending x-paint requests // before giving drawable to another process XSync(mWsInfo.display, False); } else #endif #ifdef XP_WIN if (SharedDIBSurface::IsSharedDIBSurface(mCurrentSurface)) { SharedDIBSurface* s = static_cast(mCurrentSurface.get()); if (!mCurrentSurfaceActor) { base::SharedMemoryHandle handle = NULL; s->ShareToProcess(PluginModuleChild::current()->OtherProcess(), &handle); mCurrentSurfaceActor = SendPPluginSurfaceConstructor(handle, mCurrentSurface->GetSize(), haveTransparentPixels); } currSurf = mCurrentSurfaceActor; s->Flush(); } else #endif if (gfxSharedImageSurface::IsSharedImage(mCurrentSurface)) { currSurf = static_cast(mCurrentSurface.get())->GetShmem(); } else { NS_RUNTIMEABORT("Surface type is not remotable"); return false; } // Unused, except to possibly return a shmem to us SurfaceDescriptor returnSurf; if (!SendShow(r, currSurf, &returnSurf)) { return false; } SwapSurfaces(); mSurfaceDifferenceRect = rect; return true; } bool PluginInstanceChild::ReadbackDifferenceRect(const nsIntRect& rect) { if (!mBackSurface) return false; // We can read safely from XSurface,SharedDIBSurface and Unsafe SharedMemory, // because PluginHost is not able to modify that surface #if defined(MOZ_X11) if (mBackSurface->GetType() != gfxASurface::SurfaceTypeXlib && !gfxSharedImageSurface::IsSharedImage(mBackSurface)) return false; #elif defined(XP_WIN) if (!SharedDIBSurface::IsSharedDIBSurface(mBackSurface)) return false; #else return false; #endif if (mCurrentSurface->GetContentType() != mBackSurface->GetContentType()) return false; if (mSurfaceDifferenceRect.IsEmpty()) return true; PLUGIN_LOG_DEBUG( ("[InstanceChild][%p] Reading back part of ", this, mSurfaceDifferenceRect.x, mSurfaceDifferenceRect.y, mSurfaceDifferenceRect.width, mSurfaceDifferenceRect.height)); // Read back previous content nsRefPtr ctx = new gfxContext(mCurrentSurface); ctx->SetOperator(gfxContext::OPERATOR_SOURCE); ctx->SetSource(mBackSurface); // Subtract from mSurfaceDifferenceRect area which is overlapping with rect nsIntRegion result; result.Sub(mSurfaceDifferenceRect, nsIntRegion(rect)); nsIntRegionRectIterator iter(result); const nsIntRect* r; while ((r = iter.Next()) != nsnull) { ctx->Rectangle(GfxFromNsRect(*r)); } ctx->Fill(); return true; } void PluginInstanceChild::InvalidateRectDelayed(void) { if (!mCurrentInvalidateTask) { return; } mCurrentInvalidateTask = nsnull; if (mAccumulatedInvalidRect.IsEmpty()) { return; } if (!ShowPluginFrame()) { AsyncShowPluginFrame(); } } void PluginInstanceChild::AsyncShowPluginFrame(void) { if (mCurrentInvalidateTask) { return; } mCurrentInvalidateTask = NewRunnableMethod(this, &PluginInstanceChild::InvalidateRectDelayed); MessageLoop::current()->PostTask(FROM_HERE, mCurrentInvalidateTask); } void PluginInstanceChild::InvalidateRect(NPRect* aInvalidRect) { NS_ASSERTION(aInvalidRect, "Null pointer!"); #ifdef OS_WIN // Invalidate and draw locally for windowed plugins. if (mWindow.type == NPWindowTypeWindow) { NS_ASSERTION(IsWindow(mPluginWindowHWND), "Bad window?!"); RECT rect = { aInvalidRect->left, aInvalidRect->top, aInvalidRect->right, aInvalidRect->bottom }; ::InvalidateRect(mPluginWindowHWND, &rect, FALSE); return; } #endif if (mLayersRendering) { nsIntRect r(aInvalidRect->left, aInvalidRect->top, aInvalidRect->right - aInvalidRect->left, aInvalidRect->bottom - aInvalidRect->top); mAccumulatedInvalidRect.UnionRect(r, mAccumulatedInvalidRect); // If we are able to paint and invalidate sent, then reset // accumulated rectangle AsyncShowPluginFrame(); return; } // If we were going to use layers rendering but it's not set up // yet, and the plugin happens to call this first, we'll forward // the invalidation to the browser. It's unclear whether // non-layers plugins need this rect forwarded when their window // width or height is 0, which it would be for layers plugins // before their first SetWindow(). SendNPN_InvalidateRect(*aInvalidRect); } bool PluginInstanceChild::RecvUpdateBackground(const SurfaceDescriptor& aBackground, const nsIntRect& aRect) { NS_ABORT_IF_FALSE(mIsTransparent, "Only transparent plugins use backgrounds"); if (!mBackground) { // XXX refactor me switch (aBackground.type()) { #ifdef MOZ_X11 case SurfaceDescriptor::TSurfaceDescriptorX11: { mBackground = aBackground.get_SurfaceDescriptorX11().OpenForeign(); break; } #endif case SurfaceDescriptor::TShmem: { mBackground = gfxSharedImageSurface::Open(aBackground.get_Shmem()); break; } default: NS_RUNTIMEABORT("Unexpected background surface descriptor"); } if (!mBackground) { return false; } gfxIntSize bgSize = mBackground->GetSize(); mAccumulatedInvalidRect.UnionRect(mAccumulatedInvalidRect, nsIntRect(0, 0, bgSize.width, bgSize.height)); AsyncShowPluginFrame(); return true; } // XXX refactor me mAccumulatedInvalidRect.UnionRect(aRect, mAccumulatedInvalidRect); // The browser is limping along with a stale copy of our pixels. // Try to repaint ASAP. This will ClearCurrentBackground() if we // needed it. if (!ShowPluginFrame()) { NS_WARNING("Couldn't immediately repaint plugin instance"); AsyncShowPluginFrame(); } return true; } PPluginBackgroundDestroyerChild* PluginInstanceChild::AllocPPluginBackgroundDestroyer() { return new PluginBackgroundDestroyerChild(); } bool PluginInstanceChild::RecvPPluginBackgroundDestroyerConstructor( PPluginBackgroundDestroyerChild* aActor) { // Our background changed, so we have to invalidate the area // painted with the old background. If the background was // destroyed because we have a new background, then we expect to // be notified of that "soon", before processing the asynchronous // invalidation here. If we're *not* getting a new background, // our current front surface is stale and we want to repaint // "soon" so that we can hand the browser back a surface with // alpha values. (We should be notified of that invalidation soon // too, but we don't assume that here.) if (mBackground) { gfxIntSize bgsize = mBackground->GetSize(); mAccumulatedInvalidRect.UnionRect( nsIntRect(0, 0, bgsize.width, bgsize.height), mAccumulatedInvalidRect); // NB: we don't have to XSync here because only ShowPluginFrame() // uses mBackground, and it always XSyncs after finishing. mBackground = nsnull; AsyncShowPluginFrame(); } return PPluginBackgroundDestroyerChild::Send__delete__(aActor); } bool PluginInstanceChild::DeallocPPluginBackgroundDestroyer( PPluginBackgroundDestroyerChild* aActor) { delete aActor; return true; } uint32_t PluginInstanceChild::ScheduleTimer(uint32_t interval, bool repeat, TimerFunc func) { ChildTimer* t = new ChildTimer(this, interval, repeat, func); if (0 == t->ID()) { delete t; return 0; } mTimers.AppendElement(t); return t->ID(); } void PluginInstanceChild::UnscheduleTimer(uint32_t id) { if (0 == id) return; mTimers.RemoveElement(id, ChildTimer::IDComparator()); } void PluginInstanceChild::AsyncCall(PluginThreadCallback aFunc, void* aUserData) { ChildAsyncCall* task = new ChildAsyncCall(this, aFunc, aUserData); { MutexAutoLock lock(mAsyncCallMutex); mPendingAsyncCalls.AppendElement(task); } ProcessChild::message_loop()->PostTask(FROM_HERE, task); } static PLDHashOperator InvalidateObject(DeletingObjectEntry* e, void* userArg) { NPObject* o = e->GetKey(); if (!e->mDeleted && o->_class && o->_class->invalidate) o->_class->invalidate(o); return PL_DHASH_NEXT; } static PLDHashOperator DeleteObject(DeletingObjectEntry* e, void* userArg) { NPObject* o = e->GetKey(); if (!e->mDeleted) { e->mDeleted = true; #ifdef NS_BUILD_REFCNT_LOGGING { int32_t refcnt = o->referenceCount; while (refcnt) { --refcnt; NS_LOG_RELEASE(o, refcnt, "NPObject"); } } #endif PluginModuleChild::DeallocNPObject(o); } return PL_DHASH_NEXT; } void PluginInstanceChild::SwapSurfaces() { nsRefPtr tmpsurf = mCurrentSurface; #ifdef XP_WIN PPluginSurfaceChild* tmpactor = mCurrentSurfaceActor; #endif mCurrentSurface = mBackSurface; #ifdef XP_WIN mCurrentSurfaceActor = mBackSurfaceActor; #endif mBackSurface = tmpsurf; #ifdef XP_WIN mBackSurfaceActor = tmpactor; #endif #ifdef MOZ_WIDGET_COCOA mDoubleBufferCARenderer.SwapSurfaces(); // Outdated back surface... not usable anymore due to changed plugin size. // Dropping obsolete surface if (mDoubleBufferCARenderer.HasFrontSurface() && mDoubleBufferCARenderer.HasBackSurface() && (mDoubleBufferCARenderer.GetFrontSurfaceWidth() != mDoubleBufferCARenderer.GetBackSurfaceWidth() || mDoubleBufferCARenderer.GetFrontSurfaceHeight() != mDoubleBufferCARenderer.GetBackSurfaceHeight())) { mDoubleBufferCARenderer.ClearFrontSurface(); } #else if (mCurrentSurface && mBackSurface && (mCurrentSurface->GetSize() != mBackSurface->GetSize() || mCurrentSurface->GetContentType() != mBackSurface->GetContentType())) { ClearCurrentSurface(); } #endif } void PluginInstanceChild::ClearCurrentSurface() { mCurrentSurface = nsnull; #ifdef MOZ_WIDGET_COCOA if (mDoubleBufferCARenderer.HasFrontSurface()) { mDoubleBufferCARenderer.ClearFrontSurface(); } #endif #ifdef XP_WIN if (mCurrentSurfaceActor) { PPluginSurfaceChild::Send__delete__(mCurrentSurfaceActor); mCurrentSurfaceActor = NULL; } #endif mHelperSurface = nsnull; } void PluginInstanceChild::ClearAllSurfaces() { if (mBackSurface) { // Get last surface back, and drop it SurfaceDescriptor temp = null_t(); NPRect r = { 0, 0, 1, 1 }; SendShow(r, temp, &temp); } if (gfxSharedImageSurface::IsSharedImage(mCurrentSurface)) DeallocShmem(static_cast(mCurrentSurface.get())->GetShmem()); if (gfxSharedImageSurface::IsSharedImage(mBackSurface)) DeallocShmem(static_cast(mBackSurface.get())->GetShmem()); mCurrentSurface = nsnull; mBackSurface = nsnull; #ifdef XP_WIN if (mCurrentSurfaceActor) { PPluginSurfaceChild::Send__delete__(mCurrentSurfaceActor); mCurrentSurfaceActor = NULL; } if (mBackSurfaceActor) { PPluginSurfaceChild::Send__delete__(mBackSurfaceActor); mBackSurfaceActor = NULL; } #endif #ifdef MOZ_WIDGET_COCOA if (mDoubleBufferCARenderer.HasBackSurface()) { // Get last surface back, and drop it SurfaceDescriptor temp = null_t(); NPRect r = { 0, 0, 1, 1 }; SendShow(r, temp, &temp); } if (mCGLayer) { mozilla::plugins::PluginUtilsOSX::ReleaseCGLayer(mCGLayer); mCGLayer = nsnull; } mDoubleBufferCARenderer.ClearFrontSurface(); mDoubleBufferCARenderer.ClearBackSurface(); #endif } PLDHashOperator PluginInstanceChild::DeleteSurface(NPAsyncSurface* surf, nsAutoPtr &data, void* userArg) { PluginInstanceChild *inst = static_cast(userArg); inst->DeallocShmem(data->mShmem); return PL_DHASH_REMOVE; } bool PluginInstanceChild::AnswerNPP_Destroy(NPError* aResult) { PLUGIN_LOG_DEBUG_METHOD; AssertPluginThread(); *aResult = NPERR_NO_ERROR; #if defined(OS_WIN) SetProp(mPluginWindowHWND, kPluginIgnoreSubclassProperty, (HANDLE)1); #endif InfallibleTArray streams; ManagedPBrowserStreamChild(streams); // First make sure none of these streams become deleted for (PRUint32 i = 0; i < streams.Length(); ) { if (static_cast(streams[i])->InstanceDying()) ++i; else streams.RemoveElementAt(i); } for (PRUint32 i = 0; i < streams.Length(); ++i) static_cast(streams[i])->FinishDelivery(); mTimers.Clear(); // NPP_Destroy() should be a synchronization point for plugin threads // calling NPN_AsyncCall: after this function returns, they are no longer // allowed to make async calls on this instance. PluginModuleChild::current()->NPP_Destroy(this); mData.ndata = 0; if (mCurrentInvalidateTask) { mCurrentInvalidateTask->Cancel(); mCurrentInvalidateTask = nsnull; } if (mCurrentAsyncSetWindowTask) { mCurrentAsyncSetWindowTask->Cancel(); mCurrentAsyncSetWindowTask = nsnull; } { MutexAutoLock autoLock(mAsyncInvalidateMutex); if (mAsyncInvalidateTask) { mAsyncInvalidateTask->Cancel(); mAsyncInvalidateTask = nsnull; } } ClearAllSurfaces(); mDeletingHash = new nsTHashtable; mDeletingHash->Init(); PluginModuleChild::current()->FindNPObjectsForInstance(this); mDeletingHash->EnumerateEntries(InvalidateObject, NULL); mDeletingHash->EnumerateEntries(DeleteObject, NULL); // Null out our cached actors as they should have been killed in the // PluginInstanceDestroyed call above. mCachedWindowActor = nsnull; mCachedElementActor = nsnull; #if defined(OS_WIN) SharedSurfaceRelease(); DestroyWinlessPopupSurrogate(); UnhookWinlessFlashThrottle(); DestroyPluginWindow(); #endif // Pending async calls are discarded, not delivered. This matches the // in-process behavior. for (PRUint32 i = 0; i < mPendingAsyncCalls.Length(); ++i) mPendingAsyncCalls[i]->Cancel(); mPendingAsyncCalls.Clear(); if (mAsyncBitmaps.Count()) { NS_ERROR("Not all AsyncBitmaps were finalized by a plugin!"); mAsyncBitmaps.Enumerate(DeleteSurface, this); } return true; }