/* -*- Mode: C++; c-basic-offset: 2; indent-tabs-mode: nil; tab-width: 8; -*- */ /* vim: set sw=2 ts=8 et tw=80 : */ /* 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/. */ #include "base/basictypes.h" #include "TabParent.h" #include "AppProcessChecker.h" #include "IDBFactory.h" #include "IndexedDBParent.h" #include "mozIApplication.h" #include "mozilla/BrowserElementParent.h" #include "mozilla/docshell/OfflineCacheUpdateParent.h" #include "mozilla/dom/ContentParent.h" #include "mozilla/dom/PContentPermissionRequestParent.h" #include "mozilla/EventStateManager.h" #include "mozilla/Hal.h" #include "mozilla/ipc/DocumentRendererParent.h" #include "mozilla/layers/CompositorParent.h" #include "mozilla/layout/RenderFrameParent.h" #include "mozilla/MouseEvents.h" #include "mozilla/net/NeckoChild.h" #include "mozilla/Preferences.h" #include "mozilla/TextEvents.h" #include "mozilla/TouchEvents.h" #include "mozilla/unused.h" #include "nsCOMPtr.h" #include "nsContentPermissionHelper.h" #include "nsContentUtils.h" #include "nsDebug.h" #include "nsFocusManager.h" #include "nsFrameLoader.h" #include "nsIContent.h" #include "nsIDocShell.h" #include "nsIDocShellTreeOwner.h" #include "nsIDOMElement.h" #include "nsIDOMEvent.h" #include "nsIDOMWindow.h" #include "nsIDOMWindowUtils.h" #include "nsIInterfaceRequestorUtils.h" #include "nsILoadInfo.h" #include "nsIPromptFactory.h" #include "nsIURI.h" #include "nsIWebBrowserChrome.h" #include "nsIWindowCreator2.h" #include "nsIXULBrowserWindow.h" #include "nsIXULWindow.h" #include "nsViewManager.h" #include "nsIWidget.h" #include "nsIWindowWatcher.h" #include "nsPIDOMWindow.h" #include "nsPIWindowWatcher.h" #include "nsPrintfCString.h" #include "nsServiceManagerUtils.h" #include "nsThreadUtils.h" #include "nsWindowWatcher.h" #include "private/pprio.h" #include "PermissionMessageUtils.h" #include "StructuredCloneUtils.h" #include "ColorPickerParent.h" #include "JavaScriptParent.h" #include "FilePickerParent.h" #include "TabChild.h" #include "LoadContext.h" #include "nsNetCID.h" #include "nsIAuthInformation.h" #include "nsIAuthPromptCallback.h" #include "nsAuthInformationHolder.h" #include "nsICancelable.h" #include "gfxPrefs.h" #include using namespace mozilla::dom; using namespace mozilla::ipc; using namespace mozilla::layers; using namespace mozilla::layout; using namespace mozilla::services; using namespace mozilla::widget; using namespace mozilla::dom::indexedDB; using namespace mozilla::jsipc; // The flags passed by the webProgress notifications are 16 bits shifted // from the ones registered by webProgressListeners. #define NOTIFY_FLAG_SHIFT 16 class OpenFileAndSendFDRunnable : public nsRunnable { const nsString mPath; nsRefPtr mTabParent; nsCOMPtr mEventTarget; PRFileDesc* mFD; public: OpenFileAndSendFDRunnable(const nsAString& aPath, TabParent* aTabParent) : mPath(aPath), mTabParent(aTabParent), mFD(nullptr) { MOZ_ASSERT(NS_IsMainThread()); MOZ_ASSERT(!aPath.IsEmpty()); MOZ_ASSERT(aTabParent); } void Dispatch() { MOZ_ASSERT(NS_IsMainThread()); mEventTarget = do_GetService(NS_STREAMTRANSPORTSERVICE_CONTRACTID); NS_ENSURE_TRUE_VOID(mEventTarget); nsresult rv = mEventTarget->Dispatch(this, NS_DISPATCH_NORMAL); NS_ENSURE_SUCCESS_VOID(rv); } private: ~OpenFileAndSendFDRunnable() { MOZ_ASSERT(!mFD); } // This shouldn't be called directly except by the event loop. Use Dispatch // to start the sequence. NS_IMETHOD Run() { if (NS_IsMainThread()) { SendResponse(); } else if (mFD) { CloseFile(); } else { OpenFile(); } return NS_OK; } void SendResponse() { MOZ_ASSERT(NS_IsMainThread()); MOZ_ASSERT(mTabParent); MOZ_ASSERT(mEventTarget); MOZ_ASSERT(mFD); nsRefPtr tabParent; mTabParent.swap(tabParent); using mozilla::ipc::FileDescriptor; FileDescriptor::PlatformHandleType handle = FileDescriptor::PlatformHandleType(PR_FileDesc2NativeHandle(mFD)); mozilla::unused << tabParent->SendCacheFileDescriptor(mPath, FileDescriptor(handle)); nsCOMPtr eventTarget; mEventTarget.swap(eventTarget); if (NS_FAILED(eventTarget->Dispatch(this, NS_DISPATCH_NORMAL))) { NS_WARNING("Failed to dispatch to stream transport service!"); // It's probably safer to take the main thread IO hit here rather // than leak a file descriptor. CloseFile(); } } void OpenFile() { MOZ_ASSERT(!NS_IsMainThread()); MOZ_ASSERT(!mFD); nsCOMPtr file; nsresult rv = NS_NewLocalFile(mPath, false, getter_AddRefs(file)); NS_ENSURE_SUCCESS_VOID(rv); PRFileDesc* fd; rv = file->OpenNSPRFileDesc(PR_RDONLY, 0, &fd); NS_ENSURE_SUCCESS_VOID(rv); mFD = fd; if (NS_FAILED(NS_DispatchToMainThread(this))) { NS_WARNING("Failed to dispatch to main thread!"); CloseFile(); } } void CloseFile() { // It's possible for this to happen on the main thread if the dispatch // to the stream service fails after we've already opened the file so // we can't assert the thread we're running on. MOZ_ASSERT(mFD); PRStatus prrc; prrc = PR_Close(mFD); if (prrc != PR_SUCCESS) { NS_ERROR("PR_Close() failed."); } mFD = nullptr; } }; namespace mozilla { namespace dom { TabParent* sEventCapturer; TabParent *TabParent::mIMETabParent = nullptr; NS_IMPL_ISUPPORTS(TabParent, nsITabParent, nsIAuthPromptProvider, nsISecureBrowserUI, nsISupportsWeakReference) TabParent::TabParent(nsIContentParent* aManager, const TabContext& aContext, uint32_t aChromeFlags) : TabContext(aContext) , mFrameElement(nullptr) , mIMESelectionAnchor(0) , mIMESelectionFocus(0) , mIMEComposing(false) , mIMECompositionEnding(false) , mIMECompositionStart(0) , mIMESeqno(0) , mIMECompositionRectOffset(0) , mEventCaptureDepth(0) , mRect(0, 0, 0, 0) , mDimensions(0, 0) , mOrientation(0) , mDPI(0) , mDefaultScale(0) , mShown(false) , mUpdatedDimensions(false) , mManager(aManager) , mMarkedDestroying(false) , mIsDestroyed(false) , mAppPackageFileDescriptorSent(false) , mChromeFlags(aChromeFlags) { MOZ_ASSERT(aManager); } TabParent::~TabParent() { } void TabParent::SetOwnerElement(Element* aElement) { mFrameElement = aElement; TryCacheDPIAndScale(); } void TabParent::GetAppType(nsAString& aOut) { aOut.Truncate(); nsCOMPtr elem = do_QueryInterface(mFrameElement); if (!elem) { return; } elem->GetAttr(kNameSpaceID_None, nsGkAtoms::mozapptype, aOut); } bool TabParent::IsVisible() { nsRefPtr frameLoader = GetFrameLoader(); if (!frameLoader) { return false; } bool visible = false; frameLoader->GetVisible(&visible); return visible; } void TabParent::Destroy() { if (mIsDestroyed) { return; } // If this fails, it's most likely due to a content-process crash, // and auto-cleanup will kick in. Otherwise, the child side will // destroy itself and send back __delete__(). unused << SendDestroy(); const InfallibleTArray& idbParents = ManagedPIndexedDBParent(); for (uint32_t i = 0; i < idbParents.Length(); ++i) { static_cast(idbParents[i])->Disconnect(); } const InfallibleTArray& ocuParents = ManagedPOfflineCacheUpdateParent(); for (uint32_t i = 0; i < ocuParents.Length(); ++i) { nsRefPtr ocuParent = static_cast(ocuParents[i]); ocuParent->StopSendingMessagesToChild(); } if (RenderFrameParent* frame = GetRenderFrame()) { frame->Destroy(); } mIsDestroyed = true; if (XRE_GetProcessType() == GeckoProcessType_Default) { Manager()->AsContentParent()->NotifyTabDestroying(this); } mMarkedDestroying = true; } bool TabParent::Recv__delete__() { if (XRE_GetProcessType() == GeckoProcessType_Default) { Manager()->AsContentParent()->NotifyTabDestroyed(this, mMarkedDestroying); } return true; } void TabParent::ActorDestroy(ActorDestroyReason why) { if (sEventCapturer == this) { sEventCapturer = nullptr; } if (mIMETabParent == this) { mIMETabParent = nullptr; } nsRefPtr frameLoader = GetFrameLoader(); nsCOMPtr os = services::GetObserverService(); nsRefPtr fmm; if (frameLoader) { fmm = frameLoader->GetFrameMessageManager(); nsCOMPtr frameElement(mFrameElement); ReceiveMessage(CHILD_PROCESS_SHUTDOWN_MESSAGE, false, nullptr, nullptr, nullptr); frameLoader->DestroyChild(); if (why == AbnormalShutdown && os) { os->NotifyObservers(NS_ISUPPORTS_CAST(nsIFrameLoader*, frameLoader), "oop-frameloader-crashed", nullptr); nsContentUtils::DispatchTrustedEvent(frameElement->OwnerDoc(), frameElement, NS_LITERAL_STRING("oop-browser-crashed"), true, true); } } if (os) { os->NotifyObservers(NS_ISUPPORTS_CAST(nsITabParent*, this), "ipc:browser-destroyed", nullptr); } if (fmm) { fmm->Disconnect(); } } bool TabParent::RecvMoveFocus(const bool& aForward) { nsCOMPtr fm = do_GetService(FOCUSMANAGER_CONTRACTID); if (fm) { nsCOMPtr dummy; uint32_t type = aForward ? uint32_t(nsIFocusManager::MOVEFOCUS_FORWARD) : uint32_t(nsIFocusManager::MOVEFOCUS_BACKWARD); nsCOMPtr frame = do_QueryInterface(mFrameElement); fm->MoveFocus(nullptr, frame, type, nsIFocusManager::FLAG_BYKEY, getter_AddRefs(dummy)); } return true; } bool TabParent::RecvEvent(const RemoteDOMEvent& aEvent) { nsCOMPtr event = do_QueryInterface(aEvent.mEvent); NS_ENSURE_TRUE(event, true); nsCOMPtr target = do_QueryInterface(mFrameElement); NS_ENSURE_TRUE(target, true); event->SetOwner(target); bool dummy; target->DispatchEvent(event, &dummy); return true; } bool TabParent::AnswerCreateWindow(const uint32_t& aChromeFlags, const bool& aCalledFromJS, const bool& aPositionSpecified, const bool& aSizeSpecified, const nsString& aURI, const nsString& aName, const nsString& aFeatures, const nsString& aBaseURI, bool* aWindowIsNew, PBrowserParent** aRetVal) { if (IsBrowserOrApp()) { return false; } nsresult rv; nsCOMPtr pwwatch = do_GetService(NS_WINDOWWATCHER_CONTRACTID, &rv); NS_ENSURE_SUCCESS(rv, false); nsCOMPtr frame(do_QueryInterface(mFrameElement)); NS_ENSURE_TRUE(frame, false); nsCOMPtr parent = do_QueryInterface(frame->OwnerDoc()->GetWindow()); NS_ENSURE_TRUE(parent, false); int32_t openLocation = nsWindowWatcher::GetWindowOpenLocation(parent, aChromeFlags, aCalledFromJS, aPositionSpecified, aSizeSpecified); MOZ_ASSERT(openLocation == nsIBrowserDOMWindow::OPEN_NEWTAB || openLocation == nsIBrowserDOMWindow::OPEN_NEWWINDOW); *aWindowIsNew = true; // Opening new tabs is the easy case... if (openLocation == nsIBrowserDOMWindow::OPEN_NEWTAB) { NS_ENSURE_TRUE(mBrowserDOMWindow, false); nsCOMPtr frameLoaderOwner; mBrowserDOMWindow->OpenURIInFrame(nullptr, nullptr, nsIBrowserDOMWindow::OPEN_NEWTAB, nsIBrowserDOMWindow::OPEN_NEW, getter_AddRefs(frameLoaderOwner)); NS_ENSURE_TRUE(frameLoaderOwner, false); nsRefPtr frameLoader = frameLoaderOwner->GetFrameLoader(); NS_ENSURE_TRUE(frameLoader, false); *aRetVal = frameLoader->GetRemoteBrowser(); return true; } // WindowWatcher is going to expect a valid URI to open a window // to. If it can't find one, it's going to attempt to figure one // out on its own, which is problematic because it can't access // the document for the remote browser we're opening. Luckily, // TabChild has sent us a baseURI with which we can ensure that // the URI we pass to WindowWatcher is valid. nsCOMPtr baseURI; rv = NS_NewURI(getter_AddRefs(baseURI), aBaseURI); NS_ENSURE_SUCCESS(rv, false); nsCOMPtr finalURI; rv = NS_NewURI(getter_AddRefs(finalURI), NS_ConvertUTF16toUTF8(aURI).get(), baseURI); NS_ENSURE_SUCCESS(rv, false); nsAutoCString finalURIString; finalURI->GetSpec(finalURIString); nsCOMPtr window; rv = pwwatch->OpenWindow2(parent, finalURIString.get(), NS_ConvertUTF16toUTF8(aName).get(), NS_ConvertUTF16toUTF8(aFeatures).get(), aCalledFromJS, false, false, this, nullptr, getter_AddRefs(window)); NS_ENSURE_SUCCESS(rv, false); nsCOMPtr pwindow = do_QueryInterface(window); NS_ENSURE_TRUE(pwindow, false); nsRefPtr newDocShell = pwindow->GetDocShell(); NS_ENSURE_TRUE(newDocShell, false); nsCOMPtr newRemoteTab = newDocShell->GetOpenedRemote(); NS_ENSURE_TRUE(newRemoteTab, false); *aRetVal = static_cast(newRemoteTab.get()); return true; } void TabParent::LoadURL(nsIURI* aURI) { MOZ_ASSERT(aURI); if (mIsDestroyed) { return; } nsCString spec; aURI->GetSpec(spec); if (!mShown) { NS_WARNING(nsPrintfCString("TabParent::LoadURL(%s) called before " "Show(). Ignoring LoadURL.\n", spec.get()).get()); return; } unused << SendLoadURL(spec); // If this app is a packaged app then we can speed startup by sending over // the file descriptor for the "application.zip" file that it will // invariably request. Only do this once. if (!mAppPackageFileDescriptorSent) { mAppPackageFileDescriptorSent = true; nsCOMPtr app = GetOwnOrContainingApp(); if (app) { nsString manifestURL; nsresult rv = app->GetManifestURL(manifestURL); NS_ENSURE_SUCCESS_VOID(rv); if (StringBeginsWith(manifestURL, NS_LITERAL_STRING("app:"))) { nsString basePath; rv = app->GetBasePath(basePath); NS_ENSURE_SUCCESS_VOID(rv); nsString appId; rv = app->GetId(appId); NS_ENSURE_SUCCESS_VOID(rv); nsCOMPtr packageFile; rv = NS_NewLocalFile(basePath, false, getter_AddRefs(packageFile)); NS_ENSURE_SUCCESS_VOID(rv); rv = packageFile->Append(appId); NS_ENSURE_SUCCESS_VOID(rv); rv = packageFile->Append(NS_LITERAL_STRING("application.zip")); NS_ENSURE_SUCCESS_VOID(rv); nsString path; rv = packageFile->GetPath(path); NS_ENSURE_SUCCESS_VOID(rv); nsRefPtr openFileRunnable = new OpenFileAndSendFDRunnable(path, this); openFileRunnable->Dispatch(); } } } } void TabParent::Show(const nsIntSize& size) { // sigh mShown = true; mDimensions = size; if (!mIsDestroyed) { unused << SendShow(size); } } void TabParent::UpdateDimensions(const nsRect& rect, const nsIntSize& size) { if (mIsDestroyed) { return; } hal::ScreenConfiguration config; hal::GetCurrentScreenConfiguration(&config); ScreenOrientation orientation = config.orientation(); if (!mUpdatedDimensions || mOrientation != orientation || mDimensions != size || !mRect.IsEqualEdges(rect)) { mUpdatedDimensions = true; mRect = rect; mDimensions = size; mOrientation = orientation; unused << SendUpdateDimensions(mRect, mDimensions, mOrientation); } } void TabParent::UpdateFrame(const FrameMetrics& aFrameMetrics) { if (!mIsDestroyed) { unused << SendUpdateFrame(aFrameMetrics); } } void TabParent::UIResolutionChanged() { if (!mIsDestroyed) { // TryCacheDPIAndScale()'s cache is keyed off of // mDPI being greater than 0, so this invalidates it. mDPI = -1; unused << SendUIResolutionChanged(); } } void TabParent::AcknowledgeScrollUpdate(const ViewID& aScrollId, const uint32_t& aScrollGeneration) { if (!mIsDestroyed) { unused << SendAcknowledgeScrollUpdate(aScrollId, aScrollGeneration); } } void TabParent::HandleDoubleTap(const CSSPoint& aPoint, int32_t aModifiers, const ScrollableLayerGuid &aGuid) { if (!mIsDestroyed) { unused << SendHandleDoubleTap(aPoint, aGuid); } } void TabParent::HandleSingleTap(const CSSPoint& aPoint, int32_t aModifiers, const ScrollableLayerGuid &aGuid) { // TODO Send the modifier data to TabChild for use in mouse events. if (!mIsDestroyed) { unused << SendHandleSingleTap(aPoint, aGuid); } } void TabParent::HandleLongTap(const CSSPoint& aPoint, int32_t aModifiers, const ScrollableLayerGuid &aGuid) { if (!mIsDestroyed) { unused << SendHandleLongTap(aPoint, aGuid); } } void TabParent::HandleLongTapUp(const CSSPoint& aPoint, int32_t aModifiers, const ScrollableLayerGuid &aGuid) { if (!mIsDestroyed) { unused << SendHandleLongTapUp(aPoint, aGuid); } } void TabParent::NotifyAPZStateChange(ViewID aViewId, APZStateChange aChange, int aArg) { if (!mIsDestroyed) { unused << SendNotifyAPZStateChange(aViewId, aChange, aArg); } } void TabParent::Activate() { if (!mIsDestroyed) { unused << SendActivate(); } } void TabParent::Deactivate() { if (!mIsDestroyed) { unused << SendDeactivate(); } } NS_IMETHODIMP TabParent::Init(nsIDOMWindow *window) { return NS_OK; } NS_IMETHODIMP TabParent::GetState(uint32_t *aState) { NS_ENSURE_ARG(aState); NS_WARNING("SecurityState not valid here"); *aState = 0; return NS_OK; } NS_IMETHODIMP TabParent::SetDocShell(nsIDocShell *aDocShell) { NS_ENSURE_ARG(aDocShell); NS_WARNING("No mDocShell member in TabParent so there is no docShell to set"); return NS_OK; } PDocumentRendererParent* TabParent::AllocPDocumentRendererParent(const nsRect& documentRect, const gfx::Matrix& transform, const nsString& bgcolor, const uint32_t& renderFlags, const bool& flushLayout, const nsIntSize& renderSize) { return new DocumentRendererParent(); } bool TabParent::DeallocPDocumentRendererParent(PDocumentRendererParent* actor) { delete actor; return true; } PContentPermissionRequestParent* TabParent::AllocPContentPermissionRequestParent(const InfallibleTArray& aRequests, const IPC::Principal& aPrincipal) { return CreateContentPermissionRequestParent(aRequests, mFrameElement, aPrincipal); } bool TabParent::DeallocPContentPermissionRequestParent(PContentPermissionRequestParent* actor) { delete actor; return true; } PFilePickerParent* TabParent::AllocPFilePickerParent(const nsString& aTitle, const int16_t& aMode) { return new FilePickerParent(aTitle, aMode); } bool TabParent::DeallocPFilePickerParent(PFilePickerParent* actor) { delete actor; return true; } void TabParent::SendMouseEvent(const nsAString& aType, float aX, float aY, int32_t aButton, int32_t aClickCount, int32_t aModifiers, bool aIgnoreRootScrollFrame) { if (!mIsDestroyed) { unused << PBrowserParent::SendMouseEvent(nsString(aType), aX, aY, aButton, aClickCount, aModifiers, aIgnoreRootScrollFrame); } } void TabParent::SendKeyEvent(const nsAString& aType, int32_t aKeyCode, int32_t aCharCode, int32_t aModifiers, bool aPreventDefault) { if (!mIsDestroyed) { unused << PBrowserParent::SendKeyEvent(nsString(aType), aKeyCode, aCharCode, aModifiers, aPreventDefault); } } bool TabParent::MapEventCoordinatesForChildProcess(WidgetEvent* aEvent) { nsRefPtr frameLoader = GetFrameLoader(); if (!frameLoader) { return false; } LayoutDeviceIntPoint offset = EventStateManager::GetChildProcessOffset(frameLoader, *aEvent); MapEventCoordinatesForChildProcess(offset, aEvent); return true; } void TabParent::MapEventCoordinatesForChildProcess( const LayoutDeviceIntPoint& aOffset, WidgetEvent* aEvent) { if (aEvent->eventStructType != NS_TOUCH_EVENT) { aEvent->refPoint = aOffset; } else { aEvent->refPoint = LayoutDeviceIntPoint(); // Then offset all the touch points by that distance, to put them // in the space where top-left is 0,0. const WidgetTouchEvent::TouchArray& touches = aEvent->AsTouchEvent()->touches; for (uint32_t i = 0; i < touches.Length(); ++i) { Touch* touch = touches[i]; if (touch) { touch->mRefPoint += LayoutDeviceIntPoint::ToUntyped(aOffset); } } } } bool TabParent::SendRealMouseEvent(WidgetMouseEvent& event) { if (mIsDestroyed) { return false; } nsEventStatus status = MaybeForwardEventToRenderFrame(event, nullptr); if (status == nsEventStatus_eConsumeNoDefault || !MapEventCoordinatesForChildProcess(&event)) { return false; } return PBrowserParent::SendRealMouseEvent(event); } CSSPoint TabParent::AdjustTapToChildWidget(const CSSPoint& aPoint) { nsCOMPtr content = do_QueryInterface(mFrameElement); if (!content || !content->OwnerDoc()) { return aPoint; } nsIDocument* doc = content->OwnerDoc(); if (!doc || !doc->GetShell()) { return aPoint; } nsPresContext* presContext = doc->GetShell()->GetPresContext(); return aPoint + CSSPoint( presContext->DevPixelsToFloatCSSPixels(mChildProcessOffsetAtTouchStart.x), presContext->DevPixelsToFloatCSSPixels(mChildProcessOffsetAtTouchStart.y)); } bool TabParent::SendHandleSingleTap(const CSSPoint& aPoint, const ScrollableLayerGuid& aGuid) { if (mIsDestroyed) { return false; } return PBrowserParent::SendHandleSingleTap(AdjustTapToChildWidget(aPoint), aGuid); } bool TabParent::SendHandleLongTap(const CSSPoint& aPoint, const ScrollableLayerGuid& aGuid) { if (mIsDestroyed) { return false; } return PBrowserParent::SendHandleLongTap(AdjustTapToChildWidget(aPoint), aGuid); } bool TabParent::SendHandleLongTapUp(const CSSPoint& aPoint, const ScrollableLayerGuid& aGuid) { if (mIsDestroyed) { return false; } return PBrowserParent::SendHandleLongTapUp(AdjustTapToChildWidget(aPoint), aGuid); } bool TabParent::SendHandleDoubleTap(const CSSPoint& aPoint, const ScrollableLayerGuid& aGuid) { if (mIsDestroyed) { return false; } return PBrowserParent::SendHandleDoubleTap(AdjustTapToChildWidget(aPoint), aGuid); } bool TabParent::SendMouseWheelEvent(WidgetWheelEvent& event) { if (mIsDestroyed) { return false; } nsEventStatus status = MaybeForwardEventToRenderFrame(event, nullptr); if (status == nsEventStatus_eConsumeNoDefault || !MapEventCoordinatesForChildProcess(&event)) { return false; } return PBrowserParent::SendMouseWheelEvent(event); } static void DoCommandCallback(mozilla::Command aCommand, void* aData) { static_cast*>(aData)->AppendElement(aCommand); } bool TabParent::RecvRequestNativeKeyBindings(const WidgetKeyboardEvent& aEvent, MaybeNativeKeyBinding* aBindings) { AutoInfallibleTArray singleLine; AutoInfallibleTArray multiLine; AutoInfallibleTArray richText; *aBindings = mozilla::void_t(); nsCOMPtr widget = GetWidget(); if (!widget) { return true; } WidgetKeyboardEvent localEvent(aEvent); if (NS_FAILED(widget->AttachNativeKeyEvent(localEvent))) { return true; } widget->ExecuteNativeKeyBinding(nsIWidget::NativeKeyBindingsForSingleLineEditor, localEvent, DoCommandCallback, &singleLine); widget->ExecuteNativeKeyBinding(nsIWidget::NativeKeyBindingsForMultiLineEditor, localEvent, DoCommandCallback, &multiLine); widget->ExecuteNativeKeyBinding(nsIWidget::NativeKeyBindingsForRichTextEditor, localEvent, DoCommandCallback, &richText); if (!singleLine.IsEmpty() || !multiLine.IsEmpty() || !richText.IsEmpty()) { *aBindings = NativeKeyBinding(singleLine, multiLine, richText); } return true; } bool TabParent::SendRealKeyEvent(WidgetKeyboardEvent& event) { if (mIsDestroyed) { return false; } MaybeForwardEventToRenderFrame(event, nullptr); if (!MapEventCoordinatesForChildProcess(&event)) { return false; } MaybeNativeKeyBinding bindings; bindings = void_t(); if (event.message == NS_KEY_PRESS) { nsCOMPtr widget = GetWidget(); AutoInfallibleTArray singleLine; AutoInfallibleTArray multiLine; AutoInfallibleTArray richText; widget->ExecuteNativeKeyBinding(nsIWidget::NativeKeyBindingsForSingleLineEditor, event, DoCommandCallback, &singleLine); widget->ExecuteNativeKeyBinding(nsIWidget::NativeKeyBindingsForMultiLineEditor, event, DoCommandCallback, &multiLine); widget->ExecuteNativeKeyBinding(nsIWidget::NativeKeyBindingsForRichTextEditor, event, DoCommandCallback, &richText); if (!singleLine.IsEmpty() || !multiLine.IsEmpty() || !richText.IsEmpty()) { bindings = NativeKeyBinding(singleLine, multiLine, richText); } } return PBrowserParent::SendRealKeyEvent(event, bindings); } bool TabParent::SendRealTouchEvent(WidgetTouchEvent& event) { if (mIsDestroyed) { return false; } if (event.message == NS_TOUCH_START) { // Adjust the widget coordinates to be relative to our frame. nsRefPtr frameLoader = GetFrameLoader(); if (!frameLoader) { // No frame anymore? sEventCapturer = nullptr; return false; } mChildProcessOffsetAtTouchStart = EventStateManager::GetChildProcessOffset(frameLoader, event); MOZ_ASSERT((!sEventCapturer && mEventCaptureDepth == 0) || (sEventCapturer == this && mEventCaptureDepth > 0)); // We want to capture all remaining touch events in this series // for fast-path dispatch. sEventCapturer = this; ++mEventCaptureDepth; } // PresShell::HandleEventInternal adds touches on touch end/cancel. This // confuses remote content and the panning and zooming logic into thinking // that the added touches are part of the touchend/cancel, when actually // they're not. if (event.message == NS_TOUCH_END || event.message == NS_TOUCH_CANCEL) { for (int i = event.touches.Length() - 1; i >= 0; i--) { if (!event.touches[i]->mChanged) { event.touches.RemoveElementAt(i); } } } ScrollableLayerGuid guid; nsEventStatus status = MaybeForwardEventToRenderFrame(event, &guid); if (status == nsEventStatus_eConsumeNoDefault || mIsDestroyed) { return false; } MapEventCoordinatesForChildProcess(mChildProcessOffsetAtTouchStart, &event); return (event.message == NS_TOUCH_MOVE) ? PBrowserParent::SendRealTouchMoveEvent(event, guid) : PBrowserParent::SendRealTouchEvent(event, guid); } /*static*/ TabParent* TabParent::GetEventCapturer() { return sEventCapturer; } bool TabParent::TryCapture(const WidgetGUIEvent& aEvent) { MOZ_ASSERT(sEventCapturer == this && mEventCaptureDepth > 0); if (aEvent.eventStructType != NS_TOUCH_EVENT) { // Only capture of touch events is implemented, for now. return false; } WidgetTouchEvent event(*aEvent.AsTouchEvent()); bool isTouchPointUp = (event.message == NS_TOUCH_END || event.message == NS_TOUCH_CANCEL); if (event.message == NS_TOUCH_START || isTouchPointUp) { // Let the DOM see touch start/end events so that its touch-point // state stays consistent. if (isTouchPointUp && 0 == --mEventCaptureDepth) { // All event series are un-captured, don't try to catch any // more. sEventCapturer = nullptr; } return false; } SendRealTouchEvent(event); return true; } bool TabParent::RecvSyncMessage(const nsString& aMessage, const ClonedMessageData& aData, const InfallibleTArray& aCpows, const IPC::Principal& aPrincipal, InfallibleTArray* aJSONRetVal) { // FIXME Permission check for TabParent in Content process nsIPrincipal* principal = aPrincipal; if (Manager()->IsContentParent()) { ContentParent* parent = Manager()->AsContentParent(); if (!ContentParent::IgnoreIPCPrincipal() && parent && principal && !AssertAppPrincipal(parent, principal)) { return false; } } StructuredCloneData cloneData = ipc::UnpackClonedMessageDataForParent(aData); CpowIdHolder cpows(Manager()->GetCPOWManager(), aCpows); return ReceiveMessage(aMessage, true, &cloneData, &cpows, aPrincipal, aJSONRetVal); } bool TabParent::AnswerRpcMessage(const nsString& aMessage, const ClonedMessageData& aData, const InfallibleTArray& aCpows, const IPC::Principal& aPrincipal, InfallibleTArray* aJSONRetVal) { // FIXME Permission check for TabParent in Content process nsIPrincipal* principal = aPrincipal; if (Manager()->IsContentParent()) { ContentParent* parent = Manager()->AsContentParent(); if (!ContentParent::IgnoreIPCPrincipal() && parent && principal && !AssertAppPrincipal(parent, principal)) { return false; } } StructuredCloneData cloneData = ipc::UnpackClonedMessageDataForParent(aData); CpowIdHolder cpows(Manager()->GetCPOWManager(), aCpows); return ReceiveMessage(aMessage, true, &cloneData, &cpows, aPrincipal, aJSONRetVal); } bool TabParent::RecvAsyncMessage(const nsString& aMessage, const ClonedMessageData& aData, const InfallibleTArray& aCpows, const IPC::Principal& aPrincipal) { // FIXME Permission check for TabParent in Content process nsIPrincipal* principal = aPrincipal; if (Manager()->IsContentParent()) { ContentParent* parent = Manager()->AsContentParent(); if (!ContentParent::IgnoreIPCPrincipal() && parent && principal && !AssertAppPrincipal(parent, principal)) { return false; } } StructuredCloneData cloneData = ipc::UnpackClonedMessageDataForParent(aData); CpowIdHolder cpows(Manager()->GetCPOWManager(), aCpows); return ReceiveMessage(aMessage, false, &cloneData, &cpows, aPrincipal, nullptr); } bool TabParent::RecvSetCursor(const uint32_t& aCursor, const bool& aForce) { nsCOMPtr widget = GetWidget(); if (widget) { if (aForce) { widget->ClearCachedCursor(); } widget->SetCursor((nsCursor) aCursor); } return true; } bool TabParent::RecvSetBackgroundColor(const nscolor& aColor) { if (RenderFrameParent* frame = GetRenderFrame()) { frame->SetBackgroundColor(aColor); } return true; } nsIXULBrowserWindow* TabParent::GetXULBrowserWindow() { nsCOMPtr frame = do_QueryInterface(mFrameElement); if (!frame) { return nullptr; } nsCOMPtr docShell = frame->OwnerDoc()->GetDocShell(); if (!docShell) { return nullptr; } nsCOMPtr treeOwner; docShell->GetTreeOwner(getter_AddRefs(treeOwner)); if (!treeOwner) { return nullptr; } nsCOMPtr window = do_GetInterface(treeOwner); if (!window) { return nullptr; } nsCOMPtr xulBrowserWindow; window->GetXULBrowserWindow(getter_AddRefs(xulBrowserWindow)); return xulBrowserWindow; } bool TabParent::RecvSetStatus(const uint32_t& aType, const nsString& aStatus) { nsCOMPtr xulBrowserWindow = GetXULBrowserWindow(); if (!xulBrowserWindow) { return true; } switch (aType) { case nsIWebBrowserChrome::STATUS_SCRIPT: xulBrowserWindow->SetJSStatus(aStatus); break; case nsIWebBrowserChrome::STATUS_LINK: xulBrowserWindow->SetOverLink(aStatus, nullptr); break; } return true; } bool TabParent::RecvShowTooltip(const uint32_t& aX, const uint32_t& aY, const nsString& aTooltip) { nsCOMPtr xulBrowserWindow = GetXULBrowserWindow(); if (!xulBrowserWindow) { return true; } xulBrowserWindow->ShowTooltip(aX, aY, aTooltip); return true; } bool TabParent::RecvHideTooltip() { nsCOMPtr xulBrowserWindow = GetXULBrowserWindow(); if (!xulBrowserWindow) { return true; } xulBrowserWindow->HideTooltip(); return true; } bool TabParent::RecvNotifyIMEFocus(const bool& aFocus, nsIMEUpdatePreference* aPreference, uint32_t* aSeqno) { nsCOMPtr widget = GetWidget(); if (!widget) { *aPreference = nsIMEUpdatePreference(); return true; } *aSeqno = mIMESeqno; mIMETabParent = aFocus ? this : nullptr; mIMESelectionAnchor = 0; mIMESelectionFocus = 0; widget->NotifyIME(IMENotification(aFocus ? NOTIFY_IME_OF_FOCUS : NOTIFY_IME_OF_BLUR)); if (aFocus) { *aPreference = widget->GetIMEUpdatePreference(); } else { mIMECacheText.Truncate(0); } return true; } bool TabParent::RecvNotifyIMETextChange(const uint32_t& aStart, const uint32_t& aEnd, const uint32_t& aNewEnd, const bool& aCausedByComposition) { nsCOMPtr widget = GetWidget(); if (!widget) return true; #ifdef DEBUG nsIMEUpdatePreference updatePreference = widget->GetIMEUpdatePreference(); NS_ASSERTION(updatePreference.WantTextChange(), "Don't call Send/RecvNotifyIMETextChange without NOTIFY_TEXT_CHANGE"); MOZ_ASSERT(!aCausedByComposition || updatePreference.WantChangesCausedByComposition(), "The widget doesn't want text change notification caused by composition"); #endif IMENotification notification(NOTIFY_IME_OF_TEXT_CHANGE); notification.mTextChangeData.mStartOffset = aStart; notification.mTextChangeData.mOldEndOffset = aEnd; notification.mTextChangeData.mNewEndOffset = aNewEnd; notification.mTextChangeData.mCausedByComposition = aCausedByComposition; widget->NotifyIME(notification); return true; } bool TabParent::RecvNotifyIMESelectedCompositionRect(const uint32_t& aOffset, const nsIntRect& aRect, const nsIntRect& aCaretRect) { // add rect to cache for another query mIMECompositionRectOffset = aOffset; mIMECompositionRect = aRect; mIMECaretRect = aCaretRect; nsCOMPtr widget = GetWidget(); if (!widget) { return true; } widget->NotifyIME(IMENotification(NOTIFY_IME_OF_COMPOSITION_UPDATE)); return true; } bool TabParent::RecvNotifyIMESelection(const uint32_t& aSeqno, const uint32_t& aAnchor, const uint32_t& aFocus, const bool& aCausedByComposition) { nsCOMPtr widget = GetWidget(); if (!widget) return true; if (aSeqno == mIMESeqno) { mIMESelectionAnchor = aAnchor; mIMESelectionFocus = aFocus; const nsIMEUpdatePreference updatePreference = widget->GetIMEUpdatePreference(); if (updatePreference.WantSelectionChange() && (updatePreference.WantChangesCausedByComposition() || !aCausedByComposition)) { IMENotification notification(NOTIFY_IME_OF_SELECTION_CHANGE); notification.mSelectionChangeData.mCausedByComposition = aCausedByComposition; widget->NotifyIME(notification); } } return true; } bool TabParent::RecvNotifyIMETextHint(const nsString& aText) { // Replace our cache with new text mIMECacheText = aText; return true; } bool TabParent::RecvRequestFocus(const bool& aCanRaise) { nsCOMPtr fm = nsFocusManager::GetFocusManager(); if (!fm) { return true; } nsCOMPtr content = do_QueryInterface(mFrameElement); if (!content || !content->OwnerDoc()) { return true; } uint32_t flags = nsIFocusManager::FLAG_NOSCROLL; if (aCanRaise) flags |= nsIFocusManager::FLAG_RAISE; nsCOMPtr node = do_QueryInterface(mFrameElement); fm->SetFocus(node, flags); return true; } nsIntPoint TabParent::GetChildProcessOffset() { // The "toplevel widget" in child processes is always at position // 0,0. Map the event coordinates to match that. nsIntPoint offset(0, 0); nsRefPtr frameLoader = GetFrameLoader(); if (!frameLoader) { return offset; } nsIFrame* targetFrame = frameLoader->GetPrimaryFrameOfOwningContent(); if (!targetFrame) { return offset; } // Find out how far we're offset from the nearest widget. nsCOMPtr widget = GetWidget(); if (!widget) { return offset; } nsPoint pt = nsLayoutUtils::GetEventCoordinatesRelativeTo(widget, nsIntPoint(0, 0), targetFrame); return LayoutDeviceIntPoint::ToUntyped(LayoutDeviceIntPoint::FromAppUnitsToNearest( pt, targetFrame->PresContext()->AppUnitsPerDevPixel())); } bool TabParent::RecvReplyKeyEvent(const WidgetKeyboardEvent& event) { NS_ENSURE_TRUE(mFrameElement, true); WidgetKeyboardEvent localEvent(event); // Set mNoCrossProcessBoundaryForwarding to avoid this event from // being infinitely redispatched and forwarded to the child again. localEvent.mFlags.mNoCrossProcessBoundaryForwarding = true; // Here we convert the WidgetEvent that we received to an nsIDOMEvent // to be able to dispatch it to the element as the target element. nsIDocument* doc = mFrameElement->OwnerDoc(); nsIPresShell* presShell = doc->GetShell(); NS_ENSURE_TRUE(presShell, true); nsPresContext* presContext = presShell->GetPresContext(); NS_ENSURE_TRUE(presContext, true); EventDispatcher::Dispatch(mFrameElement, presContext, &localEvent); return true; } /** * Try to answer query event using cached text. * * For NS_QUERY_SELECTED_TEXT, fail if the cache doesn't contain the whole * selected range. (This shouldn't happen because PuppetWidget should have * already sent the whole selection.) * * For NS_QUERY_TEXT_CONTENT, fail only if the cache doesn't overlap with * the queried range. Note the difference from above. We use * this behavior because a normal NS_QUERY_TEXT_CONTENT event is allowed to * have out-of-bounds offsets, so that widget can request content without * knowing the exact length of text. It's up to widget to handle cases when * the returned offset/length are different from the queried offset/length. * * For NS_QUERY_TEXT_RECT, fail if cached offset/length aren't equals to input. * Cocoa widget always queries selected offset, so it works on it. * * For NS_QUERY_CARET_RECT, fail if cached offset isn't equals to input */ bool TabParent::HandleQueryContentEvent(WidgetQueryContentEvent& aEvent) { aEvent.mSucceeded = false; aEvent.mWasAsync = false; aEvent.mReply.mFocusedWidget = nsCOMPtr(GetWidget()).get(); switch (aEvent.message) { case NS_QUERY_SELECTED_TEXT: { aEvent.mReply.mOffset = std::min(mIMESelectionAnchor, mIMESelectionFocus); if (mIMESelectionAnchor == mIMESelectionFocus) { aEvent.mReply.mString.Truncate(0); } else { if (mIMESelectionAnchor > mIMECacheText.Length() || mIMESelectionFocus > mIMECacheText.Length()) { break; } uint32_t selLen = mIMESelectionAnchor > mIMESelectionFocus ? mIMESelectionAnchor - mIMESelectionFocus : mIMESelectionFocus - mIMESelectionAnchor; aEvent.mReply.mString = Substring(mIMECacheText, aEvent.mReply.mOffset, selLen); } aEvent.mReply.mReversed = mIMESelectionFocus < mIMESelectionAnchor; aEvent.mReply.mHasSelection = true; aEvent.mSucceeded = true; } break; case NS_QUERY_TEXT_CONTENT: { uint32_t inputOffset = aEvent.mInput.mOffset, inputEnd = inputOffset + aEvent.mInput.mLength; if (inputEnd > mIMECacheText.Length()) { inputEnd = mIMECacheText.Length(); } if (inputEnd < inputOffset) { break; } aEvent.mReply.mOffset = inputOffset; aEvent.mReply.mString = Substring(mIMECacheText, inputOffset, inputEnd - inputOffset); aEvent.mSucceeded = true; } break; case NS_QUERY_TEXT_RECT: { if (aEvent.mInput.mOffset != mIMECompositionRectOffset || aEvent.mInput.mLength != 1) { break; } aEvent.mReply.mOffset = mIMECompositionRectOffset; aEvent.mReply.mRect = mIMECompositionRect - GetChildProcessOffset(); aEvent.mSucceeded = true; } break; case NS_QUERY_CARET_RECT: { if (aEvent.mInput.mOffset != mIMECompositionRectOffset) { break; } aEvent.mReply.mOffset = mIMECompositionRectOffset; aEvent.mReply.mRect = mIMECaretRect - GetChildProcessOffset(); aEvent.mSucceeded = true; } break; } return true; } bool TabParent::SendCompositionEvent(WidgetCompositionEvent& event) { if (mIsDestroyed) { return false; } mIMEComposing = event.message != NS_COMPOSITION_END; mIMECompositionStart = std::min(mIMESelectionAnchor, mIMESelectionFocus); if (mIMECompositionEnding) return true; event.mSeqno = ++mIMESeqno; return PBrowserParent::SendCompositionEvent(event); } /** * During REQUEST_TO_COMMIT_COMPOSITION or REQUEST_TO_CANCEL_COMPOSITION, * widget usually sends a NS_TEXT_TEXT event to finalize or clear the * composition, respectively * * Because the event will not reach content in time, we intercept it * here and pass the text as the EndIMEComposition return value */ bool TabParent::SendTextEvent(WidgetTextEvent& event) { if (mIsDestroyed) { return false; } if (mIMECompositionEnding) { mIMECompositionText = event.theText; return true; } // We must be able to simulate the selection because // we might not receive selection updates in time if (!mIMEComposing) { mIMECompositionStart = std::min(mIMESelectionAnchor, mIMESelectionFocus); } mIMESelectionAnchor = mIMESelectionFocus = mIMECompositionStart + event.theText.Length(); event.mSeqno = ++mIMESeqno; return PBrowserParent::SendTextEvent(event); } bool TabParent::SendSelectionEvent(WidgetSelectionEvent& event) { if (mIsDestroyed) { return false; } mIMESelectionAnchor = event.mOffset + (event.mReversed ? event.mLength : 0); mIMESelectionFocus = event.mOffset + (!event.mReversed ? event.mLength : 0); event.mSeqno = ++mIMESeqno; return PBrowserParent::SendSelectionEvent(event); } /*static*/ TabParent* TabParent::GetFrom(nsFrameLoader* aFrameLoader) { if (!aFrameLoader) { return nullptr; } PBrowserParent* remoteBrowser = aFrameLoader->GetRemoteBrowser(); return static_cast(remoteBrowser); } /*static*/ TabParent* TabParent::GetFrom(nsIContent* aContent) { nsCOMPtr loaderOwner = do_QueryInterface(aContent); if (!loaderOwner) { return nullptr; } nsRefPtr frameLoader = loaderOwner->GetFrameLoader(); return GetFrom(frameLoader); } RenderFrameParent* TabParent::GetRenderFrame() { if (ManagedPRenderFrameParent().IsEmpty()) { return nullptr; } return static_cast(ManagedPRenderFrameParent()[0]); } bool TabParent::RecvEndIMEComposition(const bool& aCancel, nsString* aComposition) { nsCOMPtr widget = GetWidget(); if (!widget) return true; mIMECompositionEnding = true; widget->NotifyIME(IMENotification(aCancel ? REQUEST_TO_CANCEL_COMPOSITION : REQUEST_TO_COMMIT_COMPOSITION)); mIMECompositionEnding = false; *aComposition = mIMECompositionText; mIMECompositionText.Truncate(0); return true; } bool TabParent::RecvGetInputContext(int32_t* aIMEEnabled, int32_t* aIMEOpen, intptr_t* aNativeIMEContext) { nsCOMPtr widget = GetWidget(); if (!widget) { *aIMEEnabled = IMEState::DISABLED; *aIMEOpen = IMEState::OPEN_STATE_NOT_SUPPORTED; *aNativeIMEContext = 0; return true; } InputContext context = widget->GetInputContext(); *aIMEEnabled = static_cast(context.mIMEState.mEnabled); *aIMEOpen = static_cast(context.mIMEState.mOpen); *aNativeIMEContext = reinterpret_cast(context.mNativeIMEContext); return true; } bool TabParent::RecvSetInputContext(const int32_t& aIMEEnabled, const int32_t& aIMEOpen, const nsString& aType, const nsString& aInputmode, const nsString& aActionHint, const int32_t& aCause, const int32_t& aFocusChange) { // mIMETabParent (which is actually static) tracks which if any TabParent has IMEFocus // When the input mode is set to anything but IMEState::DISABLED, // mIMETabParent should be set to this mIMETabParent = aIMEEnabled != static_cast(IMEState::DISABLED) ? this : nullptr; nsCOMPtr widget = GetWidget(); if (!widget || !AllowContentIME()) return true; InputContext context; context.mIMEState.mEnabled = static_cast(aIMEEnabled); context.mIMEState.mOpen = static_cast(aIMEOpen); context.mHTMLInputType.Assign(aType); context.mHTMLInputInputmode.Assign(aInputmode); context.mActionHint.Assign(aActionHint); InputContextAction action( static_cast(aCause), static_cast(aFocusChange)); widget->SetInputContext(context, action); nsCOMPtr observerService = mozilla::services::GetObserverService(); if (!observerService) return true; nsAutoString state; state.AppendInt(aIMEEnabled); observerService->NotifyObservers(nullptr, "ime-enabled-state-changed", state.get()); return true; } bool TabParent::RecvIsParentWindowMainWidgetVisible(bool* aIsVisible) { nsCOMPtr frame = do_QueryInterface(mFrameElement); if (!frame) return true; nsCOMPtr windowUtils = do_QueryInterface(frame->OwnerDoc()->GetWindow()); nsresult rv = windowUtils->GetIsParentWindowMainWidgetVisible(aIsVisible); return NS_SUCCEEDED(rv); } bool TabParent::RecvGetDPI(float* aValue) { TryCacheDPIAndScale(); NS_ABORT_IF_FALSE(mDPI > 0, "Must not ask for DPI before OwnerElement is received!"); *aValue = mDPI; return true; } bool TabParent::RecvGetDefaultScale(double* aValue) { TryCacheDPIAndScale(); NS_ABORT_IF_FALSE(mDefaultScale.scale > 0, "Must not ask for scale before OwnerElement is received!"); *aValue = mDefaultScale.scale; return true; } bool TabParent::RecvGetWidgetNativeData(WindowsHandle* aValue) { nsCOMPtr content = do_QueryInterface(mFrameElement); if (content) { nsIPresShell* shell = content->OwnerDoc()->GetShell(); if (shell) { nsViewManager* vm = shell->GetViewManager(); nsCOMPtr widget; vm->GetRootWidget(getter_AddRefs(widget)); if (widget) { *aValue = reinterpret_cast( widget->GetNativeData(NS_NATIVE_SHAREABLE_WINDOW)); return true; } } } return false; } bool TabParent::ReceiveMessage(const nsString& aMessage, bool aSync, const StructuredCloneData* aCloneData, CpowHolder* aCpows, nsIPrincipal* aPrincipal, InfallibleTArray* aJSONRetVal) { nsRefPtr frameLoader = GetFrameLoader(); if (frameLoader && frameLoader->GetFrameMessageManager()) { nsRefPtr manager = frameLoader->GetFrameMessageManager(); manager->ReceiveMessage(mFrameElement, aMessage, aSync, aCloneData, aCpows, aPrincipal, aJSONRetVal); } return true; } PIndexedDBParent* TabParent::AllocPIndexedDBParent( const nsCString& aGroup, const nsCString& aASCIIOrigin, bool* /* aAllowed */) { return new IndexedDBParent(this); } bool TabParent::DeallocPIndexedDBParent(PIndexedDBParent* aActor) { delete aActor; return true; } bool TabParent::RecvPIndexedDBConstructor(PIndexedDBParent* aActor, const nsCString& aGroup, const nsCString& aASCIIOrigin, bool* aAllowed) { nsRefPtr mgr = IndexedDatabaseManager::GetOrCreate(); NS_ENSURE_TRUE(mgr, false); if (!IndexedDatabaseManager::IsMainProcess()) { NS_RUNTIMEABORT("Not supported yet!"); } nsresult rv; // XXXbent Need to make sure we have a whitelist for chrome databases! // Verify that the child is requesting to access a database it's allowed to // see. (aASCIIOrigin here specifies a TabContext + a website origin, and // we're checking that the TabContext may access it.) // // We have to check IsBrowserOrApp() because TabContextMayAccessOrigin will // fail if we're not a browser-or-app, since aASCIIOrigin will be a plain URI, // but TabContextMayAccessOrigin will construct an extended origin using // app-id 0. Note that as written below, we allow a non browser-or-app child // to read any database. That's a security hole, but we don't ship a // configuration which creates non browser-or-app children, so it's not a big // deal. if (!aASCIIOrigin.EqualsLiteral("chrome") && IsBrowserOrApp() && !IndexedDatabaseManager::TabContextMayAccessOrigin(*this, aASCIIOrigin)) { NS_WARNING("App attempted to open databases that it does not have " "permission to access!"); return false; } nsCOMPtr node = do_QueryInterface(GetOwnerElement()); NS_ENSURE_TRUE(node, false); nsIDocument* doc = node->GetOwnerDocument(); NS_ENSURE_TRUE(doc, false); nsCOMPtr window = doc->GetInnerWindow(); NS_ENSURE_TRUE(window, false); // Let's do a current inner check to see if the inner is active or is in // bf cache, and bail out if it's not active. nsCOMPtr outer = doc->GetWindow(); if (!outer || outer->GetCurrentInnerWindow() != window) { *aAllowed = false; return true; } NS_ASSERTION(Manager(), "Null manager?!"); nsRefPtr factory; rv = IDBFactory::Create(window, aGroup, aASCIIOrigin, Manager(), getter_AddRefs(factory)); NS_ENSURE_SUCCESS(rv, false); if (!factory) { *aAllowed = false; return true; } IndexedDBParent* actor = static_cast(aActor); actor->mFactory = factory; actor->mASCIIOrigin = aASCIIOrigin; *aAllowed = true; return true; } // nsIAuthPromptProvider // This method is largely copied from nsDocShell::GetAuthPrompt NS_IMETHODIMP TabParent::GetAuthPrompt(uint32_t aPromptReason, const nsIID& iid, void** aResult) { // we're either allowing auth, or it's a proxy request nsresult rv; nsCOMPtr wwatch = do_GetService(NS_WINDOWWATCHER_CONTRACTID, &rv); NS_ENSURE_SUCCESS(rv, rv); nsCOMPtr window; nsCOMPtr frame = do_QueryInterface(mFrameElement); if (frame) window = do_QueryInterface(frame->OwnerDoc()->GetWindow()); // Get an auth prompter for our window so that the parenting // of the dialogs works as it should when using tabs. return wwatch->GetPrompt(window, iid, reinterpret_cast(aResult)); } PColorPickerParent* TabParent::AllocPColorPickerParent(const nsString& aTitle, const nsString& aInitialColor) { return new ColorPickerParent(aTitle, aInitialColor); } bool TabParent::DeallocPColorPickerParent(PColorPickerParent* actor) { delete actor; return true; } PRenderFrameParent* TabParent::AllocPRenderFrameParent(ScrollingBehavior* aScrolling, TextureFactoryIdentifier* aTextureFactoryIdentifier, uint64_t* aLayersId, bool* aSuccess) { MOZ_ASSERT(ManagedPRenderFrameParent().IsEmpty()); nsRefPtr frameLoader = GetFrameLoader(); *aScrolling = UseAsyncPanZoom() ? ASYNC_PAN_ZOOM : DEFAULT_SCROLLING; return new RenderFrameParent(frameLoader, *aScrolling, aTextureFactoryIdentifier, aLayersId, aSuccess); } bool TabParent::DeallocPRenderFrameParent(PRenderFrameParent* aFrame) { delete aFrame; return true; } mozilla::docshell::POfflineCacheUpdateParent* TabParent::AllocPOfflineCacheUpdateParent(const URIParams& aManifestURI, const URIParams& aDocumentURI, const bool& aStickDocument) { nsRefPtr update = new mozilla::docshell::OfflineCacheUpdateParent(OwnOrContainingAppId(), IsBrowserElement()); // Use this reference as the IPDL reference. return update.forget().take(); } bool TabParent::RecvPOfflineCacheUpdateConstructor(POfflineCacheUpdateParent* aActor, const URIParams& aManifestURI, const URIParams& aDocumentURI, const bool& aStickDocument) { MOZ_ASSERT(aActor); nsRefPtr update = static_cast(aActor); nsresult rv = update->Schedule(aManifestURI, aDocumentURI, aStickDocument); if (NS_FAILED(rv) && !IsDestroyed()) { // Inform the child of failure. unused << update->SendFinish(false, false); } return true; } bool TabParent::DeallocPOfflineCacheUpdateParent(POfflineCacheUpdateParent* aActor) { // Reclaim the IPDL reference. nsRefPtr update = dont_AddRef( static_cast(aActor)); return true; } bool TabParent::RecvSetOfflinePermission(const IPC::Principal& aPrincipal) { nsIPrincipal* principal = aPrincipal; nsContentUtils::MaybeAllowOfflineAppByDefault(principal, nullptr); return true; } bool TabParent::AllowContentIME() { nsFocusManager* fm = nsFocusManager::GetFocusManager(); NS_ENSURE_TRUE(fm, false); nsCOMPtr focusedContent = fm->GetFocusedContent(); if (focusedContent && focusedContent->IsEditable()) return false; return true; } already_AddRefed TabParent::GetFrameLoader() const { nsCOMPtr frameLoaderOwner = do_QueryInterface(mFrameElement); return frameLoaderOwner ? frameLoaderOwner->GetFrameLoader() : nullptr; } void TabParent::TryCacheDPIAndScale() { if (mDPI > 0) { return; } nsCOMPtr widget = GetWidget(); if (!widget && mFrameElement) { // Even if we don't have a widget (e.g. because we're display:none), there's // probably a widget somewhere in the hierarchy our frame element lives in. widget = nsContentUtils::WidgetForDocument(mFrameElement->OwnerDoc()); } if (widget) { mDPI = widget->GetDPI(); mDefaultScale = widget->GetDefaultScale(); } } already_AddRefed TabParent::GetWidget() const { nsCOMPtr content = do_QueryInterface(mFrameElement); if (!content) return nullptr; nsIFrame *frame = content->GetPrimaryFrame(); if (!frame) return nullptr; nsCOMPtr widget = frame->GetNearestWidget(); return widget.forget(); } bool TabParent::UseAsyncPanZoom() { bool usingOffMainThreadCompositing = !!CompositorParent::CompositorLoop(); return (usingOffMainThreadCompositing && gfxPrefs::AsyncPanZoomEnabled() && GetScrollingBehavior() == ASYNC_PAN_ZOOM); } nsEventStatus TabParent::MaybeForwardEventToRenderFrame(WidgetInputEvent& aEvent, ScrollableLayerGuid* aOutTargetGuid) { if (RenderFrameParent* rfp = GetRenderFrame()) { return rfp->NotifyInputEvent(aEvent, aOutTargetGuid); } return nsEventStatus_eIgnore; } bool TabParent::RecvBrowserFrameOpenWindow(PBrowserParent* aOpener, const nsString& aURL, const nsString& aName, const nsString& aFeatures, bool* aOutWindowOpened) { BrowserElementParent::OpenWindowResult opened = BrowserElementParent::OpenWindowOOP(static_cast(aOpener), this, aURL, aName, aFeatures); *aOutWindowOpened = (opened != BrowserElementParent::OPEN_WINDOW_CANCELLED); return true; } bool TabParent::RecvPRenderFrameConstructor(PRenderFrameParent* aActor, ScrollingBehavior* aScrolling, TextureFactoryIdentifier* aFactoryIdentifier, uint64_t* aLayersId, bool* aSuccess) { return true; } bool TabParent::RecvZoomToRect(const uint32_t& aPresShellId, const ViewID& aViewId, const CSSRect& aRect) { if (RenderFrameParent* rfp = GetRenderFrame()) { rfp->ZoomToRect(aPresShellId, aViewId, aRect); } return true; } bool TabParent::RecvUpdateZoomConstraints(const uint32_t& aPresShellId, const ViewID& aViewId, const bool& aIsRoot, const ZoomConstraints& aConstraints) { if (RenderFrameParent* rfp = GetRenderFrame()) { rfp->UpdateZoomConstraints(aPresShellId, aViewId, aIsRoot, aConstraints); } return true; } bool TabParent::RecvContentReceivedTouch(const ScrollableLayerGuid& aGuid, const bool& aPreventDefault) { if (RenderFrameParent* rfp = GetRenderFrame()) { rfp->ContentReceivedTouch(aGuid, aPreventDefault); } return true; } already_AddRefed TabParent::GetLoadContext() { nsCOMPtr loadContext; if (mLoadContext) { loadContext = mLoadContext; } else { loadContext = new LoadContext(GetOwnerElement(), OwnOrContainingAppId(), true /* aIsContent */, mChromeFlags & nsIWebBrowserChrome::CHROME_PRIVATE_WINDOW, mChromeFlags & nsIWebBrowserChrome::CHROME_REMOTE_WINDOW, IsBrowserElement()); mLoadContext = loadContext; } return loadContext.forget(); } /* Be careful if you call this method while proceding a real touch event. For * example sending a touchstart during a real touchend may results into * a busted mEventCaptureDepth and following touch events may not do what you * expect. */ NS_IMETHODIMP TabParent::InjectTouchEvent(const nsAString& aType, uint32_t* aIdentifiers, int32_t* aXs, int32_t* aYs, uint32_t* aRxs, uint32_t* aRys, float* aRotationAngles, float* aForces, uint32_t aCount, int32_t aModifiers) { uint32_t msg; nsContentUtils::GetEventIdAndAtom(aType, NS_TOUCH_EVENT, &msg); if (msg != NS_TOUCH_START && msg != NS_TOUCH_MOVE && msg != NS_TOUCH_END && msg != NS_TOUCH_CANCEL) { return NS_ERROR_FAILURE; } nsCOMPtr widget = GetWidget(); if (!widget) { return NS_ERROR_FAILURE; } WidgetTouchEvent event(true, msg, widget); event.modifiers = aModifiers; event.time = PR_IntervalNow(); nsCOMPtr content = do_QueryInterface(mFrameElement); if (!content || !content->OwnerDoc()) { return NS_ERROR_FAILURE; } nsIDocument* doc = content->OwnerDoc(); if (!doc || !doc->GetShell()) { return NS_ERROR_FAILURE; } nsPresContext* presContext = doc->GetShell()->GetPresContext(); event.touches.SetCapacity(aCount); for (uint32_t i = 0; i < aCount; ++i) { LayoutDeviceIntPoint pt = LayoutDeviceIntPoint::FromAppUnitsRounded( CSSPoint::ToAppUnits(CSSPoint(aXs[i], aYs[i])), presContext->AppUnitsPerDevPixel()); nsRefPtr t = new Touch(aIdentifiers[i], LayoutDeviceIntPoint::ToUntyped(pt), nsIntPoint(aRxs[i], aRys[i]), aRotationAngles[i], aForces[i]); // Consider all injected touch events as changedTouches. For more details // about the meaning of changedTouches for each event, see // https://developer.mozilla.org/docs/Web/API/TouchEvent.changedTouches t->mChanged = true; event.touches.AppendElement(t); } if ((msg == NS_TOUCH_END || msg == NS_TOUCH_CANCEL) && sEventCapturer) { WidgetGUIEvent* guiEvent = event.AsGUIEvent(); TryCapture(*guiEvent); } SendRealTouchEvent(event); return NS_OK; } NS_IMETHODIMP TabParent::GetUseAsyncPanZoom(bool* useAsyncPanZoom) { *useAsyncPanZoom = UseAsyncPanZoom(); return NS_OK; } NS_IMETHODIMP TabParent::SetIsDocShellActive(bool isActive) { unused << SendSetIsDocShellActive(isActive); return NS_OK; } class FakeChannel MOZ_FINAL : public nsIChannel, public nsIAuthPromptCallback, public nsIInterfaceRequestor, public nsILoadContext { public: FakeChannel(const nsCString& aUri, uint64_t aCallbackId, Element* aElement) : mCallbackId(aCallbackId) , mElement(aElement) { NS_NewURI(getter_AddRefs(mUri), aUri); } NS_DECL_ISUPPORTS #define NO_IMPL { return NS_ERROR_NOT_IMPLEMENTED; } NS_IMETHOD GetName(nsACString&) NO_IMPL NS_IMETHOD IsPending(bool*) NO_IMPL NS_IMETHOD GetStatus(nsresult*) NO_IMPL NS_IMETHOD Cancel(nsresult) NO_IMPL NS_IMETHOD Suspend() NO_IMPL NS_IMETHOD Resume() NO_IMPL NS_IMETHOD GetLoadGroup(nsILoadGroup**) NO_IMPL NS_IMETHOD SetLoadGroup(nsILoadGroup*) NO_IMPL NS_IMETHOD SetLoadFlags(nsLoadFlags) NO_IMPL NS_IMETHOD GetLoadFlags(nsLoadFlags*) NO_IMPL NS_IMETHOD GetOriginalURI(nsIURI**) NO_IMPL NS_IMETHOD SetOriginalURI(nsIURI*) NO_IMPL NS_IMETHOD GetURI(nsIURI** aUri) { NS_IF_ADDREF(mUri); *aUri = mUri; return NS_OK; } NS_IMETHOD GetOwner(nsISupports**) NO_IMPL NS_IMETHOD SetOwner(nsISupports*) NO_IMPL NS_IMETHOD GetLoadInfo(nsILoadInfo** aLoadInfo) { NS_IF_ADDREF(*aLoadInfo = mLoadInfo); return NS_OK; } NS_IMETHOD SetLoadInfo(nsILoadInfo* aLoadInfo) { mLoadInfo = aLoadInfo; return NS_OK; } NS_IMETHOD GetNotificationCallbacks(nsIInterfaceRequestor** aRequestor) { NS_ADDREF(*aRequestor = this); return NS_OK; } NS_IMETHOD SetNotificationCallbacks(nsIInterfaceRequestor*) NO_IMPL NS_IMETHOD GetSecurityInfo(nsISupports**) NO_IMPL NS_IMETHOD GetContentType(nsACString&) NO_IMPL NS_IMETHOD SetContentType(const nsACString&) NO_IMPL NS_IMETHOD GetContentCharset(nsACString&) NO_IMPL NS_IMETHOD SetContentCharset(const nsACString&) NO_IMPL NS_IMETHOD GetContentLength(int64_t*) NO_IMPL NS_IMETHOD SetContentLength(int64_t) NO_IMPL NS_IMETHOD Open(nsIInputStream**) NO_IMPL NS_IMETHOD AsyncOpen(nsIStreamListener*, nsISupports*) NO_IMPL NS_IMETHOD GetContentDisposition(uint32_t*) NO_IMPL NS_IMETHOD SetContentDisposition(uint32_t) NO_IMPL NS_IMETHOD GetContentDispositionFilename(nsAString&) NO_IMPL NS_IMETHOD SetContentDispositionFilename(const nsAString&) NO_IMPL NS_IMETHOD GetContentDispositionHeader(nsACString&) NO_IMPL NS_IMETHOD OnAuthAvailable(nsISupports *aContext, nsIAuthInformation *aAuthInfo); NS_IMETHOD OnAuthCancelled(nsISupports *aContext, bool userCancel); NS_IMETHOD GetInterface(const nsIID & uuid, void **result) { return QueryInterface(uuid, result); } NS_IMETHOD GetAssociatedWindow(nsIDOMWindow**) NO_IMPL NS_IMETHOD GetTopWindow(nsIDOMWindow**) NO_IMPL NS_IMETHOD GetTopFrameElement(nsIDOMElement** aElement) { nsCOMPtr elem = do_QueryInterface(mElement); elem.forget(aElement); return NS_OK; } NS_IMETHOD GetNestedFrameId(uint64_t*) NO_IMPL NS_IMETHOD IsAppOfType(uint32_t, bool*) NO_IMPL NS_IMETHOD GetIsContent(bool*) NO_IMPL NS_IMETHOD GetUsePrivateBrowsing(bool*) NO_IMPL NS_IMETHOD SetUsePrivateBrowsing(bool) NO_IMPL NS_IMETHOD SetPrivateBrowsing(bool) NO_IMPL NS_IMETHOD GetIsInBrowserElement(bool*) NO_IMPL NS_IMETHOD GetAppId(uint32_t*) NO_IMPL NS_IMETHOD GetUseRemoteTabs(bool*) NO_IMPL NS_IMETHOD SetRemoteTabs(bool) NO_IMPL #undef NO_IMPL protected: ~FakeChannel() {} nsCOMPtr mUri; uint64_t mCallbackId; nsCOMPtr mElement; nsCOMPtr mLoadInfo; }; NS_IMPL_ISUPPORTS(FakeChannel, nsIChannel, nsIAuthPromptCallback, nsIRequest, nsIInterfaceRequestor, nsILoadContext); bool TabParent::RecvAsyncAuthPrompt(const nsCString& aUri, const nsString& aRealm, const uint64_t& aCallbackId) { nsCOMPtr authPrompt; GetAuthPrompt(nsIAuthPromptProvider::PROMPT_NORMAL, NS_GET_IID(nsIAuthPrompt2), getter_AddRefs(authPrompt)); nsRefPtr channel = new FakeChannel(aUri, aCallbackId, mFrameElement); uint32_t promptFlags = nsIAuthInformation::AUTH_HOST; nsRefPtr holder = new nsAuthInformationHolder(promptFlags, aRealm, EmptyCString()); uint32_t level = nsIAuthPrompt2::LEVEL_NONE; nsCOMPtr dummy; nsresult rv = authPrompt->AsyncPromptAuth(channel, channel, nullptr, level, holder, getter_AddRefs(dummy)); return rv == NS_OK; } NS_IMETHODIMP FakeChannel::OnAuthAvailable(nsISupports *aContext, nsIAuthInformation *aAuthInfo) { nsAuthInformationHolder* holder = static_cast(aAuthInfo); if (!net::gNeckoChild->SendOnAuthAvailable(mCallbackId, holder->User(), holder->Password(), holder->Domain())) { return NS_ERROR_FAILURE; } return NS_OK; } NS_IMETHODIMP FakeChannel::OnAuthCancelled(nsISupports *aContext, bool userCancel) { if (!net::gNeckoChild->SendOnAuthCancelled(mCallbackId, userCancel)) { return NS_ERROR_FAILURE; } return NS_OK; } } // namespace tabs } // namespace mozilla