/* -*- Mode: C++; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*- */ /* vim:set ts=2 sw=2 sts=2 ci 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/. */ #include "mozilla/MathAlgorithms.h" // Local includes #include "nsXULWindow.h" #include // Helper classes #include "nsPrintfCString.h" #include "nsString.h" #include "nsWidgetsCID.h" #include "nsThreadUtils.h" #include "nsNetCID.h" #include "nsQueryObject.h" #include "mozilla/Sprintf.h" // Interfaces needed to be included #include "nsGlobalWindowOuter.h" #include "nsIAppShell.h" #include "nsIAppShellService.h" #include "nsIServiceManager.h" #include "nsIContentViewer.h" #include "mozilla/dom/Document.h" #include "nsPIDOMWindow.h" #include "nsScreen.h" #include "nsIEmbeddingSiteWindow.h" #include "nsIInterfaceRequestor.h" #include "nsIInterfaceRequestorUtils.h" #include "nsIIOService.h" #include "nsILoadContext.h" #include "nsIObserverService.h" #include "nsIWindowMediator.h" #include "nsIScreenManager.h" #include "nsIScreen.h" #include "nsIScrollable.h" #include "nsIScriptSecurityManager.h" #include "nsIWindowWatcher.h" #include "nsIURI.h" #include "nsAppShellCID.h" #include "nsReadableUtils.h" #include "nsStyleConsts.h" #include "nsPresContext.h" #include "nsContentUtils.h" #include "nsWebShellWindow.h" // get rid of this one, too... #include "nsGlobalWindow.h" #include "XULDocument.h" #include "nsXULTooltipListener.h" #include "prenv.h" #include "mozilla/AutoRestore.h" #include "mozilla/Preferences.h" #include "mozilla/Services.h" #include "mozilla/dom/BarProps.h" #include "mozilla/dom/Element.h" #include "mozilla/dom/Event.h" #include "mozilla/dom/ScriptSettings.h" #include "mozilla/dom/BrowserHost.h" #include "mozilla/dom/BrowserParent.h" #ifdef MOZ_NEW_XULSTORE # include "mozilla/XULStore.h" #endif using namespace mozilla; using dom::AutoNoJSAPI; #define SIZEMODE_NORMAL NS_LITERAL_STRING("normal") #define SIZEMODE_MAXIMIZED NS_LITERAL_STRING("maximized") #define SIZEMODE_MINIMIZED NS_LITERAL_STRING("minimized") #define SIZEMODE_FULLSCREEN NS_LITERAL_STRING("fullscreen") #define WINDOWTYPE_ATTRIBUTE NS_LITERAL_STRING("windowtype") #define PERSIST_ATTRIBUTE NS_LITERAL_STRING("persist") #define SCREENX_ATTRIBUTE NS_LITERAL_STRING("screenX") #define SCREENY_ATTRIBUTE NS_LITERAL_STRING("screenY") #define WIDTH_ATTRIBUTE NS_LITERAL_STRING("width") #define HEIGHT_ATTRIBUTE NS_LITERAL_STRING("height") #define MODE_ATTRIBUTE NS_LITERAL_STRING("sizemode") #define ZLEVEL_ATTRIBUTE NS_LITERAL_STRING("zlevel") //***************************************************************************** //*** nsXULWindow: Object Management //***************************************************************************** nsXULWindow::nsXULWindow(uint32_t aChromeFlags) : mChromeTreeOwner(nullptr), mContentTreeOwner(nullptr), mPrimaryContentTreeOwner(nullptr), mModalStatus(NS_OK), mContinueModalLoop(false), mDebuting(false), mChromeLoaded(false), mSizingShellFromXUL(false), mShowAfterLoad(false), mIntrinsicallySized(false), mCenterAfterLoad(false), mIsHiddenWindow(false), mLockedUntilChromeLoad(false), mIgnoreXULSize(false), mIgnoreXULPosition(false), mChromeFlagsFrozen(false), mIgnoreXULSizeMode(false), mDestroying(false), mRegistered(false), mPersistentAttributesDirty(0), mPersistentAttributesMask(0), mChromeFlags(aChromeFlags), mNextRemoteTabId(0) {} nsXULWindow::~nsXULWindow() { Destroy(); } //***************************************************************************** // nsXULWindow::nsISupports //***************************************************************************** NS_IMPL_ADDREF(nsXULWindow) NS_IMPL_RELEASE(nsXULWindow) NS_INTERFACE_MAP_BEGIN(nsXULWindow) NS_INTERFACE_MAP_ENTRY_AMBIGUOUS(nsISupports, nsIXULWindow) NS_INTERFACE_MAP_ENTRY(nsIXULWindow) NS_INTERFACE_MAP_ENTRY(nsIBaseWindow) NS_INTERFACE_MAP_ENTRY(nsIInterfaceRequestor) NS_INTERFACE_MAP_ENTRY(nsISupportsWeakReference) NS_INTERFACE_MAP_ENTRY_CONCRETE(nsXULWindow) NS_INTERFACE_MAP_END //***************************************************************************** // nsXULWindow::nsIIntefaceRequestor //***************************************************************************** NS_IMETHODIMP nsXULWindow::GetInterface(const nsIID& aIID, void** aSink) { nsresult rv; NS_ENSURE_ARG_POINTER(aSink); if (aIID.Equals(NS_GET_IID(nsIPrompt))) { rv = EnsurePrompter(); if (NS_FAILED(rv)) return rv; return mPrompter->QueryInterface(aIID, aSink); } if (aIID.Equals(NS_GET_IID(nsIAuthPrompt))) { rv = EnsureAuthPrompter(); if (NS_FAILED(rv)) return rv; return mAuthPrompter->QueryInterface(aIID, aSink); } if (aIID.Equals(NS_GET_IID(mozIDOMWindowProxy))) { return GetWindowDOMWindow(reinterpret_cast(aSink)); } if (aIID.Equals(NS_GET_IID(nsIDOMWindow))) { nsCOMPtr window = nullptr; rv = GetWindowDOMWindow(getter_AddRefs(window)); nsCOMPtr domWindow = do_QueryInterface(window); domWindow.forget(aSink); return rv; } if (aIID.Equals(NS_GET_IID(nsIWebBrowserChrome)) && NS_SUCCEEDED(EnsureContentTreeOwner()) && NS_SUCCEEDED(mContentTreeOwner->QueryInterface(aIID, aSink))) return NS_OK; if (aIID.Equals(NS_GET_IID(nsIEmbeddingSiteWindow)) && NS_SUCCEEDED(EnsureContentTreeOwner()) && NS_SUCCEEDED(mContentTreeOwner->QueryInterface(aIID, aSink))) return NS_OK; return QueryInterface(aIID, aSink); } //***************************************************************************** // nsXULWindow::nsIXULWindow //***************************************************************************** NS_IMETHODIMP nsXULWindow::GetDocShell(nsIDocShell** aDocShell) { NS_ENSURE_ARG_POINTER(aDocShell); *aDocShell = mDocShell; NS_IF_ADDREF(*aDocShell); return NS_OK; } NS_IMETHODIMP nsXULWindow::GetZLevel(uint32_t* outLevel) { nsCOMPtr mediator( do_GetService(NS_WINDOWMEDIATOR_CONTRACTID)); if (mediator) mediator->GetZLevel(this, outLevel); else *outLevel = normalZ; return NS_OK; } NS_IMETHODIMP nsXULWindow::SetZLevel(uint32_t aLevel) { nsCOMPtr mediator( do_GetService(NS_WINDOWMEDIATOR_CONTRACTID)); if (!mediator) return NS_ERROR_FAILURE; uint32_t zLevel; mediator->GetZLevel(this, &zLevel); if (zLevel == aLevel) return NS_OK; /* refuse to raise a maximized window above the normal browser level, for fear it could hide newly opened browser windows */ if (aLevel > nsIXULWindow::normalZ && mWindow) { nsSizeMode sizeMode = mWindow->SizeMode(); if (sizeMode == nsSizeMode_Maximized || sizeMode == nsSizeMode_Fullscreen) { return NS_ERROR_FAILURE; } } // do it mediator->SetZLevel(this, aLevel); PersistentAttributesDirty(PAD_MISC); SavePersistentAttributes(); nsCOMPtr cv; mDocShell->GetContentViewer(getter_AddRefs(cv)); if (cv) { RefPtr doc = cv->GetDocument(); if (doc) { ErrorResult rv; RefPtr event = doc->CreateEvent(NS_LITERAL_STRING("Events"), dom::CallerType::System, rv); if (event) { event->InitEvent(NS_LITERAL_STRING("windowZLevel"), true, false); event->SetTrusted(true); doc->DispatchEvent(*event); } } } return NS_OK; } NS_IMETHODIMP nsXULWindow::GetChromeFlags(uint32_t* aChromeFlags) { NS_ENSURE_ARG_POINTER(aChromeFlags); *aChromeFlags = mChromeFlags; /* mChromeFlags is kept up to date, except for scrollbar visibility. That can be changed directly by the content DOM window, which doesn't know to update the chrome window. So that we must check separately. */ // however, it's pointless to ask if the window isn't set up yet if (!mChromeLoaded) return NS_OK; if (GetContentScrollbarVisibility()) *aChromeFlags |= nsIWebBrowserChrome::CHROME_SCROLLBARS; else *aChromeFlags &= ~nsIWebBrowserChrome::CHROME_SCROLLBARS; return NS_OK; } NS_IMETHODIMP nsXULWindow::SetChromeFlags(uint32_t aChromeFlags) { NS_ASSERTION(!mChromeFlagsFrozen, "SetChromeFlags() after AssumeChromeFlagsAreFrozen()!"); mChromeFlags = aChromeFlags; if (mChromeLoaded) { ApplyChromeFlags(); } return NS_OK; } NS_IMETHODIMP nsXULWindow::AssumeChromeFlagsAreFrozen() { mChromeFlagsFrozen = true; return NS_OK; } NS_IMETHODIMP nsXULWindow::SetIntrinsicallySized(bool aIntrinsicallySized) { mIntrinsicallySized = aIntrinsicallySized; return NS_OK; } NS_IMETHODIMP nsXULWindow::GetIntrinsicallySized(bool* aIntrinsicallySized) { NS_ENSURE_ARG_POINTER(aIntrinsicallySized); *aIntrinsicallySized = mIntrinsicallySized; return NS_OK; } NS_IMETHODIMP nsXULWindow::GetPrimaryContentShell( nsIDocShellTreeItem** aDocShellTreeItem) { NS_ENSURE_ARG_POINTER(aDocShellTreeItem); NS_IF_ADDREF(*aDocShellTreeItem = mPrimaryContentShell); return NS_OK; } NS_IMETHODIMP nsXULWindow::RemoteTabAdded(nsIRemoteTab* aTab, bool aPrimary) { if (aPrimary) { mPrimaryBrowserParent = aTab; mPrimaryContentShell = nullptr; } else if (mPrimaryBrowserParent == aTab) { mPrimaryBrowserParent = nullptr; } return NS_OK; } NS_IMETHODIMP nsXULWindow::RemoteTabRemoved(nsIRemoteTab* aTab) { if (aTab == mPrimaryBrowserParent) { mPrimaryBrowserParent = nullptr; } return NS_OK; } NS_IMETHODIMP nsXULWindow::GetPrimaryRemoteTab(nsIRemoteTab** aTab) { nsCOMPtr tab = mPrimaryBrowserParent; tab.forget(aTab); return NS_OK; } static LayoutDeviceIntSize GetOuterToInnerSizeDifference(nsIWidget* aWindow) { if (!aWindow) { return LayoutDeviceIntSize(); } LayoutDeviceIntSize baseSize(200, 200); LayoutDeviceIntSize windowSize = aWindow->ClientToWindowSize(baseSize); return windowSize - baseSize; } static CSSIntSize GetOuterToInnerSizeDifferenceInCSSPixels(nsIWidget* aWindow) { if (!aWindow) { return {}; } LayoutDeviceIntSize devPixelSize = GetOuterToInnerSizeDifference(aWindow); return RoundedToInt(devPixelSize / aWindow->GetDefaultScale()); } NS_IMETHODIMP nsXULWindow::GetOuterToInnerHeightDifferenceInCSSPixels(uint32_t* aResult) { *aResult = GetOuterToInnerSizeDifferenceInCSSPixels(mWindow).height; return NS_OK; } NS_IMETHODIMP nsXULWindow::GetOuterToInnerWidthDifferenceInCSSPixels(uint32_t* aResult) { *aResult = GetOuterToInnerSizeDifferenceInCSSPixels(mWindow).width; return NS_OK; } nsTArray> nsXULWindow::GetLiveResizeListeners() { nsTArray> listeners; if (mPrimaryBrowserParent) { BrowserHost* host = BrowserHost::GetFrom(mPrimaryBrowserParent.get()); listeners.AppendElement(host->GetActor()); } return listeners; } NS_IMETHODIMP nsXULWindow::AddChildWindow(nsIXULWindow* aChild) { // we're not really keeping track of this right now return NS_OK; } NS_IMETHODIMP nsXULWindow::RemoveChildWindow(nsIXULWindow* aChild) { // we're not really keeping track of this right now return NS_OK; } NS_IMETHODIMP nsXULWindow::ShowModal() { AUTO_PROFILER_LABEL("nsXULWindow::ShowModal", OTHER); // Store locally so it doesn't die on us nsCOMPtr window = mWindow; nsCOMPtr tempRef = this; window->SetModal(true); mContinueModalLoop = true; EnableParent(false); { AutoNoJSAPI nojsapi; SpinEventLoopUntil([&]() { return !mContinueModalLoop; }); } mContinueModalLoop = false; window->SetModal(false); /* Note there's no EnableParent(true) here to match the false one above. That's done in ExitModalLoop. It's important that the parent be re-enabled before this window is made invisible; to do otherwise causes bizarre z-ordering problems. At this point, the window is already invisible. No known current implementation of Enable would have a problem with re-enabling the parent twice, so we could do it again here without breaking any current implementation. But that's unnecessary if the modal loop is always exited using ExitModalLoop (the other way would be to change the protected member variable directly.) */ return mModalStatus; } //***************************************************************************** // nsXULWindow::nsIBaseWindow //***************************************************************************** NS_IMETHODIMP nsXULWindow::InitWindow(nativeWindow aParentNativeWindow, nsIWidget* parentWidget, int32_t x, int32_t y, int32_t cx, int32_t cy) { // XXX First Check In NS_ASSERTION(false, "Not Yet Implemented"); return NS_OK; } NS_IMETHODIMP nsXULWindow::Create() { // XXX First Check In NS_ASSERTION(false, "Not Yet Implemented"); return NS_OK; } NS_IMETHODIMP nsXULWindow::Destroy() { if (!mWindow) return NS_OK; // Ensure we don't reenter this code if (mDestroying) return NS_OK; mozilla::AutoRestore guard(mDestroying); mDestroying = true; nsCOMPtr appShell( do_GetService(NS_APPSHELLSERVICE_CONTRACTID)); NS_ASSERTION(appShell, "Couldn't get appShell... xpcom shutdown?"); if (appShell) appShell->UnregisterTopLevelWindow(static_cast(this)); nsCOMPtr parentWindow(do_QueryReferent(mParentWindow)); if (parentWindow) parentWindow->RemoveChildWindow(this); // let's make sure the window doesn't get deleted out from under us // while we are trying to close....this can happen if the docshell // we close ends up being the last owning reference to this xulwindow // XXXTAB This shouldn't be an issue anymore because the ownership model // only goes in one direction. When webshell container is fully removed // try removing this... nsCOMPtr placeHolder = this; // Remove modality (if any) and hide while destroying. More than // a convenience, the hide prevents user interaction with the partially // destroyed window. This is especially necessary when the eldest window // in a stack of modal windows is destroyed first. It happens. ExitModalLoop(NS_OK); // XXX: Skip unmapping the window on Linux due to GLX hangs on the compositor // thread with NVIDIA driver 310.32. We don't need to worry about user // interactions with destroyed windows on X11 either. #ifndef MOZ_WIDGET_GTK if (mWindow) mWindow->Show(false); #endif #if defined(XP_WIN) // We need to explicitly set the focus on Windows, but // only if the parent is visible. nsCOMPtr parent(do_QueryReferent(mParentWindow)); if (parent) { nsCOMPtr parentWidget; parent->GetMainWidget(getter_AddRefs(parentWidget)); if (parentWidget && parentWidget->IsVisible()) { bool isParentHiddenWindow = false; if (appShell) { bool hasHiddenWindow = false; appShell->GetHasHiddenWindow(&hasHiddenWindow); if (hasHiddenWindow) { nsCOMPtr baseHiddenWindow; nsCOMPtr hiddenWindow; appShell->GetHiddenWindow(getter_AddRefs(hiddenWindow)); if (hiddenWindow) { baseHiddenWindow = do_GetInterface(hiddenWindow); isParentHiddenWindow = (baseHiddenWindow == parent); } } } // somebody screwed up somewhere. hiddenwindow shouldn't be anybody's // parent. still, when it happens, skip activating it. if (!isParentHiddenWindow) { parentWidget->PlaceBehind(eZPlacementTop, 0, true); } } } #endif RemoveTooltipSupport(); mDOMWindow = nullptr; if (mDocShell) { nsCOMPtr shellAsWin(do_QueryInterface(mDocShell)); shellAsWin->Destroy(); mDocShell = nullptr; // this can cause reentrancy of this function } mPrimaryContentShell = nullptr; if (mContentTreeOwner) { mContentTreeOwner->XULWindow(nullptr); NS_RELEASE(mContentTreeOwner); } if (mPrimaryContentTreeOwner) { mPrimaryContentTreeOwner->XULWindow(nullptr); NS_RELEASE(mPrimaryContentTreeOwner); } if (mChromeTreeOwner) { mChromeTreeOwner->XULWindow(nullptr); NS_RELEASE(mChromeTreeOwner); } if (mWindow) { mWindow->SetWidgetListener(nullptr); // nsWebShellWindow hackery mWindow->Destroy(); mWindow = nullptr; } if (!mIsHiddenWindow && mRegistered) { /* Inform appstartup we've destroyed this window and it could quit now if it wanted. This must happen at least after mDocShell is destroyed, because onunload handlers fire then, and those being script, anything could happen. A new window could open, even. See bug 130719. */ nsCOMPtr obssvc = services::GetObserverService(); NS_ASSERTION(obssvc, "Couldn't get observer service?"); if (obssvc) obssvc->NotifyObservers(nullptr, "xul-window-destroyed", nullptr); } return NS_OK; } NS_IMETHODIMP nsXULWindow::GetDevicePixelsPerDesktopPixel(double* aScale) { *aScale = mWindow ? mWindow->GetDesktopToDeviceScale().scale : 1.0; return NS_OK; } NS_IMETHODIMP nsXULWindow::GetUnscaledDevicePixelsPerCSSPixel(double* aScale) { *aScale = mWindow ? mWindow->GetDefaultScale().scale : 1.0; return NS_OK; } NS_IMETHODIMP nsXULWindow::SetPositionDesktopPix(int32_t aX, int32_t aY) { mWindow->Move(aX, aY); if (mSizingShellFromXUL) { // If we're invoked for sizing from XUL, we want to neither ignore anything // nor persist anything, since it's already the value in XUL. return NS_OK; } if (!mChromeLoaded) { // If we're called before the chrome is loaded someone obviously wants this // window at this position. We don't persist this one-time position. mIgnoreXULPosition = true; return NS_OK; } PersistentAttributesDirty(PAD_POSITION); SavePersistentAttributes(); return NS_OK; } // The parameters here are device pixels; do the best we can to convert to // desktop px, using the window's current scale factor (if available). NS_IMETHODIMP nsXULWindow::SetPosition(int32_t aX, int32_t aY) { // Don't reset the window's size mode here - platforms that don't want to move // maximized windows should reset it in their respective Move implementation. DesktopToLayoutDeviceScale currScale = mWindow->GetDesktopToDeviceScale(); DesktopPoint pos = LayoutDeviceIntPoint(aX, aY) / currScale; return SetPositionDesktopPix(pos.x, pos.y); } NS_IMETHODIMP nsXULWindow::GetPosition(int32_t* aX, int32_t* aY) { return GetPositionAndSize(aX, aY, nullptr, nullptr); } NS_IMETHODIMP nsXULWindow::SetSize(int32_t aCX, int32_t aCY, bool aRepaint) { /* any attempt to set the window's size or position overrides the window's zoom state. this is important when these two states are competing while the window is being opened. but it should probably just always be so. */ mWindow->SetSizeMode(nsSizeMode_Normal); mIntrinsicallySized = false; DesktopToLayoutDeviceScale scale = mWindow->GetDesktopToDeviceScale(); DesktopSize size = LayoutDeviceIntSize(aCX, aCY) / scale; mWindow->Resize(size.width, size.height, aRepaint); if (mSizingShellFromXUL) { // If we're invoked for sizing from XUL, we want to neither ignore anything // nor persist anything, since it's already the value in XUL. return NS_OK; } if (!mChromeLoaded) { // If we're called before the chrome is loaded someone obviously wants this // window at this size & in the normal size mode (since it is the only mode // in which setting dimensions makes sense). We don't persist this one-time // size. mIgnoreXULSize = true; mIgnoreXULSizeMode = true; return NS_OK; } PersistentAttributesDirty(PAD_SIZE); SavePersistentAttributes(); return NS_OK; } NS_IMETHODIMP nsXULWindow::GetSize(int32_t* aCX, int32_t* aCY) { return GetPositionAndSize(nullptr, nullptr, aCX, aCY); } NS_IMETHODIMP nsXULWindow::SetPositionAndSize(int32_t aX, int32_t aY, int32_t aCX, int32_t aCY, uint32_t aFlags) { /* any attempt to set the window's size or position overrides the window's zoom state. this is important when these two states are competing while the window is being opened. but it should probably just always be so. */ mWindow->SetSizeMode(nsSizeMode_Normal); mIntrinsicallySized = false; DesktopToLayoutDeviceScale scale = mWindow->GetDesktopToDeviceScale(); DesktopRect rect = LayoutDeviceIntRect(aX, aY, aCX, aCY) / scale; mWindow->Resize(rect.X(), rect.Y(), rect.Width(), rect.Height(), !!(aFlags & nsIBaseWindow::eRepaint)); if (mSizingShellFromXUL) { // If we're invoked for sizing from XUL, we want to neither ignore anything // nor persist anything, since it's already the value in XUL. return NS_OK; } if (!mChromeLoaded) { // If we're called before the chrome is loaded someone obviously wants this // window at this size and position. We don't persist this one-time setting. mIgnoreXULPosition = true; mIgnoreXULSize = true; mIgnoreXULSizeMode = true; return NS_OK; } PersistentAttributesDirty(PAD_POSITION | PAD_SIZE); SavePersistentAttributes(); return NS_OK; } NS_IMETHODIMP nsXULWindow::GetPositionAndSize(int32_t* x, int32_t* y, int32_t* cx, int32_t* cy) { if (!mWindow) return NS_ERROR_FAILURE; LayoutDeviceIntRect rect = mWindow->GetScreenBounds(); if (x) *x = rect.X(); if (y) *y = rect.Y(); if (cx) *cx = rect.Width(); if (cy) *cy = rect.Height(); return NS_OK; } NS_IMETHODIMP nsXULWindow::Center(nsIXULWindow* aRelative, bool aScreen, bool aAlert) { int32_t left, top, width, height, ourWidth, ourHeight; bool screenCoordinates = false, windowCoordinates = false; nsresult result; if (!mChromeLoaded) { // note we lose the parameters. at time of writing, this isn't a problem. mCenterAfterLoad = true; return NS_OK; } if (!aScreen && !aRelative) return NS_ERROR_INVALID_ARG; nsCOMPtr screenmgr = do_GetService("@mozilla.org/gfx/screenmanager;1", &result); if (NS_FAILED(result)) return result; nsCOMPtr screen; if (aRelative) { nsCOMPtr base(do_QueryInterface(aRelative, &result)); if (base) { // get window rect result = base->GetPositionAndSize(&left, &top, &width, &height); if (NS_SUCCEEDED(result)) { double scale; if (NS_SUCCEEDED(base->GetDevicePixelsPerDesktopPixel(&scale))) { left = NSToIntRound(left / scale); top = NSToIntRound(top / scale); width = NSToIntRound(width / scale); height = NSToIntRound(height / scale); } // if centering on screen, convert that to the corresponding screen if (aScreen) screenmgr->ScreenForRect(left, top, width, height, getter_AddRefs(screen)); else windowCoordinates = true; } else { // something's wrong with the reference window. // fall back to the primary screen aRelative = 0; aScreen = true; } } } if (!aRelative) { if (!mOpenerScreenRect.IsEmpty()) { // FIXME - check if these are device or display pixels screenmgr->ScreenForRect(mOpenerScreenRect.X(), mOpenerScreenRect.Y(), mOpenerScreenRect.Width(), mOpenerScreenRect.Height(), getter_AddRefs(screen)); } else { screenmgr->GetPrimaryScreen(getter_AddRefs(screen)); } } if (aScreen && screen) { screen->GetAvailRectDisplayPix(&left, &top, &width, &height); screenCoordinates = true; } if (screenCoordinates || windowCoordinates) { NS_ASSERTION(mWindow, "what, no window?"); double scale = mWindow->GetDesktopToDeviceScale().scale; GetSize(&ourWidth, &ourHeight); int32_t scaledWidth, scaledHeight; scaledWidth = NSToIntRound(ourWidth / scale); scaledHeight = NSToIntRound(ourHeight / scale); left += (width - scaledWidth) / 2; top += (height - scaledHeight) / (aAlert ? 3 : 2); if (windowCoordinates) { mWindow->ConstrainPosition(false, &left, &top); } SetPosition(left * scale, top * scale); // If moving the window caused it to change size, // re-do the centering. int32_t newWidth, newHeight; GetSize(&newWidth, &newHeight); if (newWidth != ourWidth || newHeight != ourHeight) { return Center(aRelative, aScreen, aAlert); } return NS_OK; } return NS_ERROR_FAILURE; } NS_IMETHODIMP nsXULWindow::Repaint(bool aForce) { // XXX First Check In NS_ASSERTION(false, "Not Yet Implemented"); return NS_OK; } NS_IMETHODIMP nsXULWindow::GetParentWidget(nsIWidget** aParentWidget) { NS_ENSURE_ARG_POINTER(aParentWidget); NS_ENSURE_STATE(mWindow); NS_IF_ADDREF(*aParentWidget = mWindow->GetParent()); return NS_OK; } NS_IMETHODIMP nsXULWindow::SetParentWidget(nsIWidget* aParentWidget) { // XXX First Check In NS_ASSERTION(false, "Not Yet Implemented"); return NS_OK; } NS_IMETHODIMP nsXULWindow::GetParentNativeWindow( nativeWindow* aParentNativeWindow) { NS_ENSURE_ARG_POINTER(aParentNativeWindow); nsCOMPtr parentWidget; NS_ENSURE_SUCCESS(GetParentWidget(getter_AddRefs(parentWidget)), NS_ERROR_FAILURE); if (parentWidget) { *aParentNativeWindow = parentWidget->GetNativeData(NS_NATIVE_WIDGET); } return NS_OK; } NS_IMETHODIMP nsXULWindow::SetParentNativeWindow( nativeWindow aParentNativeWindow) { // XXX First Check In NS_ASSERTION(false, "Not Yet Implemented"); return NS_OK; } NS_IMETHODIMP nsXULWindow::GetNativeHandle(nsAString& aNativeHandle) { nsCOMPtr mainWidget; NS_ENSURE_SUCCESS(GetMainWidget(getter_AddRefs(mainWidget)), NS_ERROR_FAILURE); if (mainWidget) { nativeWindow nativeWindowPtr = mainWidget->GetNativeData(NS_NATIVE_WINDOW); /* the nativeWindow pointer is converted to and exposed as a string. This is a more reliable way not to lose information (as opposed to JS |Number| for instance) */ aNativeHandle = NS_ConvertASCIItoUTF16(nsPrintfCString("0x%p", nativeWindowPtr)); } return NS_OK; } NS_IMETHODIMP nsXULWindow::GetVisibility(bool* aVisibility) { NS_ENSURE_ARG_POINTER(aVisibility); // Always claim to be visible for now. See bug // https://bugzilla.mozilla.org/show_bug.cgi?id=306245. *aVisibility = true; return NS_OK; } NS_IMETHODIMP nsXULWindow::SetVisibility(bool aVisibility) { if (!mChromeLoaded) { mShowAfterLoad = aVisibility; return NS_OK; } if (mDebuting) { return NS_OK; } mDebuting = true; // (Show / Focus is recursive) // XXXTAB Do we really need to show docshell and the window? Isn't // the window good enough? nsCOMPtr shellAsWin(do_QueryInterface(mDocShell)); shellAsWin->SetVisibility(aVisibility); // Store locally so it doesn't die on us. 'Show' can result in the window // being closed with nsXULWindow::Destroy being called. That would set // mWindow to null and posibly destroy the nsIWidget while its Show method // is on the stack. We need to keep it alive until Show finishes. nsCOMPtr window = mWindow; window->Show(aVisibility); nsCOMPtr windowMediator( do_GetService(NS_WINDOWMEDIATOR_CONTRACTID)); if (windowMediator) windowMediator->UpdateWindowTimeStamp(static_cast(this)); // notify observers so that we can hide the splash screen if possible nsCOMPtr obssvc = services::GetObserverService(); NS_ASSERTION(obssvc, "Couldn't get observer service."); if (obssvc) { obssvc->NotifyObservers(static_cast(this), "xul-window-visible", nullptr); } mDebuting = false; return NS_OK; } NS_IMETHODIMP nsXULWindow::GetEnabled(bool* aEnabled) { NS_ENSURE_ARG_POINTER(aEnabled); if (mWindow) { *aEnabled = mWindow->IsEnabled(); return NS_OK; } *aEnabled = true; // better guess than most return NS_ERROR_FAILURE; } NS_IMETHODIMP nsXULWindow::SetEnabled(bool aEnable) { if (mWindow) { mWindow->Enable(aEnable); return NS_OK; } return NS_ERROR_FAILURE; } NS_IMETHODIMP nsXULWindow::GetMainWidget(nsIWidget** aMainWidget) { NS_ENSURE_ARG_POINTER(aMainWidget); *aMainWidget = mWindow; NS_IF_ADDREF(*aMainWidget); return NS_OK; } NS_IMETHODIMP nsXULWindow::SetFocus() { // XXX First Check In NS_ASSERTION(false, "Not Yet Implemented"); return NS_OK; } NS_IMETHODIMP nsXULWindow::GetTitle(nsAString& aTitle) { aTitle = mTitle; return NS_OK; } NS_IMETHODIMP nsXULWindow::SetTitle(const nsAString& aTitle) { NS_ENSURE_STATE(mWindow); mTitle.Assign(aTitle); mTitle.StripCRLF(); NS_ENSURE_SUCCESS(mWindow->SetTitle(mTitle), NS_ERROR_FAILURE); return NS_OK; } //***************************************************************************** // nsXULWindow: Helpers //***************************************************************************** NS_IMETHODIMP nsXULWindow::EnsureChromeTreeOwner() { if (mChromeTreeOwner) return NS_OK; mChromeTreeOwner = new nsChromeTreeOwner(); NS_ADDREF(mChromeTreeOwner); mChromeTreeOwner->XULWindow(this); return NS_OK; } NS_IMETHODIMP nsXULWindow::EnsureContentTreeOwner() { if (mContentTreeOwner) return NS_OK; mContentTreeOwner = new nsContentTreeOwner(false); NS_ADDREF(mContentTreeOwner); mContentTreeOwner->XULWindow(this); return NS_OK; } NS_IMETHODIMP nsXULWindow::EnsurePrimaryContentTreeOwner() { if (mPrimaryContentTreeOwner) return NS_OK; mPrimaryContentTreeOwner = new nsContentTreeOwner(true); NS_ADDREF(mPrimaryContentTreeOwner); mPrimaryContentTreeOwner->XULWindow(this); return NS_OK; } NS_IMETHODIMP nsXULWindow::EnsurePrompter() { if (mPrompter) return NS_OK; nsCOMPtr ourWindow; nsresult rv = GetWindowDOMWindow(getter_AddRefs(ourWindow)); if (NS_SUCCEEDED(rv)) { nsCOMPtr wwatch = do_GetService(NS_WINDOWWATCHER_CONTRACTID); if (wwatch) wwatch->GetNewPrompter(ourWindow, getter_AddRefs(mPrompter)); } return mPrompter ? NS_OK : NS_ERROR_FAILURE; } NS_IMETHODIMP nsXULWindow::EnsureAuthPrompter() { if (mAuthPrompter) return NS_OK; nsCOMPtr ourWindow; nsresult rv = GetWindowDOMWindow(getter_AddRefs(ourWindow)); if (NS_SUCCEEDED(rv)) { nsCOMPtr wwatch( do_GetService(NS_WINDOWWATCHER_CONTRACTID)); if (wwatch) wwatch->GetNewAuthPrompter(ourWindow, getter_AddRefs(mAuthPrompter)); } return mAuthPrompter ? NS_OK : NS_ERROR_FAILURE; } NS_IMETHODIMP nsXULWindow::GetAvailScreenSize(int32_t* aAvailWidth, int32_t* aAvailHeight) { nsCOMPtr domWindow; GetWindowDOMWindow(getter_AddRefs(domWindow)); NS_ENSURE_STATE(domWindow); auto* window = nsGlobalWindowOuter::Cast(domWindow); RefPtr screen = window->GetScreen(); NS_ENSURE_STATE(screen); ErrorResult rv; *aAvailWidth = screen->GetAvailWidth(rv); if (NS_WARN_IF(rv.Failed())) { return rv.StealNSResult(); } *aAvailHeight = screen->GetAvailHeight(rv); if (NS_WARN_IF(rv.Failed())) { return rv.StealNSResult(); } return NS_OK; } // Rounds window size to 1000x1000, or, if there isn't enough available // screen space, to a multiple of 200x100. NS_IMETHODIMP nsXULWindow::ForceRoundedDimensions() { if (mIsHiddenWindow) { return NS_OK; } int32_t availWidthCSS = 0; int32_t availHeightCSS = 0; int32_t contentWidthCSS = 0; int32_t contentHeightCSS = 0; int32_t windowWidthCSS = 0; int32_t windowHeightCSS = 0; double devicePerCSSPixels = 1.0; GetUnscaledDevicePixelsPerCSSPixel(&devicePerCSSPixels); GetAvailScreenSize(&availWidthCSS, &availHeightCSS); // To get correct chrome size, we have to resize the window to a proper // size first. So, here, we size it to its available size. SetSpecifiedSize(availWidthCSS, availHeightCSS); // Get the current window size for calculating chrome UI size. GetSize(&windowWidthCSS, &windowHeightCSS); // device pixels windowWidthCSS = NSToIntRound(windowWidthCSS / devicePerCSSPixels); windowHeightCSS = NSToIntRound(windowHeightCSS / devicePerCSSPixels); // Get the content size for calculating chrome UI size. GetPrimaryContentSize(&contentWidthCSS, &contentHeightCSS); // Calculate the chrome UI size. int32_t chromeWidth = 0, chromeHeight = 0; chromeWidth = windowWidthCSS - contentWidthCSS; chromeHeight = windowHeightCSS - contentHeightCSS; int32_t targetContentWidth = 0, targetContentHeight = 0; // Here, we use the available screen dimensions as the input dimensions to // force the window to be rounded as the maximum available content size. nsContentUtils::CalcRoundedWindowSizeForResistingFingerprinting( chromeWidth, chromeHeight, availWidthCSS, availHeightCSS, availWidthCSS, availHeightCSS, false, // aSetOuterWidth false, // aSetOuterHeight &targetContentWidth, &targetContentHeight); targetContentWidth = NSToIntRound(targetContentWidth * devicePerCSSPixels); targetContentHeight = NSToIntRound(targetContentHeight * devicePerCSSPixels); SetPrimaryContentSize(targetContentWidth, targetContentHeight); return NS_OK; } void nsXULWindow::OnChromeLoaded() { nsresult rv = EnsureContentTreeOwner(); if (NS_SUCCEEDED(rv)) { mChromeLoaded = true; ApplyChromeFlags(); SyncAttributesToWidget(); if (mWindow) { SizeShell(); if (mShowAfterLoad) { SetVisibility(true); } AddTooltipSupport(); } // At this point the window may have been closed already during Show() or // SyncAttributesToWidget(), so nsXULWindow::Destroy may already have been // called. Take care! } mPersistentAttributesMask |= PAD_POSITION | PAD_SIZE | PAD_MISC; } bool nsXULWindow::NeedsTooltipListener() { nsCOMPtr docShellElement = GetWindowDOMElement(); if (!docShellElement || docShellElement->IsXULElement()) { // Tooltips in XUL are handled by each element. return false; } // All other non-XUL document types need a tooltip listener. return true; } void nsXULWindow::AddTooltipSupport() { if (!NeedsTooltipListener()) { return; } nsXULTooltipListener* listener = nsXULTooltipListener::GetInstance(); if (!listener) { return; } nsCOMPtr docShellElement = GetWindowDOMElement(); MOZ_ASSERT(docShellElement); listener->AddTooltipSupport(docShellElement); } void nsXULWindow::RemoveTooltipSupport() { if (!NeedsTooltipListener()) { return; } nsXULTooltipListener* listener = nsXULTooltipListener::GetInstance(); if (!listener) { return; } nsCOMPtr docShellElement = GetWindowDOMElement(); MOZ_ASSERT(docShellElement); listener->RemoveTooltipSupport(docShellElement); } // If aSpecWidth and/or aSpecHeight are > 0, we will use these CSS px sizes // to fit to the screen when staggering windows; if they're negative, // we use the window's current size instead. bool nsXULWindow::LoadPositionFromXUL(int32_t aSpecWidth, int32_t aSpecHeight) { bool gotPosition = false; // if we're the hidden window, don't try to validate our size/position. We're // special. if (mIsHiddenWindow) return false; nsCOMPtr windowElement = GetWindowDOMElement(); NS_ENSURE_TRUE(windowElement, false); int32_t currX = 0; int32_t currY = 0; int32_t currWidth = 0; int32_t currHeight = 0; nsresult errorCode; int32_t temp; GetPositionAndSize(&currX, &currY, &currWidth, &currHeight); // Convert to global display pixels for consistent window management across // screens with diverse resolutions double devToDesktopScale = 1.0 / mWindow->GetDesktopToDeviceScale().scale; currX = NSToIntRound(currX * devToDesktopScale); currY = NSToIntRound(currY * devToDesktopScale); // For size, use specified value if > 0, else current value double devToCSSScale = 1.0 / mWindow->GetDefaultScale().scale; int32_t cssWidth = aSpecWidth > 0 ? aSpecWidth : NSToIntRound(currWidth * devToCSSScale); int32_t cssHeight = aSpecHeight > 0 ? aSpecHeight : NSToIntRound(currHeight * devToCSSScale); // Obtain the position information from the element. int32_t specX = currX; int32_t specY = currY; nsAutoString posString; windowElement->GetAttribute(SCREENX_ATTRIBUTE, posString); temp = posString.ToInteger(&errorCode); if (NS_SUCCEEDED(errorCode)) { specX = temp; gotPosition = true; } windowElement->GetAttribute(SCREENY_ATTRIBUTE, posString); temp = posString.ToInteger(&errorCode); if (NS_SUCCEEDED(errorCode)) { specY = temp; gotPosition = true; } if (gotPosition) { // our position will be relative to our parent, if any nsCOMPtr parent(do_QueryReferent(mParentWindow)); if (parent) { int32_t parentX, parentY; if (NS_SUCCEEDED(parent->GetPosition(&parentX, &parentY))) { double scale; if (NS_SUCCEEDED(parent->GetDevicePixelsPerDesktopPixel(&scale))) { parentX = NSToIntRound(parentX / scale); parentY = NSToIntRound(parentY / scale); } specX += parentX; specY += parentY; } } else { StaggerPosition(specX, specY, cssWidth, cssHeight); } } mWindow->ConstrainPosition(false, &specX, &specY); if (specX != currX || specY != currY) { SetPositionDesktopPix(specX, specY); } return gotPosition; } static Maybe ReadIntAttribute(const Element& aElement, nsAtom* aAtom) { nsAutoString attrString; if (!aElement.GetAttr(kNameSpaceID_None, aAtom, attrString)) { return Nothing(); } nsresult res = NS_OK; int32_t ret = attrString.ToInteger(&res); return NS_SUCCEEDED(res) ? Some(ret) : Nothing(); } static Maybe ReadSize(const Element& aElement, nsAtom* aAttr, nsAtom* aMinAttr, nsAtom* aMaxAttr) { Maybe attr = ReadIntAttribute(aElement, aAttr); if (!attr) { return Nothing(); } int32_t min = std::max(100, ReadIntAttribute(aElement, aMinAttr).valueOr(100)); int32_t max = ReadIntAttribute(aElement, aMaxAttr) .valueOr(std::numeric_limits::max()); return Some(std::min(max, std::max(*attr, min))); } bool nsXULWindow::LoadSizeFromXUL(int32_t& aSpecWidth, int32_t& aSpecHeight) { bool gotSize = false; // if we're the hidden window, don't try to validate our size/position. We're // special. if (mIsHiddenWindow) { return false; } nsCOMPtr windowElement = GetWindowDOMElement(); NS_ENSURE_TRUE(windowElement, false); // Obtain the sizing information from the element. aSpecWidth = 100; aSpecHeight = 100; if (auto width = ReadSize(*windowElement, nsGkAtoms::width, nsGkAtoms::minwidth, nsGkAtoms::maxwidth)) { aSpecWidth = *width; gotSize = true; } if (auto height = ReadSize(*windowElement, nsGkAtoms::height, nsGkAtoms::minheight, nsGkAtoms::maxheight)) { aSpecHeight = *height; gotSize = true; } return gotSize; } void nsXULWindow::SetSpecifiedSize(int32_t aSpecWidth, int32_t aSpecHeight) { // constrain to screen size int32_t screenWidth; int32_t screenHeight; if (NS_SUCCEEDED(GetAvailScreenSize(&screenWidth, &screenHeight))) { if (aSpecWidth > screenWidth) { aSpecWidth = screenWidth; } if (aSpecHeight > screenHeight) { aSpecHeight = screenHeight; } } NS_ASSERTION(mWindow, "we expected to have a window already"); int32_t currWidth = 0; int32_t currHeight = 0; GetSize(&currWidth, &currHeight); // returns device pixels // convert specified values to device pixels, and resize if needed double cssToDevPx = mWindow ? mWindow->GetDefaultScale().scale : 1.0; aSpecWidth = NSToIntRound(aSpecWidth * cssToDevPx); aSpecHeight = NSToIntRound(aSpecHeight * cssToDevPx); mIntrinsicallySized = false; if (aSpecWidth != currWidth || aSpecHeight != currHeight) { SetSize(aSpecWidth, aSpecHeight, false); } } /* Miscellaneous persistent attributes are attributes named in the |persist| attribute, other than size and position. Those are special because it's important to load those before one of the misc attributes (sizemode) and they require extra processing. */ bool nsXULWindow::UpdateWindowStateFromMiscXULAttributes() { bool gotState = false; /* There are no misc attributes of interest to the hidden window. It's especially important not to try to validate that window's size or position, because some platforms (Mac OS X) need to make it visible and offscreen. */ if (mIsHiddenWindow) return false; nsCOMPtr windowElement = GetWindowDOMElement(); NS_ENSURE_TRUE(windowElement, false); nsAutoString stateString; nsSizeMode sizeMode = nsSizeMode_Normal; // If we are told to ignore the size mode attribute, force // normal sizemode. if (mIgnoreXULSizeMode) { windowElement->SetAttribute(MODE_ATTRIBUTE, NS_LITERAL_STRING("normal"), IgnoreErrors()); } else { // Otherwise, read sizemode from DOM and, if the window is resizable, // set it later. windowElement->GetAttribute(MODE_ATTRIBUTE, stateString); if ((stateString.Equals(SIZEMODE_MAXIMIZED) || stateString.Equals(SIZEMODE_FULLSCREEN))) { /* Honor request to maximize only if the window is sizable. An unsizable, unmaximizable, yet maximized window confuses Windows OS and is something of a travesty, anyway. */ if (mChromeFlags & nsIWebBrowserChrome::CHROME_WINDOW_RESIZE) { mIntrinsicallySized = false; if (stateString.Equals(SIZEMODE_MAXIMIZED)) sizeMode = nsSizeMode_Maximized; else sizeMode = nsSizeMode_Fullscreen; } } } if (sizeMode == nsSizeMode_Fullscreen) { nsCOMPtr ourWindow; GetWindowDOMWindow(getter_AddRefs(ourWindow)); auto* piWindow = nsPIDOMWindowOuter::From(ourWindow); piWindow->SetFullScreen(true); } else { // For maximized windows, ignore the XUL size and position attributes, // as setting them would set the window back to normal sizemode. if (sizeMode == nsSizeMode_Maximized) { mIgnoreXULSize = true; mIgnoreXULPosition = true; } mWindow->SetSizeMode(sizeMode); } gotState = true; // zlevel windowElement->GetAttribute(ZLEVEL_ATTRIBUTE, stateString); if (!stateString.IsEmpty()) { nsresult errorCode; int32_t zLevel = stateString.ToInteger(&errorCode); if (NS_SUCCEEDED(errorCode) && zLevel >= lowestZ && zLevel <= highestZ) SetZLevel(zLevel); } return gotState; } /* Stagger windows of the same type so they don't appear on top of each other. This code does have a scary double loop -- it'll keep passing through the entire list of open windows until it finds a non-collision. Doesn't seem to be a problem, but it deserves watching. The aRequested{X,Y} parameters here are in desktop pixels; the aSpec{Width,Height} parameters are CSS pixel dimensions. */ void nsXULWindow::StaggerPosition(int32_t& aRequestedX, int32_t& aRequestedY, int32_t aSpecWidth, int32_t aSpecHeight) { // These "constants" will be converted from CSS to desktop pixels // for the appropriate screen, assuming we find a screen to use... // hence they're not actually declared const here. int32_t kOffset = 22; uint32_t kSlop = 4; bool keepTrying; int bouncedX = 0, // bounced off vertical edge of screen bouncedY = 0; // bounced off horizontal edge // look for any other windows of this type nsCOMPtr wm(do_GetService(NS_WINDOWMEDIATOR_CONTRACTID)); if (!wm) return; nsCOMPtr windowElement = GetWindowDOMElement(); if (!windowElement) return; nsCOMPtr ourXULWindow(this); nsAutoString windowType; windowElement->GetAttribute(WINDOWTYPE_ATTRIBUTE, windowType); int32_t screenTop = 0, // it's pointless to initialize these ... screenRight = 0, // ... but to prevent oversalubrious and ... screenBottom = 0, // ... underbright compilers from ... screenLeft = 0; // ... issuing warnings. bool gotScreen = false; { // fetch screen coordinates nsCOMPtr screenMgr( do_GetService("@mozilla.org/gfx/screenmanager;1")); if (screenMgr) { nsCOMPtr ourScreen; // the coordinates here are already display pixels screenMgr->ScreenForRect(aRequestedX, aRequestedY, aSpecWidth, aSpecHeight, getter_AddRefs(ourScreen)); if (ourScreen) { int32_t screenWidth, screenHeight; ourScreen->GetAvailRectDisplayPix(&screenLeft, &screenTop, &screenWidth, &screenHeight); screenBottom = screenTop + screenHeight; screenRight = screenLeft + screenWidth; // Get the screen's scaling factors and convert staggering constants // from CSS px to desktop pixel units double desktopToDeviceScale = 1.0, cssToDeviceScale = 1.0; ourScreen->GetContentsScaleFactor(&desktopToDeviceScale); ourScreen->GetDefaultCSSScaleFactor(&cssToDeviceScale); double cssToDesktopFactor = cssToDeviceScale / desktopToDeviceScale; kOffset = NSToIntRound(kOffset * cssToDesktopFactor); kSlop = NSToIntRound(kSlop * cssToDesktopFactor); // Convert dimensions from CSS to desktop pixels aSpecWidth = NSToIntRound(aSpecWidth * cssToDesktopFactor); aSpecHeight = NSToIntRound(aSpecHeight * cssToDesktopFactor); gotScreen = true; } } } // One full pass through all windows of this type, repeat until no collisions. do { keepTrying = false; nsCOMPtr windowList; wm->GetXULWindowEnumerator(windowType.get(), getter_AddRefs(windowList)); if (!windowList) break; // One full pass through all windows of this type, offset and stop on // collision. do { bool more; windowList->HasMoreElements(&more); if (!more) break; nsCOMPtr supportsWindow; windowList->GetNext(getter_AddRefs(supportsWindow)); nsCOMPtr listXULWindow(do_QueryInterface(supportsWindow)); if (listXULWindow != ourXULWindow) { int32_t listX, listY; nsCOMPtr listBaseWindow( do_QueryInterface(supportsWindow)); listBaseWindow->GetPosition(&listX, &listY); double scale; if (NS_SUCCEEDED( listBaseWindow->GetDevicePixelsPerDesktopPixel(&scale))) { listX = NSToIntRound(listX / scale); listY = NSToIntRound(listY / scale); } if (Abs(listX - aRequestedX) <= kSlop && Abs(listY - aRequestedY) <= kSlop) { // collision! offset and start over if (bouncedX & 0x1) aRequestedX -= kOffset; else aRequestedX += kOffset; aRequestedY += kOffset; if (gotScreen) { // if we're moving to the right and we need to bounce... if (!(bouncedX & 0x1) && ((aRequestedX + aSpecWidth) > screenRight)) { aRequestedX = screenRight - aSpecWidth; ++bouncedX; } // if we're moving to the left and we need to bounce... if ((bouncedX & 0x1) && aRequestedX < screenLeft) { aRequestedX = screenLeft; ++bouncedX; } // if we hit the bottom then bounce to the top if (aRequestedY + aSpecHeight > screenBottom) { aRequestedY = screenTop; ++bouncedY; } } /* loop around again, but it's time to give up once we've covered the screen. there's a potential infinite loop with lots of windows. */ keepTrying = bouncedX < 2 || bouncedY == 0; break; } } } while (1); } while (keepTrying); } void nsXULWindow::SyncAttributesToWidget() { nsCOMPtr windowElement = GetWindowDOMElement(); if (!windowElement) return; MOZ_DIAGNOSTIC_ASSERT(mWindow, "No widget on SyncAttributesToWidget?"); nsAutoString attr; // "hidechrome" attribute if (windowElement->AttrValueIs(kNameSpaceID_None, nsGkAtoms::hidechrome, nsGkAtoms::_true, eCaseMatters)) { mWindow->HideWindowChrome(true); } NS_ENSURE_TRUE_VOID(mWindow); // "chromemargin" attribute nsIntMargin margins; windowElement->GetAttribute(NS_LITERAL_STRING("chromemargin"), attr); if (nsContentUtils::ParseIntMarginValue(attr, margins)) { LayoutDeviceIntMargin tmp = LayoutDeviceIntMargin::FromUnknownMargin(margins); mWindow->SetNonClientMargins(tmp); } NS_ENSURE_TRUE_VOID(mWindow); // "windowtype" attribute windowElement->GetAttribute(WINDOWTYPE_ATTRIBUTE, attr); if (!attr.IsEmpty()) { mWindow->SetWindowClass(attr); } NS_ENSURE_TRUE_VOID(mWindow); // "icon" attribute windowElement->GetAttribute(NS_LITERAL_STRING("icon"), attr); if (!attr.IsEmpty()) { mWindow->SetIcon(attr); NS_ENSURE_TRUE_VOID(mWindow); } // "drawtitle" attribute windowElement->GetAttribute(NS_LITERAL_STRING("drawtitle"), attr); mWindow->SetDrawsTitle(attr.LowerCaseEqualsLiteral("true")); NS_ENSURE_TRUE_VOID(mWindow); // "toggletoolbar" attribute windowElement->GetAttribute(NS_LITERAL_STRING("toggletoolbar"), attr); mWindow->SetShowsToolbarButton(attr.LowerCaseEqualsLiteral("true")); NS_ENSURE_TRUE_VOID(mWindow); // "fullscreenbutton" attribute windowElement->GetAttribute(NS_LITERAL_STRING("fullscreenbutton"), attr); mWindow->SetShowsFullScreenButton(attr.LowerCaseEqualsLiteral("true")); NS_ENSURE_TRUE_VOID(mWindow); // "macanimationtype" attribute windowElement->GetAttribute(NS_LITERAL_STRING("macanimationtype"), attr); if (attr.EqualsLiteral("document")) { mWindow->SetWindowAnimationType(nsIWidget::eDocumentWindowAnimation); } } enum class ConversionDirection { InnerToOuter, OuterToInner, }; static void ConvertWindowSize(nsIXULWindow* aWin, const nsAtom* aAttr, ConversionDirection aDirection, nsAString& aInOutString) { MOZ_ASSERT(aWin); MOZ_ASSERT(aAttr == nsGkAtoms::width || aAttr == nsGkAtoms::height); nsresult rv; int32_t size = aInOutString.ToInteger(&rv); if (NS_FAILED(rv)) { return; } int32_t sizeDiff = aAttr == nsGkAtoms::width ? aWin->GetOuterToInnerWidthDifferenceInCSSPixels() : aWin->GetOuterToInnerHeightDifferenceInCSSPixels(); if (!sizeDiff) { return; } int32_t multiplier = aDirection == ConversionDirection::InnerToOuter ? 1 : -1; CopyASCIItoUTF16(nsPrintfCString("%d", size + multiplier * sizeDiff), aInOutString); } nsresult nsXULWindow::GetPersistentValue(const nsAtom* aAttr, nsAString& aValue) { nsCOMPtr docShellElement = GetWindowDOMElement(); if (!docShellElement) { return NS_ERROR_FAILURE; } nsAutoString windowElementId; docShellElement->GetId(windowElementId); // Elements must have an ID to be persisted. if (windowElementId.IsEmpty()) { return NS_OK; } RefPtr ownerDoc = docShellElement->OwnerDoc(); nsIURI* docURI = ownerDoc->GetDocumentURI(); if (!docURI) { return NS_ERROR_FAILURE; } nsAutoCString utf8uri; nsresult rv = docURI->GetSpec(utf8uri); NS_ENSURE_SUCCESS(rv, rv); NS_ConvertUTF8toUTF16 uri(utf8uri); #ifdef MOZ_NEW_XULSTORE nsDependentAtomString attrString(aAttr); rv = XULStore::GetValue(uri, windowElementId, attrString, aValue); #else if (!mLocalStore) { mLocalStore = do_GetService("@mozilla.org/xul/xulstore;1"); if (NS_WARN_IF(!mLocalStore)) { return NS_ERROR_NOT_INITIALIZED; } } rv = mLocalStore->GetValue(uri, windowElementId, nsDependentAtomString(aAttr), aValue); #endif if (NS_WARN_IF(NS_FAILED(rv))) { return rv; } if (aAttr == nsGkAtoms::width || aAttr == nsGkAtoms::height) { // Convert attributes from outer size to inner size for top-level // windows, see bug 1444525 & co. ConvertWindowSize(this, aAttr, ConversionDirection::OuterToInner, aValue); } return NS_OK; } nsresult nsXULWindow::SetPersistentValue(const nsAtom* aAttr, const nsAString& aValue) { nsCOMPtr docShellElement = GetWindowDOMElement(); if (!docShellElement) { return NS_ERROR_FAILURE; } nsAutoString windowElementId; docShellElement->GetId(windowElementId); // Match the behavior of XULDocument and only persist values if the element // has an ID. if (windowElementId.IsEmpty()) { return NS_OK; } RefPtr ownerDoc = docShellElement->OwnerDoc(); nsIURI* docURI = ownerDoc->GetDocumentURI(); if (!docURI) { return NS_ERROR_FAILURE; } nsAutoCString utf8uri; nsresult rv = docURI->GetSpec(utf8uri); if (NS_WARN_IF(NS_FAILED(rv))) { return rv; } NS_ConvertUTF8toUTF16 uri(utf8uri); nsAutoString maybeConvertedValue(aValue); if (aAttr == nsGkAtoms::width || aAttr == nsGkAtoms::height) { // Make sure we store the attributes as outer window size, see // bug 1444525 & co. ConvertWindowSize(this, aAttr, ConversionDirection::InnerToOuter, maybeConvertedValue); } #ifdef MOZ_NEW_XULSTORE nsDependentAtomString attrString(aAttr); return XULStore::SetValue(uri, windowElementId, attrString, maybeConvertedValue); #else if (!mLocalStore) { mLocalStore = do_GetService("@mozilla.org/xul/xulstore;1"); if (NS_WARN_IF(!mLocalStore)) { return NS_ERROR_NOT_INITIALIZED; } } return mLocalStore->SetValue( uri, windowElementId, nsDependentAtomString(aAttr), maybeConvertedValue); #endif } NS_IMETHODIMP nsXULWindow::SavePersistentAttributes() { // can happen when the persistence timer fires at an inopportune time // during window shutdown if (!mDocShell) return NS_ERROR_FAILURE; nsCOMPtr docShellElement = GetWindowDOMElement(); if (!docShellElement) return NS_ERROR_FAILURE; nsAutoString persistString; docShellElement->GetAttribute(PERSIST_ATTRIBUTE, persistString); if (persistString.IsEmpty()) { // quick check which sometimes helps mPersistentAttributesDirty = 0; return NS_OK; } bool isFullscreen = false; if (nsPIDOMWindowOuter* domWindow = mDocShell->GetWindow()) { isFullscreen = domWindow->GetFullScreen(); } // get our size, position and mode to persist LayoutDeviceIntRect rect; bool gotRestoredBounds = NS_SUCCEEDED(mWindow->GetRestoredBounds(rect)); // we use CSS pixels for size, but desktop pixels for position CSSToLayoutDeviceScale sizeScale = mWindow->GetDefaultScale(); DesktopToLayoutDeviceScale posScale = mWindow->GetDesktopToDeviceScale(); // make our position relative to our parent, if any nsCOMPtr parent(do_QueryReferent(mParentWindow)); if (parent && gotRestoredBounds) { int32_t parentX, parentY; if (NS_SUCCEEDED(parent->GetPosition(&parentX, &parentY))) { rect.MoveBy(-parentX, -parentY); } } nsAutoString sizeString; bool shouldPersist = !isFullscreen; ErrorResult rv; // (only for size elements which are persisted) if ((mPersistentAttributesDirty & PAD_POSITION) && gotRestoredBounds) { if (persistString.Find("screenX") >= 0) { sizeString.Truncate(); sizeString.AppendInt(NSToIntRound(rect.X() / posScale.scale)); docShellElement->SetAttribute(SCREENX_ATTRIBUTE, sizeString, rv); if (shouldPersist) { Unused << SetPersistentValue(nsGkAtoms::screenX, sizeString); } } if (persistString.Find("screenY") >= 0) { sizeString.Truncate(); sizeString.AppendInt(NSToIntRound(rect.Y() / posScale.scale)); docShellElement->SetAttribute(SCREENY_ATTRIBUTE, sizeString, rv); if (shouldPersist) { Unused << SetPersistentValue(nsGkAtoms::screenY, sizeString); } } } if ((mPersistentAttributesDirty & PAD_SIZE) && gotRestoredBounds) { LayoutDeviceIntRect innerRect = rect - GetOuterToInnerSizeDifference(mWindow); if (persistString.Find("width") >= 0) { sizeString.Truncate(); sizeString.AppendInt(NSToIntRound(innerRect.Width() / sizeScale.scale)); docShellElement->SetAttribute(WIDTH_ATTRIBUTE, sizeString, rv); if (shouldPersist) { Unused << SetPersistentValue(nsGkAtoms::width, sizeString); } } if (persistString.Find("height") >= 0) { sizeString.Truncate(); sizeString.AppendInt(NSToIntRound(innerRect.Height() / sizeScale.scale)); docShellElement->SetAttribute(HEIGHT_ATTRIBUTE, sizeString, rv); if (shouldPersist) { Unused << SetPersistentValue(nsGkAtoms::height, sizeString); } } } if (mPersistentAttributesDirty & PAD_MISC) { nsSizeMode sizeMode = mWindow->SizeMode(); if (sizeMode != nsSizeMode_Minimized) { if (sizeMode == nsSizeMode_Maximized) sizeString.Assign(SIZEMODE_MAXIMIZED); else if (sizeMode == nsSizeMode_Fullscreen) sizeString.Assign(SIZEMODE_FULLSCREEN); else sizeString.Assign(SIZEMODE_NORMAL); docShellElement->SetAttribute(MODE_ATTRIBUTE, sizeString, rv); if (shouldPersist && persistString.Find("sizemode") >= 0) { Unused << SetPersistentValue(nsGkAtoms::sizemode, sizeString); } } if (persistString.Find("zlevel") >= 0) { uint32_t zLevel; nsCOMPtr mediator( do_GetService(NS_WINDOWMEDIATOR_CONTRACTID)); if (mediator) { mediator->GetZLevel(this, &zLevel); sizeString.Truncate(); sizeString.AppendInt(zLevel); docShellElement->SetAttribute(ZLEVEL_ATTRIBUTE, sizeString, rv); if (shouldPersist) { Unused << SetPersistentValue(nsGkAtoms::zlevel, sizeString); } } } } mPersistentAttributesDirty = 0; return NS_OK; } NS_IMETHODIMP nsXULWindow::GetWindowDOMWindow(mozIDOMWindowProxy** aDOMWindow) { NS_ENSURE_STATE(mDocShell); if (!mDOMWindow) mDOMWindow = mDocShell->GetWindow(); NS_ENSURE_TRUE(mDOMWindow, NS_ERROR_FAILURE); *aDOMWindow = mDOMWindow; NS_ADDREF(*aDOMWindow); return NS_OK; } dom::Element* nsXULWindow::GetWindowDOMElement() const { NS_ENSURE_TRUE(mDocShell, nullptr); nsCOMPtr cv; mDocShell->GetContentViewer(getter_AddRefs(cv)); NS_ENSURE_TRUE(cv, nullptr); const dom::Document* document = cv->GetDocument(); NS_ENSURE_TRUE(document, nullptr); return document->GetRootElement(); } nsresult nsXULWindow::ContentShellAdded(nsIDocShellTreeItem* aContentShell, bool aPrimary) { // Set the default content tree owner if (aPrimary) { NS_ENSURE_SUCCESS(EnsurePrimaryContentTreeOwner(), NS_ERROR_FAILURE); aContentShell->SetTreeOwner(mPrimaryContentTreeOwner); mPrimaryContentShell = aContentShell; mPrimaryBrowserParent = nullptr; } else { NS_ENSURE_SUCCESS(EnsureContentTreeOwner(), NS_ERROR_FAILURE); aContentShell->SetTreeOwner(mContentTreeOwner); if (mPrimaryContentShell == aContentShell) mPrimaryContentShell = nullptr; } return NS_OK; } nsresult nsXULWindow::ContentShellRemoved(nsIDocShellTreeItem* aContentShell) { if (mPrimaryContentShell == aContentShell) { mPrimaryContentShell = nullptr; } return NS_OK; } NS_IMETHODIMP nsXULWindow::GetPrimaryContentSize(int32_t* aWidth, int32_t* aHeight) { if (mPrimaryBrowserParent) { return GetPrimaryRemoteTabSize(aWidth, aHeight); } else if (mPrimaryContentShell) { return GetPrimaryContentShellSize(aWidth, aHeight); } return NS_ERROR_UNEXPECTED; } nsresult nsXULWindow::GetPrimaryRemoteTabSize(int32_t* aWidth, int32_t* aHeight) { BrowserHost* host = BrowserHost::GetFrom(mPrimaryBrowserParent.get()); // Need strong ref, since Client* can run script. nsCOMPtr element = host->GetOwnerElement(); NS_ENSURE_STATE(element); *aWidth = element->ClientWidth(); *aHeight = element->ClientHeight(); return NS_OK; } nsresult nsXULWindow::GetPrimaryContentShellSize(int32_t* aWidth, int32_t* aHeight) { NS_ENSURE_STATE(mPrimaryContentShell); nsCOMPtr shellWindow(do_QueryInterface(mPrimaryContentShell)); NS_ENSURE_STATE(shellWindow); int32_t devicePixelWidth, devicePixelHeight; double shellScale = 1.0; // We want to return CSS pixels. First, we get device pixels // from the content area... shellWindow->GetSize(&devicePixelWidth, &devicePixelHeight); // And then get the device pixel scaling factor. Dividing device // pixels by this scaling factor gives us CSS pixels. shellWindow->GetUnscaledDevicePixelsPerCSSPixel(&shellScale); *aWidth = NSToIntRound(devicePixelWidth / shellScale); *aHeight = NSToIntRound(devicePixelHeight / shellScale); return NS_OK; } NS_IMETHODIMP nsXULWindow::SetPrimaryContentSize(int32_t aWidth, int32_t aHeight) { if (mPrimaryBrowserParent) { return SetPrimaryRemoteTabSize(aWidth, aHeight); } else if (mPrimaryContentShell) { return SizeShellTo(mPrimaryContentShell, aWidth, aHeight); } return NS_ERROR_UNEXPECTED; } nsresult nsXULWindow::SetPrimaryRemoteTabSize(int32_t aWidth, int32_t aHeight) { int32_t shellWidth, shellHeight; GetPrimaryRemoteTabSize(&shellWidth, &shellHeight); double scale = 1.0; GetUnscaledDevicePixelsPerCSSPixel(&scale); SizeShellToWithLimit(aWidth, aHeight, shellWidth * scale, shellHeight * scale); return NS_OK; } nsresult nsXULWindow::GetRootShellSize(int32_t* aWidth, int32_t* aHeight) { nsCOMPtr shellAsWin = do_QueryInterface(mDocShell); NS_ENSURE_TRUE(shellAsWin, NS_ERROR_FAILURE); return shellAsWin->GetSize(aWidth, aHeight); } nsresult nsXULWindow::SetRootShellSize(int32_t aWidth, int32_t aHeight) { nsCOMPtr docShellAsItem = mDocShell; return SizeShellTo(docShellAsItem, aWidth, aHeight); } NS_IMETHODIMP nsXULWindow::SizeShellTo(nsIDocShellTreeItem* aShellItem, int32_t aCX, int32_t aCY) { // XXXTAB This is wrong, we should actually reflow based on the passed in // shell. For now we are hacking and doing delta sizing. This is bad // because it assumes all size we add will go to the shell which probably // won't happen. nsCOMPtr shellAsWin(do_QueryInterface(aShellItem)); NS_ENSURE_TRUE(shellAsWin, NS_ERROR_FAILURE); int32_t width = 0; int32_t height = 0; shellAsWin->GetSize(&width, &height); SizeShellToWithLimit(aCX, aCY, width, height); return NS_OK; } NS_IMETHODIMP nsXULWindow::ExitModalLoop(nsresult aStatus) { if (mContinueModalLoop) EnableParent(true); mContinueModalLoop = false; mModalStatus = aStatus; return NS_OK; } // top-level function to create a new window NS_IMETHODIMP nsXULWindow::CreateNewWindow(int32_t aChromeFlags, nsIRemoteTab* aOpeningTab, mozIDOMWindowProxy* aOpener, uint64_t aNextRemoteTabId, nsIXULWindow** _retval) { NS_ENSURE_ARG_POINTER(_retval); if (aChromeFlags & nsIWebBrowserChrome::CHROME_OPENAS_CHROME) { MOZ_RELEASE_ASSERT( aNextRemoteTabId == 0, "Unexpected next remote tab ID, should never have a non-zero " "aNextRemoteTabId when creating a new chrome window"); return CreateNewChromeWindow(aChromeFlags, aOpeningTab, aOpener, _retval); } return CreateNewContentWindow(aChromeFlags, aOpeningTab, aOpener, aNextRemoteTabId, _retval); } NS_IMETHODIMP nsXULWindow::CreateNewChromeWindow(int32_t aChromeFlags, nsIRemoteTab* aOpeningTab, mozIDOMWindowProxy* aOpener, nsIXULWindow** _retval) { nsCOMPtr appShell( do_GetService(NS_APPSHELLSERVICE_CONTRACTID)); NS_ENSURE_TRUE(appShell, NS_ERROR_FAILURE); // Just do a normal create of a window and return. nsCOMPtr newWindow; appShell->CreateTopLevelWindow( this, nullptr, aChromeFlags, nsIAppShellService::SIZE_TO_CONTENT, nsIAppShellService::SIZE_TO_CONTENT, aOpeningTab, aOpener, getter_AddRefs(newWindow)); NS_ENSURE_TRUE(newWindow, NS_ERROR_FAILURE); *_retval = newWindow; NS_ADDREF(*_retval); return NS_OK; } NS_IMETHODIMP nsXULWindow::CreateNewContentWindow(int32_t aChromeFlags, nsIRemoteTab* aOpeningTab, mozIDOMWindowProxy* aOpener, uint64_t aNextRemoteTabId, nsIXULWindow** _retval) { nsCOMPtr appShell( do_GetService(NS_APPSHELLSERVICE_CONTRACTID)); NS_ENSURE_TRUE(appShell, NS_ERROR_FAILURE); // We need to create a new top level window and then enter a nested // loop. Eventually the new window will be told that it has loaded, // at which time we know it is safe to spin out of the nested loop // and allow the opening code to proceed. nsCOMPtr uri; nsAutoCString urlStr; urlStr.AssignLiteral(BROWSER_CHROME_URL_QUOTED); nsCOMPtr service(do_GetService(NS_IOSERVICE_CONTRACTID)); if (service) { service->NewURI(urlStr, nullptr, nullptr, getter_AddRefs(uri)); } NS_ENSURE_TRUE(uri, NS_ERROR_FAILURE); // We need to create a chrome window to contain the content window we're about // to pass back. The subject principal needs to be system while we're creating // it to make things work right, so force a system caller. See bug 799348 // comment 13 for a description of what happens when we don't. nsCOMPtr newWindow; { AutoNoJSAPI nojsapi; // We actually want this toplevel window which we are creating to have a // null opener, as we will be creating the content xul:browser window inside // of it, so we pass nullptr as our aOpener. appShell->CreateTopLevelWindow(this, uri, aChromeFlags, 615, 480, aOpeningTab, nullptr, getter_AddRefs(newWindow)); NS_ENSURE_TRUE(newWindow, NS_ERROR_FAILURE); } // Specify that we want the window to remain locked until the chrome has // loaded. nsXULWindow* xulWin = static_cast(static_cast(newWindow)); if (aNextRemoteTabId) { xulWin->mNextRemoteTabId = aNextRemoteTabId; } if (aOpener) { nsCOMPtr docShell; xulWin->GetDocShell(getter_AddRefs(docShell)); MOZ_ASSERT(docShell); nsCOMPtr window = docShell->GetWindow(); MOZ_ASSERT(window); window->SetOpenerForInitialContentBrowser( nsPIDOMWindowOuter::From(aOpener)->GetBrowsingContext()); } xulWin->LockUntilChromeLoad(); { AutoNoJSAPI nojsapi; SpinEventLoopUntil([&]() { return !xulWin->IsLocked(); }); } NS_ENSURE_STATE(xulWin->mPrimaryContentShell || xulWin->mPrimaryBrowserParent); MOZ_ASSERT_IF(xulWin->mPrimaryContentShell, aNextRemoteTabId == 0); *_retval = newWindow; NS_ADDREF(*_retval); return NS_OK; } NS_IMETHODIMP nsXULWindow::GetHasPrimaryContent(bool* aResult) { *aResult = mPrimaryBrowserParent || mPrimaryContentShell; return NS_OK; } void nsXULWindow::EnableParent(bool aEnable) { nsCOMPtr parentWindow; nsCOMPtr parentWidget; parentWindow = do_QueryReferent(mParentWindow); if (parentWindow) parentWindow->GetMainWidget(getter_AddRefs(parentWidget)); if (parentWidget) parentWidget->Enable(aEnable); } // Constrain the window to its proper z-level bool nsXULWindow::ConstrainToZLevel(bool aImmediate, nsWindowZ* aPlacement, nsIWidget* aReqBelow, nsIWidget** aActualBelow) { #if 0 /* Do we have a parent window? This means our z-order is already constrained, since we're a dependent window. Our window list isn't hierarchical, so we can't properly calculate placement for such a window. Should we just abort? */ nsCOMPtr parentWindow = do_QueryReferent(mParentWindow); if (parentWindow) return false; #endif nsCOMPtr mediator( do_GetService(NS_WINDOWMEDIATOR_CONTRACTID)); if (!mediator) return false; bool altered; uint32_t position, newPosition, zLevel; nsIXULWindow* us = this; altered = false; mediator->GetZLevel(this, &zLevel); // translate from WidgetGUIEvent to nsIWindowMediator constants position = nsIWindowMediator::zLevelTop; if (*aPlacement == nsWindowZBottom || zLevel == nsIXULWindow::lowestZ) position = nsIWindowMediator::zLevelBottom; else if (*aPlacement == nsWindowZRelative) position = nsIWindowMediator::zLevelBelow; if (NS_SUCCEEDED(mediator->CalculateZPosition( us, position, aReqBelow, &newPosition, aActualBelow, &altered))) { /* If we were asked to move to the top but constrained to remain below one of our other windows, first move all windows in that window's layer and above to the top. This allows the user to click a window which can't be topmost and still bring mozilla to the foreground. */ if (altered && (position == nsIWindowMediator::zLevelTop || (position == nsIWindowMediator::zLevelBelow && aReqBelow == 0))) PlaceWindowLayersBehind(zLevel + 1, nsIXULWindow::highestZ, 0); if (*aPlacement != nsWindowZBottom && position == nsIWindowMediator::zLevelBottom) altered = true; if (altered || aImmediate) { if (newPosition == nsIWindowMediator::zLevelTop) *aPlacement = nsWindowZTop; else if (newPosition == nsIWindowMediator::zLevelBottom) *aPlacement = nsWindowZBottom; else *aPlacement = nsWindowZRelative; if (aImmediate) { nsCOMPtr ourBase = do_QueryObject(this); if (ourBase) { nsCOMPtr ourWidget; ourBase->GetMainWidget(getter_AddRefs(ourWidget)); ourWidget->PlaceBehind(*aPlacement == nsWindowZBottom ? eZPlacementBottom : eZPlacementBelow, *aActualBelow, false); } } } /* CalculateZPosition can tell us to be below nothing, because it tries not to change something it doesn't recognize. A request to verify being below an unrecognized window, then, is treated as a request to come to the top (below null) */ nsCOMPtr windowAbove; if (newPosition == nsIWindowMediator::zLevelBelow && *aActualBelow) { windowAbove = (*aActualBelow)->GetWidgetListener()->GetXULWindow(); } mediator->SetZPosition(us, newPosition, windowAbove); } return altered; } /* Re-z-position all windows in the layers from aLowLevel to aHighLevel, inclusive, to be behind aBehind. aBehind of null means on top. Note this method actually does nothing to our relative window positions. (And therefore there's no need to inform WindowMediator we're moving things, because we aren't.) This method is useful for, say, moving a range of layers of our own windows relative to windows belonging to external applications. */ void nsXULWindow::PlaceWindowLayersBehind(uint32_t aLowLevel, uint32_t aHighLevel, nsIXULWindow* aBehind) { // step through windows in z-order from top to bottommost window nsCOMPtr mediator( do_GetService(NS_WINDOWMEDIATOR_CONTRACTID)); if (!mediator) return; nsCOMPtr windowEnumerator; mediator->GetZOrderXULWindowEnumerator(0, true, getter_AddRefs(windowEnumerator)); if (!windowEnumerator) return; // each window will be moved behind previousHighWidget, itself // a moving target. initialize it. nsCOMPtr previousHighWidget; if (aBehind) { nsCOMPtr highBase(do_QueryInterface(aBehind)); if (highBase) highBase->GetMainWidget(getter_AddRefs(previousHighWidget)); } // get next lower window bool more; while (NS_SUCCEEDED(windowEnumerator->HasMoreElements(&more)) && more) { uint32_t nextZ; // z-level of nextWindow nsCOMPtr nextWindow; windowEnumerator->GetNext(getter_AddRefs(nextWindow)); nsCOMPtr nextXULWindow(do_QueryInterface(nextWindow)); nextXULWindow->GetZLevel(&nextZ); if (nextZ < aLowLevel) break; // we've processed all windows through aLowLevel // move it just below its next higher window nsCOMPtr nextBase(do_QueryInterface(nextXULWindow)); if (nextBase) { nsCOMPtr nextWidget; nextBase->GetMainWidget(getter_AddRefs(nextWidget)); if (nextZ <= aHighLevel) nextWidget->PlaceBehind(eZPlacementBelow, previousHighWidget, false); previousHighWidget = nextWidget; } } } void nsXULWindow::SetContentScrollbarVisibility(bool aVisible) { nsCOMPtr contentWin( do_GetInterface(mPrimaryContentShell)); if (!contentWin) { return; } nsContentUtils::SetScrollbarsVisibility(contentWin->GetDocShell(), aVisible); } bool nsXULWindow::GetContentScrollbarVisibility() { // This code already exists in dom/src/base/nsBarProp.cpp, but we // can't safely get to that from here as this function is called // while the DOM window is being set up, and we need the DOM window // to get to that code. nsCOMPtr scroller(do_QueryInterface(mPrimaryContentShell)); if (scroller) { int32_t prefValue; scroller->GetDefaultScrollbarPreferences(nsIScrollable::ScrollOrientation_Y, &prefValue); if (prefValue == nsIScrollable::Scrollbar_Never) // try the other way scroller->GetDefaultScrollbarPreferences( nsIScrollable::ScrollOrientation_X, &prefValue); if (prefValue == nsIScrollable::Scrollbar_Never) return false; } return true; } // during spinup, attributes that haven't been loaded yet can't be dirty void nsXULWindow::PersistentAttributesDirty(uint32_t aDirtyFlags) { mPersistentAttributesDirty |= aDirtyFlags & mPersistentAttributesMask; } void nsXULWindow::ApplyChromeFlags() { nsCOMPtr window = GetWindowDOMElement(); if (!window) { return; } if (mChromeLoaded) { // The two calls in this block don't need to happen early because they // don't cause a global restyle on the document. Not only that, but the // scrollbar stuff needs a content area to toggle the scrollbars on anyway. // So just don't do these until mChromeLoaded is true. // Scrollbars have their own special treatment. SetContentScrollbarVisibility( mChromeFlags & nsIWebBrowserChrome::CHROME_SCROLLBARS ? true : false); } /* the other flags are handled together. we have style rules in navigator.css that trigger visibility based on the 'chromehidden' attribute of the tag. */ nsAutoString newvalue; if (!(mChromeFlags & nsIWebBrowserChrome::CHROME_MENUBAR)) newvalue.AppendLiteral("menubar "); if (!(mChromeFlags & nsIWebBrowserChrome::CHROME_TOOLBAR)) newvalue.AppendLiteral("toolbar "); if (!(mChromeFlags & nsIWebBrowserChrome::CHROME_LOCATIONBAR)) newvalue.AppendLiteral("location "); if (!(mChromeFlags & nsIWebBrowserChrome::CHROME_PERSONAL_TOOLBAR)) newvalue.AppendLiteral("directories "); if (!(mChromeFlags & nsIWebBrowserChrome::CHROME_STATUSBAR)) newvalue.AppendLiteral("status "); if (!(mChromeFlags & nsIWebBrowserChrome::CHROME_EXTRA)) newvalue.AppendLiteral("extrachrome "); // Note that if we're not actually changing the value this will be a no-op, // so no need to compare to the old value. IgnoredErrorResult rv; window->SetAttribute(NS_LITERAL_STRING("chromehidden"), newvalue, rv); } NS_IMETHODIMP nsXULWindow::BeforeStartLayout() { ApplyChromeFlags(); LoadPersistentWindowState(); SyncAttributesToWidget(); if (mWindow) { SizeShell(); } return NS_OK; } NS_IMETHODIMP nsXULWindow::LockAspectRatio(bool aShouldLock) { mWindow->LockAspectRatio(aShouldLock); return NS_OK; } void nsXULWindow::LoadPersistentWindowState() { nsCOMPtr docShellElement = GetWindowDOMElement(); if (!docShellElement) { return; } // Check if the window wants to persist anything. nsAutoString persist; docShellElement->GetAttr(kNameSpaceID_None, nsGkAtoms::persist, persist); if (persist.IsEmpty()) { return; } auto loadValue = [&](const nsAtom* aAttr) { nsDependentAtomString attrString(aAttr); if (persist.Find(attrString) >= 0) { nsAutoString value; nsresult rv = GetPersistentValue(aAttr, value); NS_WARNING_ASSERTION(NS_SUCCEEDED(rv), "Failed to get persistent state."); if (NS_SUCCEEDED(rv) && !value.IsEmpty()) { IgnoredErrorResult err; docShellElement->SetAttribute(attrString, value, err); } } }; loadValue(nsGkAtoms::screenX); loadValue(nsGkAtoms::screenY); loadValue(nsGkAtoms::width); loadValue(nsGkAtoms::height); loadValue(nsGkAtoms::sizemode); } void nsXULWindow::SizeShell() { AutoRestore sizingShellFromXUL(mSizingShellFromXUL); mSizingShellFromXUL = true; int32_t specWidth = -1, specHeight = -1; bool gotSize = false; nsCOMPtr windowElement = GetWindowDOMElement(); nsAutoString windowType; if (windowElement) { windowElement->GetAttribute(WINDOWTYPE_ATTRIBUTE, windowType); } CSSIntSize windowDiff = GetOuterToInnerSizeDifferenceInCSSPixels(mWindow); // If we're using fingerprint resistance, we're going to resize the window // once we have primary content. if (nsContentUtils::ShouldResistFingerprinting() && windowType.EqualsLiteral("navigator:browser")) { // Once we've got primary content, force dimensions. if (mPrimaryContentShell || mPrimaryBrowserParent) { ForceRoundedDimensions(); } // Always avoid setting size/sizemode on this window. mIgnoreXULSize = true; mIgnoreXULSizeMode = true; } else if (!mIgnoreXULSize) { gotSize = LoadSizeFromXUL(specWidth, specHeight); specWidth += windowDiff.width; specHeight += windowDiff.height; } bool positionSet = !mIgnoreXULPosition; nsCOMPtr parentWindow(do_QueryReferent(mParentWindow)); #if defined(XP_UNIX) && !defined(XP_MACOSX) // don't override WM placement on unix for independent, top-level windows // (however, we think the benefits of intelligent dependent window placement // trump that override.) if (!parentWindow) positionSet = false; #endif if (positionSet) { // We have to do this before sizing the window, because sizing depends // on the resolution of the screen we're on. But positioning needs to // know the size so that it can constrain to screen bounds.... as an // initial guess here, we'll use the specified size (if any). positionSet = LoadPositionFromXUL(specWidth, specHeight); } if (gotSize) { SetSpecifiedSize(specWidth, specHeight); } if (mIntrinsicallySized) { // (if LoadSizeFromXUL set the size, mIntrinsicallySized will be false) nsCOMPtr cv; mDocShell->GetContentViewer(getter_AddRefs(cv)); if (cv) { nsCOMPtr docShellAsItem = mDocShell; nsCOMPtr treeOwner; docShellAsItem->GetTreeOwner(getter_AddRefs(treeOwner)); if (treeOwner) { // GetContentSize can fail, so initialise |width| and |height| to be // on the safe side. int32_t width = 0, height = 0; if (NS_SUCCEEDED(cv->GetContentSize(&width, &height))) { treeOwner->SizeShellTo(docShellAsItem, width, height); // Update specified size for the final LoadPositionFromXUL call. specWidth = width + windowDiff.width; specHeight = height + windowDiff.height; } } } } // Now that we have set the window's final size, we can re-do its // positioning so that it is properly constrained to the screen. if (positionSet) { LoadPositionFromXUL(specWidth, specHeight); } UpdateWindowStateFromMiscXULAttributes(); if (mChromeLoaded && mCenterAfterLoad && !positionSet && mWindow->SizeMode() == nsSizeMode_Normal) { Center(parentWindow, parentWindow ? false : true, false); } } NS_IMETHODIMP nsXULWindow::GetXULBrowserWindow( nsIXULBrowserWindow** aXULBrowserWindow) { NS_IF_ADDREF(*aXULBrowserWindow = mXULBrowserWindow); return NS_OK; } NS_IMETHODIMP nsXULWindow::SetXULBrowserWindow( nsIXULBrowserWindow* aXULBrowserWindow) { mXULBrowserWindow = aXULBrowserWindow; return NS_OK; } void nsXULWindow::SizeShellToWithLimit(int32_t aDesiredWidth, int32_t aDesiredHeight, int32_t shellItemWidth, int32_t shellItemHeight) { int32_t widthDelta = aDesiredWidth - shellItemWidth; int32_t heightDelta = aDesiredHeight - shellItemHeight; if (widthDelta || heightDelta) { int32_t winWidth = 0; int32_t winHeight = 0; GetSize(&winWidth, &winHeight); // There's no point in trying to make the window smaller than the // desired content area size --- that's not likely to work. This whole // function assumes that the outer docshell is adding some constant // "border" chrome to the content area. winWidth = std::max(winWidth + widthDelta, aDesiredWidth); winHeight = std::max(winHeight + heightDelta, aDesiredHeight); SetSize(winWidth, winHeight, true); } } nsresult nsXULWindow::GetTabCount(uint32_t* aResult) { if (mXULBrowserWindow) { return mXULBrowserWindow->GetTabCount(aResult); } *aResult = 0; return NS_OK; } nsresult nsXULWindow::GetNextRemoteTabId(uint64_t* aNextRemoteTabId) { NS_ENSURE_ARG_POINTER(aNextRemoteTabId); *aNextRemoteTabId = mNextRemoteTabId; return NS_OK; }