/* -*- Mode: C++; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*- */ /* vim: set ts=2 sw=2 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/. */ #ifndef nsGlobalWindow_h___ #define nsGlobalWindow_h___ #include "mozilla/XPCOM.h" // for TimeStamp/TimeDuration // Local Includes // Helper Classes #include "nsCOMPtr.h" #include "nsAutoPtr.h" #include "nsWeakReference.h" #include "nsHashtable.h" #include "nsDataHashtable.h" #include "nsCycleCollectionParticipant.h" #include "nsDOMScriptObjectHolder.h" // Interfaces Needed #include "nsDOMWindowList.h" #include "nsIBaseWindow.h" #include "nsIBrowserDOMWindow.h" #include "nsIDocShellTreeOwner.h" #include "nsIDocShellTreeItem.h" #include "nsIDOMEventTarget.h" #include "nsIInterfaceRequestor.h" #include "nsIInterfaceRequestorUtils.h" #include "nsIDOMJSWindow.h" #include "nsIDOMChromeWindow.h" #include "nsIScriptGlobalObject.h" #include "nsIScriptContext.h" #include "nsIScriptObjectPrincipal.h" #include "nsIScriptTimeoutHandler.h" #include "nsITimer.h" #include "nsIWebBrowserChrome.h" #include "nsPIDOMWindow.h" #include "nsIDOMModalContentWindow.h" #include "nsIScriptSecurityManager.h" #include "nsEventListenerManager.h" #include "nsIDOMDocument.h" #ifndef MOZ_DISABLE_DOMCRYPTO #include "nsIDOMCrypto.h" #endif #include "nsIPrincipal.h" #include "nsIXPCScriptable.h" #include "nsPoint.h" #include "nsSize.h" #include "nsRect.h" #include "mozFlushType.h" #include "prclist.h" #include "nsIDOMStorageObsolete.h" #include "nsIDOMStorageEvent.h" #include "nsIDOMStorageIndexedDB.h" #include "nsIDOMOfflineResourceList.h" #include "nsIArray.h" #include "nsIContent.h" #include "nsIIDBFactory.h" #include "nsFrameMessageManager.h" #include "mozilla/TimeStamp.h" #include "nsIDOMTouchEvent.h" #include "nsIInlineEventHandlers.h" #include "nsWrapperCacheInlines.h" #include "nsIDOMApplicationRegistry.h" #include "nsIIdleObserver.h" // JS includes #include "jsapi.h" #define DEFAULT_HOME_PAGE "www.mozilla.org" #define PREF_BROWSER_STARTUP_HOMEPAGE "browser.startup.homepage" // Amount of time allowed between alert/prompt/confirm before enabling // the stop dialog checkbox. #define DEFAULT_SUCCESSIVE_DIALOG_TIME_LIMIT 3 // 3 sec // Maximum number of successive dialogs before we prompt users to disable // dialogs for this window. #define MAX_SUCCESSIVE_DIALOG_COUNT 5 // Idle fuzz time upper limit #define MAX_IDLE_FUZZ_TIME_MS 90000 // Min idle notification time in seconds. #define MIN_IDLE_NOTIFICATION_TIME_S 1 class nsIDOMBarProp; class nsIDocument; class nsPresContext; class nsIDOMEvent; class nsIScrollableFrame; class nsIControllers; class nsBarProp; class nsLocation; class nsScreen; class nsHistory; class nsPerformance; class nsIDocShellLoadInfo; class WindowStateHolder; class nsGlobalWindowObserver; class nsGlobalWindow; class PostMessageEvent; class nsRunnable; class nsDOMEventTargetHelper; class nsDOMOfflineResourceList; class nsDOMMozURLProperty; class nsDOMWindowUtils; class nsIIdleService; #ifdef MOZ_DISABLE_DOMCRYPTO class nsIDOMCrypto; #endif class nsWindowSizes; namespace mozilla { namespace dom { class Navigator; } // namespace dom } // namespace mozilla extern nsresult NS_CreateJSTimeoutHandler(nsGlobalWindow *aWindow, bool *aIsInterval, int32_t *aInterval, nsIScriptTimeoutHandler **aRet); /* * Timeout struct that holds information about each script * timeout. Holds a strong reference to an nsIScriptTimeoutHandler, which * abstracts the language specific cruft. */ struct nsTimeout : PRCList { nsTimeout(); ~nsTimeout(); NS_DECL_CYCLE_COLLECTION_LEGACY_NATIVE_CLASS(nsTimeout) nsrefcnt Release(); nsrefcnt AddRef(); nsTimeout* Next() { // Note: might not actually return an nsTimeout. Use IsTimeout to check. return static_cast(PR_NEXT_LINK(this)); } nsTimeout* Prev() { // Note: might not actually return an nsTimeout. Use IsTimeout to check. return static_cast(PR_PREV_LINK(this)); } nsresult InitTimer(nsTimerCallbackFunc aFunc, uint64_t delay) { return mTimer->InitWithFuncCallback(aFunc, this, delay, nsITimer::TYPE_ONE_SHOT); } // Window for which this timeout fires nsRefPtr mWindow; // The actual timer object nsCOMPtr mTimer; // True if the timeout was cleared bool mCleared; // True if this is one of the timeouts that are currently running bool mRunning; // True if this is a repeating/interval timer bool mIsInterval; // Returned as value of setTimeout() uint32_t mPublicId; // Interval in milliseconds uint32_t mInterval; // mWhen and mTimeRemaining can't be in a union, sadly, because they // have constructors. // Nominal time to run this timeout. Use only when timeouts are not // suspended. mozilla::TimeStamp mWhen; // Remaining time to wait. Used only when timeouts are suspended. mozilla::TimeDuration mTimeRemaining; // Principal with which to execute nsCOMPtr mPrincipal; // stack depth at which timeout is firing uint32_t mFiringDepth; // uint32_t mNestingLevel; // The popup state at timeout creation time if not created from // another timeout PopupControlState mPopupState; // The language-specific information about the callback. nsCOMPtr mScriptHandler; private: // reference count for shared usage nsAutoRefCnt mRefCnt; }; struct IdleObserverHolder { nsCOMPtr mIdleObserver; uint32_t mTimeInS; bool mPrevNotificationIdle; IdleObserverHolder() : mTimeInS(0), mPrevNotificationIdle(false) { MOZ_COUNT_CTOR(IdleObserverHolder); } IdleObserverHolder(const IdleObserverHolder& aOther) : mIdleObserver(aOther.mIdleObserver), mTimeInS(aOther.mTimeInS), mPrevNotificationIdle(aOther.mPrevNotificationIdle) { MOZ_COUNT_CTOR(IdleObserverHolder); } bool operator==(const IdleObserverHolder& aOther) const { return mIdleObserver == aOther.mIdleObserver && mTimeInS == aOther.mTimeInS; } ~IdleObserverHolder() { MOZ_COUNT_DTOR(IdleObserverHolder); } }; //***************************************************************************** // nsGlobalWindow: Global Object for Scripting //***************************************************************************** // Beware that all scriptable interfaces implemented by // nsGlobalWindow will be reachable from JS, if you make this class // implement new interfaces you better know what you're // doing. Security wise this is very sensitive code. -- // jst@netscape.com // nsGlobalWindow inherits PRCList for maintaining a list of all inner // windows still in memory for any given outer window. This list is // needed to ensure that mOuterWindow doesn't end up dangling. The // nature of PRCList means that the window itself is always in the // list, and an outer window's list will also contain all inner window // objects that are still in memory (and in reality all inner window // object's lists also contain its outer and all other inner windows // belonging to the same outer window, but that's an unimportant // side effect of inheriting PRCList). class nsGlobalWindow : public nsPIDOMWindow, public nsIScriptGlobalObject, public nsIDOMJSWindow, public nsIScriptObjectPrincipal, public nsIDOMEventTarget, public nsIDOMStorageIndexedDB, public nsSupportsWeakReference, public nsIInterfaceRequestor, public nsWrapperCache, public PRCListStr, public nsIDOMWindowPerformance, public nsITouchEventReceiver, public nsIInlineEventHandlers, public nsIWindowCrypto { public: friend class nsDOMMozURLProperty; typedef mozilla::TimeStamp TimeStamp; typedef mozilla::TimeDuration TimeDuration; typedef mozilla::dom::Navigator Navigator; typedef nsDataHashtable WindowByIdTable; // public methods nsPIDOMWindow* GetPrivateParent(); // callback for close event void ReallyCloseWindow(); // nsISupports NS_DECL_CYCLE_COLLECTING_ISUPPORTS // nsWrapperCache JSObject *WrapObject(JSContext *cx, JSObject *scope, bool *triedToWrap) { NS_ASSERTION(IsOuterWindow(), "Inner window supports nsWrapperCache, fix WrapObject!"); *triedToWrap = true; return EnsureInnerWindow() ? GetWrapper() : nullptr; } // nsIScriptGlobalObject virtual nsIScriptContext *GetContext(); virtual JSObject *GetGlobalJSObject(); JSObject *FastGetGlobalJSObject() { return mJSObject; } virtual nsresult EnsureScriptEnvironment(); virtual nsIScriptContext *GetScriptContext(); virtual void OnFinalize(JSObject* aObject); virtual void SetScriptsEnabled(bool aEnabled, bool aFireTimeouts); virtual bool IsBlackForCC(); // nsIScriptObjectPrincipal virtual nsIPrincipal* GetPrincipal(); // nsIDOMWindow NS_DECL_NSIDOMWINDOW // nsIDOMWindowPerformance NS_DECL_NSIDOMWINDOWPERFORMANCE // nsIDOMJSWindow NS_DECL_NSIDOMJSWINDOW // nsIDOMEventTarget NS_DECL_NSIDOMEVENTTARGET // nsITouchEventReceiver NS_DECL_NSITOUCHEVENTRECEIVER // nsIInlineEventHandlers NS_DECL_NSIINLINEEVENTHANDLERS // nsIWindowCrypto NS_DECL_NSIWINDOWCRYPTO // nsPIDOMWindow virtual NS_HIDDEN_(nsPIDOMWindow*) GetPrivateRoot(); virtual NS_HIDDEN_(void) ActivateOrDeactivate(bool aActivate); virtual NS_HIDDEN_(void) SetActive(bool aActive); virtual NS_HIDDEN_(void) SetIsBackground(bool aIsBackground); virtual NS_HIDDEN_(void) SetChromeEventHandler(nsIDOMEventTarget* aChromeEventHandler); virtual NS_HIDDEN_(void) SetInitialPrincipalToSubject(); virtual NS_HIDDEN_(PopupControlState) PushPopupControlState(PopupControlState state, bool aForce) const; virtual NS_HIDDEN_(void) PopPopupControlState(PopupControlState state) const; virtual NS_HIDDEN_(PopupControlState) GetPopupControlState() const; virtual already_AddRefed SaveWindowState(); virtual NS_HIDDEN_(nsresult) RestoreWindowState(nsISupports *aState); virtual NS_HIDDEN_(void) SuspendTimeouts(uint32_t aIncrease = 1, bool aFreezeChildren = true); virtual NS_HIDDEN_(nsresult) ResumeTimeouts(bool aThawChildren = true); virtual NS_HIDDEN_(uint32_t) TimeoutSuspendCount(); virtual NS_HIDDEN_(nsresult) FireDelayedDOMEvents(); virtual NS_HIDDEN_(bool) IsFrozen() const { return mIsFrozen; } virtual NS_HIDDEN_(bool) WouldReuseInnerWindow(nsIDocument *aNewDocument); virtual NS_HIDDEN_(void) SetDocShell(nsIDocShell* aDocShell); virtual void DetachFromDocShell(); virtual NS_HIDDEN_(nsresult) SetNewDocument(nsIDocument *aDocument, nsISupports *aState, bool aForceReuseInnerWindow); void DispatchDOMWindowCreated(); virtual NS_HIDDEN_(void) SetOpenerWindow(nsIDOMWindow* aOpener, bool aOriginalOpener); virtual NS_HIDDEN_(void) EnsureSizeUpToDate(); virtual NS_HIDDEN_(nsIDOMWindow*) EnterModalState(); virtual NS_HIDDEN_(void) LeaveModalState(nsIDOMWindow* aWindow); virtual NS_HIDDEN_(bool) CanClose(); virtual NS_HIDDEN_(nsresult) ForceClose(); virtual NS_HIDDEN_(void) MaybeUpdateTouchState(); virtual NS_HIDDEN_(void) UpdateTouchState(); virtual NS_HIDDEN_(bool) DispatchCustomEvent(const char *aEventName); virtual NS_HIDDEN_(void) RefreshCompartmentPrincipal(); virtual NS_HIDDEN_(nsresult) SetFullScreenInternal(bool aIsFullScreen, bool aRequireTrust); // nsIDOMStorageIndexedDB NS_DECL_NSIDOMSTORAGEINDEXEDDB // nsIInterfaceRequestor NS_DECL_NSIINTERFACEREQUESTOR // WebIDL interface. uint32_t GetLength(); already_AddRefed IndexedGetter(uint32_t aIndex, bool& aFound); // Object Management nsGlobalWindow(nsGlobalWindow *aOuterWindow); static nsGlobalWindow *FromSupports(nsISupports *supports) { // Make sure this matches the casts we do in QueryInterface(). return (nsGlobalWindow *)(nsIScriptGlobalObject *)supports; } static nsISupports *ToSupports(nsGlobalWindow *win) { // Make sure this matches the casts we do in QueryInterface(). return (nsISupports *)(nsIScriptGlobalObject *)win; } static nsGlobalWindow *FromWrapper(nsIXPConnectWrappedNative *wrapper) { return FromSupports(wrapper->Native()); } /** * Wrap nsIDOMWindow::GetTop so we can overload the inline GetTop() * implementation below. (nsIDOMWindow::GetTop simply calls * nsIDOMWindow::GetRealTop().) */ nsresult GetTop(nsIDOMWindow **aWindow) { return nsIDOMWindow::GetTop(aWindow); } inline nsGlobalWindow *GetTop() { nsCOMPtr top; GetTop(getter_AddRefs(top)); if (top) return static_cast(top.get()); return nullptr; } inline nsGlobalWindow* GetScriptableTop() { nsCOMPtr top; GetScriptableTop(getter_AddRefs(top)); if (top) { return static_cast(top.get()); } return nullptr; } // Returns true if dialogs need to be prevented from appearings for this // window. beingAbused returns whether dialogs are being abused. bool DialogsAreBlocked(bool *aBeingAbused); // Returns true if we've reached the state in this top level window where we // ask the user if further dialogs should be blocked. This method must only // be called on the scriptable top inner window. bool DialogsAreBeingAbused(); // Ask the user if further dialogs should be blocked, if dialogs are currently // being abused. This is used in the cases where we have no modifiable UI to // show, in that case we show a separate dialog to ask this question. bool ConfirmDialogIfNeeded(); // Prevent further dialogs in this (top level) window void PreventFurtherDialogs(bool aPermanent); virtual void SetHasAudioAvailableEventListeners(); nsIScriptContext *GetContextInternal() { if (mOuterWindow) { return GetOuterWindowInternal()->mContext; } return mContext; } nsIScriptContext *GetScriptContextInternal(uint32_t aLangID) { NS_ASSERTION(aLangID == nsIProgrammingLanguage::JAVASCRIPT, "We don't support this language ID"); if (mOuterWindow) { return GetOuterWindowInternal()->mContext; } return mContext; } nsGlobalWindow *GetOuterWindowInternal() { return static_cast(GetOuterWindow()); } nsGlobalWindow *GetCurrentInnerWindowInternal() { return static_cast(mInnerWindow); } nsGlobalWindow *EnsureInnerWindowInternal() { return static_cast(EnsureInnerWindow()); } bool IsCreatingInnerWindow() const { return mCreatingInnerWindow; } bool IsChromeWindow() const { return mIsChrome; } nsresult Observe(nsISupports* aSubject, const char* aTopic, const PRUnichar* aData); static void Init(); static void ShutDown(); static void CleanupCachedXBLHandlers(nsGlobalWindow* aWindow); static bool IsCallerChrome(); static void CloseBlockScriptTerminationFunc(nsISupports *aRef); static void RunPendingTimeoutsRecursive(nsGlobalWindow *aTopWindow, nsGlobalWindow *aWindow); friend class WindowStateHolder; NS_DECL_CYCLE_COLLECTION_SKIPPABLE_SCRIPT_HOLDER_CLASS_AMBIGUOUS(nsGlobalWindow, nsIScriptGlobalObject) virtual NS_HIDDEN_(JSObject*) GetCachedXBLPrototypeHandler(nsXBLPrototypeHandler* aKey); virtual NS_HIDDEN_(void) CacheXBLPrototypeHandler(nsXBLPrototypeHandler* aKey, nsScriptObjectHolder& aHandler); virtual bool TakeFocus(bool aFocus, uint32_t aFocusMethod); virtual void SetReadyForFocus(); virtual void PageHidden(); virtual nsresult DispatchAsyncHashchange(nsIURI *aOldURI, nsIURI *aNewURI); virtual nsresult DispatchSyncPopState(); virtual void EnableDeviceSensor(uint32_t aType); virtual void DisableDeviceSensor(uint32_t aType); virtual void EnableTimeChangeNotifications(); virtual void DisableTimeChangeNotifications(); virtual void EnableNetworkEvent(uint32_t aType); virtual void DisableNetworkEvent(uint32_t aType); virtual nsresult SetArguments(nsIArray *aArguments, nsIPrincipal *aOrigin); static bool DOMWindowDumpEnabled(); void MaybeForgiveSpamCount(); bool IsClosedOrClosing() { return (mIsClosed || mInClose || mHavePendingClose || mCleanedUp); } static void FirePopupBlockedEvent(nsIDOMDocument* aDoc, nsIDOMWindow *aRequestingWindow, nsIURI *aPopupURI, const nsAString &aPopupWindowName, const nsAString &aPopupWindowFeatures); virtual uint32_t GetSerial() { return mSerial; } static nsGlobalWindow* GetOuterWindowWithId(uint64_t aWindowID) { if (!sWindowsById) { return nullptr; } nsGlobalWindow* outerWindow = sWindowsById->Get(aWindowID); return outerWindow && !outerWindow->IsInnerWindow() ? outerWindow : nullptr; } static nsGlobalWindow* GetInnerWindowWithId(uint64_t aInnerWindowID) { if (!sWindowsById) { return nullptr; } nsGlobalWindow* innerWindow = sWindowsById->Get(aInnerWindowID); return innerWindow && innerWindow->IsInnerWindow() ? innerWindow : nullptr; } static bool HasIndexedDBSupport(); static bool HasPerformanceSupport(); static WindowByIdTable* GetWindowsTable() { return sWindowsById; } void SizeOfIncludingThis(nsWindowSizes* aWindowSizes) const; void UnmarkGrayTimers(); void AddEventTargetObject(nsDOMEventTargetHelper* aObject); void RemoveEventTargetObject(nsDOMEventTargetHelper* aObject); void NotifyIdleObserver(IdleObserverHolder* aIdleObserverHolder, bool aCallOnidle); nsresult HandleIdleActiveEvent(); bool ContainsIdleObserver(nsIIdleObserver* aIdleObserver, uint32_t timeInS); void HandleIdleObserverCallback(); void AllowScriptsToClose() { mAllowScriptsToClose = true; } protected: // Array of idle observers that are notified of idle events. nsTObserverArray mIdleObservers; // Idle timer used for function callbacks to notify idle observers. nsCOMPtr mIdleTimer; // Idle fuzz time added to idle timer callbacks. uint32_t mIdleFuzzFactor; // Index in mArrayIdleObservers // Next idle observer to notify user idle status int32_t mIdleCallbackIndex; // If false then the topic is "active" // If true then the topic is "idle" bool mCurrentlyIdle; // Set to true when a fuzz time needs to be applied // to active notifications to the idle observer. bool mAddActiveEventFuzzTime; nsCOMPtr mIdleService; static bool sIdleObserversAPIFuzzTimeDisabled; friend class HashchangeCallback; friend class nsBarProp; // Object Management virtual ~nsGlobalWindow(); void CleanUp(bool aIgnoreModalDialog); void ClearControllers(); nsresult FinalClose(); inline void MaybeClearInnerWindow(nsGlobalWindow* aExpectedInner) { if(mInnerWindow == aExpectedInner) { mInnerWindow = nullptr; } } void FreeInnerObjects(); JSObject *CallerGlobal(); nsGlobalWindow *CallerInnerWindow(); // Only to be called on an inner window. // aDocument must not be null. void InnerSetNewDocument(nsIDocument* aDocument); nsresult DefineArgumentsProperty(nsIArray *aArguments); // Get the parent, returns null if this is a toplevel window nsIDOMWindow* GetParentInternal(); // popup tracking bool IsPopupSpamWindow() { if (IsInnerWindow() && !mOuterWindow) { return false; } return GetOuterWindowInternal()->mIsPopupSpam; } void SetPopupSpamWindow(bool aPopup) { if (IsInnerWindow() && !mOuterWindow) { NS_ERROR("SetPopupSpamWindow() called on inner window w/o an outer!"); return; } GetOuterWindowInternal()->mIsPopupSpam = aPopup; } // Window Control Functions virtual nsresult OpenNoNavigate(const nsAString& aUrl, const nsAString& aName, const nsAString& aOptions, nsIDOMWindow **_retval); /** * @param aUrl the URL we intend to load into the window. If aNavigate is * true, we'll actually load this URL into the window. Otherwise, * aUrl is advisory; OpenInternal will not load the URL into the * new window. * * @param aName the name to use for the new window * * @param aOptions the window options to use for the new window * * @param aDialog true when called from variants of OpenDialog. If this is * true, this method will skip popup blocking checks. The aDialog * argument is passed on to the window watcher. * * @param aCalledNoScript true when called via the [noscript] open() * and openDialog() methods. When this is true, we do NOT want to use * the JS stack for things like caller determination. * * @param aDoJSFixups true when this is the content-accessible JS version of * window opening. When true, popups do not cause us to throw, we save * the caller's principal in the new window for later consumption, and * we make sure that there is a document in the newly-opened window. * Note that this last will only be done if the newly-opened window is * non-chrome. * * @param aNavigate true if we should navigate to the provided URL, false * otherwise. When aNavigate is false, we also skip our can-load * security check, on the assumption that whoever *actually* loads this * page will do their own security check. * * @param argv The arguments to pass to the new window. The first * three args, if present, will be aUrl, aName, and aOptions. So this * param only matters if there are more than 3 arguments. * * @param argc The number of arguments in argv. * * @param aExtraArgument Another way to pass arguments in. This is mutually * exclusive with the argv/argc approach. * * @param aJSCallerContext The calling script's context. This must be null * when aCalledNoScript is true. * * @param aReturn [out] The window that was opened, if any. */ NS_HIDDEN_(nsresult) OpenInternal(const nsAString& aUrl, const nsAString& aName, const nsAString& aOptions, bool aDialog, bool aContentModal, bool aCalledNoScript, bool aDoJSFixups, bool aNavigate, nsIArray *argv, nsISupports *aExtraArgument, nsIPrincipal *aCalleePrincipal, JSContext *aJSCallerContext, nsIDOMWindow **aReturn); static void CloseWindow(nsISupports* aWindow); // Timeout Functions // Language agnostic timeout function (all args passed). // |interval| is in milliseconds. nsresult SetTimeoutOrInterval(nsIScriptTimeoutHandler *aHandler, int32_t interval, bool aIsInterval, int32_t *aReturn); nsresult ClearTimeoutOrInterval(int32_t aTimerID); // JS specific timeout functions (JS args grabbed from context). nsresult SetTimeoutOrInterval(bool aIsInterval, int32_t* aReturn); nsresult ResetTimersForNonBackgroundWindow(); // The timeout implementation functions. void RunTimeout(nsTimeout *aTimeout); void RunTimeout() { RunTimeout(nullptr); } // Return true if |aTimeout| was cleared while its handler ran. bool RunTimeoutHandler(nsTimeout* aTimeout, nsIScriptContext* aScx); // Return true if |aTimeout| needs to be reinserted into the timeout list. bool RescheduleTimeout(nsTimeout* aTimeout, const TimeStamp& now, bool aRunningPendingTimeouts); void ClearAllTimeouts(); // Insert aTimeout into the list, before all timeouts that would // fire after it, but no earlier than mTimeoutInsertionPoint, if any. void InsertTimeoutIntoList(nsTimeout *aTimeout); static void TimerCallback(nsITimer *aTimer, void *aClosure); // Helper Functions nsresult GetTreeOwner(nsIDocShellTreeOwner** aTreeOwner); nsresult GetTreeOwner(nsIBaseWindow** aTreeOwner); nsresult GetWebBrowserChrome(nsIWebBrowserChrome** aBrowserChrome); // GetScrollFrame does not flush. Callers should do it themselves as needed, // depending on which info they actually want off the scrollable frame. nsIScrollableFrame *GetScrollFrame(); nsresult SecurityCheckURL(const char *aURL); nsresult BuildURIfromBase(const char *aURL, nsIURI **aBuiltURI, bool *aFreeSecurityPass, JSContext **aCXused); bool PopupWhitelisted(); PopupControlState RevisePopupAbuseLevel(PopupControlState); void FireAbuseEvents(bool aBlocked, bool aWindow, const nsAString &aPopupURL, const nsAString &aPopupWindowName, const nsAString &aPopupWindowFeatures); void FireOfflineStatusEvent(); nsresult ScheduleNextIdleObserverCallback(); uint32_t GetFuzzTimeMS(); nsresult ScheduleActiveTimerCallback(); uint32_t FindInsertionIndex(IdleObserverHolder* aIdleObserver); virtual nsresult RegisterIdleObserver(nsIIdleObserver* aIdleObserverPtr); nsresult FindIndexOfElementToRemove(nsIIdleObserver* aIdleObserver, int32_t* aRemoveElementIndex); virtual nsresult UnregisterIdleObserver(nsIIdleObserver* aIdleObserverPtr); nsresult FireHashchange(const nsAString &aOldURL, const nsAString &aNewURL); void FlushPendingNotifications(mozFlushType aType); void EnsureReflowFlushAndPaint(); nsresult CheckSecurityWidthAndHeight(int32_t* width, int32_t* height); nsresult CheckSecurityLeftAndTop(int32_t* left, int32_t* top); // Arguments to this function should have values in app units nsresult SetCSSViewportWidthAndHeight(nscoord width, nscoord height); // Arguments to this function should have values in device pixels nsresult SetDocShellWidthAndHeight(int32_t width, int32_t height); static bool CanSetProperty(const char *aPrefName); static void MakeScriptDialogTitle(nsAString &aOutTitle); bool CanMoveResizeWindows(); // If aDoFlush is true, we'll flush our own layout; otherwise we'll try to // just flush our parent and only flush ourselves if we think we need to. nsresult GetScrollXY(int32_t* aScrollX, int32_t* aScrollY, bool aDoFlush); nsresult GetScrollMaxXY(int32_t* aScrollMaxX, int32_t* aScrollMaxY); nsresult GetOuterSize(nsIntSize* aSizeCSSPixels); nsresult SetOuterSize(int32_t aLengthCSSPixels, bool aIsWidth); nsRect GetInnerScreenRect(); bool IsFrame() { return GetParentInternal() != nullptr; } // If aLookForCallerOnJSStack is true, this method will look at the JS stack // to determine who the caller is. If it's false, it'll use |this| as the // caller. bool WindowExists(const nsAString& aName, bool aLookForCallerOnJSStack); already_AddRefed GetMainWidget(); nsIWidget* GetNearestWidget(); void Freeze() { NS_ASSERTION(!IsFrozen(), "Double-freezing?"); mIsFrozen = true; NotifyDOMWindowFrozen(this); } void Thaw() { mIsFrozen = false; NotifyDOMWindowThawed(this); } bool IsInModalState(); nsTimeout* FirstTimeout() { // Note: might not actually return an nsTimeout. Use IsTimeout to check. return static_cast(PR_LIST_HEAD(&mTimeouts)); } nsTimeout* LastTimeout() { // Note: might not actually return an nsTimeout. Use IsTimeout to check. return static_cast(PR_LIST_TAIL(&mTimeouts)); } bool IsTimeout(PRCList* aList) { return aList != &mTimeouts; } // Convenience functions for the many methods that need to scale // from device to CSS pixels or vice versa. Note: if a presentation // context is not available, they will assume a 1:1 ratio. int32_t DevToCSSIntPixels(int32_t px); int32_t CSSToDevIntPixels(int32_t px); nsIntSize DevToCSSIntPixels(nsIntSize px); nsIntSize CSSToDevIntPixels(nsIntSize px); virtual void SetFocusedNode(nsIContent* aNode, uint32_t aFocusMethod = 0, bool aNeedsFocus = false); virtual uint32_t GetFocusMethod(); virtual bool ShouldShowFocusRing(); virtual void SetKeyboardIndicators(UIStateChangeType aShowAccelerators, UIStateChangeType aShowFocusRings); virtual void GetKeyboardIndicators(bool* aShowAccelerators, bool* aShowFocusRings); void UpdateCanvasFocus(bool aFocusChanged, nsIContent* aNewContent); already_AddRefed GetTopWindowRoot(); static void NotifyDOMWindowDestroyed(nsGlobalWindow* aWindow); void NotifyWindowIDDestroyed(const char* aTopic); static void NotifyDOMWindowFrozen(nsGlobalWindow* aWindow); static void NotifyDOMWindowThawed(nsGlobalWindow* aWindow); void ClearStatus(); virtual void UpdateParentTarget(); bool GetIsTabModalPromptAllowed(); inline int32_t DOMMinTimeoutValue() const; nsresult CreateOuterObject(nsGlobalWindow* aNewInner); nsresult SetOuterObject(JSContext* aCx, JSObject* aOuterObject); nsresult CloneStorageEvent(const nsAString& aType, nsCOMPtr& aEvent); // Implements Get{Real,Scriptable}Top. nsresult GetTopImpl(nsIDOMWindow **aWindow, bool aScriptable); // Helper for creating performance objects. void CreatePerformanceObjectIfNeeded(); // Outer windows only. nsDOMWindowList* GetWindowList(); // Helper for getComputedStyle and getDefaultComputedStyle nsresult GetComputedStyleHelper(nsIDOMElement* aElt, const nsAString& aPseudoElt, bool aDefaultStylesOnly, nsIDOMCSSStyleDeclaration** aReturn); // When adding new member variables, be careful not to create cycles // through JavaScript. If there is any chance that a member variable // could own objects that are implemented in JavaScript, then those // objects will keep the global object (this object) alive. To prevent // these cycles, ownership of such members must be released in // |CleanUp| and |DetachFromDocShell|. // This member is also used on both inner and outer windows, but // for slightly different purposes. On inner windows it means the // inner window is held onto by session history and should not // change. On outer windows it means that the window is in a state // where we don't want to force creation of a new inner window since // we're in the middle of doing just that. bool mIsFrozen : 1; // These members are only used on outer window objects. Make sure // you never set any of these on an inner object! bool mFullScreen : 1; bool mIsClosed : 1; bool mInClose : 1; // mHavePendingClose means we've got a termination function set to // close us when the JS stops executing or that we have a close // event posted. If this is set, just ignore window.close() calls. bool mHavePendingClose : 1; bool mHadOriginalOpener : 1; bool mIsPopupSpam : 1; // Indicates whether scripts are allowed to close this window. bool mBlockScriptedClosingFlag : 1; // Track what sorts of events we need to fire when thawed bool mFireOfflineStatusChangeEventOnThaw : 1; bool mNotifyIdleObserversIdleOnThaw : 1; bool mNotifyIdleObserversActiveOnThaw : 1; // Indicates whether we're in the middle of creating an initializing // a new inner window object. bool mCreatingInnerWindow : 1; // Fast way to tell if this is a chrome window (without having to QI). bool mIsChrome : 1; // Hack to indicate whether a chrome window needs its message manager // to be disconnected, since clean up code is shared in the global // window superclass. bool mCleanMessageManager : 1; // Indicates that the current document has never received a document focus // event. bool mNeedsFocus : 1; bool mHasFocus : 1; // whether to show keyboard accelerators bool mShowAccelerators : 1; // whether to show focus rings bool mShowFocusRings : 1; // when true, show focus rings for the current focused content only. // This will be reset when another element is focused bool mShowFocusRingForContent : 1; // true if tab navigation has occurred for this window. Focus rings // should be displayed. bool mFocusByKeyOccurred : 1; // whether we've sent the destroy notification for our window id bool mNotifiedIDDestroyed : 1; // whether scripts may close the window, // even if "dom.allow_scripts_to_close_windows" is false. bool mAllowScriptsToClose : 1; nsCOMPtr mContext; nsWeakPtr mOpener; nsCOMPtr mControllers; nsCOMPtr mArguments; nsCOMPtr mArgumentsLast; nsCOMPtr mArgumentsOrigin; nsRefPtr mNavigator; nsRefPtr mScreen; // mPerformance is only used on inner windows. nsRefPtr mPerformance; nsRefPtr mFrames; nsRefPtr mMenubar; nsRefPtr mToolbar; nsRefPtr mLocationbar; nsRefPtr mPersonalbar; nsRefPtr mStatusbar; nsRefPtr mScrollbars; nsRefPtr mWindowUtils; nsString mStatus; nsString mDefaultStatus; // index 0->language_id 1, so index MAX-1 == language_id MAX nsGlobalWindowObserver* mObserver; #ifndef MOZ_DISABLE_DOMCRYPTO nsCOMPtr mCrypto; #endif nsCOMPtr mLocalStorage; nsCOMPtr mSessionStorage; nsCOMPtr mInnerWindowHolder; // These member variable are used only on inner windows. nsRefPtr mListenerManager; // mTimeouts is generally sorted by mWhen, unless mTimeoutInsertionPoint is // non-null. In that case, the dummy timeout pointed to by // mTimeoutInsertionPoint may have a later mWhen than some of the timeouts // that come after it. PRCList mTimeouts; // If mTimeoutInsertionPoint is non-null, insertions should happen after it. // This is a dummy timeout at the moment; if that ever changes, the logic in // ResetTimersForNonBackgroundWindow needs to change. nsTimeout* mTimeoutInsertionPoint; uint32_t mTimeoutPublicIdCounter; uint32_t mTimeoutFiringDepth; nsRefPtr mLocation; nsRefPtr mHistory; // These member variables are used on both inner and the outer windows. nsCOMPtr mDocumentPrincipal; JSObject* mJSObject; typedef nsCOMArray nsDOMStorageEventArray; nsDOMStorageEventArray mPendingStorageEvents; uint32_t mTimeoutsSuspendDepth; // the method that was used to focus mFocusedNode uint32_t mFocusMethod; uint32_t mSerial; #ifdef DEBUG bool mSetOpenerWindowCalled; nsCOMPtr mLastOpenedURI; #endif bool mCleanedUp, mCallCleanUpAfterModalDialogCloses; nsCOMPtr mApplicationCache; nsDataHashtable, JSObject*> mCachedXBLPrototypeHandlers; nsCOMPtr mSuspendedDoc; nsCOMPtr mIndexedDB; // This counts the number of windows that have been opened in rapid succession // (i.e. within dom.successive_dialog_time_limit of each other). It is reset // to 0 once a dialog is opened after dom.successive_dialog_time_limit seconds // have elapsed without any other dialogs. uint32_t mDialogAbuseCount; // This holds the time when the last modal dialog was shown. If more than // MAX_DIALOG_LIMIT dialogs are shown within the time span defined by // dom.successive_dialog_time_limit, we show a checkbox or confirmation prompt // to allow disabling of further dialogs from this window. TimeStamp mLastDialogQuitTime; // This is set to true once the user has opted-in to preventing further // dialogs for this window. Subsequent dialogs may still open if // mDialogAbuseCount gets reset. bool mStopAbuseDialogs; // This flag gets set when dialogs should be permanently disabled for this // window (e.g. when we are closing the tab and therefore are guaranteed to be // destroying this window). bool mDialogsPermanentlyDisabled; nsRefPtr mURLProperty; nsTHashtable > mEventTargetObjects; nsTArray mEnabledSensors; friend class nsDOMScriptableHelper; friend class nsDOMWindowUtils; friend class PostMessageEvent; static WindowByIdTable* sWindowsById; static bool sWarnedAboutWindowInternal; }; /* * nsGlobalChromeWindow inherits from nsGlobalWindow. It is the global * object created for a Chrome Window only. */ class nsGlobalChromeWindow : public nsGlobalWindow, public nsIDOMChromeWindow { public: // nsISupports NS_DECL_ISUPPORTS_INHERITED // nsIDOMChromeWindow interface NS_DECL_NSIDOMCHROMEWINDOW nsGlobalChromeWindow(nsGlobalWindow *aOuterWindow) : nsGlobalWindow(aOuterWindow) { mIsChrome = true; mCleanMessageManager = true; } ~nsGlobalChromeWindow() { NS_ABORT_IF_FALSE(mCleanMessageManager, "chrome windows may always disconnect the msg manager"); if (mMessageManager) { static_cast( mMessageManager.get())->Disconnect(); } mCleanMessageManager = false; } NS_DECL_CYCLE_COLLECTION_CLASS_INHERITED(nsGlobalChromeWindow, nsGlobalWindow) nsCOMPtr mBrowserDOMWindow; nsCOMPtr mMessageManager; }; /* * nsGlobalModalWindow inherits from nsGlobalWindow. It is the global * object created for a modal content windows only (i.e. not modal * chrome dialogs). */ class nsGlobalModalWindow : public nsGlobalWindow, public nsIDOMModalContentWindow { public: nsGlobalModalWindow(nsGlobalWindow *aOuterWindow) : nsGlobalWindow(aOuterWindow) { mIsModalContentWindow = true; } NS_DECL_ISUPPORTS_INHERITED NS_DECL_NSIDOMMODALCONTENTWINDOW NS_DECL_CYCLE_COLLECTION_CLASS_INHERITED(nsGlobalModalWindow, nsGlobalWindow) virtual NS_HIDDEN_(nsresult) SetNewDocument(nsIDocument *aDocument, nsISupports *aState, bool aForceReuseInnerWindow); protected: nsCOMPtr mReturnValue; }; /* factory function */ inline already_AddRefed NS_NewScriptGlobalObject(bool aIsChrome, bool aIsModalContentWindow) { nsRefPtr global; if (aIsChrome) { global = new nsGlobalChromeWindow(nullptr); } else if (aIsModalContentWindow) { global = new nsGlobalModalWindow(nullptr); } else { global = new nsGlobalWindow(nullptr); } return global.forget(); } #endif /* nsGlobalWindow_h___ */