/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*- */ /* vim: set ts=8 sts=2 et sw=2 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 nsPIDOMWindow_h__ #define nsPIDOMWindow_h__ #include "nsIDOMWindow.h" #include "mozIDOMWindow.h" #include "nsCOMPtr.h" #include "nsTArray.h" #include "mozilla/dom/EventTarget.h" #include "mozilla/TaskCategory.h" #include "js/TypeDecls.h" #include "nsRefPtrHashtable.h" // Only fired for inner windows. #define DOM_WINDOW_DESTROYED_TOPIC "dom-window-destroyed" #define DOM_WINDOW_FROZEN_TOPIC "dom-window-frozen" #define DOM_WINDOW_THAWED_TOPIC "dom-window-thawed" class nsDOMOfflineResourceList; class nsDOMWindowList; class nsGlobalWindowInner; class nsGlobalWindowOuter; class nsIArray; class nsIChannel; class nsIContent; class nsICSSDeclaration; class nsIDocShell; class nsDocShellLoadInfo; class nsIDocument; class nsIPrincipal; class nsIScriptTimeoutHandler; class nsISerialEventTarget; class nsIURI; class nsPIDOMWindowInner; class nsPIDOMWindowOuter; class nsPIWindowRoot; class nsXBLPrototypeHandler; typedef uint32_t SuspendTypes; namespace mozilla { class ThrottledEventQueue; class AutoplayPermissionManager; namespace dom { class AudioContext; class ClientInfo; class ClientState; class ContentFrameMessageManager; class DocGroup; class TabGroup; class Element; class MozIdleObserver; class Navigator; class Performance; class Selection; class ServiceWorker; class ServiceWorkerDescriptor; class Timeout; class TimeoutManager; class CustomElementRegistry; enum class CallerType : uint32_t; } // namespace dom } // namespace mozilla // Popup control state enum. The values in this enum must go from most // permissive to least permissive so that it's safe to push state in // all situations. Pushing popup state onto the stack never makes the // current popup state less permissive (see // nsGlobalWindow::PushPopupControlState()). enum PopupControlState { openAllowed = 0, // open that window without worries openControlled, // it's a popup, but allow it openBlocked, // it's a popup, but not from an allowed event openAbused, // it's a popup. disallow it, but allow domain override. openOverridden // disallow window open }; enum UIStateChangeType { UIStateChangeType_NoChange, UIStateChangeType_Set, UIStateChangeType_Clear, UIStateChangeType_Invalid // used for serialization only }; enum class FullscreenReason { // Toggling the fullscreen mode requires trusted context. ForFullscreenMode, // Fullscreen API is the API provided to untrusted content. ForFullscreenAPI, // This reason can only be used with exiting fullscreen. // It is otherwise identical to eForFullscreenAPI except it would // suppress the fullscreen transition. ForForceExitFullscreen }; namespace mozilla { namespace dom { class Location; // The states in this enum represent the different possible outcomes which the // window could be experiencing of loading a document with the // Large-Allocation header. The NONE case represents the case where no // Large-Allocation header was set. enum class LargeAllocStatus : uint8_t { // These are the OK states, NONE means that no large allocation status message // should be printed, while SUCCESS means that the success message should be // printed. NONE, SUCCESS, // These are the ERROR states. If a window is in one of these states, then the // next document loaded in that window should have an error message reported // to it. NON_GET, NON_E10S, NOT_ONLY_TOPLEVEL_IN_TABGROUP, NON_WIN32 }; } // namespace dom } // namespace mozilla // Must be kept in sync with xpcom/rust/xpcom/src/interfaces/nonidl.rs #define NS_PIDOMWINDOWINNER_IID \ { 0x775dabc9, 0x8f43, 0x4277, \ { 0x9a, 0xdb, 0xf1, 0x99, 0x0d, 0x77, 0xcf, 0xfb } } // Must be kept in sync with xpcom/rust/xpcom/src/interfaces/nonidl.rs #define NS_PIDOMWINDOWOUTER_IID \ { 0x769693d4, 0xb009, 0x4fe2, \ { 0xaf, 0x18, 0x7d, 0xc8, 0xdf, 0x74, 0x96, 0xdf } } class nsPIDOMWindowInner : public mozIDOMWindow { protected: friend nsGlobalWindowInner; friend nsGlobalWindowOuter; explicit nsPIDOMWindowInner(nsPIDOMWindowOuter* aOuterWindow); ~nsPIDOMWindowInner(); public: NS_DECLARE_STATIC_IID_ACCESSOR(NS_PIDOMWINDOWINNER_IID) nsPIDOMWindowInner* AsInner() { return this; } const nsPIDOMWindowInner* AsInner() const { return this; } nsIGlobalObject* AsGlobal(); const nsIGlobalObject* AsGlobal() const; nsPIDOMWindowOuter* GetOuterWindow() const { return mOuterWindow; } static nsPIDOMWindowInner* From(mozIDOMWindow* aFrom) { return static_cast(aFrom); } // Returns true if this object has an outer window and it is the current inner // window of that outer. inline bool IsCurrentInnerWindow() const; // Returns true if the document of this window is the active document. This // is not identical to IsCurrentInnerWindow() because document.open() will // keep the same document active but create a new window. inline bool HasActiveDocument(); // Returns true if this window is the same as mTopInnerWindow inline bool IsTopInnerWindow() const; // Check whether a document is currently loading inline bool IsLoading() const; inline bool IsHandlingResizeEvent() const; bool AddAudioContext(mozilla::dom::AudioContext* aAudioContext); void RemoveAudioContext(mozilla::dom::AudioContext* aAudioContext); void MuteAudioContexts(); void UnmuteAudioContexts(); bool GetAudioCaptured() const; nsresult SetAudioCapture(bool aCapture); mozilla::dom::Performance* GetPerformance(); void QueuePerformanceNavigationTiming(); bool HasMutationListeners(uint32_t aMutationEventType) const { if (!mOuterWindow) { NS_ERROR("HasMutationListeners() called on orphan inner window!"); return false; } return (mMutationBits & aMutationEventType) != 0; } void SetMutationListeners(uint32_t aType) { if (!mOuterWindow) { NS_ERROR("HasMutationListeners() called on orphan inner window!"); return; } mMutationBits |= aType; } /** * Call this to check whether some node (this window, its document, * or content in that document) has a mouseenter/leave event listener. */ bool HasMouseEnterLeaveEventListeners() { return mMayHaveMouseEnterLeaveEventListener; } /** * Call this to indicate that some node (this window, its document, * or content in that document) has a mouseenter/leave event listener. */ void SetHasMouseEnterLeaveEventListeners() { mMayHaveMouseEnterLeaveEventListener = true; } /** * Call this to check whether some node (this window, its document, * or content in that document) has a Pointerenter/leave event listener. */ bool HasPointerEnterLeaveEventListeners() { return mMayHavePointerEnterLeaveEventListener; } /** * Call this to indicate that some node (this window, its document, * or content in that document) has a Pointerenter/leave event listener. */ void SetHasPointerEnterLeaveEventListeners() { mMayHavePointerEnterLeaveEventListener = true; } // Sets the event for window.event. Does NOT take ownership, so // the caller is responsible for clearing the event before the // event gets deallocated. Pass nullptr to set window.event to // undefined. Returns the previous value. mozilla::dom::Event* SetEvent(mozilla::dom::Event* aEvent) { mozilla::dom::Event* old = mEvent; mEvent = aEvent; return old; } /** * Check whether this window is a secure context. */ bool IsSecureContext() const; bool IsSecureContextIfOpenerIgnored() const; // Calling suspend should prevent any asynchronous tasks from // executing javascript for this window. This means setTimeout, // requestAnimationFrame, and events should not be fired. Suspending // a window also suspends its children and workers. Workers may // continue to perform computations in the background. A window // can have Suspend() called multiple times and will only resume after // a matching number of Resume() calls. void Suspend(); void Resume(); // Apply the parent window's suspend, freeze, and modal state to the current // window. void SyncStateFromParentWindow(); /** * Increment active peer connection count. */ void AddPeerConnection(); /** * Decrement active peer connection count. */ void RemovePeerConnection(); /** * Check whether the active peer connection count is non-zero. */ bool HasActivePeerConnections(); bool IsPlayingAudio(); bool IsDocumentLoaded() const; mozilla::dom::TimeoutManager& TimeoutManager(); bool IsRunningTimeout(); // To cache top inner-window if available after constructed for tab-wised // indexedDB counters. void TryToCacheTopInnerWindow(); // Increase/Decrease the number of active IndexedDB transactions/databases for // the decision making of TabGroup scheduling and timeout-throttling. void UpdateActiveIndexedDBTransactionCount(int32_t aDelta); void UpdateActiveIndexedDBDatabaseCount(int32_t aDelta); // Return true if there is any active IndexedDB databases which could block // timeout-throttling. bool HasActiveIndexedDBDatabases(); // Increase/Decrease the number of open WebSockets. void UpdateWebSocketCount(int32_t aDelta); // Return true if there are any open WebSockets that could block // timeout-throttling. bool HasOpenWebSockets() const; mozilla::Maybe GetClientInfo() const; mozilla::Maybe GetClientState() const; mozilla::Maybe GetController() const; void NoteCalledRegisterForServiceWorkerScope(const nsACString& aScope); void NoteDOMContentLoaded(); mozilla::dom::TabGroup* TabGroup(); virtual nsPIDOMWindowOuter* GetPrivateRoot() = 0; virtual mozilla::dom::CustomElementRegistry* CustomElements() = 0; // XXX: This is called on inner windows virtual nsPIDOMWindowOuter* GetScriptableTop() = 0; virtual nsPIDOMWindowOuter* GetScriptableParent() = 0; virtual already_AddRefed GetTopWindowRoot() = 0; mozilla::dom::EventTarget* GetChromeEventHandler() const { return mChromeEventHandler; } virtual nsresult RegisterIdleObserver( mozilla::dom::MozIdleObserver& aIdleObserver) = 0; virtual nsresult UnregisterIdleObserver( mozilla::dom::MozIdleObserver& aIdleObserver) = 0; virtual bool IsTopLevelWindowActive() = 0; mozilla::dom::EventTarget* GetParentTarget() { if (!mParentTarget) { UpdateParentTarget(); } return mParentTarget; } virtual void MaybeUpdateTouchState() {} nsIDocument* GetExtantDoc() const { return mDoc; } nsIURI* GetDocumentURI() const; nsIURI* GetDocBaseURI() const; nsIDocument* GetDoc() { if (!mDoc) { MaybeCreateDoc(); } return mDoc; } virtual PopupControlState GetPopupControlState() const = 0; // Determine if the window is suspended or frozen. Outer windows // will forward this call to the inner window for convenience. If // there is no inner window then the outer window is considered // suspended and frozen by default. virtual bool IsSuspended() const = 0; virtual bool IsFrozen() const = 0; // Fire any DOM notification events related to things that happened while // the window was frozen. virtual nsresult FireDelayedDOMEvents() = 0; /** * Get the docshell in this window. */ inline nsIDocShell *GetDocShell() const; /** * Set a new document in the window. Calling this method will in most cases * create a new inner window. The call will be forewarded to the outer window, * if the inner window is not the current inner window an * NS_ERROR_NOT_AVAILABLE error code will be returned. This may be called with * a pointer to the current document, in that case the document remains * unchanged, but a new inner window will be created. * * aDocument must not be null. */ virtual nsresult SetNewDocument(nsIDocument *aDocument, nsISupports *aState, bool aForceReuseInnerWindow) = 0; /** * Set the opener window. aOriginalOpener is true if and only if this is the * original opener for the window. That is, it can only be true at most once * during the life cycle of a window, and then only the first time * SetOpenerWindow is called. It might never be true, of course, if the * window does not have an opener when it's created. */ virtual void SetOpenerWindow(nsPIDOMWindowOuter* aOpener, bool aOriginalOpener) = 0; /** * Call this to indicate that some node (this window, its document, * or content in that document) has a paint event listener. */ void SetHasPaintEventListeners() { mMayHavePaintEventListener = true; } /** * Call this to check whether some node (this window, its document, * or content in that document) has a paint event listener. */ bool HasPaintEventListeners() { return mMayHavePaintEventListener; } /** * Call this to indicate that some node (this window, its document, * or content in that document) has a touch event listener. */ void SetHasTouchEventListeners() { if (!mMayHaveTouchEventListener) { mMayHaveTouchEventListener = true; MaybeUpdateTouchState(); } } /** * Call this to indicate that some node (this window, its document, * or content in that document) has a selectionchange event listener. */ void SetHasSelectionChangeEventListeners() { mMayHaveSelectionChangeEventListener = true; } /** * Call this to check whether some node (this window, its document, * or content in that document) has a selectionchange event listener. */ bool HasSelectionChangeEventListeners() { return mMayHaveSelectionChangeEventListener; } virtual JSObject* GetCachedXBLPrototypeHandler(nsXBLPrototypeHandler* aKey) = 0; virtual void CacheXBLPrototypeHandler(nsXBLPrototypeHandler* aKey, JS::Handle aHandler) = 0; /* * Get and set the currently focused element within the document. If * aNeedsFocus is true, then set mNeedsFocus to true to indicate that a * document focus event is needed. * * DO NOT CALL EITHER OF THESE METHODS DIRECTLY. USE THE FOCUS MANAGER * INSTEAD. */ inline mozilla::dom::Element* GetFocusedElement() const; virtual void SetFocusedElement(mozilla::dom::Element* aElement, uint32_t aFocusMethod = 0, bool aNeedsFocus = false) = 0; /** * Retrieves the method that was used to focus the current node. */ virtual uint32_t GetFocusMethod() = 0; /* * Tells the window that it now has focus or has lost focus, based on the * state of aFocus. If this method returns true, then the document loaded * in the window has never received a focus event and expects to receive * one. If false is returned, the document has received a focus event before * and should only receive one if the window is being focused. * * aFocusMethod may be set to one of the focus method constants in * nsIFocusManager to indicate how focus was set. */ virtual bool TakeFocus(bool aFocus, uint32_t aFocusMethod) = 0; /** * Indicates that the window may now accept a document focus event. This * should be called once a document has been loaded into the window. */ virtual void SetReadyForFocus() = 0; /** * Whether the focused content within the window should show a focus ring. */ virtual bool ShouldShowFocusRing() = 0; /** * Indicates that the page in the window has been hidden. This is used to * reset the focus state. */ virtual void PageHidden() = 0; /** * Instructs this window to asynchronously dispatch a hashchange event. This * method must be called on an inner window. */ virtual nsresult DispatchAsyncHashchange(nsIURI *aOldURI, nsIURI *aNewURI) = 0; /** * Instructs this window to synchronously dispatch a popState event. */ virtual nsresult DispatchSyncPopState() = 0; /** * Tell this window that it should listen for sensor changes of the given * type. */ virtual void EnableDeviceSensor(uint32_t aType) = 0; /** * Tell this window that it should remove itself from sensor change * notifications. */ virtual void DisableDeviceSensor(uint32_t aType) = 0; #if defined(MOZ_WIDGET_ANDROID) virtual void EnableOrientationChangeListener() = 0; virtual void DisableOrientationChangeListener() = 0; #endif /** * Tell this window that there is an observer for gamepad input * * Inner windows only. */ virtual void SetHasGamepadEventListener(bool aHasGamepad = true) = 0; /** * NOTE! This function *will* be called on multiple threads so the * implementation must not do any AddRef/Release or other actions that will * mutate internal state. */ virtual uint32_t GetSerial() = 0; /** * Return the window id of this window */ uint64_t WindowID() const { return mWindowID; } // WebIDL-ish APIs void MarkUncollectableForCCGeneration(uint32_t aGeneration) { mMarkedCCGeneration = aGeneration; } uint32_t GetMarkedCCGeneration() { return mMarkedCCGeneration; } mozilla::dom::Navigator* Navigator(); virtual mozilla::dom::Location* GetLocation() = 0; virtual nsresult GetControllers(nsIControllers** aControllers) = 0; virtual nsDOMWindowList* GetFrames() = 0; virtual nsresult GetInnerWidth(int32_t* aWidth) = 0; virtual nsresult GetInnerHeight(int32_t* aHeight) = 0; virtual already_AddRefed GetComputedStyle(mozilla::dom::Element& aElt, const nsAString& aPseudoElt, mozilla::ErrorResult& aError) = 0; virtual mozilla::dom::Element* GetFrameElement() = 0; virtual nsDOMOfflineResourceList* GetApplicationCache() = 0; virtual bool GetFullScreen() = 0; virtual nsresult Focus() = 0; virtual nsresult Close() = 0; mozilla::dom::DocGroup* GetDocGroup() const; virtual nsISerialEventTarget* EventTargetFor(mozilla::TaskCategory aCategory) const = 0; // Returns the AutoplayPermissionManager that documents in this window should // use to request permission to autoplay. already_AddRefed GetAutoplayPermissionManager(); protected: void CreatePerformanceObjectIfNeeded(); // Lazily instantiate an about:blank document if necessary, and if // we have what it takes to do so. void MaybeCreateDoc(); void SetChromeEventHandlerInternal(mozilla::dom::EventTarget* aChromeEventHandler) { mChromeEventHandler = aChromeEventHandler; // mParentTarget will be set when the next event is dispatched. mParentTarget = nullptr; } virtual void UpdateParentTarget() = 0; // These two variables are special in that they're set to the same // value on both the outer window and the current inner window. Make // sure you keep them in sync! nsCOMPtr mChromeEventHandler; // strong nsCOMPtr mDoc; // strong // Cache the URI when mDoc is cleared. nsCOMPtr mDocumentURI; // strong nsCOMPtr mDocBaseURI; // strong nsCOMPtr mParentTarget; // strong RefPtr mPerformance; mozilla::UniquePtr mTimeoutManager; RefPtr mNavigator; // These variables are only used on inner windows. uint32_t mMutationBits; uint32_t mActivePeerConnections; bool mIsDocumentLoaded; bool mIsHandlingResizeEvent; bool mMayHavePaintEventListener; bool mMayHaveTouchEventListener; bool mMayHaveSelectionChangeEventListener; bool mMayHaveMouseEnterLeaveEventListener; bool mMayHavePointerEnterLeaveEventListener; bool mAudioCaptured; // Our inner window's outer window. nsCOMPtr mOuterWindow; // The element within the document that is currently focused when this // window is active. RefPtr mFocusedElement; // The AudioContexts created for the current document, if any. nsTArray mAudioContexts; // Weak RefPtr mTabGroup; // A unique (as long as our 64-bit counter doesn't roll over) id for // this window. uint64_t mWindowID; // Set to true once we've sent the (chrome|content)-document-global-created // notification. bool mHasNotifiedGlobalCreated; uint32_t mMarkedCCGeneration; // mTopInnerWindow is used for tab-wise check by timeout throttling. It could // be null. nsCOMPtr mTopInnerWindow; // The evidence that we have tried to cache mTopInnerWindow only once from // SetNewDocument(). Note: We need this extra flag because mTopInnerWindow // could be null and we don't want it to be set multiple times. bool mHasTriedToCacheTopInnerWindow; // The number of active IndexedDB databases. uint32_t mNumOfIndexedDBDatabases; // The number of open WebSockets. uint32_t mNumOfOpenWebSockets; // If we're in the process of requesting permission for this window to // play audible media, or we've already been granted permission by the // user, this is non-null, and encapsulates the request. RefPtr mAutoplayPermissionManager; // The event dispatch code sets and unsets this while keeping // the event object alive. mozilla::dom::Event* mEvent; }; NS_DEFINE_STATIC_IID_ACCESSOR(nsPIDOMWindowInner, NS_PIDOMWINDOWINNER_IID) class nsPIDOMWindowOuter : public mozIDOMWindowProxy { protected: explicit nsPIDOMWindowOuter(); ~nsPIDOMWindowOuter(); void RefreshMediaElementsVolume(); void RefreshMediaElementsSuspend(SuspendTypes aSuspend); bool IsDisposableSuspend(SuspendTypes aSuspend) const; void MaybeNotifyMediaResumedFromBlock(SuspendTypes aSuspend); public: NS_DECLARE_STATIC_IID_ACCESSOR(NS_PIDOMWINDOWOUTER_IID) nsPIDOMWindowOuter* AsOuter() { return this; } const nsPIDOMWindowOuter* AsOuter() const { return this; } nsPIDOMWindowOuter* GetOuterWindow() const { return const_cast(this); } static nsPIDOMWindowOuter* From(mozIDOMWindowProxy* aFrom) { return static_cast(aFrom); } // Given an inner window, return its outer if the inner is the current inner. // Otherwise (argument null or not an inner or not current) return null. static nsPIDOMWindowOuter* GetFromCurrentInner(nsPIDOMWindowInner* aInner); // Check whether a document is currently loading inline bool IsLoading() const; inline bool IsHandlingResizeEvent() const; nsPIDOMWindowInner* GetCurrentInnerWindow() const { return mInnerWindow; } nsPIDOMWindowInner* EnsureInnerWindow() { // GetDoc forces inner window creation if there isn't one already GetDoc(); return GetCurrentInnerWindow(); } bool IsRootOuterWindow() { return mIsRootOuterWindow; } /** * Set initial keyboard indicator state for accelerators and focus rings. */ void SetInitialKeyboardIndicators(UIStateChangeType aShowAccelerators, UIStateChangeType aShowFocusRings); // Internal getter/setter for the frame element, this version of the // getter crosses chrome boundaries whereas the public scriptable // one doesn't for security reasons. mozilla::dom::Element* GetFrameElementInternal() const; void SetFrameElementInternal(mozilla::dom::Element* aFrameElement); bool IsActive() { return mIsActive; } void SetDesktopModeViewport(bool aDesktopModeViewport) { mDesktopModeViewport = aDesktopModeViewport; } bool IsDesktopModeViewport() const { return mDesktopModeViewport; } bool IsBackground() { return mIsBackground; } // Audio API SuspendTypes GetMediaSuspend() const; void SetMediaSuspend(SuspendTypes aSuspend); bool GetAudioMuted() const; void SetAudioMuted(bool aMuted); float GetAudioVolume() const; nsresult SetAudioVolume(float aVolume); void MaybeActiveMediaComponents(); void SetServiceWorkersTestingEnabled(bool aEnabled); bool GetServiceWorkersTestingEnabled(); float GetDevicePixelRatio(mozilla::dom::CallerType aCallerType); void SetLargeAllocStatus(mozilla::dom::LargeAllocStatus aStatus); bool IsTopLevelWindow(); bool HadOriginalOpener() const; mozilla::dom::TabGroup* TabGroup(); virtual nsPIDOMWindowOuter* GetPrivateRoot() = 0; virtual void ActivateOrDeactivate(bool aActivate) = 0; /** * |top| gets the root of the window hierarchy. * * This function does not cross chrome-content boundaries, so if this * window's parent is of a different type, |top| will return this window. * * When script reads the top property, we run GetScriptableTop, which * will not cross an