/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*- */ /* 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 "Accessible-inl.h" #include "AccIterator.h" #include "DocAccessible-inl.h" #include "DocAccessibleChild.h" #include "HTMLImageMapAccessible.h" #include "nsAccCache.h" #include "nsAccessiblePivot.h" #include "nsAccUtils.h" #include "nsEventShell.h" #include "nsTextEquivUtils.h" #include "Role.h" #include "RootAccessible.h" #include "TreeWalker.h" #include "xpcAccessibleDocument.h" #include "nsIMutableArray.h" #include "nsICommandManager.h" #include "nsIDocShell.h" #include "nsIDocument.h" #include "nsIDOMAttr.h" #include "nsIDOMCharacterData.h" #include "nsIDOMDocument.h" #include "nsIDOMXULDocument.h" #include "nsIDOMMutationEvent.h" #include "nsPIDOMWindow.h" #include "nsIDOMXULPopupElement.h" #include "nsIEditingSession.h" #include "nsIFrame.h" #include "nsIInterfaceRequestorUtils.h" #include "nsImageFrame.h" #include "nsIPersistentProperties2.h" #include "nsIPresShell.h" #include "nsIServiceManager.h" #include "nsViewManager.h" #include "nsIScrollableFrame.h" #include "nsUnicharUtils.h" #include "nsIURI.h" #include "nsIWebNavigation.h" #include "nsFocusManager.h" #include "mozilla/ArrayUtils.h" #include "mozilla/Assertions.h" #include "mozilla/EventStates.h" #include "mozilla/dom/DocumentType.h" #include "mozilla/dom/Element.h" #ifdef MOZ_XUL #include "nsIXULDocument.h" #endif using namespace mozilla; using namespace mozilla::a11y; //////////////////////////////////////////////////////////////////////////////// // Static member initialization static nsIAtom** kRelationAttrs[] = { &nsGkAtoms::aria_labelledby, &nsGkAtoms::aria_describedby, &nsGkAtoms::aria_details, &nsGkAtoms::aria_owns, &nsGkAtoms::aria_controls, &nsGkAtoms::aria_flowto, &nsGkAtoms::aria_errormessage, &nsGkAtoms::_for, &nsGkAtoms::control }; static const uint32_t kRelationAttrsLen = ArrayLength(kRelationAttrs); //////////////////////////////////////////////////////////////////////////////// // Constructor/desctructor DocAccessible:: DocAccessible(nsIDocument* aDocument, nsIPresShell* aPresShell) : // XXX don't pass a document to the Accessible constructor so that we don't // set mDoc until our vtable is fully setup. If we set mDoc before setting // up the vtable we will call Accessible::AddRef() but not the overrides of // it for subclasses. It is important to call those overrides to avoid // confusing leak checking machinary. HyperTextAccessibleWrap(nullptr, nullptr), // XXX aaronl should we use an algorithm for the initial cache size? mAccessibleCache(kDefaultCacheLength), mNodeToAccessibleMap(kDefaultCacheLength), mDocumentNode(aDocument), mScrollPositionChangedTicks(0), mLoadState(eTreeConstructionPending), mDocFlags(0), mLoadEventType(0), mVirtualCursor(nullptr), mPresShell(aPresShell), mIPCDoc(nullptr) { mGenericTypes |= eDocument; mStateFlags |= eNotNodeMapEntry; mDoc = this; MOZ_ASSERT(mPresShell, "should have been given a pres shell"); mPresShell->SetDocAccessible(this); // If this is a XUL Document, it should not implement nsHyperText if (mDocumentNode && mDocumentNode->IsXULDocument()) mGenericTypes &= ~eHyperText; } DocAccessible::~DocAccessible() { NS_ASSERTION(!mPresShell, "LastRelease was never called!?!"); } //////////////////////////////////////////////////////////////////////////////// // nsISupports NS_IMPL_CYCLE_COLLECTION_CLASS(DocAccessible) NS_IMPL_CYCLE_COLLECTION_TRAVERSE_BEGIN_INHERITED(DocAccessible, Accessible) NS_IMPL_CYCLE_COLLECTION_TRAVERSE(mNotificationController) NS_IMPL_CYCLE_COLLECTION_TRAVERSE(mVirtualCursor) NS_IMPL_CYCLE_COLLECTION_TRAVERSE(mChildDocuments) for (auto iter = tmp->mDependentIDsHash.Iter(); !iter.Done(); iter.Next()) { AttrRelProviderArray* providers = iter.UserData(); for (int32_t jdx = providers->Length() - 1; jdx >= 0; jdx--) { NS_CYCLE_COLLECTION_NOTE_EDGE_NAME( cb, "content of dependent ids hash entry of document accessible"); AttrRelProvider* provider = (*providers)[jdx]; cb.NoteXPCOMChild(provider->mContent); NS_ASSERTION(provider->mContent->IsInUncomposedDoc(), "Referred content is not in document!"); } } NS_IMPL_CYCLE_COLLECTION_TRAVERSE(mAccessibleCache) NS_IMPL_CYCLE_COLLECTION_TRAVERSE(mAnchorJumpElm) NS_IMPL_CYCLE_COLLECTION_TRAVERSE(mInvalidationList) for (auto it = tmp->mARIAOwnsHash.ConstIter(); !it.Done(); it.Next()) { nsTArray >* ar = it.UserData(); for (uint32_t i = 0; i < ar->Length(); i++) { NS_CYCLE_COLLECTION_NOTE_EDGE_NAME(cb, "mARIAOwnsHash entry item"); cb.NoteXPCOMChild(ar->ElementAt(i)); } } NS_IMPL_CYCLE_COLLECTION_TRAVERSE_END NS_IMPL_CYCLE_COLLECTION_UNLINK_BEGIN_INHERITED(DocAccessible, Accessible) NS_IMPL_CYCLE_COLLECTION_UNLINK(mNotificationController) NS_IMPL_CYCLE_COLLECTION_UNLINK(mVirtualCursor) NS_IMPL_CYCLE_COLLECTION_UNLINK(mChildDocuments) tmp->mDependentIDsHash.Clear(); tmp->mNodeToAccessibleMap.Clear(); NS_IMPL_CYCLE_COLLECTION_UNLINK(mAccessibleCache) NS_IMPL_CYCLE_COLLECTION_UNLINK(mAnchorJumpElm) NS_IMPL_CYCLE_COLLECTION_UNLINK(mInvalidationList) tmp->mARIAOwnsHash.Clear(); NS_IMPL_CYCLE_COLLECTION_UNLINK_END NS_INTERFACE_MAP_BEGIN_CYCLE_COLLECTION_INHERITED(DocAccessible) NS_INTERFACE_MAP_ENTRY(nsIDocumentObserver) NS_INTERFACE_MAP_ENTRY(nsIMutationObserver) NS_INTERFACE_MAP_ENTRY(nsISupportsWeakReference) NS_INTERFACE_MAP_ENTRY(nsIObserver) NS_INTERFACE_MAP_ENTRY(nsIAccessiblePivotObserver) NS_INTERFACE_MAP_END_INHERITING(HyperTextAccessible) NS_IMPL_ADDREF_INHERITED(DocAccessible, HyperTextAccessible) NS_IMPL_RELEASE_INHERITED(DocAccessible, HyperTextAccessible) //////////////////////////////////////////////////////////////////////////////// // nsIAccessible ENameValueFlag DocAccessible::Name(nsString& aName) { aName.Truncate(); if (mParent) { mParent->Name(aName); // Allow owning iframe to override the name } if (aName.IsEmpty()) { // Allow name via aria-labelledby or title attribute Accessible::Name(aName); } if (aName.IsEmpty()) { Title(aName); // Try title element } if (aName.IsEmpty()) { // Last resort: use URL URL(aName); } return eNameOK; } // Accessible public method role DocAccessible::NativeRole() { nsCOMPtr docShell = nsCoreUtils::GetDocShellFor(mDocumentNode); if (docShell) { nsCOMPtr sameTypeRoot; docShell->GetSameTypeRootTreeItem(getter_AddRefs(sameTypeRoot)); int32_t itemType = docShell->ItemType(); if (sameTypeRoot == docShell) { // Root of content or chrome tree if (itemType == nsIDocShellTreeItem::typeChrome) return roles::CHROME_WINDOW; if (itemType == nsIDocShellTreeItem::typeContent) { #ifdef MOZ_XUL nsCOMPtr xulDoc(do_QueryInterface(mDocumentNode)); if (xulDoc) return roles::APPLICATION; #endif return roles::DOCUMENT; } } else if (itemType == nsIDocShellTreeItem::typeContent) { return roles::DOCUMENT; } } return roles::PANE; // Fall back; } void DocAccessible::Description(nsString& aDescription) { if (mParent) mParent->Description(aDescription); if (HasOwnContent() && aDescription.IsEmpty()) { nsTextEquivUtils:: GetTextEquivFromIDRefs(this, nsGkAtoms::aria_describedby, aDescription); } } // Accessible public method uint64_t DocAccessible::NativeState() { // Document is always focusable. uint64_t state = states::FOCUSABLE; // keep in sync with NativeInteractiveState() impl if (FocusMgr()->IsFocused(this)) state |= states::FOCUSED; // Expose stale state until the document is ready (DOM is loaded and tree is // constructed). if (!HasLoadState(eReady)) state |= states::STALE; // Expose state busy until the document and all its subdocuments is completely // loaded. if (!HasLoadState(eCompletelyLoaded)) state |= states::BUSY; nsIFrame* frame = GetFrame(); if (!frame || !frame->IsVisibleConsideringAncestors(nsIFrame::VISIBILITY_CROSS_CHROME_CONTENT_BOUNDARY)) { state |= states::INVISIBLE | states::OFFSCREEN; } nsCOMPtr editor = GetEditor(); state |= editor ? states::EDITABLE : states::READONLY; return state; } uint64_t DocAccessible::NativeInteractiveState() const { // Document is always focusable. return states::FOCUSABLE; } bool DocAccessible::NativelyUnavailable() const { return false; } // Accessible public method void DocAccessible::ApplyARIAState(uint64_t* aState) const { // Grab states from content element. if (mContent) Accessible::ApplyARIAState(aState); // Allow iframe/frame etc. to have final state override via ARIA. if (mParent) mParent->ApplyARIAState(aState); } already_AddRefed DocAccessible::Attributes() { nsCOMPtr attributes = HyperTextAccessibleWrap::Attributes(); // No attributes if document is not attached to the tree or if it's a root // document. if (!mParent || IsRoot()) return attributes.forget(); // Override ARIA object attributes from outerdoc. aria::AttrIterator attribIter(mParent->GetContent()); nsAutoString name, value, unused; while(attribIter.Next(name, value)) attributes->SetStringProperty(NS_ConvertUTF16toUTF8(name), value, unused); return attributes.forget(); } Accessible* DocAccessible::FocusedChild() { // Return an accessible for the current global focus, which does not have to // be contained within the current document. return FocusMgr()->FocusedAccessible(); } void DocAccessible::TakeFocus() { // Focus the document. nsFocusManager* fm = nsFocusManager::GetFocusManager(); nsCOMPtr newFocus; fm->MoveFocus(mDocumentNode->GetWindow(), nullptr, nsFocusManager::MOVEFOCUS_ROOT, 0, getter_AddRefs(newFocus)); } // HyperTextAccessible method already_AddRefed DocAccessible::GetEditor() const { // Check if document is editable (designMode="on" case). Otherwise check if // the html:body (for HTML document case) or document element is editable. if (!mDocumentNode->HasFlag(NODE_IS_EDITABLE) && (!mContent || !mContent->HasFlag(NODE_IS_EDITABLE))) return nullptr; nsCOMPtr docShell = mDocumentNode->GetDocShell(); if (!docShell) { return nullptr; } nsCOMPtr editingSession; docShell->GetEditingSession(getter_AddRefs(editingSession)); if (!editingSession) return nullptr; // No editing session interface nsCOMPtr editor; editingSession->GetEditorForWindow(mDocumentNode->GetWindow(), getter_AddRefs(editor)); if (!editor) return nullptr; bool isEditable = false; editor->GetIsDocumentEditable(&isEditable); if (isEditable) return editor.forget(); return nullptr; } // DocAccessible public method void DocAccessible::URL(nsAString& aURL) const { nsCOMPtr container = mDocumentNode->GetContainer(); nsCOMPtr webNav(do_GetInterface(container)); nsAutoCString theURL; if (webNav) { nsCOMPtr pURI; webNav->GetCurrentURI(getter_AddRefs(pURI)); if (pURI) pURI->GetSpec(theURL); } CopyUTF8toUTF16(theURL, aURL); } void DocAccessible::DocType(nsAString& aType) const { #ifdef MOZ_XUL nsCOMPtr xulDoc(do_QueryInterface(mDocumentNode)); if (xulDoc) { aType.AssignLiteral("window"); // doctype not implemented for XUL at time of writing - causes assertion return; } #endif dom::DocumentType* docType = mDocumentNode->GetDoctype(); if (docType) docType->GetPublicId(aType); } //////////////////////////////////////////////////////////////////////////////// // Accessible void DocAccessible::Init() { #ifdef A11Y_LOG if (logging::IsEnabled(logging::eDocCreate)) logging::DocCreate("document initialize", mDocumentNode, this); #endif // Initialize notification controller. mNotificationController = new NotificationController(this, mPresShell); // Mark the document accessible as loaded if its DOM document was loaded at // this point (this can happen because a11y is started late or DOM document // having no container was loaded. if (mDocumentNode->GetReadyStateEnum() == nsIDocument::READYSTATE_COMPLETE) mLoadState |= eDOMLoaded; AddEventListeners(); } void DocAccessible::Shutdown() { if (!mPresShell) // already shutdown return; #ifdef A11Y_LOG if (logging::IsEnabled(logging::eDocDestroy)) logging::DocDestroy("document shutdown", mDocumentNode, this); #endif // Mark the document as shutdown before AT is notified about the document // removal from its container (valid for root documents on ATK and due to // some reason for MSAA, refer to bug 757392 for details). mStateFlags |= eIsDefunct; if (mNotificationController) { mNotificationController->Shutdown(); mNotificationController = nullptr; } RemoveEventListeners(); nsCOMPtr kungFuDeathGripDoc = mDocumentNode; mDocumentNode = nullptr; if (mParent) { DocAccessible* parentDocument = mParent->Document(); if (parentDocument) parentDocument->RemoveChildDocument(this); mParent->RemoveChild(this); } // Walk the array backwards because child documents remove themselves from the // array as they are shutdown. int32_t childDocCount = mChildDocuments.Length(); for (int32_t idx = childDocCount - 1; idx >= 0; idx--) mChildDocuments[idx]->Shutdown(); mChildDocuments.Clear(); // XXX thinking about ordering? if (mIPCDoc) { MOZ_ASSERT(IPCAccessibilityActive()); mIPCDoc->Shutdown(); MOZ_ASSERT(!mIPCDoc); } if (mVirtualCursor) { mVirtualCursor->RemoveObserver(this); mVirtualCursor = nullptr; } mPresShell->SetDocAccessible(nullptr); mPresShell = nullptr; // Avoid reentrancy mDependentIDsHash.Clear(); mNodeToAccessibleMap.Clear(); for (auto iter = mAccessibleCache.Iter(); !iter.Done(); iter.Next()) { Accessible* accessible = iter.Data(); MOZ_ASSERT(accessible); if (accessible && !accessible->IsDefunct()) { // Unlink parent to avoid its cleaning overhead in shutdown. accessible->mParent = nullptr; accessible->Shutdown(); } iter.Remove(); } HyperTextAccessibleWrap::Shutdown(); GetAccService()->NotifyOfDocumentShutdown(this, kungFuDeathGripDoc); } nsIFrame* DocAccessible::GetFrame() const { nsIFrame* root = nullptr; if (mPresShell) root = mPresShell->GetRootFrame(); return root; } // DocAccessible protected member nsRect DocAccessible::RelativeBounds(nsIFrame** aRelativeFrame) const { *aRelativeFrame = GetFrame(); nsIDocument *document = mDocumentNode; nsIDocument *parentDoc = nullptr; nsRect bounds; while (document) { nsIPresShell *presShell = document->GetShell(); if (!presShell) return nsRect(); nsRect scrollPort; nsIScrollableFrame* sf = presShell->GetRootScrollFrameAsScrollableExternal(); if (sf) { scrollPort = sf->GetScrollPortRect(); } else { nsIFrame* rootFrame = presShell->GetRootFrame(); if (!rootFrame) return nsRect(); scrollPort = rootFrame->GetRect(); } if (parentDoc) { // After first time thru loop // XXXroc bogus code! scrollPort is relative to the viewport of // this document, but we're intersecting rectangles derived from // multiple documents and assuming they're all in the same coordinate // system. See bug 514117. bounds.IntersectRect(scrollPort, bounds); } else { // First time through loop bounds = scrollPort; } document = parentDoc = document->GetParentDocument(); } return bounds; } // DocAccessible protected member nsresult DocAccessible::AddEventListeners() { nsCOMPtr docShell(mDocumentNode->GetDocShell()); // We want to add a command observer only if the document is content and has // an editor. if (docShell->ItemType() == nsIDocShellTreeItem::typeContent) { nsCOMPtr commandManager = docShell->GetCommandManager(); if (commandManager) commandManager->AddCommandObserver(this, "obs_documentCreated"); } SelectionMgr()->AddDocSelectionListener(mPresShell); // Add document observer. mDocumentNode->AddObserver(this); return NS_OK; } // DocAccessible protected member nsresult DocAccessible::RemoveEventListeners() { // Remove listeners associated with content documents // Remove scroll position listener RemoveScrollListener(); NS_ASSERTION(mDocumentNode, "No document during removal of listeners."); if (mDocumentNode) { mDocumentNode->RemoveObserver(this); nsCOMPtr docShell(mDocumentNode->GetDocShell()); NS_ASSERTION(docShell, "doc should support nsIDocShellTreeItem."); if (docShell) { if (docShell->ItemType() == nsIDocShellTreeItem::typeContent) { nsCOMPtr commandManager = docShell->GetCommandManager(); if (commandManager) { commandManager->RemoveCommandObserver(this, "obs_documentCreated"); } } } } if (mScrollWatchTimer) { mScrollWatchTimer->Cancel(); mScrollWatchTimer = nullptr; NS_RELEASE_THIS(); // Kung fu death grip } SelectionMgr()->RemoveDocSelectionListener(mPresShell); return NS_OK; } void DocAccessible::ScrollTimerCallback(nsITimer* aTimer, void* aClosure) { DocAccessible* docAcc = reinterpret_cast(aClosure); if (docAcc && docAcc->mScrollPositionChangedTicks && ++docAcc->mScrollPositionChangedTicks > 2) { // Whenever scroll position changes, mScrollPositionChangeTicks gets reset to 1 // We only want to fire accessibilty scroll event when scrolling stops or pauses // Therefore, we wait for no scroll events to occur between 2 ticks of this timer // That indicates a pause in scrolling, so we fire the accessibilty scroll event nsEventShell::FireEvent(nsIAccessibleEvent::EVENT_SCROLLING_END, docAcc); docAcc->mScrollPositionChangedTicks = 0; if (docAcc->mScrollWatchTimer) { docAcc->mScrollWatchTimer->Cancel(); docAcc->mScrollWatchTimer = nullptr; NS_RELEASE(docAcc); // Release kung fu death grip } } } //////////////////////////////////////////////////////////////////////////////// // nsIScrollPositionListener void DocAccessible::ScrollPositionDidChange(nscoord aX, nscoord aY) { // Start new timer, if the timer cycles at least 1 full cycle without more scroll position changes, // then the ::Notify() method will fire the accessibility event for scroll position changes const uint32_t kScrollPosCheckWait = 50; if (mScrollWatchTimer) { mScrollWatchTimer->SetDelay(kScrollPosCheckWait); // Create new timer, to avoid leaks } else { mScrollWatchTimer = do_CreateInstance("@mozilla.org/timer;1"); if (mScrollWatchTimer) { NS_ADDREF_THIS(); // Kung fu death grip mScrollWatchTimer->InitWithFuncCallback(ScrollTimerCallback, this, kScrollPosCheckWait, nsITimer::TYPE_REPEATING_SLACK); } } mScrollPositionChangedTicks = 1; } //////////////////////////////////////////////////////////////////////////////// // nsIObserver NS_IMETHODIMP DocAccessible::Observe(nsISupports* aSubject, const char* aTopic, const char16_t* aData) { if (!nsCRT::strcmp(aTopic,"obs_documentCreated")) { // State editable will now be set, readonly is now clear // Normally we only fire delayed events created from the node, not an // accessible object. See the AccStateChangeEvent constructor for details // about this exceptional case. RefPtr event = new AccStateChangeEvent(this, states::EDITABLE, true); FireDelayedEvent(event); } return NS_OK; } //////////////////////////////////////////////////////////////////////////////// // nsIAccessiblePivotObserver NS_IMETHODIMP DocAccessible::OnPivotChanged(nsIAccessiblePivot* aPivot, nsIAccessible* aOldAccessible, int32_t aOldStart, int32_t aOldEnd, PivotMoveReason aReason, bool aIsFromUserInput) { RefPtr event = new AccVCChangeEvent( this, (aOldAccessible ? aOldAccessible->ToInternalAccessible() : nullptr), aOldStart, aOldEnd, aReason, aIsFromUserInput ? eFromUserInput : eNoUserInput); nsEventShell::FireEvent(event); return NS_OK; } //////////////////////////////////////////////////////////////////////////////// // nsIDocumentObserver NS_IMPL_NSIDOCUMENTOBSERVER_CORE_STUB(DocAccessible) NS_IMPL_NSIDOCUMENTOBSERVER_LOAD_STUB(DocAccessible) NS_IMPL_NSIDOCUMENTOBSERVER_STYLE_STUB(DocAccessible) void DocAccessible::AttributeWillChange(nsIDocument* aDocument, dom::Element* aElement, int32_t aNameSpaceID, nsIAtom* aAttribute, int32_t aModType, const nsAttrValue* aNewValue) { Accessible* accessible = GetAccessible(aElement); if (!accessible) { if (aElement != mContent) return; accessible = this; } // Update dependent IDs cache. Take care of elements that are accessible // because dependent IDs cache doesn't contain IDs from non accessible // elements. if (aModType != nsIDOMMutationEvent::ADDITION) RemoveDependentIDsFor(accessible, aAttribute); if (aAttribute == nsGkAtoms::id) { RelocateARIAOwnedIfNeeded(aElement); } // Store the ARIA attribute old value so that it can be used after // attribute change. Note, we assume there's no nested ARIA attribute // changes. If this happens then we should end up with keeping a stack of // old values. // XXX TODO: bugs 472142, 472143. // Here we will want to cache whatever attribute values we are interested // in, such as the existence of aria-pressed for button (so we know if we // need to newly expose it as a toggle button) etc. if (aAttribute == nsGkAtoms::aria_checked || aAttribute == nsGkAtoms::aria_pressed) { mARIAAttrOldValue = (aModType != nsIDOMMutationEvent::ADDITION) ? nsAccUtils::GetARIAToken(aElement, aAttribute) : nullptr; return; } if (aAttribute == nsGkAtoms::aria_disabled || aAttribute == nsGkAtoms::disabled) mStateBitWasOn = accessible->Unavailable(); } void DocAccessible::NativeAnonymousChildListChange(nsIDocument* aDocument, nsIContent* aContent, bool aIsRemove) { } void DocAccessible::AttributeChanged(nsIDocument* aDocument, dom::Element* aElement, int32_t aNameSpaceID, nsIAtom* aAttribute, int32_t aModType, const nsAttrValue* aOldValue) { NS_ASSERTION(!IsDefunct(), "Attribute changed called on defunct document accessible!"); // Proceed even if the element is not accessible because element may become // accessible if it gets certain attribute. if (UpdateAccessibleOnAttrChange(aElement, aAttribute)) return; // Ignore attribute change if the element doesn't have an accessible (at all // or still) iff the element is not a root content of this document accessible // (which is treated as attribute change on this document accessible). // Note: we don't bail if all the content hasn't finished loading because // these attributes are changing for a loaded part of the content. Accessible* accessible = GetAccessible(aElement); if (!accessible) { if (mContent != aElement) return; accessible = this; } MOZ_ASSERT(accessible->IsBoundToParent() || accessible->IsDoc(), "DOM attribute change on an accessible detached from the tree"); // Fire accessible events iff there's an accessible, otherwise we consider // the accessible state wasn't changed, i.e. its state is initial state. AttributeChangedImpl(accessible, aNameSpaceID, aAttribute); // Update dependent IDs cache. Take care of accessible elements because no // accessible element means either the element is not accessible at all or // its accessible will be created later. It doesn't make sense to keep // dependent IDs for non accessible elements. For the second case we'll update // dependent IDs cache when its accessible is created. if (aModType == nsIDOMMutationEvent::MODIFICATION || aModType == nsIDOMMutationEvent::ADDITION) { AddDependentIDsFor(accessible, aAttribute); } } // DocAccessible protected member void DocAccessible::AttributeChangedImpl(Accessible* aAccessible, int32_t aNameSpaceID, nsIAtom* aAttribute) { // Fire accessible event after short timer, because we need to wait for // DOM attribute & resulting layout to actually change. Otherwise, // assistive technology will retrieve the wrong state/value/selection info. // XXX todo // We still need to handle special HTML cases here // For example, if an 's usemap attribute is modified // Otherwise it may just be a state change, for example an object changing // its visibility // // XXX todo: report aria state changes for "undefined" literal value changes // filed as bug 472142 // // XXX todo: invalidate accessible when aria state changes affect exposed role // filed as bug 472143 // Universal boolean properties that don't require a role. Fire the state // change when disabled or aria-disabled attribute is set. // Note. Checking the XUL or HTML namespace would not seem to gain us // anything, because disabled attribute really is going to mean the same // thing in any namespace. // Note. We use the attribute instead of the disabled state bit because // ARIA's aria-disabled does not affect the disabled state bit. if (aAttribute == nsGkAtoms::disabled || aAttribute == nsGkAtoms::aria_disabled) { // Do nothing if state wasn't changed (like @aria-disabled was removed but // @disabled is still presented). if (aAccessible->Unavailable() == mStateBitWasOn) return; RefPtr enabledChangeEvent = new AccStateChangeEvent(aAccessible, states::ENABLED, mStateBitWasOn); FireDelayedEvent(enabledChangeEvent); RefPtr sensitiveChangeEvent = new AccStateChangeEvent(aAccessible, states::SENSITIVE, mStateBitWasOn); FireDelayedEvent(sensitiveChangeEvent); return; } // Check for namespaced ARIA attribute if (aNameSpaceID == kNameSpaceID_None) { // Check for hyphenated aria-foo property? if (StringBeginsWith(nsDependentAtomString(aAttribute), NS_LITERAL_STRING("aria-"))) { ARIAAttributeChanged(aAccessible, aAttribute); } } // Fire name change and description change events. XXX: it's not complete and // dupes the code logic of accessible name and description calculation, we do // that for performance reasons. if (aAttribute == nsGkAtoms::aria_label) { FireDelayedEvent(nsIAccessibleEvent::EVENT_NAME_CHANGE, aAccessible); return; } if (aAttribute == nsGkAtoms::aria_describedby) { FireDelayedEvent(nsIAccessibleEvent::EVENT_DESCRIPTION_CHANGE, aAccessible); return; } nsIContent* elm = aAccessible->GetContent(); if (aAttribute == nsGkAtoms::aria_labelledby && !elm->HasAttr(kNameSpaceID_None, nsGkAtoms::aria_label)) { FireDelayedEvent(nsIAccessibleEvent::EVENT_NAME_CHANGE, aAccessible); return; } if (aAttribute == nsGkAtoms::alt && !elm->HasAttr(kNameSpaceID_None, nsGkAtoms::aria_label) && !elm->HasAttr(kNameSpaceID_None, nsGkAtoms::aria_labelledby)) { FireDelayedEvent(nsIAccessibleEvent::EVENT_NAME_CHANGE, aAccessible); return; } if (aAttribute == nsGkAtoms::title) { if (!elm->HasAttr(kNameSpaceID_None, nsGkAtoms::aria_label) && !elm->HasAttr(kNameSpaceID_None, nsGkAtoms::aria_labelledby) && !elm->HasAttr(kNameSpaceID_None, nsGkAtoms::alt)) { FireDelayedEvent(nsIAccessibleEvent::EVENT_NAME_CHANGE, aAccessible); return; } if (!elm->HasAttr(kNameSpaceID_None, nsGkAtoms::aria_describedby)) FireDelayedEvent(nsIAccessibleEvent::EVENT_DESCRIPTION_CHANGE, aAccessible); return; } if (aAttribute == nsGkAtoms::aria_busy) { bool isOn = elm->AttrValueIs(aNameSpaceID, aAttribute, nsGkAtoms::_true, eCaseMatters); RefPtr event = new AccStateChangeEvent(aAccessible, states::BUSY, isOn); FireDelayedEvent(event); return; } if (aAttribute == nsGkAtoms::id) { RelocateARIAOwnedIfNeeded(elm); } // ARIA or XUL selection if ((aAccessible->GetContent()->IsXULElement() && aAttribute == nsGkAtoms::selected) || aAttribute == nsGkAtoms::aria_selected) { Accessible* widget = nsAccUtils::GetSelectableContainer(aAccessible, aAccessible->State()); if (widget) { AccSelChangeEvent::SelChangeType selChangeType = elm->AttrValueIs(aNameSpaceID, aAttribute, nsGkAtoms::_true, eCaseMatters) ? AccSelChangeEvent::eSelectionAdd : AccSelChangeEvent::eSelectionRemove; RefPtr event = new AccSelChangeEvent(widget, aAccessible, selChangeType); FireDelayedEvent(event); } return; } if (aAttribute == nsGkAtoms::contenteditable) { RefPtr editableChangeEvent = new AccStateChangeEvent(aAccessible, states::EDITABLE); FireDelayedEvent(editableChangeEvent); return; } if (aAttribute == nsGkAtoms::value) { if (aAccessible->IsProgress()) FireDelayedEvent(nsIAccessibleEvent::EVENT_VALUE_CHANGE, aAccessible); } } // DocAccessible protected member void DocAccessible::ARIAAttributeChanged(Accessible* aAccessible, nsIAtom* aAttribute) { // Note: For universal/global ARIA states and properties we don't care if // there is an ARIA role present or not. if (aAttribute == nsGkAtoms::aria_required) { RefPtr event = new AccStateChangeEvent(aAccessible, states::REQUIRED); FireDelayedEvent(event); return; } if (aAttribute == nsGkAtoms::aria_invalid) { RefPtr event = new AccStateChangeEvent(aAccessible, states::INVALID); FireDelayedEvent(event); return; } // The activedescendant universal property redirects accessible focus events // to the element with the id that activedescendant points to. Make sure // the tree up to date before processing. if (aAttribute == nsGkAtoms::aria_activedescendant) { mNotificationController->HandleNotification (this, &DocAccessible::ARIAActiveDescendantChanged, aAccessible); return; } // We treat aria-expanded as a global ARIA state for historical reasons if (aAttribute == nsGkAtoms::aria_expanded) { RefPtr event = new AccStateChangeEvent(aAccessible, states::EXPANDED); FireDelayedEvent(event); return; } // For aria attributes like drag and drop changes we fire a generic attribute // change event; at least until native API comes up with a more meaningful event. uint8_t attrFlags = aria::AttrCharacteristicsFor(aAttribute); if (!(attrFlags & ATTR_BYPASSOBJ)) { RefPtr event = new AccObjectAttrChangedEvent(aAccessible, aAttribute); FireDelayedEvent(event); } nsIContent* elm = aAccessible->GetContent(); // Update aria-hidden flag for the whole subtree iff aria-hidden is changed // on the root, i.e. ignore any affiliated aria-hidden changes in the subtree // of top aria-hidden. if (aAttribute == nsGkAtoms::aria_hidden) { bool isDefined = aria::HasDefinedARIAHidden(elm); if (isDefined != aAccessible->IsARIAHidden() && (!aAccessible->Parent() || !aAccessible->Parent()->IsARIAHidden())) { aAccessible->SetARIAHidden(isDefined); RefPtr event = new AccObjectAttrChangedEvent(aAccessible, aAttribute); FireDelayedEvent(event); } return; } if (aAttribute == nsGkAtoms::aria_checked || (aAccessible->IsButton() && aAttribute == nsGkAtoms::aria_pressed)) { const uint64_t kState = (aAttribute == nsGkAtoms::aria_checked) ? states::CHECKED : states::PRESSED; RefPtr event = new AccStateChangeEvent(aAccessible, kState); FireDelayedEvent(event); bool wasMixed = (mARIAAttrOldValue == nsGkAtoms::mixed); bool isMixed = elm->AttrValueIs(kNameSpaceID_None, aAttribute, nsGkAtoms::mixed, eCaseMatters); if (isMixed != wasMixed) { RefPtr event = new AccStateChangeEvent(aAccessible, states::MIXED, isMixed); FireDelayedEvent(event); } return; } if (aAttribute == nsGkAtoms::aria_readonly) { RefPtr event = new AccStateChangeEvent(aAccessible, states::READONLY); FireDelayedEvent(event); return; } // Fire text value change event whenever aria-valuetext is changed. if (aAttribute == nsGkAtoms::aria_valuetext) { FireDelayedEvent(nsIAccessibleEvent::EVENT_TEXT_VALUE_CHANGE, aAccessible); return; } // Fire numeric value change event when aria-valuenow is changed and // aria-valuetext is empty if (aAttribute == nsGkAtoms::aria_valuenow && (!elm->HasAttr(kNameSpaceID_None, nsGkAtoms::aria_valuetext) || elm->AttrValueIs(kNameSpaceID_None, nsGkAtoms::aria_valuetext, nsGkAtoms::_empty, eCaseMatters))) { FireDelayedEvent(nsIAccessibleEvent::EVENT_VALUE_CHANGE, aAccessible); return; } if (aAttribute == nsGkAtoms::aria_owns) { mNotificationController->ScheduleRelocation(aAccessible); } } void DocAccessible::ARIAActiveDescendantChanged(Accessible* aAccessible) { nsIContent* elm = aAccessible->GetContent(); if (elm && aAccessible->IsActiveWidget()) { nsAutoString id; if (elm->GetAttr(kNameSpaceID_None, nsGkAtoms::aria_activedescendant, id)) { dom::Element* activeDescendantElm = elm->OwnerDoc()->GetElementById(id); if (activeDescendantElm) { Accessible* activeDescendant = GetAccessible(activeDescendantElm); if (activeDescendant) { FocusMgr()->ActiveItemChanged(activeDescendant, false); #ifdef A11Y_LOG if (logging::IsEnabled(logging::eFocus)) logging::ActiveItemChangeCausedBy("ARIA activedescedant changed", activeDescendant); #endif } } } } } void DocAccessible::ContentAppended(nsIDocument* aDocument, nsIContent* aContainer, nsIContent* aFirstNewContent, int32_t /* unused */) { } void DocAccessible::ContentStateChanged(nsIDocument* aDocument, nsIContent* aContent, EventStates aStateMask) { Accessible* accessible = GetAccessible(aContent); if (!accessible) return; if (aStateMask.HasState(NS_EVENT_STATE_CHECKED)) { Accessible* widget = accessible->ContainerWidget(); if (widget && widget->IsSelect()) { AccSelChangeEvent::SelChangeType selChangeType = aContent->AsElement()->State().HasState(NS_EVENT_STATE_CHECKED) ? AccSelChangeEvent::eSelectionAdd : AccSelChangeEvent::eSelectionRemove; RefPtr event = new AccSelChangeEvent(widget, accessible, selChangeType); FireDelayedEvent(event); return; } RefPtr event = new AccStateChangeEvent(accessible, states::CHECKED, aContent->AsElement()->State().HasState(NS_EVENT_STATE_CHECKED)); FireDelayedEvent(event); } if (aStateMask.HasState(NS_EVENT_STATE_INVALID)) { RefPtr event = new AccStateChangeEvent(accessible, states::INVALID, true); FireDelayedEvent(event); } if (aStateMask.HasState(NS_EVENT_STATE_VISITED)) { RefPtr event = new AccStateChangeEvent(accessible, states::TRAVERSED, true); FireDelayedEvent(event); } } void DocAccessible::DocumentStatesChanged(nsIDocument* aDocument, EventStates aStateMask) { } void DocAccessible::CharacterDataWillChange(nsIDocument* aDocument, nsIContent* aContent, CharacterDataChangeInfo* aInfo) { } void DocAccessible::CharacterDataChanged(nsIDocument* aDocument, nsIContent* aContent, CharacterDataChangeInfo* aInfo) { } void DocAccessible::ContentInserted(nsIDocument* aDocument, nsIContent* aContainer, nsIContent* aChild, int32_t /* unused */) { } void DocAccessible::ContentRemoved(nsIDocument* aDocument, nsIContent* aContainerNode, nsIContent* aChildNode, int32_t /* unused */, nsIContent* aPreviousSiblingNode) { #ifdef A11Y_LOG if (logging::IsEnabled(logging::eTree)) { logging::MsgBegin("TREE", "DOM content removed; doc: %p", this); logging::Node("container node", aContainerNode); logging::Node("content node", aChildNode); logging::MsgEnd(); } #endif // This one and content removal notification from layout may result in // double processing of same subtrees. If it pops up in profiling, then // consider reusing a document node cache to reject these notifications early. Accessible* container = GetAccessibleOrContainer(aContainerNode); if (container) { UpdateTreeOnRemoval(container, aChildNode); } } void DocAccessible::ParentChainChanged(nsIContent* aContent) { } //////////////////////////////////////////////////////////////////////////////// // Accessible #ifdef A11Y_LOG nsresult DocAccessible::HandleAccEvent(AccEvent* aEvent) { if (logging::IsEnabled(logging::eDocLoad)) logging::DocLoadEventHandled(aEvent); return HyperTextAccessible::HandleAccEvent(aEvent); } #endif //////////////////////////////////////////////////////////////////////////////// // Public members void* DocAccessible::GetNativeWindow() const { if (!mPresShell) return nullptr; nsViewManager* vm = mPresShell->GetViewManager(); if (!vm) return nullptr; nsCOMPtr widget; vm->GetRootWidget(getter_AddRefs(widget)); if (widget) return widget->GetNativeData(NS_NATIVE_WINDOW); return nullptr; } Accessible* DocAccessible::GetAccessibleByUniqueIDInSubtree(void* aUniqueID) { Accessible* child = GetAccessibleByUniqueID(aUniqueID); if (child) return child; uint32_t childDocCount = mChildDocuments.Length(); for (uint32_t childDocIdx= 0; childDocIdx < childDocCount; childDocIdx++) { DocAccessible* childDocument = mChildDocuments.ElementAt(childDocIdx); child = childDocument->GetAccessibleByUniqueIDInSubtree(aUniqueID); if (child) return child; } return nullptr; } Accessible* DocAccessible::GetAccessibleOrContainer(nsINode* aNode) const { if (!aNode || !aNode->GetComposedDoc()) return nullptr; nsINode* currNode = aNode; Accessible* accessible = nullptr; while (!(accessible = GetAccessible(currNode))) { nsINode* parent = nullptr; // If this is a content node, try to get a flattened parent content node. // This will smartly skip from the shadow root to the host element, // over parentless document fragment if (currNode->IsContent()) parent = currNode->AsContent()->GetFlattenedTreeParent(); // Fallback to just get parent node, in case there is no parent content // node. Or current node is not a content node. if (!parent) parent = currNode->GetParentNode(); if (!(currNode = parent)) break; } return accessible; } Accessible* DocAccessible::GetAccessibleOrDescendant(nsINode* aNode) const { Accessible* acc = GetAccessible(aNode); if (acc) return acc; acc = GetContainerAccessible(aNode); if (acc) { uint32_t childCnt = acc->ChildCount(); for (uint32_t idx = 0; idx < childCnt; idx++) { Accessible* child = acc->GetChildAt(idx); for (nsIContent* elm = child->GetContent(); elm && elm != acc->GetContent(); elm = elm->GetFlattenedTreeParent()) { if (elm == aNode) return child; } } } return nullptr; } void DocAccessible::BindToDocument(Accessible* aAccessible, const nsRoleMapEntry* aRoleMapEntry) { // Put into DOM node cache. if (aAccessible->IsNodeMapEntry()) mNodeToAccessibleMap.Put(aAccessible->GetNode(), aAccessible); // Put into unique ID cache. mAccessibleCache.Put(aAccessible->UniqueID(), aAccessible); aAccessible->SetRoleMapEntry(aRoleMapEntry); AddDependentIDsFor(aAccessible); if (aAccessible->HasOwnContent()) { nsIContent* el = aAccessible->GetContent(); if (el->HasAttr(kNameSpaceID_None, nsGkAtoms::aria_owns)) { mNotificationController->ScheduleRelocation(aAccessible); } } } void DocAccessible::UnbindFromDocument(Accessible* aAccessible) { NS_ASSERTION(mAccessibleCache.GetWeak(aAccessible->UniqueID()), "Unbinding the unbound accessible!"); // Fire focus event on accessible having DOM focus if active item was removed // from the tree. if (FocusMgr()->IsActiveItem(aAccessible)) { FocusMgr()->ActiveItemChanged(nullptr); #ifdef A11Y_LOG if (logging::IsEnabled(logging::eFocus)) logging::ActiveItemChangeCausedBy("tree shutdown", aAccessible); #endif } // Remove an accessible from node-to-accessible map if it exists there. if (aAccessible->IsNodeMapEntry() && mNodeToAccessibleMap.Get(aAccessible->GetNode()) == aAccessible) mNodeToAccessibleMap.Remove(aAccessible->GetNode()); aAccessible->mStateFlags |= eIsNotInDocument; // Update XPCOM part. xpcAccessibleDocument* xpcDoc = GetAccService()->GetCachedXPCDocument(this); if (xpcDoc) xpcDoc->NotifyOfShutdown(aAccessible); void* uniqueID = aAccessible->UniqueID(); NS_ASSERTION(!aAccessible->IsDefunct(), "Shutdown the shutdown accessible!"); aAccessible->Shutdown(); mAccessibleCache.Remove(uniqueID); } void DocAccessible::ContentInserted(nsIContent* aContainerNode, nsIContent* aStartChildNode, nsIContent* aEndChildNode) { // Ignore content insertions until we constructed accessible tree. Otherwise // schedule tree update on content insertion after layout. if (mNotificationController && HasLoadState(eTreeConstructed)) { // Update the whole tree of this document accessible when the container is // null (document element is inserted or removed). Accessible* container = aContainerNode ? AccessibleOrTrueContainer(aContainerNode) : this; if (container) { // Ignore notification if the container node is no longer in the DOM tree. mNotificationController->ScheduleContentInsertion(container, aStartChildNode, aEndChildNode); } } } void DocAccessible::RecreateAccessible(nsIContent* aContent) { #ifdef A11Y_LOG if (logging::IsEnabled(logging::eTree)) { logging::MsgBegin("TREE", "accessible recreated"); logging::Node("content", aContent); logging::MsgEnd(); } #endif // XXX: we shouldn't recreate whole accessible subtree, instead we should // subclass hide and show events to handle them separately and implement their // coalescence with normal hide and show events. Note, in this case they // should be coalesced with normal show/hide events. nsIContent* parent = aContent->GetFlattenedTreeParent(); ContentRemoved(parent, aContent); ContentInserted(parent, aContent, aContent->GetNextSibling()); } void DocAccessible::ProcessInvalidationList() { // Invalidate children of container accessible for each element in // invalidation list. Allow invalidation list insertions while container // children are recached. for (uint32_t idx = 0; idx < mInvalidationList.Length(); idx++) { nsIContent* content = mInvalidationList[idx]; if (!HasAccessible(content) && content->HasID()) { Accessible* container = GetContainerAccessible(content); if (container) { // Check if the node is a target of aria-owns, and if so, don't process // it here and let DoARIAOwnsRelocation process it. AttrRelProviderArray* list = mDependentIDsHash.Get(nsDependentAtomString(content->GetID())); bool shouldProcess = !!list; if (shouldProcess) { for (uint32_t idx = 0; idx < list->Length(); idx++) { if (list->ElementAt(idx)->mRelAttr == nsGkAtoms::aria_owns) { shouldProcess = false; break; } } if (shouldProcess) { ProcessContentInserted(container, content); } } } } } mInvalidationList.Clear(); } Accessible* DocAccessible::GetAccessibleEvenIfNotInMap(nsINode* aNode) const { if (!aNode->IsContent() || !aNode->AsContent()->IsHTMLElement(nsGkAtoms::area)) return GetAccessible(aNode); // XXX Bug 135040, incorrect when multiple images use the same map. nsIFrame* frame = aNode->AsContent()->GetPrimaryFrame(); nsImageFrame* imageFrame = do_QueryFrame(frame); if (imageFrame) { Accessible* parent = GetAccessible(imageFrame->GetContent()); if (parent) { Accessible* area = parent->AsImageMap()->GetChildAccessibleFor(aNode); if (area) return area; return nullptr; } } return GetAccessible(aNode); } //////////////////////////////////////////////////////////////////////////////// // Protected members void DocAccessible::NotifyOfLoading(bool aIsReloading) { // Mark the document accessible as loading, if it stays alive then we'll mark // it as loaded when we receive proper notification. mLoadState &= ~eDOMLoaded; if (!IsLoadEventTarget()) return; if (aIsReloading) { // Fire reload and state busy events on existing document accessible while // event from user input flag can be calculated properly and accessible // is alive. When new document gets loaded then this one is destroyed. RefPtr reloadEvent = new AccEvent(nsIAccessibleEvent::EVENT_DOCUMENT_RELOAD, this); nsEventShell::FireEvent(reloadEvent); } // Fire state busy change event. Use delayed event since we don't care // actually if event isn't delivered when the document goes away like a shot. RefPtr stateEvent = new AccStateChangeEvent(this, states::BUSY, true); FireDelayedEvent(stateEvent); } void DocAccessible::DoInitialUpdate() { if (nsCoreUtils::IsTabDocument(mDocumentNode)) mDocFlags |= eTabDocument; mLoadState |= eTreeConstructed; // Set up a root element and ARIA role mapping. UpdateRootElIfNeeded(); // Build initial tree. CacheChildrenInSubtree(this); #ifdef A11Y_LOG if (logging::IsEnabled(logging::eVerbose)) { logging::Tree("TREE", "Initial subtree", this); } #endif // Fire reorder event after the document tree is constructed. Note, since // this reorder event is processed by parent document then events targeted to // this document may be fired prior to this reorder event. If this is // a problem then consider to keep event processing per tab document. if (!IsRoot()) { RefPtr reorderEvent = new AccReorderEvent(Parent()); ParentDocument()->FireDelayedEvent(reorderEvent); } TreeMutation mt(this); uint32_t childCount = ChildCount(); for (uint32_t i = 0; i < childCount; i++) { Accessible* child = GetChildAt(i); mt.AfterInsertion(child); } mt.Done(); } void DocAccessible::ProcessLoad() { mLoadState |= eCompletelyLoaded; #ifdef A11Y_LOG if (logging::IsEnabled(logging::eDocLoad)) logging::DocCompleteLoad(this, IsLoadEventTarget()); #endif // Do not fire document complete/stop events for root chrome document // accessibles and for frame/iframe documents because // a) screen readers start working on focus event in the case of root chrome // documents // b) document load event on sub documents causes screen readers to act is if // entire page is reloaded. if (!IsLoadEventTarget()) return; // Fire complete/load stopped if the load event type is given. if (mLoadEventType) { RefPtr loadEvent = new AccEvent(mLoadEventType, this); FireDelayedEvent(loadEvent); mLoadEventType = 0; } // Fire busy state change event. RefPtr stateEvent = new AccStateChangeEvent(this, states::BUSY, false); FireDelayedEvent(stateEvent); } void DocAccessible::AddDependentIDsFor(Accessible* aRelProvider, nsIAtom* aRelAttr) { dom::Element* relProviderEl = aRelProvider->Elm(); if (!relProviderEl) return; for (uint32_t idx = 0; idx < kRelationAttrsLen; idx++) { nsIAtom* relAttr = *kRelationAttrs[idx]; if (aRelAttr && aRelAttr != relAttr) continue; if (relAttr == nsGkAtoms::_for) { if (!relProviderEl->IsAnyOfHTMLElements(nsGkAtoms::label, nsGkAtoms::output)) continue; } else if (relAttr == nsGkAtoms::control) { if (!relProviderEl->IsAnyOfXULElements(nsGkAtoms::label, nsGkAtoms::description)) continue; } IDRefsIterator iter(this, relProviderEl, relAttr); while (true) { const nsDependentSubstring id = iter.NextID(); if (id.IsEmpty()) break; AttrRelProviderArray* providers = mDependentIDsHash.Get(id); if (!providers) { providers = new AttrRelProviderArray(); if (providers) { mDependentIDsHash.Put(id, providers); } } if (providers) { AttrRelProvider* provider = new AttrRelProvider(relAttr, relProviderEl); if (provider) { providers->AppendElement(provider); // We've got here during the children caching. If the referenced // content is not accessible then store it to pend its container // children invalidation (this happens immediately after the caching // is finished). nsIContent* dependentContent = iter.GetElem(id); if (dependentContent) { if (!HasAccessible(dependentContent)) { mInvalidationList.AppendElement(dependentContent); } } } } } // If the relation attribute is given then we don't have anything else to // check. if (aRelAttr) break; } // Make sure to schedule the tree update if needed. mNotificationController->ScheduleProcessing(); } void DocAccessible::RemoveDependentIDsFor(Accessible* aRelProvider, nsIAtom* aRelAttr) { dom::Element* relProviderElm = aRelProvider->Elm(); if (!relProviderElm) return; for (uint32_t idx = 0; idx < kRelationAttrsLen; idx++) { nsIAtom* relAttr = *kRelationAttrs[idx]; if (aRelAttr && aRelAttr != *kRelationAttrs[idx]) continue; IDRefsIterator iter(this, relProviderElm, relAttr); while (true) { const nsDependentSubstring id = iter.NextID(); if (id.IsEmpty()) break; AttrRelProviderArray* providers = mDependentIDsHash.Get(id); if (providers) { for (uint32_t jdx = 0; jdx < providers->Length(); ) { AttrRelProvider* provider = (*providers)[jdx]; if (provider->mRelAttr == relAttr && provider->mContent == relProviderElm) providers->RemoveElement(provider); else jdx++; } if (providers->Length() == 0) mDependentIDsHash.Remove(id); } } // If the relation attribute is given then we don't have anything else to // check. if (aRelAttr) break; } } bool DocAccessible::UpdateAccessibleOnAttrChange(dom::Element* aElement, nsIAtom* aAttribute) { if (aAttribute == nsGkAtoms::role) { // It is common for js libraries to set the role on the body element after // the document has loaded. In this case we just update the role map entry. if (mContent == aElement) { SetRoleMapEntry(aria::GetRoleMap(aElement)); if (mIPCDoc) { mIPCDoc->SendRoleChangedEvent(Role()); } return true; } // Recreate the accessible when role is changed because we might require a // different accessible class for the new role or the accessible may expose // a different sets of interfaces (COM restriction). RecreateAccessible(aElement); return true; } if (aAttribute == nsGkAtoms::href) { // Not worth the expense to ensure which namespace these are in. It doesn't // kill use to recreate the accessible even if the attribute was used in // the wrong namespace or an element that doesn't support it. // Make sure the accessible is recreated asynchronously to allow the content // to handle the attribute change. RecreateAccessible(aElement); return true; } if (aAttribute == nsGkAtoms::aria_multiselectable && aElement->HasAttr(kNameSpaceID_None, nsGkAtoms::role)) { // This affects whether the accessible supports SelectAccessible. // COM says we cannot change what interfaces are supported on-the-fly, // so invalidate this object. A new one will be created on demand. RecreateAccessible(aElement); return true; } return false; } void DocAccessible::UpdateRootElIfNeeded() { dom::Element* rootEl = mDocumentNode->GetBodyElement(); if (!rootEl) { rootEl = mDocumentNode->GetRootElement(); } if (rootEl != mContent) { mContent = rootEl; SetRoleMapEntry(aria::GetRoleMap(rootEl)); if (mIPCDoc) { mIPCDoc->SendRoleChangedEvent(Role()); } } } /** * Content insertion helper. */ class InsertIterator final { public: InsertIterator(Accessible* aContext, const nsTArray >* aNodes) : mChild(nullptr), mChildBefore(nullptr), mWalker(aContext), mNodes(aNodes), mNodesIdx(0) { MOZ_ASSERT(aContext, "No context"); MOZ_ASSERT(aNodes, "No nodes to search for accessible elements"); MOZ_COUNT_CTOR(InsertIterator); } ~InsertIterator() { MOZ_COUNT_DTOR(InsertIterator); } Accessible* Context() const { return mWalker.Context(); } Accessible* Child() const { return mChild; } Accessible* ChildBefore() const { return mChildBefore; } DocAccessible* Document() const { return mWalker.Document(); } /** * Iterates to a next accessible within the inserted content. */ bool Next(); void Rejected() { mChild = nullptr; mChildBefore = nullptr; } private: Accessible* mChild; Accessible* mChildBefore; TreeWalker mWalker; const nsTArray >* mNodes; uint32_t mNodesIdx; }; bool InsertIterator::Next() { if (mNodesIdx > 0) { Accessible* nextChild = mWalker.Next(); if (nextChild) { mChildBefore = mChild; mChild = nextChild; return true; } } while (mNodesIdx < mNodes->Length()) { // Ignore nodes that are not contained by the container anymore. // The container might be changed, for example, because of the subsequent // overlapping content insertion (i.e. other content was inserted between // this inserted content and its container or the content was reinserted // into different container of unrelated part of tree). To avoid a double // processing of the content insertion ignore this insertion notification. // Note, the inserted content might be not in tree at all at this point // what means there's no container. Ignore the insertion too. nsIContent* prevNode = mNodes->SafeElementAt(mNodesIdx - 1); nsIContent* node = mNodes->ElementAt(mNodesIdx++); Accessible* container = Document()->AccessibleOrTrueContainer(node); if (container != Context()) { continue; } // HTML comboboxes have no-content list accessible as an intermediate // containing all options. if (container->IsHTMLCombobox()) { container = container->FirstChild(); } if (!container->IsAcceptableChild(node)) { continue; } #ifdef A11Y_LOG logging::TreeInfo("traversing an inserted node", logging::eVerbose, "container", container, "node", node); #endif // If inserted nodes are siblings then just move the walker next. if (mChild && prevNode && prevNode->GetNextSibling() == node) { Accessible* nextChild = mWalker.Scope(node); if (nextChild) { mChildBefore = mChild; mChild = nextChild; return true; } } else { TreeWalker finder(container); if (finder.Seek(node)) { mChild = mWalker.Scope(node); if (mChild) { mChildBefore = finder.Prev(); return true; } } } } return false; } void DocAccessible::ProcessContentInserted(Accessible* aContainer, const nsTArray >* aNodes) { // Process insertions if the container accessible is still in tree. if (!aContainer->IsInDocument()) { return; } // If new root content has been inserted then update it. if (aContainer == this) { UpdateRootElIfNeeded(); } InsertIterator iter(aContainer, aNodes); if (!iter.Next()) { return; } #ifdef A11Y_LOG logging::TreeInfo("children before insertion", logging::eVerbose, aContainer); #endif TreeMutation mt(aContainer); do { Accessible* parent = iter.Child()->Parent(); if (parent) { if (parent != aContainer) { #ifdef A11Y_LOG logging::TreeInfo("stealing accessible", 0, "old parent", parent, "new parent", aContainer, "child", iter.Child(), nullptr); #endif MOZ_ASSERT_UNREACHABLE("stealing accessible"); continue; } #ifdef A11Y_LOG logging::TreeInfo("binding to same parent", logging::eVerbose, "parent", aContainer, "child", iter.Child(), nullptr); #endif continue; } if (aContainer->InsertAfter(iter.Child(), iter.ChildBefore())) { #ifdef A11Y_LOG logging::TreeInfo("accessible was inserted", 0, "container", aContainer, "child", iter.Child(), nullptr); #endif CreateSubtree(iter.Child()); mt.AfterInsertion(iter.Child()); continue; } MOZ_ASSERT_UNREACHABLE("accessible was rejected"); iter.Rejected(); } while (iter.Next()); mt.Done(); #ifdef A11Y_LOG logging::TreeInfo("children after insertion", logging::eVerbose, aContainer); #endif FireEventsOnInsertion(aContainer); } void DocAccessible::ProcessContentInserted(Accessible* aContainer, nsIContent* aNode) { if (!aContainer->IsInDocument()) { return; } #ifdef A11Y_LOG logging::TreeInfo("children before insertion", logging::eVerbose, aContainer); #endif #ifdef A11Y_LOG logging::TreeInfo("traversing an inserted node", logging::eVerbose, "container", aContainer, "node", aNode); #endif TreeWalker walker(aContainer); if (aContainer->IsAcceptableChild(aNode) && walker.Seek(aNode)) { Accessible* child = GetAccessible(aNode); if (!child) { child = GetAccService()->CreateAccessible(aNode, aContainer); } if (child) { TreeMutation mt(aContainer); if (!aContainer->InsertAfter(child, walker.Prev())) { return; } CreateSubtree(child); mt.AfterInsertion(child); mt.Done(); FireEventsOnInsertion(aContainer); } } #ifdef A11Y_LOG logging::TreeInfo("children after insertion", logging::eVerbose, aContainer); #endif } void DocAccessible::FireEventsOnInsertion(Accessible* aContainer) { // Check to see if change occurred inside an alert, and fire an EVENT_ALERT // if it did. if (aContainer->IsAlert() || aContainer->IsInsideAlert()) { Accessible* ancestor = aContainer; do { if (ancestor->IsAlert()) { FireDelayedEvent(nsIAccessibleEvent::EVENT_ALERT, ancestor); break; } } while ((ancestor = ancestor->Parent())); } } void DocAccessible::UpdateTreeOnRemoval(Accessible* aContainer, nsIContent* aChildNode) { // If child node is not accessible then look for its accessible children. Accessible* child = GetAccessible(aChildNode); #ifdef A11Y_LOG logging::TreeInfo("process content removal", 0, "container", aContainer, "child", aChildNode); #endif TreeMutation mt(aContainer); if (child) { RefPtr kungFuDeathGripChild(child); mt.BeforeRemoval(child); if (child->IsDefunct()) { return; // event coalescence may kill us } MOZ_ASSERT(aContainer == child->Parent(), "Wrong parent"); aContainer->RemoveChild(child); UncacheChildrenInSubtree(child); mt.Done(); return; } TreeWalker walker(aContainer, aChildNode, TreeWalker::eWalkCache); while (Accessible* child = walker.Next()) { RefPtr kungFuDeathGripChild(child); mt.BeforeRemoval(child); if (child->IsDefunct()) { return; // event coalescence may kill us } MOZ_ASSERT(aContainer == child->Parent(), "Wrong parent"); aContainer->RemoveChild(child); UncacheChildrenInSubtree(child); } mt.Done(); } bool DocAccessible::RelocateARIAOwnedIfNeeded(nsIContent* aElement) { if (!aElement->HasID()) return false; AttrRelProviderArray* list = mDependentIDsHash.Get(nsDependentAtomString(aElement->GetID())); if (list) { for (uint32_t idx = 0; idx < list->Length(); idx++) { if (list->ElementAt(idx)->mRelAttr == nsGkAtoms::aria_owns) { Accessible* owner = GetAccessible(list->ElementAt(idx)->mContent); if (owner) { mNotificationController->ScheduleRelocation(owner); return true; } } } } return false; } void DocAccessible::ValidateARIAOwned() { for (auto it = mARIAOwnsHash.Iter(); !it.Done(); it.Next()) { Accessible* owner = it.Key(); nsTArray >* children = it.UserData(); // Owner is about to die, put children back if applicable. if (!mAccessibleCache.GetWeak(reinterpret_cast(owner)) || !owner->IsInDocument()) { PutChildrenBack(children, 0); it.Remove(); continue; } for (uint32_t idx = 0; idx < children->Length(); idx++) { Accessible* child = children->ElementAt(idx); if (!child->IsInDocument()) { children->RemoveElementAt(idx); idx--; continue; } NS_ASSERTION(child->Parent(), "No parent for ARIA owned?"); // If DOM node doesn't have a frame anymore then shutdown its accessible. if (child->Parent() && !child->GetFrame()) { UpdateTreeOnRemoval(child->Parent(), child->GetContent()); children->RemoveElementAt(idx); idx--; continue; } NS_ASSERTION(child->Parent() == owner, "Illigally stolen ARIA owned child!"); } if (children->Length() == 0) { it.Remove(); } } } void DocAccessible::DoARIAOwnsRelocation(Accessible* aOwner) { MOZ_ASSERT(aOwner, "aOwner must be a valid pointer"); MOZ_ASSERT(aOwner->Elm(), "aOwner->Elm() must be a valid pointer"); #ifdef A11Y_LOG logging::TreeInfo("aria owns relocation", logging::eVerbose, aOwner); #endif nsTArray >* owned = mARIAOwnsHash.LookupOrAdd(aOwner); IDRefsIterator iter(this, aOwner->Elm(), nsGkAtoms::aria_owns); uint32_t idx = 0; while (nsIContent* childEl = iter.NextElem()) { Accessible* child = GetAccessible(childEl); auto insertIdx = aOwner->ChildCount() - owned->Length() + idx; // Make an attempt to create an accessible if it wasn't created yet. if (!child) { if (aOwner->IsAcceptableChild(childEl)) { child = GetAccService()->CreateAccessible(childEl, aOwner); if (child) { TreeMutation imut(aOwner); aOwner->InsertChildAt(insertIdx, child); imut.AfterInsertion(child); imut.Done(); child->SetRelocated(true); owned->InsertElementAt(idx, child); idx++; // Create subtree before adjusting the insertion index, since subtree // creation may alter children in the container. CreateSubtree(child); FireEventsOnInsertion(aOwner); } } continue; } #ifdef A11Y_LOG logging::TreeInfo("aria owns traversal", logging::eVerbose, "candidate", child, nullptr); #endif // Same child on same position, no change. if (child->Parent() == aOwner && child->IndexInParent() == static_cast(insertIdx)) { MOZ_ASSERT(owned->ElementAt(idx) == child, "Not in sync!"); idx++; continue; } MOZ_ASSERT(owned->SafeElementAt(idx) != child, "Already in place!"); if (owned->IndexOf(child) < idx) { continue; // ignore second entry of same ID } // A new child is found, check for loops. if (child->Parent() != aOwner) { Accessible* parent = aOwner; while (parent && parent != child && !parent->IsDoc()) { parent = parent->Parent(); } // A referred child cannot be a parent of the owner. if (parent == child) { continue; } } if (MoveChild(child, aOwner, insertIdx)) { child->SetRelocated(true); MOZ_ASSERT(owned == mARIAOwnsHash.Get(aOwner)); owned = mARIAOwnsHash.LookupOrAdd(aOwner); owned->InsertElementAt(idx, child); idx++; } } // Put back children that are not seized anymore. PutChildrenBack(owned, idx); if (owned->Length() == 0) { mARIAOwnsHash.Remove(aOwner); } } void DocAccessible::PutChildrenBack(nsTArray >* aChildren, uint32_t aStartIdx) { MOZ_ASSERT(aStartIdx <= aChildren->Length(), "Wrong removal index"); nsTArray > containers; for (auto idx = aStartIdx; idx < aChildren->Length(); idx++) { Accessible* child = aChildren->ElementAt(idx); if (!child->IsInDocument()) { continue; } // Remove the child from the owner Accessible* owner = child->Parent(); if (!owner) { NS_ERROR("Cannot put the child back. No parent, a broken tree."); continue; } #ifdef A11Y_LOG logging::TreeInfo("aria owns put child back", 0, "old parent", owner, "child", child, nullptr); #endif // Unset relocated flag to find an insertion point for the child. child->SetRelocated(false); int32_t idxInParent = -1; Accessible* origContainer = GetContainerAccessible(child->GetContent()); if (origContainer) { TreeWalker walker(origContainer); if (walker.Seek(child->GetContent())) { Accessible* prevChild = walker.Prev(); if (prevChild) { idxInParent = prevChild->IndexInParent() + 1; MOZ_ASSERT(origContainer == prevChild->Parent(), "Broken tree"); origContainer = prevChild->Parent(); } else { idxInParent = 0; } } } MoveChild(child, origContainer, idxInParent); } aChildren->RemoveElementsAt(aStartIdx, aChildren->Length() - aStartIdx); } bool DocAccessible::MoveChild(Accessible* aChild, Accessible* aNewParent, int32_t aIdxInParent) { MOZ_ASSERT(aChild, "No child"); MOZ_ASSERT(aChild->Parent(), "No parent"); MOZ_ASSERT(aIdxInParent <= static_cast(aNewParent->ChildCount()), "Wrong insertion point for a moving child"); Accessible* curParent = aChild->Parent(); #ifdef A11Y_LOG logging::TreeInfo("move child", 0, "old parent", curParent, "new parent", aNewParent, "child", aChild, nullptr); #endif // Forget aria-owns info in case of ARIA owned element. The caller is expected // to update it if needed. if (aChild->IsRelocated()) { aChild->SetRelocated(false); nsTArray >* children = mARIAOwnsHash.Get(curParent); children->RemoveElement(aChild); } NotificationController::MoveGuard mguard(mNotificationController); if (curParent == aNewParent) { MOZ_ASSERT(aChild->IndexInParent() != aIdxInParent, "No move case"); curParent->MoveChild(aIdxInParent, aChild); #ifdef A11Y_LOG logging::TreeInfo("move child: parent tree after", logging::eVerbose, curParent); #endif return true; } if (!aNewParent->IsAcceptableChild(aChild->GetContent())) { return false; } TreeMutation rmut(curParent); rmut.BeforeRemoval(aChild, TreeMutation::kNoShutdown); curParent->RemoveChild(aChild); rmut.Done(); // No insertion point for the child. if (aIdxInParent == -1) { return true; } if (aIdxInParent > static_cast(aNewParent->ChildCount())) { MOZ_ASSERT_UNREACHABLE("Wrong insertion point for a moving child"); return true; } TreeMutation imut(aNewParent); aNewParent->InsertChildAt(aIdxInParent, aChild); imut.AfterInsertion(aChild); imut.Done(); #ifdef A11Y_LOG logging::TreeInfo("move child: old parent tree after", logging::eVerbose, curParent); logging::TreeInfo("move child: new parent tree after", logging::eVerbose, aNewParent); #endif return true; } void DocAccessible::CacheChildrenInSubtree(Accessible* aRoot, Accessible** aFocusedAcc) { // If the accessible is focused then report a focus event after all related // mutation events. if (aFocusedAcc && !*aFocusedAcc && FocusMgr()->HasDOMFocus(aRoot->GetContent())) *aFocusedAcc = aRoot; Accessible* root = aRoot->IsHTMLCombobox() ? aRoot->FirstChild() : aRoot; if (root->KidsFromDOM()) { TreeMutation mt(root, TreeMutation::kNoEvents); TreeWalker walker(root); while (Accessible* child = walker.Next()) { if (child->IsBoundToParent()) { MoveChild(child, root, root->ChildCount()); continue; } root->AppendChild(child); mt.AfterInsertion(child); CacheChildrenInSubtree(child, aFocusedAcc); } mt.Done(); } // Fire events for ARIA elements. if (!aRoot->HasARIARole()) { return; } // XXX: we should delay document load complete event if the ARIA document // has aria-busy. roles::Role role = aRoot->ARIARole(); if (!aRoot->IsDoc() && (role == roles::DIALOG || role == roles::DOCUMENT)) { FireDelayedEvent(nsIAccessibleEvent::EVENT_DOCUMENT_LOAD_COMPLETE, aRoot); } } void DocAccessible::UncacheChildrenInSubtree(Accessible* aRoot) { aRoot->mStateFlags |= eIsNotInDocument; RemoveDependentIDsFor(aRoot); uint32_t count = aRoot->ContentChildCount(); for (uint32_t idx = 0; idx < count; idx++) { Accessible* child = aRoot->ContentChildAt(idx); // Removing this accessible from the document doesn't mean anything about // accessibles for subdocuments, so skip removing those from the tree. if (!child->IsDoc()) { UncacheChildrenInSubtree(child); } } if (aRoot->IsNodeMapEntry() && mNodeToAccessibleMap.Get(aRoot->GetNode()) == aRoot) mNodeToAccessibleMap.Remove(aRoot->GetNode()); } void DocAccessible::ShutdownChildrenInSubtree(Accessible* aAccessible) { // Traverse through children and shutdown them before this accessible. When // child gets shutdown then it removes itself from children array of its //parent. Use jdx index to process the cases if child is not attached to the // parent and as result doesn't remove itself from its children. uint32_t count = aAccessible->ContentChildCount(); for (uint32_t idx = 0, jdx = 0; idx < count; idx++) { Accessible* child = aAccessible->ContentChildAt(jdx); if (!child->IsBoundToParent()) { NS_ERROR("Parent refers to a child, child doesn't refer to parent!"); jdx++; } // Don't cross document boundaries. The outerdoc shutdown takes care about // its subdocument. if (!child->IsDoc()) ShutdownChildrenInSubtree(child); } UnbindFromDocument(aAccessible); } bool DocAccessible::IsLoadEventTarget() const { nsCOMPtr treeItem = mDocumentNode->GetDocShell(); NS_ASSERTION(treeItem, "No document shell for document!"); nsCOMPtr parentTreeItem; treeItem->GetParent(getter_AddRefs(parentTreeItem)); // Not a root document. if (parentTreeItem) { // Return true if it's either: // a) tab document; nsCOMPtr rootTreeItem; treeItem->GetRootTreeItem(getter_AddRefs(rootTreeItem)); if (parentTreeItem == rootTreeItem) return true; // b) frame/iframe document and its parent document is not in loading state // Note: we can get notifications while document is loading (and thus // while there's no parent document yet). DocAccessible* parentDoc = ParentDocument(); return parentDoc && parentDoc->HasLoadState(eCompletelyLoaded); } // It's content (not chrome) root document. return (treeItem->ItemType() == nsIDocShellTreeItem::typeContent); }