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|
/* -*- 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/. */
/*
* Base class for all element classes; this provides an implementation
* of DOM Core's Element, implements nsIContent, provides
* utility methods for subclasses, and so forth.
*/
#include "mozilla/dom/Element.h"
#include "mozilla/dom/ElementInlines.h"
#include <inttypes.h>
#include <initializer_list>
#include <new>
#include "DOMIntersectionObserver.h"
#include "DOMMatrix.h"
#include "ExpandedPrincipal.h"
#include "PresShellInlines.h"
#include "jsapi.h"
#include "mozAutoDocUpdate.h"
#include "mozilla/AnimationComparator.h"
#include "mozilla/AnimationTarget.h"
#include "mozilla/AsyncEventDispatcher.h"
#include "mozilla/CORSMode.h"
#include "mozilla/Components.h"
#include "mozilla/ComputedStyle.h"
#include "mozilla/ContentEvents.h"
#include "mozilla/DebugOnly.h"
#include "mozilla/DeclarationBlock.h"
#include "mozilla/EditorBase.h"
#include "mozilla/EffectCompositor.h"
#include "mozilla/EffectSet.h"
#include "mozilla/ElementAnimationData.h"
#include "mozilla/ErrorResult.h"
#include "mozilla/EventDispatcher.h"
#include "mozilla/EventListenerManager.h"
#include "mozilla/EventStateManager.h"
#include "mozilla/FloatingPoint.h"
#include "mozilla/FullscreenChange.h"
#include "mozilla/HTMLEditor.h"
#include "mozilla/InternalMutationEvent.h"
#include "mozilla/Likely.h"
#include "mozilla/LinkedList.h"
#include "mozilla/LookAndFeel.h"
#include "mozilla/MappedDeclarationsBuilder.h"
#include "mozilla/MouseEvents.h"
#include "mozilla/NotNull.h"
#include "mozilla/PointerLockManager.h"
#include "mozilla/PresShell.h"
#include "mozilla/PresShellForwards.h"
#include "mozilla/ReflowOutput.h"
#include "mozilla/RelativeTo.h"
#include "mozilla/ScrollTypes.h"
#include "mozilla/ServoStyleConsts.h"
#include "mozilla/ServoStyleConstsInlines.h"
#include "mozilla/SizeOfState.h"
#include "mozilla/StaticAnalysisFunctions.h"
#include "mozilla/StaticPrefs_dom.h"
#include "mozilla/StaticPrefs_full_screen_api.h"
#include "mozilla/TextControlElement.h"
#include "mozilla/TextEditor.h"
#include "mozilla/TextEvents.h"
#include "mozilla/Try.h"
#include "mozilla/TypedEnumBits.h"
#include "mozilla/Unused.h"
#include "mozilla/dom/AnimatableBinding.h"
#include "mozilla/dom/Animation.h"
#include "mozilla/dom/Attr.h"
#include "mozilla/dom/BindContext.h"
#include "mozilla/dom/BindingDeclarations.h"
#include "mozilla/dom/CustomElementRegistry.h"
#include "mozilla/dom/DOMRect.h"
#include "mozilla/dom/DirectionalityUtils.h"
#include "mozilla/dom/Document.h"
#include "mozilla/dom/DocumentFragment.h"
#include "mozilla/dom/DocumentInlines.h"
#include "mozilla/dom/DocumentTimeline.h"
#include "mozilla/dom/ElementBinding.h"
#include "mozilla/dom/Flex.h"
#include "mozilla/dom/FragmentOrElement.h"
#include "mozilla/dom/FromParser.h"
#include "mozilla/dom/Grid.h"
#include "mozilla/dom/HTMLDivElement.h"
#include "mozilla/dom/HTMLElement.h"
#include "mozilla/dom/HTMLParagraphElement.h"
#include "mozilla/dom/HTMLPreElement.h"
#include "mozilla/dom/HTMLSpanElement.h"
#include "mozilla/dom/HTMLTableCellElement.h"
#include "mozilla/dom/HTMLTemplateElement.h"
#include "mozilla/dom/KeyframeAnimationOptionsBinding.h"
#include "mozilla/dom/KeyframeEffect.h"
#include "mozilla/dom/MouseEvent.h"
#include "mozilla/dom/MouseEventBinding.h"
#include "mozilla/dom/MutationEventBinding.h"
#include "mozilla/dom/MutationObservers.h"
#include "mozilla/dom/NodeInfo.h"
#include "mozilla/dom/PointerEventHandler.h"
#include "mozilla/dom/Promise.h"
#include "mozilla/dom/Sanitizer.h"
#include "mozilla/dom/SVGElement.h"
#include "mozilla/dom/ScriptLoader.h"
#include "mozilla/dom/ShadowRoot.h"
#include "mozilla/dom/Text.h"
#include "mozilla/dom/UnbindContext.h"
#include "mozilla/dom/WindowBinding.h"
#include "mozilla/dom/XULCommandEvent.h"
#include "mozilla/dom/nsCSPContext.h"
#include "mozilla/gfx/BasePoint.h"
#include "mozilla/gfx/BaseRect.h"
#include "mozilla/gfx/BaseSize.h"
#include "mozilla/gfx/Matrix.h"
#include "mozilla/widget/Screen.h"
#include "nsAtom.h"
#include "nsAttrName.h"
#include "nsAttrValueInlines.h"
#include "nsAttrValueOrString.h"
#include "nsBaseHashtable.h"
#include "nsBlockFrame.h"
#include "nsCOMPtr.h"
#include "nsContentUtils.h"
#include "nsCSSPseudoElements.h"
#include "nsCompatibility.h"
#include "nsContainerFrame.h"
#include "nsContentList.h"
#include "nsContentListDeclarations.h"
#include "nsCoord.h"
#include "nsDOMAttributeMap.h"
#include "nsDOMCSSAttrDeclaration.h"
#include "nsDOMMutationObserver.h"
#include "nsDOMString.h"
#include "nsDOMStringMap.h"
#include "nsDOMTokenList.h"
#include "nsDocShell.h"
#include "nsError.h"
#include "nsFlexContainerFrame.h"
#include "nsFocusManager.h"
#include "nsFrameState.h"
#include "nsGenericHTMLElement.h"
#include "nsGkAtoms.h"
#include "nsGridContainerFrame.h"
#include "nsIAutoCompletePopup.h"
#include "nsIBrowser.h"
#include "nsIContentInlines.h"
#include "nsIDOMXULButtonElement.h"
#include "nsIDOMXULContainerElement.h"
#include "nsIDOMXULControlElement.h"
#include "nsIDOMXULMenuListElement.h"
#include "nsIDOMXULMultSelectCntrlEl.h"
#include "nsIDOMXULRadioGroupElement.h"
#include "nsIDOMXULRelatedElement.h"
#include "nsIDOMXULSelectCntrlEl.h"
#include "nsIDOMXULSelectCntrlItemEl.h"
#include "nsIDocShell.h"
#include "nsIFocusManager.h"
#include "nsIFrame.h"
#include "nsIGlobalObject.h"
#include "nsIIOService.h"
#include "nsIInterfaceRequestor.h"
#include "nsIMemoryReporter.h"
#include "nsIPrincipal.h"
#include "nsIScriptError.h"
#include "nsIScrollableFrame.h"
#include "nsISpeculativeConnect.h"
#include "nsISupports.h"
#include "nsISupportsUtils.h"
#include "nsIURI.h"
#include "nsLayoutUtils.h"
#include "nsLineBox.h"
#include "nsNameSpaceManager.h"
#include "nsNodeInfoManager.h"
#include "nsPIDOMWindow.h"
#include "nsPoint.h"
#include "nsPresContext.h"
#include "nsQueryFrame.h"
#include "nsRefPtrHashtable.h"
#include "nsSize.h"
#include "nsString.h"
#include "nsStyleConsts.h"
#include "nsStyleStruct.h"
#include "nsStyledElement.h"
#include "nsTArray.h"
#include "nsTextNode.h"
#include "nsThreadUtils.h"
#include "nsViewManager.h"
#include "nsWindowSizes.h"
#include "nsXULElement.h"
#ifdef DEBUG
# include "nsRange.h"
#endif
#ifdef ACCESSIBILITY
# include "nsAccessibilityService.h"
#endif
using mozilla::gfx::Matrix4x4;
namespace mozilla::dom {
// Verify sizes of nodes. We use a template rather than a direct static
// assert so that the error message actually displays the sizes.
// On 32 bit systems the actual allocated size varies a bit between
// OSes/compilers.
//
// We need different numbers on certain build types to deal with the owning
// thread pointer that comes with the non-threadsafe refcount on
// nsIContent.
#ifdef MOZ_THREAD_SAFETY_OWNERSHIP_CHECKS_SUPPORTED
# define EXTRA_DOM_NODE_BYTES 8
#else
# define EXTRA_DOM_NODE_BYTES 0
#endif
#define ASSERT_NODE_SIZE(type, opt_size_64, opt_size_32) \
template <int a, int sizeOn64, int sizeOn32> \
struct Check##type##Size { \
static_assert((sizeof(void*) == 8 && a == sizeOn64) || \
(sizeof(void*) == 4 && a <= sizeOn32), \
"DOM size changed"); \
}; \
Check##type##Size<sizeof(type), opt_size_64 + EXTRA_DOM_NODE_BYTES, \
opt_size_32 + EXTRA_DOM_NODE_BYTES> \
g##type##CES;
// Note that mozjemalloc uses a 16 byte quantum, so 64, 80 and 128 are
// bucket sizes.
ASSERT_NODE_SIZE(Element, 128, 80);
ASSERT_NODE_SIZE(HTMLDivElement, 128, 80);
ASSERT_NODE_SIZE(HTMLElement, 128, 80);
ASSERT_NODE_SIZE(HTMLParagraphElement, 128, 80);
ASSERT_NODE_SIZE(HTMLPreElement, 128, 80);
ASSERT_NODE_SIZE(HTMLSpanElement, 128, 80);
ASSERT_NODE_SIZE(HTMLTableCellElement, 128, 80);
ASSERT_NODE_SIZE(Text, 120, 80);
#undef ASSERT_NODE_SIZE
#undef EXTRA_DOM_NODE_BYTES
} // namespace mozilla::dom
nsAtom* nsIContent::DoGetID() const {
MOZ_ASSERT(HasID(), "Unexpected call");
MOZ_ASSERT(IsElement(), "Only elements can have IDs");
return AsElement()->GetParsedAttr(nsGkAtoms::id)->GetAtomValue();
}
nsIFrame* nsIContent::GetPrimaryFrame(mozilla::FlushType aType) {
Document* doc = GetComposedDoc();
if (!doc) {
return nullptr;
}
// Cause a flush, so we get up-to-date frame information.
if (aType != mozilla::FlushType::None) {
doc->FlushPendingNotifications(aType);
}
auto* frame = GetPrimaryFrame();
if (!frame) {
return nullptr;
}
if (aType == mozilla::FlushType::Layout) {
frame->PresShell()->EnsureReflowIfFrameHasHiddenContent(frame);
frame = GetPrimaryFrame();
}
return frame;
}
namespace mozilla::dom {
const DOMTokenListSupportedToken Element::sSupportedBlockingValues[] = {
"render", nullptr};
nsDOMAttributeMap* Element::Attributes() {
nsDOMSlots* slots = DOMSlots();
if (!slots->mAttributeMap) {
slots->mAttributeMap = new nsDOMAttributeMap(this);
}
return slots->mAttributeMap;
}
void Element::SetPointerCapture(int32_t aPointerId, ErrorResult& aError) {
if (OwnerDoc()->ShouldResistFingerprinting(RFPTarget::PointerEvents) &&
aPointerId != PointerEventHandler::GetSpoofedPointerIdForRFP()) {
aError.ThrowNotFoundError("Invalid pointer id");
return;
}
const PointerInfo* pointerInfo =
PointerEventHandler::GetPointerInfo(aPointerId);
if (!pointerInfo) {
aError.ThrowNotFoundError("Invalid pointer id");
return;
}
if (!IsInComposedDoc()) {
aError.Throw(NS_ERROR_DOM_INVALID_STATE_ERR);
return;
}
if (OwnerDoc()->GetPointerLockElement()) {
// Throw an exception 'InvalidStateError' while the page has a locked
// element.
aError.Throw(NS_ERROR_DOM_INVALID_STATE_ERR);
return;
}
if (!pointerInfo->mActiveState ||
pointerInfo->mActiveDocument != OwnerDoc()) {
return;
}
PointerEventHandler::RequestPointerCaptureById(aPointerId, this);
}
void Element::ReleasePointerCapture(int32_t aPointerId, ErrorResult& aError) {
if (OwnerDoc()->ShouldResistFingerprinting(RFPTarget::PointerEvents) &&
aPointerId != PointerEventHandler::GetSpoofedPointerIdForRFP()) {
aError.ThrowNotFoundError("Invalid pointer id");
return;
}
if (!PointerEventHandler::GetPointerInfo(aPointerId)) {
aError.ThrowNotFoundError("Invalid pointer id");
return;
}
if (HasPointerCapture(aPointerId)) {
PointerEventHandler::ReleasePointerCaptureById(aPointerId);
}
}
bool Element::HasPointerCapture(long aPointerId) {
PointerCaptureInfo* pointerCaptureInfo =
PointerEventHandler::GetPointerCaptureInfo(aPointerId);
if (pointerCaptureInfo && pointerCaptureInfo->mPendingElement == this) {
return true;
}
return false;
}
const nsAttrValue* Element::GetSVGAnimatedClass() const {
MOZ_ASSERT(MayHaveClass() && IsSVGElement(), "Unexpected call");
return static_cast<const SVGElement*>(this)->GetAnimatedClassName();
}
NS_IMETHODIMP
Element::QueryInterface(REFNSIID aIID, void** aInstancePtr) {
if (aIID.Equals(NS_GET_IID(Element))) {
NS_ADDREF_THIS();
*aInstancePtr = this;
return NS_OK;
}
NS_ASSERTION(aInstancePtr, "QueryInterface requires a non-NULL destination!");
nsresult rv = FragmentOrElement::QueryInterface(aIID, aInstancePtr);
if (NS_SUCCEEDED(rv)) {
return NS_OK;
}
return NS_NOINTERFACE;
}
void Element::NotifyStateChange(ElementState aStates) {
MOZ_ASSERT(!aStates.IsEmpty());
if (Document* doc = GetComposedDoc()) {
nsAutoScriptBlocker scriptBlocker;
doc->ElementStateChanged(this, aStates);
}
}
} // namespace mozilla::dom
void nsIContent::UpdateEditableState(bool aNotify) {
if (IsInNativeAnonymousSubtree()) {
// Don't propagate the editable flag into native anonymous subtrees.
if (IsRootOfNativeAnonymousSubtree()) {
return;
}
// We allow setting the flag on NAC (explicitly, see
// nsTextControlFrame::CreateAnonymousContent for example), but not
// unsetting it.
//
// Otherwise, just the act of binding the NAC subtree into our non-anonymous
// parent would clear the flag, which is not good. As we shouldn't move NAC
// around, this is fine.
if (HasFlag(NODE_IS_EDITABLE)) {
return;
}
}
nsIContent* parent = GetParent();
SetEditableFlag(parent && parent->HasFlag(NODE_IS_EDITABLE));
}
namespace mozilla::dom {
void Element::UpdateEditableState(bool aNotify) {
nsIContent::UpdateEditableState(aNotify);
UpdateReadOnlyState(aNotify);
}
bool Element::IsReadOnlyInternal() const { return !IsEditable(); }
void Element::UpdateReadOnlyState(bool aNotify) {
auto oldState = State();
if (IsReadOnlyInternal()) {
RemoveStatesSilently(ElementState::READWRITE);
AddStatesSilently(ElementState::READONLY);
} else {
RemoveStatesSilently(ElementState::READONLY);
AddStatesSilently(ElementState::READWRITE);
}
if (!aNotify) {
return;
}
const auto newState = State();
if (newState != oldState) {
NotifyStateChange(newState ^ oldState);
}
}
Maybe<int32_t> Element::GetTabIndexAttrValue() {
const nsAttrValue* attrVal = GetParsedAttr(nsGkAtoms::tabindex);
if (attrVal && attrVal->Type() == nsAttrValue::eInteger) {
return Some(attrVal->GetIntegerValue());
}
return Nothing();
}
int32_t Element::TabIndex() {
Maybe<int32_t> attrVal = GetTabIndexAttrValue();
if (attrVal.isSome()) {
return attrVal.value();
}
return TabIndexDefault();
}
void Element::Focus(const FocusOptions& aOptions, CallerType aCallerType,
ErrorResult& aError) {
const RefPtr<nsFocusManager> fm = nsFocusManager::GetFocusManager();
if (MOZ_UNLIKELY(!fm)) {
return;
}
const OwningNonNull<Element> kungFuDeathGrip(*this);
// Also other browsers seem to have the hack to not re-focus (and flush) when
// the element is already focused.
// Until https://github.com/whatwg/html/issues/4512 is clarified, we'll
// maintain interoperatibility by not re-focusing, independent of aOptions.
// I.e., `focus({ preventScroll: true})` followed by `focus( { preventScroll:
// false })` won't re-focus.
if (fm->CanSkipFocus(this)) {
fm->NotifyOfReFocus(kungFuDeathGrip);
fm->NeedsFlushBeforeEventHandling(this);
return;
}
uint32_t fmFlags = nsFocusManager::ProgrammaticFocusFlags(aOptions);
if (aCallerType == CallerType::NonSystem) {
fmFlags |= nsIFocusManager::FLAG_NONSYSTEMCALLER;
}
aError = fm->SetFocus(kungFuDeathGrip, fmFlags);
}
void Element::SetTabIndex(int32_t aTabIndex, mozilla::ErrorResult& aError) {
nsAutoString value;
value.AppendInt(aTabIndex);
SetAttr(nsGkAtoms::tabindex, value, aError);
}
void Element::SetShadowRoot(ShadowRoot* aShadowRoot) {
nsExtendedDOMSlots* slots = ExtendedDOMSlots();
MOZ_ASSERT(!aShadowRoot || !slots->mShadowRoot,
"We shouldn't clear the shadow root without unbind first");
slots->mShadowRoot = aShadowRoot;
}
void Element::SetLastRememberedBSize(float aBSize) {
ExtendedDOMSlots()->mLastRememberedBSize = Some(aBSize);
}
void Element::SetLastRememberedISize(float aISize) {
ExtendedDOMSlots()->mLastRememberedISize = Some(aISize);
}
void Element::RemoveLastRememberedBSize() {
if (nsExtendedDOMSlots* slots = GetExistingExtendedDOMSlots()) {
slots->mLastRememberedBSize.reset();
}
}
void Element::RemoveLastRememberedISize() {
if (nsExtendedDOMSlots* slots = GetExistingExtendedDOMSlots()) {
slots->mLastRememberedISize.reset();
}
}
void Element::Blur(mozilla::ErrorResult& aError) {
if (!ShouldBlur(this)) {
return;
}
Document* doc = GetComposedDoc();
if (!doc) {
return;
}
if (nsCOMPtr<nsPIDOMWindowOuter> win = doc->GetWindow()) {
if (RefPtr<nsFocusManager> fm = nsFocusManager::GetFocusManager()) {
aError = fm->ClearFocus(win);
}
}
}
ElementState Element::StyleStateFromLocks() const {
StyleStateLocks locksAndValues = LockedStyleStates();
ElementState locks = locksAndValues.mLocks;
ElementState values = locksAndValues.mValues;
ElementState state = (mState & ~locks) | (locks & values);
if (state.HasState(ElementState::VISITED)) {
return state & ~ElementState::UNVISITED;
}
if (state.HasState(ElementState::UNVISITED)) {
return state & ~ElementState::VISITED;
}
return state;
}
Element::StyleStateLocks Element::LockedStyleStates() const {
StyleStateLocks* locks =
static_cast<StyleStateLocks*>(GetProperty(nsGkAtoms::lockedStyleStates));
if (locks) {
return *locks;
}
return StyleStateLocks();
}
void Element::NotifyStyleStateChange(ElementState aStates) {
if (RefPtr<Document> doc = GetComposedDoc()) {
if (RefPtr<PresShell> presShell = doc->GetPresShell()) {
nsAutoScriptBlocker scriptBlocker;
presShell->ElementStateChanged(doc, this, aStates);
}
}
}
void Element::LockStyleStates(ElementState aStates, bool aEnabled) {
StyleStateLocks* locks = new StyleStateLocks(LockedStyleStates());
locks->mLocks |= aStates;
if (aEnabled) {
locks->mValues |= aStates;
} else {
locks->mValues &= ~aStates;
}
if (aStates.HasState(ElementState::VISITED)) {
locks->mLocks &= ~ElementState::UNVISITED;
}
if (aStates.HasState(ElementState::UNVISITED)) {
locks->mLocks &= ~ElementState::VISITED;
}
SetProperty(nsGkAtoms::lockedStyleStates, locks,
nsINode::DeleteProperty<StyleStateLocks>);
SetHasLockedStyleStates();
NotifyStyleStateChange(aStates);
}
void Element::UnlockStyleStates(ElementState aStates) {
StyleStateLocks* locks = new StyleStateLocks(LockedStyleStates());
locks->mLocks &= ~aStates;
if (locks->mLocks.IsEmpty()) {
RemoveProperty(nsGkAtoms::lockedStyleStates);
ClearHasLockedStyleStates();
delete locks;
} else {
SetProperty(nsGkAtoms::lockedStyleStates, locks,
nsINode::DeleteProperty<StyleStateLocks>);
}
NotifyStyleStateChange(aStates);
}
void Element::ClearStyleStateLocks() {
StyleStateLocks locks = LockedStyleStates();
RemoveProperty(nsGkAtoms::lockedStyleStates);
ClearHasLockedStyleStates();
NotifyStyleStateChange(locks.mLocks);
}
/* virtual */
nsINode* Element::GetScopeChainParent() const { return OwnerDoc(); }
nsDOMTokenList* Element::ClassList() {
Element::nsDOMSlots* slots = DOMSlots();
if (!slots->mClassList) {
slots->mClassList = new nsDOMTokenList(this, nsGkAtoms::_class);
}
return slots->mClassList;
}
nsDOMTokenList* Element::Part() {
Element::nsDOMSlots* slots = DOMSlots();
if (!slots->mPart) {
slots->mPart = new nsDOMTokenList(this, nsGkAtoms::part);
}
return slots->mPart;
}
void Element::RecompileScriptEventListeners() {
for (uint32_t i = 0, count = mAttrs.AttrCount(); i < count; ++i) {
BorrowedAttrInfo attrInfo = mAttrs.AttrInfoAt(i);
// Eventlistenener-attributes are always in the null namespace
if (!attrInfo.mName->IsAtom()) {
continue;
}
nsAtom* attr = attrInfo.mName->Atom();
if (!IsEventAttributeName(attr)) {
continue;
}
nsAutoString value;
attrInfo.mValue->ToString(value);
SetEventHandler(GetEventNameForAttr(attr), value, true);
}
}
void Element::GetAttributeNames(nsTArray<nsString>& aResult) {
uint32_t count = mAttrs.AttrCount();
for (uint32_t i = 0; i < count; ++i) {
const nsAttrName* name = mAttrs.AttrNameAt(i);
name->GetQualifiedName(*aResult.AppendElement());
}
}
already_AddRefed<nsIHTMLCollection> Element::GetElementsByTagName(
const nsAString& aLocalName) {
return NS_GetContentList(this, kNameSpaceID_Unknown, aLocalName);
}
nsIScrollableFrame* Element::GetScrollFrame(nsIFrame** aFrame,
FlushType aFlushType) {
nsIFrame* frame = GetPrimaryFrame(aFlushType);
if (aFrame) {
*aFrame = frame;
}
if (frame) {
if (frame->HasAnyStateBits(NS_FRAME_SVG_LAYOUT)) {
// It's unclear what to return for SVG frames, so just return null.
return nullptr;
}
if (nsIScrollableFrame* scrollFrame = frame->GetScrollTargetFrame()) {
MOZ_ASSERT(!OwnerDoc()->IsScrollingElement(this),
"How can we have a scrollframe if we're the "
"scrollingElement for our document?");
return scrollFrame;
}
}
Document* doc = OwnerDoc();
// Note: This IsScrollingElement() call can flush frames, if we're the body of
// a quirks mode document.
const bool isScrollingElement = doc->IsScrollingElement(this);
if (isScrollingElement) {
// Our scroll info should map to the root scrollable frame if there is one.
if (PresShell* presShell = doc->GetPresShell()) {
if ((frame = presShell->GetRootScrollFrame())) {
if (aFrame) {
*aFrame = frame;
}
return do_QueryFrame(frame);
}
}
}
if (aFrame) {
// Re-get *aFrame if the caller asked for it, because that frame flush can
// kill it.
*aFrame = GetPrimaryFrame(FlushType::None);
}
return nullptr;
}
bool Element::CheckVisibility(const CheckVisibilityOptions& aOptions) {
nsIFrame* f =
GetPrimaryFrame(aOptions.mFlush ? FlushType::Frames : FlushType::None);
if (!f) {
// 1. If this does not have an associated box, return false.
return false;
}
EnumSet includeContentVisibility = {
nsIFrame::IncludeContentVisibility::Hidden};
if (aOptions.mContentVisibilityAuto) {
includeContentVisibility += nsIFrame::IncludeContentVisibility::Auto;
}
// Steps 2 and 5
if (f->IsHiddenByContentVisibilityOnAnyAncestor(includeContentVisibility)) {
// 2. If a shadow-including ancestor of this has content-visibility: hidden,
// return false.
// 5. If a shadow-including ancestor of this skips its content due to
// has content-visibility: auto, return false.
return false;
}
if ((aOptions.mOpacityProperty || aOptions.mCheckOpacity) &&
f->Style()->IsInOpacityZeroSubtree()) {
// 3. If the checkOpacity dictionary member of options is true, and this, or
// a shadow-including ancestor of this, has a computed opacity value of 0,
// return false.
return false;
}
if ((aOptions.mVisibilityProperty || aOptions.mCheckVisibilityCSS) &&
!f->StyleVisibility()->IsVisible()) {
// 4. If the checkVisibilityCSS dictionary member of options is true, and
// this is invisible, return false.
return false;
}
// 6. Return true
return true;
}
void Element::ScrollIntoView(const BooleanOrScrollIntoViewOptions& aObject) {
if (aObject.IsScrollIntoViewOptions()) {
return ScrollIntoView(aObject.GetAsScrollIntoViewOptions());
}
MOZ_DIAGNOSTIC_ASSERT(aObject.IsBoolean());
ScrollIntoViewOptions options;
if (aObject.GetAsBoolean()) {
options.mBlock = ScrollLogicalPosition::Start;
options.mInline = ScrollLogicalPosition::Nearest;
} else {
options.mBlock = ScrollLogicalPosition::End;
options.mInline = ScrollLogicalPosition::Nearest;
}
return ScrollIntoView(options);
}
void Element::ScrollIntoView(const ScrollIntoViewOptions& aOptions) {
Document* document = GetComposedDoc();
if (!document) {
return;
}
// Get the presentation shell
RefPtr<PresShell> presShell = document->GetPresShell();
if (!presShell) {
return;
}
const auto ToWhereToScroll =
[](ScrollLogicalPosition aPosition) -> WhereToScroll {
switch (aPosition) {
case ScrollLogicalPosition::Start:
return WhereToScroll::Start;
case ScrollLogicalPosition::Center:
return WhereToScroll::Center;
case ScrollLogicalPosition::End:
return WhereToScroll::End;
case ScrollLogicalPosition::Nearest:
break;
}
return WhereToScroll::Nearest;
};
const auto block = ToWhereToScroll(aOptions.mBlock);
const auto inline_ = ToWhereToScroll(aOptions.mInline);
ScrollFlags scrollFlags =
ScrollFlags::ScrollOverflowHidden | ScrollFlags::TriggeredByScript;
if (aOptions.mBehavior == ScrollBehavior::Smooth) {
scrollFlags |= ScrollFlags::ScrollSmooth;
} else if (aOptions.mBehavior == ScrollBehavior::Auto) {
scrollFlags |= ScrollFlags::ScrollSmoothAuto;
}
// TODO: Propagate whether the axes are logical or not down (via scrollflags).
presShell->ScrollContentIntoView(
this, ScrollAxis(block, WhenToScroll::Always),
ScrollAxis(inline_, WhenToScroll::Always), scrollFlags);
}
void Element::ScrollTo(double aXScroll, double aYScroll) {
ScrollToOptions options;
options.mLeft.Construct(aXScroll);
options.mTop.Construct(aYScroll);
ScrollTo(options);
}
void Element::ScrollTo(const ScrollToOptions& aOptions) {
// When the scroll top is 0, we don't need to flush layout to scroll to that
// point; we know 0 is always in range. At least we think so... But we do
// need to flush frames so we ensure we find the right scrollable frame if
// there is one. If it's nonzero, we need to flush layout because we need to
// figure out what our real scrollTopMax is.
//
// If we have a left value, we can't assume things based on it's value,
// depending on our direction and layout 0 may or may not be in our scroll
// range. So we need to flush layout no matter what then.
const bool needsLayoutFlush =
aOptions.mLeft.WasPassed() ||
(aOptions.mTop.WasPassed() && aOptions.mTop.Value() != 0.0);
nsIFrame* frame;
nsIScrollableFrame* sf = GetScrollFrame(
&frame, needsLayoutFlush ? FlushType::Layout : FlushType::Frames);
if (!sf) {
return;
}
CSSIntPoint scrollPos = sf->GetRoundedScrollPositionCSSPixels();
if (aOptions.mLeft.WasPassed()) {
scrollPos.x = int32_t(mozilla::ToZeroIfNonfinite(
frame->Style()->EffectiveZoom().Zoom(aOptions.mLeft.Value())));
}
if (aOptions.mTop.WasPassed()) {
scrollPos.y = int32_t(mozilla::ToZeroIfNonfinite(
frame->Style()->EffectiveZoom().Zoom(aOptions.mTop.Value())));
}
ScrollMode scrollMode = sf->IsSmoothScroll(aOptions.mBehavior)
? ScrollMode::SmoothMsd
: ScrollMode::Instant;
sf->ScrollToCSSPixels(scrollPos, scrollMode);
}
void Element::ScrollBy(double aXScrollDif, double aYScrollDif) {
ScrollToOptions options;
options.mLeft.Construct(aXScrollDif);
options.mTop.Construct(aYScrollDif);
ScrollBy(options);
}
void Element::ScrollBy(const ScrollToOptions& aOptions) {
nsIFrame* frame;
nsIScrollableFrame* sf = GetScrollFrame(&frame);
if (!sf) {
return;
}
CSSIntPoint scrollDelta;
if (aOptions.mLeft.WasPassed()) {
scrollDelta.x = int32_t(mozilla::ToZeroIfNonfinite(
frame->Style()->EffectiveZoom().Zoom(aOptions.mLeft.Value())));
}
if (aOptions.mTop.WasPassed()) {
scrollDelta.y = int32_t(mozilla::ToZeroIfNonfinite(
frame->Style()->EffectiveZoom().Zoom(aOptions.mTop.Value())));
}
auto scrollMode = sf->IsSmoothScroll(aOptions.mBehavior)
? ScrollMode::SmoothMsd
: ScrollMode::Instant;
sf->ScrollByCSSPixels(scrollDelta, scrollMode);
}
int32_t Element::ScrollTop() {
return CSSPixel::FromAppUnitsRounded(GetScrollOrigin().y);
}
void Element::SetScrollTop(int32_t aScrollTop) {
ScrollToOptions options;
options.mTop.Construct(aScrollTop);
ScrollTo(options);
}
int32_t Element::ScrollLeft() {
return CSSPixel::FromAppUnitsRounded(GetScrollOrigin().x);
}
void Element::SetScrollLeft(int32_t aScrollLeft) {
ScrollToOptions options;
options.mLeft.Construct(aScrollLeft);
ScrollTo(options);
}
void Element::MozScrollSnap() {
if (nsIScrollableFrame* sf = GetScrollFrame(nullptr, FlushType::None)) {
sf->ScrollSnap();
}
}
nsRect Element::GetScrollRange() {
nsIFrame* frame;
nsIScrollableFrame* sf = GetScrollFrame(&frame);
if (!sf) {
return nsRect();
}
return frame->Style()->EffectiveZoom().Unzoom(sf->GetScrollRange());
}
int32_t Element::ScrollTopMin() {
return CSSPixel::FromAppUnitsRounded(GetScrollRange().Y());
}
int32_t Element::ScrollTopMax() {
return CSSPixel::FromAppUnitsRounded(GetScrollRange().YMost());
}
int32_t Element::ScrollLeftMin() {
return CSSPixel::FromAppUnitsRounded(GetScrollRange().X());
}
int32_t Element::ScrollLeftMax() {
return CSSPixel::FromAppUnitsRounded(GetScrollRange().XMost());
}
static nsSize GetScrollRectSizeForOverflowVisibleFrame(nsIFrame* aFrame) {
if (!aFrame || aFrame->HasAnyStateBits(NS_FRAME_SVG_LAYOUT)) {
return nsSize(0, 0);
}
nsRect paddingRect = aFrame->GetPaddingRectRelativeToSelf();
OverflowAreas overflowAreas(paddingRect, paddingRect);
// Add the scrollable overflow areas of children (if any) to the paddingRect.
// It's important to start with the paddingRect, otherwise if there are no
// children the overflow rect will be 0,0,0,0 which will force the point 0,0
// to be included in the final rect.
nsLayoutUtils::UnionChildOverflow(aFrame, overflowAreas);
// Make sure that an empty padding-rect's edges are included, by adding
// the padding-rect in again with UnionEdges.
nsRect overflowRect =
overflowAreas.ScrollableOverflow().UnionEdges(paddingRect);
return nsLayoutUtils::GetScrolledRect(aFrame, overflowRect,
paddingRect.Size(),
aFrame->StyleVisibility()->mDirection)
.Size();
}
nsSize Element::GetScrollSize() {
nsIFrame* frame;
nsSize size;
if (nsIScrollableFrame* sf = GetScrollFrame(&frame)) {
size = sf->GetScrollRange().Size() + sf->GetScrollPortRect().Size();
} else {
size = GetScrollRectSizeForOverflowVisibleFrame(frame);
}
if (!frame) {
return size;
}
return frame->Style()->EffectiveZoom().Unzoom(size);
}
nsPoint Element::GetScrollOrigin() {
nsIFrame* frame;
nsIScrollableFrame* sf = GetScrollFrame(&frame);
if (!sf) {
return nsPoint();
}
return frame->Style()->EffectiveZoom().Unzoom(sf->GetScrollPosition());
}
int32_t Element::ScrollHeight() {
return nsPresContext::AppUnitsToIntCSSPixels(GetScrollSize().height);
}
int32_t Element::ScrollWidth() {
return nsPresContext::AppUnitsToIntCSSPixels(GetScrollSize().width);
}
nsRect Element::GetClientAreaRect() {
Document* doc = OwnerDoc();
nsPresContext* presContext = doc->GetPresContext();
// We can avoid a layout flush if this is the scrolling element of the
// document, we have overlay scrollbars, and we aren't embedded in another
// document
if (presContext && presContext->UseOverlayScrollbars() &&
!doc->StyleOrLayoutObservablyDependsOnParentDocumentLayout() &&
doc->IsScrollingElement(this)) {
if (PresShell* presShell = doc->GetPresShell()) {
// Ensure up to date dimensions, but don't reflow
if (RefPtr<nsViewManager> viewManager = presShell->GetViewManager()) {
viewManager->FlushDelayedResize();
}
return nsRect(nsPoint(), presContext->GetVisibleArea().Size());
}
}
nsIFrame* frame;
if (nsIScrollableFrame* sf = GetScrollFrame(&frame)) {
nsRect scrollPort = sf->GetScrollPortRect();
if (!sf->IsRootScrollFrameOfDocument()) {
MOZ_ASSERT(frame);
nsIFrame* scrollableAsFrame = do_QueryFrame(sf);
// We want the offset to be relative to `frame`, not `sf`... Except for
// the root scroll frame, which is an ancestor of frame rather than a
// descendant and thus this wouldn't particularly make sense.
if (frame != scrollableAsFrame) {
scrollPort.MoveBy(scrollableAsFrame->GetOffsetTo(frame));
}
}
// The scroll port value might be expanded to the minimum scale size, we
// should limit the size to the ICB in such cases.
scrollPort.SizeTo(sf->GetLayoutSize());
return frame->Style()->EffectiveZoom().Unzoom(scrollPort);
}
if (frame &&
// The display check is OK even though we're not looking at the style
// frame, because the style frame only differs from "frame" for tables,
// and table wrappers have the same display as the table itself.
(!frame->StyleDisplay()->IsInlineFlow() || frame->IsReplaced())) {
// Special case code to make client area work even when there isn't
// a scroll view, see bug 180552, bug 227567.
return frame->Style()->EffectiveZoom().Unzoom(
frame->GetPaddingRect() - frame->GetPositionIgnoringScrolling());
}
// SVG nodes reach here and just return 0
return nsRect();
}
int32_t Element::ScreenX() {
nsIFrame* frame = GetPrimaryFrame(FlushType::Layout);
return frame ? frame->GetScreenRect().x : 0;
}
int32_t Element::ScreenY() {
nsIFrame* frame = GetPrimaryFrame(FlushType::Layout);
return frame ? frame->GetScreenRect().y : 0;
}
already_AddRefed<nsIScreen> Element::GetScreen() {
// Flush layout to guarantee that frames are created if needed, and preserve
// behavior.
Unused << GetPrimaryFrame(FlushType::Frames);
if (nsIWidget* widget = nsContentUtils::WidgetForContent(this)) {
return widget->GetWidgetScreen();
}
return nullptr;
}
double Element::CurrentCSSZoom() {
nsIFrame* f = GetPrimaryFrame(FlushType::Frames);
if (!f) {
return 1.0;
}
return f->Style()->EffectiveZoom().ToFloat();
}
already_AddRefed<DOMRect> Element::GetBoundingClientRect() {
RefPtr<DOMRect> rect = new DOMRect(ToSupports(OwnerDoc()));
nsIFrame* frame = GetPrimaryFrame(FlushType::Layout);
if (!frame) {
// display:none, perhaps? Return the empty rect
return rect.forget();
}
rect->SetLayoutRect(frame->GetBoundingClientRect());
return rect.forget();
}
already_AddRefed<DOMRectList> Element::GetClientRects() {
RefPtr<DOMRectList> rectList = new DOMRectList(this);
nsIFrame* frame = GetPrimaryFrame(FlushType::Layout);
if (!frame) {
// display:none, perhaps? Return an empty list
return rectList.forget();
}
nsLayoutUtils::RectListBuilder builder(rectList);
nsLayoutUtils::GetAllInFlowRects(
frame, nsLayoutUtils::GetContainingBlockForClientRect(frame), &builder,
nsLayoutUtils::GetAllInFlowRectsFlag::AccountForTransforms);
return rectList.forget();
}
const DOMTokenListSupportedToken Element::sAnchorAndFormRelValues[] = {
"noreferrer", "noopener", "opener", nullptr};
// https://html.spec.whatwg.org/multipage/urls-and-fetching.html#lazy-loading-attribute
static constexpr nsAttrValue::EnumTable kLoadingTable[] = {
{"eager", Element::Loading::Eager},
{"lazy", Element::Loading::Lazy},
{nullptr, 0}};
void Element::GetLoading(nsAString& aValue) const {
GetEnumAttr(nsGkAtoms::loading, kLoadingTable[0].tag, aValue);
}
bool Element::ParseLoadingAttribute(const nsAString& aValue,
nsAttrValue& aResult) {
return aResult.ParseEnumValue(aValue, kLoadingTable,
/* aCaseSensitive = */ false, kLoadingTable);
}
Element::Loading Element::LoadingState() const {
const nsAttrValue* val = mAttrs.GetAttr(nsGkAtoms::loading);
if (!val) {
return Loading::Eager;
}
return static_cast<Loading>(val->GetEnumValue());
}
//----------------------------------------------------------------------
void Element::AddToIdTable(nsAtom* aId) {
NS_ASSERTION(HasID(), "Node doesn't have an ID?");
if (IsInShadowTree()) {
ShadowRoot* containingShadow = GetContainingShadow();
containingShadow->AddToIdTable(this, aId);
} else {
Document* doc = GetUncomposedDoc();
if (doc && !IsInNativeAnonymousSubtree()) {
doc->AddToIdTable(this, aId);
}
}
}
void Element::RemoveFromIdTable() {
if (!HasID()) {
return;
}
nsAtom* id = DoGetID();
if (IsInShadowTree()) {
ShadowRoot* containingShadow = GetContainingShadow();
// Check for containingShadow because it may have
// been deleted during unlinking.
if (containingShadow) {
containingShadow->RemoveFromIdTable(this, id);
}
} else {
Document* doc = GetUncomposedDoc();
if (doc && !IsInNativeAnonymousSubtree()) {
doc->RemoveFromIdTable(this, id);
}
}
}
void Element::SetSlot(const nsAString& aName, ErrorResult& aError) {
aError = SetAttr(kNameSpaceID_None, nsGkAtoms::slot, aName, true);
}
void Element::GetSlot(nsAString& aName) { GetAttr(nsGkAtoms::slot, aName); }
// https://dom.spec.whatwg.org/#dom-element-shadowroot
ShadowRoot* Element::GetShadowRootByMode() const {
/**
* 1. Let shadow be context object's shadow root.
* 2. If shadow is null or its mode is "closed", then return null.
*/
ShadowRoot* shadowRoot = GetShadowRoot();
if (!shadowRoot || shadowRoot->IsClosed()) {
return nullptr;
}
/**
* 3. Return shadow.
*/
return shadowRoot;
}
bool Element::CanAttachShadowDOM() const {
/**
* If context object's namespace is not the HTML namespace,
* return false.
*
* Deviate from the spec here to allow shadow dom attachement to
* XUL elements.
*/
if (!IsHTMLElement() &&
!(IsXULElement() &&
nsContentUtils::AllowXULXBLForPrincipal(NodePrincipal()))) {
return false;
}
/**
* If context object's local name is not
* a valid custom element name, "article", "aside", "blockquote",
* "body", "div", "footer", "h1", "h2", "h3", "h4", "h5", "h6",
* "header", "main" "nav", "p", "section", "search", or "span",
* return false.
*/
nsAtom* nameAtom = NodeInfo()->NameAtom();
uint32_t namespaceID = NodeInfo()->NamespaceID();
if (!(nsContentUtils::IsCustomElementName(nameAtom, namespaceID) ||
nameAtom == nsGkAtoms::article || nameAtom == nsGkAtoms::aside ||
nameAtom == nsGkAtoms::blockquote || nameAtom == nsGkAtoms::body ||
nameAtom == nsGkAtoms::div || nameAtom == nsGkAtoms::footer ||
nameAtom == nsGkAtoms::h1 || nameAtom == nsGkAtoms::h2 ||
nameAtom == nsGkAtoms::h3 || nameAtom == nsGkAtoms::h4 ||
nameAtom == nsGkAtoms::h5 || nameAtom == nsGkAtoms::h6 ||
nameAtom == nsGkAtoms::header || nameAtom == nsGkAtoms::main ||
nameAtom == nsGkAtoms::nav || nameAtom == nsGkAtoms::p ||
nameAtom == nsGkAtoms::section || nameAtom == nsGkAtoms::search ||
nameAtom == nsGkAtoms::span)) {
return false;
}
/**
* 3. If context object’s local name is a valid custom element name, or
* context object’s is value is not null, then:
* If definition is not null and definition’s disable shadow is true, then
* return false.
*/
// It will always have CustomElementData when the element is a valid custom
// element or has is value.
if (CustomElementData* ceData = GetCustomElementData()) {
CustomElementDefinition* definition = ceData->GetCustomElementDefinition();
// If the definition is null, the element possible hasn't yet upgraded.
// Fallback to use LookupCustomElementDefinition to find its definition.
if (!definition) {
definition = nsContentUtils::LookupCustomElementDefinition(
NodeInfo()->GetDocument(), nameAtom, namespaceID,
ceData->GetCustomElementType());
}
if (definition && definition->mDisableShadow) {
return false;
}
}
return true;
}
// https://dom.spec.whatwg.org/#dom-element-attachshadow
already_AddRefed<ShadowRoot> Element::AttachShadow(const ShadowRootInit& aInit,
ErrorResult& aError) {
/**
* Step 1, 2, and 3.
*/
if (!CanAttachShadowDOM()) {
aError.ThrowNotSupportedError("Unable to attach ShadowDOM");
return nullptr;
}
/**
* 4. If element is a shadow host, then:
*/
if (RefPtr<ShadowRoot> root = GetShadowRoot()) {
/**
* 1. Let currentShadowRoot be element’s shadow root.
*
* 2. If any of the following are true:
* currentShadowRoot’s declarative is false; or
* currentShadowRoot’s mode is not mode,
* then throw a "NotSupportedError" DOMException.
*/
if (!root->IsDeclarative() || root->Mode() != aInit.mMode) {
aError.ThrowNotSupportedError(
"Unable to re-attach to existing ShadowDOM");
return nullptr;
}
/**
* 3. Otherwise:
* 1. Remove all of currentShadowRoot’s children, in tree order.
* 2. Set currentShadowRoot’s declarative to false.
* 3. Return.
*/
root->ReplaceChildren(nullptr, aError);
root->SetIsDeclarative(ShadowRootDeclarative::No);
return root.forget();
}
if (StaticPrefs::dom_webcomponents_shadowdom_report_usage()) {
OwnerDoc()->ReportShadowDOMUsage();
}
return AttachShadowWithoutNameChecks(
aInit.mMode, DelegatesFocus(aInit.mDelegatesFocus), aInit.mSlotAssignment,
ShadowRootClonable(aInit.mClonable));
}
already_AddRefed<ShadowRoot> Element::AttachShadowWithoutNameChecks(
ShadowRootMode aMode, DelegatesFocus aDelegatesFocus,
SlotAssignmentMode aSlotAssignment, ShadowRootClonable aClonable) {
nsAutoScriptBlocker scriptBlocker;
auto* nim = mNodeInfo->NodeInfoManager();
RefPtr<mozilla::dom::NodeInfo> nodeInfo =
nim->GetNodeInfo(nsGkAtoms::documentFragmentNodeName, nullptr,
kNameSpaceID_None, DOCUMENT_FRAGMENT_NODE);
// If there are no children, the flat tree is not changing due to the presence
// of the shadow root, so we don't need to invalidate style / layout.
//
// This is a minor optimization, but also works around nasty stuff like
// bug 1397876.
if (Document* doc = GetComposedDoc()) {
if (PresShell* presShell = doc->GetPresShell()) {
presShell->ShadowRootWillBeAttached(*this);
}
}
/**
* 5. Let shadow be a new shadow root whose node document is
* context object's node document, host is context object,
* and mode is init's mode.
*/
RefPtr<ShadowRoot> shadowRoot = new (nim)
ShadowRoot(this, aMode, aDelegatesFocus, aSlotAssignment, aClonable,
ShadowRootDeclarative::No, nodeInfo.forget());
if (NodeOrAncestorHasDirAuto()) {
shadowRoot->SetAncestorHasDirAuto();
}
/**
* 7. If this’s custom element state is "precustomized" or "custom", then set
* shadow’s available to element internals to true.
*/
CustomElementData* ceData = GetCustomElementData();
if (ceData && (ceData->mState == CustomElementData::State::ePrecustomized ||
ceData->mState == CustomElementData::State::eCustom)) {
shadowRoot->SetAvailableToElementInternals();
}
/**
* 9. Set context object's shadow root to shadow.
*/
SetShadowRoot(shadowRoot);
// Dispatch a "shadowrootattached" event for devtools if needed.
if (MOZ_UNLIKELY(
nim->GetDocument()->DevToolsAnonymousAndShadowEventsEnabled())) {
AsyncEventDispatcher* dispatcher = new AsyncEventDispatcher(
this, u"shadowrootattached"_ns, CanBubble::eYes,
ChromeOnlyDispatch::eYes, Composed::eYes);
dispatcher->PostDOMEvent();
}
const LinkedList<AbstractRange>* ranges =
GetExistingClosestCommonInclusiveAncestorRanges();
if (ranges) {
for (const AbstractRange* range : *ranges) {
if (range->MayCrossShadowBoundary()) {
MOZ_ASSERT(range->IsDynamicRange());
CrossShadowBoundaryRange* crossBoundaryRange =
range->AsDynamicRange()->GetCrossShadowBoundaryRange();
MOZ_ASSERT(crossBoundaryRange);
// We may have previously selected this node before it
// becomes a shadow host, so we need to reset the values
// in RangeBoundaries to accommodate the change.
crossBoundaryRange->NotifyNodeBecomesShadowHost(this);
}
}
}
/**
* 10. Return shadow.
*/
return shadowRoot.forget();
}
void Element::AttachAndSetUAShadowRoot(NotifyUAWidgetSetup aNotify,
DelegatesFocus aDelegatesFocus) {
MOZ_DIAGNOSTIC_ASSERT(!CanAttachShadowDOM(),
"Cannot be used to attach UI shadow DOM");
if (OwnerDoc()->IsStaticDocument()) {
return;
}
if (!GetShadowRoot()) {
RefPtr<ShadowRoot> shadowRoot =
AttachShadowWithoutNameChecks(ShadowRootMode::Closed, aDelegatesFocus);
shadowRoot->SetIsUAWidget();
}
MOZ_ASSERT(GetShadowRoot()->IsUAWidget());
if (aNotify == NotifyUAWidgetSetup::Yes) {
NotifyUAWidgetSetupOrChange();
}
}
void Element::NotifyUAWidgetSetupOrChange() {
MOZ_ASSERT(IsInComposedDoc());
Document* doc = OwnerDoc();
if (doc->IsStaticDocument()) {
return;
}
// Schedule a runnable, ensure the event dispatches before
// returning to content script.
// This event cause UA Widget to construct or cause onchange callback
// of existing UA Widget to run; dispatching this event twice should not cause
// UA Widget to re-init.
nsContentUtils::AddScriptRunner(NS_NewRunnableFunction(
"Element::NotifyUAWidgetSetupOrChange::UAWidgetSetupOrChange",
[self = RefPtr<Element>(this), doc = RefPtr<Document>(doc)]() {
nsContentUtils::DispatchChromeEvent(doc, self,
u"UAWidgetSetupOrChange"_ns,
CanBubble::eYes, Cancelable::eNo);
}));
}
void Element::NotifyUAWidgetTeardown(UnattachShadowRoot aUnattachShadowRoot) {
MOZ_ASSERT(IsInComposedDoc());
if (!GetShadowRoot()) {
return;
}
MOZ_ASSERT(GetShadowRoot()->IsUAWidget());
if (aUnattachShadowRoot == UnattachShadowRoot::Yes) {
UnattachShadow();
}
Document* doc = OwnerDoc();
if (doc->IsStaticDocument()) {
return;
}
// The runnable will dispatch an event to tear down UA Widget.
nsContentUtils::AddScriptRunner(NS_NewRunnableFunction(
"Element::NotifyUAWidgetTeardownAndUnattachShadow::UAWidgetTeardown",
[self = RefPtr<Element>(this), doc = RefPtr<Document>(doc)]() {
// Bail out if the element is being collected by CC
bool hasHadScriptObject = true;
nsIScriptGlobalObject* scriptObject =
doc->GetScriptHandlingObject(hasHadScriptObject);
if (!scriptObject && hasHadScriptObject) {
return;
}
Unused << nsContentUtils::DispatchChromeEvent(
doc, self, u"UAWidgetTeardown"_ns, CanBubble::eYes,
Cancelable::eNo);
}));
}
void Element::UnattachShadow() {
RefPtr<ShadowRoot> shadowRoot = GetShadowRoot();
if (!shadowRoot) {
return;
}
nsAutoScriptBlocker scriptBlocker;
if (RefPtr<Document> doc = GetComposedDoc()) {
if (PresShell* presShell = doc->GetPresShell()) {
presShell->DestroyFramesForAndRestyle(this);
#ifdef ACCESSIBILITY
// We need to notify the accessibility service here explicitly because,
// even though we're going to reconstruct the _host_, the shadow root and
// its children are never really going to come back. We could plumb that
// further down to DestroyFramesForAndRestyle and add a new flag to
// nsCSSFrameConstructor::ContentRemoved or such, but this seems simpler
// instead.
if (nsAccessibilityService* accService = GetAccService()) {
accService->ContentRemoved(presShell, shadowRoot);
}
#endif
}
// ContentRemoved doesn't really run script in the cases we care about (it
// can only call ClearFocus when removing iframes and so on...)
[&]() MOZ_CAN_RUN_SCRIPT_BOUNDARY {
if (RefPtr<nsFocusManager> fm = nsFocusManager::GetFocusManager()) {
fm->ContentRemoved(doc, shadowRoot);
}
}();
}
MOZ_ASSERT(!GetPrimaryFrame());
shadowRoot->Unattach();
SetShadowRoot(nullptr);
}
void Element::GetAttribute(const nsAString& aName, DOMString& aReturn) {
const nsAttrValue* val = mAttrs.GetAttr(
aName,
IsHTMLElement() && IsInHTMLDocument() ? eIgnoreCase : eCaseMatters);
if (val) {
val->ToString(aReturn);
} else {
aReturn.SetNull();
}
}
bool Element::ToggleAttribute(const nsAString& aName,
const Optional<bool>& aForce,
nsIPrincipal* aTriggeringPrincipal,
ErrorResult& aError) {
aError = nsContentUtils::CheckQName(aName, false);
if (aError.Failed()) {
return false;
}
nsAutoString nameToUse;
const nsAttrName* name = InternalGetAttrNameFromQName(aName, &nameToUse);
if (!name) {
if (aForce.WasPassed() && !aForce.Value()) {
return false;
}
RefPtr<nsAtom> nameAtom = NS_AtomizeMainThread(nameToUse);
if (!nameAtom) {
aError.Throw(NS_ERROR_OUT_OF_MEMORY);
return false;
}
aError = SetAttr(kNameSpaceID_None, nameAtom, u""_ns, aTriggeringPrincipal,
true);
return true;
}
if (aForce.WasPassed() && aForce.Value()) {
return true;
}
// Hold a strong reference here so that the atom or nodeinfo doesn't go
// away during UnsetAttr. If it did UnsetAttr would be left with a
// dangling pointer as argument without knowing it.
nsAttrName tmp(*name);
aError = UnsetAttr(name->NamespaceID(), name->LocalName(), true);
return false;
}
void Element::SetAttribute(const nsAString& aName, const nsAString& aValue,
nsIPrincipal* aTriggeringPrincipal,
ErrorResult& aError) {
aError = nsContentUtils::CheckQName(aName, false);
if (aError.Failed()) {
return;
}
nsAutoString nameToUse;
const nsAttrName* name = InternalGetAttrNameFromQName(aName, &nameToUse);
if (!name) {
RefPtr<nsAtom> nameAtom = NS_AtomizeMainThread(nameToUse);
if (!nameAtom) {
aError.Throw(NS_ERROR_OUT_OF_MEMORY);
return;
}
aError = SetAttr(kNameSpaceID_None, nameAtom, aValue, aTriggeringPrincipal,
true);
return;
}
aError = SetAttr(name->NamespaceID(), name->LocalName(), name->GetPrefix(),
aValue, aTriggeringPrincipal, true);
}
void Element::RemoveAttribute(const nsAString& aName, ErrorResult& aError) {
const nsAttrName* name = InternalGetAttrNameFromQName(aName);
if (!name) {
// If there is no canonical nsAttrName for this attribute name, then the
// attribute does not exist and we can't get its namespace ID and
// local name below, so we return early.
return;
}
// Hold a strong reference here so that the atom or nodeinfo doesn't go
// away during UnsetAttr. If it did UnsetAttr would be left with a
// dangling pointer as argument without knowing it.
nsAttrName tmp(*name);
aError = UnsetAttr(name->NamespaceID(), name->LocalName(), true);
}
Attr* Element::GetAttributeNode(const nsAString& aName) {
return Attributes()->GetNamedItem(aName);
}
already_AddRefed<Attr> Element::SetAttributeNode(Attr& aNewAttr,
ErrorResult& aError) {
return Attributes()->SetNamedItemNS(aNewAttr, aError);
}
already_AddRefed<Attr> Element::RemoveAttributeNode(Attr& aAttribute,
ErrorResult& aError) {
Element* elem = aAttribute.GetElement();
if (elem != this) {
aError.Throw(NS_ERROR_DOM_NOT_FOUND_ERR);
return nullptr;
}
nsAutoString nameSpaceURI;
aAttribute.NodeInfo()->GetNamespaceURI(nameSpaceURI);
return Attributes()->RemoveNamedItemNS(
nameSpaceURI, aAttribute.NodeInfo()->LocalName(), aError);
}
void Element::GetAttributeNS(const nsAString& aNamespaceURI,
const nsAString& aLocalName, nsAString& aReturn) {
int32_t nsid = nsNameSpaceManager::GetInstance()->GetNameSpaceID(
aNamespaceURI, nsContentUtils::IsChromeDoc(OwnerDoc()));
if (nsid == kNameSpaceID_Unknown) {
// Unknown namespace means no attribute.
SetDOMStringToNull(aReturn);
return;
}
RefPtr<nsAtom> name = NS_AtomizeMainThread(aLocalName);
bool hasAttr = GetAttr(nsid, name, aReturn);
if (!hasAttr) {
SetDOMStringToNull(aReturn);
}
}
void Element::SetAttributeNS(const nsAString& aNamespaceURI,
const nsAString& aQualifiedName,
const nsAString& aValue,
nsIPrincipal* aTriggeringPrincipal,
ErrorResult& aError) {
RefPtr<mozilla::dom::NodeInfo> ni;
aError = nsContentUtils::GetNodeInfoFromQName(
aNamespaceURI, aQualifiedName, mNodeInfo->NodeInfoManager(),
ATTRIBUTE_NODE, getter_AddRefs(ni));
if (aError.Failed()) {
return;
}
aError = SetAttr(ni->NamespaceID(), ni->NameAtom(), ni->GetPrefixAtom(),
aValue, aTriggeringPrincipal, true);
}
already_AddRefed<nsIPrincipal> Element::CreateDevtoolsPrincipal() {
// Return an ExpandedPrincipal that subsumes this Element's Principal,
// and expands this Element's CSP to allow the actions that devtools
// needs to perform.
AutoTArray<nsCOMPtr<nsIPrincipal>, 1> allowList = {NodePrincipal()};
RefPtr<ExpandedPrincipal> dtPrincipal = ExpandedPrincipal::Create(
allowList, NodePrincipal()->OriginAttributesRef());
if (nsIContentSecurityPolicy* csp = GetCsp()) {
RefPtr<nsCSPContext> dtCsp = new nsCSPContext();
dtCsp->InitFromOther(static_cast<nsCSPContext*>(csp));
dtCsp->SetSkipAllowInlineStyleCheck(true);
dtPrincipal->SetCsp(dtCsp);
}
return dtPrincipal.forget();
}
void Element::SetAttributeDevtools(const nsAString& aName,
const nsAString& aValue,
ErrorResult& aError) {
// Run this through SetAttribute with a devtools-ready principal.
RefPtr<nsIPrincipal> dtPrincipal = CreateDevtoolsPrincipal();
SetAttribute(aName, aValue, dtPrincipal, aError);
}
void Element::SetAttributeDevtoolsNS(const nsAString& aNamespaceURI,
const nsAString& aLocalName,
const nsAString& aValue,
ErrorResult& aError) {
// Run this through SetAttributeNS with a devtools-ready principal.
RefPtr<nsIPrincipal> dtPrincipal = CreateDevtoolsPrincipal();
SetAttributeNS(aNamespaceURI, aLocalName, aValue, dtPrincipal, aError);
}
void Element::RemoveAttributeNS(const nsAString& aNamespaceURI,
const nsAString& aLocalName,
ErrorResult& aError) {
RefPtr<nsAtom> name = NS_AtomizeMainThread(aLocalName);
int32_t nsid = nsNameSpaceManager::GetInstance()->GetNameSpaceID(
aNamespaceURI, nsContentUtils::IsChromeDoc(OwnerDoc()));
if (nsid == kNameSpaceID_Unknown) {
// If the namespace ID is unknown, it means there can't possibly be an
// existing attribute. We would need a known namespace ID to pass into
// UnsetAttr, so we return early if we don't have one.
return;
}
aError = UnsetAttr(nsid, name, true);
}
Attr* Element::GetAttributeNodeNS(const nsAString& aNamespaceURI,
const nsAString& aLocalName) {
return GetAttributeNodeNSInternal(aNamespaceURI, aLocalName);
}
Attr* Element::GetAttributeNodeNSInternal(const nsAString& aNamespaceURI,
const nsAString& aLocalName) {
return Attributes()->GetNamedItemNS(aNamespaceURI, aLocalName);
}
already_AddRefed<Attr> Element::SetAttributeNodeNS(Attr& aNewAttr,
ErrorResult& aError) {
return Attributes()->SetNamedItemNS(aNewAttr, aError);
}
already_AddRefed<nsIHTMLCollection> Element::GetElementsByTagNameNS(
const nsAString& aNamespaceURI, const nsAString& aLocalName,
ErrorResult& aError) {
int32_t nameSpaceId = kNameSpaceID_Wildcard;
if (!aNamespaceURI.EqualsLiteral("*")) {
aError = nsNameSpaceManager::GetInstance()->RegisterNameSpace(aNamespaceURI,
nameSpaceId);
if (aError.Failed()) {
return nullptr;
}
}
NS_ASSERTION(nameSpaceId != kNameSpaceID_Unknown, "Unexpected namespace ID!");
return NS_GetContentList(this, nameSpaceId, aLocalName);
}
bool Element::HasAttributeNS(const nsAString& aNamespaceURI,
const nsAString& aLocalName) const {
int32_t nsid = nsNameSpaceManager::GetInstance()->GetNameSpaceID(
aNamespaceURI, nsContentUtils::IsChromeDoc(OwnerDoc()));
if (nsid == kNameSpaceID_Unknown) {
// Unknown namespace means no attr...
return false;
}
RefPtr<nsAtom> name = NS_AtomizeMainThread(aLocalName);
return HasAttr(nsid, name);
}
already_AddRefed<nsIHTMLCollection> Element::GetElementsByClassName(
const nsAString& aClassNames) {
return nsContentUtils::GetElementsByClassName(this, aClassNames);
}
Element* Element::GetAttrAssociatedElement(nsAtom* aAttr) const {
if (const nsExtendedDOMSlots* slots = GetExistingExtendedDOMSlots()) {
nsWeakPtr weakAttrEl = slots->mExplicitlySetAttrElements.Get(aAttr);
if (nsCOMPtr<Element> attrEl = do_QueryReferent(weakAttrEl)) {
// If reflectedTarget's explicitly set attr-element |attrEl| is
// a descendant of any of element's shadow-including ancestors, then
// return |atrEl|.
nsINode* root = SubtreeRoot();
nsINode* attrSubtreeRoot = attrEl->SubtreeRoot();
do {
if (root == attrSubtreeRoot) {
return attrEl;
}
auto* shadow = ShadowRoot::FromNode(root);
if (!shadow || !shadow->GetHost()) {
break;
}
root = shadow->GetHost()->SubtreeRoot();
} while (true);
return nullptr;
}
}
const nsAttrValue* value = GetParsedAttr(aAttr);
if (!value) {
return nullptr;
}
MOZ_ASSERT(value->Type() == nsAttrValue::eAtom,
"Attribute used for attr associated element must be parsed");
nsAtom* valueAtom = value->GetAtomValue();
if (auto* docOrShadowRoot = GetContainingDocumentOrShadowRoot()) {
return docOrShadowRoot->GetElementById(valueAtom);
}
nsINode* root = SubtreeRoot();
for (auto* node = root; node; node = node->GetNextNode(root)) {
if (node->HasID() && node->AsContent()->GetID() == valueAtom) {
return node->AsElement();
}
}
return nullptr;
}
void Element::ClearExplicitlySetAttrElement(nsAtom* aAttr) {
if (auto* slots = GetExistingExtendedDOMSlots()) {
slots->mExplicitlySetAttrElements.Remove(aAttr);
}
}
void Element::ExplicitlySetAttrElement(nsAtom* aAttr, Element* aElement) {
#ifdef ACCESSIBILITY
nsAccessibilityService* accService = GetAccService();
#endif
// Accessibility requires that no other attribute changes occur between
// AttrElementWillChange and AttrElementChanged. Scripts could cause
// this, so don't let them run here. We do this even if accessibility isn't
// running so that the JS behavior is consistent regardless of accessibility.
// Otherwise, JS might be able to use this difference to determine whether
// accessibility is running, which would be a privacy concern.
nsAutoScriptBlocker scriptBlocker;
if (aElement) {
#ifdef ACCESSIBILITY
if (accService) {
accService->NotifyAttrElementWillChange(this, aAttr);
}
#endif
SetAttr(aAttr, EmptyString(), IgnoreErrors());
nsExtendedDOMSlots* slots = ExtendedDOMSlots();
slots->mExplicitlySetAttrElements.InsertOrUpdate(
aAttr, do_GetWeakReference(aElement));
#ifdef ACCESSIBILITY
if (accService) {
accService->NotifyAttrElementChanged(this, aAttr);
}
#endif
return;
}
#ifdef ACCESSIBILITY
if (accService) {
accService->NotifyAttrElementWillChange(this, aAttr);
}
#endif
ClearExplicitlySetAttrElement(aAttr);
UnsetAttr(aAttr, IgnoreErrors());
#ifdef ACCESSIBILITY
if (accService) {
accService->NotifyAttrElementChanged(this, aAttr);
}
#endif
}
Element* Element::GetExplicitlySetAttrElement(nsAtom* aAttr) const {
if (const nsExtendedDOMSlots* slots = GetExistingExtendedDOMSlots()) {
nsWeakPtr weakAttrEl = slots->mExplicitlySetAttrElements.Get(aAttr);
if (nsCOMPtr<Element> attrEl = do_QueryReferent(weakAttrEl)) {
return attrEl;
}
}
return nullptr;
}
void Element::GetElementsWithGrid(nsTArray<RefPtr<Element>>& aElements) {
nsINode* cur = this;
while (cur) {
if (cur->IsElement()) {
Element* elem = cur->AsElement();
if (elem->GetPrimaryFrame()) {
// See if this has a GridContainerFrame. Use the same method that
// nsGridContainerFrame uses, which deals with some edge cases.
if (nsGridContainerFrame::GetGridContainerFrame(
elem->GetPrimaryFrame())) {
aElements.AppendElement(elem);
}
// This element has a frame, so allow the traversal to go through
// the children.
cur = cur->GetNextNode(this);
continue;
}
}
// Either this isn't an element, or it has no frame. Continue with the
// traversal but ignore all the children.
cur = cur->GetNextNonChildNode(this);
}
}
bool Element::HasVisibleScrollbars() {
nsIScrollableFrame* scrollFrame = GetScrollFrame();
return scrollFrame && !scrollFrame->GetScrollbarVisibility().isEmpty();
}
nsresult Element::BindToTree(BindContext& aContext, nsINode& aParent) {
MOZ_ASSERT(aParent.IsContent() || aParent.IsDocument(),
"Must have content or document parent!");
MOZ_ASSERT(aParent.OwnerDoc() == OwnerDoc(),
"Must have the same owner document");
MOZ_ASSERT(OwnerDoc() == &aContext.OwnerDoc(), "These should match too");
MOZ_ASSERT(!IsInUncomposedDoc(), "Already have a document. Unbind first!");
MOZ_ASSERT(!IsInComposedDoc(), "Already have a document. Unbind first!");
// Note that as we recurse into the kids, they'll have a non-null parent. So
// only assert if our parent is _changing_ while we have a parent.
MOZ_ASSERT(!GetParentNode() || &aParent == GetParentNode(),
"Already have a parent. Unbind first!");
const bool hadParent = !!GetParentNode();
if (aParent.IsInNativeAnonymousSubtree()) {
SetFlags(NODE_IS_IN_NATIVE_ANONYMOUS_SUBTREE);
}
if (IsRootOfNativeAnonymousSubtree()) {
aParent.SetMayHaveAnonymousChildren();
} else if (aParent.HasFlag(NODE_HAS_BEEN_IN_UA_WIDGET)) {
SetFlags(NODE_HAS_BEEN_IN_UA_WIDGET);
}
if (aParent.HasFlag(ELEMENT_IS_DATALIST_OR_HAS_DATALIST_ANCESTOR)) {
SetFlags(ELEMENT_IS_DATALIST_OR_HAS_DATALIST_ANCESTOR);
}
aParent.SetFlags(NODE_MAY_HAVE_ELEMENT_CHILDREN);
// Now set the parent.
mParent = &aParent;
if (!hadParent && aParent.IsContent()) {
SetParentIsContent(true);
NS_ADDREF(mParent);
}
MOZ_ASSERT(!!GetParent() == aParent.IsContent());
MOZ_ASSERT(!HasAnyOfFlags(Element::kAllServoDescendantBits));
// Finally, set the document
if (aParent.IsInUncomposedDoc() || aParent.IsInShadowTree()) {
// We no longer need to track the subtree pointer (and in fact we'll assert
// if we do this any later).
ClearSubtreeRootPointer();
SetIsConnected(aParent.IsInComposedDoc());
if (aParent.IsInUncomposedDoc()) {
SetIsInDocument();
} else {
SetFlags(NODE_IS_IN_SHADOW_TREE);
MOZ_ASSERT(aParent.IsContent() &&
aParent.AsContent()->GetContainingShadow());
ExtendedDOMSlots()->mContainingShadow =
aParent.AsContent()->GetContainingShadow();
}
// Clear the lazy frame construction bits.
UnsetFlags(NODE_NEEDS_FRAME | NODE_DESCENDANTS_NEED_FRAMES);
} else {
// If we're not in the doc and not in a shadow tree,
// update our subtree pointer.
SetSubtreeRootPointer(aParent.SubtreeRoot());
}
if (IsInComposedDoc()) {
if (IsPendingMappedAttributeEvaluation()) {
aContext.OwnerDoc().ScheduleForPresAttrEvaluation(this);
}
// Connected callback must be enqueued whenever a custom element becomes
// connected.
if (CustomElementData* data = GetCustomElementData()) {
if (data->mState == CustomElementData::State::eCustom) {
nsContentUtils::EnqueueLifecycleCallback(
ElementCallbackType::eConnected, this, {});
} else {
// Step 7.7.2.2 https://dom.spec.whatwg.org/#concept-node-insert
nsContentUtils::TryToUpgradeElement(this);
}
}
}
// This has to be here, rather than in nsGenericHTMLElement::BindToTree,
// because it has to happen after updating the parent pointer, but before
// recursively binding the kids.
SetDirOnBind(this, nsIContent::FromNode(aParent));
UpdateEditableState(false);
// Call BindToTree on shadow root children.
nsresult rv;
if (ShadowRoot* shadowRoot = GetShadowRoot()) {
rv = shadowRoot->Bind();
NS_ENSURE_SUCCESS(rv, rv);
}
// Now recurse into our kids. Ensure this happens after binding the shadow
// root so that directionality of slots is updated.
{
for (nsIContent* child = GetFirstChild(); child;
child = child->GetNextSibling()) {
rv = child->BindToTree(aContext, *this);
NS_ENSURE_SUCCESS(rv, rv);
}
}
MutationObservers::NotifyParentChainChanged(this);
// Ensure we only run this once, in the case we move the ShadowRoot around.
if (aContext.SubtreeRootChanges()) {
if (HasPartAttribute()) {
if (ShadowRoot* shadow = GetContainingShadow()) {
shadow->PartAdded(*this);
}
}
if (HasID()) {
AddToIdTable(DoGetID());
}
HandleShadowDOMRelatedInsertionSteps(hadParent);
}
if (MayHaveStyle()) {
// If MayHaveStyle() is true, we must be an nsStyledElement.
static_cast<nsStyledElement*>(this)->ReparseStyleAttribute(
/* aForceInDataDoc = */ false);
}
// XXXbz script execution during binding can trigger some of these
// postcondition asserts.... But we do want that, since things will
// generally be quite broken when that happens.
MOZ_ASSERT(OwnerDoc() == aParent.OwnerDoc(), "Bound to wrong document");
MOZ_ASSERT(IsInComposedDoc() == aContext.InComposedDoc());
MOZ_ASSERT(IsInUncomposedDoc() == aContext.InUncomposedDoc());
MOZ_ASSERT(&aParent == GetParentNode(), "Bound to wrong parent node");
MOZ_ASSERT(aParent.IsInUncomposedDoc() == IsInUncomposedDoc());
MOZ_ASSERT(aParent.IsInComposedDoc() == IsInComposedDoc());
MOZ_ASSERT(aParent.IsInShadowTree() == IsInShadowTree());
MOZ_ASSERT(aParent.SubtreeRoot() == SubtreeRoot());
return NS_OK;
}
static bool WillDetachFromShadowOnUnbind(const Element& aElement,
bool aNullParent) {
// If our parent still is in a shadow tree by now, and we're not removing
// ourselves from it, then we're still going to be in a shadow tree after
// this.
return aElement.IsInShadowTree() &&
(aNullParent || !aElement.GetParent()->IsInShadowTree());
}
void Element::UnbindFromTree(UnbindContext& aContext) {
const bool nullParent = aContext.IsUnbindRoot(this);
HandleShadowDOMRelatedRemovalSteps(nullParent);
if (HasFlag(ELEMENT_IS_DATALIST_OR_HAS_DATALIST_ANCESTOR) &&
!IsHTMLElement(nsGkAtoms::datalist)) {
if (nullParent) {
UnsetFlags(ELEMENT_IS_DATALIST_OR_HAS_DATALIST_ANCESTOR);
} else {
nsIContent* parent = GetParent();
MOZ_ASSERT(parent);
if (!parent->HasFlag(ELEMENT_IS_DATALIST_OR_HAS_DATALIST_ANCESTOR)) {
UnsetFlags(ELEMENT_IS_DATALIST_OR_HAS_DATALIST_ANCESTOR);
}
}
}
const bool detachingFromShadow =
WillDetachFromShadowOnUnbind(*this, nullParent);
// Make sure to only remove from the ID table if our subtree root is actually
// changing.
if (IsInUncomposedDoc() || detachingFromShadow) {
RemoveFromIdTable();
}
if (detachingFromShadow && HasPartAttribute()) {
if (ShadowRoot* shadow = GetContainingShadow()) {
shadow->PartRemoved(*this);
}
}
// Make sure to unbind this node before doing the kids
Document* document = GetComposedDoc();
if (HasPointerLock()) {
PointerLockManager::Unlock();
}
if (mState.HasState(ElementState::FULLSCREEN)) {
// The element being removed is an ancestor of the fullscreen element,
// exit fullscreen state.
nsContentUtils::ReportToConsole(nsIScriptError::warningFlag, "DOM"_ns,
OwnerDoc(), nsContentUtils::eDOM_PROPERTIES,
"RemovedFullscreenElement");
// Fully exit fullscreen.
Document::ExitFullscreenInDocTree(OwnerDoc());
}
MOZ_ASSERT_IF(HasServoData(), document);
MOZ_ASSERT_IF(HasServoData(), IsInNativeAnonymousSubtree());
if (document) {
ClearServoData(document);
}
// Ensure that CSS transitions don't continue on an element at a
// different place in the tree (even if reinserted before next
// animation refresh).
//
// We need to delete the properties while we're still in document
// (if we were in document) so that they can look up the
// PendingAnimationTracker on the document and remove their animations,
// and so they can find their pres context for dispatching cancel events.
//
// FIXME(bug 522599): Need a test for this.
// FIXME(emilio): Why not clearing the effect set as well?
if (auto* data = GetAnimationData()) {
data->ClearAllAnimationCollections();
}
if (nullParent) {
if (GetParent()) {
RefPtr<nsINode> p;
p.swap(mParent);
} else {
mParent = nullptr;
}
SetParentIsContent(false);
}
#ifdef DEBUG
// If we can get access to the PresContext, then we sanity-check that
// we're not leaving behind a pointer to ourselves as the PresContext's
// cached provider of the viewport's scrollbar styles.
if (document) {
nsPresContext* presContext = document->GetPresContext();
if (presContext) {
MOZ_ASSERT(this != presContext->GetViewportScrollStylesOverrideElement(),
"Leaving behind a raw pointer to this element (as having "
"propagated scrollbar styles) - that's dangerous...");
}
}
# ifdef ACCESSIBILITY
MOZ_ASSERT(!GetAccService() || !GetAccService()->HasAccessible(this),
"An accessible for this element still exists!");
# endif
#endif
ClearInDocument();
SetIsConnected(false);
if (HasElementCreatedFromPrototypeAndHasUnmodifiedL10n()) {
if (document) {
document->mL10nProtoElements.Remove(this);
}
ClearElementCreatedFromPrototypeAndHasUnmodifiedL10n();
}
if (nullParent || !mParent->IsInShadowTree()) {
UnsetFlags(NODE_IS_IN_SHADOW_TREE);
// Begin keeping track of our subtree root.
SetSubtreeRootPointer(nullParent ? this : mParent->SubtreeRoot());
if (nsExtendedDOMSlots* slots = GetExistingExtendedDOMSlots()) {
slots->mContainingShadow = nullptr;
}
}
if (document) {
// Disconnected must be enqueued whenever a connected custom element becomes
// disconnected.
if (CustomElementData* data = GetCustomElementData()) {
if (data->mState == CustomElementData::State::eCustom) {
nsContentUtils::EnqueueLifecycleCallback(
ElementCallbackType::eDisconnected, this, {});
} else {
// Remove an unresolved custom element that is a candidate for upgrade
// when a custom element is disconnected.
nsContentUtils::UnregisterUnresolvedElement(this);
}
}
if (IsPendingMappedAttributeEvaluation()) {
document->UnscheduleForPresAttrEvaluation(this);
}
if (HasLastRememberedBSize() || HasLastRememberedISize()) {
// Make sure the element is observed so that remembered sizes are kept
// until the next time "ResizeObserver events are determined and
// delivered". See "Disconnected element" tests from
// css/css-sizing/contain-intrinsic-size/auto-006.html
document->ObserveForLastRememberedSize(*this);
}
}
// This has to be here, rather than in nsGenericHTMLElement::UnbindFromTree,
// because it has to happen after unsetting the parent pointer, but before
// recursively unbinding the kids.
ResetDir(this);
for (nsIContent* child = GetFirstChild(); child;
child = child->GetNextSibling()) {
child->UnbindFromTree(aContext);
}
MutationObservers::NotifyParentChainChanged(this);
// Unbind children of shadow root.
if (ShadowRoot* shadowRoot = GetShadowRoot()) {
shadowRoot->Unbind();
}
MOZ_ASSERT(!HasAnyOfFlags(kAllServoDescendantBits));
MOZ_ASSERT(!document || document->GetServoRestyleRoot() != this);
}
UniquePtr<SMILAttr> Element::GetAnimatedAttr(int32_t aNamespaceID,
nsAtom* aName) {
return nullptr;
}
nsDOMCSSAttributeDeclaration* Element::SMILOverrideStyle() {
Element::nsExtendedDOMSlots* slots = ExtendedDOMSlots();
if (!slots->mSMILOverrideStyle) {
slots->mSMILOverrideStyle = new nsDOMCSSAttributeDeclaration(this, true);
}
return slots->mSMILOverrideStyle;
}
DeclarationBlock* Element::GetSMILOverrideStyleDeclaration() {
Element::nsExtendedDOMSlots* slots = GetExistingExtendedDOMSlots();
return slots ? slots->mSMILOverrideStyleDeclaration.get() : nullptr;
}
void Element::SetSMILOverrideStyleDeclaration(DeclarationBlock& aDeclaration) {
ExtendedDOMSlots()->mSMILOverrideStyleDeclaration = &aDeclaration;
// Only need to request a restyle if we're in a document. (We might not
// be in a document, if we're clearing animation effects on a target node
// that's been detached since the previous animation sample.)
if (Document* doc = GetComposedDoc()) {
if (PresShell* presShell = doc->GetPresShell()) {
presShell->RestyleForAnimation(this, RestyleHint::RESTYLE_SMIL);
}
}
}
bool Element::IsLabelable() const { return false; }
bool Element::IsInteractiveHTMLContent() const { return false; }
DeclarationBlock* Element::GetInlineStyleDeclaration() const {
if (!MayHaveStyle()) {
return nullptr;
}
const nsAttrValue* attrVal = mAttrs.GetAttr(nsGkAtoms::style);
if (!attrVal || attrVal->Type() != nsAttrValue::eCSSDeclaration) {
return nullptr;
}
return attrVal->GetCSSDeclarationValue();
}
void Element::InlineStyleDeclarationWillChange(MutationClosureData& aData) {
MOZ_ASSERT_UNREACHABLE("Element::InlineStyleDeclarationWillChange");
}
nsresult Element::SetInlineStyleDeclaration(DeclarationBlock& aDeclaration,
MutationClosureData& aData) {
MOZ_ASSERT_UNREACHABLE("Element::SetInlineStyleDeclaration");
return NS_ERROR_NOT_IMPLEMENTED;
}
NS_IMETHODIMP_(bool)
Element::IsAttributeMapped(const nsAtom* aAttribute) const { return false; }
nsMapRuleToAttributesFunc Element::GetAttributeMappingFunction() const {
return &MapNoAttributesInto;
}
void Element::MapNoAttributesInto(mozilla::MappedDeclarationsBuilder&) {}
nsChangeHint Element::GetAttributeChangeHint(const nsAtom* aAttribute,
int32_t aModType) const {
return nsChangeHint(0);
}
void Element::SetMappedDeclarationBlock(
already_AddRefed<StyleLockedDeclarationBlock> aDeclarations) {
MOZ_ASSERT(IsPendingMappedAttributeEvaluation());
mAttrs.SetMappedDeclarationBlock(std::move(aDeclarations));
MOZ_ASSERT(!IsPendingMappedAttributeEvaluation());
}
bool Element::FindAttributeDependence(const nsAtom* aAttribute,
const MappedAttributeEntry* const aMaps[],
uint32_t aMapCount) {
for (uint32_t mapindex = 0; mapindex < aMapCount; ++mapindex) {
for (const MappedAttributeEntry* map = aMaps[mapindex]; map->attribute;
++map) {
if (aAttribute == map->attribute) {
return true;
}
}
}
return false;
}
already_AddRefed<mozilla::dom::NodeInfo> Element::GetExistingAttrNameFromQName(
const nsAString& aStr) const {
const nsAttrName* name = InternalGetAttrNameFromQName(aStr);
if (!name) {
return nullptr;
}
RefPtr<mozilla::dom::NodeInfo> nodeInfo;
if (name->IsAtom()) {
nodeInfo = mNodeInfo->NodeInfoManager()->GetNodeInfo(
name->Atom(), nullptr, kNameSpaceID_None, ATTRIBUTE_NODE);
} else {
nodeInfo = name->NodeInfo();
}
return nodeInfo.forget();
}
// static
bool Element::ShouldBlur(nsIContent* aContent) {
// Determine if the current element is focused, if it is not focused
// then we should not try to blur
Document* document = aContent->GetComposedDoc();
if (!document) return false;
nsCOMPtr<nsPIDOMWindowOuter> window = document->GetWindow();
if (!window) return false;
nsCOMPtr<nsPIDOMWindowOuter> focusedFrame;
nsIContent* contentToBlur = nsFocusManager::GetFocusedDescendant(
window, nsFocusManager::eOnlyCurrentWindow, getter_AddRefs(focusedFrame));
if (!contentToBlur) {
return false;
}
if (contentToBlur == aContent) {
return true;
}
ShadowRoot* root = aContent->GetShadowRoot();
if (root && root->DelegatesFocus() &&
contentToBlur->IsShadowIncludingInclusiveDescendantOf(root)) {
return true;
}
return false;
}
/* static */
nsresult Element::DispatchEvent(nsPresContext* aPresContext,
WidgetEvent* aEvent, nsIContent* aTarget,
bool aFullDispatch, nsEventStatus* aStatus) {
MOZ_ASSERT(aTarget, "Must have target");
MOZ_ASSERT(aEvent, "Must have source event");
MOZ_ASSERT(aStatus, "Null out param?");
if (!aPresContext) {
return NS_OK;
}
RefPtr<PresShell> presShell = aPresContext->GetPresShell();
if (!presShell) {
return NS_OK;
}
if (aFullDispatch) {
return presShell->HandleEventWithTarget(aEvent, nullptr, aTarget, aStatus);
}
return presShell->HandleDOMEventWithTarget(aTarget, aEvent, aStatus);
}
/* static */
nsresult Element::DispatchClickEvent(nsPresContext* aPresContext,
WidgetInputEvent* aSourceEvent,
nsIContent* aTarget, bool aFullDispatch,
const EventFlags* aExtraEventFlags,
nsEventStatus* aStatus) {
MOZ_ASSERT(aTarget, "Must have target");
MOZ_ASSERT(aSourceEvent, "Must have source event");
MOZ_ASSERT(aStatus, "Null out param?");
WidgetMouseEvent event(aSourceEvent->IsTrusted(), eMouseClick,
aSourceEvent->mWidget, WidgetMouseEvent::eReal);
event.mRefPoint = aSourceEvent->mRefPoint;
uint32_t clickCount = 1;
float pressure = 0;
uint32_t pointerId = 0; // Use the default value here.
uint16_t inputSource = 0;
WidgetMouseEvent* sourceMouseEvent = aSourceEvent->AsMouseEvent();
if (sourceMouseEvent) {
clickCount = sourceMouseEvent->mClickCount;
pressure = sourceMouseEvent->mPressure;
pointerId = sourceMouseEvent->pointerId;
inputSource = sourceMouseEvent->mInputSource;
} else if (aSourceEvent->mClass == eKeyboardEventClass) {
event.mFlags.mIsPositionless = true;
inputSource = MouseEvent_Binding::MOZ_SOURCE_KEYBOARD;
}
event.mPressure = pressure;
event.mClickCount = clickCount;
event.pointerId = pointerId;
event.mInputSource = inputSource;
event.mModifiers = aSourceEvent->mModifiers;
if (aExtraEventFlags) {
// Be careful not to overwrite existing flags!
event.mFlags.Union(*aExtraEventFlags);
}
return DispatchEvent(aPresContext, &event, aTarget, aFullDispatch, aStatus);
}
//----------------------------------------------------------------------
nsresult Element::LeaveLink(nsPresContext* aPresContext) {
if (!aPresContext || !aPresContext->Document()->LinkHandlingEnabled()) {
return NS_OK;
}
nsIDocShell* shell = aPresContext->Document()->GetDocShell();
if (!shell) {
return NS_OK;
}
return nsDocShell::Cast(shell)->OnLeaveLink();
}
void Element::SetEventHandler(nsAtom* aEventName, const nsAString& aValue,
bool aDefer) {
Document* ownerDoc = OwnerDoc();
if (ownerDoc->IsLoadedAsData()) {
// Make this a no-op rather than throwing an error to avoid
// the error causing problems setting the attribute.
return;
}
MOZ_ASSERT(aEventName, "Must have event name!");
bool defer = true;
EventListenerManager* manager =
GetEventListenerManagerForAttr(aEventName, &defer);
if (!manager) {
return;
}
defer = defer && aDefer; // only defer if everyone agrees...
manager->SetEventHandler(aEventName, aValue, defer,
!nsContentUtils::IsChromeDoc(ownerDoc), this);
}
//----------------------------------------------------------------------
const nsAttrName* Element::InternalGetAttrNameFromQName(
const nsAString& aStr, nsAutoString* aNameToUse) const {
MOZ_ASSERT(!aNameToUse || aNameToUse->IsEmpty());
const nsAttrName* val = nullptr;
if (IsHTMLElement() && IsInHTMLDocument()) {
nsAutoString lower;
nsAutoString& outStr = aNameToUse ? *aNameToUse : lower;
nsContentUtils::ASCIIToLower(aStr, outStr);
val = mAttrs.GetExistingAttrNameFromQName(outStr);
if (val) {
outStr.Truncate();
}
} else {
val = mAttrs.GetExistingAttrNameFromQName(aStr);
if (!val && aNameToUse) {
*aNameToUse = aStr;
}
}
return val;
}
bool Element::MaybeCheckSameAttrVal(int32_t aNamespaceID, const nsAtom* aName,
const nsAtom* aPrefix,
const nsAttrValueOrString& aValue,
bool aNotify, nsAttrValue& aOldValue,
uint8_t* aModType, bool* aHasListeners,
bool* aOldValueSet) {
bool modification = false;
*aHasListeners =
aNotify && nsContentUtils::HasMutationListeners(
this, NS_EVENT_BITS_MUTATION_ATTRMODIFIED, this);
*aOldValueSet = false;
// If we have no listeners and aNotify is false, we are almost certainly
// coming from the content sink and will almost certainly have no previous
// value. Even if we do, setting the value is cheap when we have no
// listeners and don't plan to notify. The check for aNotify here is an
// optimization, the check for *aHasListeners is a correctness issue.
if (*aHasListeners || aNotify) {
BorrowedAttrInfo info(GetAttrInfo(aNamespaceID, aName));
if (info.mValue) {
// Check whether the old value is the same as the new one. Note that we
// only need to actually _get_ the old value if we have listeners or
// if the element is a custom element (because it may have an
// attribute changed callback).
if (*aHasListeners || GetCustomElementData()) {
// Need to store the old value.
//
// If the current attribute value contains a pointer to some other data
// structure that gets updated in the process of setting the attribute
// we'll no longer have the old value of the attribute. Therefore, we
// should serialize the attribute value now to keep a snapshot.
//
// We have to serialize the value anyway in order to create the
// mutation event so there's no cost in doing it now.
aOldValue.SetToSerialized(*info.mValue);
*aOldValueSet = true;
}
bool valueMatches = aValue.EqualsAsStrings(*info.mValue);
if (valueMatches && aPrefix == info.mName->GetPrefix()) {
return true;
}
modification = true;
}
}
*aModType = modification
? static_cast<uint8_t>(MutationEvent_Binding::MODIFICATION)
: static_cast<uint8_t>(MutationEvent_Binding::ADDITION);
return false;
}
bool Element::OnlyNotifySameValueSet(int32_t aNamespaceID, nsAtom* aName,
nsAtom* aPrefix,
const nsAttrValueOrString& aValue,
bool aNotify, nsAttrValue& aOldValue,
uint8_t* aModType, bool* aHasListeners,
bool* aOldValueSet) {
if (!MaybeCheckSameAttrVal(aNamespaceID, aName, aPrefix, aValue, aNotify,
aOldValue, aModType, aHasListeners,
aOldValueSet)) {
return false;
}
nsAutoScriptBlocker scriptBlocker;
MutationObservers::NotifyAttributeSetToCurrentValue(this, aNamespaceID,
aName);
return true;
}
nsresult Element::SetClassAttrFromParser(nsAtom* aValue) {
// Keep this in sync with SetAttr and SetParsedAttr below.
nsAttrValue value;
value.ParseAtomArray(aValue);
Document* document = GetComposedDoc();
mozAutoDocUpdate updateBatch(document, false);
// In principle, BeforeSetAttr should be called here if a node type
// existed that wanted to do something special for class, but there
// is no such node type, so calling SetMayHaveClass() directly.
SetMayHaveClass();
return SetAttrAndNotify(kNameSpaceID_None, nsGkAtoms::_class,
nullptr, // prefix
nullptr, // old value
value, nullptr,
static_cast<uint8_t>(MutationEvent_Binding::ADDITION),
false, // hasListeners
false, // notify
kCallAfterSetAttr, document, updateBatch);
}
nsresult Element::SetAttr(int32_t aNamespaceID, nsAtom* aName, nsAtom* aPrefix,
const nsAString& aValue,
nsIPrincipal* aSubjectPrincipal, bool aNotify) {
// Keep this in sync with SetParsedAttr below and SetSingleClassFromParser
// above.
NS_ENSURE_ARG_POINTER(aName);
NS_ASSERTION(aNamespaceID != kNameSpaceID_Unknown,
"Don't call SetAttr with unknown namespace");
uint8_t modType;
bool hasListeners;
nsAttrValue oldValue;
bool oldValueSet;
{
const nsAttrValueOrString value(aValue);
if (OnlyNotifySameValueSet(aNamespaceID, aName, aPrefix, value, aNotify,
oldValue, &modType, &hasListeners,
&oldValueSet)) {
OnAttrSetButNotChanged(aNamespaceID, aName, value, aNotify);
return NS_OK;
}
}
// Hold a script blocker while calling ParseAttribute since that can call
// out to id-observers
Document* document = GetComposedDoc();
mozAutoDocUpdate updateBatch(document, aNotify);
if (aNotify) {
MutationObservers::NotifyAttributeWillChange(this, aNamespaceID, aName,
modType);
}
nsAttrValue attrValue;
if (!ParseAttribute(aNamespaceID, aName, aValue, aSubjectPrincipal,
attrValue)) {
attrValue.SetTo(aValue);
}
BeforeSetAttr(aNamespaceID, aName, &attrValue, aNotify);
PreIdMaybeChange(aNamespaceID, aName, &attrValue);
return SetAttrAndNotify(aNamespaceID, aName, aPrefix,
oldValueSet ? &oldValue : nullptr, attrValue,
aSubjectPrincipal, modType, hasListeners, aNotify,
kCallAfterSetAttr, document, updateBatch);
}
nsresult Element::SetParsedAttr(int32_t aNamespaceID, nsAtom* aName,
nsAtom* aPrefix, nsAttrValue& aParsedValue,
bool aNotify) {
// Keep this in sync with SetAttr and SetSingleClassFromParser above
NS_ENSURE_ARG_POINTER(aName);
NS_ASSERTION(aNamespaceID != kNameSpaceID_Unknown,
"Don't call SetAttr with unknown namespace");
uint8_t modType;
bool hasListeners;
nsAttrValue oldValue;
bool oldValueSet;
{
const nsAttrValueOrString value(aParsedValue);
if (OnlyNotifySameValueSet(aNamespaceID, aName, aPrefix, value, aNotify,
oldValue, &modType, &hasListeners,
&oldValueSet)) {
OnAttrSetButNotChanged(aNamespaceID, aName, value, aNotify);
return NS_OK;
}
}
Document* document = GetComposedDoc();
mozAutoDocUpdate updateBatch(document, aNotify);
if (aNotify) {
MutationObservers::NotifyAttributeWillChange(this, aNamespaceID, aName,
modType);
}
BeforeSetAttr(aNamespaceID, aName, &aParsedValue, aNotify);
PreIdMaybeChange(aNamespaceID, aName, &aParsedValue);
return SetAttrAndNotify(aNamespaceID, aName, aPrefix,
oldValueSet ? &oldValue : nullptr, aParsedValue,
nullptr, modType, hasListeners, aNotify,
kCallAfterSetAttr, document, updateBatch);
}
nsresult Element::SetAttrAndNotify(
int32_t aNamespaceID, nsAtom* aName, nsAtom* aPrefix,
const nsAttrValue* aOldValue, nsAttrValue& aParsedValue,
nsIPrincipal* aSubjectPrincipal, uint8_t aModType, bool aFireMutation,
bool aNotify, bool aCallAfterSetAttr, Document* aComposedDocument,
const mozAutoDocUpdate& aGuard) {
nsMutationGuard::DidMutate();
// Copy aParsedValue for later use since it will be lost when we call
// SetAndSwapAttr below
nsAttrValue valueForAfterSetAttr;
if (aCallAfterSetAttr || GetCustomElementData()) {
valueForAfterSetAttr.SetTo(aParsedValue);
}
bool hadValidDir = false;
bool hadDirAuto = false;
bool oldValueSet;
if (aNamespaceID == kNameSpaceID_None) {
if (aName == nsGkAtoms::dir) {
hadValidDir = HasValidDir() || IsHTMLElement(nsGkAtoms::bdi);
hadDirAuto = HasDirAuto(); // already takes bdi into account
}
MOZ_TRY(mAttrs.SetAndSwapAttr(aName, aParsedValue, &oldValueSet));
if (IsAttributeMapped(aName) && !IsPendingMappedAttributeEvaluation()) {
mAttrs.InfallibleMarkAsPendingPresAttributeEvaluation();
if (Document* doc = GetComposedDoc()) {
doc->ScheduleForPresAttrEvaluation(this);
}
}
} else {
RefPtr<mozilla::dom::NodeInfo> ni =
mNodeInfo->NodeInfoManager()->GetNodeInfo(aName, aPrefix, aNamespaceID,
ATTRIBUTE_NODE);
MOZ_TRY(mAttrs.SetAndSwapAttr(ni, aParsedValue, &oldValueSet));
}
PostIdMaybeChange(aNamespaceID, aName, &valueForAfterSetAttr);
// If the old value owns its own data, we know it is OK to keep using it.
// oldValue will be null if there was no previously set value
const nsAttrValue* oldValue;
if (aParsedValue.StoresOwnData()) {
if (oldValueSet) {
oldValue = &aParsedValue;
} else {
oldValue = nullptr;
}
} else {
// No need to conditionally assign null here. If there was no previously
// set value for the attribute, aOldValue will already be null.
oldValue = aOldValue;
}
if (HasElementCreatedFromPrototypeAndHasUnmodifiedL10n() &&
aNamespaceID == kNameSpaceID_None &&
(aName == nsGkAtoms::datal10nid || aName == nsGkAtoms::datal10nargs)) {
ClearElementCreatedFromPrototypeAndHasUnmodifiedL10n();
if (aComposedDocument) {
aComposedDocument->mL10nProtoElements.Remove(this);
}
}
const CustomElementData* data = GetCustomElementData();
if (data && data->mState == CustomElementData::State::eCustom) {
CustomElementDefinition* definition = data->GetCustomElementDefinition();
MOZ_ASSERT(definition, "Should have a valid CustomElementDefinition");
if (definition->IsInObservedAttributeList(aName)) {
nsAutoString ns;
nsNameSpaceManager::GetInstance()->GetNameSpaceURI(aNamespaceID, ns);
LifecycleCallbackArgs args;
args.mName = aName;
if (aModType == MutationEvent_Binding::ADDITION) {
args.mOldValue = VoidString();
} else {
if (oldValue) {
oldValue->ToString(args.mOldValue);
} else {
// If there is no old value, get the value of the uninitialized
// attribute that was swapped with aParsedValue.
aParsedValue.ToString(args.mOldValue);
}
}
valueForAfterSetAttr.ToString(args.mNewValue);
args.mNamespaceURI = ns.IsEmpty() ? VoidString() : ns;
nsContentUtils::EnqueueLifecycleCallback(
ElementCallbackType::eAttributeChanged, this, args, definition);
}
}
if (aCallAfterSetAttr) {
AfterSetAttr(aNamespaceID, aName, &valueForAfterSetAttr, oldValue,
aSubjectPrincipal, aNotify);
if (aNamespaceID == kNameSpaceID_None && aName == nsGkAtoms::dir) {
OnSetDirAttr(this, &valueForAfterSetAttr, hadValidDir, hadDirAuto,
aNotify);
}
}
if (aNotify) {
// Don't pass aOldValue to AttributeChanged since it may not be reliable.
// Callers only compute aOldValue under certain conditions which may not
// be triggered by all nsIMutationObservers.
MutationObservers::NotifyAttributeChanged(
this, aNamespaceID, aName, aModType,
aParsedValue.StoresOwnData() ? &aParsedValue : nullptr);
}
if (aFireMutation) {
InternalMutationEvent mutation(true, eLegacyAttrModified);
nsAutoString ns;
nsNameSpaceManager::GetInstance()->GetNameSpaceURI(aNamespaceID, ns);
Attr* attrNode =
GetAttributeNodeNSInternal(ns, nsDependentAtomString(aName));
mutation.mRelatedNode = attrNode;
mutation.mAttrName = aName;
nsAutoString newValue;
GetAttr(aNamespaceID, aName, newValue);
if (!newValue.IsEmpty()) {
mutation.mNewAttrValue = NS_Atomize(newValue);
}
if (oldValue && !oldValue->IsEmptyString()) {
mutation.mPrevAttrValue = oldValue->GetAsAtom();
}
mutation.mAttrChange = aModType;
mozAutoSubtreeModified subtree(OwnerDoc(), this);
AsyncEventDispatcher::RunDOMEventWhenSafe(*this, mutation);
}
return NS_OK;
}
void Element::TryReserveAttributeCount(uint32_t aAttributeCount) {
(void)mAttrs.GrowTo(aAttributeCount);
}
bool Element::ParseAttribute(int32_t aNamespaceID, nsAtom* aAttribute,
const nsAString& aValue,
nsIPrincipal* aMaybeScriptedPrincipal,
nsAttrValue& aResult) {
if (aAttribute == nsGkAtoms::lang) {
aResult.ParseAtom(aValue);
return true;
}
if (aNamespaceID == kNameSpaceID_None) {
if (aAttribute == nsGkAtoms::_class || aAttribute == nsGkAtoms::part) {
aResult.ParseAtomArray(aValue);
return true;
}
if (aAttribute == nsGkAtoms::exportparts) {
aResult.ParsePartMapping(aValue);
return true;
}
if (aAttribute == nsGkAtoms::aria_activedescendant) {
// String in aria-activedescendant is an id, so store as an atom.
aResult.ParseAtom(aValue);
return true;
}
if (aAttribute == nsGkAtoms::id) {
// Store id as an atom. id="" means that the element has no id,
// not that it has an emptystring as the id.
if (aValue.IsEmpty()) {
return false;
}
aResult.ParseAtom(aValue);
return true;
}
}
return false;
}
void Element::BeforeSetAttr(int32_t aNamespaceID, nsAtom* aName,
const nsAttrValue* aValue, bool aNotify) {
if (aNamespaceID == kNameSpaceID_None) {
if (aName == nsGkAtoms::_class && aValue) {
// Note: This flag is asymmetrical. It is never unset and isn't exact.
// If it is ever made to be exact, we probably need to handle this
// similarly to how ids are handled in PreIdMaybeChange and
// PostIdMaybeChange.
// Note that SetSingleClassFromParser inlines BeforeSetAttr and
// calls SetMayHaveClass directly. Making a subclass take action
// on the class attribute in a BeforeSetAttr override would
// require revising SetSingleClassFromParser.
SetMayHaveClass();
}
}
}
void Element::AfterSetAttr(int32_t aNamespaceID, nsAtom* aName,
const nsAttrValue* aValue,
const nsAttrValue* aOldValue,
nsIPrincipal* aMaybeScriptedPrincipal,
bool aNotify) {
if (aNamespaceID == kNameSpaceID_None) {
if (aName == nsGkAtoms::part) {
bool isPart = !!aValue;
if (HasPartAttribute() != isPart) {
SetHasPartAttribute(isPart);
if (ShadowRoot* shadow = GetContainingShadow()) {
if (isPart) {
shadow->PartAdded(*this);
} else {
shadow->PartRemoved(*this);
}
}
}
MOZ_ASSERT(HasPartAttribute() == isPart);
} else if (aName == nsGkAtoms::slot && GetParent()) {
if (ShadowRoot* shadow = GetParent()->GetShadowRoot()) {
shadow->MaybeReassignContent(*this);
}
} else if (aName == nsGkAtoms::aria_activedescendant) {
ClearExplicitlySetAttrElement(aName);
}
}
}
void Element::PreIdMaybeChange(int32_t aNamespaceID, nsAtom* aName,
const nsAttrValue* aValue) {
if (aNamespaceID != kNameSpaceID_None || aName != nsGkAtoms::id) {
return;
}
RemoveFromIdTable();
}
void Element::PostIdMaybeChange(int32_t aNamespaceID, nsAtom* aName,
const nsAttrValue* aValue) {
if (aNamespaceID != kNameSpaceID_None || aName != nsGkAtoms::id) {
return;
}
// id="" means that the element has no id, not that it has an empty
// string as the id.
if (aValue && !aValue->IsEmptyString()) {
SetHasID();
AddToIdTable(aValue->GetAtomValue());
} else {
ClearHasID();
}
}
void Element::OnAttrSetButNotChanged(int32_t aNamespaceID, nsAtom* aName,
const nsAttrValueOrString& aValue,
bool aNotify) {
const CustomElementData* data = GetCustomElementData();
if (data && data->mState == CustomElementData::State::eCustom) {
CustomElementDefinition* definition = data->GetCustomElementDefinition();
MOZ_ASSERT(definition, "Should have a valid CustomElementDefinition");
if (definition->IsInObservedAttributeList(aName)) {
nsAutoString ns;
nsNameSpaceManager::GetInstance()->GetNameSpaceURI(aNamespaceID, ns);
nsAutoString value(aValue.String());
LifecycleCallbackArgs args;
args.mName = aName;
args.mOldValue = value;
args.mNewValue = value;
args.mNamespaceURI = ns.IsEmpty() ? VoidString() : ns;
nsContentUtils::EnqueueLifecycleCallback(
ElementCallbackType::eAttributeChanged, this, args, definition);
}
}
if (aNamespaceID == kNameSpaceID_None &&
aName == nsGkAtoms::aria_activedescendant) {
ClearExplicitlySetAttrElement(aName);
}
}
EventListenerManager* Element::GetEventListenerManagerForAttr(nsAtom* aAttrName,
bool* aDefer) {
*aDefer = true;
return GetOrCreateListenerManager();
}
bool Element::GetAttr(const nsAtom* aName, nsAString& aResult) const {
const nsAttrValue* val = mAttrs.GetAttr(aName);
if (!val) {
aResult.Truncate();
return false;
}
val->ToString(aResult);
return true;
}
bool Element::GetAttr(int32_t aNameSpaceID, const nsAtom* aName,
nsAString& aResult) const {
const nsAttrValue* val = mAttrs.GetAttr(aName, aNameSpaceID);
if (!val) {
aResult.Truncate();
return false;
}
val->ToString(aResult);
return true;
}
int32_t Element::FindAttrValueIn(int32_t aNameSpaceID, const nsAtom* aName,
AttrArray::AttrValuesArray* aValues,
nsCaseTreatment aCaseSensitive) const {
return mAttrs.FindAttrValueIn(aNameSpaceID, aName, aValues, aCaseSensitive);
}
nsresult Element::UnsetAttr(int32_t aNameSpaceID, nsAtom* aName, bool aNotify) {
NS_ASSERTION(nullptr != aName, "must have attribute name");
int32_t index = mAttrs.IndexOfAttr(aName, aNameSpaceID);
if (index < 0) {
return NS_OK;
}
Document* document = GetComposedDoc();
mozAutoDocUpdate updateBatch(document, aNotify);
if (aNotify) {
MutationObservers::NotifyAttributeWillChange(
this, aNameSpaceID, aName, MutationEvent_Binding::REMOVAL);
}
BeforeSetAttr(aNameSpaceID, aName, nullptr, aNotify);
bool hasMutationListeners =
aNotify && nsContentUtils::HasMutationListeners(
this, NS_EVENT_BITS_MUTATION_ATTRMODIFIED, this);
PreIdMaybeChange(aNameSpaceID, aName, nullptr);
// Grab the attr node if needed before we remove it from the attr map
RefPtr<Attr> attrNode;
if (hasMutationListeners) {
nsAutoString ns;
nsNameSpaceManager::GetInstance()->GetNameSpaceURI(aNameSpaceID, ns);
attrNode = GetAttributeNodeNSInternal(ns, nsDependentAtomString(aName));
}
// Clear the attribute out from attribute map.
nsDOMSlots* slots = GetExistingDOMSlots();
if (slots && slots->mAttributeMap) {
slots->mAttributeMap->DropAttribute(aNameSpaceID, aName);
}
// The id-handling code, and in the future possibly other code, need to
// react to unexpected attribute changes.
nsMutationGuard::DidMutate();
bool hadValidDir = false;
bool hadDirAuto = false;
if (aNameSpaceID == kNameSpaceID_None) {
if (aName == nsGkAtoms::dir) {
hadValidDir = HasValidDir() || IsHTMLElement(nsGkAtoms::bdi);
hadDirAuto = HasDirAuto(); // already takes bdi into account
}
if (IsAttributeMapped(aName) && !IsPendingMappedAttributeEvaluation()) {
mAttrs.InfallibleMarkAsPendingPresAttributeEvaluation();
if (Document* doc = GetComposedDoc()) {
doc->ScheduleForPresAttrEvaluation(this);
}
}
}
nsAttrValue oldValue;
MOZ_TRY(mAttrs.RemoveAttrAt(index, oldValue));
PostIdMaybeChange(aNameSpaceID, aName, nullptr);
const CustomElementData* data = GetCustomElementData();
if (data && data->mState == CustomElementData::State::eCustom) {
CustomElementDefinition* definition = data->GetCustomElementDefinition();
MOZ_ASSERT(definition, "Should have a valid CustomElementDefinition");
if (definition->IsInObservedAttributeList(aName)) {
nsAutoString ns;
nsNameSpaceManager::GetInstance()->GetNameSpaceURI(aNameSpaceID, ns);
LifecycleCallbackArgs args;
args.mName = aName;
oldValue.ToString(args.mOldValue);
args.mNewValue = VoidString();
args.mNamespaceURI = ns.IsEmpty() ? VoidString() : ns;
nsContentUtils::EnqueueLifecycleCallback(
ElementCallbackType::eAttributeChanged, this, args, definition);
}
}
AfterSetAttr(aNameSpaceID, aName, nullptr, &oldValue, nullptr, aNotify);
if (aNotify) {
// We can always pass oldValue here since there is no new value which could
// have corrupted it.
MutationObservers::NotifyAttributeChanged(
this, aNameSpaceID, aName, MutationEvent_Binding::REMOVAL, &oldValue);
}
if (aNameSpaceID == kNameSpaceID_None && aName == nsGkAtoms::dir) {
OnSetDirAttr(this, nullptr, hadValidDir, hadDirAuto, aNotify);
}
if (hasMutationListeners) {
InternalMutationEvent mutation(true, eLegacyAttrModified);
mutation.mRelatedNode = attrNode;
mutation.mAttrName = aName;
nsAutoString value;
oldValue.ToString(value);
if (!value.IsEmpty()) mutation.mPrevAttrValue = NS_Atomize(value);
mutation.mAttrChange = MutationEvent_Binding::REMOVAL;
mozAutoSubtreeModified subtree(OwnerDoc(), this);
AsyncEventDispatcher::RunDOMEventWhenSafe(*this, mutation);
}
return NS_OK;
}
void Element::DescribeAttribute(uint32_t index,
nsAString& aOutDescription) const {
// name
mAttrs.AttrNameAt(index)->GetQualifiedName(aOutDescription);
// value
aOutDescription.AppendLiteral("=\"");
nsAutoString value;
mAttrs.AttrAt(index)->ToString(value);
for (uint32_t i = value.Length(); i > 0; --i) {
if (value[i - 1] == char16_t('"')) value.Insert(char16_t('\\'), i - 1);
}
aOutDescription.Append(value);
aOutDescription.Append('"');
}
#ifdef MOZ_DOM_LIST
void Element::ListAttributes(FILE* out) const {
uint32_t index, count = mAttrs.AttrCount();
for (index = 0; index < count; index++) {
nsAutoString attributeDescription;
DescribeAttribute(index, attributeDescription);
fputs(" ", out);
fputs(NS_LossyConvertUTF16toASCII(attributeDescription).get(), out);
}
}
void Element::List(FILE* out, int32_t aIndent, const nsCString& aPrefix) const {
int32_t indent;
for (indent = aIndent; --indent >= 0;) fputs(" ", out);
fputs(aPrefix.get(), out);
fputs(NS_LossyConvertUTF16toASCII(mNodeInfo->QualifiedName()).get(), out);
fprintf(out, "@%p", (void*)this);
ListAttributes(out);
fprintf(out, " state=[%llx]",
static_cast<unsigned long long>(State().GetInternalValue()));
fprintf(out, " flags=[%08x]", static_cast<unsigned int>(GetFlags()));
fprintf(out, " selectorflags=[%08x]",
static_cast<unsigned int>(GetSelectorFlags()));
if (IsClosestCommonInclusiveAncestorForRangeInSelection()) {
const LinkedList<AbstractRange>* ranges =
GetExistingClosestCommonInclusiveAncestorRanges();
int32_t count = 0;
if (ranges) {
// Can't use range-based iteration on a const LinkedList, unfortunately.
for (const AbstractRange* r = ranges->getFirst(); r; r = r->getNext()) {
++count;
}
}
fprintf(out, " ranges:%d", count);
}
fprintf(out, " primaryframe=%p", static_cast<void*>(GetPrimaryFrame()));
fprintf(out, " refcount=%" PRIuPTR "<", mRefCnt.get());
nsIContent* child = GetFirstChild();
if (child) {
fputs("\n", out);
for (; child; child = child->GetNextSibling()) {
child->List(out, aIndent + 1);
}
for (indent = aIndent; --indent >= 0;) fputs(" ", out);
}
fputs(">\n", out);
}
void Element::DumpContent(FILE* out, int32_t aIndent, bool aDumpAll) const {
int32_t indent;
for (indent = aIndent; --indent >= 0;) fputs(" ", out);
const nsString& buf = mNodeInfo->QualifiedName();
fputs("<", out);
fputs(NS_LossyConvertUTF16toASCII(buf).get(), out);
if (aDumpAll) ListAttributes(out);
fputs(">", out);
if (aIndent) fputs("\n", out);
for (nsIContent* child = GetFirstChild(); child;
child = child->GetNextSibling()) {
int32_t indent = aIndent ? aIndent + 1 : 0;
child->DumpContent(out, indent, aDumpAll);
}
for (indent = aIndent; --indent >= 0;) fputs(" ", out);
fputs("</", out);
fputs(NS_LossyConvertUTF16toASCII(buf).get(), out);
fputs(">", out);
if (aIndent) fputs("\n", out);
}
#endif
void Element::Describe(nsAString& aOutDescription, bool aShort) const {
aOutDescription.Append(mNodeInfo->QualifiedName());
aOutDescription.AppendPrintf("@%p", (void*)this);
uint32_t index, count = mAttrs.AttrCount();
for (index = 0; index < count; index++) {
if (aShort) {
const nsAttrName* name = mAttrs.AttrNameAt(index);
if (!name->Equals(nsGkAtoms::id) && !name->Equals(nsGkAtoms::_class)) {
continue;
}
}
aOutDescription.Append(' ');
nsAutoString attributeDescription;
DescribeAttribute(index, attributeDescription);
aOutDescription.Append(attributeDescription);
}
}
bool Element::CheckHandleEventForLinksPrecondition(
EventChainVisitor& aVisitor) const {
// Make sure we actually are a link
if (!IsLink()) {
return false;
}
if (aVisitor.mEventStatus == nsEventStatus_eConsumeNoDefault ||
(!aVisitor.mEvent->IsTrusted() &&
(aVisitor.mEvent->mMessage != eMouseClick) &&
(aVisitor.mEvent->mMessage != eKeyPress) &&
(aVisitor.mEvent->mMessage != eLegacyDOMActivate)) ||
aVisitor.mEvent->mFlags.mMultipleActionsPrevented) {
return false;
}
return true;
}
void Element::GetEventTargetParentForLinks(EventChainPreVisitor& aVisitor) {
// Optimisation: return early if this event doesn't interest us.
// IMPORTANT: this switch and the switch below it must be kept in sync!
switch (aVisitor.mEvent->mMessage) {
case eMouseOver:
case eFocus:
case eMouseOut:
case eBlur:
break;
default:
return;
}
// Make sure we meet the preconditions before continuing
if (!CheckHandleEventForLinksPrecondition(aVisitor)) {
return;
}
// We try to handle everything we can even when the URI is invalid. Though of
// course we can't do stuff like updating the status bar, so return early here
// instead.
nsCOMPtr<nsIURI> absURI = GetHrefURI();
if (!absURI) {
return;
}
// We do the status bar updates in GetEventTargetParent so that the status bar
// gets updated even if the event is consumed before we have a chance to set
// it.
switch (aVisitor.mEvent->mMessage) {
// Set the status bar similarly for mouseover and focus
case eMouseOver:
aVisitor.mEventStatus = nsEventStatus_eConsumeNoDefault;
[[fallthrough]];
case eFocus: {
InternalFocusEvent* focusEvent = aVisitor.mEvent->AsFocusEvent();
if (!focusEvent || !focusEvent->mIsRefocus) {
nsAutoString target;
GetLinkTarget(target);
nsContentUtils::TriggerLink(this, absURI, target,
/* click */ false, /* isTrusted */ true);
// Make sure any ancestor links don't also TriggerLink
aVisitor.mEvent->mFlags.mMultipleActionsPrevented = true;
}
break;
}
case eMouseOut:
aVisitor.mEventStatus = nsEventStatus_eConsumeNoDefault;
[[fallthrough]];
case eBlur: {
nsresult rv = LeaveLink(aVisitor.mPresContext);
if (NS_SUCCEEDED(rv)) {
aVisitor.mEvent->mFlags.mMultipleActionsPrevented = true;
}
break;
}
default:
// switch not in sync with the optimization switch earlier in this
// function
MOZ_ASSERT_UNREACHABLE("switch statements not in sync");
}
}
// This dispatches a 'chromelinkclick' CustomEvent to chrome-only listeners,
// so that frontend can handle middle-clicks and ctrl/cmd/shift/etc.-clicks
// on links, without getting a call for every single click the user makes.
// Only supported for click or auxclick events.
void Element::DispatchChromeOnlyLinkClickEvent(
EventChainPostVisitor& aVisitor) {
MOZ_ASSERT(aVisitor.mEvent->mMessage == eMouseAuxClick ||
aVisitor.mEvent->mMessage == eMouseClick,
"DispatchChromeOnlyLinkClickEvent supports only click and "
"auxclick source events");
Document* doc = OwnerDoc();
RefPtr<XULCommandEvent> event =
new XULCommandEvent(doc, aVisitor.mPresContext, nullptr);
RefPtr<dom::Event> mouseDOMEvent = aVisitor.mDOMEvent;
if (!mouseDOMEvent) {
mouseDOMEvent = EventDispatcher::CreateEvent(
aVisitor.mEvent->mOriginalTarget, aVisitor.mPresContext,
aVisitor.mEvent, u""_ns);
NS_ADDREF(aVisitor.mDOMEvent = mouseDOMEvent);
}
MouseEvent* mouseEvent = mouseDOMEvent->AsMouseEvent();
event->InitCommandEvent(
u"chromelinkclick"_ns, /* CanBubble */ true,
/* Cancelable */ true, nsGlobalWindowInner::Cast(doc->GetInnerWindow()),
0, mouseEvent->CtrlKey(), mouseEvent->AltKey(), mouseEvent->ShiftKey(),
mouseEvent->MetaKey(), mouseEvent->Button(), mouseDOMEvent,
mouseEvent->InputSource(), IgnoreErrors());
// Note: we're always trusted, but the event we pass as the `sourceEvent`
// might not be. Frontend code will check that event's trusted property to
// make that determination; doing it this way means we don't also start
// acting on web-generated custom 'chromelinkclick' events which would
// provide additional attack surface for a malicious actor.
event->SetTrusted(true);
event->WidgetEventPtr()->mFlags.mOnlyChromeDispatch = true;
DispatchEvent(*event);
}
nsresult Element::PostHandleEventForLinks(EventChainPostVisitor& aVisitor) {
// Optimisation: return early if this event doesn't interest us.
// IMPORTANT: this switch and the switch below it must be kept in sync!
switch (aVisitor.mEvent->mMessage) {
case eMouseDown:
case eMouseClick:
case eMouseAuxClick:
case eLegacyDOMActivate:
case eKeyPress:
break;
default:
return NS_OK;
}
// Make sure we meet the preconditions before continuing
if (!CheckHandleEventForLinksPrecondition(aVisitor)) {
return NS_OK;
}
// We try to handle ~everything consistently even if the href is invalid
// (GetHrefURI() returns null).
nsresult rv = NS_OK;
switch (aVisitor.mEvent->mMessage) {
case eMouseDown: {
if (!OwnerDoc()->LinkHandlingEnabled()) {
break;
}
WidgetMouseEvent* const mouseEvent = aVisitor.mEvent->AsMouseEvent();
mouseEvent->mFlags.mMultipleActionsPrevented |=
mouseEvent->mButton == MouseButton::ePrimary ||
mouseEvent->mButton == MouseButton::eMiddle;
if (mouseEvent->mButton == MouseButton::ePrimary) {
// For avoiding focus popup opened by clicking this link to get blurred,
// we need this to get focused now. However, if the mousedown occurs
// in editable element in this link, we should not do this because its
// editing host will get focus.
if (IsInComposedDoc()) {
Element* targetElement = Element::FromEventTargetOrNull(
aVisitor.mEvent->GetDOMEventTarget());
if (targetElement && targetElement->IsInclusiveDescendantOf(this) &&
(!targetElement->IsEditable() ||
targetElement->GetEditingHost() == this)) {
if (RefPtr<nsFocusManager> fm = nsFocusManager::GetFocusManager()) {
RefPtr<Element> kungFuDeathGrip(this);
fm->SetFocus(kungFuDeathGrip, nsIFocusManager::FLAG_BYMOUSE |
nsIFocusManager::FLAG_NOSCROLL);
}
}
}
if (aVisitor.mPresContext) {
EventStateManager::SetActiveManager(
aVisitor.mPresContext->EventStateManager(), this);
}
// OK, we're pretty sure we're going to load, so warm up a speculative
// connection to be sure we have one ready when we open the channel.
if (nsIDocShell* shell = OwnerDoc()->GetDocShell()) {
if (nsCOMPtr<nsIURI> absURI = GetHrefURI()) {
if (nsCOMPtr<nsISpeculativeConnect> sc =
mozilla::components::IO::Service()) {
nsCOMPtr<nsIInterfaceRequestor> ir = do_QueryInterface(shell);
sc->SpeculativeConnect(absURI, NodePrincipal(), ir, false);
}
}
}
}
} break;
case eMouseClick: {
WidgetMouseEvent* mouseEvent = aVisitor.mEvent->AsMouseEvent();
if (mouseEvent->IsLeftClickEvent()) {
if (!mouseEvent->IsControl() && !mouseEvent->IsMeta() &&
!mouseEvent->IsAlt() && !mouseEvent->IsShift()) {
if (OwnerDoc()->MayHaveDOMActivateListeners()) {
// The default action is simply to dispatch DOMActivate.
// But dispatch that only if needed.
nsEventStatus status = nsEventStatus_eIgnore;
// DOMActivate event should be trusted since the activation is
// actually occurred even if the cause is an untrusted click event.
InternalUIEvent actEvent(true, eLegacyDOMActivate, mouseEvent);
actEvent.mDetail = 1;
rv = EventDispatcher::Dispatch(this, aVisitor.mPresContext,
&actEvent, nullptr, &status);
if (NS_SUCCEEDED(rv)) {
aVisitor.mEventStatus = nsEventStatus_eConsumeNoDefault;
}
} else {
if (nsCOMPtr<nsIURI> absURI = GetHrefURI()) {
// If you modify this code, tweak also the code handling
// eLegacyDOMActivate.
nsAutoString target;
GetLinkTarget(target);
nsContentUtils::TriggerLink(this, absURI, target,
/* click */ true,
mouseEvent->IsTrusted());
}
// Since we didn't dispatch DOMActivate because there were no
// listeners, do still set mEventStatus as if it was dispatched
// successfully.
aVisitor.mEventStatus = nsEventStatus_eConsumeNoDefault;
}
}
DispatchChromeOnlyLinkClickEvent(aVisitor);
}
break;
}
case eMouseAuxClick: {
DispatchChromeOnlyLinkClickEvent(aVisitor);
break;
}
case eLegacyDOMActivate: {
// If you modify this code, tweak also the code handling
// eMouseClick.
if (aVisitor.mEvent->mOriginalTarget == this) {
if (nsCOMPtr<nsIURI> absURI = GetHrefURI()) {
nsAutoString target;
GetLinkTarget(target);
const InternalUIEvent* activeEvent = aVisitor.mEvent->AsUIEvent();
MOZ_ASSERT(activeEvent);
nsContentUtils::TriggerLink(this, absURI, target, /* click */ true,
activeEvent->IsTrustable());
aVisitor.mEventStatus = nsEventStatus_eConsumeNoDefault;
}
}
} break;
case eKeyPress: {
WidgetKeyboardEvent* keyEvent = aVisitor.mEvent->AsKeyboardEvent();
if (keyEvent && keyEvent->mKeyCode == NS_VK_RETURN) {
nsEventStatus status = nsEventStatus_eIgnore;
rv = DispatchClickEvent(aVisitor.mPresContext, keyEvent, this, false,
nullptr, &status);
if (NS_SUCCEEDED(rv)) {
aVisitor.mEventStatus = nsEventStatus_eConsumeNoDefault;
}
}
} break;
default:
// switch not in sync with the optimization switch earlier in this
// function
MOZ_ASSERT_UNREACHABLE("switch statements not in sync");
return NS_ERROR_UNEXPECTED;
}
return rv;
}
void Element::GetLinkTarget(nsAString& aTarget) { aTarget.Truncate(); }
nsresult Element::CopyInnerTo(Element* aDst, ReparseAttributes aReparse) {
nsresult rv = aDst->mAttrs.EnsureCapacityToClone(mAttrs);
NS_ENSURE_SUCCESS(rv, rv);
const bool reparse = aReparse == ReparseAttributes::Yes;
uint32_t count = mAttrs.AttrCount();
for (uint32_t i = 0; i < count; ++i) {
BorrowedAttrInfo info = mAttrs.AttrInfoAt(i);
const nsAttrName* name = info.mName;
const nsAttrValue* value = info.mValue;
if (value->Type() == nsAttrValue::eCSSDeclaration) {
MOZ_ASSERT(name->Equals(nsGkAtoms::style, kNameSpaceID_None));
// We still clone CSS attributes, even in the `reparse` (cross-document)
// case. https://github.com/w3c/webappsec-csp/issues/212
nsAttrValue valueCopy(*value);
rv = aDst->SetParsedAttr(name->NamespaceID(), name->LocalName(),
name->GetPrefix(), valueCopy, false);
NS_ENSURE_SUCCESS(rv, rv);
value->GetCSSDeclarationValue()->SetImmutable();
} else if (reparse) {
nsAutoString valStr;
value->ToString(valStr);
rv = aDst->SetAttr(name->NamespaceID(), name->LocalName(),
name->GetPrefix(), valStr, false);
NS_ENSURE_SUCCESS(rv, rv);
} else {
nsAttrValue valueCopy(*value);
rv = aDst->SetParsedAttr(name->NamespaceID(), name->LocalName(),
name->GetPrefix(), valueCopy, false);
NS_ENSURE_SUCCESS(rv, rv);
}
}
dom::NodeInfo* dstNodeInfo = aDst->NodeInfo();
if (CustomElementData* data = GetCustomElementData()) {
// The cloned node may be a custom element that may require
// enqueing upgrade reaction.
if (nsAtom* typeAtom = data->GetCustomElementType()) {
aDst->SetCustomElementData(MakeUnique<CustomElementData>(typeAtom));
MOZ_ASSERT(dstNodeInfo->NameAtom()->Equals(dstNodeInfo->LocalName()));
CustomElementDefinition* definition =
nsContentUtils::LookupCustomElementDefinition(
dstNodeInfo->GetDocument(), dstNodeInfo->NameAtom(),
dstNodeInfo->NamespaceID(), typeAtom);
if (definition) {
nsContentUtils::EnqueueUpgradeReaction(aDst, definition);
}
}
}
if (dstNodeInfo->GetDocument()->IsStaticDocument()) {
// Propagate :defined state to the static clone.
if (State().HasState(ElementState::DEFINED)) {
aDst->SetDefined(true);
}
}
return NS_OK;
}
Element* Element::Closest(const nsACString& aSelector, ErrorResult& aResult) {
AUTO_PROFILER_LABEL_DYNAMIC_NSCSTRING("Element::Closest",
LAYOUT_SelectorQuery, aSelector);
const StyleSelectorList* list = ParseSelectorList(aSelector, aResult);
if (!list) {
return nullptr;
}
return const_cast<Element*>(Servo_SelectorList_Closest(this, list));
}
bool Element::Matches(const nsACString& aSelector, ErrorResult& aResult) {
AUTO_PROFILER_LABEL_DYNAMIC_NSCSTRING("Element::Matches",
LAYOUT_SelectorQuery, aSelector);
const StyleSelectorList* list = ParseSelectorList(aSelector, aResult);
if (!list) {
return false;
}
return Servo_SelectorList_Matches(this, list);
}
static const nsAttrValue::EnumTable kCORSAttributeTable[] = {
// Order matters here
// See ParseCORSValue
{"anonymous", CORS_ANONYMOUS},
{"use-credentials", CORS_USE_CREDENTIALS},
{nullptr, 0}};
/* static */
void Element::ParseCORSValue(const nsAString& aValue, nsAttrValue& aResult) {
DebugOnly<bool> success =
aResult.ParseEnumValue(aValue, kCORSAttributeTable, false,
// default value is anonymous if aValue is
// not a value we understand
&kCORSAttributeTable[0]);
MOZ_ASSERT(success);
}
/* static */
CORSMode Element::StringToCORSMode(const nsAString& aValue) {
if (aValue.IsVoid()) {
return CORS_NONE;
}
nsAttrValue val;
Element::ParseCORSValue(aValue, val);
return CORSMode(val.GetEnumValue());
}
/* static */
CORSMode Element::AttrValueToCORSMode(const nsAttrValue* aValue) {
if (!aValue) {
return CORS_NONE;
}
return CORSMode(aValue->GetEnumValue());
}
/**
* Returns nullptr if requests for fullscreen are allowed in the current
* context. Requests are only allowed if the user initiated them (like with
* a mouse-click or key press), unless this check has been disabled by
* setting the pref "full-screen-api.allow-trusted-requests-only" to false
* or if the caller is privileged. Feature policy may also deny requests.
* If fullscreen is not allowed, a key for the error message is returned.
*/
static const char* GetFullscreenError(CallerType aCallerType,
Document* aDocument) {
MOZ_ASSERT(aDocument);
// Privileged callers can always request fullscreen
if (aCallerType == CallerType::System) {
return nullptr;
}
if (nsContentUtils::IsPDFJS(aDocument->GetPrincipal())) {
// The built-in pdf viewer can always request fullscreen
return nullptr;
}
if (const char* error = aDocument->GetFullscreenError(aCallerType)) {
return error;
}
// Bypass user interaction checks if preference is set
if (!StaticPrefs::full_screen_api_allow_trusted_requests_only()) {
return nullptr;
}
if (!aDocument->ConsumeTransientUserGestureActivation()) {
return "FullscreenDeniedNotInputDriven";
}
// Entering full-screen on mouse mouse event is only allowed with left mouse
// button
if (StaticPrefs::full_screen_api_mouse_event_allow_left_button_only() &&
(EventStateManager::sCurrentMouseBtn == MouseButton::eMiddle ||
EventStateManager::sCurrentMouseBtn == MouseButton::eSecondary)) {
return "FullscreenDeniedMouseEventOnlyLeftBtn";
}
return nullptr;
}
void Element::SetCapture(bool aRetargetToElement) {
// If there is already an active capture, ignore this request. This would
// occur if a splitter, frame resizer, etc had already captured and we don't
// want to override those.
if (!PresShell::GetCapturingContent()) {
PresShell::SetCapturingContent(
this, CaptureFlags::PreventDragStart |
(aRetargetToElement ? CaptureFlags::RetargetToElement
: CaptureFlags::None));
}
}
void Element::SetCaptureAlways(bool aRetargetToElement) {
PresShell::SetCapturingContent(
this, CaptureFlags::PreventDragStart | CaptureFlags::IgnoreAllowedState |
(aRetargetToElement ? CaptureFlags::RetargetToElement
: CaptureFlags::None));
}
void Element::ReleaseCapture() {
if (PresShell::GetCapturingContent() == this) {
PresShell::ReleaseCapturingContent();
}
}
already_AddRefed<Promise> Element::RequestFullscreen(CallerType aCallerType,
ErrorResult& aRv) {
auto request = FullscreenRequest::Create(this, aCallerType, aRv);
RefPtr<Promise> promise = request->GetPromise();
// Only grant fullscreen requests if this is called from inside a trusted
// event handler (i.e. inside an event handler for a user initiated event).
// This stops the fullscreen from being abused similar to the popups of old,
// and it also makes it harder for bad guys' script to go fullscreen and
// spoof the browser chrome/window and phish logins etc.
// Note that requests for fullscreen inside a web app's origin are exempt
// from this restriction.
if (const char* error = GetFullscreenError(aCallerType, OwnerDoc())) {
request->Reject(error);
} else {
OwnerDoc()->RequestFullscreen(std::move(request));
}
return promise.forget();
}
void Element::RequestPointerLock(CallerType aCallerType) {
PointerLockManager::RequestLock(this, aCallerType);
}
already_AddRefed<Flex> Element::GetAsFlexContainer() {
// We need the flex frame to compute additional info, and use
// that annotated version of the frame.
nsFlexContainerFrame* flexFrame =
nsFlexContainerFrame::GetFlexFrameWithComputedInfo(
GetPrimaryFrame(FlushType::Layout));
if (flexFrame) {
RefPtr<Flex> flex = new Flex(this, flexFrame);
return flex.forget();
}
return nullptr;
}
void Element::GetGridFragments(nsTArray<RefPtr<Grid>>& aResult) {
nsGridContainerFrame* frame =
nsGridContainerFrame::GetGridFrameWithComputedInfo(
GetPrimaryFrame(FlushType::Layout));
// If we get a nsGridContainerFrame from the prior call,
// all the next-in-flow frames will also be nsGridContainerFrames.
while (frame) {
// Get the existing Grid object, if it exists. This object is
// guaranteed to be up-to-date because GetGridFrameWithComputedInfo
// will delete an existing one when regenerating grid info.
Grid* gridFragment = frame->GetGridFragmentInfo();
if (!gridFragment) {
// Grid constructor will add itself as a property to frame, and
// its unlink method will remove itself if the frame still exists.
gridFragment = new Grid(this, frame);
}
aResult.AppendElement(gridFragment);
frame = static_cast<nsGridContainerFrame*>(frame->GetNextInFlow());
}
}
bool Element::HasGridFragments() {
return !!nsGridContainerFrame::GetGridFrameWithComputedInfo(
GetPrimaryFrame(FlushType::Layout));
}
already_AddRefed<DOMMatrixReadOnly> Element::GetTransformToAncestor(
Element& aAncestor) {
nsIFrame* primaryFrame = GetPrimaryFrame();
nsIFrame* ancestorFrame = aAncestor.GetPrimaryFrame();
Matrix4x4 transform;
if (primaryFrame) {
// If aAncestor is not actually an ancestor of this (including nullptr),
// then the call to GetTransformToAncestor will return the transform
// all the way up through the parent chain.
transform = nsLayoutUtils::GetTransformToAncestor(RelativeTo{primaryFrame},
RelativeTo{ancestorFrame},
nsIFrame::IN_CSS_UNITS)
.GetMatrix();
}
DOMMatrixReadOnly* matrix = new DOMMatrix(this, transform);
RefPtr<DOMMatrixReadOnly> result(matrix);
return result.forget();
}
already_AddRefed<DOMMatrixReadOnly> Element::GetTransformToParent() {
nsIFrame* primaryFrame = GetPrimaryFrame();
Matrix4x4 transform;
if (primaryFrame) {
nsIFrame* parentFrame = primaryFrame->GetParent();
transform = nsLayoutUtils::GetTransformToAncestor(RelativeTo{primaryFrame},
RelativeTo{parentFrame},
nsIFrame::IN_CSS_UNITS)
.GetMatrix();
}
DOMMatrixReadOnly* matrix = new DOMMatrix(this, transform);
RefPtr<DOMMatrixReadOnly> result(matrix);
return result.forget();
}
already_AddRefed<DOMMatrixReadOnly> Element::GetTransformToViewport() {
nsIFrame* primaryFrame = GetPrimaryFrame();
Matrix4x4 transform;
if (primaryFrame) {
transform =
nsLayoutUtils::GetTransformToAncestor(
RelativeTo{primaryFrame},
RelativeTo{nsLayoutUtils::GetDisplayRootFrame(primaryFrame)},
nsIFrame::IN_CSS_UNITS)
.GetMatrix();
}
DOMMatrixReadOnly* matrix = new DOMMatrix(this, transform);
RefPtr<DOMMatrixReadOnly> result(matrix);
return result.forget();
}
already_AddRefed<Animation> Element::Animate(
JSContext* aContext, JS::Handle<JSObject*> aKeyframes,
const UnrestrictedDoubleOrKeyframeAnimationOptions& aOptions,
ErrorResult& aError) {
nsCOMPtr<nsIGlobalObject> ownerGlobal = GetOwnerGlobal();
if (!ownerGlobal) {
aError.Throw(NS_ERROR_FAILURE);
return nullptr;
}
GlobalObject global(aContext, ownerGlobal->GetGlobalJSObject());
MOZ_ASSERT(!global.Failed());
// KeyframeEffect constructor doesn't follow the standard Xray calling
// convention and needs to be called in caller's compartment.
// This should match to RunConstructorInCallerCompartment attribute in
// KeyframeEffect.webidl.
RefPtr<KeyframeEffect> effect =
KeyframeEffect::Constructor(global, this, aKeyframes, aOptions, aError);
if (aError.Failed()) {
return nullptr;
}
// Animation constructor follows the standard Xray calling convention and
// needs to be called in the target element's realm.
JSAutoRealm ar(aContext, global.Get());
AnimationTimeline* timeline = OwnerDoc()->Timeline();
RefPtr<Animation> animation = Animation::Constructor(
global, effect, Optional<AnimationTimeline*>(timeline), aError);
if (aError.Failed()) {
return nullptr;
}
if (aOptions.IsKeyframeAnimationOptions()) {
animation->SetId(aOptions.GetAsKeyframeAnimationOptions().mId);
}
animation->Play(aError, Animation::LimitBehavior::AutoRewind);
if (aError.Failed()) {
return nullptr;
}
return animation.forget();
}
void Element::GetAnimations(const GetAnimationsOptions& aOptions,
nsTArray<RefPtr<Animation>>& aAnimations) {
if (Document* doc = GetComposedDoc()) {
// We don't need to explicitly flush throttled animations here, since
// updating the animation style of elements will never affect the set of
// running animations and it's only the set of running animations that is
// important here.
//
// NOTE: Any changes to the flags passed to the following call should
// be reflected in the flags passed in DocumentOrShadowRoot::GetAnimations
// too.
doc->FlushPendingNotifications(
ChangesToFlush(FlushType::Style, false /* flush animations */));
}
GetAnimationsWithoutFlush(aOptions, aAnimations);
}
void Element::GetAnimationsWithoutFlush(
const GetAnimationsOptions& aOptions,
nsTArray<RefPtr<Animation>>& aAnimations) {
Element* elem = this;
PseudoStyleType pseudoType = PseudoStyleType::NotPseudo;
// For animations on generated-content elements, the animations are stored
// on the parent element.
if (IsGeneratedContentContainerForBefore()) {
elem = GetParentElement();
pseudoType = PseudoStyleType::before;
} else if (IsGeneratedContentContainerForAfter()) {
elem = GetParentElement();
pseudoType = PseudoStyleType::after;
} else if (IsGeneratedContentContainerForMarker()) {
elem = GetParentElement();
pseudoType = PseudoStyleType::marker;
}
if (!elem) {
return;
}
if (!aOptions.mSubtree ||
AnimationUtils::IsSupportedPseudoForAnimations(pseudoType)) {
GetAnimationsUnsorted(elem, pseudoType, aAnimations);
} else {
for (nsIContent* node = this; node; node = node->GetNextNode(this)) {
if (!node->IsElement()) {
continue;
}
Element* element = node->AsElement();
Element::GetAnimationsUnsorted(element, PseudoStyleType::NotPseudo,
aAnimations);
Element::GetAnimationsUnsorted(element, PseudoStyleType::before,
aAnimations);
Element::GetAnimationsUnsorted(element, PseudoStyleType::after,
aAnimations);
Element::GetAnimationsUnsorted(element, PseudoStyleType::marker,
aAnimations);
}
}
aAnimations.Sort(AnimationPtrComparator<RefPtr<Animation>>());
}
/* static */
void Element::GetAnimationsUnsorted(Element* aElement,
PseudoStyleType aPseudoType,
nsTArray<RefPtr<Animation>>& aAnimations) {
MOZ_ASSERT(aPseudoType == PseudoStyleType::NotPseudo ||
AnimationUtils::IsSupportedPseudoForAnimations(aPseudoType),
"Unsupported pseudo type");
MOZ_ASSERT(aElement, "Null element");
EffectSet* effects = EffectSet::Get(aElement, aPseudoType);
if (!effects) {
return;
}
for (KeyframeEffect* effect : *effects) {
MOZ_ASSERT(effect && effect->GetAnimation(),
"Only effects associated with an animation should be "
"added to an element's effect set");
Animation* animation = effect->GetAnimation();
MOZ_ASSERT(animation->IsRelevant(),
"Only relevant animations should be added to an element's "
"effect set");
aAnimations.AppendElement(animation);
}
}
void Element::CloneAnimationsFrom(const Element& aOther) {
AnimationTimeline* const timeline = OwnerDoc()->Timeline();
MOZ_ASSERT(timeline, "Timeline has not been set on the document yet");
// Iterate through all pseudo types and copy the effects from each of the
// other element's effect sets into this element's effect set.
for (PseudoStyleType pseudoType :
{PseudoStyleType::NotPseudo, PseudoStyleType::before,
PseudoStyleType::after, PseudoStyleType::marker}) {
// If the element has an effect set for this pseudo type (or not pseudo)
// then copy the effects and animation properties.
if (auto* const effects = EffectSet::Get(&aOther, pseudoType)) {
auto* const clonedEffects = EffectSet::GetOrCreate(this, pseudoType);
for (KeyframeEffect* const effect : *effects) {
auto* animation = effect->GetAnimation();
if (animation->AsCSSTransition()) {
// Don't clone transitions, for compat with other browsers.
continue;
}
// Clone the effect.
RefPtr<KeyframeEffect> clonedEffect = new KeyframeEffect(
OwnerDoc(), OwningAnimationTarget{this, pseudoType}, *effect);
// Clone the animation
RefPtr<Animation> clonedAnimation = Animation::ClonePausedAnimation(
OwnerDoc()->GetParentObject(), *animation, *clonedEffect,
*timeline);
if (!clonedAnimation) {
continue;
}
clonedEffects->AddEffect(*clonedEffect);
}
}
}
}
void Element::GetInnerHTML(nsAString& aInnerHTML, OOMReporter& aError) {
GetMarkup(false, aInnerHTML);
}
void Element::SetInnerHTML(const nsAString& aInnerHTML,
nsIPrincipal* aSubjectPrincipal,
ErrorResult& aError) {
SetInnerHTMLInternal(aInnerHTML, aError);
}
void Element::GetOuterHTML(nsAString& aOuterHTML) {
GetMarkup(true, aOuterHTML);
}
void Element::SetOuterHTML(const nsAString& aOuterHTML, ErrorResult& aError) {
nsCOMPtr<nsINode> parent = GetParentNode();
if (!parent) {
return;
}
if (parent->NodeType() == DOCUMENT_NODE) {
aError.Throw(NS_ERROR_DOM_NO_MODIFICATION_ALLOWED_ERR);
return;
}
if (OwnerDoc()->IsHTMLDocument()) {
nsAtom* localName;
int32_t namespaceID;
if (parent->IsElement()) {
localName = parent->NodeInfo()->NameAtom();
namespaceID = parent->NodeInfo()->NamespaceID();
} else {
NS_ASSERTION(
parent->NodeType() == DOCUMENT_FRAGMENT_NODE,
"How come the parent isn't a document, a fragment or an element?");
localName = nsGkAtoms::body;
namespaceID = kNameSpaceID_XHTML;
}
RefPtr<DocumentFragment> fragment = new (OwnerDoc()->NodeInfoManager())
DocumentFragment(OwnerDoc()->NodeInfoManager());
nsContentUtils::ParseFragmentHTML(
aOuterHTML, fragment, localName, namespaceID,
OwnerDoc()->GetCompatibilityMode() == eCompatibility_NavQuirks, true);
parent->ReplaceChild(*fragment, *this, aError);
return;
}
nsCOMPtr<nsINode> context;
if (parent->IsElement()) {
context = parent;
} else {
NS_ASSERTION(
parent->NodeType() == DOCUMENT_FRAGMENT_NODE,
"How come the parent isn't a document, a fragment or an element?");
RefPtr<mozilla::dom::NodeInfo> info =
OwnerDoc()->NodeInfoManager()->GetNodeInfo(
nsGkAtoms::body, nullptr, kNameSpaceID_XHTML, ELEMENT_NODE);
context = NS_NewHTMLBodyElement(info.forget(), FROM_PARSER_FRAGMENT);
}
RefPtr<DocumentFragment> fragment = nsContentUtils::CreateContextualFragment(
context, aOuterHTML, true, aError);
if (aError.Failed()) {
return;
}
parent->ReplaceChild(*fragment, *this, aError);
}
enum nsAdjacentPosition { eBeforeBegin, eAfterBegin, eBeforeEnd, eAfterEnd };
void Element::InsertAdjacentHTML(const nsAString& aPosition,
const nsAString& aText, ErrorResult& aError) {
nsAdjacentPosition position;
if (aPosition.LowerCaseEqualsLiteral("beforebegin")) {
position = eBeforeBegin;
} else if (aPosition.LowerCaseEqualsLiteral("afterbegin")) {
position = eAfterBegin;
} else if (aPosition.LowerCaseEqualsLiteral("beforeend")) {
position = eBeforeEnd;
} else if (aPosition.LowerCaseEqualsLiteral("afterend")) {
position = eAfterEnd;
} else {
aError.Throw(NS_ERROR_DOM_SYNTAX_ERR);
return;
}
nsCOMPtr<nsIContent> destination;
if (position == eBeforeBegin || position == eAfterEnd) {
destination = GetParent();
if (!destination) {
aError.Throw(NS_ERROR_DOM_NO_MODIFICATION_ALLOWED_ERR);
return;
}
} else {
destination = this;
}
// mozAutoDocUpdate keeps the owner document alive. Therefore, using a raw
// pointer here is safe.
Document* const doc = OwnerDoc();
// Needed when insertAdjacentHTML is used in combination with contenteditable
mozAutoDocUpdate updateBatch(doc, true);
nsAutoScriptLoaderDisabler sld(doc);
// Batch possible DOMSubtreeModified events.
mozAutoSubtreeModified subtree(doc, nullptr);
// Parse directly into destination if possible
if (doc->IsHTMLDocument() && !OwnerDoc()->MayHaveDOMMutationObservers() &&
(position == eBeforeEnd || (position == eAfterEnd && !GetNextSibling()) ||
(position == eAfterBegin && !GetFirstChild()))) {
int32_t oldChildCount = destination->GetChildCount();
int32_t contextNs = destination->GetNameSpaceID();
nsAtom* contextLocal = destination->NodeInfo()->NameAtom();
if (contextLocal == nsGkAtoms::html && contextNs == kNameSpaceID_XHTML) {
// For compat with IE6 through IE9. Willful violation of HTML5 as of
// 2011-04-06. CreateContextualFragment does the same already.
// Spec bug: http://www.w3.org/Bugs/Public/show_bug.cgi?id=12434
contextLocal = nsGkAtoms::body;
}
aError = nsContentUtils::ParseFragmentHTML(
aText, destination, contextLocal, contextNs,
doc->GetCompatibilityMode() == eCompatibility_NavQuirks, true);
// HTML5 parser has notified, but not fired mutation events.
nsContentUtils::FireMutationEventsForDirectParsing(doc, destination,
oldChildCount);
return;
}
// couldn't parse directly
RefPtr<DocumentFragment> fragment = nsContentUtils::CreateContextualFragment(
destination, aText, true, aError);
if (aError.Failed()) {
return;
}
// Suppress assertion about node removal mutation events that can't have
// listeners anyway, because no one has had the chance to register mutation
// listeners on the fragment that comes from the parser.
nsAutoScriptBlockerSuppressNodeRemoved scriptBlocker;
switch (position) {
case eBeforeBegin:
destination->InsertBefore(*fragment, this, aError);
break;
case eAfterBegin:
static_cast<nsINode*>(this)->InsertBefore(*fragment, GetFirstChild(),
aError);
break;
case eBeforeEnd:
static_cast<nsINode*>(this)->AppendChild(*fragment, aError);
break;
case eAfterEnd:
destination->InsertBefore(*fragment, GetNextSibling(), aError);
break;
}
}
nsINode* Element::InsertAdjacent(const nsAString& aWhere, nsINode* aNode,
ErrorResult& aError) {
if (aWhere.LowerCaseEqualsLiteral("beforebegin")) {
nsCOMPtr<nsINode> parent = GetParentNode();
if (!parent) {
return nullptr;
}
parent->InsertBefore(*aNode, this, aError);
} else if (aWhere.LowerCaseEqualsLiteral("afterbegin")) {
nsCOMPtr<nsINode> refNode = GetFirstChild();
static_cast<nsINode*>(this)->InsertBefore(*aNode, refNode, aError);
} else if (aWhere.LowerCaseEqualsLiteral("beforeend")) {
static_cast<nsINode*>(this)->AppendChild(*aNode, aError);
} else if (aWhere.LowerCaseEqualsLiteral("afterend")) {
nsCOMPtr<nsINode> parent = GetParentNode();
if (!parent) {
return nullptr;
}
nsCOMPtr<nsINode> refNode = GetNextSibling();
parent->InsertBefore(*aNode, refNode, aError);
} else {
aError.Throw(NS_ERROR_DOM_SYNTAX_ERR);
return nullptr;
}
return aError.Failed() ? nullptr : aNode;
}
Element* Element::InsertAdjacentElement(const nsAString& aWhere,
Element& aElement,
ErrorResult& aError) {
nsINode* newNode = InsertAdjacent(aWhere, &aElement, aError);
MOZ_ASSERT(!newNode || newNode->IsElement());
return newNode ? newNode->AsElement() : nullptr;
}
void Element::InsertAdjacentText(const nsAString& aWhere,
const nsAString& aData, ErrorResult& aError) {
RefPtr<nsTextNode> textNode = OwnerDoc()->CreateTextNode(aData);
InsertAdjacent(aWhere, textNode, aError);
}
TextEditor* Element::GetTextEditorInternal() {
TextControlElement* textControlElement = TextControlElement::FromNode(this);
return textControlElement ? MOZ_KnownLive(textControlElement)->GetTextEditor()
: nullptr;
}
nsresult Element::SetBoolAttr(nsAtom* aAttr, bool aValue) {
if (aValue) {
return SetAttr(kNameSpaceID_None, aAttr, u""_ns, true);
}
return UnsetAttr(kNameSpaceID_None, aAttr, true);
}
void Element::GetEnumAttr(nsAtom* aAttr, const char* aDefault,
nsAString& aResult) const {
GetEnumAttr(aAttr, aDefault, aDefault, aResult);
}
void Element::GetEnumAttr(nsAtom* aAttr, const char* aDefaultMissing,
const char* aDefaultInvalid,
nsAString& aResult) const {
const nsAttrValue* attrVal = mAttrs.GetAttr(aAttr);
aResult.Truncate();
if (!attrVal) {
if (aDefaultMissing) {
AppendASCIItoUTF16(nsDependentCString(aDefaultMissing), aResult);
} else {
SetDOMStringToNull(aResult);
}
} else {
if (attrVal->Type() == nsAttrValue::eEnum) {
attrVal->GetEnumString(aResult, true);
} else if (aDefaultInvalid) {
AppendASCIItoUTF16(nsDependentCString(aDefaultInvalid), aResult);
}
}
}
void Element::SetOrRemoveNullableStringAttr(nsAtom* aName,
const nsAString& aValue,
ErrorResult& aError) {
if (DOMStringIsNull(aValue)) {
UnsetAttr(aName, aError);
} else {
SetAttr(aName, aValue, aError);
}
}
Directionality Element::GetComputedDirectionality() const {
if (nsIFrame* frame = GetPrimaryFrame()) {
return frame->StyleVisibility()->mDirection == StyleDirection::Ltr
? Directionality::Ltr
: Directionality::Rtl;
}
return GetDirectionality();
}
float Element::FontSizeInflation() {
nsIFrame* frame = GetPrimaryFrame();
if (!frame) {
return -1.0;
}
if (nsLayoutUtils::FontSizeInflationEnabled(frame->PresContext())) {
return nsLayoutUtils::FontSizeInflationFor(frame);
}
return 1.0;
}
void Element::GetImplementedPseudoElement(nsAString& aPseudo) const {
PseudoStyleType pseudoType = GetPseudoElementType();
if (pseudoType == PseudoStyleType::NotPseudo) {
return SetDOMStringToNull(aPseudo);
}
nsDependentAtomString pseudo(nsCSSPseudoElements::GetPseudoAtom(pseudoType));
// We want to use the modern syntax (::placeholder, etc), but the atoms only
// contain one semi-colon.
MOZ_ASSERT(pseudo.Length() > 2 && pseudo[0] == ':' && pseudo[1] != ':');
aPseudo.Truncate();
aPseudo.SetCapacity(pseudo.Length() + 1);
aPseudo.Append(':');
aPseudo.Append(pseudo);
}
ReferrerPolicy Element::GetReferrerPolicyAsEnum() const {
if (IsHTMLElement()) {
return ReferrerPolicyFromAttr(GetParsedAttr(nsGkAtoms::referrerpolicy));
}
return ReferrerPolicy::_empty;
}
ReferrerPolicy Element::ReferrerPolicyFromAttr(
const nsAttrValue* aValue) const {
if (aValue && aValue->Type() == nsAttrValue::eEnum) {
return ReferrerPolicy(aValue->GetEnumValue());
}
return ReferrerPolicy::_empty;
}
already_AddRefed<nsDOMStringMap> Element::Dataset() {
nsDOMSlots* slots = DOMSlots();
if (!slots->mDataset) {
// mDataset is a weak reference so assignment will not AddRef.
// AddRef is called before returning the pointer.
slots->mDataset = new nsDOMStringMap(this);
}
RefPtr<nsDOMStringMap> ret = slots->mDataset;
return ret.forget();
}
void Element::ClearDataset() {
nsDOMSlots* slots = GetExistingDOMSlots();
MOZ_ASSERT(slots && slots->mDataset,
"Slots should exist and dataset should not be null.");
slots->mDataset = nullptr;
}
enum nsPreviousIntersectionThreshold {
eUninitialized = -2,
eNonIntersecting = -1
};
static void IntersectionObserverPropertyDtor(void* aObject,
nsAtom* aPropertyName,
void* aPropertyValue,
void* aData) {
auto* element = static_cast<Element*>(aObject);
auto* observers = static_cast<IntersectionObserverList*>(aPropertyValue);
for (DOMIntersectionObserver* observer : observers->Keys()) {
observer->UnlinkTarget(*element);
}
delete observers;
}
void Element::RegisterIntersectionObserver(DOMIntersectionObserver* aObserver) {
IntersectionObserverList* observers = static_cast<IntersectionObserverList*>(
GetProperty(nsGkAtoms::intersectionobserverlist));
if (!observers) {
observers = new IntersectionObserverList();
observers->InsertOrUpdate(aObserver, eUninitialized);
SetProperty(nsGkAtoms::intersectionobserverlist, observers,
IntersectionObserverPropertyDtor, /* aTransfer = */ true);
return;
}
// Value can be:
// -2: Makes sure next calculated threshold always differs, leading to a
// notification task being scheduled.
// -1: Non-intersecting.
// >= 0: Intersecting, valid index of aObserver->mThresholds.
observers->LookupOrInsert(aObserver, eUninitialized);
}
void Element::UnregisterIntersectionObserver(
DOMIntersectionObserver* aObserver) {
auto* observers = static_cast<IntersectionObserverList*>(
GetProperty(nsGkAtoms::intersectionobserverlist));
if (observers) {
observers->Remove(aObserver);
if (observers->IsEmpty()) {
RemoveProperty(nsGkAtoms::intersectionobserverlist);
}
}
}
void Element::UnlinkIntersectionObservers() {
// IntersectionObserverPropertyDtor takes care of the hard work.
RemoveProperty(nsGkAtoms::intersectionobserverlist);
}
bool Element::UpdateIntersectionObservation(DOMIntersectionObserver* aObserver,
int32_t aThreshold) {
auto* observers = static_cast<IntersectionObserverList*>(
GetProperty(nsGkAtoms::intersectionobserverlist));
if (!observers) {
return false;
}
bool updated = false;
if (auto entry = observers->Lookup(aObserver)) {
updated = entry.Data() != aThreshold;
entry.Data() = aThreshold;
}
return updated;
}
template <class T>
void Element::GetCustomInterface(nsGetterAddRefs<T> aResult) {
nsCOMPtr<nsISupports> iface = CustomElementRegistry::CallGetCustomInterface(
this, NS_GET_TEMPLATE_IID(T));
if (iface) {
if (NS_SUCCEEDED(CallQueryInterface(iface, static_cast<T**>(aResult)))) {
return;
}
}
}
void Element::ClearServoData(Document* aDoc) {
MOZ_ASSERT(aDoc);
if (HasServoData()) {
Servo_Element_ClearData(this);
} else {
UnsetFlags(kAllServoDescendantBits | NODE_NEEDS_FRAME);
}
// Since this element is losing its servo data, nothing under it may have
// servo data either, so we can forget restyles rooted at this element. This
// is necessary for correctness, since we invoke ClearServoData in various
// places where an element's flattened tree parent changes, and such a change
// may also make an element invalid to be used as a restyle root.
if (aDoc->GetServoRestyleRoot() == this) {
aDoc->ClearServoRestyleRoot();
}
}
bool Element::IsAutoPopover() const {
const auto* htmlElement = nsGenericHTMLElement::FromNode(this);
return htmlElement &&
htmlElement->GetPopoverAttributeState() == PopoverAttributeState::Auto;
}
bool Element::IsPopoverOpen() const {
const auto* htmlElement = nsGenericHTMLElement::FromNode(this);
return htmlElement && htmlElement->PopoverOpen();
}
Element* Element::GetTopmostPopoverAncestor(const Element* aInvoker,
bool isPopover) const {
const Element* newPopover = this;
nsTHashMap<nsPtrHashKey<const Element>, size_t> popoverPositions;
size_t index = 0;
for (Element* popover : OwnerDoc()->AutoPopoverList()) {
popoverPositions.LookupOrInsert(popover, index++);
}
if (isPopover) {
popoverPositions.LookupOrInsert(newPopover, index);
}
Element* topmostPopoverAncestor = nullptr;
auto checkAncestor = [&](const Element* candidate) {
if (!candidate) {
return;
}
Element* candidateAncestor = candidate->GetNearestInclusiveOpenPopover();
if (!candidateAncestor) {
return;
}
size_t candidatePosition;
if (popoverPositions.Get(candidateAncestor, &candidatePosition)) {
size_t topmostPosition;
if (!topmostPopoverAncestor ||
(popoverPositions.Get(topmostPopoverAncestor, &topmostPosition) &&
topmostPosition < candidatePosition)) {
topmostPopoverAncestor = candidateAncestor;
}
}
};
checkAncestor(newPopover->GetFlattenedTreeParentElement());
checkAncestor(aInvoker);
return topmostPopoverAncestor;
}
ElementAnimationData& Element::CreateAnimationData() {
MOZ_ASSERT(!GetAnimationData());
SetMayHaveAnimations();
auto* slots = ExtendedDOMSlots();
slots->mAnimations = MakeUnique<ElementAnimationData>();
return *slots->mAnimations;
}
PopoverData& Element::CreatePopoverData() {
MOZ_ASSERT(!GetPopoverData());
auto* slots = ExtendedDOMSlots();
slots->mPopoverData = MakeUnique<PopoverData>();
return *slots->mPopoverData;
}
void Element::ClearPopoverData() {
nsExtendedDOMSlots* slots = GetExistingExtendedDOMSlots();
if (slots) {
slots->mPopoverData = nullptr;
}
}
void Element::SetCustomElementData(UniquePtr<CustomElementData> aData) {
SetHasCustomElementData();
if (aData->mState != CustomElementData::State::eCustom) {
SetDefined(false);
}
nsExtendedDOMSlots* slots = ExtendedDOMSlots();
MOZ_ASSERT(!slots->mCustomElementData,
"Custom element data may not be changed once set.");
#if DEBUG
// We assert only XUL usage, since web may pass whatever as 'is' value
if (NodeInfo()->NamespaceID() == kNameSpaceID_XUL) {
nsAtom* name = NodeInfo()->NameAtom();
nsAtom* type = aData->GetCustomElementType();
// Check to see if the tag name is a dashed name.
if (nsContentUtils::IsNameWithDash(name)) {
// Assert that a tag name with dashes is always an autonomous custom
// element.
MOZ_ASSERT(type == name);
} else {
// Could still be an autonomous custom element with a non-dashed tag name.
// Need the check below for sure.
if (type != name) {
// Assert that the name of the built-in custom element type is always
// a dashed name.
MOZ_ASSERT(nsContentUtils::IsNameWithDash(type));
}
}
}
#endif
slots->mCustomElementData = std::move(aData);
}
nsTArray<RefPtr<nsAtom>>& Element::EnsureCustomStates() {
MOZ_ASSERT(IsHTMLElement());
nsExtendedDOMSlots* slots = ExtendedDOMSlots();
return slots->mCustomStates;
}
CustomElementDefinition* Element::GetCustomElementDefinition() const {
CustomElementData* data = GetCustomElementData();
if (!data) {
return nullptr;
}
return data->GetCustomElementDefinition();
}
void Element::SetCustomElementDefinition(CustomElementDefinition* aDefinition) {
CustomElementData* data = GetCustomElementData();
MOZ_ASSERT(data);
data->SetCustomElementDefinition(aDefinition);
}
already_AddRefed<nsIDOMXULButtonElement> Element::AsXULButton() {
nsCOMPtr<nsIDOMXULButtonElement> value;
GetCustomInterface(getter_AddRefs(value));
return value.forget();
}
already_AddRefed<nsIDOMXULContainerElement> Element::AsXULContainer() {
nsCOMPtr<nsIDOMXULContainerElement> value;
GetCustomInterface(getter_AddRefs(value));
return value.forget();
}
already_AddRefed<nsIDOMXULContainerItemElement> Element::AsXULContainerItem() {
nsCOMPtr<nsIDOMXULContainerItemElement> value;
GetCustomInterface(getter_AddRefs(value));
return value.forget();
}
already_AddRefed<nsIDOMXULControlElement> Element::AsXULControl() {
nsCOMPtr<nsIDOMXULControlElement> value;
GetCustomInterface(getter_AddRefs(value));
return value.forget();
}
already_AddRefed<nsIDOMXULMenuListElement> Element::AsXULMenuList() {
nsCOMPtr<nsIDOMXULMenuListElement> value;
GetCustomInterface(getter_AddRefs(value));
return value.forget();
}
already_AddRefed<nsIDOMXULMultiSelectControlElement>
Element::AsXULMultiSelectControl() {
nsCOMPtr<nsIDOMXULMultiSelectControlElement> value;
GetCustomInterface(getter_AddRefs(value));
return value.forget();
}
already_AddRefed<nsIDOMXULRadioGroupElement> Element::AsXULRadioGroup() {
nsCOMPtr<nsIDOMXULRadioGroupElement> value;
GetCustomInterface(getter_AddRefs(value));
return value.forget();
}
already_AddRefed<nsIDOMXULRelatedElement> Element::AsXULRelated() {
nsCOMPtr<nsIDOMXULRelatedElement> value;
GetCustomInterface(getter_AddRefs(value));
return value.forget();
}
already_AddRefed<nsIDOMXULSelectControlElement> Element::AsXULSelectControl() {
nsCOMPtr<nsIDOMXULSelectControlElement> value;
GetCustomInterface(getter_AddRefs(value));
return value.forget();
}
already_AddRefed<nsIDOMXULSelectControlItemElement>
Element::AsXULSelectControlItem() {
nsCOMPtr<nsIDOMXULSelectControlItemElement> value;
GetCustomInterface(getter_AddRefs(value));
return value.forget();
}
already_AddRefed<nsIBrowser> Element::AsBrowser() {
nsCOMPtr<nsIBrowser> value;
GetCustomInterface(getter_AddRefs(value));
return value.forget();
}
already_AddRefed<nsIAutoCompletePopup> Element::AsAutoCompletePopup() {
nsCOMPtr<nsIAutoCompletePopup> value;
GetCustomInterface(getter_AddRefs(value));
return value.forget();
}
nsPresContext* Element::GetPresContext(PresContextFor aFor) {
// Get the document
Document* doc =
(aFor == eForComposedDoc) ? GetComposedDoc() : GetUncomposedDoc();
if (doc) {
return doc->GetPresContext();
}
return nullptr;
}
MOZ_DEFINE_MALLOC_SIZE_OF(ServoElementMallocSizeOf)
MOZ_DEFINE_MALLOC_ENCLOSING_SIZE_OF(ServoElementMallocEnclosingSizeOf)
void Element::AddSizeOfExcludingThis(nsWindowSizes& aSizes,
size_t* aNodeSize) const {
FragmentOrElement::AddSizeOfExcludingThis(aSizes, aNodeSize);
*aNodeSize += mAttrs.SizeOfExcludingThis(aSizes.mState.mMallocSizeOf);
if (HasServoData()) {
// Measure the ElementData object itself.
aSizes.mLayoutElementDataObjects +=
aSizes.mState.mMallocSizeOf(mServoData.Get());
// Measure mServoData, excluding the ComputedValues. This measurement
// counts towards the element's size. We use ServoElementMallocSizeOf and
// ServoElementMallocEnclosingSizeOf rather than |aState.mMallocSizeOf| to
// better distinguish in DMD's output the memory measured within Servo
// code.
*aNodeSize += Servo_Element_SizeOfExcludingThisAndCVs(
ServoElementMallocSizeOf, ServoElementMallocEnclosingSizeOf,
&aSizes.mState.mSeenPtrs, this);
// Now measure just the ComputedValues (and style structs) under
// mServoData. This counts towards the relevant fields in |aSizes|.
if (auto* style = Servo_Element_GetMaybeOutOfDateStyle(this)) {
if (!aSizes.mState.HaveSeenPtr(style)) {
style->AddSizeOfIncludingThis(aSizes, &aSizes.mLayoutComputedValuesDom);
}
for (size_t i = 0; i < PseudoStyle::kEagerPseudoCount; i++) {
if (auto* style = Servo_Element_GetMaybeOutOfDatePseudoStyle(this, i)) {
if (!aSizes.mState.HaveSeenPtr(style)) {
style->AddSizeOfIncludingThis(aSizes,
&aSizes.mLayoutComputedValuesDom);
}
}
}
}
}
}
#ifdef DEBUG
static bool BitsArePropagated(const Element* aElement, uint32_t aBits,
nsINode* aRestyleRoot) {
const Element* curr = aElement;
while (curr) {
if (curr == aRestyleRoot) {
return true;
}
if (!curr->HasAllFlags(aBits)) {
return false;
}
nsINode* parentNode = curr->GetParentNode();
curr = curr->GetFlattenedTreeParentElementForStyle();
MOZ_ASSERT_IF(!curr,
parentNode == aElement->OwnerDoc() ||
parentNode == parentNode->OwnerDoc()->GetRootElement());
}
return true;
}
#endif
static inline void AssertNoBitsPropagatedFrom(nsINode* aRoot) {
#ifdef DEBUG
if (!aRoot || !aRoot->IsElement()) {
return;
}
auto* element = aRoot->GetFlattenedTreeParentElementForStyle();
while (element) {
MOZ_ASSERT(!element->HasAnyOfFlags(Element::kAllServoDescendantBits));
element = element->GetFlattenedTreeParentElementForStyle();
}
#endif
}
// Sets `aBits` on `aElement` and all of its flattened-tree ancestors up to and
// including aStopAt or the root element (whichever is encountered first), and
// as long as `aBitsToStopAt` isn't found anywhere in the chain.
static inline Element* PropagateBits(Element* aElement, uint32_t aBits,
nsINode* aStopAt, uint32_t aBitsToStopAt) {
Element* curr = aElement;
while (curr && !curr->HasAllFlags(aBitsToStopAt)) {
curr->SetFlags(aBits);
if (curr == aStopAt) {
break;
}
curr = curr->GetFlattenedTreeParentElementForStyle();
}
if (aBitsToStopAt != aBits && curr) {
curr->SetFlags(aBits);
}
return curr;
}
// Notes that a given element is "dirty" with respect to the given descendants
// bit (which may be one of dirty descendants, dirty animation descendants, or
// need frame construction for descendants).
//
// This function operates on the dirty element itself, despite the fact that the
// bits are generally used to describe descendants. This allows restyle roots
// to be scoped as tightly as possible. On the first call to NoteDirtyElement
// since the last restyle, we don't set any descendant bits at all, and just set
// the element as the restyle root.
//
// Because the style traversal handles multiple tasks (styling,
// animation-ticking, and lazy frame construction), there are potentially three
// separate kinds of dirtiness to track. Rather than maintaining three separate
// restyle roots, we use a single root, and always bubble it up to be the
// nearest common ancestor of all the dirty content in the tree. This means that
// we need to track the types of dirtiness that the restyle root corresponds to,
// so SetServoRestyleRoot accepts a bitfield along with an element.
//
// The overall algorithm is as follows:
// * When the first dirty element is noted, we just set as the restyle root.
// * When additional dirty elements are noted, we propagate the given bit up
// the tree, until we either reach the restyle root or the document root.
// * If we reach the document root, we then propagate the bits associated with
// the restyle root up the tree until we cross the path of the new root. Once
// we find this common ancestor, we record it as the restyle root, and then
// clear the bits between the new restyle root and the document root.
// * If we have dirty content beneath multiple "document style traversal roots"
// (which are the main DOM + each piece of document-level native-anoymous
// content), we set the restyle root to the nsINode of the document itself.
// This is the bail-out case where we traverse everything.
//
// Note that, since we track a root, we try to optimize the case where an
// element under the current root is dirtied, that's why we don't trivially use
// `nsContentUtils::GetCommonFlattenedTreeAncestorForStyle`.
static void NoteDirtyElement(Element* aElement, uint32_t aBits) {
MOZ_ASSERT(aElement->IsInComposedDoc());
// Check the existing root early on, since it may allow us to short-circuit
// before examining the parent chain.
Document* doc = aElement->GetComposedDoc();
nsINode* existingRoot = doc->GetServoRestyleRoot();
if (existingRoot == aElement) {
doc->SetServoRestyleRootDirtyBits(doc->GetServoRestyleRootDirtyBits() |
aBits);
return;
}
nsINode* parent = aElement->GetFlattenedTreeParentNodeForStyle();
if (!parent) {
// The element is not in the flattened tree, bail.
return;
}
if (MOZ_LIKELY(parent->IsElement())) {
// If our parent is unstyled, we can inductively assume that it will be
// traversed when the time is right, and that the traversal will reach us
// when it happens. Nothing left to do.
if (!parent->AsElement()->HasServoData()) {
return;
}
// Similarly, if our parent already has the bit we're propagating, we can
// assume everything is already set up.
if (parent->HasAllFlags(aBits)) {
return;
}
// If the parent is styled but is display:none, we're done.
//
// We can't check for a frame here, since <frame> elements inside <frameset>
// still need to generate a frame, even if they're display: none. :(
//
// The servo traversal doesn't keep style data under display: none subtrees,
// so in order for it to not need to cleanup each time anything happens in a
// display: none subtree, we keep it clean.
//
// Also, we can't be much more smarter about using the parent's frame in
// order to avoid work here, because since the style system keeps style data
// in, e.g., subtrees under a leaf frame, missing restyles and such in there
// has observable behavior via getComputedStyle, for example.
if (Servo_Element_IsDisplayNone(parent->AsElement())) {
return;
}
}
if (PresShell* presShell = doc->GetPresShell()) {
presShell->EnsureStyleFlush();
}
MOZ_ASSERT(parent->IsElement() || parent == doc);
// The bit checks below rely on this to arrive to useful conclusions about the
// shape of the tree.
AssertNoBitsPropagatedFrom(existingRoot);
// If there's no existing restyle root, or if the root is already aElement,
// just note the root+bits and return.
if (!existingRoot) {
doc->SetServoRestyleRoot(aElement, aBits);
return;
}
// There is an existing restyle root - walk up the tree from our element,
// propagating bits as we go.
const bool reachedDocRoot =
!parent->IsElement() ||
!PropagateBits(parent->AsElement(), aBits, existingRoot, aBits);
uint32_t existingBits = doc->GetServoRestyleRootDirtyBits();
if (!reachedDocRoot || existingRoot == doc) {
// We're a descendant of the existing root. All that's left to do is to
// make sure the bit we propagated is also registered on the root.
doc->SetServoRestyleRoot(existingRoot, existingBits | aBits);
} else {
// We reached the root without crossing the pre-existing restyle root. We
// now need to find the nearest common ancestor, so climb up from the
// existing root, extending bits along the way.
Element* rootParent = existingRoot->GetFlattenedTreeParentElementForStyle();
// We can stop at the first occurrence of `aBits` in order to find the
// common ancestor.
if (Element* commonAncestor =
PropagateBits(rootParent, existingBits, aElement, aBits)) {
MOZ_ASSERT(commonAncestor == aElement ||
commonAncestor ==
nsContentUtils::GetCommonFlattenedTreeAncestorForStyle(
aElement, rootParent));
// We found a common ancestor. Make that the new style root, and clear the
// bits between the new style root and the document root.
doc->SetServoRestyleRoot(commonAncestor, existingBits | aBits);
Element* curr = commonAncestor;
while ((curr = curr->GetFlattenedTreeParentElementForStyle())) {
MOZ_ASSERT(curr->HasAllFlags(aBits));
curr->UnsetFlags(aBits);
}
AssertNoBitsPropagatedFrom(commonAncestor);
} else {
// We didn't find a common ancestor element. That means we're descended
// from two different document style roots, so the common ancestor is the
// document.
doc->SetServoRestyleRoot(doc, existingBits | aBits);
}
}
// See the comment in Document::SetServoRestyleRoot about the !IsElement()
// check there. Same justification here.
MOZ_ASSERT(aElement == doc->GetServoRestyleRoot() ||
!doc->GetServoRestyleRoot()->IsElement() ||
nsContentUtils::ContentIsFlattenedTreeDescendantOfForStyle(
aElement, doc->GetServoRestyleRoot()));
MOZ_ASSERT(aElement == doc->GetServoRestyleRoot() ||
!doc->GetServoRestyleRoot()->IsElement() || !parent->IsElement() ||
BitsArePropagated(parent->AsElement(), aBits,
doc->GetServoRestyleRoot()));
MOZ_ASSERT(doc->GetServoRestyleRootDirtyBits() & aBits);
}
void Element::NoteDirtySubtreeForServo() {
MOZ_ASSERT(IsInComposedDoc());
MOZ_ASSERT(HasServoData());
Document* doc = GetComposedDoc();
nsINode* existingRoot = doc->GetServoRestyleRoot();
uint32_t existingBits =
existingRoot ? doc->GetServoRestyleRootDirtyBits() : 0;
if (existingRoot && existingRoot->IsElement() && existingRoot != this &&
nsContentUtils::ContentIsFlattenedTreeDescendantOfForStyle(
existingRoot->AsElement(), this)) {
PropagateBits(
existingRoot->AsElement()->GetFlattenedTreeParentElementForStyle(),
existingBits, this, existingBits);
doc->ClearServoRestyleRoot();
}
NoteDirtyElement(this,
existingBits | ELEMENT_HAS_DIRTY_DESCENDANTS_FOR_SERVO);
}
void Element::NoteDirtyForServo() {
NoteDirtyElement(this, ELEMENT_HAS_DIRTY_DESCENDANTS_FOR_SERVO);
}
void Element::NoteAnimationOnlyDirtyForServo() {
NoteDirtyElement(this,
ELEMENT_HAS_ANIMATION_ONLY_DIRTY_DESCENDANTS_FOR_SERVO);
}
void Element::NoteDescendantsNeedFramesForServo() {
// Since lazy frame construction can be required for non-element nodes, this
// Note() method operates on the parent of the frame-requiring content, unlike
// the other Note() methods above (which operate directly on the element that
// needs processing).
NoteDirtyElement(this, NODE_DESCENDANTS_NEED_FRAMES);
SetFlags(NODE_DESCENDANTS_NEED_FRAMES);
}
double Element::FirstLineBoxBSize() const {
const nsBlockFrame* frame = do_QueryFrame(GetPrimaryFrame());
if (!frame) {
return 0.0;
}
nsBlockFrame::ConstLineIterator line = frame->LinesBegin();
nsBlockFrame::ConstLineIterator lineEnd = frame->LinesEnd();
return line != lineEnd
? nsPresContext::AppUnitsToDoubleCSSPixels(line->BSize())
: 0.0;
}
// static
nsAtom* Element::GetEventNameForAttr(nsAtom* aAttr) {
if (aAttr == nsGkAtoms::onwebkitanimationend) {
return nsGkAtoms::onwebkitAnimationEnd;
}
if (aAttr == nsGkAtoms::onwebkitanimationiteration) {
return nsGkAtoms::onwebkitAnimationIteration;
}
if (aAttr == nsGkAtoms::onwebkitanimationstart) {
return nsGkAtoms::onwebkitAnimationStart;
}
if (aAttr == nsGkAtoms::onwebkittransitionend) {
return nsGkAtoms::onwebkitTransitionEnd;
}
return aAttr;
}
void Element::RegUnRegAccessKey(bool aDoReg) {
// first check to see if we have an access key
nsAutoString accessKey;
GetAttr(nsGkAtoms::accesskey, accessKey);
if (accessKey.IsEmpty()) {
return;
}
// We have an access key, so get the ESM from the pres context.
if (nsPresContext* presContext = GetPresContext(eForComposedDoc)) {
EventStateManager* esm = presContext->EventStateManager();
// Register or unregister as appropriate.
if (aDoReg) {
esm->RegisterAccessKey(this, (uint32_t)accessKey.First());
} else {
esm->UnregisterAccessKey(this, (uint32_t)accessKey.First());
}
}
}
void Element::SetHTML(const nsAString& aInnerHTML,
const SetHTMLOptions& aOptions, ErrorResult& aError) {
// Throw for disallowed elements
if (IsHTMLElement(nsGkAtoms::script)) {
aError.ThrowTypeError("This does not work on <script> elements");
return;
}
if (IsHTMLElement(nsGkAtoms::object)) {
aError.ThrowTypeError("This does not work on <object> elements");
return;
}
if (IsHTMLElement(nsGkAtoms::iframe)) {
aError.ThrowTypeError("This does not work on <iframe> elements");
return;
}
// Keep "this" alive should be guaranteed by the caller, and also the content
// of a template element (if this is one) should never been released from this
// during this call. Therefore, using raw pointer here is safe.
FragmentOrElement* target = this;
// Handle template case.
if (target->IsTemplateElement()) {
DocumentFragment* frag =
static_cast<HTMLTemplateElement*>(target)->Content();
MOZ_ASSERT(frag);
target = frag;
}
// TODO: Avoid parsing and implement a fast-path for non-markup input,
// Filed as bug 1731215.
// mozAutoSubtreeModified keeps the owner document alive. Therefore, using a
// raw pointer here is safe.
Document* const doc = target->OwnerDoc();
// Batch possible DOMSubtreeModified events.
mozAutoSubtreeModified subtree(doc, nullptr);
target->FireNodeRemovedForChildren();
// Needed when innerHTML is used in combination with contenteditable
mozAutoDocUpdate updateBatch(doc, true);
// Remove childnodes.
nsAutoMutationBatch mb(target, true, false);
while (target->HasChildren()) {
target->RemoveChildNode(target->GetFirstChild(), true);
}
mb.RemovalDone();
nsAutoScriptLoaderDisabler sld(doc);
FragmentOrElement* parseContext = this;
if (ShadowRoot* shadowRoot = ShadowRoot::FromNode(parseContext)) {
// Fix up the context to be the host of the ShadowRoot. See
// https://w3c.github.io/DOM-Parsing/#dom-innerhtml-innerhtml setter step 1.
parseContext = shadowRoot->GetHost();
}
// We MUST NOT cause any requests during parsing, so we'll
// create an inert Document and parse into a new DocumentFragment.
RefPtr<Document> inertDoc;
nsAtom* contextLocalName = parseContext->NodeInfo()->NameAtom();
int32_t contextNameSpaceID = parseContext->GetNameSpaceID();
ElementCreationOptionsOrString options;
RefPtr<DocumentFragment> fragment;
if (doc->IsHTMLDocument()) {
inertDoc = nsContentUtils::CreateInertHTMLDocument(nullptr);
if (!inertDoc) {
aError = NS_ERROR_FAILURE;
return;
}
fragment = new (inertDoc->NodeInfoManager())
DocumentFragment(inertDoc->NodeInfoManager());
aError = nsContentUtils::ParseFragmentHTML(aInnerHTML, fragment,
contextLocalName,
contextNameSpaceID, false, true);
} else if (doc->IsXMLDocument()) {
inertDoc = nsContentUtils::CreateInertXMLDocument(nullptr);
if (!inertDoc) {
aError = NS_ERROR_FAILURE;
return;
}
fragment = new (inertDoc->NodeInfoManager())
DocumentFragment(inertDoc->NodeInfoManager());
// TODO(freddyb) `nsContentUtils::CreateContextualFragment` is actually
// collecting a ton of stacks to get in an (X)HTMLish state.
// I'm afraid we might need that too. Ugh.
AutoTArray<nsString, 0> emptyTagStack;
aError =
nsContentUtils::ParseFragmentXML(aInnerHTML, inertDoc, emptyTagStack,
true, -1, getter_AddRefs(fragment));
}
if (aError.Failed()) {
return;
}
// Suppress assertion about node removal mutation events that can't have
// listeners anyway, because no one has had the chance to register
// mutation listeners on the fragment that comes from the parser.
nsAutoScriptBlockerSuppressNodeRemoved scriptBlocker;
int32_t oldChildCount = static_cast<int32_t>(target->GetChildCount());
nsCOMPtr<nsIGlobalObject> global = GetOwnerGlobal();
if (!global) {
aError.ThrowInvalidStateError("Missing owner global.");
return;
}
RefPtr<Sanitizer> sanitizer;
if (aOptions.mSanitizer.WasPassed()) {
sanitizer = Sanitizer::New(global, aOptions.mSanitizer.Value(), aError);
} else {
sanitizer = Sanitizer::New(global, {}, aError);
}
if (aError.Failed()) {
return;
}
sanitizer->SanitizeFragment(fragment, aError);
if (aError.Failed()) {
return;
}
target->AppendChild(*fragment, aError);
if (aError.Failed()) {
return;
}
mb.NodesAdded();
nsContentUtils::FireMutationEventsForDirectParsing(doc, target,
oldChildCount);
}
bool Element::Translate() const {
if (const auto* parent = Element::FromNodeOrNull(mParent)) {
return parent->Translate();
}
return true;
}
EditorBase* Element::GetEditorWithoutCreation() const {
if (!IsInComposedDoc()) {
return nullptr;
}
const bool isInDesignMode = IsInDesignMode();
// Even if a text control element is an editing host, TextEditor handles
// user input. Therefore, we should return TextEditor (or nullptr) in this
// case. Note that text control element in the design mode does not work as
// a text control. Therefore, in that case, we should return HTMLEditor.
if (!isInDesignMode) {
if (const auto* textControlElement = TextControlElement::FromNode(this)) {
if (textControlElement->IsSingleLineTextControlOrTextArea()) {
return static_cast<const TextControlElement*>(this)
->GetTextEditorWithoutCreation();
}
}
}
if (!isInDesignMode && !IsEditable()) {
return nullptr;
}
// FYI: This never creates HTMLEditor immediately.
nsDocShell* docShell = nsDocShell::Cast(OwnerDoc()->GetDocShell());
return docShell ? docShell->GetHTMLEditorInternal() : nullptr;
}
void Element::SetHTMLUnsafe(const nsAString& aHTML) {
nsContentUtils::SetHTMLUnsafe(this, this, aHTML);
}
bool Element::BlockingContainsRender() const {
const nsAttrValue* attrValue = GetParsedAttr(nsGkAtoms::blocking);
if (!attrValue || !StaticPrefs::dom_element_blocking_enabled()) {
return false;
}
MOZ_ASSERT(attrValue->Type() == nsAttrValue::eAtomArray,
"Checking blocking attribute on element that doesn't parse it?");
return attrValue->Contains(nsGkAtoms::render, eIgnoreCase);
}
} // namespace mozilla::dom
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