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webkit / WebKit / a505795d6604e65c53d1725ad4e11f5541e21004 / . / Source / WebCore / dom / ContainerNode.cpp
blob: 1d12861c8892f2419663559025bdbcb6a427e253 [file] [log] [blame]
/*
* Copyright (C) 1999 Lars Knoll (knoll@kde.org)
* (C) 1999 Antti Koivisto (koivisto@kde.org)
* (C) 2001 Dirk Mueller (mueller@kde.org)
* Copyright (C) 2004-2018 Apple Inc. All rights reserved.
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Library General Public
* License as published by the Free Software Foundation; either
* version 2 of the License, or (at your option) any later version.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Library General Public License for more details.
*
* You should have received a copy of the GNU Library General Public License
* along with this library; see the file COPYING.LIB. If not, write to
* the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor,
* Boston, MA 02110-1301, USA.
*/
#include "config.h"
#include "ContainerNode.h"
#include "AXObjectCache.h"
#include "AllDescendantsCollection.h"
#include "ChildListMutationScope.h"
#include "ClassCollection.h"
#include "CommonVM.h"
#include "ContainerNodeAlgorithms.h"
#include "Editor.h"
#include "EventNames.h"
#include "FloatRect.h"
#include "FrameView.h"
#include "GenericCachedHTMLCollection.h"
#include "HTMLFormControlsCollection.h"
#include "HTMLOptionsCollection.h"
#include "HTMLSlotElement.h"
#include "HTMLTableRowsCollection.h"
#include "InlineTextBox.h"
#include "InspectorInstrumentation.h"
#include "JSNode.h"
#include "LabelsNodeList.h"
#include "MutationEvent.h"
#include "NameNodeList.h"
#include "NodeRareData.h"
#include "NodeRenderStyle.h"
#include "RadioNodeList.h"
#include "RenderBox.h"
#include "RenderTheme.h"
#include "RenderTreeUpdater.h"
#include "RenderWidget.h"
#include "RootInlineBox.h"
#include "SVGDocumentExtensions.h"
#include "SVGElement.h"
#include "SVGNames.h"
#include "SVGUseElement.h"
#include "ScriptDisallowedScope.h"
#include "SelectorQuery.h"
#include "SlotAssignment.h"
#include "TemplateContentDocumentFragment.h"
#include <algorithm>
#include <wtf/IsoMallocInlines.h>
#include <wtf/Variant.h>
namespace WebCore {
WTF_MAKE_ISO_ALLOCATED_IMPL(ContainerNode);
static void dispatchChildInsertionEvents(Node&);
static void dispatchChildRemovalEvents(Ref<Node>&);
ChildNodesLazySnapshot* ChildNodesLazySnapshot::latestSnapshot;
unsigned ScriptDisallowedScope::s_count = 0;
#if !ASSERT_DISABLED
ScriptDisallowedScope::EventAllowedScope* ScriptDisallowedScope::EventAllowedScope::s_currentScope = nullptr;
#endif
ALWAYS_INLINE NodeVector ContainerNode::removeAllChildrenWithScriptAssertion(ChildChangeSource source, DeferChildrenChanged deferChildrenChanged)
{
auto children = collectChildNodes(*this);
if (source == ContainerNode::ChildChangeSource::API) {
ChildListMutationScope mutation(*this);
for (auto& child : children) {
mutation.willRemoveChild(child.get());
child->notifyMutationObserversNodeWillDetach();
dispatchChildRemovalEvents(child);
}
} else {
ASSERT(source == ContainerNode::ChildChangeSource::Parser);
ScriptDisallowedScope::InMainThread scriptDisallowedScope;
if (UNLIKELY(document().hasMutationObserversOfType(MutationObserver::ChildList))) {
ChildListMutationScope mutation(*this);
for (auto& child : children)
mutation.willRemoveChild(child.get());
}
}
disconnectSubframesIfNeeded(*this, DescendantsOnly);
WidgetHierarchyUpdatesSuspensionScope suspendWidgetHierarchyUpdates;
ScriptDisallowedScope::InMainThread scriptDisallowedScope;
if (UNLIKELY(isShadowRoot() || isInShadowTree()))
containingShadowRoot()->willRemoveAllChildren(*this);
document().nodeChildrenWillBeRemoved(*this);
while (RefPtr<Node> child = m_firstChild) {
removeBetween(nullptr, child->nextSibling(), *child);
notifyChildNodeRemoved(*this, *child);
}
if (deferChildrenChanged == DeferChildrenChanged::No)
childrenChanged(ContainerNode::ChildChange { ContainerNode::AllChildrenRemoved, nullptr, nullptr, source });
return children;
}
ALWAYS_INLINE bool ContainerNode::removeNodeWithScriptAssertion(Node& childToRemove, ChildChangeSource source)
{
Ref<Node> protectedChildToRemove(childToRemove);
ASSERT_WITH_SECURITY_IMPLICATION(childToRemove.parentNode() == this);
{
ScriptDisallowedScope::InMainThread scriptDisallowedScope;
ChildListMutationScope(*this).willRemoveChild(childToRemove);
}
ASSERT_WITH_SECURITY_IMPLICATION(ScriptDisallowedScope::InMainThread::isEventDispatchAllowedInSubtree(childToRemove));
if (source == ContainerNode::ChildChangeSource::API) {
childToRemove.notifyMutationObserversNodeWillDetach();
dispatchChildRemovalEvents(protectedChildToRemove);
if (childToRemove.parentNode() != this)
return false;
}
if (source == ContainerNode::ChildChangeSource::Parser) {
// FIXME: Merge these two code paths. It's a bug in the parser not to update connectedSubframeCount in time.
disconnectSubframesIfNeeded(*this, DescendantsOnly);
} else {
if (is<ContainerNode>(childToRemove))
disconnectSubframesIfNeeded(downcast<ContainerNode>(childToRemove), RootAndDescendants);
}
if (childToRemove.parentNode() != this)
return false;
ChildChange change;
{
WidgetHierarchyUpdatesSuspensionScope suspendWidgetHierarchyUpdates;
ScriptDisallowedScope::InMainThread scriptDisallowedScope;
if (UNLIKELY(isShadowRoot() || isInShadowTree()))
containingShadowRoot()->resolveSlotsBeforeNodeInsertionOrRemoval();
document().nodeWillBeRemoved(childToRemove);
ASSERT_WITH_SECURITY_IMPLICATION(childToRemove.parentNode() == this);
ASSERT(!childToRemove.isDocumentFragment());
RefPtr<Node> previousSibling = childToRemove.previousSibling();
RefPtr<Node> nextSibling = childToRemove.nextSibling();
removeBetween(previousSibling.get(), nextSibling.get(), childToRemove);
notifyChildNodeRemoved(*this, childToRemove);
change.type = is<Element>(childToRemove) ? ElementRemoved : (is<Text>(childToRemove) ? TextRemoved : NonContentsChildRemoved);
change.previousSiblingElement = (!previousSibling || is<Element>(*previousSibling)) ? downcast<Element>(previousSibling.get()) : ElementTraversal::previousSibling(*previousSibling);
change.nextSiblingElement = (!nextSibling || is<Element>(*nextSibling)) ? downcast<Element>(nextSibling.get()) : ElementTraversal::nextSibling(*nextSibling);
change.source = source;
}
// FIXME: Move childrenChanged into ScriptDisallowedScope block.
childrenChanged(change);
return true;
}
enum class ReplacedAllChildren { No, Yes };
template<typename DOMInsertionWork>
static ALWAYS_INLINE void executeNodeInsertionWithScriptAssertion(ContainerNode& containerNode, Node& child,
ContainerNode::ChildChangeSource source, ReplacedAllChildren replacedAllChildren, DOMInsertionWork doNodeInsertion)
{
NodeVector postInsertionNotificationTargets;
{
ScriptDisallowedScope::InMainThread scriptDisallowedScope;
if (UNLIKELY(containerNode.isShadowRoot() || containerNode.isInShadowTree()))
containerNode.containingShadowRoot()->resolveSlotsBeforeNodeInsertionOrRemoval();
doNodeInsertion();
ChildListMutationScope(containerNode).childAdded(child);
postInsertionNotificationTargets = notifyChildNodeInserted(containerNode, child);
}
// FIXME: Move childrenChanged into ScriptDisallowedScope block.
if (replacedAllChildren == ReplacedAllChildren::Yes)
containerNode.childrenChanged(ContainerNode::ChildChange { ContainerNode::AllChildrenReplaced, nullptr, nullptr, source });
else {
containerNode.childrenChanged(ContainerNode::ChildChange {
child.isElementNode() ? ContainerNode::ElementInserted : (child.isTextNode() ? ContainerNode::TextInserted : ContainerNode::NonContentsChildInserted),
ElementTraversal::previousSibling(child),
ElementTraversal::nextSibling(child),
source
});
}
ASSERT(ScriptDisallowedScope::InMainThread::isEventDispatchAllowedInSubtree(child));
for (auto& target : postInsertionNotificationTargets)
target->didFinishInsertingNode();
if (source == ContainerNode::ChildChangeSource::API)
dispatchChildInsertionEvents(child);
}
static ExceptionOr<void> collectChildrenAndRemoveFromOldParent(Node& node, NodeVector& nodes)
{
if (!is<DocumentFragment>(node)) {
nodes.append(node);
auto* oldParent = node.parentNode();
if (!oldParent)
return { };
return oldParent->removeChild(node);
}
nodes = collectChildNodes(node);
downcast<DocumentFragment>(node).removeChildren();
return { };
}
// FIXME: This function must get a new name.
// It removes all children, not just a category called "detached children".
// So this name is terribly confusing.
void ContainerNode::removeDetachedChildren()
{
if (connectedSubframeCount()) {
for (Node* child = firstChild(); child; child = child->nextSibling())
child->updateAncestorConnectedSubframeCountForRemoval();
}
// FIXME: We should be able to ASSERT(!attached()) here: https://bugs.webkit.org/show_bug.cgi?id=107801
ScriptDisallowedScope::InMainThread scriptDisallowedScope;
removeDetachedChildrenInContainer(*this);
}
static inline void destroyRenderTreeIfNeeded(Node& child)
{
bool isElement = is<Element>(child);
auto hasDisplayContents = isElement && downcast<Element>(child).hasDisplayContents();
if (!child.renderer() && !hasDisplayContents)
return;
if (isElement)
RenderTreeUpdater::tearDownRenderers(downcast<Element>(child));
else if (is<Text>(child))
RenderTreeUpdater::tearDownRenderer(downcast<Text>(child));
}
void ContainerNode::takeAllChildrenFrom(ContainerNode* oldParent)
{
ASSERT(oldParent);
auto children = oldParent->removeAllChildrenWithScriptAssertion(ChildChangeSource::Parser);
// FIXME: assert that we don't dispatch events here since this container node is still disconnected.
for (auto& child : children) {
RELEASE_ASSERT(!child->parentNode() && &child->treeScope() == &treeScope());
ASSERT(!ensurePreInsertionValidity(child, nullptr).hasException());
child->setTreeScopeRecursively(treeScope());
parserAppendChild(child);
}
}
ContainerNode::~ContainerNode()
{
if (!isDocumentNode())
willBeDeletedFrom(document());
removeDetachedChildren();
}
static inline bool isChildTypeAllowed(ContainerNode& newParent, Node& child)
{
if (!child.isDocumentFragment())
return newParent.childTypeAllowed(child.nodeType());
for (Node* node = child.firstChild(); node; node = node->nextSibling()) {
if (!newParent.childTypeAllowed(node->nodeType()))
return false;
}
return true;
}
static bool containsIncludingHostElements(const Node& possibleAncestor, const Node& node)
{
const Node* currentNode = &node;
do {
if (currentNode == &possibleAncestor)
return true;
const ContainerNode* parent = currentNode->parentNode();
if (!parent) {
if (is<ShadowRoot>(currentNode))
parent = downcast<ShadowRoot>(currentNode)->host();
else if (is<DocumentFragment>(*currentNode) && downcast<DocumentFragment>(*currentNode).isTemplateContent())
parent = static_cast<const TemplateContentDocumentFragment*>(currentNode)->host();
}
currentNode = parent;
} while (currentNode);
return false;
}
enum class ShouldValidateChildParent { No, Yes };
static inline ExceptionOr<void> checkAcceptChild(ContainerNode& newParent, Node& newChild, const Node* refChild, Document::AcceptChildOperation operation, ShouldValidateChildParent shouldValidateChildParent)
{
if (containsIncludingHostElements(newChild, newParent))
return Exception { HierarchyRequestError };
// Use common case fast path if possible.
if ((newChild.isElementNode() || newChild.isTextNode()) && newParent.isElementNode()) {
ASSERT(!newParent.isDocumentTypeNode());
ASSERT(isChildTypeAllowed(newParent, newChild));
if (shouldValidateChildParent == ShouldValidateChildParent::Yes && refChild && refChild->parentNode() != &newParent)
return Exception { NotFoundError };
return { };
}
// This should never happen, but also protect release builds from tree corruption.
ASSERT(!newChild.isPseudoElement());
if (newChild.isPseudoElement())
return Exception { HierarchyRequestError };
if (shouldValidateChildParent == ShouldValidateChildParent::Yes && refChild && refChild->parentNode() != &newParent)
return Exception { NotFoundError };
if (is<Document>(newParent)) {
if (!downcast<Document>(newParent).canAcceptChild(newChild, refChild, operation))
return Exception { HierarchyRequestError };
} else if (!isChildTypeAllowed(newParent, newChild))
return Exception { HierarchyRequestError };
return { };
}
static inline ExceptionOr<void> checkAcceptChildGuaranteedNodeTypes(ContainerNode& newParent, Node& newChild)
{
ASSERT(!newParent.isDocumentTypeNode());
ASSERT(isChildTypeAllowed(newParent, newChild));
if (containsIncludingHostElements(newChild, newParent))
return Exception { HierarchyRequestError };
return { };
}
// https://dom.spec.whatwg.org/#concept-node-ensure-pre-insertion-validity
ExceptionOr<void> ContainerNode::ensurePreInsertionValidity(Node& newChild, Node* refChild)
{
return checkAcceptChild(*this, newChild, refChild, Document::AcceptChildOperation::InsertOrAdd, ShouldValidateChildParent::Yes);
}
// https://dom.spec.whatwg.org/#concept-node-replace
static inline ExceptionOr<void> checkPreReplacementValidity(ContainerNode& newParent, Node& newChild, Node& oldChild, ShouldValidateChildParent shouldValidateChildParent)
{
return checkAcceptChild(newParent, newChild, &oldChild, Document::AcceptChildOperation::Replace, shouldValidateChildParent);
}
ExceptionOr<void> ContainerNode::insertBefore(Node& newChild, Node* refChild)
{
// Check that this node is not "floating".
// If it is, it can be deleted as a side effect of sending mutation events.
ASSERT(refCount() || parentOrShadowHostNode());
// Make sure adding the new child is OK.
auto validityCheckResult = ensurePreInsertionValidity(newChild, refChild);
if (validityCheckResult.hasException())
return validityCheckResult.releaseException();
if (refChild == &newChild)
refChild = newChild.nextSibling();
// insertBefore(node, null) is equivalent to appendChild(node)
if (!refChild)
return appendChildWithoutPreInsertionValidityCheck(newChild);
Ref<ContainerNode> protectedThis(*this);
Ref<Node> next(*refChild);
NodeVector targets;
auto removeResult = collectChildrenAndRemoveFromOldParent(newChild, targets);
if (removeResult.hasException())
return removeResult.releaseException();
if (targets.isEmpty())
return { };
// We need this extra check because collectChildrenAndRemoveFromOldParent() can fire mutation events.
for (auto& child : targets) {
auto checkAcceptResult = checkAcceptChildGuaranteedNodeTypes(*this, child);
if (checkAcceptResult.hasException())
return checkAcceptResult.releaseException();
}
InspectorInstrumentation::willInsertDOMNode(document(), *this);
ChildListMutationScope mutation(*this);
for (auto& child : targets) {
// Due to arbitrary code running in response to a DOM mutation event it's
// possible that "next" is no longer a child of "this".
// It's also possible that "child" has been inserted elsewhere.
// In either of those cases, we'll just stop.
if (next->parentNode() != this)
break;
if (child->parentNode())
break;
executeNodeInsertionWithScriptAssertion(*this, child.get(), ChildChangeSource::API, ReplacedAllChildren::No, [&] {
child->setTreeScopeRecursively(treeScope());
insertBeforeCommon(next, child);
});
}
dispatchSubtreeModifiedEvent();
return { };
}
void ContainerNode::insertBeforeCommon(Node& nextChild, Node& newChild)
{
ScriptDisallowedScope::InMainThread scriptDisallowedScope;
ASSERT(!newChild.parentNode()); // Use insertBefore if you need to handle reparenting (and want DOM mutation events).
ASSERT(!newChild.nextSibling());
ASSERT(!newChild.previousSibling());
ASSERT(!newChild.isShadowRoot());
Node* prev = nextChild.previousSibling();
ASSERT(m_lastChild != prev);
nextChild.setPreviousSibling(&newChild);
if (prev) {
ASSERT(m_firstChild != &nextChild);
ASSERT(prev->nextSibling() == &nextChild);
prev->setNextSibling(&newChild);
} else {
ASSERT(m_firstChild == &nextChild);
m_firstChild = &newChild;
}
newChild.setParentNode(this);
newChild.setPreviousSibling(prev);
newChild.setNextSibling(&nextChild);
}
void ContainerNode::appendChildCommon(Node& child)
{
ScriptDisallowedScope::InMainThread scriptDisallowedScope;
child.setParentNode(this);
if (m_lastChild) {
child.setPreviousSibling(m_lastChild);
m_lastChild->setNextSibling(&child);
} else
m_firstChild = &child;
m_lastChild = &child;
}
void ContainerNode::parserInsertBefore(Node& newChild, Node& nextChild)
{
ASSERT(nextChild.parentNode() == this);
ASSERT(!newChild.isDocumentFragment());
ASSERT(!hasTagName(HTMLNames::templateTag));
if (nextChild.previousSibling() == &newChild || &nextChild == &newChild) // nothing to do
return;
executeNodeInsertionWithScriptAssertion(*this, newChild, ChildChangeSource::Parser, ReplacedAllChildren::No, [&] {
if (&document() != &newChild.document())
document().adoptNode(newChild);
insertBeforeCommon(nextChild, newChild);
newChild.updateAncestorConnectedSubframeCountForInsertion();
});
}
ExceptionOr<void> ContainerNode::replaceChild(Node& newChild, Node& oldChild)
{
// Check that this node is not "floating".
// If it is, it can be deleted as a side effect of sending mutation events.
ASSERT(refCount() || parentOrShadowHostNode());
Ref<ContainerNode> protectedThis(*this);
// Make sure replacing the old child with the new is ok
auto validityResult = checkPreReplacementValidity(*this, newChild, oldChild, ShouldValidateChildParent::Yes);
if (validityResult.hasException())
return validityResult.releaseException();
RefPtr<Node> refChild = oldChild.nextSibling();
if (refChild.get() == &newChild)
refChild = refChild->nextSibling();
NodeVector targets;
{
ChildListMutationScope mutation(*this);
auto collectResult = collectChildrenAndRemoveFromOldParent(newChild, targets);
if (collectResult.hasException())
return collectResult.releaseException();
}
// Do this one more time because collectChildrenAndRemoveFromOldParent() fires a MutationEvent.
for (auto& child : targets) {
validityResult = checkPreReplacementValidity(*this, child, oldChild, ShouldValidateChildParent::No);
if (validityResult.hasException())
return validityResult.releaseException();
}
// Remove the node we're replacing.
Ref<Node> protectOldChild(oldChild);
ChildListMutationScope mutation(*this);
// If oldChild == newChild then oldChild no longer has a parent at this point.
if (oldChild.parentNode()) {
auto removeResult = removeChild(oldChild);
if (removeResult.hasException())
return removeResult.releaseException();
// Does this one more time because removeChild() fires a MutationEvent.
for (auto& child : targets) {
validityResult = checkPreReplacementValidity(*this, child, oldChild, ShouldValidateChildParent::No);
if (validityResult.hasException())
return validityResult.releaseException();
}
}
InspectorInstrumentation::willInsertDOMNode(document(), *this);
// Add the new child(ren).
for (auto& child : targets) {
// Due to arbitrary code running in response to a DOM mutation event it's
// possible that "refChild" is no longer a child of "this".
// It's also possible that "child" has been inserted elsewhere.
// In either of those cases, we'll just stop.
if (refChild && refChild->parentNode() != this)
break;
if (child->parentNode())
break;
executeNodeInsertionWithScriptAssertion(*this, child.get(), ChildChangeSource::API, ReplacedAllChildren::No, [&] {
child->setTreeScopeRecursively(treeScope());
if (refChild)
insertBeforeCommon(*refChild, child.get());
else
appendChildCommon(child);
});
}
dispatchSubtreeModifiedEvent();
return { };
}
void ContainerNode::disconnectDescendantFrames()
{
disconnectSubframesIfNeeded(*this, RootAndDescendants);
}
ExceptionOr<void> ContainerNode::removeChild(Node& oldChild)
{
// Check that this node is not "floating".
// If it is, it can be deleted as a side effect of sending mutation events.
ASSERT(refCount() || parentOrShadowHostNode());
Ref<ContainerNode> protectedThis(*this);
// NotFoundError: Raised if oldChild is not a child of this node.
if (oldChild.parentNode() != this)
return Exception { NotFoundError };
if (!removeNodeWithScriptAssertion(oldChild, ChildChangeSource::API))
return Exception { NotFoundError };
rebuildSVGExtensionsElementsIfNecessary();
dispatchSubtreeModifiedEvent();
return { };
}
void ContainerNode::removeBetween(Node* previousChild, Node* nextChild, Node& oldChild)
{
InspectorInstrumentation::didRemoveDOMNode(oldChild.document(), oldChild);
ScriptDisallowedScope::InMainThread scriptDisallowedScope;
ASSERT(oldChild.parentNode() == this);
destroyRenderTreeIfNeeded(oldChild);
if (nextChild) {
nextChild->setPreviousSibling(previousChild);
oldChild.setNextSibling(nullptr);
} else {
ASSERT(m_lastChild == &oldChild);
m_lastChild = previousChild;
}
if (previousChild) {
previousChild->setNextSibling(nextChild);
oldChild.setPreviousSibling(nullptr);
} else {
ASSERT(m_firstChild == &oldChild);
m_firstChild = nextChild;
}
ASSERT(m_firstChild != &oldChild);
ASSERT(m_lastChild != &oldChild);
ASSERT(!oldChild.previousSibling());
ASSERT(!oldChild.nextSibling());
oldChild.setParentNode(nullptr);
oldChild.setTreeScopeRecursively(document());
}
void ContainerNode::parserRemoveChild(Node& oldChild)
{
removeNodeWithScriptAssertion(oldChild, ChildChangeSource::Parser);
}
// https://dom.spec.whatwg.org/#concept-node-replace-all
void ContainerNode::replaceAllChildren(std::nullptr_t)
{
ChildListMutationScope mutation(*this);
removeChildren();
}
// https://dom.spec.whatwg.org/#concept-node-replace-all
void ContainerNode::replaceAllChildren(Ref<Node>&& node)
{
// This function assumes the input node is not a DocumentFragment and is parentless to decrease complexity.
ASSERT(!is<DocumentFragment>(node));
ASSERT(!node->parentNode());
if (!hasChildNodes()) {
// appendChildWithoutPreInsertionValidityCheck() can only throw when node has a parent and we already asserted it doesn't.
auto result = appendChildWithoutPreInsertionValidityCheck(node);
ASSERT_UNUSED(result, !result.hasException());
return;
}
Ref<ContainerNode> protectedThis(*this);
ChildListMutationScope mutation(*this);
removeAllChildrenWithScriptAssertion(ChildChangeSource::API, DeferChildrenChanged::Yes);
executeNodeInsertionWithScriptAssertion(*this, node.get(), ChildChangeSource::API, ReplacedAllChildren::Yes, [&] {
ASSERT(!ensurePreInsertionValidity(node, nullptr).hasException());
InspectorInstrumentation::willInsertDOMNode(document(), *this);
node->setTreeScopeRecursively(treeScope());
appendChildCommon(node);
});
rebuildSVGExtensionsElementsIfNecessary();
dispatchSubtreeModifiedEvent();
}
inline void ContainerNode::rebuildSVGExtensionsElementsIfNecessary()
{
if (document().svgExtensions() && !is<SVGUseElement>(shadowHost()))
document().accessSVGExtensions().rebuildElements();
}
// this differs from other remove functions because it forcibly removes all the children,
// regardless of read-only status or event exceptions, e.g.
void ContainerNode::removeChildren()
{
if (!m_firstChild)
return;
Ref<ContainerNode> protectedThis(*this);
removeAllChildrenWithScriptAssertion(ChildChangeSource::API);
rebuildSVGExtensionsElementsIfNecessary();
dispatchSubtreeModifiedEvent();
}
ExceptionOr<void> ContainerNode::appendChild(Node& newChild)
{
// Check that this node is not "floating".
// If it is, it can be deleted as a side effect of sending mutation events.
ASSERT(refCount() || parentOrShadowHostNode());
// Make sure adding the new child is ok
auto validityCheckResult = ensurePreInsertionValidity(newChild, nullptr);
if (validityCheckResult.hasException())
return validityCheckResult.releaseException();
return appendChildWithoutPreInsertionValidityCheck(newChild);
}
ExceptionOr<void> ContainerNode::appendChildWithoutPreInsertionValidityCheck(Node& newChild)
{
Ref<ContainerNode> protectedThis(*this);
NodeVector targets;
auto removeResult = collectChildrenAndRemoveFromOldParent(newChild, targets);
if (removeResult.hasException())
return removeResult.releaseException();
if (targets.isEmpty())
return { };
// We need this extra check because collectChildrenAndRemoveFromOldParent() can fire mutation events.
for (auto& child : targets) {
auto nodeTypeResult = checkAcceptChildGuaranteedNodeTypes(*this, child);
if (nodeTypeResult.hasException())
return nodeTypeResult.releaseException();
}
InspectorInstrumentation::willInsertDOMNode(document(), *this);
// Now actually add the child(ren)
ChildListMutationScope mutation(*this);
for (auto& child : targets) {
// If the child has a parent again, just stop what we're doing, because
// that means someone is doing something with DOM mutation -- can't re-parent
// a child that already has a parent.
if (child->parentNode())
break;
// Append child to the end of the list
executeNodeInsertionWithScriptAssertion(*this, child.get(), ChildChangeSource::API, ReplacedAllChildren::No, [&] {
child->setTreeScopeRecursively(treeScope());
appendChildCommon(child);
});
}
dispatchSubtreeModifiedEvent();
return { };
}
void ContainerNode::parserAppendChild(Node& newChild)
{
ASSERT(!newChild.parentNode()); // Use appendChild if you need to handle reparenting (and want DOM mutation events).
ASSERT(!newChild.isDocumentFragment());
ASSERT(!hasTagName(HTMLNames::templateTag));
executeNodeInsertionWithScriptAssertion(*this, newChild, ChildChangeSource::Parser, ReplacedAllChildren::No, [&] {
if (&document() != &newChild.document())
document().adoptNode(newChild);
appendChildCommon(newChild);
newChild.setTreeScopeRecursively(treeScope());
newChild.updateAncestorConnectedSubframeCountForInsertion();
});
}
static bool affectsElements(const ContainerNode::ChildChange& change)
{
switch (change.type) {
case ContainerNode::ElementInserted:
case ContainerNode::ElementRemoved:
case ContainerNode::AllChildrenRemoved:
case ContainerNode::AllChildrenReplaced:
return true;
case ContainerNode::TextInserted:
case ContainerNode::TextRemoved:
case ContainerNode::TextChanged:
case ContainerNode::NonContentsChildInserted:
case ContainerNode::NonContentsChildRemoved:
return false;
}
ASSERT_NOT_REACHED();
return false;
}
void ContainerNode::childrenChanged(const ChildChange& change)
{
document().incDOMTreeVersion();
if (affectsElements(change))
document().invalidateAccessKeyCache();
// FIXME: Unclear why it's always safe to skip this when parser is adding children.
// FIXME: Seems like it's equally safe to skip for TextInserted and TextRemoved as for TextChanged.
// FIXME: Should use switch for change type so we remember to update when adding new types.
if (change.source == ChildChangeSource::API && change.type != TextChanged)
document().updateRangesAfterChildrenChanged(*this);
invalidateNodeListAndCollectionCachesInAncestors();
}
void ContainerNode::cloneChildNodes(ContainerNode& clone)
{
Document& targetDocument = clone.document();
for (Node* child = firstChild(); child; child = child->nextSibling()) {
auto clonedChild = child->cloneNodeInternal(targetDocument, CloningOperation::SelfWithTemplateContent);
if (!clone.appendChild(clonedChild).hasException() && is<ContainerNode>(*child))
downcast<ContainerNode>(*child).cloneChildNodes(downcast<ContainerNode>(clonedChild.get()));
}
}
unsigned ContainerNode::countChildNodes() const
{
unsigned count = 0;
for (Node* child = firstChild(); child; child = child->nextSibling())
++count;
return count;
}
Node* ContainerNode::traverseToChildAt(unsigned index) const
{
Node* child = firstChild();
for (; child && index > 0; --index)
child = child->nextSibling();
return child;
}
static void dispatchChildInsertionEvents(Node& child)
{
if (child.isInShadowTree())
return;
ASSERT_WITH_SECURITY_IMPLICATION(ScriptDisallowedScope::InMainThread::isEventDispatchAllowedInSubtree(child));
RefPtr<Node> c = &child;
Ref<Document> document(child.document());
if (c->parentNode() && document->hasListenerType(Document::DOMNODEINSERTED_LISTENER))
c->dispatchScopedEvent(MutationEvent::create(eventNames().DOMNodeInsertedEvent, Event::CanBubble::Yes, c->parentNode()));
// dispatch the DOMNodeInsertedIntoDocument event to all descendants
if (c->isConnected() && document->hasListenerType(Document::DOMNODEINSERTEDINTODOCUMENT_LISTENER)) {
for (; c; c = NodeTraversal::next(*c, &child))
c->dispatchScopedEvent(MutationEvent::create(eventNames().DOMNodeInsertedIntoDocumentEvent, Event::CanBubble::No));
}
}
static void dispatchChildRemovalEvents(Ref<Node>& child)
{
ASSERT_WITH_SECURITY_IMPLICATION(ScriptDisallowedScope::InMainThread::isEventDispatchAllowedInSubtree(child));
InspectorInstrumentation::willRemoveDOMNode(child->document(), child.get());
if (child->isInShadowTree())
return;
// FIXME: This doesn't belong in dispatchChildRemovalEvents.
// FIXME: Nodes removed from a shadow tree should also be kept alive.
willCreatePossiblyOrphanedTreeByRemoval(child.ptr());
Ref<Document> document = child->document();
// dispatch pre-removal mutation events
if (child->parentNode() && document->hasListenerType(Document::DOMNODEREMOVED_LISTENER))
child->dispatchScopedEvent(MutationEvent::create(eventNames().DOMNodeRemovedEvent, Event::CanBubble::Yes, child->parentNode()));
// dispatch the DOMNodeRemovedFromDocument event to all descendants
if (child->isConnected() && document->hasListenerType(Document::DOMNODEREMOVEDFROMDOCUMENT_LISTENER)) {
for (RefPtr<Node> currentNode = child.copyRef(); currentNode; currentNode = NodeTraversal::next(*currentNode, child.ptr()))
currentNode->dispatchScopedEvent(MutationEvent::create(eventNames().DOMNodeRemovedFromDocumentEvent, Event::CanBubble::No));
}
}
ExceptionOr<Element*> ContainerNode::querySelector(const String& selectors)
{
auto query = document().selectorQueryForString(selectors);
if (query.hasException())
return query.releaseException();
return query.releaseReturnValue().queryFirst(*this);
}
ExceptionOr<Ref<NodeList>> ContainerNode::querySelectorAll(const String& selectors)
{
auto query = document().selectorQueryForString(selectors);
if (query.hasException())
return query.releaseException();
return query.releaseReturnValue().queryAll(*this);
}
Ref<HTMLCollection> ContainerNode::getElementsByTagName(const AtomString& qualifiedName)
{
ASSERT(!qualifiedName.isNull());
if (qualifiedName == starAtom())
return ensureRareData().ensureNodeLists().addCachedCollection<AllDescendantsCollection>(*this, AllDescendants);
if (document().isHTMLDocument())
return ensureRareData().ensureNodeLists().addCachedCollection<HTMLTagCollection>(*this, ByHTMLTag, qualifiedName);
return ensureRareData().ensureNodeLists().addCachedCollection<TagCollection>(*this, ByTag, qualifiedName);
}
Ref<HTMLCollection> ContainerNode::getElementsByTagNameNS(const AtomString& namespaceURI, const AtomString& localName)
{
ASSERT(!localName.isNull());
return ensureRareData().ensureNodeLists().addCachedTagCollectionNS(*this, namespaceURI.isEmpty() ? nullAtom() : namespaceURI, localName);
}
Ref<NodeList> ContainerNode::getElementsByName(const String& elementName)
{
return ensureRareData().ensureNodeLists().addCacheWithAtomicName<NameNodeList>(*this, elementName);
}
Ref<HTMLCollection> ContainerNode::getElementsByClassName(const AtomString& classNames)
{
return ensureRareData().ensureNodeLists().addCachedCollection<ClassCollection>(*this, ByClass, classNames);
}
Ref<RadioNodeList> ContainerNode::radioNodeList(const AtomString& name)
{
ASSERT(hasTagName(HTMLNames::formTag) || hasTagName(HTMLNames::fieldsetTag));
return ensureRareData().ensureNodeLists().addCacheWithAtomicName<RadioNodeList>(*this, name);
}
Ref<HTMLCollection> ContainerNode::children()
{
return ensureRareData().ensureNodeLists().addCachedCollection<GenericCachedHTMLCollection<CollectionTypeTraits<NodeChildren>::traversalType>>(*this, NodeChildren);
}
Element* ContainerNode::firstElementChild() const
{
return ElementTraversal::firstChild(*this);
}
Element* ContainerNode::lastElementChild() const
{
return ElementTraversal::lastChild(*this);
}
unsigned ContainerNode::childElementCount() const
{
auto children = childrenOfType<Element>(*this);
return std::distance(children.begin(), children.end());
}
ExceptionOr<void> ContainerNode::append(Vector<NodeOrString>&& vector)
{
auto result = convertNodesOrStringsIntoNode(WTFMove(vector));
if (result.hasException())
return result.releaseException();
auto node = result.releaseReturnValue();
if (!node)
return { };
return appendChild(*node);
}
ExceptionOr<void> ContainerNode::prepend(Vector<NodeOrString>&& vector)
{
auto result = convertNodesOrStringsIntoNode(WTFMove(vector));
if (result.hasException())
return result.releaseException();
auto node = result.releaseReturnValue();
if (!node)
return { };
return insertBefore(*node, firstChild());
}
HTMLCollection* ContainerNode::cachedHTMLCollection(CollectionType type)
{
return hasRareData() && rareData()->nodeLists() ? rareData()->nodeLists()->cachedCollection<HTMLCollection>(type) : nullptr;
}
} // namespace WebCore