Source/WebCore/dom/ContainerNodeAlgorithms.cpp - WebKit - Git at Google

 /*
  * 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, 2005, 2006, 2007, 2008, 2009, 2010, 2011, 2015 Apple Inc. All rights reserved.
  * Copyright (C) 2008 Nokia Corporation and/or its subsidiary(-ies)
  * Copyright (C) 2009 Torch Mobile Inc. All rights reserved. (http://www.torchmobile.com/)
  * Copyright (C) 2012 Google 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 "ContainerNodeAlgorithms.h"

 #include "HTMLFrameOwnerElement.h"
 #include "HTMLTextAreaElement.h"
 #include "InspectorInstrumentation.h"
 #include "ScriptDisallowedScope.h"
 #include "ShadowRoot.h"
 #include "TypedElementDescendantIterator.h"

 namespace WebCore {

 #if !ASSERT_DISABLED
 ContainerChildRemovalScope* ContainerChildRemovalScope::s_scope = nullptr;
 #endif

 enum class TreeScopeChange { Changed, DidNotChange };

 static void notifyNodeInsertedIntoDocument(ContainerNode& parentOfInsertedTree, Node& node, TreeScopeChange treeScopeChange, NodeVector& postInsertionNotificationTargets)
 {
     ASSERT(parentOfInsertedTree.isConnected());
     ASSERT(!node.isConnected());
     if (node.insertedIntoAncestor(Node::InsertionType { /* connectedToDocument */ true, treeScopeChange == TreeScopeChange::Changed }, parentOfInsertedTree) == Node::InsertedIntoAncestorResult::NeedsPostInsertionCallback)
         postInsertionNotificationTargets.append(node);

     if (!is<ContainerNode>(node))
         return;

     for (RefPtr<Node> child = downcast<ContainerNode>(node).firstChild(); child; child = child->nextSibling()) {
         RELEASE_ASSERT_WITH_SECURITY_IMPLICATION(node.isConnected() && child->parentNode() == &node);
         notifyNodeInsertedIntoDocument(parentOfInsertedTree, *child, treeScopeChange, postInsertionNotificationTargets);
     }

     if (!is<Element>(node))
         return;

     if (RefPtr<ShadowRoot> root = downcast<Element>(node).shadowRoot()) {
         RELEASE_ASSERT_WITH_SECURITY_IMPLICATION(node.isConnected() && root->host() == &node);
         notifyNodeInsertedIntoDocument(parentOfInsertedTree, *root, TreeScopeChange::DidNotChange, postInsertionNotificationTargets);
     }
 }

 static void notifyNodeInsertedIntoTree(ContainerNode& parentOfInsertedTree, Node& node, TreeScopeChange treeScopeChange, NodeVector& postInsertionNotificationTargets)
 {
     ASSERT(!parentOfInsertedTree.isConnected());
     ASSERT(!node.isConnected());

     if (node.insertedIntoAncestor(Node::InsertionType { /* connectedToDocument */ false, treeScopeChange == TreeScopeChange::Changed }, parentOfInsertedTree) == Node::InsertedIntoAncestorResult::NeedsPostInsertionCallback)
         postInsertionNotificationTargets.append(node);

     if (!is<ContainerNode>(node))
         return;

     for (RefPtr<Node> child = downcast<ContainerNode>(node).firstChild(); child; child = child->nextSibling())
         notifyNodeInsertedIntoTree(parentOfInsertedTree, *child, treeScopeChange, postInsertionNotificationTargets);

     if (!is<Element>(node))
         return;

     if (RefPtr<ShadowRoot> root = downcast<Element>(node).shadowRoot())
         notifyNodeInsertedIntoTree(parentOfInsertedTree, *root, TreeScopeChange::DidNotChange, postInsertionNotificationTargets);
 }

 NodeVector notifyChildNodeInserted(ContainerNode& parentOfInsertedTree, Node& node)
 {
     ASSERT(ScriptDisallowedScope::InMainThread::hasDisallowedScope());

     InspectorInstrumentation::didInsertDOMNode(node.document(), node);

     Ref<Document> protectDocument(node.document());
     Ref<Node> protectNode(node);

     NodeVector postInsertionNotificationTargets;

     // Tree scope has changed if the container node into which "node" is inserted is in a document or a shadow root.
     auto treeScopeChange = parentOfInsertedTree.isInTreeScope() ? TreeScopeChange::Changed : TreeScopeChange::DidNotChange;
     if (parentOfInsertedTree.isConnected())
         notifyNodeInsertedIntoDocument(parentOfInsertedTree, node, treeScopeChange, postInsertionNotificationTargets);
     else
         notifyNodeInsertedIntoTree(parentOfInsertedTree, node, treeScopeChange, postInsertionNotificationTargets);

     return postInsertionNotificationTargets;
 }

 static void notifyNodeRemovedFromDocument(ContainerNode& oldParentOfRemovedTree, TreeScopeChange treeScopeChange, Node& node)
 {
     ASSERT(oldParentOfRemovedTree.isConnected());
     ASSERT(node.isConnected());
     node.removedFromAncestor(Node::RemovalType { /* disconnectedFromDocument */ true, treeScopeChange == TreeScopeChange::Changed }, oldParentOfRemovedTree);

     if (!is<ContainerNode>(node))
         return;

     for (RefPtr<Node> child = downcast<ContainerNode>(node).firstChild(); child; child = child->nextSibling()) {
         RELEASE_ASSERT_WITH_SECURITY_IMPLICATION(!node.isConnected() && child->parentNode() == &node);
         notifyNodeRemovedFromDocument(oldParentOfRemovedTree, treeScopeChange, *child.get());
     }

     if (!is<Element>(node))
         return;

     if (RefPtr<ShadowRoot> root = downcast<Element>(node).shadowRoot()) {
         RELEASE_ASSERT_WITH_SECURITY_IMPLICATION(!node.isConnected() && root->host() == &node);
         notifyNodeRemovedFromDocument(oldParentOfRemovedTree, TreeScopeChange::DidNotChange, *root.get());
     }
 }

 static void notifyNodeRemovedFromTree(ContainerNode& oldParentOfRemovedTree, TreeScopeChange treeScopeChange, Node& node)
 {
     ASSERT(!oldParentOfRemovedTree.isConnected());

     node.removedFromAncestor(Node::RemovalType { /* disconnectedFromDocument */ false, treeScopeChange == TreeScopeChange::Changed }, oldParentOfRemovedTree);

     if (!is<ContainerNode>(node))
         return;

     for (RefPtr<Node> child = downcast<ContainerNode>(node).firstChild(); child; child = child->nextSibling())
         notifyNodeRemovedFromTree(oldParentOfRemovedTree, treeScopeChange, *child);

     if (!is<Element>(node))
         return;

     if (RefPtr<ShadowRoot> root = downcast<Element>(node).shadowRoot())
         notifyNodeRemovedFromTree(oldParentOfRemovedTree, TreeScopeChange::DidNotChange, *root);
 }

 void notifyChildNodeRemoved(ContainerNode& oldParentOfRemovedTree, Node& child)
 {
     // Assert that the caller of this function has an instance of ScriptDisallowedScope.
     ASSERT(!isMainThread() || ScriptDisallowedScope::InMainThread::hasDisallowedScope());
     ContainerChildRemovalScope removalScope(oldParentOfRemovedTree, child);

     // Tree scope has changed if the container node from which "node" is removed is in a document or a shadow root.
     auto treeScopeChange = oldParentOfRemovedTree.isInTreeScope() ? TreeScopeChange::Changed : TreeScopeChange::DidNotChange;
     if (child.isConnected())
         notifyNodeRemovedFromDocument(oldParentOfRemovedTree, treeScopeChange, child);
     else
         notifyNodeRemovedFromTree(oldParentOfRemovedTree, treeScopeChange, child);
 }

 void addChildNodesToDeletionQueue(Node*& head, Node*& tail, ContainerNode& container)
 {
     // We have to tell all children that their parent has died.
     RefPtr<Node> next = nullptr;
     for (RefPtr<Node> node = container.firstChild(); node; node = next) {
         ASSERT(!node->m_deletionHasBegun);

         next = node->nextSibling();
         node->setNextSibling(nullptr);
         node->setParentNode(nullptr);
         container.setFirstChild(next.get());
         if (next)
             next->setPreviousSibling(nullptr);

         if (!node->refCount()) {
 #ifndef NDEBUG
             node->m_deletionHasBegun = true;
 #endif
             // Add the node to the list of nodes to be deleted.
             // Reuse the nextSibling pointer for this purpose.
             if (tail)
                 tail->setNextSibling(node.get());
             else
                 head = node.get();

             tail = node.get();
         } else {
             node->setTreeScopeRecursively(container.document());
             if (node->isInTreeScope())
                 notifyChildNodeRemoved(container, *node);
             ASSERT_WITH_SECURITY_IMPLICATION(!node->isInTreeScope());
         }
     }

     container.setLastChild(nullptr);
 }

 void removeDetachedChildrenInContainer(ContainerNode& container)
 {
     // List of nodes to be deleted.
     Node* head = nullptr;
     Node* tail = nullptr;

     addChildNodesToDeletionQueue(head, tail, container);

     Node* node;
     Node* next;
     while ((node = head)) {
         ASSERT(node->m_deletionHasBegun);

         next = node->nextSibling();
         node->setNextSibling(nullptr);

         head = next;
         if (!next)
             tail = nullptr;

         if (is<ContainerNode>(*node))
             addChildNodesToDeletionQueue(head, tail, downcast<ContainerNode>(*node));

         delete node;
     }
 }

 #ifndef NDEBUG
 static unsigned assertConnectedSubrameCountIsConsistent(ContainerNode& node)
 {
     unsigned count = 0;

     if (is<Element>(node)) {
         if (is<HTMLFrameOwnerElement>(node) && downcast<HTMLFrameOwnerElement>(node).contentFrame())
             ++count;

         if (ShadowRoot* root = downcast<Element>(node).shadowRoot())
             count += assertConnectedSubrameCountIsConsistent(*root);
     }

     for (auto& child : childrenOfType<Element>(node))
         count += assertConnectedSubrameCountIsConsistent(child);

     // If we undercount there's possibly a security bug since we'd leave frames
     // in subtrees outside the document.
     ASSERT(node.connectedSubframeCount() >= count);

     // If we overcount it's safe, but not optimal because it means we'll traverse
     // through the document in disconnectSubframes looking for frames that have
     // already been disconnected.
     ASSERT(node.connectedSubframeCount() == count);

     return count;
 }
 #endif

 static void collectFrameOwners(Vector<Ref<HTMLFrameOwnerElement>>& frameOwners, ContainerNode& root)
 {
     auto elementDescendants = descendantsOfType<Element>(root);
     auto it = elementDescendants.begin();
     auto end = elementDescendants.end();
     while (it != end) {
         Element& element = *it;
         if (!element.connectedSubframeCount()) {
             it.traverseNextSkippingChildren();
             continue;
         }

         if (is<HTMLFrameOwnerElement>(element))
             frameOwners.append(downcast<HTMLFrameOwnerElement>(element));

         if (ShadowRoot* shadowRoot = element.shadowRoot())
             collectFrameOwners(frameOwners, *shadowRoot);
         ++it;
     }
 }

 void disconnectSubframes(ContainerNode& root, SubframeDisconnectPolicy policy)
 {
 #ifndef NDEBUG
     assertConnectedSubrameCountIsConsistent(root);
 #endif
     ASSERT(root.connectedSubframeCount());

     Vector<Ref<HTMLFrameOwnerElement>> frameOwners;

     if (policy == RootAndDescendants) {
         if (is<HTMLFrameOwnerElement>(root))
             frameOwners.append(downcast<HTMLFrameOwnerElement>(root));
     }

     collectFrameOwners(frameOwners, root);

     if (auto* shadowRoot = root.shadowRoot())
         collectFrameOwners(frameOwners, *shadowRoot);

     // Must disable frame loading in the subtree so an unload handler cannot
     // insert more frames and create loaded frames in detached subtrees.
     SubframeLoadingDisabler disabler(&root);

     bool isFirst = true;
     for (auto& owner : frameOwners) {
         // Don't need to traverse up the tree for the first owner since no
         // script could have moved it.
         if (isFirst || root.containsIncludingShadowDOM(&owner.get()))
             owner.get().disconnectContentFrame();
         isFirst = false;
     }
 }

 }
	/*
	* 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, 2005, 2006, 2007, 2008, 2009, 2010, 2011, 2015 Apple Inc. All rights reserved.
	* Copyright (C) 2008 Nokia Corporation and/or its subsidiary(-ies)
	* Copyright (C) 2009 Torch Mobile Inc. All rights reserved. (http://www.torchmobile.com/)
	* Copyright (C) 2012 Google 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 "ContainerNodeAlgorithms.h"

	#include "HTMLFrameOwnerElement.h"
	#include "HTMLTextAreaElement.h"
	#include "InspectorInstrumentation.h"
	#include "ScriptDisallowedScope.h"
	#include "ShadowRoot.h"
	#include "TypedElementDescendantIterator.h"

	namespace WebCore {

	#if !ASSERT_DISABLED
	ContainerChildRemovalScope* ContainerChildRemovalScope::s_scope = nullptr;
	#endif

	enum class TreeScopeChange { Changed, DidNotChange };

	static void notifyNodeInsertedIntoDocument(ContainerNode& parentOfInsertedTree, Node& node, TreeScopeChange treeScopeChange, NodeVector& postInsertionNotificationTargets)
	{
	ASSERT(parentOfInsertedTree.isConnected());
	ASSERT(!node.isConnected());
	if (node.insertedIntoAncestor(Node::InsertionType { /* connectedToDocument */ true, treeScopeChange == TreeScopeChange::Changed }, parentOfInsertedTree) == Node::InsertedIntoAncestorResult::NeedsPostInsertionCallback)
	postInsertionNotificationTargets.append(node);

	if (!is<ContainerNode>(node))
	return;

	for (RefPtr<Node> child = downcast<ContainerNode>(node).firstChild(); child; child = child->nextSibling()) {
	RELEASE_ASSERT_WITH_SECURITY_IMPLICATION(node.isConnected() && child->parentNode() == &node);
	notifyNodeInsertedIntoDocument(parentOfInsertedTree, *child, treeScopeChange, postInsertionNotificationTargets);
	}

	if (!is<Element>(node))
	return;

	if (RefPtr<ShadowRoot> root = downcast<Element>(node).shadowRoot()) {
	RELEASE_ASSERT_WITH_SECURITY_IMPLICATION(node.isConnected() && root->host() == &node);
	notifyNodeInsertedIntoDocument(parentOfInsertedTree, *root, TreeScopeChange::DidNotChange, postInsertionNotificationTargets);
	}
	}

	static void notifyNodeInsertedIntoTree(ContainerNode& parentOfInsertedTree, Node& node, TreeScopeChange treeScopeChange, NodeVector& postInsertionNotificationTargets)
	{
	ASSERT(!parentOfInsertedTree.isConnected());
	ASSERT(!node.isConnected());

	if (node.insertedIntoAncestor(Node::InsertionType { /* connectedToDocument */ false, treeScopeChange == TreeScopeChange::Changed }, parentOfInsertedTree) == Node::InsertedIntoAncestorResult::NeedsPostInsertionCallback)
	postInsertionNotificationTargets.append(node);

	if (!is<ContainerNode>(node))
	return;

	for (RefPtr<Node> child = downcast<ContainerNode>(node).firstChild(); child; child = child->nextSibling())
	notifyNodeInsertedIntoTree(parentOfInsertedTree, *child, treeScopeChange, postInsertionNotificationTargets);

	if (!is<Element>(node))
	return;

	if (RefPtr<ShadowRoot> root = downcast<Element>(node).shadowRoot())
	notifyNodeInsertedIntoTree(parentOfInsertedTree, *root, TreeScopeChange::DidNotChange, postInsertionNotificationTargets);
	}

	NodeVector notifyChildNodeInserted(ContainerNode& parentOfInsertedTree, Node& node)
	{
	ASSERT(ScriptDisallowedScope::InMainThread::hasDisallowedScope());

	InspectorInstrumentation::didInsertDOMNode(node.document(), node);

	Ref<Document> protectDocument(node.document());
	Ref<Node> protectNode(node);

	NodeVector postInsertionNotificationTargets;

	// Tree scope has changed if the container node into which "node" is inserted is in a document or a shadow root.
	auto treeScopeChange = parentOfInsertedTree.isInTreeScope() ? TreeScopeChange::Changed : TreeScopeChange::DidNotChange;
	if (parentOfInsertedTree.isConnected())
	notifyNodeInsertedIntoDocument(parentOfInsertedTree, node, treeScopeChange, postInsertionNotificationTargets);
	else
	notifyNodeInsertedIntoTree(parentOfInsertedTree, node, treeScopeChange, postInsertionNotificationTargets);

	return postInsertionNotificationTargets;
	}

	static void notifyNodeRemovedFromDocument(ContainerNode& oldParentOfRemovedTree, TreeScopeChange treeScopeChange, Node& node)
	{
	ASSERT(oldParentOfRemovedTree.isConnected());
	ASSERT(node.isConnected());
	node.removedFromAncestor(Node::RemovalType { /* disconnectedFromDocument */ true, treeScopeChange == TreeScopeChange::Changed }, oldParentOfRemovedTree);

	if (!is<ContainerNode>(node))
	return;

	for (RefPtr<Node> child = downcast<ContainerNode>(node).firstChild(); child; child = child->nextSibling()) {
	RELEASE_ASSERT_WITH_SECURITY_IMPLICATION(!node.isConnected() && child->parentNode() == &node);
	notifyNodeRemovedFromDocument(oldParentOfRemovedTree, treeScopeChange, *child.get());
	}

	if (!is<Element>(node))
	return;

	if (RefPtr<ShadowRoot> root = downcast<Element>(node).shadowRoot()) {
	RELEASE_ASSERT_WITH_SECURITY_IMPLICATION(!node.isConnected() && root->host() == &node);
	notifyNodeRemovedFromDocument(oldParentOfRemovedTree, TreeScopeChange::DidNotChange, *root.get());
	}
	}

	static void notifyNodeRemovedFromTree(ContainerNode& oldParentOfRemovedTree, TreeScopeChange treeScopeChange, Node& node)
	{
	ASSERT(!oldParentOfRemovedTree.isConnected());

	node.removedFromAncestor(Node::RemovalType { /* disconnectedFromDocument */ false, treeScopeChange == TreeScopeChange::Changed }, oldParentOfRemovedTree);

	if (!is<ContainerNode>(node))
	return;

	for (RefPtr<Node> child = downcast<ContainerNode>(node).firstChild(); child; child = child->nextSibling())
	notifyNodeRemovedFromTree(oldParentOfRemovedTree, treeScopeChange, *child);

	if (!is<Element>(node))
	return;

	if (RefPtr<ShadowRoot> root = downcast<Element>(node).shadowRoot())
	notifyNodeRemovedFromTree(oldParentOfRemovedTree, TreeScopeChange::DidNotChange, *root);
	}

	void notifyChildNodeRemoved(ContainerNode& oldParentOfRemovedTree, Node& child)
	{
	// Assert that the caller of this function has an instance of ScriptDisallowedScope.
	ASSERT(!isMainThread() \|\| ScriptDisallowedScope::InMainThread::hasDisallowedScope());
	ContainerChildRemovalScope removalScope(oldParentOfRemovedTree, child);

	// Tree scope has changed if the container node from which "node" is removed is in a document or a shadow root.
	auto treeScopeChange = oldParentOfRemovedTree.isInTreeScope() ? TreeScopeChange::Changed : TreeScopeChange::DidNotChange;
	if (child.isConnected())
	notifyNodeRemovedFromDocument(oldParentOfRemovedTree, treeScopeChange, child);
	else
	notifyNodeRemovedFromTree(oldParentOfRemovedTree, treeScopeChange, child);
	}

	void addChildNodesToDeletionQueue(Node& head, Node& tail, ContainerNode& container)
	{
	// We have to tell all children that their parent has died.
	RefPtr<Node> next = nullptr;
	for (RefPtr<Node> node = container.firstChild(); node; node = next) {
	ASSERT(!node->m_deletionHasBegun);

	next = node->nextSibling();
	node->setNextSibling(nullptr);
	node->setParentNode(nullptr);
	container.setFirstChild(next.get());
	if (next)
	next->setPreviousSibling(nullptr);

	if (!node->refCount()) {
	#ifndef NDEBUG
	node->m_deletionHasBegun = true;
	#endif
	// Add the node to the list of nodes to be deleted.
	// Reuse the nextSibling pointer for this purpose.
	if (tail)
	tail->setNextSibling(node.get());
	else
	head = node.get();

	tail = node.get();
	} else {
	node->setTreeScopeRecursively(container.document());
	if (node->isInTreeScope())
	notifyChildNodeRemoved(container, *node);
	ASSERT_WITH_SECURITY_IMPLICATION(!node->isInTreeScope());
	}
	}

	container.setLastChild(nullptr);
	}

	void removeDetachedChildrenInContainer(ContainerNode& container)
	{
	// List of nodes to be deleted.
	Node* head = nullptr;
	Node* tail = nullptr;

	addChildNodesToDeletionQueue(head, tail, container);

	Node* node;
	Node* next;
	while ((node = head)) {
	ASSERT(node->m_deletionHasBegun);

	next = node->nextSibling();
	node->setNextSibling(nullptr);

	head = next;
	if (!next)
	tail = nullptr;

	if (is<ContainerNode>(*node))
	addChildNodesToDeletionQueue(head, tail, downcast<ContainerNode>(*node));

	delete node;
	}
	}

	#ifndef NDEBUG
	static unsigned assertConnectedSubrameCountIsConsistent(ContainerNode& node)
	{
	unsigned count = 0;

	if (is<Element>(node)) {
	if (is<HTMLFrameOwnerElement>(node) && downcast<HTMLFrameOwnerElement>(node).contentFrame())
	++count;

	if (ShadowRoot* root = downcast<Element>(node).shadowRoot())
	count += assertConnectedSubrameCountIsConsistent(*root);
	}

	for (auto& child : childrenOfType<Element>(node))
	count += assertConnectedSubrameCountIsConsistent(child);

	// If we undercount there's possibly a security bug since we'd leave frames
	// in subtrees outside the document.
	ASSERT(node.connectedSubframeCount() >= count);

	// If we overcount it's safe, but not optimal because it means we'll traverse
	// through the document in disconnectSubframes looking for frames that have
	// already been disconnected.
	ASSERT(node.connectedSubframeCount() == count);

	return count;
	}
	#endif

	static void collectFrameOwners(Vector<Ref<HTMLFrameOwnerElement>>& frameOwners, ContainerNode& root)
	{
	auto elementDescendants = descendantsOfType<Element>(root);
	auto it = elementDescendants.begin();
	auto end = elementDescendants.end();
	while (it != end) {
	Element& element = *it;
	if (!element.connectedSubframeCount()) {
	it.traverseNextSkippingChildren();
	continue;
	}

	if (is<HTMLFrameOwnerElement>(element))
	frameOwners.append(downcast<HTMLFrameOwnerElement>(element));

	if (ShadowRoot* shadowRoot = element.shadowRoot())
	collectFrameOwners(frameOwners, *shadowRoot);
	++it;
	}
	}

	void disconnectSubframes(ContainerNode& root, SubframeDisconnectPolicy policy)
	{
	#ifndef NDEBUG
	assertConnectedSubrameCountIsConsistent(root);
	#endif
	ASSERT(root.connectedSubframeCount());

	Vector<Ref<HTMLFrameOwnerElement>> frameOwners;

	if (policy == RootAndDescendants) {
	if (is<HTMLFrameOwnerElement>(root))
	frameOwners.append(downcast<HTMLFrameOwnerElement>(root));
	}

	collectFrameOwners(frameOwners, root);

	if (auto* shadowRoot = root.shadowRoot())
	collectFrameOwners(frameOwners, *shadowRoot);

	// Must disable frame loading in the subtree so an unload handler cannot
	// insert more frames and create loaded frames in detached subtrees.
	SubframeLoadingDisabler disabler(&root);

	bool isFirst = true;
	for (auto& owner : frameOwners) {
	// Don't need to traverse up the tree for the first owner since no
	// script could have moved it.
	if (isFirst \|\| root.containsIncludingShadowDOM(&owner.get()))
	owner.get().disconnectContentFrame();
	isFirst = false;
	}
	}

	}