MutationObserver.cpp [plain text]
#include "config.h"
#include "MutationObserver.h"
#include "Document.h"
#include "GCReachableRef.h"
#include "HTMLSlotElement.h"
#include "InspectorInstrumentation.h"
#include "MutationCallback.h"
#include "MutationObserverRegistration.h"
#include "MutationRecord.h"
#include "WindowEventLoop.h"
#include <algorithm>
#include <wtf/IsoMallocInlines.h>
#include <wtf/MainThread.h>
#include <wtf/NeverDestroyed.h>
namespace WebCore {
WTF_MAKE_ISO_ALLOCATED_IMPL(MutationObserver);
static unsigned s_observerPriority = 0;
Ref<MutationObserver> MutationObserver::create(Ref<MutationCallback>&& callback)
{
ASSERT(isMainThread());
return adoptRef(*new MutationObserver(WTFMove(callback)));
}
MutationObserver::MutationObserver(Ref<MutationCallback>&& callback)
: m_callback(WTFMove(callback))
, m_priority(s_observerPriority++)
{
}
MutationObserver::~MutationObserver()
{
ASSERT(m_registrations.isEmpty());
}
bool MutationObserver::validateOptions(MutationObserverOptions options)
{
return (options & (Attributes | CharacterData | ChildList))
&& ((options & Attributes) || !(options & AttributeOldValue))
&& ((options & Attributes) || !(options & AttributeFilter))
&& ((options & CharacterData) || !(options & CharacterDataOldValue));
}
ExceptionOr<void> MutationObserver::observe(Node& node, const Init& init)
{
MutationObserverOptions options = 0;
if (init.childList)
options |= ChildList;
if (init.subtree)
options |= Subtree;
if (init.attributeOldValue.valueOr(false))
options |= AttributeOldValue;
if (init.characterDataOldValue.valueOr(false))
options |= CharacterDataOldValue;
HashSet<AtomString> attributeFilter;
if (init.attributeFilter) {
for (auto& value : init.attributeFilter.value())
attributeFilter.add(value);
options |= AttributeFilter;
}
if (init.attributes ? init.attributes.value() : (options & (AttributeFilter | AttributeOldValue)))
options |= Attributes;
if (init.characterData ? init.characterData.value() : (options & CharacterDataOldValue))
options |= CharacterData;
if (!validateOptions(options))
return Exception { TypeError };
node.registerMutationObserver(*this, options, attributeFilter);
return { };
}
auto MutationObserver::takeRecords() -> TakenRecords
{
return { WTFMove(m_records), WTFMove(m_pendingTargets) };
}
void MutationObserver::disconnect()
{
m_pendingTargets.clear();
m_records.clear();
HashSet<MutationObserverRegistration*> registrations(m_registrations);
for (auto* registration : registrations)
registration->node().unregisterMutationObserver(*registration);
}
void MutationObserver::observationStarted(MutationObserverRegistration& registration)
{
ASSERT(!m_registrations.contains(®istration));
m_registrations.add(®istration);
}
void MutationObserver::observationEnded(MutationObserverRegistration& registration)
{
ASSERT(m_registrations.contains(®istration));
m_registrations.remove(®istration);
}
void MutationObserver::enqueueMutationRecord(Ref<MutationRecord>&& mutation)
{
ASSERT(isMainThread());
ASSERT(mutation->target());
auto document = makeRef(mutation->target()->document());
m_pendingTargets.add(*mutation->target());
m_records.append(WTFMove(mutation));
auto eventLoop = makeRef(document->windowEventLoop());
eventLoop->activeMutationObservers().add(this);
eventLoop->queueMutationObserverCompoundMicrotask();
}
void MutationObserver::enqueueSlotChangeEvent(HTMLSlotElement& slot)
{
ASSERT(isMainThread());
auto eventLoop = makeRef(slot.document().windowEventLoop());
auto& list = eventLoop->signalSlotList();
ASSERT(list.findMatching([&slot](auto& entry) { return entry.ptr() == &slot; }) == notFound);
list.append(slot);
eventLoop->queueMutationObserverCompoundMicrotask();
}
void MutationObserver::setHasTransientRegistration(Document& document)
{
auto eventLoop = makeRef(document.windowEventLoop());
eventLoop->activeMutationObservers().add(this);
eventLoop->queueMutationObserverCompoundMicrotask();
}
HashSet<Node*> MutationObserver::observedNodes() const
{
HashSet<Node*> observedNodes;
for (auto* registration : m_registrations)
registration->addRegistrationNodesToSet(observedNodes);
return observedNodes;
}
bool MutationObserver::canDeliver()
{
return m_callback->canInvokeCallback();
}
void MutationObserver::deliver()
{
ASSERT(canDeliver());
Vector<MutationObserverRegistration*, 1> transientRegistrations;
Vector<std::unique_ptr<HashSet<GCReachableRef<Node>>>, 1> nodesToKeepAlive;
HashSet<GCReachableRef<Node>> pendingTargets;
pendingTargets.swap(m_pendingTargets);
for (auto* registration : m_registrations) {
if (registration->hasTransientRegistrations())
transientRegistrations.append(registration);
}
for (auto& registration : transientRegistrations)
nodesToKeepAlive.append(registration->takeTransientRegistrations());
if (m_records.isEmpty()) {
ASSERT(m_pendingTargets.isEmpty());
return;
}
Vector<Ref<MutationRecord>> records;
records.swap(m_records);
if (m_callback->hasCallback()) {
auto* context = m_callback->scriptExecutionContext();
if (!context)
return;
InspectorInstrumentation::willFireObserverCallback(*context, "MutationObserver"_s);
m_callback->handleEvent(*this, records, *this);
InspectorInstrumentation::didFireObserverCallback(*context);
}
}
void MutationObserver::notifyMutationObservers(WindowEventLoop& eventLoop)
{
if (!eventLoop.suspendedMutationObservers().isEmpty()) {
for (auto& observer : copyToVector(eventLoop.suspendedMutationObservers())) {
if (!observer->canDeliver())
continue;
eventLoop.suspendedMutationObservers().remove(observer);
eventLoop.activeMutationObservers().add(observer);
}
}
while (!eventLoop.activeMutationObservers().isEmpty() || !eventLoop.signalSlotList().isEmpty()) {
auto notifyList = copyToVector(eventLoop.activeMutationObservers());
eventLoop.activeMutationObservers().clear();
std::sort(notifyList.begin(), notifyList.end(), [](auto& lhs, auto& rhs) {
return lhs->m_priority < rhs->m_priority;
});
Vector<GCReachableRef<HTMLSlotElement>> slotList;
if (!eventLoop.signalSlotList().isEmpty()) {
slotList.swap(eventLoop.signalSlotList());
for (auto& slot : slotList)
slot->didRemoveFromSignalSlotList();
}
for (auto& observer : notifyList) {
if (observer->canDeliver())
observer->deliver();
else
eventLoop.suspendedMutationObservers().add(observer);
}
for (auto& slot : slotList)
slot->dispatchSlotChangeEvent();
}
}
}