ladybird/Userland/Libraries/LibWeb/PerformanceTimeline/PerformanceObserver.cpp
Andreas Kling 175f3febb8 LibWeb: Make DOMException take error message as a String
There was no need to use FlyString for error messages, and it just
caused a bunch of churn since these strings typically only existed
during the lifetime of the error.
2024-10-12 21:14:18 +02:00

241 lines
12 KiB
C++

/*
* Copyright (c) 2023, Luke Wilde <lukew@serenityos.org>
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#include <LibWeb/Bindings/Intrinsics.h>
#include <LibWeb/Bindings/PerformanceObserverPrototype.h>
#include <LibWeb/HTML/WindowOrWorkerGlobalScope.h>
#include <LibWeb/HighResolutionTime/SupportedPerformanceTypes.h>
#include <LibWeb/PerformanceTimeline/EntryTypes.h>
#include <LibWeb/PerformanceTimeline/PerformanceEntry.h>
#include <LibWeb/PerformanceTimeline/PerformanceObserver.h>
#include <LibWeb/WebIDL/CallbackType.h>
#include <LibWeb/WebIDL/ExceptionOr.h>
namespace Web::PerformanceTimeline {
JS_DEFINE_ALLOCATOR(PerformanceObserver);
WebIDL::ExceptionOr<JS::NonnullGCPtr<PerformanceObserver>> PerformanceObserver::construct_impl(JS::Realm& realm, JS::GCPtr<WebIDL::CallbackType> callback)
{
return realm.heap().allocate<PerformanceObserver>(realm, realm, callback);
}
PerformanceObserver::PerformanceObserver(JS::Realm& realm, JS::GCPtr<WebIDL::CallbackType> callback)
: Bindings::PlatformObject(realm)
, m_callback(move(callback))
{
}
PerformanceObserver::~PerformanceObserver() = default;
void PerformanceObserver::initialize(JS::Realm& realm)
{
Base::initialize(realm);
WEB_SET_PROTOTYPE_FOR_INTERFACE(PerformanceObserver);
}
void PerformanceObserver::visit_edges(Cell::Visitor& visitor)
{
Base::visit_edges(visitor);
visitor.visit(m_callback);
visitor.visit(m_observer_buffer);
}
// https://w3c.github.io/performance-timeline/#dom-performanceobserver-observe
WebIDL::ExceptionOr<void> PerformanceObserver::observe(PerformanceObserverInit& options)
{
auto& realm = this->realm();
// 1. Let relevantGlobal be this's relevant global object.
auto* relevant_global = dynamic_cast<HTML::WindowOrWorkerGlobalScopeMixin*>(&HTML::relevant_global_object(*this));
VERIFY(relevant_global);
// 2. If options's entryTypes and type members are both omitted, then throw a "TypeError".
if (!options.entry_types.has_value() && !options.type.has_value())
return WebIDL::SimpleException { WebIDL::SimpleExceptionType::TypeError, "Must specify one of entryTypes or type"sv };
// 3. If options's entryTypes is present and any other member is also present, then throw a "TypeError".
if (options.entry_types.has_value() && (options.type.has_value() || options.buffered.has_value()))
return WebIDL::SimpleException { WebIDL::SimpleExceptionType::TypeError, "Cannot specify type or buffered if entryTypes is specified"sv };
// 4. Update or check this's observer type by running these steps:
// 1. If this's observer type is "undefined":
if (m_observer_type == ObserverType::Undefined) {
// 1. If options's entryTypes member is present, then set this's observer type to "multiple".
if (options.entry_types.has_value())
m_observer_type = ObserverType::Multiple;
// 2. If options's type member is present, then set this's observer type to "single".
if (options.type.has_value())
m_observer_type = ObserverType::Single;
}
// 2. If this's observer type is "single" and options's entryTypes member is present, then throw an "InvalidModificationError".
else if (m_observer_type == ObserverType::Single) {
if (options.entry_types.has_value())
return WebIDL::InvalidModificationError::create(realm, "Cannot change a PerformanceObserver from observing a single type to observing multiple types"_string);
}
// 3. If this's observer type is "multiple" and options's type member is present, then throw an "InvalidModificationError".
else if (m_observer_type == ObserverType::Multiple) {
if (options.type.has_value())
return WebIDL::InvalidModificationError::create(realm, "Cannot change a PerformanceObserver from observing multiple types to observing a single type"_string);
}
// 5. Set this's requires dropped entries to true.
m_requires_dropped_entries = true;
// 6. If this's observer type is "multiple", run the following steps:
if (m_observer_type == ObserverType::Multiple) {
// 1. Let entry types be options's entryTypes sequence.
VERIFY(options.entry_types.has_value());
auto& entry_types = options.entry_types.value();
// 2. Remove all types from entry types that are not contained in relevantGlobal's frozen array of supported entry types.
// The user agent SHOULD notify developers if entry types is modified. For example, a console warning listing removed
// types might be appropriate.
entry_types.remove_all_matching([](String const& type) {
#define __ENUMERATE_SUPPORTED_PERFORMANCE_ENTRY_TYPES(entry_type, cpp_class) \
if (entry_type == type) \
return false;
ENUMERATE_SUPPORTED_PERFORMANCE_ENTRY_TYPES
#undef __ENUMERATE_SUPPORTED_PERFORMANCE_ENTRY_TYPES
dbgln("Potential FIXME: Removing unsupported PerformanceEntry type '{}' from list of observed types in PerformanceObserver::observe()", type);
return true;
});
// 3. If the resulting entry types sequence is an empty sequence, abort these steps.
// The user agent SHOULD notify developers when the steps are aborted to notify that registration has been aborted.
// For example, a console warning might be appropriate.
if (entry_types.is_empty()) {
dbgln("Potential FIXME: Returning from PerformanceObserver::observe() as we don't support any of the specified types (or none was specified).");
return {};
}
// 4. If the list of registered performance observer objects of relevantGlobal contains a registered performance
// observer whose observer is this, replace its options list with a list containing options as its only item.
// 5. Otherwise, create and append a registered performance observer object to the list of registered performance
// observer objects of relevantGlobal, with observer set to this and options list set to a list containing
// options as its only item.
// NOTE: See the comment on PerformanceObserver::options_list about why this doesn't create a separate registered
// performance observer object.
m_options_list.clear();
m_options_list.append(options);
relevant_global->register_performance_observer({}, *this);
}
// 7. Otherwise, run the following steps:
else {
// 1. Assert that this's observer type is "single".
VERIFY(m_observer_type == ObserverType::Single);
// 2. If options's type is not contained in the relevantGlobal's frozen array of supported entry types, abort these steps.
// The user agent SHOULD notify developers when this happens, for instance via a console warning.
VERIFY(options.type.has_value());
auto& type = options.type.value();
bool recognized_type = false;
#define __ENUMERATE_SUPPORTED_PERFORMANCE_ENTRY_TYPES(entry_type, cpp_class) \
if (!recognized_type && entry_type == type) \
recognized_type = true;
ENUMERATE_SUPPORTED_PERFORMANCE_ENTRY_TYPES
#undef __ENUMERATE_SUPPORTED_PERFORMANCE_ENTRY_TYPES
if (!recognized_type) {
dbgln("Potential FIXME: Returning from PerformanceObserver::observe() as we don't support the PerformanceEntry type '{}'", type);
return {};
}
// 3. If the list of registered performance observer objects of relevantGlobal contains a registered performance
// observer obs whose observer is this:
if (relevant_global->has_registered_performance_observer(*this)) {
// 1. If obs's options list contains a PerformanceObserverInit item currentOptions whose type is equal to options's type,
// replace currentOptions with options in obs's options list.
auto index = m_options_list.find_first_index_if([&options](PerformanceObserverInit const& entry) {
return entry.type == options.type;
});
if (index.has_value()) {
m_options_list[index.value()] = options;
} else {
// Otherwise, append options to obs's options list.
m_options_list.append(options);
}
}
// 4. Otherwise, create and append a registered performance observer object to the list of registered performance
// observer objects of relevantGlobal, with observer set to the this and options list set to a list containing
// options as its only item.
else {
m_options_list.clear();
m_options_list.append(options);
relevant_global->register_performance_observer({}, *this);
}
// 5. If options's buffered flag is set:
if (options.buffered.has_value() && options.buffered.value()) {
// 1. Let tuple be the relevant performance entry tuple of options's type and relevantGlobal.
auto const& tuple = relevant_global->relevant_performance_entry_tuple(type);
// 2. For each entry in tuple's performance entry buffer:
for (auto const& entry : tuple.performance_entry_buffer) {
// 1. If should add entry with entry and options as parameters returns true, append entry to the observer buffer.
if (entry->should_add_entry(options) == ShouldAddEntry::Yes)
m_observer_buffer.append(*entry);
}
// 3. Queue the PerformanceObserver task with relevantGlobal as input.
relevant_global->queue_the_performance_observer_task();
}
}
return {};
}
// https://w3c.github.io/performance-timeline/#dom-performanceobserver-disconnect
void PerformanceObserver::disconnect()
{
// 1. Remove this from the list of registered performance observer objects of relevant global object.
auto* relevant_global = dynamic_cast<HTML::WindowOrWorkerGlobalScopeMixin*>(&HTML::relevant_global_object(*this));
VERIFY(relevant_global);
relevant_global->unregister_performance_observer({}, *this);
// 2. Empty this's observer buffer.
m_observer_buffer.clear();
// 3. Empty this's options list.
m_options_list.clear();
}
// https://w3c.github.io/performance-timeline/#dom-performanceobserver-takerecords
Vector<JS::Handle<PerformanceTimeline::PerformanceEntry>> PerformanceObserver::take_records()
{
// The takeRecords() method must return a copy of this's observer buffer, and also empty this's observer buffer.
Vector<JS::Handle<PerformanceTimeline::PerformanceEntry>> records;
for (auto& record : m_observer_buffer)
records.append(*record);
m_observer_buffer.clear();
return records;
}
// https://w3c.github.io/performance-timeline/#dom-performanceobserver-supportedentrytypes
JS::NonnullGCPtr<JS::Object> PerformanceObserver::supported_entry_types(JS::VM& vm)
{
// 1. Let globalObject be the environment settings object's global object.
auto* window_or_worker = dynamic_cast<HTML::WindowOrWorkerGlobalScopeMixin*>(&vm.get_global_object());
VERIFY(window_or_worker);
// 2. Return globalObject's frozen array of supported entry types.
return window_or_worker->supported_entry_types();
}
void PerformanceObserver::unset_requires_dropped_entries(Badge<HTML::WindowOrWorkerGlobalScopeMixin>)
{
m_requires_dropped_entries = false;
}
void PerformanceObserver::append_to_observer_buffer(Badge<HTML::WindowOrWorkerGlobalScopeMixin>, JS::NonnullGCPtr<PerformanceTimeline::PerformanceEntry> entry)
{
m_observer_buffer.append(entry);
}
}