/*
* Copyright (c) 2022, Andreas Kling <kling@serenityos.org>
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#include <AK/QuickSort.h>
#include <LibWeb/Bindings/MainThreadVM.h>
#include <LibWeb/DOM/Document.h>
#include <LibWeb/HTML/BrowsingContextGroup.h>
#include <LibWeb/HTML/DocumentState.h>
#include <LibWeb/HTML/Navigation.h>
#include <LibWeb/HTML/NavigationParams.h>
#include <LibWeb/HTML/Parser/HTMLParser.h>
#include <LibWeb/HTML/SessionHistoryEntry.h>
#include <LibWeb/HTML/TraversableNavigable.h>
#include <LibWeb/HTML/Window.h>
#include <LibWeb/Page/Page.h>
#include <LibWeb/Platform/EventLoopPlugin.h>
namespace Web::HTML {
JS_DEFINE_ALLOCATOR(TraversableNavigable);
TraversableNavigable::TraversableNavigable(JS::NonnullGCPtr<Page> page)
: Navigable(page)
, m_session_history_traversal_queue(vm().heap().allocate_without_realm<SessionHistoryTraversalQueue>())
{
}
TraversableNavigable::~TraversableNavigable() = default;
void TraversableNavigable::visit_edges(Cell::Visitor& visitor)
{
Base::visit_edges(visitor);
visitor.visit(m_session_history_entries);
visitor.visit(m_session_history_traversal_queue);
}
static OrderedHashTable<TraversableNavigable*>& user_agent_top_level_traversable_set()
{
static OrderedHashTable<TraversableNavigable*> set;
return set;
}
// https://html.spec.whatwg.org/multipage/document-sequences.html#creating-a-new-top-level-browsing-context
WebIDL::ExceptionOr<BrowsingContextAndDocument> create_a_new_top_level_browsing_context_and_document(JS::NonnullGCPtr<Page> page)
{
// 1. Let group and document be the result of creating a new browsing context group and document.
auto [group, document] = TRY(BrowsingContextGroup::create_a_new_browsing_context_group_and_document(page));
// 2. Return group's browsing context set[0] and document.
return BrowsingContextAndDocument { **group->browsing_context_set().begin(), document };
}
// https://html.spec.whatwg.org/multipage/document-sequences.html#creating-a-new-top-level-traversable
WebIDL::ExceptionOr<JS::NonnullGCPtr<TraversableNavigable>> TraversableNavigable::create_a_new_top_level_traversable(JS::NonnullGCPtr<Page> page, JS::GCPtr<HTML::BrowsingContext> opener, String target_name)
{
auto& vm = Bindings::main_thread_vm();
// 1. Let document be null.
JS::GCPtr<DOM::Document> document = nullptr;
// 2. If opener is null, then set document to the second return value of creating a new top-level browsing context and document.
if (!opener) {
document = TRY(create_a_new_top_level_browsing_context_and_document(page)).document;
}
// 3. Otherwise, set document to the second return value of creating a new auxiliary browsing context and document given opener.
else {
document = TRY(BrowsingContext::create_a_new_auxiliary_browsing_context_and_document(page, *opener)).document;
}
// 4. Let documentState be a new document state, with
auto document_state = vm.heap().allocate_without_realm<DocumentState>();
// document: document
document_state->set_document(document);
// initiator origin: null if opener is null; otherwise, document's origin
document_state->set_initiator_origin(opener ? Optional<Origin> {} : document->origin());
// origin: document's origin
document_state->set_origin(document->origin());
// navigable target name: targetName
document_state->set_navigable_target_name(target_name);
// about base URL: document's about base URL
document_state->set_about_base_url(document->about_base_url());
// 5. Let traversable be a new traversable navigable.
auto traversable = vm.heap().allocate_without_realm<TraversableNavigable>(page);
// 6. Initialize the navigable traversable given documentState.
TRY_OR_THROW_OOM(vm, traversable->initialize_navigable(document_state, nullptr));
// 7. Let initialHistoryEntry be traversable's active session history entry.
auto initial_history_entry = traversable->active_session_history_entry();
VERIFY(initial_history_entry);
// 8. Set initialHistoryEntry's step to 0.
initial_history_entry->set_step(0);
// 9. Append initialHistoryEntry to traversable's session history entries.
traversable->m_session_history_entries.append(*initial_history_entry);
// FIXME: 10. If opener is non-null, then legacy-clone a traversable storage shed given opener's top-level traversable and traversable. [STORAGE]
// 11. Append traversable to the user agent's top-level traversable set.
user_agent_top_level_traversable_set().set(traversable);
// 12. Return traversable.
return traversable;
}
// https://html.spec.whatwg.org/multipage/document-sequences.html#create-a-fresh-top-level-traversable
WebIDL::ExceptionOr<JS::NonnullGCPtr<TraversableNavigable>> TraversableNavigable::create_a_fresh_top_level_traversable(JS::NonnullGCPtr<Page> page, URL::URL const& initial_navigation_url, Variant<Empty, String, POSTResource> initial_navigation_post_resource)
{
// 1. Let traversable be the result of creating a new top-level traversable given null and the empty string.
auto traversable = TRY(create_a_new_top_level_traversable(page, nullptr, {}));
page->set_top_level_traversable(traversable);
// AD-HOC: Mark the about:blank document as finished parsing if we're only going to about:blank
// Skip the initial navigation as well. This matches the behavior of the window open steps.
if (url_matches_about_blank(initial_navigation_url)) {
Platform::EventLoopPlugin::the().deferred_invoke([traversable, initial_navigation_url] {
// FIXME: We do this other places too when creating a new about:blank document. Perhaps it's worth a spec issue?
HTML::HTMLParser::the_end(*traversable->active_document());
// FIXME: If we perform the URL and history update steps here, we start hanging tests and the UI process will
// try to load() the initial URLs passed on the command line before we finish processing the events here.
// However, because we call this before the PageClient is fully initialized... that gets awkward.
});
}
else {
// 2. Navigate traversable to initialNavigationURL using traversable's active document, with documentResource set to initialNavigationPostResource.
TRY(traversable->navigate({ .url = initial_navigation_url,
.source_document = *traversable->active_document(),
.document_resource = initial_navigation_post_resource }));
}
// 3. Return traversable.
return traversable;
}
// https://html.spec.whatwg.org/multipage/document-sequences.html#top-level-traversable
bool TraversableNavigable::is_top_level_traversable() const
{
// A top-level traversable is a traversable navigable with a null parent.
return parent() == nullptr;
}
// https://html.spec.whatwg.org/multipage/browsing-the-web.html#getting-all-used-history-steps
Vector<int> TraversableNavigable::get_all_used_history_steps() const
{
// FIXME: 1. Assert: this is running within traversable's session history traversal queue.
// 2. Let steps be an empty ordered set of non-negative integers.
OrderedHashTable<int> steps;
// 3. Let entryLists be the ordered set « traversable's session history entries ».
Vector<Vector<JS::NonnullGCPtr<SessionHistoryEntry>>> entry_lists { session_history_entries() };
// 4. For each entryList of entryLists:
while (!entry_lists.is_empty()) {
auto entry_list = entry_lists.take_first();
// 1. For each entry of entryList:
for (auto& entry : entry_list) {
// 1. Append entry's step to steps.
steps.set(entry->step().get<int>());
// 2. For each nestedHistory of entry's document state's nested histories, append nestedHistory's entries list to entryLists.
for (auto& nested_history : entry->document_state()->nested_histories())
entry_lists.append(nested_history.entries);
}
}
// 5. Return steps, sorted.
auto sorted_steps = steps.values();
quick_sort(sorted_steps);
return sorted_steps;
}
// https://html.spec.whatwg.org/multipage/browsing-the-web.html#getting-the-history-object-length-and-index
TraversableNavigable::HistoryObjectLengthAndIndex TraversableNavigable::get_the_history_object_length_and_index(int step) const
{
// 1. Let steps be the result of getting all used history steps within traversable.
auto steps = get_all_used_history_steps();
// 2. Let scriptHistoryLength be the size of steps.
auto script_history_length = steps.size();
// 3. Assert: steps contains step.
VERIFY(steps.contains_slow(step));
// 4. Let scriptHistoryIndex be the index of step in steps.
auto script_history_index = *steps.find_first_index(step);
// 5. Return (scriptHistoryLength, scriptHistoryIndex).
return HistoryObjectLengthAndIndex {
.script_history_length = script_history_length,
.script_history_index = script_history_index
};
}
// https://html.spec.whatwg.org/multipage/browsing-the-web.html#getting-the-used-step
int TraversableNavigable::get_the_used_step(int step) const
{
// 1. Let steps be the result of getting all used history steps within traversable.
auto steps = get_all_used_history_steps();
// 2. Return the greatest item in steps that is less than or equal to step.
VERIFY(!steps.is_empty());
Optional<int> result;
for (size_t i = 0; i < steps.size(); i++) {
if (steps[i] <= step) {
if (!result.has_value() || (result.value() < steps[i])) {
result = steps[i];
}
}
}
return result.value();
}
// https://html.spec.whatwg.org/multipage/browsing-the-web.html#get-all-navigables-whose-current-session-history-entry-will-change-or-reload
Vector<JS::Handle<Navigable>> TraversableNavigable::get_all_navigables_whose_current_session_history_entry_will_change_or_reload(int target_step) const
{
// 1. Let results be an empty list.
Vector<JS::Handle<Navigable>> results;
// 2. Let navigablesToCheck be « traversable ».
Vector<JS::Handle<Navigable>> navigables_to_check;
navigables_to_check.append(const_cast<TraversableNavigable&>(*this));
// 3. For each navigable of navigablesToCheck:
while (!navigables_to_check.is_empty()) {
auto navigable = navigables_to_check.take_first();
// 1. Let targetEntry be the result of getting the target history entry given navigable and targetStep.
auto target_entry = navigable->get_the_target_history_entry(target_step);
// 2. If targetEntry is not navigable's current session history entry or targetEntry's document state's reload pending is true, then append navigable to results.
if (target_entry != navigable->current_session_history_entry() || target_entry->document_state()->reload_pending()) {
results.append(*navigable);
}
// 3. If targetEntry's document is navigable's document, and targetEntry's document state's reload pending is false, then extend navigablesToCheck with the child navigables of navigable.
if (target_entry->document() == navigable->active_document() && !target_entry->document_state()->reload_pending()) {
navigables_to_check.extend(navigable->child_navigables());
}
}
// 4. Return results.
return results;
}
// https://html.spec.whatwg.org/multipage/browsing-the-web.html#getting-all-navigables-that-only-need-history-object-length/index-update
Vector<JS::Handle<Navigable>> TraversableNavigable::get_all_navigables_that_only_need_history_object_length_index_update(int target_step) const
{
// NOTE: Other navigables might not be impacted by the traversal. For example, if the response is a 204, the currently active document will remain.
// Additionally, going 'back' after a 204 will change the current session history entry, but the active session history entry will already be correct.
// 1. Let results be an empty list.
Vector<JS::Handle<Navigable>> results;
// 2. Let navigablesToCheck be « traversable ».
Vector<JS::Handle<Navigable>> navigables_to_check;
navigables_to_check.append(const_cast<TraversableNavigable&>(*this));
// 3. For each navigable of navigablesToCheck:
while (!navigables_to_check.is_empty()) {
auto navigable = navigables_to_check.take_first();
// 1. Let targetEntry be the result of getting the target history entry given navigable and targetStep.
auto target_entry = navigable->get_the_target_history_entry(target_step);
// 2. If targetEntry is navigable's current session history entry and targetEntry's document state's reload pending is false, then:
if (target_entry == navigable->current_session_history_entry() && !target_entry->document_state()->reload_pending()) {
// 1. Append navigable to results.
results.append(navigable);
// 2. Extend navigablesToCheck with navigable's child navigables.
navigables_to_check.extend(navigable->child_navigables());
}
}
// 4. Return results.
return results;
}
// https://html.spec.whatwg.org/multipage/browsing-the-web.html#getting-all-navigables-that-might-experience-a-cross-document-traversal
Vector<JS::Handle<Navigable>> TraversableNavigable::get_all_navigables_that_might_experience_a_cross_document_traversal(int target_step) const
{
// NOTE: From traversable's session history traversal queue's perspective, these documents are candidates for going cross-document during the
// traversal described by targetStep. They will not experience a cross-document traversal if the status code for their target document is
// HTTP 204 No Content.
// Note that if a given navigable might experience a cross-document traversal, this algorithm will return navigable but not its child navigables.
// Those would end up unloaded, not traversed.
// 1. Let results be an empty list.
Vector<JS::Handle<Navigable>> results;
// 2. Let navigablesToCheck be « traversable ».
Vector<JS::Handle<Navigable>> navigables_to_check;
navigables_to_check.append(const_cast<TraversableNavigable&>(*this));
// 3. For each navigable of navigablesToCheck:
while (!navigables_to_check.is_empty()) {
auto navigable = navigables_to_check.take_first();
// 1. Let targetEntry be the result of getting the target history entry given navigable and targetStep.
auto target_entry = navigable->get_the_target_history_entry(target_step);
// 2. If targetEntry's document is not navigable's document or targetEntry's document state's reload pending is true, then append navigable to results.
// NOTE: Although navigable's active history entry can change synchronously, the new entry will always have the same Document,
// so accessing navigable's document is reliable.
if (target_entry->document() != navigable->active_document() || target_entry->document_state()->reload_pending()) {
results.append(navigable);
}
// 3. Otherwise, extend navigablesToCheck with navigable's child navigables.
// Adding child navigables to navigablesToCheck means those navigables will also be checked by this loop.
// Child navigables are only checked if the navigable's active document will not change as part of this traversal.
else {
navigables_to_check.extend(navigable->child_navigables());
}
}
// 4. Return results.
return results;
}
// https://html.spec.whatwg.org/multipage/browsing-the-web.html#deactivate-a-document-for-a-cross-document-navigation
static void deactivate_a_document_for_cross_document_navigation(JS::NonnullGCPtr<DOM::Document> displayed_document, Optional<UserNavigationInvolvement>, JS::NonnullGCPtr<SessionHistoryEntry> target_entry, JS::NonnullGCPtr<JS::HeapFunction<void()>> after_potential_unloads)
{
// 1. Let navigable be displayedDocument's node navigable.
auto navigable = displayed_document->navigable();
// 2. Let potentiallyTriggerViewTransition be false.
auto potentially_trigger_view_transition = false;
// FIXME: 3. Let isBrowserUINavigation be true if userNavigationInvolvement is "browser UI"; otherwise false.
// FIXME: 4. Set potentiallyTriggerViewTransition to the result of calling can navigation trigger a cross-document
// view-transition? given displayedDocument, targetEntry's document, navigationType, and isBrowserUINavigation.
// 5. If potentiallyTriggerViewTransition is false, then:
if (!potentially_trigger_view_transition) {
// FIXME 1. Let firePageSwapBeforeUnload be the following step
// 1. Fire the pageswap event given displayedDocument, targetEntry, navigationType, and null.
// 2. Set the ongoing navigation for navigable to null.
navigable->set_ongoing_navigation({});
// 3. Unload a document and its descendants given displayedDocument, targetEntry's document, afterPotentialUnloads, and firePageSwapBeforeUnload.
displayed_document->unload_a_document_and_its_descendants(target_entry->document(), after_potential_unloads);
}
// FIXME: 6. Otherwise, queue a global task on the navigation and traversal task source given navigable's active window to run the steps:
else {
// FIXME: 1. Let proceedWithNavigationAfterViewTransitionCapture be the following step:
// 1. Append the following session history traversal steps to navigable's traversable navigable:
// 1. Set the ongoing navigation for navigable to null.
// 2. Unload a document and its descendants given displayedDocument, targetEntry's document, and afterPotentialUnloads.
// FIXME: 2. Let viewTransition be the result of setting up a cross-document view-transition given displayedDocument,
// targetEntry's document, navigationType, and proceedWithNavigationAfterViewTransitionCapture.
// FIXME: 3. Fire the pageswap event given displayedDocument, targetEntry, navigationType, and viewTransition.
// FIXME: 4. If viewTransition is null, then run proceedWithNavigationAfterViewTransitionCapture.
TODO();
}
}
struct ChangingNavigableContinuationState : public JS::Cell {
JS_CELL(ChangingNavigableContinuationState, JS::Cell);
JS_DECLARE_ALLOCATOR(ChangingNavigableContinuationState);
JS::GCPtr<DOM::Document> displayed_document;
JS::GCPtr<SessionHistoryEntry> target_entry;
JS::GCPtr<Navigable> navigable;
bool update_only = false;
JS::GCPtr<SessionHistoryEntry> populated_target_entry;
bool populated_cloned_target_session_history_entry = false;
virtual void visit_edges(Cell::Visitor& visitor) override
{
Base::visit_edges(visitor);
visitor.visit(displayed_document);
visitor.visit(target_entry);
visitor.visit(navigable);
visitor.visit(populated_target_entry);
}
};
JS_DEFINE_ALLOCATOR(ChangingNavigableContinuationState);
// https://html.spec.whatwg.org/multipage/browsing-the-web.html#apply-the-history-step
TraversableNavigable::HistoryStepResult TraversableNavigable::apply_the_history_step(
int step,
bool check_for_cancelation,
IGNORE_USE_IN_ESCAPING_LAMBDA Optional<SourceSnapshotParams> source_snapshot_params,
JS::GCPtr<Navigable> initiator_to_check,
Optional<UserNavigationInvolvement> user_involvement_for_navigate_events,
IGNORE_USE_IN_ESCAPING_LAMBDA Optional<Bindings::NavigationType> navigation_type,
IGNORE_USE_IN_ESCAPING_LAMBDA SynchronousNavigation synchronous_navigation)
{
auto& vm = this->vm();
// FIXME: 1. Assert: This is running within traversable's session history traversal queue.
// 2. Let targetStep be the result of getting the used step given traversable and step.
auto target_step = get_the_used_step(step);
// Note: Calling this early so we can re-use the same list in 3.2 and 6.
auto change_or_reload_navigables = get_all_navigables_whose_current_session_history_entry_will_change_or_reload(target_step);
// 3. If initiatorToCheck is not null, then:
if (initiator_to_check != nullptr) {
// 1. Assert: sourceSnapshotParams is not null.
VERIFY(source_snapshot_params.has_value());
// 2. For each navigable of get all navigables whose current session history entry will change or reload:
// if initiatorToCheck is not allowed by sandboxing to navigate navigable given sourceSnapshotParams, then return "initiator-disallowed".
for (auto const& navigable : change_or_reload_navigables) {
if (!initiator_to_check->allowed_by_sandboxing_to_navigate(*navigable, *source_snapshot_params))
return HistoryStepResult::InitiatorDisallowed;
}
}
// 4. Let navigablesCrossingDocuments be the result of getting all navigables that might experience a cross-document traversal given traversable and targetStep.
[[maybe_unused]] auto navigables_crossing_documents = get_all_navigables_that_might_experience_a_cross_document_traversal(target_step);
// 5. FIXME: If checkForCancelation is true, and the result of checking if unloading is canceled given navigablesCrossingDocuments, traversable, targetStep,
// and userInvolvementForNavigateEvents is not "continue", then return that result.
(void)check_for_cancelation;
// 6. Let changingNavigables be the result of get all navigables whose current session history entry will change or reload given traversable and targetStep.
auto changing_navigables = move(change_or_reload_navigables);
// 7. Let nonchangingNavigablesThatStillNeedUpdates be the result of getting all navigables that only need history object length/index update given traversable and targetStep.
auto non_changing_navigables_that_still_need_updates = get_all_navigables_that_only_need_history_object_length_index_update(target_step);
// 8. For each navigable of changingNavigables:
for (auto& navigable : changing_navigables) {
// 1. Let targetEntry be the result of getting the target history entry given navigable and targetStep.
auto target_entry = navigable->get_the_target_history_entry(target_step);
// 2. Set navigable's current session history entry to targetEntry.
navigable->set_current_session_history_entry(target_entry);
// 3. Set navigable's ongoing navigation to "traversal".
navigable->set_ongoing_navigation(Traversal::Tag);
}
// 9. Let totalChangeJobs be the size of changingNavigables.
auto total_change_jobs = changing_navigables.size();
// 10. Let completedChangeJobs be 0.
IGNORE_USE_IN_ESCAPING_LAMBDA size_t completed_change_jobs = 0;
// 11. Let changingNavigableContinuations be an empty queue of changing navigable continuation states.
// NOTE: This queue is used to split the operations on changingNavigables into two parts. Specifically, changingNavigableContinuations holds data for the second part.
IGNORE_USE_IN_ESCAPING_LAMBDA Queue<JS::Handle<ChangingNavigableContinuationState>> changing_navigable_continuations;
// 12. For each navigable of changingNavigables, queue a global task on the navigation and traversal task source of navigable's active window to run the steps:
for (auto& navigable : changing_navigables) {
queue_global_task(Task::Source::NavigationAndTraversal, *navigable->active_window(), JS::create_heap_function(heap(), [&] {
// NOTE: This check is not in the spec but we should not continue navigation if navigable has been destroyed.
if (navigable->has_been_destroyed()) {
completed_change_jobs++;
return;
}
// 1. Let displayedEntry be navigable's active session history entry.
auto displayed_entry = navigable->active_session_history_entry();
// 2. Let targetEntry be navigable's current session history entry.
auto target_entry = navigable->current_session_history_entry();
// 3. Let changingNavigableContinuation be a changing navigable continuation state with:
auto changing_navigable_continuation = vm.heap().allocate_without_realm<ChangingNavigableContinuationState>();
changing_navigable_continuation->displayed_document = displayed_entry->document();
changing_navigable_continuation->target_entry = target_entry;
changing_navigable_continuation->navigable = navigable;
changing_navigable_continuation->update_only = false;
changing_navigable_continuation->populated_target_entry = nullptr;
changing_navigable_continuation->populated_cloned_target_session_history_entry = false;
// 4. If displayedEntry is targetEntry and targetEntry's document state's reload pending is false, then:
if (synchronous_navigation == SynchronousNavigation::Yes && !target_entry->document_state()->reload_pending()) {
// 1. Set changingNavigableContinuation's update-only to true.
changing_navigable_continuation->update_only = true;
// 2. Enqueue changingNavigableContinuation on changingNavigableContinuations.
changing_navigable_continuations.enqueue(move(changing_navigable_continuation));
// 3. Abort these steps.
return;
}
// 5. Switch on navigationType:
if (navigation_type.has_value()) {
switch (navigation_type.value()) {
case Bindings::NavigationType::Reload:
// - "reload": Assert: targetEntry's document state's reload pending is true.
VERIFY(target_entry->document_state()->reload_pending());
break;
case Bindings::NavigationType::Traverse:
// - "traverse": Assert: targetEntry's document state's ever populated is true.
VERIFY(target_entry->document_state()->ever_populated());
break;
case Bindings::NavigationType::Replace:
// FIXME: Add ever populated check
// - "replace": Assert: targetEntry's step is displayedEntry's step and targetEntry's document state's ever populated is false.
VERIFY(target_entry->step() == displayed_entry->step());
break;
case Bindings::NavigationType::Push:
// FIXME: Add ever populated check, and fix the bug where top level traversable's step is not updated when a child navigable navigates
// - "push": Assert: targetEntry's step is displayedEntry's step + 1 and targetEntry's document state's ever populated is false.
VERIFY(target_entry->step().get<int>() > displayed_entry->step().get<int>());
break;
}
}
// 6. Let oldOrigin be targetEntry's document state's origin.
auto old_origin = target_entry->document_state()->origin();
// FIXME: 7. If navigable is not traversable, and targetEntry is not navigable's current session history entry,
// and oldOrigin is the same as navigable's current session history entry's document state's origin,
// then fire a traverse navigate event given targetEntry and userInvolvementForNavigateEvents.
auto after_document_populated = [old_origin, changing_navigable_continuation, &changing_navigable_continuations, &vm, &navigable](bool populated_cloned_target_she, JS::NonnullGCPtr<SessionHistoryEntry> target_entry) mutable {
changing_navigable_continuation->populated_target_entry = target_entry;
changing_navigable_continuation->populated_cloned_target_session_history_entry = populated_cloned_target_she;
// 1. If targetEntry's document is null, then set changingNavigableContinuation's update-only to true.
if (!target_entry->document()) {
changing_navigable_continuation->update_only = true;
}
else {
// 2. If targetEntry's document's origin is not oldOrigin, then set targetEntry's classic history API state to StructuredSerializeForStorage(null).
if (target_entry->document()->origin() != old_origin) {
target_entry->set_classic_history_api_state(MUST(structured_serialize_for_storage(vm, JS::js_null())));
}
// 3. If all of the following are true:
// - navigable's parent is null;
// - targetEntry's document's browsing context is not an auxiliary browsing context whose opener browsing context is non-null; and
// - targetEntry's document's origin is not oldOrigin,
// then set targetEntry's document state's navigable target name to the empty string.
if (navigable->parent() != nullptr
&& target_entry->document()->browsing_context()->opener_browsing_context() == nullptr
&& target_entry->document_state()->origin() != old_origin) {
target_entry->document_state()->set_navigable_target_name(String {});
}
}
// 4. Enqueue changingNavigableContinuation on changingNavigableContinuations.
changing_navigable_continuations.enqueue(move(changing_navigable_continuation));
};
// 8. If targetEntry's document is null, or targetEntry's document state's reload pending is true, then:
if (!target_entry->document() || target_entry->document_state()->reload_pending()) {
// FIXME: 1. Let navTimingType be "back_forward" if targetEntry's document is null; otherwise "reload".
// 2. Let targetSnapshotParams be the result of snapshotting target snapshot params given navigable.
auto target_snapshot_params = navigable->snapshot_target_snapshot_params();
// 3. Let potentiallyTargetSpecificSourceSnapshotParams be sourceSnapshotParams.
Optional<SourceSnapshotParams> potentially_target_specific_source_snapshot_params = source_snapshot_params;
// 4. If potentiallyTargetSpecificSourceSnapshotParams is null, then set it to the result of snapshotting source snapshot params given navigable's active document.
if (!potentially_target_specific_source_snapshot_params.has_value()) {
potentially_target_specific_source_snapshot_params = navigable->active_document()->snapshot_source_snapshot_params();
}
// 5. Set targetEntry's document state's reload pending to false.
target_entry->document_state()->set_reload_pending(false);
// 6. Let allowPOST be targetEntry's document state's reload pending.
auto allow_POST = target_entry->document_state()->reload_pending();
// https://github.com/whatwg/html/issues/9869
// Reloading requires population of the active session history entry, making it inactive.
// This results in a situation where tasks that unload the previous document and activate a new
// document cannot run. To resolve this, the target entry is cloned before it is populated.
// After the unloading of the previous document is completed, all fields potentially affected by the
// population are copied from the cloned target entry to the actual target entry.
auto populated_target_entry = target_entry->clone();
// 7. In parallel, attempt to populate the history entry's document for targetEntry, given navigable, potentiallyTargetSpecificSourceSnapshotParams,
// targetSnapshotParams, with allowPOST set to allowPOST and completionSteps set to queue a global task on the navigation and traversal task source given
// navigable's active window to run afterDocumentPopulated.
Platform::EventLoopPlugin::the().deferred_invoke([populated_target_entry, potentially_target_specific_source_snapshot_params, target_snapshot_params, this, allow_POST, navigable, after_document_populated = JS::create_heap_function(this->heap(), move(after_document_populated))] {
navigable->populate_session_history_entry_document(populated_target_entry, *potentially_target_specific_source_snapshot_params, target_snapshot_params, {}, Empty {}, CSPNavigationType::Other, allow_POST, [this, after_document_populated, populated_target_entry]() mutable {
queue_global_task(Task::Source::NavigationAndTraversal, *active_window(), JS::create_heap_function(this->heap(), [after_document_populated, populated_target_entry]() mutable {
after_document_populated->function()(true, populated_target_entry);
}));
})
.release_value_but_fixme_should_propagate_errors();
});
}
// Otherwise, run afterDocumentPopulated immediately.
else {
after_document_populated(false, *target_entry);
}
}));
}
auto check_if_document_population_tasks_completed = JS::SafeFunction<bool()>([&] {
return changing_navigable_continuations.size() + completed_change_jobs == total_change_jobs;
});
if (synchronous_navigation == SynchronousNavigation::Yes) {
// NOTE: Synchronous navigation should never require document population, so it is safe to process only NavigationAndTraversal source.
main_thread_event_loop().spin_processing_tasks_with_source_until(Task::Source::NavigationAndTraversal, move(check_if_document_population_tasks_completed));
} else {
// NOTE: Process all task sources while waiting because reloading or back/forward navigation might require fetching to populate a document.
main_thread_event_loop().spin_until(move(check_if_document_population_tasks_completed));
}
// 13. Let navigablesThatMustWaitBeforeHandlingSyncNavigation be an empty set.
Vector<JS::GCPtr<Navigable>> navigables_that_must_wait_before_handling_sync_navigation;
// 14. While completedChangeJobs does not equal totalChangeJobs:
while (!changing_navigable_continuations.is_empty()) {
// NOTE: Synchronous navigations that are intended to take place before this traversal jump the queue at this point,
// so they can be added to the correct place in traversable's session history entries before this traversal
// potentially unloads their document. More details can be found here (https://html.spec.whatwg.org/multipage/browsing-the-web.html#sync-navigation-steps-queue-jumping-examples)
// 1. If traversable's running nested apply history step is false, then:
if (!m_running_nested_apply_history_step) {
// 1. While traversable's session history traversal queue's algorithm set contains one or more synchronous
// navigation steps with a target navigable not contained in navigablesThatMustWaitBeforeHandlingSyncNavigation:
// 1. Let steps be the first item in traversable's session history traversal queue's algorithm set
// that is synchronous navigation steps with a target navigable not contained in navigablesThatMustWaitBeforeHandlingSyncNavigation.
// 2. Remove steps from traversable's session history traversal queue's algorithm set.
for (auto entry = m_session_history_traversal_queue->first_synchronous_navigation_steps_with_target_navigable_not_contained_in(navigables_that_must_wait_before_handling_sync_navigation);
entry;
entry = m_session_history_traversal_queue->first_synchronous_navigation_steps_with_target_navigable_not_contained_in(navigables_that_must_wait_before_handling_sync_navigation)) {
// 3. Set traversable's running nested apply history step to true.
m_running_nested_apply_history_step = true;
// 4. Run steps.
entry->execute_steps();
// 5. Set traversable's running nested apply history step to false.
m_running_nested_apply_history_step = false;
}
}
// 2. Let changingNavigableContinuation be the result of dequeuing from changingNavigableContinuations.
auto changing_navigable_continuation = changing_navigable_continuations.dequeue();
// 3. If changingNavigableContinuation is nothing, then continue.
// 4. Let displayedDocument be changingNavigableContinuation's displayed document.
auto displayed_document = changing_navigable_continuation->displayed_document;
// 5. Let targetEntry be changingNavigableContinuation's target entry.
JS::GCPtr<SessionHistoryEntry> const populated_target_entry = changing_navigable_continuation->populated_target_entry;
// 6. Let navigable be changingNavigableContinuation's navigable.
auto navigable = changing_navigable_continuation->navigable;
// NOTE: This check is not in the spec but we should not continue navigation if navigable has been destroyed.
if (navigable->has_been_destroyed())
continue;
// 7. Let (scriptHistoryLength, scriptHistoryIndex) be the result of getting the history object length and index given traversable and targetStep.
auto history_object_length_and_index = get_the_history_object_length_and_index(target_step);
auto script_history_length = history_object_length_and_index.script_history_length;
auto script_history_index = history_object_length_and_index.script_history_index;
// 8. Append navigable to navigablesThatMustWaitBeforeHandlingSyncNavigation.
navigables_that_must_wait_before_handling_sync_navigation.append(*navigable);
// 9. Let entriesForNavigationAPI be the result of getting session history entries for the navigation API given navigable and targetStep.
auto entries_for_navigation_api = get_session_history_entries_for_the_navigation_api(*navigable, target_step);
// 12. In both cases, let afterPotentialUnloads be the following steps:
bool const update_only = changing_navigable_continuation->update_only;
JS::GCPtr<SessionHistoryEntry> const target_entry = changing_navigable_continuation->target_entry;
bool const populated_cloned_target_session_history_entry = changing_navigable_continuation->populated_cloned_target_session_history_entry;
auto after_potential_unload = JS::create_heap_function(this->heap(), [navigable, update_only, target_entry, populated_target_entry, populated_cloned_target_session_history_entry, displayed_document, &completed_change_jobs, script_history_length, script_history_index, entries_for_navigation_api = move(entries_for_navigation_api), &heap = this->heap()] {
if (populated_cloned_target_session_history_entry) {
target_entry->set_document_state(populated_target_entry->document_state());
target_entry->set_url(populated_target_entry->url());
target_entry->set_classic_history_api_state(populated_target_entry->classic_history_api_state());
}
// 1. If changingNavigableContinuation's update-only is false, then activate history entry targetEntry for navigable.
if (!update_only)
navigable->activate_history_entry(*target_entry);
// 2. Let updateDocument be an algorithm step which performs update document for history step application given
// targetEntry's document, targetEntry, changingNavigableContinuation's update-only, scriptHistoryLength,
// scriptHistoryIndex, navigationType, entriesForNavigationAPI, and displayedEntry.
auto update_document = [script_history_length, script_history_index, entries_for_navigation_api = move(entries_for_navigation_api), target_entry, update_only] {
target_entry->document()->update_for_history_step_application(*target_entry, update_only, script_history_length, script_history_index, entries_for_navigation_api);
};
// 3. If targetEntry's document is equal to displayedDocument, then perform updateDocument.
if (target_entry->document().ptr() == displayed_document.ptr()) {
update_document();
}
// 5. Otherwise, queue a global task on the navigation and traversal task source given targetEntry's document's relevant global object to perform updateDocument
else {
queue_global_task(Task::Source::NavigationAndTraversal, relevant_global_object(*target_entry->document()), JS::create_heap_function(heap, move(update_document)));
}
// 6. Increment completedChangeJobs.
completed_change_jobs++;
});
// 10. If changingNavigableContinuation's update-only is true, or targetEntry's document is displayedDocument, then:
if (changing_navigable_continuation->update_only || populated_target_entry->document().ptr() == displayed_document.ptr()) {
// 1. Set the ongoing navigation for navigable to null.
navigable->set_ongoing_navigation({});
// 2. Queue a global task on the navigation and traversal task source given navigable's active window to perform afterPotentialUnloads.
queue_global_task(Task::Source::NavigationAndTraversal, *navigable->active_window(), after_potential_unload);
}
// 11. Otherwise:
else {
// 1. Assert: navigationType is not null.
VERIFY(navigation_type.has_value());
// 2. Deactivate displayedDocument, given userNavigationInvolvement, targetEntry, navigationType, and afterPotentialUnloads.
deactivate_a_document_for_cross_document_navigation(*displayed_document, user_involvement_for_navigate_events, *populated_target_entry, after_potential_unload);
}
}
main_thread_event_loop().spin_processing_tasks_with_source_until(Task::Source::NavigationAndTraversal, [&] {
return completed_change_jobs == total_change_jobs;
});
// 15. Let totalNonchangingJobs be the size of nonchangingNavigablesThatStillNeedUpdates.
auto total_non_changing_jobs = non_changing_navigables_that_still_need_updates.size();
// 16. Let completedNonchangingJobs be 0.
IGNORE_USE_IN_ESCAPING_LAMBDA auto completed_non_changing_jobs = 0u;
// 17. Let (scriptHistoryLength, scriptHistoryIndex) be the result of getting the history object length and index given traversable and targetStep.
auto length_and_index = get_the_history_object_length_and_index(target_step);
IGNORE_USE_IN_ESCAPING_LAMBDA auto script_history_length = length_and_index.script_history_length;
IGNORE_USE_IN_ESCAPING_LAMBDA auto script_history_index = length_and_index.script_history_index;
// 18. For each navigable of nonchangingNavigablesThatStillNeedUpdates, queue a global task on the navigation and traversal task source given navigable's active window to run the steps:
for (auto& navigable : non_changing_navigables_that_still_need_updates) {
if (navigable->has_been_destroyed()) {
++completed_non_changing_jobs;
continue;
}
queue_global_task(Task::Source::NavigationAndTraversal, *navigable->active_window(), JS::create_heap_function(heap(), [&] {
// NOTE: This check is not in the spec but we should not continue navigation if navigable has been destroyed.
if (navigable->has_been_destroyed()) {
++completed_non_changing_jobs;
return;
}
// 1. Let document be navigable's active document.
auto document = navigable->active_document();
// 2. Set document's history object's index to scriptHistoryIndex.
document->history()->m_index = script_history_index;
// 3. Set document's history object's length to scriptHistoryLength.
document->history()->m_length = script_history_length;
// 4. Increment completedNonchangingJobs.
++completed_non_changing_jobs;
}));
}
// 19. Wait for completedNonchangingJobs to equal totalNonchangingJobs.
// AD-HOC: Since currently populate_session_history_entry_document does not run in parallel
// we call spin_until to interrupt execution of this function and let document population
// to complete.
main_thread_event_loop().spin_processing_tasks_with_source_until(Task::Source::NavigationAndTraversal, [&] {
return completed_non_changing_jobs == total_non_changing_jobs;
});
// 20. Set traversable's current session history step to targetStep.
m_current_session_history_step = target_step;
// Not in the spec:
auto back_enabled = m_current_session_history_step > 0;
VERIFY(m_session_history_entries.size() > 0);
auto forward_enabled = can_go_forward();
page().client().page_did_update_navigation_buttons_state(back_enabled, forward_enabled);
page().client().page_did_change_url(current_session_history_entry()->url());
// 21. Return "applied".
return HistoryStepResult::Applied;
}
Vector<JS::NonnullGCPtr<SessionHistoryEntry>> TraversableNavigable::get_session_history_entries_for_the_navigation_api(JS::NonnullGCPtr<Navigable> navigable, int target_step)
{
// 1. Let rawEntries be the result of getting session history entries for navigable.
auto raw_entries = navigable->get_session_history_entries();
if (raw_entries.is_empty())
return {};
// 2. Let entriesForNavigationAPI be a new empty list.
Vector<JS::NonnullGCPtr<SessionHistoryEntry>> entries_for_navigation_api;
// 3. Let startingIndex be the index of the session history entry in rawEntries who has the greatest step less than or equal to targetStep.
// FIXME: Use min/max_element algorithm or some such here
int starting_index = 0;
auto max_step = 0;
for (auto i = 0u; i < raw_entries.size(); ++i) {
auto const& entry = raw_entries[i];
if (entry->step().has<int>()) {
auto step = entry->step().get<int>();
if (step <= target_step && step > max_step) {
starting_index = static_cast<int>(i);
}
}
}
// 4. Append rawEntries[startingIndex] to entriesForNavigationAPI.
entries_for_navigation_api.append(raw_entries[starting_index]);
// 5. Let startingOrigin be rawEntries[startingIndex]'s document state's origin.
auto starting_origin = raw_entries[starting_index]->document_state()->origin();
// 6. Let i be startingIndex − 1.
auto i = starting_index - 1;
// 7. While i > 0:
while (i > 0) {
auto& entry = raw_entries[static_cast<unsigned>(i)];
// 1. If rawEntries[i]'s document state's origin is not same origin with startingOrigin, then break.
auto entry_origin = entry->document_state()->origin();
if (starting_origin.has_value() && entry_origin.has_value() && !entry_origin->is_same_origin(*starting_origin))
break;
// 2. Prepend rawEntries[i] to entriesForNavigationAPI.
entries_for_navigation_api.prepend(entry);
// 3. Set i to i − 1.
--i;
}
// 8. Set i to startingIndex + 1.
i = starting_index + 1;
// 9. While i < rawEntries's size:
while (i < static_cast<int>(raw_entries.size())) {
auto& entry = raw_entries[static_cast<unsigned>(i)];
// 1. If rawEntries[i]'s document state's origin is not same origin with startingOrigin, then break.
auto entry_origin = entry->document_state()->origin();
if (starting_origin.has_value() && entry_origin.has_value() && !entry_origin->is_same_origin(*starting_origin))
break;
// 2. Append rawEntries[i] to entriesForNavigationAPI.
entries_for_navigation_api.append(entry);
// 3. Set i to i + 1.
++i;
}
// 10. Return entriesForNavigationAPI.
return entries_for_navigation_api;
}
// https://html.spec.whatwg.org/multipage/browsing-the-web.html#clear-the-forward-session-history
void TraversableNavigable::clear_the_forward_session_history()
{
// FIXME: 1. Assert: this is running within navigable's session history traversal queue.
// 2. Let step be the navigable's current session history step.
auto step = current_session_history_step();
// 3. Let entryLists be the ordered set « navigable's session history entries ».
Vector<Vector<JS::NonnullGCPtr<SessionHistoryEntry>>&> entry_lists;
entry_lists.append(session_history_entries());
// 4. For each entryList of entryLists:
while (!entry_lists.is_empty()) {
auto& entry_list = entry_lists.take_first();
// 1. Remove every session history entry from entryList that has a step greater than step.
entry_list.remove_all_matching([step](auto& entry) {
return entry->step().template get<int>() > step;
});
// 2. For each entry of entryList:
for (auto& entry : entry_list) {
// 1. For each nestedHistory of entry's document state's nested histories, append nestedHistory's entries list to entryLists.
for (auto& nested_history : entry->document_state()->nested_histories()) {
entry_lists.append(nested_history.entries);
}
}
}
}
bool TraversableNavigable::can_go_forward() const
{
auto step = current_session_history_step();
Vector<Vector<JS::NonnullGCPtr<SessionHistoryEntry>> const&> entry_lists;
entry_lists.append(session_history_entries());
while (!entry_lists.is_empty()) {
auto const& entry_list = entry_lists.take_first();
for (auto const& entry : entry_list) {
if (entry->step().template get<int>() > step)
return true;
for (auto& nested_history : entry->document_state()->nested_histories())
entry_lists.append(nested_history.entries);
}
}
return false;
}
// https://html.spec.whatwg.org/multipage/browsing-the-web.html#traverse-the-history-by-a-delta
void TraversableNavigable::traverse_the_history_by_delta(int delta, Optional<DOM::Document&> source_document)
{
// 1. Let sourceSnapshotParams and initiatorToCheck be null.
Optional<SourceSnapshotParams> source_snapshot_params = {};
JS::GCPtr<Navigable> initiator_to_check = nullptr;
// 2. Let userInvolvement be "browser UI".
UserNavigationInvolvement user_involvement = UserNavigationInvolvement::BrowserUI;
// 1. If sourceDocument is given, then:
if (source_document.has_value()) {
// 1. Set sourceSnapshotParams to the result of snapshotting source snapshot params given sourceDocument.
source_snapshot_params = source_document->snapshot_source_snapshot_params();
// 2. Set initiatorToCheck to sourceDocument's node navigable.
initiator_to_check = source_document->navigable();
// 3. Set userInvolvement to "none".
user_involvement = UserNavigationInvolvement::None;
}
// 4. Append the following session history traversal steps to traversable:
append_session_history_traversal_steps([this, delta, source_snapshot_params = move(source_snapshot_params), initiator_to_check, user_involvement] {
// 1. Let allSteps be the result of getting all used history steps for traversable.
auto all_steps = get_all_used_history_steps();
// 2. Let currentStepIndex be the index of traversable's current session history step within allSteps.
auto current_step_index = *all_steps.find_first_index(current_session_history_step());
// 3. Let targetStepIndex be currentStepIndex plus delta
auto target_step_index = current_step_index + delta;
// 4. If allSteps[targetStepIndex] does not exist, then abort these steps.
if (target_step_index >= all_steps.size()) {
return;
}
// 5. Apply the traverse history step allSteps[targetStepIndex] to traversable, given sourceSnapshotParams,
// initiatorToCheck, and userInvolvement.
apply_the_traverse_history_step(all_steps[target_step_index], source_snapshot_params, initiator_to_check, user_involvement);
});
}
// https://html.spec.whatwg.org/multipage/browsing-the-web.html#update-for-navigable-creation/destruction
TraversableNavigable::HistoryStepResult TraversableNavigable::update_for_navigable_creation_or_destruction()
{
// 1. Let step be traversable's current session history step.
auto step = current_session_history_step();
// 2. Return the result of applying the history step to traversable given false, null, null, null, and null.
return apply_the_history_step(step, false, {}, {}, {}, {}, SynchronousNavigation::No);
}
// https://html.spec.whatwg.org/multipage/browsing-the-web.html#apply-the-reload-history-step
TraversableNavigable::HistoryStepResult TraversableNavigable::apply_the_reload_history_step()
{
// 1. Let step be traversable's current session history step.
auto step = current_session_history_step();
// 2. Return the result of applying the history step step to traversable given true, null, null, null, and "reload".
return apply_the_history_step(step, true, {}, {}, {}, Bindings::NavigationType::Reload, SynchronousNavigation::No);
}
TraversableNavigable::HistoryStepResult TraversableNavigable::apply_the_push_or_replace_history_step(int step, HistoryHandlingBehavior history_handling, SynchronousNavigation synchronous_navigation)
{
// 1. Return the result of applying the history step step to traversable given false, null, null, null, and historyHandling.
auto navigation_type = history_handling == HistoryHandlingBehavior::Replace ? Bindings::NavigationType::Replace : Bindings::NavigationType::Push;
return apply_the_history_step(step, false, {}, {}, {}, navigation_type, synchronous_navigation);
}
TraversableNavigable::HistoryStepResult TraversableNavigable::apply_the_traverse_history_step(int step, Optional<SourceSnapshotParams> source_snapshot_params, JS::GCPtr<Navigable> initiator_to_check, UserNavigationInvolvement user_involvement)
{
// 1. Return the result of applying the history step step to traversable given true, sourceSnapshotParams, initiatorToCheck, userInvolvement, and "traverse".
return apply_the_history_step(step, true, move(source_snapshot_params), initiator_to_check, user_involvement, Bindings::NavigationType::Traverse, SynchronousNavigation::No);
}
// https://html.spec.whatwg.org/multipage/document-sequences.html#close-a-top-level-traversable
void TraversableNavigable::close_top_level_traversable()
{
VERIFY(is_top_level_traversable());
// 1. Let toUnload be traversable's active document's inclusive descendant navigables.
auto to_unload = active_document()->inclusive_descendant_navigables();
// FIXME: 2. If the result of checking if unloading is user-canceled for toUnload is true, then return.
// 3. Unload the active documents of each of toUnload.
for (auto navigable : to_unload) {
navigable->active_document()->unload();
}
// 4. Destroy traversable.
destroy_top_level_traversable();
}
// https://html.spec.whatwg.org/multipage/document-sequences.html#destroy-a-top-level-traversable
void TraversableNavigable::destroy_top_level_traversable()
{
VERIFY(is_top_level_traversable());
// 1. Let browsingContext be traversable's active browsing context.
auto browsing_context = active_browsing_context();
// 2. For each historyEntry in traversable's session history entries:
for (auto& history_entry : m_session_history_entries) {
// 1. Let document be historyEntry's document.
auto document = history_entry->document();
// 2. If document is not null, then destroy document.
if (document)
document->destroy();
}
// 3. Remove browsingContext.
if (!browsing_context) {
dbgln("TraversableNavigable::destroy_top_level_traversable: No browsing context?");
} else {
browsing_context->remove();
}
// 4. Remove traversable from the user interface (e.g., close or hide its tab in a tabbed browser).
page().client().page_did_close_top_level_traversable();
// 5. Remove traversable from the user agent's top-level traversable set.
user_agent_top_level_traversable_set().remove(this);
// FIXME: Figure out why we need to do this... we shouldn't be leaking Navigables for all time.
// However, without this, we can keep stale destroyed traversables around.
set_has_been_destroyed();
all_navigables().remove(this);
}
// https://html.spec.whatwg.org/multipage/browsing-the-web.html#finalize-a-same-document-navigation
void finalize_a_same_document_navigation(JS::NonnullGCPtr<TraversableNavigable> traversable, JS::NonnullGCPtr<Navigable> target_navigable, JS::NonnullGCPtr<SessionHistoryEntry> target_entry, JS::GCPtr<SessionHistoryEntry> entry_to_replace, HistoryHandlingBehavior history_handling)
{
// NOTE: This is not in the spec but we should not navigate destroyed navigable.
if (target_navigable->has_been_destroyed())
return;
// FIXME: 1. Assert: this is running on traversable's session history traversal queue.
// 2. If targetNavigable's active session history entry is not targetEntry, then return.
if (target_navigable->active_session_history_entry() != target_entry) {
return;
}
// 3. Let targetStep be null.
Optional<int> target_step;
// 4. Let targetEntries be the result of getting session history entries for targetNavigable.
auto& target_entries = target_navigable->get_session_history_entries();
// 5. If entryToReplace is null, then:
// FIXME: Checking containment of entryToReplace should not be needed.
// For more details see https://github.com/whatwg/html/issues/10232#issuecomment-2037543137
if (!entry_to_replace || !target_entries.contains_slow(JS::NonnullGCPtr { *entry_to_replace })) {
// 1. Clear the forward session history of traversable.
traversable->clear_the_forward_session_history();
// 2. Set targetStep to traversable's current session history step + 1.
target_step = traversable->current_session_history_step() + 1;
// 3. Set targetEntry's step to targetStep.
target_entry->set_step(*target_step);
// 4. Append targetEntry to targetEntries.
target_entries.append(target_entry);
} else {
// 1. Replace entryToReplace with targetEntry in targetEntries.
*(target_entries.find(*entry_to_replace)) = target_entry;
// 2. Set targetEntry's step to entryToReplace's step.
target_entry->set_step(entry_to_replace->step());
// 3. Set targetStep to traversable's current session history step.
target_step = traversable->current_session_history_step();
}
// 6. Apply the push/replace history step targetStep to traversable given historyHandling.
traversable->apply_the_push_or_replace_history_step(*target_step, history_handling, TraversableNavigable::SynchronousNavigation::Yes);
}
// https://html.spec.whatwg.org/multipage/interaction.html#system-visibility-state
void TraversableNavigable::set_system_visibility_state(VisibilityState visibility_state)
{
if (m_system_visibility_state == visibility_state)
return;
m_system_visibility_state = visibility_state;
// When a user-agent determines that the system visibility state for
// traversable navigable traversable has changed to newState, it must run the following steps:
// 1. Let navigables be the inclusive descendant navigables of traversable's active document.
auto navigables = active_document()->inclusive_descendant_navigables();
// 2. For each navigable of navigables:
for (auto& navigable : navigables) {
// 1. Let document be navigable's active document.
auto document = navigable->active_document();
VERIFY(document);
// 2. Queue a global task on the user interaction task source given document's relevant global object
// to update the visibility state of document with newState.
queue_global_task(Task::Source::UserInteraction, relevant_global_object(*document), JS::create_heap_function(heap(), [visibility_state, document] {
document->update_the_visibility_state(visibility_state);
}));
}
}
// https://html.spec.whatwg.org/multipage/interaction.html#currently-focused-area-of-a-top-level-traversable
JS::GCPtr<DOM::Node> TraversableNavigable::currently_focused_area()
{
// 1. If traversable does not have system focus, then return null.
if (!is_focused())
return nullptr;
// 2. Let candidate be traversable's active document.
auto candidate = active_document();
// 3. While candidate's focused area is a navigable container with a non-null content navigable:
// set candidate to the active document of that navigable container's content navigable.
while (candidate->focused_element()
&& is<HTML::NavigableContainer>(candidate->focused_element())
&& static_cast<HTML::NavigableContainer&>(*candidate->focused_element()).content_navigable()) {
candidate = static_cast<HTML::NavigableContainer&>(*candidate->focused_element()).content_navigable()->active_document();
}
// 4. If candidate's focused area is non-null, set candidate to candidate's focused area.
if (candidate->focused_element()) {
// NOTE: We return right away here instead of assigning to candidate,
// since that would require compromising type safety.
return candidate->focused_element();
}
// 5. Return candidate.
return candidate;
}
}